JP2021154091A - Exercise line engaging system - Google Patents

Abstract

To address the desire of laterally stretching a plurality of exercise lines made of various types, with their heights changed respectively, however, rod members for stabilizing them even when a load applied thereto and detachably fixing the plurality of exercise lines, and poles capable of changing the fitting angle and heights are not prepared.SOLUTION: An exercise line engaging system: comprises engagement parts capable of simultaneously engaging a plurality of exercise lines and extending in a lateral direction, provided on a rod-like member 3, two or more poles 10 including height adjustment fixing parts capable of adjusting the height of the rod-like member 3 and defined as one unit, and an obliquely installation function capable of obliquely installing the rod-like member 3, such as horizontally or obliquely, and formed into a column; and can engage various exercise lines to the plurality of rod-like members between the units by using connectors, etc. Alternatively, the system can be expanded by combining the units and can be attached to volley poles, tennis poles, etc. standing upright on an installation surface to increase the stability.SELECTED DRAWING: Figure 11

Description

The present invention relates to an exercise line locking system that locks an exercise line for line sports.

Line sports is a term coined by the present inventor, and is composed of one or more soft rubber-like low tensile force lines, thin belt-shaped lines of chemical fibers such as nylon with a width of about 2 cm, or cars. In addition to lines with strong tensile force such as tow ropes and ring-shaped lines, pole-shaped lines such as aluminum and laser beam lines that form a linear body including infrared rays are made into rod-shaped members with a length of at least 100 cm. In a plan view, a plurality of lines are combined in the horizontal direction or the vertical direction. The line is basically a rod-shaped member that extends in the lateral direction and a rod-shaped member that extends in the lateral direction by basically arranging two exercise line locking units that consist of columns that support the rod-shaped member above the installation surface so that they face each other in parallel. Multiple exercise lines can be freely attached to the members by exchanging them, and the exercise lines are attached between the units within a height range of 0 cm to about 300 cm, and the exercise lines are used to perform the exercise so far. There are no new sports or training. In addition, by combining the units according to the situation, it is possible to attach the exercise line in three dimensions from all directions, such as the horizontal four directions and the upper vertical direction, for exercise that does not exist in the past. It is a line locking system.

Special table 2019-508215 JP-A-2019-097905

The present invention uses parallel exercise line locking units that face each other at intervals, made of rubber-like elastic lines, thin belt-like lines, ropes, grid-like ropes, metal or plastic. Using lines containing poles, rays such as lasers and infrared rays, and sensors, one or more lines can be used on the installation surface of gymnasiums, sports gyms, outdoor grounds, etc., and these various types of exercise lines can be viewed in a plan view. The height and width can be freely adjusted in the horizontal direction or in the vertical and vertical directions, and the exercise line can be fixed in multiple stages or rows, including horizontal, upright, slanted, and suspended, to make the exercise line plane or three-dimensional. New to perform various exercises such as combination locking, arranging, jumping over those lines, diving underneath, touching with toes, knees, thighs, elbows, hands, etc., walking on, stepping, hanging, pulling, etc. Although it is a sport, equipment that replaces these various lines on the installation surface and locks them three-dimensionally at different heights and intervals is required, but such equipment is not found.
Even in the trampoline device of Patent Document 1, it seems possible to stretch the exercise line from four sides to one step almost horizontally, but various types of lines can be exchanged according to the application, and a plurality of other lines can be used. It is not possible to set any height in several steps up and down, and to set a line in the vertical direction to set any width or any inclination angle, and the range of use is limited to the trampoline frame, one row. It is an instrument that can arrange exercise lines only by itself.
The slack line strut of Patent Document 2 is also composed of one upright strut, which is the same as the volleyball strut used for fixing the slack line, and the height of only one type of slack line is 1 m. It is a strut that is only arranged between the strut that faces almost horizontally in the range of less than, and multiple lines for exercise of various types are installed at the same time in the horizontal direction in a plan view with a substantially horizontal or slant. Or, it is an instrument that is not supposed to be arranged by changing and adjusting the fixed position, or by combining and locking in a plane or three-dimensionally at various heights and various intervals in the vertical direction.
Therefore, it is necessary to have equipment and means for simultaneously locking and arranging a plurality of various types of exercise lines in a three-dimensional manner including the horizontal direction and the vertical direction in a plan view.

When these line sports are performed in gymnasiums, sports gyms, outdoor grounds, etc., the rod-shaped members, fasteners, and struts as tools for supporting, fixing, and locking the line are only volleyball, badminton, and tennis poles, and are high. Since there is no existing fastener that stretches multiple lines in the horizontal direction while changing the speed, it is possible to stretch a rubber-like line with weak tensile force or a belt-like line such as chemical fiber if it is about one line. When two or more of these lines, and ten or more of them are stretched at equal intervals with a width of about 50 cm in the horizontal direction in a plan view, the height of these lines can be freely changed, and the fasteners themselves are also lines. Since there is no rod-shaped member as a sports equipment that extends laterally to stretch a plurality of lines and has a locking means for locking the line, it is not possible to perform line sports with the target line stretched. Assuming that two pedestals shaped like a so-called balance beam, which have legs as bases at both ends of a horizontal bar with a length of 5 m or more, are placed side by side, and lines are laid at equal intervals on the pedestals, but it is constant. It is possible to connect and stretch multiple lines at the height of It is difficult to change and fix it freely, and new equipment is required to achieve these purposes, but no such means can be found.
In the aging era, elderly people will also need balance training, but in the case of rubber, strings, and ropes with strong tensile force, they may get caught and trip over. If it is a rubber cord with a weak tensile force that does not fall even if it gets caught, it will sag when lifted in the air and it will be difficult to fix it. You also need an exercise line that won't get caught and fall.
For example, the exercise line locking system enables the following line sports, and it is also possible to combine them.
(1) Line dance training while taking steps like dance, such as jumping over multiple lines stretched horizontally at a height of 0 cm to 30 cm, or swinging your legs higher than the lines.
(2) Line squat training in which the body is shrunk and passed under multiple lines stretched in parallel at a height of about 1 m, and while stretching the body in the opposite direction, the body moves from side to side, back and forth.
(3) Using multiple lines of 5 or more, make a grid with an interval of about 50 cm in the front, back, left and right, and fix it at a height of about 0 cm on the surface of the floor. Square block training that is more complicated than the ladder training currently adopted in various sports fields by taking various steps in the direction and can train the sense of balance, core ability, and image ability.
(4) The surface of the floor is approximately 0 cm to 10 cm in height, and five or more lines are used, and at the same time as the exercise lines stretched in a grid pattern on the front, back, left and right, the height is about 150 cm and the intervals are 50 cm. In a row of straight lines with five or more straight lines parallel, the legs step left and right, and the upper body moves forward in the direction of the upper line so as not to touch the left and right lines. Slalom training that goes through the line where the height of the line is stretched over two steps.
(5) On a belt-shaped flat line with a width of about 2.5 to 5 cm, a length of about 16 m, and a strong tension of 1000 kg or more, which is becoming very popular all over the world. Tightrope walking training with balance maintenance assistance that allows you to set up a tightrope walking sports line for walking, flying, somersaults, etc., and at the same time, set up a balance maintenance line on both sides or one side.
(6) Training that stretches multiple exercise lines in the vertical direction from top to bottom and runs through the stretched lines in a zigzag manner like skiing.
(7) In the space expanded by the exercise line locking unit in the horizontal and vertical directions, the lines are stretched at various heights and angles from all sides, and further vertically downward or at an oblique angle from overhead. Training to go through the vertical line with the line without touching the line.
(8) By using an exercise line that uses laser light as the exercise line, it is possible to prevent the person from getting caught and falling.
All of this is possible, a line sport that can be performed using different lines and in different combinations, a new sport that children, the elderly and athletes can safely enjoy, training and recreation. A possible and transportable exercise line locking system.
Conventionally, for example, in sports equipment in which a plurality of lines are fixed in a horizontal direction in a plan view, a mesh-like rope is horizontally placed in a wood frame fixed at a height of about 1 m, which is permanently installed in field athletics. There is a net crossing (net climbing that climbs a slope) that you can enjoy by stretching and crossing over it, and a rope crossing that crosses over two horizontally stretched ropes with both hands and feet, but all the nets and ropes are one. It is not a sports equipment that is fixed to a wooden frame and can be easily replaced with other ropes or lines to change the purpose or play item.
Even with the trampoline device of Patent Document 1 described above, it seems possible to stretch lines from all directions substantially horizontally, but in addition to exchanging various types of lines according to the application, any height of the lines can be used. , It is an instrument that cannot be set to any width or any angle, and can be used only within the trampoline frame.
As mentioned above, even with trampoline equipment, it seems possible to remove the trampoline net and stretch multiple exercise lines from all sides at a substantially constant height, but in the vertical direction. It is not possible to install exercise lines from all sides in multiple stages. In addition, it does not have multiple locking methods for various types of lines depending on the application, and it is not possible to attach / detach or replace the line, set any height, any width or any angle of the line, and The range in which the root line can be arranged is only within the trampoline frame, and it is an instrument that cannot be expanded.
The slack line strut of Patent Document 2 described above is also composed of one upright strut, which is the same as the volleyball strut used for fixing the slack line. The columns are only arranged between the columns facing each other in a range of less than 1 m.

It is necessary to provide a means for individually exchanging the part for locking the line and the rod-shaped member to be the main body, and at the same time, providing a means for individually using the locking part other than the rod-shaped body. be.

It is necessary to lock a plurality of exercise lines on the support column and to provide a means for locking more lines.

One rod-shaped member supported by the support column locks and arranges multiple exercise lines in a horizontal direction in a row in a plan view, and also exercises by fixing two or more rod-shaped members to the support column. It is necessary to further change the height of the line up and down, lock it so that it has multiple stages in horizontal view, and provide means so that it can be arranged in multiple stages on the rod-shaped members of the opposing columns. be.

It is necessary to provide a means capable of arranging a plurality of exercise lines not only in the horizontal direction, which is the direction facing each other, but also in the vertical direction or the vertical direction.

When you want to lock the exercise line and change the height to be arranged to the desired height, it is necessary to provide a means for adjusting the height of the rod-shaped member to which the exercise line is locked in the support column. be.

A means that enables the height-adjustable part and the main body support when they need to be replaced, and at the same time, the height-adjustable part can be used individually in addition to the support. It is necessary to have means.

When it becomes necessary to perform horizontal fixing and diagonal fixing of multiple rod-shaped members at the same time between two or more supported columns, the lengths of the fixed parts are different, so the columns stand upright. In order to fix each of them, a function for slanting is required, and it is necessary to provide means for enabling this slanting.

When multiple rod-shaped members are fixed and integrated between the columns, it is inconvenient for transportation and installation, including manufacturing and formation, and when it becomes necessary to add and use each individually, these It is necessary to have a means to solve the problem.

It is necessary to expand the support or rod-shaped member to the exercise line locking unit, add a new exercise line locking unit or combine the units to connect horizontally, or use a single rod-shaped member and support. It is necessary to provide means to enable each of them individually when the above occurs.

In line sports where the line is not loaded, it is possible to place an exercise line locking unit consisting of only a stable base, pillars, and horizontal rod-shaped members, but the exercise line can be used. When performing line sports where a large load is applied, it is necessary to provide a rod-shaped member for locking the exercise line and a means for further improving the stability of the support column.

When performing line sports in a large ground or gymnasium, the installation space can be secured even if the exercise line locking unit is used in pairs, but in a room where the space is limited, the exercise line locking unit with a base is used for competition. There is a problem that space is limited.

The invention of claim 1 is an exercise line locking system in which at least two exercise line locking units extending horizontally in a plan view are arranged in a row on an installation surface to lock an exercise line, and the exercise line locking system is described. The line locking unit is a rod-shaped member provided with locking portions capable of locking the exercise line at a plurality of locations, which can be attached and detached by using a locking means, and substantially both sides of the rod-shaped member. The rod-shaped member and the support column are fixed so as to have two or more columns supported on the installation surface so that the side surfaces of the rod-shaped members of the exercise line locking unit in a row face each other substantially. An exercise line clerk characterized in that the exercise lines are arranged on the installation surface at intervals and the exercise lines can be arranged between the exercise line locking units in the row via the locking portions. It is about the stop system.

According to the second aspect of the present invention, the rod-shaped member is formed so as to be separable into a rod-shaped member body not including the locking portion and a locking portion having the locking portion, and is detachably fixed by a fixture. The present invention relates to the line locking system for strut movement according to claim 1, wherein each of them can be used individually.

According to the third aspect of the present invention, the support column is detachable by using the locking means, and the support column side locking portion capable of locking the exercise line at a plurality of places extends from the upper end to the lower end of the three-dimensional surface of the support column. The present invention relates to the exercise line locking system according to claim 1 or 2, wherein one or more of them are provided.

The exercise line locking unit according to claim 4, wherein at least two rod-shaped members are fixed to the exercise line locking unit. It is about the system.

The invention of claim 5 is an exercise line in a vertical direction using the locking means with a locking portion provided on at least two rod-shaped members fixed to the exercise line locking unit. The present invention relates to the exercise line locking system according to claim 4, wherein at least one of the two can be locked.

The invention of claim 6 is characterized in that the height of the rod-shaped member is provided in the support column so that the height of the rod-shaped member can be freely adjusted by using the height adjusting and fixing means. It relates to the exercise line locking system according to any one item.

According to the invention of claim 7, the support column is formed so as to be separable into a support body not including the height adjustment fixing portion and a height adjustment fixing portion having the height adjustment fixing portion, and can be attached and detached by the fixture. The present invention relates to the exercise line locking system according to claim 6, wherein the exercise line locking system is fixed to the above and can be used individually.

The invention of claim 8 is characterized in that the exercise line locking unit has an oblique function capable of horizontally fixing or obliquely fixing two or more rod-shaped members to be fixed. The present invention relates to the exercise line locking system according to claim 6 or 7.

The invention of claim 9 is any of claims 1 to 8, wherein the individually formed rod-shaped member and the support column are detachably fixed, and each of them can be separated and used individually. The present invention relates to the exercise line locking system according to claim 1.

According to a tenth aspect of the present invention, the exercise line locking unit is a rod-shaped member that can be individually used, a strut that can be used individually, or at least one of the exercise line locking units in a horizontal direction using a connecting means. The present invention relates to the exercise line locking system according to claim 9, wherein the two can be connected.

According to an eleventh aspect of the present invention, the exercise line locking unit includes a gripping and fixing means for gripping and fixing an upright tubular cylinder inserted into a pole receiving port provided on an installation surface, and the gripping and fixing means has a grip. The present invention relates to the exercise line locking system according to any one of claims 1 to 10, wherein the tubular body can be gripped by the portion.

According to a twelfth aspect of the present invention, at least one of the individually usable columns or the individually usable height adjusting fixing body can be fixed to an upright surface close to the installation surface by a second fixing means. The present invention relates to the exercise line locking system according to claim 7.

According to the present invention of claim 1, it is an exercise line locking system in which at least two exercise line locking units extending horizontally in a plan view are arranged as a row on an installation surface to lock an exercise line. The rod-shaped member extending horizontally in a plan view is provided with a rod-shaped locking portion for the purpose of locking a plurality of types of exercise lines that can be attached and detached by using a locking means at a plurality of locations. An exercise line locking unit equipped with two or more columns that support members from both sides on the installation surface becomes one unit unit, and is used for indoor facilities such as gymnasiums and training gyms, outdoor exercise grounds, sports gyms, etc. On installation surfaces, including space-saving rooms and movable containers, at least two exercise line locking units are lined up, with the sides of the rod-shaped members facing each other and facing each other at intervals. At least one type of exercise line or a plurality of types of exercise lines are selected from among the exercise lines for preparing multiple types of various materials, shapes, and types between the locking portions of the above. , From the locking parts provided at multiple locations, lock at multiple locations using locking means such as line fasteners and fixtures at intervals according to the application, and for all locked exercises. By arranging the lines so as to stretch over the locking portion of the exercise line locking unit facing each other, the exercise line locking system has a plurality of exercise lines stretched in the horizontal direction on the installation surface in a plan view. There is an effect that it is possible to perform various exercises according to the purpose by using these exercise lines.

According to the present invention of claim 2, the rod-shaped member body not including the locking portion and the locking portion having the locking portion are formed so as to be separable, and are detachably fixed by a fixture. By making each of them individually usable, even if the locking part fixed to the rod-shaped member is damaged, only the locking part can be replaced, and the exercise line locking system can be used. There is an effect that the locking portion can be attached to other than the rod-shaped member.

According to the third aspect of the present invention, the strut is detachable by using a locking means, and a strut-side locking portion capable of locking the exercise line is provided from the upper end to the lower end of the three-dimensional surface of the strut. By providing one or more, the exercise line locking system has an effect that a plurality of exercise lines can be locked on the support column.

According to the present invention of claim 4, the exercise line locking unit has at least two rod-shaped members fixed to the two or more rod-shaped members which are also included in the facing exercise line locking units. In addition to locking and arranging a plurality of various exercise lines in parallel in the horizontal direction in a plan view, the height is changed between the upper and lower rod-shaped members that further face the exercise lines. It can be locked and arranged in parallel so that there are multiple stages in horizontal view, and between the upper rod-shaped member fixed to the unit on one side and the lower rod-shaped member fixed to the facing unit. By arranging the exercise line diagonally with a head in a horizontal view, the exercise line locking system has an effect of enabling an inclined arrangement having an inclination angle.

According to the present invention of claim 5, the locking means of the unit provided in at least two rod-shaped members fixed to the exercise line locking unit is used in the vertical direction. By allowing at least one exercise line to be locked, the exercise line locking system locks the exercise line between the locking portions of two rod-shaped members fixed above and below one unit. This has the effect of making it possible to stand upright so that the exercise line stands upright in the vertical and vertical directions, suspend it so that it hangs, and fix the upper and lower parts.

According to the sixth aspect of the present invention, the height of the rod-shaped member can be freely adjusted by using the height adjusting and fixing means, and the height of the rod-shaped member is increased by having the height adjusting and fixing portion on the support column. By freely changing the height, the height of the exercise line locked to the locking portion can also be adjusted, and the exercise line locking system can be installed within the range provided by the height adjustment fixing portion. There is an effect that a plurality of various exercise lines can be arranged in the horizontally long direction at a desired height.

According to the present invention of claim 7, the strut body not including the height adjusting fixing portion and the height adjusting fixing portion having the height adjusting fixing portion are formed so as to be separable, and the fixture can be attached and detached. By fixing with, each can be used individually, so even if the height adjustment fixing part fixed to the strut body is damaged, the exercise line locking system can only use the height adjustment fixing part. In addition to being able to be replaced, there is the effect that the height adjustment fixing body can be attached to other than the columns.

According to the present invention of claim 8, the exercise line locking unit has an oblique function capable of horizontally fixing or obliquely fixing two or more rod-shaped members to be fixed. By providing the locking unit, the exercise line locking system is provided with a plurality of exercise line locking systems arranged at substantially the same height in a horizontal plane locked to a rod-shaped member fixed substantially horizontally to the installation surface. The horizontal arrangement of the lines and the oblique arrangement of the exercise lines, which have different heights depending on the rod-shaped members fixed at an oblique angle with respect to the installation surface, determine the arrangement position of the exercise line locking unit. There is an effect that can be done at the same time without moving.

According to the present invention of claim 9, the individually formed rod-shaped member and the support column are detachably fixed, and by separating each of them so that they can be used individually, a line locking system for exercise can be used. Is the effect of expanding the support or rod-shaped member to the exercise line locking unit, constructing a new exercise line locking unit, and making each of them usable when it becomes necessary to use a single rod-shaped member and support. There is.

According to the tenth aspect of the present invention, the exercise line locking unit is a rod-shaped member that can be used individually, a strut that can be used individually, or the exercise line locking unit in a horizontal direction using a connecting means. By making it possible to connect at least one of the above, it is possible to connect the rod-shaped member, the support column, and the exercise line locking unit in the horizontal direction, and expand the space in which the exercise line can be arranged. There is an effect.

According to the present invention of claim 11, the exercise line locking unit includes a gripping and fixing means for gripping and fixing a tubular cylinder that is inserted into a pole receiving port provided on an installation surface and stands upright, and the gripping and fixing means. Since the tubular cylinder can be gripped by the grip portion of the body, the exercise line locking unit is inserted into the pole receiving port provided on the installation surface, and the upright tubular cylinder can be fixed, so that the exercise line engagement unit can be fixed. The stopping system has the effect of suppressing the movement and displacement of the exercise line locking unit and improving the stability.

According to the twelfth aspect of the present invention, the individually usable columns and the individually usable height adjusting fixing portions can be fixed to an upright surface close to the installation surface by a second fixing means. As a result, the exercise line locking system can save the space required for the base by attaching the height adjustment fixing body to the wall that becomes the upright surface of the room where the exercise space is limited, the gymnasium, etc., and is upright. There is an effect that the rod-shaped member can be fixed to the surface via the height adjustment fixing portion.

It is an overall view of the exercise line locking system in which a plurality of exercise lines of one or more types are arranged in the lateral direction. It is a front view of a rod-shaped member strut sandwiching type unit (a) of the exercise line locking unit classified into two, and the front view of a rod-shaped member strut crossing type unit (b). It is explanatory drawing which shows the cross-sectional view and the shape of the rod-shaped member of various kinds. It is a perspective view which shows the rod-shaped member provided with the locking part of various structures and the locking tool, (a) is the locking part connector which is adapted to the round concave locking part, and (b) is the concave rail locking part. The applicable slide rail and locking portion connector, (c) is an explanatory view of the convex rail locking portion applicable slide rail and locking portion connector. It is the schematic explaining the shape of the support column. It is the schematic explaining the shape of the base for a support. It is a schematic diagram of various exercise lines. (A) is an overall view of the exercise line locking system in which various exercise lines are arranged on the upper, front, and lower parts of the rod-shaped member, and (b) is all three exercise line locking units arranged in parallel. It is an overall view which arranged the side surfaces of the rod-shaped member so that they face each other, and arranged the exercise line. It is the schematic which shows the state which the rod-shaped member was separated into each constituent material, and (a), (b), (c) is the schematic diagram which shows the locking part of a different structure. (D) is a schematic view showing a rod-shaped member body which does not include a locking portion. It is a schematic diagram of an exercise line locking unit using a strut provided with a strut side locking portion, (a) is a strut provided with a strut side round concave locking portion, and (b) is a strut side concave rail locking. This is an example of using a support column provided with a part. Further, (c) is a schematic view illustrating an elastic material locking portion connector for winding and locking. It is an overall view of the exercise line locking system in which different exercise lines are arranged in the exercise line locking unit having two or more rod-shaped members at the top and bottom. It is a schematic diagram which shows the exercise line locking unit which has two rod-shaped members in the upper and lower sides, (a) is the use example of the rod-shaped member strut sandwiching type unit, and (b) is the use example of the rod-shaped member strut crossing type unit. FIG. 5 is a schematic view in which an exercise line is vertically arranged between two rod-shaped members of the exercise line locking unit. It is a schematic diagram of the exercise line locking system which shows the state which shows the state which the rod-shaped member is fixed to arbitrary height by the height adjustment fixing means of the rod-shaped member provided in the column, and the exercise line is arranged. ) Indicates the height of the floor surface, and (b) indicates the state of being arranged on the upper part of the column. It is a schematic view of a support column provided with various height adjustment fixing parts, (a) is a round concave double type, (b) is a rectangular concave double type, (c) is a rail type, and (d) is an extension. Fixed type pillar Represents a round concave compound type fixed part body. (A) is a front view of a rod-shaped member support holding type unit having a height adjustment fixing portion, and (b) is a top view. Various perspective views of rod-shaped member fixtures that are compatible with the pillars of the rod-shaped member strut sandwiching type unit having a height adjustment fixing portion, (a) is a bolt-type fixture, and (b) is a T-shaped orthogonal clamp type. Unit fixture, (c) is height adjustment slide, (c-1) is rail slide stopper (7e) and lock type height adjustment slide (17c), (d) is single clamp type unit fixture. , (E) is a T-shaped orthogonal clamp type unit fixture, (f) is a bolt type fixture for a concave fixing portion, and (g) is a chain type fixture for a round concave fixing portion of a rod-shaped member on the support column side. be. (A) is a front view of a rod-shaped member strut crossing type unit having a height adjusting fixing portion, (b) is a side view, and (c) is a top view. It is a schematic diagram which shows the support of the rod-shaped member strut crossing type unit having a height adjustment fixing part, the fixing method of a rod-shaped member, and various fixtures of a compatible rod-shaped member, and (a) is an example of use of a bolt type fixture, (a). b) shows an example of using a slide rail and a bolt type fixture, (c) shows an example of using an orthogonal clamp type unit fixture, and (d) shows a height adjusting slide bolt. It is explanatory drawing which shows the state which the column is separated into each constituent material, (a) is a separated column, (b) is a column side locking part, (c) is a round concave height adjustment fixed body, ( d) is a rail height adjustment fixed body, and (e) is a clear drawing showing a reinforced height adjustment fixed body. It is an overall view of the exercise line locking system in which two rod-shaped members are fixed at different angles on the upper and lower sides of a rod-shaped member strut sandwiching type unit having an oblique function, and different exercise lines are arranged for each. It is a front view which fixed two extension fixed type rod-shaped members with different mounting angles up and down required for oblique installation in a rod-shaped member strut sandwiching type unit. It is a schematic view which shows the state which the height adjustment slide rail fixture which has the slanting function of a rod-shaped member is attached to the height adjustment fixing part of the rod-shaped member support pinch type unit, and (a) shows the state of the connecting part. (B) shows the connected state and the members used. It is a figure which shows the embodiment of the extension fixed type rod-shaped member (4) for slanting, (a) is the side view of the extended fixed type rod-shaped member (4), and (b) is the extended fixed type rod-shaped member. It becomes a fastener for fixing the extension freely. It is a schematic diagram which shows the exercise line locking unit which arranged the oblique rod-shaped member and the horizontally arranged rod-shaped member, (a) shows the rod-shaped member strut crossing type unit, and (b) is used for the unit. A rod-shaped member having a round concave double fixing portion is shown, and (c) shows a partially enlarged view of the rectangular concave double fixing portion. It is the schematic which shows the state which the support | support of the bar-shaped member support column cross type unit and the bar-shaped member are fixed by the universal clamp type unit fixture. (A) is a rail locking portion used when a rail fixing portion is used for the rod-shaped member side strut fixing portion of the rod-shaped member, (b) is a rail locking portion, and (c) is a round concave locking portion. It is the schematic which showed the connection tool between use and support. (A) is a schematic view showing a vertical / horizontal right-angled slide portion, and (b) is a schematic view showing a vertical / left / right slide rail rotation fixture. In the rod-shaped member strut crossing type unit, the height adjustment rail fixing part is used on the strut side, and the rod-shaped member side strut rail fixing part is used on the rod-shaped member, and the slide rail itself is connected and fixed by the vertical / horizontal slide rail rotation fixtures. It is a schematic diagram which shows. A perspective view (a) of a common rod-shaped member which is a rod-shaped member that can be used individually, a perspective view (b) of a common strut, and a front view of a second exercise locking unit composed of the common rod-shaped member and the common strut ( c). It is the schematic which shows the exercise line locking unit of various shapes which the exercise line locking unit was expanded and formed by the connecting means. It is a schematic diagram which shows the exercise line locking system which expanded formed and arranged the exercise line locking unit in a quadrangular shape by the connecting means. FIG. 5 is a schematic view of an exercise line locking system in which an exercise line locking unit is formed and arranged in a square shape by a connecting means, and lines are arranged between four rod-shaped members. A state in which individually usable rod-shaped members or rod-shaped members of the second exercise line locking unit are vertically crossed and connected in a right-angled direction by using a connecting means to the rod-shaped member of the exercise line locking unit. It is a perspective view which shows. It is a front view of the extension fixed type support which supports a rod-shaped member from below. It is a schematic diagram of the exercise line locking system which is another embodiment which bridge-connects between the exercise line locking units in a row by a rod-shaped member, and uses the pole-shaped line hung down on the bridging rod-shaped member. (A) is an overall view in which the pole-shaped movement line is suspended so as to be suspended vertically, (b) is a top view in which the reinforced locking body and the rod-shaped member are fixed to the installation surface, and (c) is a top view. It is a figure which shows the embodiment of the whole view which connected the support column body and the rod-shaped member body which used the truss system member. It is a front view of the exercise line locking unit of the exercise line locking system held by the grip portion provided with the means for gripping and fixing the upright tubular cylinder inserted into the pole receiving port provided on the installation surface. .. It is the schematic explaining the means for grasping and fixing an upright tubular cylinder, (a) shows the means which uses the U-shaped gripper, and (b) shows the means which uses the stainless band type gripper. It is the schematic which fixed the pole type line to the rod-shaped member of the exercise line locking unit which held and fixed the tubular body. A tightrope walking sports line is arranged under the tubular cylinder of the exercise line locking unit that grips, fixes, and holds the tubular cylinder, and a pole that assists in maintaining the tightrope balance on the rod-shaped member of the exercise line locking unit. It is an overall view (a) in which the mold line is arranged on both sides of a tightrope walking sports line, and is a front view (b) of an extended fixed type strut that supports a pole type line. (A) is a front view in which a rod-shaped member support sandwiching type unit using a height adjusting fixing body (15) fixed by a second fixing means is installed on a wall surface to be an upright surface, and (b) is a height on an upright surface. It is a figure which shows the embodiment of the front view which installed the bar-shaped member strut crossing type unit which used the height adjustment fixed part body (15). (A) is a top view in which the locking part is fixed to the installation surface, (b) is a view in which the locking part is fixed to the upright surface, the installation surface, and the ceiling surface of the moving container, and (c) is a view of the moving container. It is a figure which shows the embodiment of the figure which fixed the height adjustment fixing part body and the locking part body to the upright surface, the installation surface, and the ceiling surface.

Hereinafter, the present invention will be described with reference to the drawings. However, the present invention is not limited to this. The drawings used in the following description are schematic, and the length, width, thickness ratio, angle, etc. of the drawings are only examples, and are not necessarily the same as the actual ones, and are concave and convex. The correlation between the part and the female screw and the male screw can be changed as appropriate. Fitting by rails and fixed rails, rail-shaped concave portions and rail-shaped convex portions, etc. is also included. In the explanation, the sizes such as width, thickness, total length, and diameter are also shown as an example. Drawings without the illustration of the base are also included.

Paragraph [0043] describes the exercise line locking system in detail, and the details will be described in the following sections.
FIG. 1 is a diagram showing an embodiment of the exercise line locking system (1) according to claim 1, wherein the exercise line locking unit (2) as a basic structure is in a horizontally long direction in a plan view. Exercise line locking with at least one rod-shaped member (3) extending to and at least two or more struts (10) capable of supporting the rod-shaped member above the installation surface (25). The unit becomes one unit, which is also one basic unit, and the rod-shaped member (3) is provided with a locking portion (6) in which a plurality of exercise lines (21) can be locked at the same time by using a locking means. Assuming that both ends in the horizontally long direction of the rod-shaped member (3) extending in the horizontally long direction in a plan view are left and right, locking portions are provided so as to be connected substantially on both sides along the left and right sides.
A plurality of exercise lines (21) can be simultaneously locked at arbitrary positions from the locking portions located on the left and right sides by using locking means.
On each of the left and right sides of the rod-shaped member, a support column (10) capable of supporting the rod-shaped member allows the rod-shaped member to be located at least above a height at which water can pass between the installation surface and the rod-shaped member. It is fixed and supported.
Not only two struts on the left and right sides of the rod-shaped member, but also one or more struts may be provided near the middle of the rod-shaped member.
Further, although not shown, the locking portions provided in a series on the left and right sides of the rod-shaped member are formed on the rod-shaped member so as to form not only one row but a plurality of rows for one rod-shaped member. It may be provided on the surface from side to side. When the portion where the rod-shaped member is provided with the locking portion is represented by a vertical cross section, the locking portion is provided not only at one place but all around the vertical cross section of the rod-shaped member in all directions toward the left and right of the rod-shaped member. It becomes a state.
In this exercise line locking unit, at least two units are arranged in parallel, and the side surfaces of the rod-shaped members provided with the locking portions are opposed to each other so as to face each other. A locking portion arranged on the installation surface and having one end of the plurality of exercise lines (21) at a desired position from among a plurality of locking portions (6) provided in a series on the left and right sides of the rod-shaped member. To lock one end of the plurality of exercise lines (21) on the opposite side via a locking portion of a rod-shaped member of another unit having substantially the same shape facing each other. The exercise line locking system (1) is characterized in that a plurality of exercise lines (21) can be arranged at desired positions in the left-right direction on the installation surface.
It is also possible to arrange three or more exercise line locking units in parallel and arrange an exercise line between the units.
The installation surface (25) is a substantially horizontal ground or floor surface such as an outdoor sports ground, a gymnasium or a sports room, a volleyball court, or a stadium such as tennis or badminton court. In addition, the floor of a narrow space room with an area of about 6 tatami mats, a prefab, a warehouse, a transportation container, etc. (29) can also be used as an installation surface, and a line locking system for exercise should be installed to perform line sports. Is possible. The floor surface, which is a substantially flat surface, is also the installation surface. However, the installation surface does not have to be completely horizontal and may be inclined by about ± 5 degrees with respect to the horizon. Further, in ski balance training, it is conceivable to use an exercise line locking system on a plane having an inclination of about 10 degrees.
It is desirable to arrange two or more parallel exercise line locking units (2) on these installation surfaces, and to install them with a distance of at least 2 m between the units, such as official volleyball courts and tennis courts. When using, it is also possible to utilize the width of both sides of the court, and it is an exercise line locking system (1) in which an exercise line can be arranged even if a distance of 10 m or more is provided between the units.
In the rod-shaped member, locking portions (6) for the purpose of simultaneously locking the exercise line (21) at a plurality of locations of at least two or more locations extend over the left and right ends of the rod-shaped member (3). At least one in a straight line on the entire surface, in one or more rows, and in addition, at least two columns near the left and right ends of the rod-shaped member, and at least two columns including the middle of the rod are fixed. A fixing portion (9) for a certain rod-shaped member side support is provided.
It is desirable that the locking portions are provided with locking portions capable of simultaneously locking five or more exercise lines at the desired five or more locking portions, and are engaged in one row only on one three-dimensional surface of the rod-shaped member. The number of locking portions is not limited to those provided with stopping portions, those provided with locking portions over a plurality of rows on a plurality of surfaces, and those provided with locking portions. At least two fixing portions (9) for rod-shaped member side columns are also provided, and there is also an exercise line locking unit (2) supported by three or more columns.
The support column (10) constituting the exercise line locking unit (2) has a rod-shaped member (3) in which a plurality of exercise lines (21) are locked at a plurality of locations, and at least an installation surface (25) at two or more locations. ), And is fixed so as to join the rod-shaped member-side strut fixing portion (9) to the strut-side rod-shaped member fixing portion (13).
Both the columns and rod-shaped members are individually three-dimensionally formed of a metal such as iron or stainless steel, a light metal such as aluminum or a reinforced synthetic resin, or a strong material such as strongly reinforced wood, and each fixing portion to be fixed. Is fixed by welding or by one or more fixtures so that the rod-shaped member is horizontal. The fixed height is not limited.
The contact point where the rod-shaped member and the strut are fixed or the entire part surface becomes a fixing portion, and the fixing portion with the strut on the rod-shaped member side becomes the fixing portion (9) for the strut on the rod-shaped member side, and the fixing portion with the rod-shaped member on the strut side. Is a support column side rod-shaped member fixing portion (13).
Using two units, which are at least two of the exercise line locking units (2), the horizontally long sides of the rod-shaped members (3) provided in the two bodies face each other so as to face each other with a gap. One or more types of exercise lines (21) are engaged at the locking portion provided on the installation surface and at least two or more exercise lines are simultaneously engaged at a plurality of locations in the horizontally long direction in a plan view. The exercise line locking system (1) is a system that can be arranged between two units by using a stopping means and includes means for expanding the unit and expanding or exchanging the exercise line. The locking portion may be provided on the support column.
The length of the rod-shaped member (3) extending horizontally in a plan view is such that a plurality of exercise lines (21) are simultaneously locked at a desired position and interval at at least two locations (6). It is necessary to have a length of at least 1 m horizontally in plan view, but it is only one example to perform line sports of various events, but it is about 3 m horizontally long in plan view. (6), which is a concave or convex type or a rail type, which can lock an exercise line at a plurality of places at the same time, is provided in a substantially linear shape over substantially the entire surface near both left and right ends of the rod-shaped member. The vertical cross-sectional diameter or vertical width of the rod-shaped member is approximately 4 cm or more, and a pipe-shaped rod-shaped member is desirable in terms of strength.
The rod-shaped member is provided with a locking portion that simultaneously locks a plurality of exercise lines to the left and right, and at the same time, the locking portion (6) absorbs and reinforces the force received by the locking portion (6) by performing line sports. It is also a member whose purpose is to prevent damage. The rod-shaped member may have various shapes, and each of them is provided with a locking portion (6).
The material of the rod-shaped member is metal such as iron and stainless steel, light metal such as aluminum, plastic and reinforced synthetic resin, etc., and the strength and formation of a pipe-shaped cavity having a thickness of at least 1.5 mm. It is also desirable for transportation, and both ends of the rod-shaped member are closed with a rod-shaped member end face cap (9d) such as plastic or rubber, or with a metal such as iron or stainless steel or a light metal such as aluminum, which is closed by baking welding or adhesion. It may be.
Both ends of the rod-shaped member are provided so as to be vertical surfaces, and one screw hole (9e) for a rod-shaped member end face bolt having a diameter of about 5 to about 10 mm and a depth of about 3 mm is provided at a right angle near the center of the end face. It is desirable to have two locations. Alternatively, a convex bolt having a diameter of about 5 to about 10 mm and a length of about 5 mm may be projected.
The shape of the rod-shaped member (3) extending horizontally in a plan view may be a rod-shaped member formed in a curved shape as well as a straight line.
The rod-shaped member (3) is provided with a locking portion (6) for the purpose of locking one or more types of exercise lines (21) at a plurality of locations, and the exercise line is directly attached to the rod-shaped member. It is a locking portion (6) that can be locked by connecting the exercise line using various locking portion connectors (8) as well as connecting and fixing. The locking portion connector (8) is not limited to a single body, but may be attached to an exercise line from the beginning.
The locking portion (6) is a portion for locking the exercise line to the rod-shaped member extending in the horizontally long direction and the support column at at least one place, and a plurality of exercise lines can be simultaneously placed at arbitrary positions. In addition, the locking portion is a continuous portion so that the locking portion can be locked by using the locking means. However, in the case of a through hole penetrating from the front surface to the back surface of the rod-shaped member, not only the front surface but also the through hole becomes a part of the locking portion.
A plurality of recesses or protrusions provided for locking movement lines near both left and right ends of a substantially entire three-dimensional surface including one surface of the three-dimensional surface such as the upper surface, front surface, lower surface, and back surface of the rod-shaped member (3). The entire portion, or the rail portion that has a concave or convex shape (hereinafter referred to as unevenness), is a locking portion. Further, in the middle of the uneven portion and the peripheral portion of the rail portion, the movement line can be substantially stationary by using the locking means of the elastic material, and the portion of the rod-shaped member capable of being stationary. Is also a locking part.
In addition, the locking part is individually separated from the rod-shaped member and is detachably fixed with a fixture, and each can be used individually, and the locking part can be attached interchangeably. There is also a locking body having.
There are a plurality of types of locking portions (6), and the locking portions (6) are provided substantially horizontally across the left and right ends so as to be substantially horizontal to the three-dimensional surface of the rod-shaped member laid horizontally.
The locking portion (6) is a round concave locking portion (6a) in which a round concave screw having a diameter of about 5 to about 10 mm, a bolt, a screw hole including a through hole, or the like is continuously connected in a straight line. Fixed side concave rail locking portion (6b) that is a single groove-shaped rail. A locking portion including a linear body such as a rib-shaped convex rail locking portion (6c) which is a protruding portion provided on a flat surface can be considered.
A square concave locking portion (6d) having a diameter of about 30 mm and a width of about 10 mm can be considered instead of a round concave having a diameter of about 5 to about 10 mm. The size of these rounded or angular concaves is just an example.
In addition, in order to improve stability by lengthening the part that engages with the screw or bolt, it is conceivable that the periphery of the round recess protrudes about 2 to 5 mm from the surface of the rod-shaped member or protrudes inward to lengthen the engaging part. ..
The purpose of the support column (10) is to support the rod-shaped member (3) provided with the locking portion (6) and the exercise line (21) locked to the locking portion (6) above the installation surface (25). Since it also includes, strength is required, and the height from the lower end to the upper end is also an example, but it is necessary to have 30 cm or more, but in order to perform line sports of various events, the total length is 1 m or more. Alternatively, it may be necessary to provide 2 m or more, fix the rod-shaped member to a height of 3 m or more, and lock and dispose of the exercise line (21) depending on the content of the competition.
At the upper and lower ends of the columns, a lid-like plate with a thickness of about 3 to 5 mm made of metal such as iron and stainless steel and light metal such as aluminum is closed by baking, and recesses with a diameter of about 5 to about 12 mm. It is desirable that a bolt hole is provided.
The thickness of the bolt hole and screw hole should be deeper than the thickness of the lid-like plate, and the thickness of the bolt hole should be increased so that the circumference of the bolt hole is approximately 5 mm or more. It is also possible to make it deeper. Similarly, by thickening the periphery of hollow columns and rod-shaped members used in the exercise line locking system, such as round concave locking portions (6a), common screw holes (8h), and other screw holes and bolt holes. Even if a strong force is applied to a screw or bolt, problems such as the screw or bolt coming off, bending, or wobbling can be reduced.
Various types of support bases (19) can be attached to the support columns (10), and the width and vertical width of the support column bases (19) are substantially larger than the width and vertical width of the support columns (10) to be inserted. It has a function of being able to vertically support the support column (10) and the exercise line locking unit (2). For fixing the rod-shaped member and the support column, in addition to complete fixing by baking or adhesion, fixing with fixing tools such as bolts, screws and screws, clamp metal fitting connection, tightening and fixing with a belt or the like can be considered.
The upper and lower ends of the columns are covered with metal lids. At the center of the upper and lower lids, a common bolt hole is provided to which a base or the like, which is a recess having a diameter of about 5 to about 12 mm, can be attached. It may also be provided on the side surface near both ends of the column. Since a large force is applied to this part, the diameter of the screw or bolt is also increased correspondingly, and the diameter may be 30 mm or more.
The meaning of the locking used in the exercise line locking system (1) and the exercise line locking unit (2) is a plurality of locations in the locking portion of the single exercise line locking unit. One or more types of exercise lines are applied to the rod-shaped member and the locking portion (6) provided on the support column, and the locking portion body (6e) or the rod-shaped member (3) using the locking means. , Exercise line (21) is stationary, fastened, temporarily fixed, placed, hooked, suspended, tied, connected, plugged in, wrapped, fixed, stretched, bridged, shafted, connected The meaning of being stationary, such as hanging, playing, hanging, hanging, orbiting, binding, joining, screwing, hanging, hanging, standing, etc. When viewed from the front of the exercise line locking unit, the rod-shaped member (3) is locked in a "state in which the exercise line is substantially stationary" on substantially the entire surface including the upper surface, the front surface, the lower surface, or the back surface. .. It also includes a state in which the vehicle is substantially stationary using the locking means.
The locking means is a fixing bracket, a connecting tool, or a means for locking the exercise line to the locking portion of the shaped member, and is a locking portion connecting tool (8) having a common screw having a diameter of about 5 to 10 mm. Use of common fixtures such as screws (8i) and common nuts (8jk) that engage with common bolts (8j) with a diameter of 12 mm or more. For exercise using mounting brackets such as L-shaped fixtures (8a), U-shaped fixtures (8b), U-shaped fixtures (8c), openable round cans, rings, and fixtures for connection. Lock the line. (Detailed explanation in FIG. 3) In addition, a rubber or plastic elastic material locking part connector (8l) is fixed so as to wind the rod-shaped member directly from above the locking part of the rod-shaped member, and an exercise line is laid from above. It also includes locking means that can be tied, wrapped and belted. Depending on the type of exercise line, connections such as hooks, rings, buckles, and screws may already be provided at both ends. The illustrated locking means is a means for locking the exercise line to the locking portion, and the illustrated one is a typical part, not all the locking means.
Arrangement is a state in which an exercise line is stretched and line sports can be performed. One end of the exercise line is locked to the locking portion of the rod-shaped member, the strut, or the locking portion, and the opposite side of the exercise line is locked to the locking portion of the other unit facing each other. ..
Alternatively, one end of the exercise line is locked, the intermediate portion is locked to the locking portion of the opposing unit, and the line is folded back to the original unit. Alternatively, there is also a method of locking and arranging between the upper and lower rod-shaped members of the same unit. In addition to the unit, the locking part including both ends or the middle of the exercise line is connected to the locking part attached to the wall, installation surface, or ceiling surface to face each other, and through the opposing locking part. It is also conceivable to arrange them so that they are connected to each other.
Mainly, the exercise line (mainly, through the locking portions provided between the opposing exercise line locking units (2), or between the locking portion and another locking portion body, the exercise line ( 21) Fasten, temporarily fix, put, hook, suspend, tie, connect, insert, wrap, use fittings to prevent movement, stop, temporarily fix, fix, stretch , Bridged, shafted, connected, idle, horizontal, mounted, orbiting, tightly connected, spliced, screwed, suspended, suspended, etc. It becomes.
In addition, depending on the type of line sport, there are line sports in which only one side of the exercise line is attached and hung, and the other side is pulled by the athlete like a tug of war, or stands above the installation surface. .. As described above, depending on the event, there is an arrangement in which only one side of the exercise line is attached, and even in these states, a state in which the desired line sport can be performed is also included.
When a plurality of exercise lines locked at arbitrary positions of the units are arranged between the units depending on the locking position of the exercise lines, the arranged exercise lines are each line. It is also possible to arrange them in parallel, at an angle in a plan view, at crossing each other, in a horizontal direction, and in a vertical direction.
The exercise line (21) includes various lines made of various materials, shapes, strengths, sizes, etc. used for line sports, and is a rubber-like shrinkable thin rubber having a diameter of about 1 to 5 mm. String (21a), rubber belt (21b) with a thickness of about 1 to 3 mm and a width of about 1 to 3 cm, a low elasticity thin line (21c) with a diameter of about 1 to 5 mm and no shrinkage, and a thin string with a diameter of about 10 mm (21c). 21d), a rope-shaped thick string (21e) with a diameter of about 2 to 5 cm, a mesh-shaped belt line (21h), a line for laser light motion between a laser beam oscillator and a vibration receiver / receiver (21j), It is possible to lock lines of various shapes, thicknesses, and lengths such as a pole-shaped line (21i) of a handrail.
These exercise lines (21) are used in a plurality of types or a plurality of lines, including the desired number and combination, and are used at a plurality of locations of the locking portions (6) between the exercise line locking units (2) facing each other. Determine the desired position to lock, lock with the locking part connector (8), or lock by connecting to the rod-shaped member (3), etc., and various exercise lines are provided between the exercise line locking units. Arrange by method.
Arranged between the second exercise line locking units (2c) locking portions (6) other than the facing exercise line locking units (2) and between the locking portions (6e) attached to other than the unit. In some cases, arrangements may be made in various combinations such as installation.
Also, although this is just an example, instead of using multiple exercise lines, one exercise line of several tens of meters is used, and hooks are made while alternately reciprocating between two opposing units with a width of about 5 m. There is also a method of arranging by locking with or the like.
The plurality of exercise lines to be locked and arranged can be locked and arranged at a desired angle and interval, such as being arranged in parallel, arranged diagonally or crossing. In addition, it is also possible to lock only the upper part so as to hang substantially directly below, and to suspend it in a suspended state, or to arrange it so as to stand on the installation surface.
The height at which the exercise line is locked and arranged is approximately equal to the height at which the rod-shaped member is fixed to the support column, but the height around the central portion where the exercise line is arranged is lowered so that the exercise line hangs down due to gravity. In some cases. Further, since the system uses the same unit, in the unit of claim 1, the exercise lines are arranged substantially horizontally. In addition to horizontal arrangements, there are also inclined arrangements and vertical arrangements.
The side surfaces of the rod-shaped members of the exercise line locking unit (2) face each other and are substantially parallel to each other, and the support columns are installed on the installation surface using a support base (19) or the like so as not to move. However, it does not have to be completely parallel, and the exercise line locking unit (2) may have a parallel angle of about ± 5 degrees with respect to the exercise line locking unit (2) that is in parallel. Since sports are performed, the force applied to the adapted exercise line (21) also changes. In some cases, the exercise line locking unit (2) is fixed by using a volleyball or tennis sports pole (22a) that is inserted and fixed in the pole insertion hole (23) of the gymnasium or the ground. In some cases, the support of the exercise line locking unit is inserted into the pole insertion hole and fixed.
The exercise line locking system (1) has at least two exercise line locking units arranged side by side in an outdoor ground, an indoor gymnasium, a sports gym, or the like, which is the installation surface (25). The units are faced to each other, and a plurality of various exercise lines for performing line sports are locked at arbitrary positions of the locking portions provided on one rod-shaped member of the unit, and the lines are lined between the facing units. By increasing the number of rod-shaped members as well as the system to be arranged, the exercise lines can be locked and arranged at the same time in multiple stages, and the common rod-shaped members (3h) that can be used individually and the common columns (10 g) are also used. ), And the second exercise line locking unit (2c) composed of these expands and expands the arranged units, and the space where line sports can be performed is not only from the horizontal four sides in the horizontal direction but also from the vertical direction. A system that enables three-dimensional arrangement of lines at various angles and heights, including up and down and inclination, and fixing means and fixing for fixing rod-shaped members and columns for that purpose. Various numbers and types of exercise lines, including tools, units, rod-shaped members, connecting tools that serve as connecting means for connecting and expanding columns, and various types of exercise lines, are provided on the rod-shaped members and columns so that they can be exchanged in various numbers and types. Various locking portion connectors (8) that serve as locking means for locking the exercise line to the locking portion, and the height of the rod-shaped member fixed to the support column is adjusted to an arbitrary height by the adjusting means. Various fixtures and members that not only connect the rod-shaped member to the height-adjusting fixing portion (14) and the height-adjusting fixing member provided on the support column, but also have a function of changing the fixing angle of the rod-shaped member. , Equipment such as the base for columns (19) to keep the unit stable, equipment placed in the space where these line sports are performed, members that make existing equipment available, etc. An exercise line locking system that allows the exercise lines to be interchangeably locked and arranged, and further, a rod-shaped member body (5), a locking portion (6e), which can be separated and individually attached and used. By using the strut body (10f) and the height adjustment fixed part body (15), it is effective as a space where line sports can be performed even in a place where there is little space such as a transportation container (28) which is narrower than the indoor space such as a sports gym. It is also an exercise line locking system (1) that can be used, and by configuring the system including these, various training and sports including games can be used by using this arranged exercise line. It is an exercise line locking system that enables you to do things such as sports.
Details will be described later.
In the exercise line locked and arranged in FIG. 1, a fine rubber cord (21a), a fine cord (21d), a laser light exercise line (21j), and a mesh belt line (21h) are locked from the right side. It is locked by the part connector (8). As described above, the exercise line locking system has a feature that not only one exercise line is used but also various exercise lines can be combined and used at the same time depending on the application.
By using multiple exercise lines including various sports applications, you can jump over or under the line, take various movement steps such as front and back, left and right, diagonally, and up and down. By touching the line in various positions, walking a rope, exercising with a sensor sound using laser light, dancing, etc., it is possible to improve the balance ability, muscle strength, motor ability such as reflexes, etc. It is an exercise line locking system that enables unprecedented exercise.

FIG. 2 shows the shape of the exercise line locking unit which can be roughly divided into two. (A) is a front view of a rod-shaped member support sandwich type unit, and (b) is a front view of a rod-shaped member support cross type unit.
FIG. 2A is a front view showing an embodiment of an exercise line locking unit (2) in which both end faces of one rod-shaped member (3) are fixed so as to be sandwiched by two columns (10). Therefore, both end faces of the rod-shaped member (3) are fixed substantially horizontally so as to be sandwiched from the left and right by two columns (10).
The unit in which the rod-shaped member is fixed so as to be sandwiched between the columns from both ends is the rod-shaped member column sandwiching type unit (2a).
Originally, for fixing the support column and the rod-shaped member, it is desirable that both ends have the same fixing means, but in FIG. Street fixing means are used, and the left and right sides are shown separately.
The left is fixing with bolts, and the right is fixing with welding, which has a rigid frame structure.
The portion where the rod-shaped member is fixed to the strut is the strut-side rod-shaped member fixing portion (13), and conversely, the portion where the strut is fixed to the rod-shaped member is the rod-shaped member-side strut fixing portion (9).
The fixture for fixing the strut and the rod-shaped member is the strut-side rod-shaped member fixing portion fixture (16).
In the case of the rod-shaped member strut sandwiching type unit (2a), the portion where the rod-shaped member is sandwiched becomes the strut-side rod-shaped member fixing portion (13) of the strut, and both end faces of the rod-shaped member which are sandwiched between the strut from both sides and are in contact with the strut It becomes a fixing portion (9) for a rod-shaped member side support.
In the case of the rod-shaped member support holding type unit (2a), the two columns are fixed and supported from both end faces of the rod-shaped member.
The bolt fixture on the left side is just an example, but it uses a bolt-type fixture (16a) for a rod-shaped member with a diameter strut side rod-shaped member round concave fixing part having a diameter of about 5 to about 10 mm and a length of at least 8 cm. However, with both ends of the rod-shaped member sandwiched between the columns, the bolt penetrates from the outside of one or more substantially horizontally provided through holes provided in the column to the rod-shaped member side, and the rod-shaped member penetrates the column. It is installed at a right angle to the object and is provided to keep it horizontal. However, the angle of the installation surface may not be horizontal. It does not have to be completely horizontal and may be tilted by about ± 5 degrees with respect to the horizon.
One or more rod-shaped member end face bolt holes (9e), which are recesses with a depth of about 3 cm with which the bolt fixtures are engaged, are provided in the center of the end face of the rod-shaped member, and are screwed together at right angles to the columns of the unit. It is fixed.
On the right side, the rod-shaped member is a burn-welded fixing portion (13c) in which the support and the fixing portion of the rod-shaped member are baked and welded and fixed so that the attachment angle with the support is perpendicular to the support.
The baking weld fixing portion (13c) has a rigid frame structure and is sturdy, but the rod-shaped member cannot be removed, the height can be changed, or the angle cannot be changed. There is also the disadvantage of inconvenience in transportation.
The rod-shaped member is provided with one round concave single fixing portion (9a) for the rod-shaped member side support as a fixing portion (9) for the rod-shaped member side support, which is a portion where the support is fixed, on both end surfaces of the rod-shaped member. There is.
The locking portion (6) on the front side of the rod-shaped member is provided with a round recess that serves as a round concave locking portion (6a) for locking the exercise line so as to be continuously connected to both ends in a substantially straight line. Screw holes or through holes having screw grooves with a diameter of about 5 to about 10 mm at right angles to the center of gravity line are provided at equal intervals of about 3 to 5 cm, although the interval is only one example. There is. Through holes that do not have thread grooves are also conceivable. In order to increase the strength of the rod-shaped member, or depending on the content of the competition, a plurality of round recesses may be provided at equal intervals of about 3 to 5 cm at intervals of about 10 to 30 cm or more.
Further, the locking portion (6) is provided on various surfaces such as the upper surface side or the lower surface side of the side surface of the fixed rod-shaped member, not the front side which is the side of the facing exercise line locking unit, and is used for exercise. The line may be locked from various directions.
In this figure, there are two columns at both ends, but one or more columns may be provided near the middle of the columns.

FIG. 2B is a front view showing an embodiment of an exercise line locking unit (2) in which two or more columns (10) are fixed to a rod-shaped member (3) by a fixture, and is a rod-shaped member. The two columns (10) intersect with the front or back side in the vicinity of substantially both end faces of (3), and are fixed substantially horizontally by a bolt-type fixing tool (16a) for a rod-shaped member round concave fixing portion on the column side. ..
A unit in which the rod-shaped members are fixed substantially horizontally so that the columns intersect from the front or back side surfaces of the horizontally installed rod-shaped members is the rod-shaped member support column crossing type unit (2b).
In this case, the rod-shaped member side strut fixing portion (9) is for a rod-shaped member side strut that serves as a screw hole or a through hole of about 3 cm having one or two or more screw grooves near both ends of the side surface of the rod-shaped member. The round concave single fixing portion (9a) is provided so that the column-side rod-shaped member round concave single fixing portion (13a) of the support column engages with the bolt-type fixing tool (16a) for the support column side rod-shaped member round concave fixing portion. ..
The term "near both ends" means that within about 15% of the total length from one end face of the rod-shaped member is near both ends when the slanting function of claim 8 is provided, but 15% when the rod-shaped member does not have the slanting function. There is also a case where one end surface of the rod-shaped member and the outer side surface of the column are fixed at substantially the same position.
In this figure, there are two columns near both ends, but there are cases where two or more columns are provided, including the middle of the columns.
In the case of the rod-shaped member strut crossing type unit (2b), the strut is fixed inside the center from both ends of the rod-shaped member.
As will be described later, the rod-shaped member needs to be fixed diagonally in addition to being fixed horizontally. In the case of oblique fixing at an angle, the vertical movable range in the columns supported almost vertically is the height, the distance between the columns arranged at both ends is the base, and the rod-shaped member is on the hypotenuse of a right triangle. Equivalent to. The length of this hypotenuse is calculated
The distance of the base x the distance of the base + the height x the height = the length of the hypotenuse x the length of the hypotenuse.
Base (distance between columns at both ends) x bottom + height (movable range of columns) x height = hypotenuse (minimum required length of rod-shaped member) x hypotenuse.
The required length in the vicinity is (the length of the hypotenuse-the distance between the columns) ÷ 2 <the required length in the vicinity, which is the attachment position of the column from the end of the rod-shaped member.
As an example, the distance between the columns at both ends is 3m. The height of the pillar is 2m. Assuming that the height of all the columns is the movable range of the rod-shaped members between the columns, the minimum required length of the columns is calculated to be 3.61 m or more when the rod-shaped members are attached diagonally. .. When this rod-shaped member is attached to a support column, the rod-shaped member needs to be at least 31 cm or more from the vicinity of both ends. It is 8.6% of the rod-shaped member by simple calculation. At least in the case of this numerical value, at least a length of 10% or more of the total length of the rod-shaped member is the required length in the vicinity of both ends of the rod-shaped member.
It is considered that the desirable distance between the columns used in the rod-shaped member column crossing type unit (2b) is about 5 m, and the height mainly used for the columns is about 3 m at the highest. If one rod-shaped member is used, the minimum required length of the rod-shaped member is 5.84 m. Considering the mounting position, the length of the rod-shaped member is 6.5 m, and the distance between the columns is 5 m. Therefore, the vicinity of both ends is about 75 cm on one side, which is about 11.5% of the rod-shaped member. From this, it is considered that 15% is suitable as a numerical value with a margin. It is a value of only one example.
In the rod-shaped member strut sandwiching type unit (2a), when the rod-shaped member is slanted, the variation of the total length of the rod-shaped member needs to be extended by at least 12% or more from the time of horizontal fixing. As an example, it is also possible to use a structure in which the total length of the rod-shaped member can be changed, such as a commercially available banner bar.
Further, the columns are arranged on the installation surface so that the center line of the columns is vertical when the columns are not fixed to the upright surface by the second fixing means. However, it does not have to be completely vertical, and may be tilted about ± 3 degrees in the front-back and left-right directions with respect to the installation surface.

FIG. 3 is an explanatory view showing a cross-sectional view and a shape of various types of rod-shaped members.
The rod-shaped member (3) is made of light metal, metal, reinforced fiber resin, reinforced wood, plastic, etc., and is only an example, but it is desirable that the rod-shaped member (3) has a total length of at least 1 m or more and a diameter or width of 4 cm or more. When it is required to perform various line sports, it is conceivable that a rod-shaped member (3) having a total length of 3 m or more and a diameter or width of 100 mm or more is required.
The diameter or vertical width of the rod-shaped member is at least 1 cm or more, but a three-dimensional rod-shaped member having a diameter or width of about 4 cm or more is desirable in terms of strength. Further, if it is made of light metal, metal, or reinforced fiber resin, it is desirable that it has a pipe-shaped cavity having a thickness of 1.5 mm or more, and fixing portions (9) for rod-shaped member side columns are provided near both ends. ..
Both ends of the rod-shaped member are closed with a rod-shaped member end face cap (9d) such as plastic or rubber, or when the rod-shaped member side strut fixing portion (9) is used, a metal such as iron or stainless steel, a light metal such as aluminum, etc. And it may be blocked by burning. When the lid is closed by baking, the thickness of the lid should be at least 3 mm or more, and one screw hole (9e) for the end face bolt of the rod-shaped member, which is an uneven portion with a diameter of about 5 to about 10 mm, is provided at approximately the center of the end face. Alternatively, it is desirable to have two locations.
It is desirable that the periphery of the screw hole (9e) for the end face bolt of the rod-shaped member is provided so that the uneven portion that becomes the screw thread is increased to 5 mm or more by increasing the thickness. Similarly, it is desirable that the concavo-convex locking portion is provided so that the concavo-convex portion that becomes a screw thread becomes approximately 3 mm or more by increasing the thickness.
Further, on the side surface of the rod-shaped member, fixing portions (9) for the support columns on the rod-shaped member side may be provided near both ends to form a portion to be fixed to the support columns (10). A rod-shaped member side strut fixing portion (9) may also be provided near the center of the strut.
The shape of the rod-shaped member is
A straight cylindrical rod-shaped member (3a) having a circular or elliptical vertical cross section,
Similarly, a straight quadrangular rod-shaped member (3b) having a quadrangular vertical cross section,
There are a pentagonal rod-shaped member (3c) having a pentagonal vertical cross section, a hexagonal rod-shaped member (3d) having a hexagonal vertical cross section, a straight octagonal rod-shaped member (3e) having an octagonal vertical cross section, and the like. These are shapes having a straight line in the vertical cross section. Although not shown, some rod-shaped members having a vertical cross section of a triangle or more are included.
A straight semi-cylindrical semi-cylindrical member (3f) having a circular and straight vertical cross section is also included.
The vertical cross section does not include the cross section of the locking portion, and only the cross section of the rod-shaped member is shown.
Further, all the rod-shaped members do not need to be covered on the front surface of the side surface, and a space may be provided in terms of strength or design as in the system truss member.
In the case of reinforced wood, plastic, etc., a hollow rod-shaped member (3 g) whose inside is not a pipe-shaped cavity is also conceivable.
The name is a rod-shaped member, but a flat plate-shaped rod-shaped member can be considered depending on the application.
In the case of the flat plate-shaped rod-shaped member (3i), a plate-shaped rod-shaped member having a thickness of about 10 to 20 mm and a width of about 200 to 250 mm can be considered in order to reduce the weight. It is also possible to provide the locking portions in at least three rows vertically in parallel. In the figure, the locking portion is uneven, but a rail-shaped locking portion is also conceivable. In the case of the rail locking portions (6b), all of them are horizontally provided in a plurality of rows. Alternatively, it is conceivable that a plurality of rows are provided in parallel by diagonal installation.
Although not shown, it is conceivable that the cloth-like line is stretched vertically on the exercise line, and in that case, the width of the flat plate type rod-shaped member (3i) may exceed 300 mm.
The rod-shaped member is a member for providing a locking portion of the exercise line to be locked in the lateral direction, and the strength, diameter or vertical width, and thickness may be strengthened and changed depending on the content of the line sport. ..
When using only elastic thin rubber and thin string as a line, it is possible to use an aluminum pipe-like material with a diameter of about 1 cm for the rod-shaped member including the support, but the locking movement. As an example of a line, when a player jumps on a line like a tightrope walker, a rod-shaped member, a support, and a base for supporting the support that can withstand an impact of at least 3 tons are required.
In order to support the impact more than that impact, it is made of metal such as iron and has strength, at least the diameter or vertical width is 4 cm or more, and the cross-sectional thickness is at least 5 mm or more. Members and columns may be required.
A curved rod-shaped member (3j) in which a straight cylindrical rod-shaped member (3a) having a circular or elliptical vertical cross section extends in a horizontally long arc in a plan view is also conceivable.
Although it is only an example, an arc-shaped curved rod-shaped member (3j) that draws an arc in which a circular frame is divided into 6 to 12 in a plan view such as a circular trampoline having a diameter of about 3 to 6 m is used. An exercise line locking unit is also conceivable. Although not shown, it is possible to assemble an elliptical outer frame by combining it with a straight rod-shaped member.
The rod-shaped member may be formed by combining a plurality of rod-shaped bodies.
Two main tubular rod-shaped bodies having a diameter of about 30 mm and a rod-shaped body having a diameter of about 10 to 20 mm are formed between them so as to form a truss structure, and the locking portion (6). There is also a flat system truss rod-shaped member (3k) having a width of about 30 cm. It may be used in a flat state, a flat type may be disassembled with a fixture by using a plurality of flat types so as to have a plurality of square shapes such as a triangular shape and a quadrangle, or may be welded and fixed. It is suitable for use when performing line sports where a high load and a large bending moment are applied to the exercise line. In this figure (3k), the locking portion is removed in order to explain the structure. The locking portion is provided together with the two parallel main tubular rod-shaped bodies themselves, and is linearly illustrated so as to be substantially horizontal to the slanted rod-shaped body portion forming the truss structure. Two tubular rods that are provided so that the parts can be attached, so that they are all parallel at intervals of approximately 5 cm to 20 cm so that they are approximately vertical or diagonal to the upper and lower two main tubular rods. It is said that a plurality of illustrated locking portions adjusted to the length of the mounting position are provided.
These rod-shaped members (3) are provided with locking portions on substantially one side surface across both ends of the rod-shaped member. The locking portion (6) is provided at a substantially right angle to the three-dimensional surface for locking the exercise line (21), and is a round concave locking portion for screws and bolts having a diameter of about 5 to about 10 mm. (6a), a square concave locking portion (6d) for hooking and fixing a locking metal fitting to which an exercise line can be attached to a square concave portion, and a rail type concave or convex rail type locking portion (6b). , 6c), a locking portion or the like in which a U-shaped steel material is baked and welded is provided. The round concave locking portion (6a) has a hole bottom, a through hole penetrating only the front surface of the tubular member (3), and a through hole penetrating from the front surface to the back surface. There are holes with threads and holes without threads.
A plurality of exercise lines are simultaneously locked to these locking portions by using locking means, and are arranged via the locking portions of the opposing exercise line locking units.
The rod-shaped member (3) has rod-shaped member side support fixing portions (9) provided at substantially right angles to the three-dimensional surface for fixing the support column (10) with a fixture at both ends of the rod-shaped member (3). A total of two locations, one on the surface or near the side surfaces on both the left and right ends, are provided in cases other than welding fixing.
Two or more round recesses for rod-shaped member side columns are provided on both the left and right sides in a substantially vertical position, and round recesses with a diameter of approximately 5 to approximately 10 mm are provided, and the column-shaped member engages at the same position. It is also conceivable that by providing two or more round concave single fixing portions (13a) at substantially vertical positions, it is possible to prevent an angle change with respect to the rod-shaped member (3) kept horizontally.
The column-side rod-shaped member single fixing portion (13) is a name when the support has only one fixing portion for fixing the rod-shaped member, and when the shape of the fixing portion is a round concave type, the column-side rod-shaped member single fixing portion (13) is a single concave member. The fixing portion (13a) is a column-side rod-shaped member square concave single fixing portion (13b) in which the fixing portion is a square concave hole having a width of about 30 mm and a length of about 10 mm.
The rod-shaped member side strut fixing portion (9) includes a round concave single fixing portion (9a) for a rod-shaped member side strut for bolts with screws, nuts, etc. having a diameter of about 5 to about 10 mm provided at one or more places, and a rod-shaped member. It is fixed by the square concave single fixing portion (9b) for the side support.
The rod-shaped member side strut fixing portion means a portion where the strut is fixed to the rod-shaped member, and the strut-side rod-shaped member fixing portion means a portion where the rod-shaped member is fixed to the strut.
The round concave fixing portion includes a screw hole having a substantially circular bottom, a through hole with a screw thread, a through hole without a screw thread, or an elliptical through hole without a screw thread.
The concave fixing part is a through hole without threads that has straight lines and corners in the cross section such as triangle, quadrangle, pentagon, hexagon, and octagon, and the shape of the fixture to be inserted is also triangle, quadrangle, and pentagon. , Hexagonal, octagonal, etc., which have substantially the same type of fixture as the cross-section of each through hole, and both have straight lines and angles, which has the advantage that the fixture does not rotate in the through hole.

4A and 4B are perspective views showing a rod-shaped member and a locking tool having locking portions having various structures. FIG. 4A is a locking portion connector compatible with a round concave locking portion, and FIG. 4B is a concave rail. FIG. 3C is an explanatory view of a slide rail and a locking portion connector compatible with the locking portion, and FIG. 3C is an explanatory diagram of a slide rail and the locking portion connecting tool compatible with the convex rail locking portion.
FIG. 4A shows an exercise line using a round concave locking portion (6a) provided on the rod-shaped member (3) and a locking portion connector (8) used by adapting to the shape of the locking portion. It is a figure which shows the embodiment of the locking means for locking, and the locking portion (6) has a screw type round concave locking portion (6a) and various convex portions engaging with the diameter thereof. It is a can type screw type locking part connector (8f) or the like.
In the plan view, the horizontally long direction is the horizontally long direction from the right end to the left end of the rod-shaped member, or the horizontally long direction from the left end to the right end of the rod-shaped member in all of the figures (a), (b), and (c). However, it is in the horizontally long direction in a plan view.
The round concave locking portion (6a), which is a screw hole type, is just an example, but is a screw hole or rod shape having a diameter of about 5 to about 10 mm, a right angle to a vertical line from a three-dimensional surface, and a depth of about 10 mm. From the three-dimensional surface to the back surface side of the member (3), a through hole penetrating at a right angle to the vertical line can be considered. The interval is approximately 30 mm to approximately 100 mm, starting from the center point of the round recess with a diameter of approximately 5 to approximately 10 mm, and is approximately horizontal from approximately 50 mm to 50 mm in front of the left end of the horizontally laid rod-shaped member. It is provided in one row. However, the distance between the recesses is only one example, and is not limited to this distance.
This rod-shaped member is merely an example, but a portion in which round recesses are provided in a row substantially horizontally from a position approximately 50 mm from the right end to 50 mm in front of the left end is a round concave locking portion (6a). The locking portions are provided on the upper surface, the front surface, the lower surface, etc. of the rod-shaped member at one location in a row or at a plurality of locations on each surface. It may be provided on the back side.
In this figure, the round concave locking portions (6a) are in one row, but there is also a flat plate type rod-shaped member (3j) having two rows, three rows, and a plurality of rows substantially in parallel.
The locking portion connector (8) includes a common screw screw (8i), a common bolt (8j), a hook type screw type locking portion connector (8e) for hooking and fastening the movement line (21), a ring, and the like. When a can-type screw-type locking part connector (8f) that uses an inward opening can and a rod-shaped pole-shaped line (21i) are used as the exercise line, an L-shaped screw stopper that holds and locks the pole so that it can move. For line sports events and exercise, such as the stop connector (8a,) U-shaped screw lock lock (8b), and the ring screw lock connector (8d) that can be completely fixed so that it does not move. The locking portion connector (8) used also differs depending on the line (21).
An elastic material such as rubber or plastic, which is a thin plate with a thickness of about 5 mm to 10 mm, is wound around the locking portion connector (8) and fixed to the rod-shaped member (3). It is also possible to wind or tie the exercise line (21) and fix it so that it does not move. It is also possible to lock the exercise line (21) with a buckle type belt type locking portion connector (8 g) equipped with a buckle or the like.
There is also an angle-variable locking portion connector (8h) that allows the angle of the exercise line to be locked to be changed by loosening and tightening the fixing portion with a screw or the like. It can also be used for an oscillator, a receiver, a reflector, and the like of a pole type line (21i) and a line for laser light motion (21j).
The exercise line (21) is locked from all surfaces such as the upper part, the front side, and the lower part of the rod-shaped member (3) depending on the content of the competition. Therefore, it is desirable that the locking portion (6) is provided on all of the upper portion, the front surface, the lower portion, and the back side of the rod-shaped member (3).
Further, a rod-shaped member side strut fixing portion (9) is also provided so that the strut (10) can be fixed from the rear or the front. It is desirable that the rod-shaped member side strut fixing portion (9) has the same size so that it can be used as a concave locking portion.
Further, although not shown, it is also possible to use a hook-and-loop fastener, a magnet, or a clip as the locking portion connector (8).
For example, iron materials or magnets are attached to substantially both ends of the exercise line (21), and the magnet is screwed to the locking portion as a locking portion connector (8) or fixed with double-sided tape or adhesive, or the locking portion is iron or the like. If so, the iron material or magnet attached to the tip of the exercise line (21) is made to stick, and even if the athlete touches the line, the magnet comes off and the risk of stumbling or falling is reduced. It is also possible to provide a stop connector (8) and an exercise line (21).
Then, like a commercially available door security alarm, when the magnet provided in the locking part connector (8) and the iron plate provided in the exercise line (21) are separated, the sensor detects and makes a sound. Is also possible. If the locking part connector or the rod-shaped member is iron or the like, magnets may be used at both ends of the exercise line. It is desirable to cover iron plates and magnets with cushions that do not impair the magnetic force to prevent injury.
The round concave locking portion (6a) is a round shape, but it is only an example, but it has a groove for a screw having a diameter of about 5 to about 10 mm, and a screw hole or a through hole without a groove is spaced and is substantially linear. Although it is possible to have a square hole or through hole instead of a round shape, considering the use of many types of connectors, a round or round screw hole or through hole is more ideal than a square shape. Is the target. In addition, a U-shaped recess of about 1 cm is provided on the lower side of the recess so that it can be hooked. It is also conceivable that a screw hole or a through hole is provided so that the locking portions are continuous, or a straight line, a curved line, a jagged shape in which the straight line is folded back, or a wavy line in which substantially semicircles are connected is provided.
Further, the angle of the hole or the hole of the locking portion is provided at an angle of approximately 90 degrees with respect to the surface of the rod-shaped member, but the angle is not limited to this angle.
And although not shown, the locking portion (6) is not concave, but conversely a convex locking portion in which the tip of the bolt protrudes regardless of whether or not there is unevenness on the side surface from the surface of the rod-shaped member, or A locking part equipped with a ring-shaped line fixing device at the tip of a bolt that protrudes in a convex shape. Alternatively, a U-shaped or V-shaped steel material such as iron with a length of 3 to 8 cm and a diameter of about 3 to 8 mm, such as the hooked part of a trampoline spring, is baked at intervals of about 5 to 10 cm. A convex locking portion that has been welded and has become a hooking portion is also conceivable.

FIG. 4B shows a slide locking portion in which the locking portion (6) provided on the rod-shaped member (3) is provided with a concave rail groove type fixed side concave rail locking portion (6b) to be fitted and engaged. It is a figure which shows the embodiment which used the concave slide locking part (7a) in (7), and the slide rail which consists of two bodies is from the surface of the rod-shaped member of either 1st rail and 2nd rail. The rail provided on the inside serves as a fixed-side concave rail locking portion (6b), and the other moved one serves as a concave slide locking portion (7a).
The rail widths of the fixed-side concave rail locking portion (6b) and the concave slide locking portion (7a) are merely examples, but are approximately 10 mm to approximately 40 mm. The concave slide locking portion (7a) that engages with the fixed side concave rail locking portion (6b) is provided with a slide locking portion connecting hole (7c) for fixing various locking portion connectors (8). One or more are provided in the center of the concave slide locking portion (7a).
At the end of the concave rail portion such as the rail locking portion, a slide locking portion receiving port (6i), which is a receiving port into which the slide locking portion can be inserted, is provided with a slide locking portion receiving port (6i) of approximately 50 mm and a substantially width of 10 mm from the end surface. , If it is closed with a cap such as rubber so that it can be removed when it is inserted, it is possible to increase the slide locking portion and insert it to move in the rail even while using line sports.
Although not shown, the slide locking portion receiving port (6i) of the convex rail is a receiving port in a state where the convex portion is cut by about 10 mm in width within a range of 50 mm from the end of the convex protruding rail portion.
However, the size of the slide locking portion receiving port (6i) is only the size of one example and is not a limited size. The height adjusting rail fixing portion (14c), which will be described later, also has a receiving port for the rail sliding portion (17).
It is provided with two or more fixing portions (9) for rod-shaped member side columns. It is provided with two holes (9e) for end face bolts of rod-shaped members provided in the above. In some cases, one or more recesses such as a round concave single fixing portion (9a) for a rod-shaped member side strut of substantially the same size may be provided at two or more locations near both ends instead of both end faces. Further, there is also a method in which the diameter size is the same as that of the round concave locking portion (6a) or the like, and the rod-shaped member side strut fixing portion (9) and the locking portion (6) are used.
Hook-type screw-type locking part connector (8e) for hooking and fastening the exercise line (21), can-type screw-type locking part connector (8f) using a ring or inward opening can, pole-type line (21i), etc. U-shaped screwed locking part connector (8c) that can be completely fixed so that it does not move, and conversely, L-shaped screwed locking part connector that stands still so that the pole type line (21i) etc. can move. The locking portion connector (8) used differs depending on the line sports event such as (8a) and the exercise line (21).
The exercise line (21) can be wound or tied around the rod-shaped member (3) without using the locking portion connecting tool (8), but by using the elastic material locking portion connecting tool (8l). Prevents line misalignment.
It is also possible to lock the exercise line (21) with a belt (8 g) with a buckle or the like. The concave slide locking portion (7a) can be inserted from the end side of the fixed side concave rail locking portion (6b). In addition, a lock-type slide locking portion (7d) having a stopper function, a rail slide stopper (7e) having irregularities for fixing, and other concave-convex rails in which the slide portion is a slide bolt type instead of a rail type. A slide bolt locking portion (7f) that engages with the stop portion is also conceivable.
Further, a single fixed side concave rail locking portion (6b) individually formed is connected to the round concave locking portion (6a) which is a screw type of approximately 5 to approximately 10 mm in FIG. 4 (a) with a common screw screw (8i). There is also a method of attaching with. The exercise line (21) is locked from all surfaces such as the upper part, the front surface, the lower part, and the back surface of the rod-shaped member (3). Therefore, it is desirable that the locking portion (6) is also provided on all of the upper portion, the front surface, the lower portion, and the back surface of the rod-shaped member (3). Further, a rod-shaped member side support fixing portion (9) for fixing the support is also provided so that the support (10) can be fixed from the rear or the front.
In the drawing, the concave slide locking portion (7a) is one straight rail on each surface of the rod-shaped member (3), but a plurality of rail locking portions and rails connected to the top and bottom of the curve. A locking portion, a rail locking portion in which circular holes are connected, a rail locking portion in which zigzag straight lines are connected, and the like are also conceivable. In addition, the rail width size and the round concave locking part may differ depending on the type of competition.

FIG. 4 (c) shows an embodiment in which a convex rail groove type fixed side convex rail locking portion (6c) is provided, and a convex slide locking portion (7b) is used for the applicable slide locking portion (7). It is a figure which shows the form, and is for fixing various locking part fittings (8) to the convex slide locking part (7b) which engages with this fixed side convex rail locking part (6c). , One or more slide locking portion connection holes (7c) having a diameter of about 5 to about 10 mm are provided in the center of the convex slide locking portion (7b). A locking part connector can be attached to this connection hole. The rail width of the fixed-side convex rail locking portion (6c) is approximately 10 mm or more, and the height of the convex portion is approximately 5 mm or more. Two or more fixing portions (9) for the rod-shaped member side columns are provided, but in the figure, one rod-shaped member end face bolt hole (9e) is provided near the center of both end faces.

FIG. 5 is a schematic view illustrating the shape of the individually formed columns (10). The diameter or width of the columns is at least about 2 cm or more in three-dimensional shape.
Although the size is only one example, it is desirable from the viewpoint of strength that the thickness is at least 1.5 mm or more. The upper and lower ends are closed by baking a metal such as iron or stainless steel or a light metal such as aluminum, and a screw hole having a diameter of about 5 to about 12 mm is provided in the center. A support base (19) can be attached to the support (10). The same applies to the support column of claim 1.
Depending on the competition, a strut with a diameter or width of 10 cm or more is also conceivable. A column-side rod-shaped member fixing portion (13) is provided at one location on the column side surface, and a column-side rod-shaped member round concave single fixing portion (a strut-side rod-shaped member round concave single fixing portion) having a round screw hole that is a recess with a diameter of about 5 to about 10 mm as a fixing portion. 13a). In addition, there is a support column side rod-shaped member square concave single fixing portion (13b) or the like which is a square hole having a width of about 30 mm and a length of about 10 mm.
The fixing portion of the support column is combined with the support column side rod-shaped member single fixing portion (13) of the rod-shaped member, and fixed with a fixing tool such as an engaging bolt and nut. Bolts and screws come with a set of engaging parts or fixtures such as nuts.
The total length of the support is 50 cm, 100 cm, because the height of the exercise line is approximately 0 cm on the floor and 30 cm or more is required depending on the line sports event to maintain the height of the exercise line. Supports of various heights such as 150 cm, 200 cm, or 300 cm will be prepared by competition.
The method of fixing and arranging the stanchions is not only to place the stanchions upright on the installation surface, but also to insert the stanchions into the stanchion base and arrange them so that they can be moved on the installation surface. A method of fixing with a tool or a fixing agent and inserting a support, a method of fixing the support with a second fixture on an upright surface close to the installation surface, and inserting and fixing it in the sports pole insertion hole arranged on the installation surface. How to place it. There is a method of embedding it in the installation surface and completely fixing the surrounding area with concrete or the like.
The cylindrical strut (10a) of (a) has a horizontal cross section of approximately circular or elliptical shape, and the cylindrical strut (10a) having a diameter of approximately 4 cm or more and a total length of approximately 30 cm or more is used for various line sports. Ideal for doing this, but may have thinner or shorter stanchions.
The polygonal support (10b) of (b) has a diameter of at least about 2 cm and a total length of about 30 cm or more, and has a straight cross section such as a quadrangle, a pentagon, a hexagon, or an octagon.
The Kamaboko-shaped strut (10c) of (c) is a Kamaboko-shaped column having a substantially semicircular and straight horizontal cross section.
The stepladder-type strut (10d) of (d) is a ladder-shaped strut, and the strut has a folding function, and can be further made into a ladder-shaped four-legged or three-legged strut.
The system truss column (10h) of (e) is made of a steel pipe material having a diameter of about 30 mm, such as stainless steel or aluminum alloy, and is a triangular or square flat system truss member having a width of about 30 cm using a truss structure. It is a pillar that is three-dimensionally assembled so that it becomes the same. Some are welded and fixed in a triangular or quadrangular shape from the beginning. The length is between about 30 cm and 360 cm, and various lengths such as about 60 cm and about 90 cm are arranged. It can be connected horizontally and vertically. A line locking unit for exercising the system truss member as a rod-shaped member so that the columns of two or more system truss members of the unit are cross-linked near the upper end using a dedicated joint material, bolt or pin fixture (not shown). It may be connected so as to be. It may be connected and raised to a desired height. Not only straight lines but also curved system truss members with arches can be used as rod-shaped members. It is a member of a strut and a rod-shaped member suitable for line sports where a load of around the weight of an athlete or more is applied. Note that these sizes are just examples.
It is not necessary for all the columns to be covered with the front surface of the side surface, and a space may be provided in terms of strength or design as in the system truss member.
An engaging strut base (19) can also be attached to each strut. It is also possible to install three or more struts to increase stability. Further, the three or more common columns (10 g) to be attached to the inside can be attached not only from the back surface of the rod-shaped member (3) but also to the front surface and to be supported from below.
A special cubic joint member is used as a connecting method for the support or rod-shaped member made of the system truss member. When the dedicated joint member of this cube is connected, it is a support body (10f) when it is attached to the vertical upper part or the vertical lower part of the support column. When it is attached to the left and right of the support and in the horizontal and horizontal directions, which is the front-back direction, and is used as the dedicated joint member of the rod-shaped member even if it has substantially the same shape as the dedicated joint member to be the support body, it is distinguished as the rod-shaped member body (5). ..
Cylindrical stanchions (10a) or triangular, quadrilateral polygonal stanchions (10b) are practical shapes, and when considered as the third stanchion, tennis net poles or volleyball installed in gymnasiums and sports grounds. Cylindrical support (10a) with a common diameter that can be inserted and inserted into the sports pole insertion hole (23) for inserting and fixing a sports pole (22a) such as a net pole for badminton or the sports pole insertion hole (23) for badminton. ) Or a cylindrical extension fixed support (11) can be provided.
Diameter size is
A cylindrical strut with a horizontal cross section of approximately 76 mm ± 2 mm in diameter.
Cylindrical column with a diameter of approximately 50 mm ± 2 mm.
Cylindrical column with a diameter of approximately 40 mm ± 2 mm.
By providing columns having at least these three types of diameters, it is possible to insert and fix the sports pole insertion holes (23) of the official size of volleyball, tennis badminton, etc., which are the respective sports pole insertion holes (23).
It is a hollow tubular body with a substantially circular cross section, has a total length of at least 100 cm and a thickness of at least 1.5 mm, but is 4 mm thick for line sports where a load of 100 kg or more is applied to an exercise line. It is desirable to provide the above-mentioned tubular body columns made of metal such as iron and stainless steel or light metal such as aluminum.
A cylindrical strut made of reinforced resin that can be inserted into the sports pole insertion hole (23) is also conceivable, but the thickness is at least 5 mm or more, and the inserted pole including the above-mentioned three types of cylindrical strut. It has a weight of at least 15 kg so that it will not come off due to impact from the sports pole insertion hole (23), and it has a weight of at least 5 kg and the installation area at the bottom is at least 200 square centimeters or more. Ideally, the base for the support column provided with the above should also be used and fixed at the same time.

FIG. 6 is a schematic view illustrating the shape of the support base (19) that can be attached to the support (10).
The flat plate base (19a) is preferably made of metal such as iron, and the size is just an example. The body is provided, and the support is inserted and fixed from the support opening. The flat plate may be circular or oval. It can be made of aluminum, stainless steel, or reinforced plastic.
The rod-shaped plate base (19b) is preferably made of metal such as iron, and is a straight iron rod having a length of 50 cm, a width of 10 cm, a width of 10 cm, and a thickness of 5 cm, and a recess for a support column in the center. It is suitable to prepare and fix a common bolt hole (19f) for both base and upper connection provided on the side surface or end face of the column with bolts and screws having a diameter of about 5 to about 10 mm. It can be made of aluminum, stainless steel, or reinforced plastic.
The base (19c) for a three-point support type support made of light metal has one support leg of about 5 cm in length × 5 cm in width × 40 cm in length, and is made of aluminum, stainless steel, or reinforced plastic that is fixed by three support legs. desirable.
The four-point support base (19d) also has one support leg having a length of about 5 cm, a width of 5 cm, and a length of about 40 cm, and is preferably made of aluminum, stainless steel, or reinforced plastic to be fixed by the four legs.
The anchor type base (19e) is provided with an insertion hole having a height of 30 cm or more suitable for the cross-sectional shape of the support column (10) from the top, and the bottom of the support column (10) is inserted from above the innermost hole. Fix it. It is desirable that the width and height of the base are at least 30 cm or more, and the thickness of the base is also 5 cm or more. Has a rubber cushioning material. Concrete and iron are preferable. It is also conceivable that it is made of plastic or the like and is used as an anchor type base by pouring water into the hollow part inside.
As shown in the figure, the L-shaped base (19 g) is an L-shaped base for columns that is perpendicular to the side surface. It is a base for fixing a support (10) so as to press it against an upright surface such as a wall that rises at a right angle. Insert the support from the support port on the top of the L-shaped base (19g), and fix the support to the upright surface with fixing screws, metal fittings, adhesive, etc., and at the same time, similarly to the installation surface of the L-shaped base (19g). By fixing with fixing screws, metal fittings, adhesives, etc., a force is generated to press the columns against the upright surface, and the base is installed on the upright surface of the gymnasium, sports gym, etc., or on the upright surface of the moving cargo compartment, container, etc. The surface can be saved and the columns can be fixed. It is desirable that the installation surface of the base has at least 20 cm from the right-angled portion where the upright surface and the installation surface intersect toward the installation surface, and the shape of the base is rectangular in a plan view from the wall which is the upright surface toward the installation surface. Various shapes such as a shape, a semicircular fan shape, and a triangle shape can be considered. Aluminum, stainless steel, or reinforced plastic is preferred.
Further, all the bases are provided with round recesses having a diameter of about 5 to about 10 mm, which is a common size for the support column (10) and the rod-shaped member (3), on the surface of each three-dimensional surface, and have round recesses of the same size. It is possible to fix the rod-shaped member. The round concave includes a concave that does not penetrate or a concave that penetrates, and when the round concave is provided with unevenness for screws, it is desirable to use a common unevenness for screws. However, the diameter of the recess connecting the base and the support column is preferably 10 mm or more, and it is conceivable that the bolt may be engaged with the diameter and the thread of the fixture.
As an example, the installation part of the flat plate type base (19a) is not completely installed on the entire surface, but the substantially central part of the flat plate rises in an arch shape, and a space is created between the installation surface and the base near the center of the base. It is possible to increase the stability by installing the structure near both ends of the.
The pole insertion hole engaging base (19h) is a base having a pole insertion hole engaging portion (19i) that engages with a sports pole insertion hole (23) for volleyball, tennis, badminton, etc. installed in a gymnasium or the like. be. A common bolt (8j) that engages with the common bolt hole (19f) for both base and upper connection provided on the lower end surface of the column is provided at substantially the center of the upper end surface of the pole insertion hole engaging portion (19i). Detachable pole insertion hole engagement base (19h) that engages with sports pole insertion holes of different sizes can be attached to the bottom of the column. It is preferably made of heavy metal such as iron.
The diameters of the circular diameters of the pole insertion holes for tennis, volleyball, badminton, etc. are mainly three sizes, and are the pole insertion holes (23) having a diameter of about 42 mm, a diameter of about 52 mm, or a diameter of about 79 mm. To increase stability, these insertion holes are used and pole insertions with pole insertion hole engagement portions (19i) with diameters of approximately 40 mm, approximately 50 mm, and approximately 76 mm that engage the diameter and depth of these insertion holes. By providing a hole engaging base (19h) so that it can be inserted into these insertion holes, even if the columns have different diameters, by attaching the pole insertion hole engaging base (19h), the diameter of the columns will be different. However, it can be inserted into the pole insertion hole and fixed. Since the pole insertion hole varies from 20 cm to 50 cm depending on the depth of the insertion hole, the length of the pole insertion hole engaging portion (19i) also differs depending on the depth of the insertion hole.
The diameter and length of the pole insertion hole engaging portion are merely examples and are not limited to this.
Although not shown, as an engagement insertion method for another pole insertion hole, when the diameter of the pole insertion hole is larger than the diameter of the support column (10), the outer diameter is substantially equal to the diameter of the pole insertion hole and the inner diameter is the support column. Insert an iron, aluminum, synthetic resin, or plastic tubular body with a total length that is approximately equal to the outer diameter of the rod and longer than the depth of the insertion hole into the pole insertion hole, and support from the top of the hole in the tubular body. It is considered that stable fixing is possible by inserting 10).
By making it possible to attach the rod-shaped member to the base, it is considered that the exercise line can be arranged even if the height on the installation surface is about 5 cm or less.
The shape and size of the base can be various, and the ones shown here are not all.
In addition, although not shown, holes of about 50 cm in length, 50 cm in width, and 50 cm in depth are provided on the outdoor installation surface such as an exercise ground instead of the base, concrete is poured, and the upper part of the support is installed in the center. It is also conceivable to hang and fix it so that the height of the surface can be maintained at least 80 cm or more. There are four columns to be fixed, and four columns are fixed at the corners of each quadrangle so that all the internal angles draw a quadrangle, and a method of fixing each column so that the distance between the columns is at least 1 m in both vertical and horizontal directions is also considered. Be done.

FIG. 7 is a schematic view of various exercise lines.
Exercise line An exercise line used in a locking system. The exercise line has a length longer than the interval between the parallel exercise line locking units.
The low tensile force line (21a) at the top is a rubber-like shrinkable line with a diameter of about 1 to 5 mm and a length of about 2 m or more, and there is little risk of falling even if the leg is caught when jumping over. Become.
The rubber belt (21b) is a rubber-like shrinkable line having a thickness of about 1 to 5 mm, a width of about 5 to 30 mm, and a length of about 2 m or more.
The low elasticity thin line (21c) is a line of chemical fibers or natural fibers having a diameter of about 1 to 5 mm and a length of about 2 m or more and no shrinkage.
The fine string (21d) is a line of chemical fibers or natural fibers having a diameter of about 5 to 20 mm and a length of about 2 m or more.
The rope-shaped thick string (21e) is a line of chemical fibers or natural fibers having a diameter of about 20 mm or more and a length of about 2 m or more.
The tightrope walking line (21f) is a synthetic fiber belt having a width of about 2.5 to 6 cm, a thickness of about 1 to 4 mm, and a length of about 2 m or more.
The ladder type belt line (21 g) is formed by forming a rope crossing line (21f) having a thickness of about 1 to 5 mm and a width of about 5 to 30 mm into a ladder type having a width of about 40 cm × a length of about 40 cm and a length of at least 2 m or more. It is a natural fiber or synthetic fiber belt that is used for ladder training that takes various steps back and forth. By attaching a buckle to the end of the belt, it can be connected and extended.
The mesh type belt line (21h) has a belt shape with a thickness of about 1 to 5 mm and a width of about 2 cm. In addition, with an exercise line formed of rubber, natural fiber or synthetic fiber belts in a mesh shape, rudder training is made more complicated by stepping forward, backward, left, right and diagonally and stepping at the same time as balance training to improve balance ability. Instead, by imagining complex movements, it becomes a training to think in the mind and express the movements with the body. When arranging it so that it is placed on the floor of a gymnasium, gym, etc., if it is made of rubber, it is safe and desirable because it reduces the possibility that the athlete steps on the mesh belt line and the ladder line.
The pole type line (21i) is a pole made of a light metal such as aluminum or a reinforced synthetic fiber resin having a diameter of about 30 to 50 mm and a length of about 2 m or more. ), And by using it like a high-jump pole placed on a metal fitting on the underside of a rod-shaped member, even if it is caught trying to jump over, the pole will come off and the risk of injury will be eliminated. There is. In addition, although not shown, it is possible to suspend pole-shaped exercise lines directly underneath at a plurality of locations with only a locking portion of a rod-shaped member fixed above the athlete.
The line for laser light exercise (21j) is a soft rubber-like line with elasticity for infants and the elderly. Even if it is a low tensile force line for sports (a), there is a risk that the body may get caught in the line and fall. By using an optical line similar to a laser beam, which is a line of electromagnetic waves, as a ray for line sports, it is possible to reduce the risk of falling.
The ray (21j) for line sports is a ray of electromagnetic waves, which can be visible light, infrared rays, radio waves and lasers (a maximum output power of 1 mW or less is desirable to prevent eye damage), or sound, and these lasers. Using a laser oscillator (21k) that oscillates the optical motion line (21j) and a receiver (including a reflector) (21l), the position of visible light rays can be confirmed, or invisible light rays. Use a receiving sensor device that has functions such as receiving vibration when it touches or blocks light rays, such as infrared rays, or the receiver senses and reacts, makes various sounds, or emits visible light rays. Is also possible. The signal that becomes the signal to be emitted is not limited to sound and visible light, and the type of sound and visible light emitted is not limited.
By oscillating the laser beam at various heights and positions and locking and fixing the receiver to the rod-shaped member, even if you touch the line for moving the laser beam, it will not get caught and the safety of fall prevention will be improved, and at the same time, the sports game will be more entertaining. And it is also possible to make a new sports training method.
As the power source, use a power source such as a battery, a battery, or a generator, or use a power cord (21 m) and connect it to a general power outlet to secure it. Depending on the laser beam oscillation and the capacity of the receiving device, a large power supply such as a three-phase 200 volt may be used. There is no limit to the type of power supply.
It is also conceivable to wear retinal protective goggles or the like to prevent damage to the retina due to light rays. A line for laser light motion (21j) that is used as a device that emits sounds with a scale when it touches or blocks light rays or infrared rays, sets a specific sound or scale for each light beam, and emits multiple sounds. ) Can be used to check the sound while competing. It is also possible to provide a sensor function to emit sound or light even in an exercise line other than the laser light exercise line (21j).
Dozens of visible laser light motion lines (21j) can be set and changed in various desired angles and directions in a pitch-black room or a movable container house, and the laser light motion can be changed. It is also possible to perform line sports that pass through without making a blocking sound by touching the line (21j).
Further, it is also possible to record and analyze the data as electronic data in an electronic storage device such as a computer in combination with a video storage device such as a video camera.
The laser beam motion line also includes the light beam emitted by the non-contact 3D scanner, which can acquire the three-dimensional shape as 3D data by analyzing the time difference and the irradiation angle when the light beam is applied to the object and reflected. A commercially available handy type or a commercially available small and stationary type non-contact type 3D scanner can be locked at an appropriate position in the locking portion with a fixture. There are several scanning methods such as "optical (lattice pattern) projection method" and "laser light cutting method", but the general principle is to analyze the time difference and irradiation angle at which light rays are reflected by hitting an object. And get the three-dimensional shape. Based on this 3D data, the characteristics of the athlete's motor movements can be analyzed by a personal computer or the like equipped with dedicated commercially available 3D data analysis software. A non-contact 3D scanner that cuts laser light is desirable because it can be used in bright places. In some cases, it may not be necessary to lock the receiver and receiver (including the reflector) to the opposing unit.
The exercise line used for line sports is a general term for various linear materials that can be used for line sports, and the exercise line (21) includes the above-mentioned light rays and is described as an exercise. It is not limited to the width, thickness, thickness, spacing, length, number, material, elasticity, type and shape of the line. It is a new sport, and exercise lines (not shown here) may be locked and arranged.
Further, as an example, one line having a length of 20 m or more is connected to a plurality of locking portions between the exercise line locking units in parallel with the exercise line locking system, such as a locking portion connector. By using it and stretching it between the units, it becomes the same as the state where a plurality of exercise lines are arranged (FIG. 25 21d).
The exercise line locking system is a system that can lock, arrange, and replace lines desired from these exercise lines in a complex manner at various positions and angles.

8 (a) is an overall view of an exercise line locking system in which various types of exercise lines are arranged on the upper surface, front surface, lower surface, and back surface of a rod-shaped member by various locking portion connectors, (b). ) Is an overall view in which the side surfaces of the rod-shaped members of the three exercise line locking units are arranged so as to face each other.
In FIG. 8A, various types of exercise lines are arranged on the upper surface, front surface, lower surface, and back surface of the rod-shaped member by various locking portion connectors, and the exercise lines face each other so as to face the installation surface. From the right side of the drawing to the locking part of the line locking system for
The thin rubber cord (21a) is locked and fixed to the locking portion on the front surface of the rod-shaped member by the can-type screw-type locking portion connector (8f).
One thin string (21d) is locked and fixed by a hook type screw type locking portion connector (8e) while folding back between the locking portions on the front surface of the rod-shaped member of the exercise line locking unit.
A rope-shaped thick string (21e) is wound and tied around the rod-shaped member to be locked and fixed. It is desirable to wind the elastic material locking portion connector (8j) from above the locking portion of the rod-shaped member and lock and fix it from above so as not to shift.
A laser light motion line (21j) is arranged between the laser oscillator (21k) and the receiver (including the reflector) (21l).
Laser light is oscillated from a laser oscillator (21k) connected to a power cord (21m) by an L-shaped screwed locking part connector (8a) to the locking part on the upper part of the facing rod-shaped member, and the laser beam is oscillated from the facing rod-shaped member. The receiver (including the reflector) (21l) is fixed to the upper surface of the member by the L-shaped screw locking part connector (8a) so that the receiver (including the reflector) (21l) can be received, and the laser light motion line (21j) is arranged between them. Has been done. By using the sensor function and the sound device together, it is possible to emit various sounds and visible light when the body touches the laser light movement line. The sound may be a scale or music.
The pole type line (21i) is fixed to the locking portion on the upper part of the rod-shaped member by a U-shaped screwed locking portion connector (8c) so as not to move. Even if a force is applied to the pole type line from above, below or from the side, the pole will not move.
The pole type line (21i) is placed on the metal fitting of the U-shaped screwed locking portion connector (8b) on the locking portion at the lower part of the rod-shaped member and is allowed to stand still. It can fall when resistance is applied like a pole vault pole.
The mesh-type belt line (21h) is locked to the locking portion on the front surface of the rod-shaped member by a can-type screw-type locking portion connector (8f). Compared to other exercise lines, it also weighs more, so it has a stable base, the weight of the mesh belt line (21h), and the strength of the columns, rod-shaped members, and connectors that can withstand the impact applied while using line sports. Is required.
Further, in the drawing, the intervals between the exercise lines are drawn substantially equal, but the intervals between the lines can be changed by changing the locking position. In addition, it is possible to use a plurality of these exercise lines at the same time as shown in the drawing according to the type of line sports and the training content, and it is also possible to arrange such various lines. It is also a feature of the exercise line locking system.
FIG. 8B shows an exercise line in which three exercise line locking units are arranged in parallel and arranged on the installation surface at intervals so that the side surfaces of the rod-shaped members face each other. Is an overall view arranged between the three units. The distance between the units is at least 1 m or more, and the side surfaces of the rod-shaped members are arranged in parallel so as to face each other. It does not necessarily have to be perfectly parallel, and a difference of ± 5 degrees may occur.
On the side surface of the rod-shaped member of the unit located at the center, locking portions in a row extending horizontally in two plan views are provided on both the left and right sides or the upper and lower side surfaces on the left and right sides of the rod-shaped member. ..
Although the number of units shown is three, the exercise line locking system increases the number of exercise line locking units according to the range of the installation surface, and the side surfaces of the rod-shaped members are spaced so as to face each other. It can be opened and placed on the installation surface, and exercise lines can be placed on each. The columns are not limited to parallel. Further, two units arranged in parallel so as to face each other and another two units arranged in parallel so as to face each other may be used and arranged so as to cross each other in a cross shape.

FIG. 9 is a schematic view showing a state in which the rod-shaped member is separated into each constituent material according to claim 2, and (a), (b), and (c) are schematic views showing a locking unit having a different structure. It is a figure. (D) is a schematic view showing a rod-shaped member body which does not include a locking portion.
The rod-shaped member (3) is formed so as to be separated into a rod-shaped member body (5) that does not include a locking portion and a locking portion body (6e) that has a locking portion, and is detachably fixed by a fixture.
The size of the locking part (6e) is only an example, but the thickness is about 2 to about 5 mm, and the width is equal to or less than the width of the rod-shaped member, such as light metal such as aluminum or stainless steel, iron, etc. It is made of metal or reinforced resin, and may be made of a different material from the rod-shaped member (5).
Since the exercise line used differs depending on the content of the competition, the thickness of the locking part may be 30 mm or more in order to increase the strength.
The rod-shaped member body (5) and the locking portion body (6e) are detachably fixed with a fixture. This fixture uses common screws (8i) or bolts that engage common screw holes (8h) with a diameter of approximately 5-10 mm. The length is about 20 mm, but these lengths and diameters are just desirable examples.
In FIG. 9A, the width and length are substantially the same as those of the rod-shaped member, and the plate-like body of a thin plate having a thickness of about 2 to 5 mm is integrally molded, and a round concave portion having a diameter of about 5 to about 10 mm is linearized. It is a round concave locking portion (6f) having locking portions at equal intervals of about 3 to 5 cm. The thickness and spacing are just examples.
For fixing to the rod-shaped member body, round recesses having a diameter of about 5 to about 10 mm are formed on both sides at intervals of about 20 to 30 cm as shown in the figure, and both the linear rod-shaped member body and all the locking parts (6e) are fixed. It is desirable that all of them have a common concave diameter size and are provided so as to engage at a common interval. However, in the curved rod-shaped member body and the locking portion such as the cylindrical rod-shaped member (3a) and the curved rod-shaped member (3j), each rod-shaped member is separated into a rod-shaped member body and a locking portion, respectively. In some cases, the shape matches the shape of. Although not shown, the round concave shape may have a concave shape, a convex shape, or a rail shape.
FIG. 9B shows a convex or concave shape having a rail width of about 10 to about 30 mm, which is integrally formed of a thin plate having a thickness of about 2 to 5 mm and a width and a length substantially equal to those of a rod-shaped member. It is a rail locking part body (6 g) including. It should be noted that all the shapes of the rails shown in this figure will be described as concave.
FIG. 9C is a reinforced locking portion (6h) in which a locking portion is provided on a thick plate having a thickness of 10 mm or more, instead of the thin plate-like body having a thickness of about 2 to 5 mm. .. In the figure, it is a round concave with a diameter of about 5 to about 10 mm, but in addition to those having a concave or convex rail locking part, a plate-like body with a thickness of about 30 mm or more is formed with a diameter of about 10 mm or more depending on the competition. A round concave locking part (6f) in which round concaves or round concaves of about 30 mm or more are provided at equal intervals of about 50 mm, or a reinforced locking part in which a concave or convex rail having a width of 40 m or more is provided. The body (6h) will also be prepared by the competition.
Training by the exercise line includes training to pull a rope with a diameter of 50 mm or more strongly, and exercise to hang with the whole weight or apply centrifugal force to it, so other than rod-shaped members, struts, height adjustment fixed parts , A drag force against a force applied to the strut body, the locking portion body, and the rod-shaped member body is required, and the thickness, width, and the like may change depending on all of them.
Further, depending on the type of exercise line used in the competition, a round concave locking portion (6f) having round concaves having different diameter sizes and a rail locking portion (6 g) having different width sizes may be provided.
The rod-shaped member body (5) and the locking part body (6e) are fixed to a common screw hole (8h) with a diameter of about 5 to about 10 mm and a common screw / screw (8i) or a common size bolt, etc., which are the common size of the system. It is desirable to use. There is an advantage that the locking part (6e) is damaged or can be replaced depending on the content of the competition.
In addition to the rod-shaped member body (5), the locking part body (6e) is fixed to an upright surface, a ceiling surface, or a floor surface serving as an installation surface with common screws / screws (8i), adhesives, etc. The exercise line (21) can be locked and arranged by the connector (8). Fix it as it is on the surface, or fix it so that it is embedded.
Although not shown, when the locking portion (6e) is attached to the installation surface, a method of embedding or covering the entire surface is adopted so that the locking portion connector does not protrude and the floor surface is substantially flat. It is also conceivable to use a locking part (6e) to be maintained.
In addition, when using a laser light motion line, the flat surface is shaped so that a reflective material is embedded so that the receiver (including the reflector) (21 liters) does not protrude from the installation surface and keeps the flat surface of the installation surface. A locking part (6e) is also conceivable.
Like pole competitions such as skiing. When the pole type line (21i) is set up on the installation surface, a cylindrical body having a height of about 20 to 30 cm above the floor, which serves as a pole insertion hole, is attached to the locking portion (6e) provided on the installation surface. It may be attached to the stop body (6e).
FIG. 9D is a rod-shaped member body (5) separated from the locking portion body. A common screw hole (8h) is also provided in the rod-shaped member body. It is also conceivable to increase the strength by attaching it as a reinforcement of the rod-shaped member (3) or the rod-shaped member body (5) to be used.

FIG. 10 shows the exercise line locking portion (12) according to claim 3, which is provided with one or more support column side locking portions (12) capable of locking the exercise line on the support column from the upper end to the lower end of the three-dimensional surface of the support column. It is a schematic view of a unit, (a) is a support column provided with a column side round concave locking portion, and (b) is an example of use of a column provided with a column side concave rail locking portion. Further, (c) is a schematic view illustrating an elastic material locking portion connector for winding locking, and (d) is a schematic view illustrating a strut provided with a strut-side tubular slide locking portion.
By providing the strut-side locking portion (12) on the strut, the exercise line can be locked on the strut, and the exercise line can be arranged between the strut and the other strut. An exercise line can also be arranged between the locking portion (6) provided by the rod-shaped member and the support column.
A screw hole including a round concave screw or a through hole having a diameter of about 5 to about 10 mm is provided on the side surface of both columns of the rod-shaped member support column crossing type unit (2b) shown in FIG. 10 (a). One or more of the column-side round concave locking portions (12a) are provided from 5 cm from the upper end of the column to 5 cm in front of the lower end at intervals of about 50 mm substantially vertically downward from the upper end of the column. A size common to the locking portion of the rod-shaped member is desirable.
The positions of the support column side locking portions (12) shown in the figure are both facing outward, but may be provided on the inside, the front surface, or the back surface.
Although it is only an example, the rail width is about 10 mm to about 40 mm on the front surface of both columns of the rod-shaped member support column sandwiching type unit (2a) shown in FIG. A column-side concave rail locking portion (12b) is provided vertically below the opening up to 5 cm in front of the lower end. Although not shown, a convex rail locking portion is also conceivable.
However, the vertical does not have to be completely vertical, and may be tilted by about ± 5 degrees.
By providing the strut-side locking portions (12) such as the strut-side round concave locking portion (12a) and the strut-side concave rail locking portion (12b), the strut (10) also has a plurality of exercise lines ( 21) can be locked and arranged.
It is desirable that the strut-side locking portion (12) has a recess or rail size that is substantially the same size as the locking portion of the rod-shaped member. From the opening provided in the upper part, the locking portion connector (8) can be fixed and attached in common. The other locking part (6e) can also be attached by providing a common screw hole (8h) on the support column on the side surface of the support column.
FIG. 10 (c) is a diagram showing an elastic material locking portion connector (8 l) for winding and locking. The strut side locking portion (12) is often used to wrap or connect exercise lines such as a tightrope walking line (21f) and a rope-shaped thick string (21e), which have a larger tension and pulling force, from the entire circumference of the strut. It is considered to be.
When these lines and thick strings are wound and locked directly on the columns and rod-shaped members, it is conceivable that the lines will shift and move. In order to prevent this movement, the support (10) or rod-shaped member (3) is covered with an elastic flat plate made of an elastic material such as rubber or plastic so as to wrap around the surface on the locking portion, and a flat screw or the like is fixed. By using the elastic material locking portion connector (8l) that can be fixed to the locking portion with the tool, it is possible to prevent the wound and locked line from moving or shifting. The width of the elastic material locking portion connector (8 liters) is approximately 100 mm, and the thickness is 5 to 10 mm. The total length is such that the holes provided on the left and right are overlapped around the surface of the support or rod-shaped member, and the length is provided so that the fixture can be passed from above. The exercise line is wound or tied and locked from the top of (8l). The rail-type locking part fixture is fixed using a height adjustment slide bolt (17 m).
FIG. 10D is a column-side tubular slide locking portion (12c). It is preferably made of metal such as stainless steel or iron, or made of reinforced synthetic resin. The size is just one example, but the thickness is about 5 mm to 10 mm, the vertical is about 10 cm to 15 cm, and the gap around the support is about 1 mm to 5 mm, and the entire outer circumference of the support, or at least half the circumference of the outer circumference or more is covered. It is provided in a covered state, and is provided with a common bolt hole (19f) for both base and upper connection and a common hole. Adjust the height of the column-side tubular slide locking portion (12c) that allows the column to slide up and down through the common bolt hole (19f) for both base and upper connection. The number of the column-side tubular slide locking portions (12c) may be one or more. Convex portions may be provided near the upper end and the lower end of the support column so that the support column side tubular slide locking portion (12c) does not come off. An exercise line is wound around the outer circumference of the column-side tubular slide locking portion (12c) to lock it, or it is locked with a connector that engages with a bolt hole provided in the column-side tubular slide locking portion (12c). .. Suitable for using exercise lines such as tightrope walking lines with large tensile force. It is desirable that the shape of the strut is triangular as shown in the figure because the drag against the bending moment is large. A columnar shape is also desirable. Although not shown, it can be used with other shapes of columns and system truss columns. Further, when inserting into the sports pole insertion hole, by attaching an anchor type base (19e) that engages with the sports pole insertion hole, it is possible to insert even if the convex portion is provided near the lower end.
Although not shown, the column-side tubular slide locking portion (12c) can also be used as a locking portion on the rod-shaped member side by changing the size so as to engage. The recess to be provided is provided with a screw thread so that the locking portion connector can be attached, and the line does not move by penetrating to the recess provided in the rod-shaped member. Convex parts may be required on both sides of the rod-shaped member.
Although not shown, when the side surface of the column is circular and a locking portion is provided on the curved portion, the portion where the locking portion is provided is cut into a flat surface or a flat surface portion is provided so as to protrude from the side surface. A locking portion may be provided near the substantially center of the portion. Similarly, for the rod-shaped member, a portion where the locking portion is provided may be cut into a flat surface, or a flat surface portion may be provided so as to protrude from the side surface, and the locking portion may be provided near the substantially center of the flat surface portion. The plane is a straight line. Or there are things that are not connected. The width of the plane varies depending on the shape of the locking portion.

FIG. 11 shows that the exercise line can be arranged in two or more stages by fixing at least two or more rod-shaped members (3) to the support column of the exercise line locking unit according to claim 4. It is a figure which shows the embodiment of the line locking system for exercise.
Two or more rod-shaped members (3) are fixed to the columns of the rod-shaped member support sandwiching type unit (2a) at intervals in the vertical direction, and the upper and lower rod-shaped members are substantially parallel to the opposing exercise line locking units. It is provided so that it has the same height. Various exercise lines (21d, 21h in the figure) can be locked in two or more rows in two stages on the locking portion (6) of the two-stage rod-shaped member, and two or more lines can be locked according to the content of the competition. It is possible to arrange a plurality of exercise lines on the rod-shaped member at the same time and in different types.
Further, not only the plurality of various exercise lines are horizontally locked and arranged in a horizontal view with the two or more rod-shaped members also included in the exercise line locking unit facing each other, but also the exercise is performed. The height of the line is changed from the upper rod-shaped member of the unit to the lower rod-shaped member of the facing unit, and the line is locked and arranged with an inclination angle having an inclination in horizontal view (30). It is also possible to do.
As an example, the athlete steps on the lower side, jumps over the exercise line, and steps in the left-right, front-back, and diagonal directions. The exercise line locked on the upper side jumps higher, goes through, and touches the line with the knee or arm depending on the height. Insert the upper body or head between the lines that are horizontally locked about 50 cm on the upper side, and step on the lower body only in the left, right, front, back, and diagonal directions so that the upper body or head does not touch the lines on both sides. Various exercises such as moving back and forth between the upper lines are possible. Safety is also increased by using a laser light motion line.
The use of the exercise line locking system, which is divided into the desired multiple heights and is arranged so that the type and number of each line can be exchanged, is, for example, the head, shoulders, upper body stationary, or left and right. , In a state of swinging back and forth with a constant rhythm, each movement such as the lower body, waist, leg rotation movement, front and back and left and right steps, and knee and toe up and down movements are arranged at each height. Exercise such as touching the line and visually confirming it using the exercise line is an example, but it also leads to the acquisition of basic movements of various exercises such as soccer, skiing, and dancing.
It is possible to horizontally arrange the lines between the rod-shaped members having the same height facing each other and to arrange the lines having an oblique angle in the horizontal view between the rod-shaped members having different heights facing each other.
However, the horizontal arrangement of the line does not have to be completely horizontal, and the exercise line also bends under its own weight at the center, so it may be inclined within a range of about ± 5 degrees. Further, the exercise line locking units arranged in parallel do not have to be installed completely parallel, and may be inclined within a range of about ± 5 degrees, and at least two exercise line locking units facing each other may be inclined. If the exercise lines of the book can be arranged, they may be arranged so as to be displaced from side to side.

12A and 12B are schematic views showing an exercise line locking unit having two rod-shaped members at the top and bottom. FIG. 12A is a rod-shaped member strut sandwiching type unit, and FIG. 12B is a rod-shaped member strut crossing type unit. This is an example.
Both of the two rod-shaped members are fixed to the columns (10) so that they are horizontal and parallel at two fixed positions at regular intervals, and it is possible to fix two or more rod-shaped members. be.
In the rod-shaped member support column sandwiching type unit shown in FIG. 12A, the distance and the distance between the two columns at both ends are fixed at two fixed positions on both end faces of the rod-shaped member, so that the unit is always kept constant. There is.
Since the rod-shaped member is substantially horizontal and the fixed position is fixed at regular intervals, the rod-shaped member itself should be changed in the fixed angle from the substantially horizontal position, the vertical interval between the rod-shaped member and the vertical member should be changed, and the rod-shaped member should be moved up and down. Can't. The rod-shaped member may not be completely horizontal depending on the angle of the installation surface, the situation (the swelling of the ground), and the like.
The rod-shaped member strut crossing type unit shown in FIG. 12B is also fixed at two fixed positions at both ends of the two or more rod-shaped members, so that the distance and the distance between the two strut ends are always constant. It is kept. The positions of both ends need not be set to a value completely determined from both end faces, and at least two or more columns are attached to the side surfaces of the rod-shaped member in the vicinity of both ends. However, in order to provide stability, it is desirable that the columns are fixed at positions within 15% of the length of the rod-shaped member at both ends. Although this is just an example, if it is a 1 m rod-shaped member, the columns will be fixed within about 15 cm at both ends.
The rod-shaped member shown in the figure is fixed to the front surface on the same surface of the column, but any one of the two or more rod-shaped members can be fixed not only to the front surface on the same surface of the column but also to the back surface on the opposite side. But also.

FIG. 13 shows the movement in the vertical direction using the locking means between the locking portions provided on at least two rod-shaped members fixed to the exercise line locking unit according to claim 5. It is a front view of the exercise line locking unit of the exercise line locking system which can lock at least one line.
The exercise line locked to the locking portion (6) provided on the rod-shaped member by the locking means can be locked not only in the horizontal direction but also in the vertical direction within one exercise line locking unit. By being locked to each of the locking portions (6) of the rod-shaped members attached to the top and bottom, it is possible to arrange in the vertical direction in which the exercise line is vertically laid in the vertical direction. ..
Further, a locking means that functions to suspend the exercise line locked only to the upper locking portion (6) so as to be suspended by gravity, or to move upward from the locking portion. By being locked by the locking portion connector (8), the upper part can be erected so as to stand an exercise line such as a pole which is not fixed on the installation surface. Further, by changing the upper and lower locking positions, not only vertical but also oblique arrangement can be performed in the same unit.
The exercise line locking system can lock the exercise line not only in the horizontal direction but also in the vertical direction within the unit, so that a plurality of desired exercise lines including the type and number can be locked in the unit. It is possible to dispose of them at desired intervals at the same time.
In this exercise line locking system, hanging refers to a state in which both the upper part and the lower part of the exercise line are locked to two locking portions so as to be substantially vertical. Refers to a state in which only the upper part of the exercise line is locked downward to one locking portion so as to hang, and standing is a state in which only the lower part of the exercise line stands upward. It is distinguished as referring to the state of being locked by only one locking portion.

FIG. 14 is a support column having a height adjusting fixing portion (14) according to claim 6, wherein the height of the rod-shaped member can be freely adjusted to an arbitrary height by using the height adjusting fixing means. It is a schematic diagram of a certain exercise line locking system, in which (a) is arranged at an arbitrary height of the floor surface, and (b) is arranged on the upper part of a column having an arbitrary height. show.
In this figure, in order to explain the change in height, the rod-shaped member fixed to the exercise line locking unit will be described by the same rod-shaped member.
FIG. 14A is provided with a height adjusting fixing portion (14) capable of fixing the rod-shaped member (3) at various heights from the substantially upper end to the substantially lower end of the support column (10) while maintaining substantially horizontal. It is an overall view of the exercise line locking system, and the rod-shaped member (3) is fixed at the lowermost position of the height adjustment fixing portion (14) provided on the support column, and a plurality of exercise lines are substantially floored. It is a figure arranged at 0 cm above the surface.
FIG. 14B is a view in which the rod-shaped member (3) is fixed at the upper position of the height adjustment fixing portion (14) provided on the support column, and a plurality of exercise lines are arranged on the upper part.
By having the height adjustment fixing portion (14) capable of changing the fixing position of the rod-shaped member (3) on the support column, the arranged exercise lines are also preferred as shown in FIGS. 13 (a) and 13 (b). It is a line locking system for exercise that can be adjusted to the height of.
In claim 1, the height at which the exercise line is locked and arranged is constant and does not change, and is substantially equal to the height at which the rod-shaped member is fixed to the support column. The area around the central part of the arrangement may be lowered so that the movement line hangs down due to gravity. Further, since the units arranged facing each other are systems that use the same unit, in the unit of claim 1, the exercise lines are arranged substantially horizontally, but the height adjustment fixing portion (14) The exercise line locking system provided with the above can also fix the fixing height of the rod-shaped member to an arbitrary height different from that of the facing unit. The exercise line to be arranged is not substantially horizontal, and the exercise line can be obliquely arranged at a desired angle in a horizontal view.
One of the features of the dynamic line locking system is the tilting arrangement function that enables the tilting arrangement having an arbitrary horizontal arrangement and an arbitrary inclination angle by the height adjusting fixing portion (14).
The distance between the two struts fixed to substantially both ends of the rod-shaped member is the distance between the two struts fixed to the substantially both ends of the rod-shaped member, and the distance between the fixing portions for the rod-shaped member side struts is always constant. The support line sandwiching type (2a) or support crossing type (2b) line locking unit for both movements, which is fixed to these two fixing portions (9a, 9b, or 9e), moves two or more rod-shaped members up and down. Even if it moves to, the rod-shaped member fixed substantially horizontally keeps horizontal, and the distance between the columns arranged on the installation surface does not change.

FIG. 15 is a schematic view of a support column provided with various height adjustment fixing parts, in which (a) is a round concave compound type, (b) a rectangular concave compound type, and (c) is a rail type, (d). ) Extension fixed type support Represents a round concave double type fixed part body.
It is a figure which shows the embodiment of the support which provided the height adjustment fixing part (14) of various shapes from the substantially upper end to the substantially lower end of a support (10) and a common support (10h), and is a diagram showing a support of various shapes ( A height adjustment fixing portion (14) is provided substantially vertically from the upper part to the lower part of the side surface of 10), and the height of the height adjustment fixing portion (14) is in a state where the bottom surface of the rod-shaped member is substantially in contact with the installation surface. The rod-shaped member (3) can be fixed at a plurality of places from the to the substantially upper end of the support column (10).
The height adjustment fixing portion (14) includes several shapes of the fixing portion. The size is just an example.
The position where the height adjustment fixing part (14) is provided on the support column is also different when the support column is used for inserting into the support column base (19) or the sports pole insertion hole (23). It is not necessary to provide the height adjustment fixing portion (14) in the portion where the support column is inserted.
FIG. 15A shows a circular screw hole for bolts having a diameter of about 5 to about 10 mm or a through hole having no substantially protrusions, which are vertically connected to the side surface of the column at intervals of about 5 cm in series. A substantially circular height-adjusting round concave double fixing portion (14a) for the through hole. Each recess of the height-adjusting round concave double fixing portion (14a) has substantially the same diameter as the round concave locking portion (6a) provided on the rod-shaped member (3), and the locking portion connector (8) is provided with a support. It is desirable that it can also be attached to (10). Similarly, the height adjusting fixing portion (14) and the locking portion (6) have the same diameter or width, and the locking portion connector (8) can be attached to the rod-shaped member and the support column. , There are many parts where the exercise line can be locked, and there is an effect that the number of combinations of various exercise lines to be locked increases.
In FIG. 15B, the height-adjusting double-angle concave double fixing portion (14b) is an example of a substantially quadrangular concave portion, but the upper part of the side surface of the support column is about 30 mm wide and about 10 mm long at intervals of about 5 cm. It is in series vertically from to the bottom.
FIG. 15C shows, although it is an example, a height in which concave or convex rails having a width of about 10 mm to about 40 mm are provided vertically from the uppermost part of the side surface of the column toward the lowermost part. The adjustment rail fixing portion (14c).
If the columns do not have the required height, the common columns (10 g) that can be used individually can be connected with bolt connectors or the like through the common bolt holes (19f) for both base and upper connection.
FIG. 15D is a height-adjustable round concave double fixing portion (14a) provided on the extension fixed type support column (11), which is composed of two columns. The extension fixed type strut (11) is composed of an outer strut (11a) and an inner strut (11b) having an outer diameter substantially equal to the inner diameter of the outer strut (11a), and the inner strut (11b) is contained in the outer strut (11a). ) Is built in, and the upper part of the inner strut protruding from the upper end of the outer strut (11a) is pulled out to an arbitrary height, and a plurality of sides of the outer strut (11a) and the inner strut (11b) are provided like a general volleyball pole. A common bolt (8j) that can also be used as a metal bolt and screw is inserted into the through hole, and the height of the column is expanded and contracted and fixed by penetrating both the outer and inner columns. As with general volleyball poles, it is desirable to adjust the height of metal and heavy columns by penetrating bolts and screws through the provided through holes.
In the case of a lightweight synthetic resin or plastic extension fixed support (11), the extension fixed support is a support screw type fastener (11c) attached near the outer end diameter of the outer support (11a). A method of adjusting the length of (11) is also conceivable.
A height adjusting fixing portion (14) is also provided on the surfaces of the outer support (11a) and the inner support (11b) of the support (10) and the extension fixed type support (11).
The extension fixed type support column (11) can also be provided with a height adjusting round concave double fixing portion (14a), a height adjusting rail fixing portion (14c), and the like.
It is desirable that the upper and lower end surfaces of all these columns are covered with a burn-in welded lid made of the same material or a removable lid including another material.
Further, it is possible to provide a plurality of the height adjusting fixing portions (14) on a plurality of side surfaces of one support column. It is also possible to combine the height adjustment fixing portions (14) having different shapes as described above and provide them on each surface.
In the center of the lid, although it is only an example, a common bolt hole (19f) for both base and upper connection having a diameter of about 5 to about 10 mm is provided substantially vertically or coaxially with the support, and the base for the support is provided. (19) can be attached, another support column (10) can be connected, or a locking portion connector (8) for fixing or supporting the exercise line (21) can be attached.
Since it is also a place where external force is applied such as impact and pressurization, bolt holes with a diameter of about 5 to about 10 mm are used, but what is required is the stable force and drag required to withstand the external force, so screws. The hole size, depth, orientation, etc., as well as the length, thickness, type, material, and shape of columns, rod-shaped members, exercise lines, connectors, etc., are given as examples.
The stepladder type support (10d) with a stable base function is also provided with a height adjustment fixing part (14) on the leg part that becomes each support, and the height adjustment and fixing of the drawer type built in the inside of each leg. It is also possible to extend the height by pulling out the extension fixed type strut leg having the portion (14) from the lower part or the middle of each stepladder strut.
The height adjustment fixing portion (14) refers to a portion where the height of the rod-shaped member can be adjusted within a range from the upper end of the column to the substantially installation surface using fixing means.
The concave or convex portion or rail that is the strut-side locking portion provided on the strut (10, 10h) is also the concave or convex portion on the height adjusting fixing portion (14) and the locking portion (6) side of the rod-shaped member. By making all the portions or rail portions of the same size, the height adjusting fixing portion (14) and the locking portion connector (8) that engages with the concave or convex portion or the rail provided on the three-dimensional surface of the column. A plurality of lines can be attached, and at least one type or more of one or more exercise lines (21) can be locked to the height adjustment fixing portion (14) and the concave or convex portion or rail portion provided on the support column. It has the effect of becoming.
In addition, the rod-shaped member can be attached to the desired height of the support column (10) by using a clamp-type metal fitting (18) or the like as a fixing means, and can be used as a substitute for the height adjusting fixing portion (14).
Although not shown, when the side surface of the column is circular and the height adjusting fixing portion (14) is provided on the curved portion, the portion where the height adjusting fixing portion (14) is provided is cut into a flat surface or the side surface is provided. A flat surface portion may be provided so as to protrude more, and a height adjusting fixing portion (14) may be provided in the vicinity of the substantially center of the flat surface portion. The plane is a straight line. Or there are things that are not connected. The width of the plane differs depending on the shape of the height adjustment fixing portion.
The common bolt hole (19f) provided on the side surface of the column for both base and upper connection may be a common screw or screw (8i). In that case, as a matter of course, the fittings and the like used are also engaged with the common screws and screws (8i).

FIG. 16 is a front view (a) and a top view (b) of a rod-shaped member support column sandwiching type unit having a height adjustment fixing portion.
In FIG. 16A, the left and right end faces of the two rod-shaped members (3) are fixed by being sandwiched between the height adjusting fixing portions (14) of the two columns, and the two or more rod-shaped members (3) are fixed. Is a front view of the rod-shaped member strut sandwiching type unit (2a) whose height can be adjusted, and the two rod-shaped members (3) having the same length maintain a substantially horizontal state and are vertically high. The height is adjustable, and various exercise lines can be locked and arranged at the locking portions on the upper surface, the front surface, and the lower surface of the upper and lower rod-shaped members.
The height adjusting and fixing portions (14) of the left and right columns are provided with holes (16) for rod-shaped member end face bolts of the rod-shaped members, both of which are inside by means of a column-side rod-shaped member fixing portion fixing tool (16) that serves as a height adjusting and fixing means. It is connected with 9e).
The illustrated method is only an example, there are various fixing methods, and there are fixing tools that serve as various height adjustment fixing means.
FIG. 16B is a top view of the rod-shaped member support support sandwiching type unit (2a).

17A and 17B are various perspective views of a rod-shaped member fixture suitable for a rod-shaped member strut sandwiching type unit having a height-adjusting fixing portion, where FIG. 17A is a bolt-shaped fixture and FIG. 17B is a T-shape. Orthogonal clamp type unit fixture, (c) is height adjustment slide, (c-1) is rail slide stopper, (d) is single clamp type unit fixture, (e) is T-shaped orthogonal clamp A mold unit fixture, (f) is a bolt-type fixture for a concave fixing portion, and (g) is a perspective view of a chain-type fixture for a round concave fixing portion of a rod-shaped member on the support column side.
17 (a) is a height-adjusting round concave double fixing portion (14a) which is a through hole provided so as to directly pass through the rod-shaped member end face bolt hole (9e) provided on the end face of the rod-shaped member. From the back surface of the rod-shaped member mounting surface of the support column (10), a bolt-type fixture (16a) for the support column-side rod-shaped member round concave fixing portion, which serves as a height adjusting and fixing means, is inserted and provided on both end surfaces of the rod-shaped member (3). It is screwed into the bolt hole (9e) on the end face of the rod-shaped member that engages with the bolt-type fixture, and is fixed in a substantially horizontal state. The opposite side of the rod-shaped member (3) is also fixed to the opposite column (10) at the same height in the same manner. This fixing means is one of the height adjusting fixing means.
In FIG. 17B, a T-shaped orthogonal type round concave fixing part fixing tool (16c) is attached to both ends of the rod-shaped member (3) with a connecting tool such as a screw, and a T-shaped orthogonal type clamp type is attached from the upper part of the support column (10). Through the cylindrical portion of the unit fixture (18b), the height adjustment round recess that is a through hole at any height of the height adjustment round concave double fixing portion (14a) from the lock pin hole of the fixture. Pass a bolt of approximately the same diameter through the round recess of the double fixing part and the hole for the lock pin on the opposite side to prevent it from coming off, and lock it by fixing the shaft. The T-shaped orthogonal clamp type unit fixture has a function of being able to hold the intersection angle of the rod-shaped member (3) and the support column (10) at 90 degrees. By fixing the support column (10) at the same height on the opposite side of the rod-shaped member (3), the height can be adjusted up and down while maintaining substantially horizontal. This fixing means is one of the height adjusting fixing means.
FIG. 17C is a diagram in which the height adjusting rail fixing portion (14c) is used as the height adjusting fixing portion (14) of the support column (10).
As an example only, the length of the concave rail or the convex rail of the height adjusting rail fixing portion (14c) is substantially the same as or shorter than the total height of the provided columns, and the width is about 10 mm to about 40 mm. As the height adjustment rail fixing part (14c), it is substantially vertical toward the upper and lower ends of the support along the vertical lines at the upper and lower ends of the vertical surface when the support is upright, or substantially parallel to the central vertical line. It is desirable that the surface of the column is provided so as to be a concave rail or a convex rail facing downward.
One end or both ends of the rail is left as an opening and opened as a receiving port for an engaging height adjustment slide bolt (17 m) or the like. The opening may be closed with a removable cap. The vertical rail shape is not limited to a straight line, but a wavy line, and a continuous jagged rail with left and right diagonal lines can be considered.
As the height adjusting rail fixing portion (14c), in addition to the height adjusting slide bolt (17m), it is also possible to use the height adjusting slide portion (17b) which is a slide rail that can slide up and down.
In the two-body slide rail, the rail on one of the first rail and the second rail on the strut side serves as the height adjustment rail fixing portion (14c), and the other rail moved up and down is the height adjustment slide. A rod-shaped member (3) is attached to the height adjusting slide portion (17b) as a portion (17b) by a bolt fixture (16a) or the like which is a fixture.
FIG. 17 (c-1) shows a rail slide stopper (7e) and a lock type height adjusting slide portion (17c).
After inserting the rail slide stopper into the rail first, slide the height adjustment slide part (17b) to which the rod-shaped member is attached to the height adjustment rail fixing part (14c) from the upper part of the support column to engage with it. Although it can be fixed by activating the fixing function at the height, it is desirable to use the lock type height adjusting slide portion (17c) having the fixing function on the height adjusting slide portion (17b) itself.
The rail slide stopper (7e) and the lock-type height adjustment slide portion (17c) each have a convex portion that engages with the concave portion provided on the rail, and by turning a screw, the convex portion protrudes from the stopper and becomes a concave portion of the rail. It acts as a stopper when it gets in.
The recess of the rail has a shape in which the recess is continuously connected in series on the side surface or the center of the rail. When a concave rail is in series with a concave portion in the center, the concave portion is the bottom of the rail, and in a convex rail, the concave portion is the upper portion of the convex portion. The rail stopper function described below is also the same.
At the height adjusting rail fixing portion (14c), a height adjusting slide bolt (17 m) or a height adjusting slide portion (17b) attached to a rod-shaped member moves the rail up and down, and a rail slide stopper (7e) or a lock. The height is fixed at an arbitrary height by the formula height adjustment slide portion (17c). This fixing means is one of the height adjusting fixing means.
In FIG. 17D, a fixing bolt serving as a pedestal shaft of a single clamp type unit fixture (18a) with a bolt is screwed and fixed into a hole (9e) for an engaging rod-shaped member end face bolt, and the bolt is attached. The column is sandwiched between the clamps of the single clamp type unit fixture (18a), and the attached tightening screw is tightened to fix the column to the column. The fixing means using the bolted single clamp type unit fixing tool (18a) is also one fixing method of the height adjusting fixing means.
In this case, there is an advantage that the height adjusting round concave double fixing portion (14a) can be fixed in a substantially horizontal state even at a position where there is no unevenness or the like. By fixing the support column (10) at the same height on the opposite side of the rod-shaped member (3), the height can be adjusted up and down while maintaining substantially horizontal.
FIG. 17 (e) is a fitting type T-shaped orthogonal clamp type unit fixture (18b) with a tightening screw, and is fixed so as to be tightened with the tightening screw. There is an advantage that it can be fixed while maintaining a substantially horizontal position even in a position where there is no screw.
FIG. 17 (f) is a bolt-type fixture (16b) for a column-side rod-shaped member angular concave fixing portion using a square cono-shaped metal fitting for the fixing portion. It is a cono-shaped key-shaped fastener that engages with the angle-concave single fixing portion (9b) for the rod-shaped member side support and the height-adjusting double-angle concave double fixing portion (14b). This fixing means is one of the height adjusting fixing means.
Although it is a fixture, it is actually hooked to fasten the rod-shaped member to the support column, which may be unstable for fixing. The concave-concave type or convex-convex type for the fixed portion will be omitted from the present description. Further, the T-angle concave type or the square convex type as the locking portion has an advantage that the shaft does not rotate, and various methods such as fixing by using a fixing screw, an automatic hook, a strong magnet, or the like can be considered.
FIG. 17 (g) shows a height-adjusting round concave double fixing portion (14a) provided with a groove having a width of about 1 cm and a length of about 3 cm at the lower part of the round concave having a diameter of about 3 cm. It can be fixed by being caught in a recess like a chain type fixture (16d) for a round concave fixing part. A stopper attached to one side of the chain-type fixture (16d) for the rod-shaped member on the strut side is inserted into a groove provided on the lower side of the round recess so that the fixture can be hooked. It has substantially the same structure as a chain such as a chain lock attached to a door or the like, and the rod-shaped member is fixed so as to hang by a chain-type fixture (16d) for a round concave fixing portion of the rod-shaped member on the support column side. The chain-type fixture (16d) for the rod-shaped member round concave fixing portion on the support column side may have a wire-like shape instead of a chain shape. It is suitable for locking rubber-like lines with weak tensile force and exercise lines for thin strings, and the fixing time is short and easy. The length is preferably about 10 to 30 cm. The material is preferably a chain made of metal or the like, but the material such as iron and the shape of the chain type, the wire type and the like are various and are not fixed. It can also be used for a rod-shaped member strut crossing type unit (2b) and a locking portion.

In FIG. 18, a rod-shaped member fixing portion fixing tool (16) is used for a round concave single fixing portion (9a) for a rod-shaped member side strut provided near both ends from the front surface or the back surface of the rod-shaped member (3). It is a rod-shaped member strut crossing type unit (2b) fixed to the height adjusting fixing portion (14) of two or more strut (10), and (a) is a rod-shaped member strut crossing having a height adjusting fixing portion. The front view of the mold unit, (b) is a side view, and (c) is a top view.
FIG. 18A is a front view of the rod-shaped member strut crossing type unit (2b), and the rod-shaped member side strut fixing portions (9) provided near both ends on the front or back side of the rod-shaped member are both strut. The side rod-shaped member fixing portion fixing tool (16) is connected to the height adjusting fixing portion (14) of the left and right columns.
The left side of the support is represented by the height adjusting round concave double fixing portion (14a), and the right side is represented by the height adjusting rail fixing portion (14c). The illustrated method is only an example, there are various methods for fixing, and there are various fixtures.
FIG. 18B is a side view of the rod-shaped member strut crossing type unit (2b).
For rod-shaped member side columns provided on the side surface of the rod-shaped member (3) at a desired height position of the height adjustment fixing portion (14) provided so as to be substantially perpendicular to the substantially upright support column (10). The round concave single fixing portion (9a) is aligned and fixed by the supporter side rod-shaped member fixing portion fixing tool (16).
FIG. 18C is a top view of the rod-shaped member strut crossing type unit (2b).
The rod-shaped member (3) has two or more rod-shaped members (3), both of which are fixed to the column, and the rod-shaped member side column fixing portion (9) is all localized and there is no change between the columns (10). Keep horizontal together.
It should be noted that the vertical does not have to be 90 degrees completely, and the horizontal does not have to be 180 degrees in the perfect horizontal direction. A difference of about ± 5 degrees is allowed for both vertical and horizontal.

FIG. 19 shows a height adjusting fixing portion (14), a rod-shaped member side strut fixing portion (9), and a strut in which the rod-shaped member (3) of the rod-shaped member strut crossing type unit (2b) is maintained in a substantially horizontal state. It is a figure which shows the embodiment of the side rod-shaped member fixing part fixture (16), (a) is the use example of a bolt type fixture, (b) is the use example of a slide rail and a bolt type fixture, (c). Indicates an example of using an orthogonal clamp type unit fixture, and (d) indicates a height adjustment slide bolt.
FIG. 19A shows a rod-shaped member side strut circle which is a substantially circular through hole having a diameter of approximately 5 to approximately 10 mm in a total of two locations, one on each side in the vicinity of both ends of the rod-shaped member (3). A concave single fixing portion (9a) is provided, and a height-adjustable round concave double fixing portion (14a) and a round concave single fixing portion (9a), which are through holes of the support column (10), can be combined and penetrated. Fix it by penetrating a pin or bolt type fixture. The height adjusting round concave double fixing portion (14a) having the same height on the other strut side and the rod-shaped member side strut fixing portion (9) are similarly fixed. Height adjustment at the same height on the left and right By fixing the rod-shaped member (3) to the round concave double fixing portion (14a), the height can be adjusted up and down while maintaining substantially horizontal.
However, bolt fixtures and the like do not have a rotation prevention function to prevent rotation at the fixed portion of the rod-shaped member (3) and the column, and the two columns attached to substantially both sides of the rod-shaped member (3). When the distance of the rod-shaped member (3) fluctuates, the angle of the rod-shaped member (3) fixed to the support column changes. Therefore, in order for the rod-shaped member to be kept substantially horizontal, a lock pin, a bolt, a strut, and an unevenness or a tightening washer to prevent rotation are required on the inner or outer surface of the through hole of the rod-shaped member.
By setting the left and right through holes of the rod-shaped member side strut fixing portions provided on substantially both ends of the rod-shaped member (3) to two or more on both the left and right sides, there is an effect of enhancing the horizontal maintenance of the rod-shaped member.
FIG. 19B shows a height adjusting rail fixing portion (14c) and a height adjusting slide portion (17b) using a slide rail having a width of about 5 mm to 40 mm for the height adjusting fixing portion (14) of the support column (10). Is.
As the height adjusting fixing portion (14) of the support column (10), a height adjustment rail fixing portion (14c) having a width of about 10 mm to 40 mm is provided vertically downward from the upper part to the lower part of the side surface of the support column. In the height adjusting slide portion (17b) composed of two rails, the rail provided on one of the columns of the first rail and the second rail is used as the height adjusting rail fixing portion (14c), and the other upper and lower rails are used. The height-adjustable slide portion (17b) is used as a movable rail, and from the back side of the through hole provided in the height-adjusting slide portion (17b), the rod-shaped member (3) is located near both ends of the rod-shaped member (3) with respect to the three-dimensional surface. A bolt-type fixture is passed through the round concave single fixing portion (9a) for the rod-shaped member side support provided at a substantially right angle, and the penetrated bolt-type fixture is fixed and attached with a fixture such as a nut or thumbscrew. .. The height adjustment slide portion (17b) fixed to the rod-shaped member (3) is attached to the height adjustment slide portion (17b) from the upper opening of the height adjustment rail fixing portion (14c) on the rod-shaped member (3) side. Slide and fit. By sliding the rail slide stopper with a stopper function from the top before fitting the height adjustment slide part (17b), the height of the rod-shaped member (3) is fixed using the stopper function at the desired height. It becomes possible to do. By fixing the support column (10) at the same height on the opposite side of the rod-shaped member (3), the height can be adjusted up and down while maintaining substantially horizontal. It is desirable to use a lock-type height adjustment slide portion (17c) in which the height adjustment slide portion (17b) also has a stopper function of a rail slide stopper.
The orthogonal clamp type unit fixture (18c) shown in FIG. 19C has a structure in which the rod-shaped member (3) and the support column (10) are held at an intersection angle of approximately 90 degrees.
The clamp type unit fixture (18) is composed of a clamp strut side fixing portion (18d) for fixing the strut and a clamp rod-shaped member side fixing portion (18e) for fixing the rod-shaped body, and the strut is formed by each fixing portion. By sandwiching and tightening the bolts, the columns and rod-shaped members are fixed.
The height adjustment round concave double fixing portion (14a) can be fixed in a substantially horizontal state even at a position where there is no unevenness, and the opposite side of the rod-shaped member (3) is also fixed at the same height as the support column (10). By doing so, the height can be adjusted up and down while maintaining a substantially horizontal position.
FIG. 19 (d) is a height adjusting slide bolt (17 m). It is necessary to use the stopper at the same time.

FIG. 20 shows a height adjustment in which the support column provided with the height adjustment fixing portion according to claim 6 according to claim 7 has a support body not including the height adjustment fixing portion and the height adjustment fixing portion. It is a figure which shows the embodiment of the exercise line locking system which was formed so that it can be separated from a fixed part body, is detachably fixed by the said fixture, and can be used individually individually (a). ) Is a separated strut, (b) is a strut side locking portion, (c) is a round concave height adjustment fixed body, (d) is a rail height adjustment fixed body, and (e) is a reinforced height adjustment. It is a clear drawing showing a fixed part body.
The strut body (10f) is individually formed of a metal such as iron or stainless steel, a light metal such as aluminum, or a strong material such as reinforced synthetic resin or reinforced wood. In some cases, it is a strut body made of a system truss member of a stainless steel or aluminum rigid brass body.
The height adjusting fixed body (15) is individually formed of a light metal such as aluminum, a metal such as iron or stainless steel, or a reinforced synthetic resin. The height adjustment fixing body and the support body are fixed by a fixing tool such as a screw.
The size of the height adjustment fixed body (15) is just an example, but the thickness is about 2 to about 5 mm, and the width is less than or equal to the width of the column. Light metal such as aluminum or stainless steel, iron, etc. It is made of metal or reinforced resin, and the material may be different from that of the support column (10f).
Depending on the content of the competition, the tensile force applied to the exercise line may become stronger, and the force on the height adjustment fixed body (15) to which the rod-shaped member is attached may also become stronger. Although the thickness of the fixed body (15) is set to 30 mm or more as an example, a reinforced height-adjusted fixed body (15c) having an increased strength of the height-adjusted fixed body (15) is also provided.
The strut body (10f) and the height adjusting fixing portion (14) are detachably fixed by the first fixing tool. This fixture uses a common screw screw (8i) that engages with a common screw hole (8h) having a diameter of approximately 5-10 mm. The length is about 20 mm, but these lengths and diameters are just examples. In addition, the unevenness may be reversed.
The height adjustment fixing part (15) may be a rail height adjustment fixing part (15b) in which the height adjustment fixing part is a rail slide type, or a round concave height adjustment fixing part in which round recesses are connected at equal intervals. The body (15a) is provided. It may also be provided with a square recess.
FIG. 20A is a support column (10) provided with height adjustment fixing portions (14) at two locations.
A height adjusting round concave double fixing portion (14a) having continuous round concaves and a concave height adjusting rail fixing portion (14c) are provided at two places.
FIG. 20B is a support column (10f) that does not include the height adjustment fixing portion (14). A common screw hole (8h) having a diameter of about 5 to 10 mm and a depth of 20 mm or an engaging through hole is provided at least 6 places on the three-dimensional surface, a width of 40 mm, and an equal interval of 20 cm. The height adjustment fixing part (15) is detachably fixed with a common screw / screw (8i) which is a fixing tool. The intervals, widths, and depths of the common screw holes (8h) are only the sizes of one example. Depending on the content of the line sport, the common screw (8i) is stronger and the common bolt (8j) with a diameter of about 5 to 10 mm and a depth of more than 20 mm is used, and a hole for engaging the bolt is provided. A strut may be provided. The common bolt (8j) can be commonly used for the rod-shaped member body and the locking part.
It is also possible to attach a strut body (10f), which can be used individually, to the strut (10) to reinforce it. By joining the strut bodies with bolts and screws or the like, the strut bodies can be provided with a drag force against a larger external force. Further, even if the height adjusting fixed body (15) of the support column is damaged, it is economical because it is not necessary to replace the entire support column by replacing only the height adjusting fixed body (15). ..
FIG. 20 (c) shows a round concave height adjusting fixed portion (15a) having a height adjusting round concave double fixing portion (14) which is a height adjusting fixed portion (14) separated from the support body (10f). be. The round recess is a thread groove hole having a diameter of about 5 to about 10 mm. The intervals are approximately 20 mm to 30 mm, starting from the center point of a round recess having a diameter of approximately 5 to approximately 10 mm, and are provided in a row substantially vertically from approximately 10 mm from the upper end to 10 mm in front of the lower end.
Round concave of the height adjustment fixing body (15) If the height adjustment fixing body (15a) and the round concave locking body (6f) have the diameter and the screw groove, both the screw groove can be engaged. By adjusting the size, the locking portion connector (8) that engages with the round concave height adjustment fixing portion (15a) can be attached, and at least one or more exercise lines (21) are provided. It is also conceivable that it can be locked to the height adjusting fixed body (15).
FIG. 20 (d) is a concave rail height adjusting fixing part (15b) provided with a height adjusting fixing part (14) separated from the support body (10f). Although not shown, a convex rail height adjusting fixing body (15b) may also be provided.
In the two-body slide rail, one of the first rail and the second rail is used as the rail height adjusting fixed part body (15b), and the other rail is moved to the height adjusting sliding part (17b). It becomes. The size is just an example, but the rail width is about 5 mm to about 40 mm.
By making the rail widths of the rail height adjusting fixed body (15b) and the rail locking body (6g) of the height adjusting fixed body (15) substantially the same size, the rail height adjusting fixed body (15b) The locking portion connector (8), which is a fixture engaged with 15b), can be attached, and at least one or more exercise lines (21) are engaged with the height adjusting fixing portion (15). It may be possible to stop it.
However, depending on the type of exercise line used in the competition, a round concave height adjustment fixed body (15a) having round concaves with different diameter sizes and a rail height adjusting fixed body (15b) having different width sizes are also available. In addition to a thin plate-like body and a molded body having a thickness of about 2 to 5 mm, a reinforced height adjusting fixed body (15c) having a different thickness is also required and prepared.
FIG. 20 (e) is a reinforced height adjustment fixing unit (15c) which is a height adjustment fixing portion (14) separated from the support column (10f).
A thick plate-like body made of stainless steel, iron, aluminum or other light metal, or reinforced synthetic resin with a thickness of at least about 10 mm has a round recess with a diameter of about 5 to about 10 mm or a round recess with a diameter of about 10 to 30 mm or more. It is provided linearly at intervals of ~ 50 mm. Although not shown, it is not only a reinforced height adjustment fixed part (15c) of a thick plate-like body, but also a semi-cylindrical shape in which the locking part of a rod-shaped member having a columnar vertical cross section is vertically divided. In addition to the shape, it is also possible to provide a trapezoidal reinforced height adjustment fixed body (15c).
The diameter and spacing are just one example size. Alternatively, a concave or convex rail having a width of 20 to 40 mm is integrally formed on the reinforced height adjusting fixed body (15c), or is firmly fixed so as not to come off. ) Is also prepared depending on the type of competition. Since training by the exercise line includes training to strongly pull a rope with a diameter of 50 mm or more, drag force against tensile force is required not only for the height-adjusting fixed body, but also for the strut, locking body, and rod-shaped member. In some cases, The width of the rail is just one example.
It is also conceivable that the height adjusting fixed body (15) is divided into lengths of about 30 cm each.
The height-adjustable fixed body (15) can be used individually, and is embedded not only on the surface of a three-dimensional surface including the inner and outer surfaces of a column, an upright surface, a wall, a movable container, etc., but also inside. It is possible to attach a rod-shaped member (3) and a locking portion (6e), each of which is provided with a locking portion.
The strut body (10f) can also be used individually, and can also be used as a reinforcing role for each unit.

FIG. 21 shows that the two or more rod-shaped members fixed to the exercise line locking unit according to claim 8 have an oblique function because at least one of horizontal fixation and oblique fixation is possible. It is an overall view of the exercise line locking system in which two rod-shaped members are fixed at different angles above and below the rod-shaped member strut sandwiching type unit, and different exercise lines are arranged in each.
The rod shape according to claim 4, which is fixed to the columns (10) of the exercise line locking unit (2) having two or more height adjusting fixing portions (14). The member (3) sandwiches the rod-shaped member column so that the rod-shaped member and the fixture (16) for the rod-shaped member fixing portion on the support column side can be fixed at the same time while having a horizontal and oblique angles. It is the whole view which used the mold unit (2a), and the movement line was locked to each rod-shaped member.
The rod-shaped member column sandwiching type unit (2a) shown in FIG. 12a and the rod-shaped member column crossing type unit (2b) shown in FIG. 12b are both fixed to two or more columns and substantially on both sides. The rod-shaped member (3) having the round concave single fixing portion (9a) for the rod-shaped member side strut at two places in the vicinity is required to be horizontally fixed and obliquely fixed at an oblique angle in order to enable at least one of them. Since the columns are arranged and remain stationary, it is necessary to change the fixed interval between the two ends.
This change has the same function as the swing rod of the extended fixed rod-shaped member (4), and by providing an oblique function that allows the total length to be increased or decreased, the interval fixed between the two points can also be increased or decreased, and the exercise line can be increased or decreased. The locking system can simultaneously fix a rod-shaped member fixed substantially horizontally to the installation surface and a rod-shaped member having an oblique angle with respect to the installation surface.
The mesh-type belt line (21h) locked on the installation surface (25) is arranged in a mesh shape with an interval of approximately 40 to 50 cm in both the vertical and horizontal directions, and the upper rod-shaped member (3) is directed toward the surface. The left side of the rod-shaped member is fixed at a position where the height of the left column side is approximately 120 to 150 cm, and the right side of the rod-shaped member is fixed at a position where the height of the right column is approximately 80 to approximately 100 cm. Similar to the lower part, low elasticity thin lines (21c) are stretched around the entire locking portion (6) of the rod-shaped member at intervals of about 40 to 50 cm in the upper rod-shaped member (3).
On the left side, an adult puts his head between two upper rod-shaped members (3) with a height of about 120 to 150 cm, faces one unit, and touches these two low-stretch thin lines. The steps are repeated with the legs aligned to the left and right so as not to touch the mesh of the mesh type belt line (21h) arranged on the installation surface.
On the right side, the child is fixed at a height of about 80 to about 100 cm of the upper rod-shaped member (3), puts his head between the two locked lines, and these two low elasticity Align the legs so that the legs do not touch the mesh of the mesh type belt line (21h) arranged on the lower installation surface so as not to touch the thin line, and repeat the steps from side to side.
By repeating this step while facing it and moving it back and forth, balance training similar to ski balance becomes possible.
Further, by slanting the upper rod-shaped member (3), the heights on the left and right are different, and it is possible for adults and children of different heights to simultaneously take steps according to the same rhythm.
The above is just an example, and various other exercise lines and exercises will be created.
If you step toward one side of the upper body or shoulders instead of facing the above position, you will change to snowboarding balance training instead of skiing. Of course, you can train skiing and snowboarding at the same time. It is just an example.
It is also possible to use a laser light exercise line (21j) for the exercise line, which has a low risk of losing the catching balance.

FIG. 22 shows two or more rod-shaped members (3) with respect to two columns (10) placed on the installation surface in a state where the height adjusting fixing portion (14) faces inward in the rod-shaped member column sandwiching type unit. ) Is an embodiment of a rod-shaped member support holding type unit (2a) having a slanting function capable of slanting at various angles within the range of the height adjusting fixing portion while having horizontal and slanting angles. In this figure, the height adjustment rail fixing portions (14c) of the two columns are placed on the installation surface in a state of facing each other, and the vertical movement support shaft that can change and fix the angle substantially up and down on both end surfaces of the rod-shaped member. When the swivel slide rail fixture (17a) is attached and the rod-shaped member is fixed at an oblique angle from the horizontal angle, between the two stationary columns (10), between the two connected points. The distance becomes longer and changes occur.
By using the extension fixed type rod-shaped member (4) whose overall length can be expanded and contracted, the rod-shaped member (3) can have a total overall length even if the rod-shaped member has two fixing portions to the columns on substantially both sides. It expands and contracts to and can respond to changes in the interval.
The total length of the rod-shaped member can be freely expanded and contracted according to the fixed position, and the extension and contraction function of the extension-fixed rod-shaped member (4) that can respond to changes in the intervals fixed at both ends is also one of the oblique functions. ..
Further, in the connection of the extension fixed type rod-shaped member (4) to the height adjusting rail fixing portion (14c) on both end surfaces, the rod-shaped member can be swiveled up and down around a fulcrum that can be swiveled up and down. The fulcrum swivel is also an indispensable part of the oblique function, and the vertical movement fulcrum swivel slide rail fixture (17a), which has that function and can be tightened and fixed with bolts or the like, is attached to the height adjustment rail fixing portion (14c). It is attached to the engaging height adjustment slide portion (17b) with a fixing tool such as a screw, and the adjustment fixing method for adjusting the height is fixed with a rail slide stopper (7e).
The extension-fixed rod-shaped member (4) is composed of an outer outer rod-shaped member (4a) and an inner rod-shaped member (4b) having an outer diameter substantially equal to the inner diameter of the outer rod-shaped member, and the inner rod-shaped member (4a) is inside the outer rod-shaped member (4a). The member (4b) is built in, and the inner rod-shaped member piece protruding from the one-end diameter of the outer rod-shaped member is pulled out to an arbitrary length, and the outer diameter screw type fastener (4c) attached near the outside of the one-end diameter is pulled out. By turning, the gap cap (4d) is tightened, and by adjusting and fixing the length of the extended fixed rod-shaped member (4), there is a difference in the length between the connection points between the two stationary columns. The resulting oblique installation with horizontal and oblique angles is possible at the same time, and it is possible to fix two or more rod-shaped members even when they are sandwiched between the columns from both end surfaces of the rod-shaped members.
In the rod-shaped member strut sandwiching type unit (2a) in which both ends of the rod-shaped member are sandwiched between the strut, the function of changing the fixed interval or the total length of the rod-shaped member and the rod-shaped member and the strut capable of responding to the angle change are provided. The fixture to be connected has a diagonal function.

In FIG. 23, the two rod-shaped members have horizontal and oblique angles with respect to the two columns placed on the installation surface with the height adjusting rail fixing portions (14c) of the rod-shaped member support sandwiching type unit facing each other. It is a figure which showed the embodiment of the rod-shaped member strut sandwiching type unit (2a) which has the slanting function which can be slanted at various angles within the range of the height adjustment fixing part in the holding state.
FIG. 23 (a) shows a vertical movement support shaft swivel slide rail fixture (17a) for changing and fixing the fixing angle of the rod-shaped member, and FIG. 24 (b) shows the height adjusting rail fixing portion (14c). It is a vertical movement support shaft swivel slide rail fixture (17a) that is attached and can move up and down freely.
The vertical movement support shaft swivel slide rail fixture (17a) includes a fixture base (17j) as a base to be attached to the height adjusting slide portion (17b) and an outer rod-shaped member (4a) of the extension fixed rod-shaped member (4). Alternatively, it is composed of two rod-shaped member insertion tubular bodies (17k) in a tubular portion into which the inner rod-shaped member (4b) is inserted, and each is fulcrum-fixed by a fixture fulcrum (17l) whose shaft rotates. The rod-shaped member attached to (17k) moves up and down around the fulcrum, and has a structure that enables the angle of the rod-shaped member to be changed and fixed. The connection fixture that enables the angle of the rod-shaped member to be changed and fixed is one of the oblique functions.
A vertical movement support shaft swivel slide rail fixture (17a) is provided in the through hole provided in the height adjustment slide portion (17b) that engages with the height adjustment rail fixing portion (14c) in FIG. 23 (b). It can be attached with a fixture such as a screw.
The function of the vertical movement support shaft swivel slide rail fixture (17a) is also one of the oblique installation functions.
Vertical movement support shaft swivel slide rail fixtures on both ends of the extension-fixed rod-shaped member (4) by inserting both ends of the extension-fixed rod-shaped member (4) into the rod-shaped member insertion cylinder (17k) and fixing them with screws or the like. (17a) can be attached.
The fixture base (17j) of the vertical movement support shaft swivel slide rail fixture (17a) is attached to the height adjustment slide portion (17b) on the support column side with screws or the like, and the height adjustment slide portion (17b) is attached. By inserting from the upper opening of the height adjusting rail fixing portion (14c) of the support column, the extension fixed type rod-shaped member (4) is connected to the support column (10).
The height adjustment slide part (17b) is engaged with the height adjustment rail fixing part (14c) of the two columns placed on the installation surface with the height adjustment fixing parts facing each other, and can slide up and down. .. The height adjustment slide portion (17b) is fixed by a rail stopper so as not to be lowered downward.
In this figure, the rail stopper (7e) is fixed by turning the swivel screw so that the stopper function works on the height adjustment rail fixing part (14c), but the height adjustment with the rail stopper function It is desirable to use the slide portion (17b).
The fixture fulcrum (17l) of the vertical movement support shaft swivel slide rail fixture (17a) is connected to the fixture base (17j) and the fixture cylinder (17k) by a bolt screw or the like. By loosening this bolt, the angle that serves as a fulcrum can be changed, and by tightening it, the angle between the strut and the rod-shaped body is determined. Adjust the length of the extension fixed rod-shaped member (4) according to the length between the two columns generated by the angle change, and connect the fulcrum of the vertical movement support shaft swivel slide rail fixture (17a) of the opposite column. Adjust the angle by tightening the bolts on the part.
By having the vertical movement support shaft swivel slide rail fixture (17a) whose angle can be changed and the extended fixed rod-shaped member (4) whose length between the columns can be expanded and contracted, the extended fixed rod-shaped member (4) can be slanted. It is a diagonal function, which is a possible function.
The diameter and inner diameter of the outer rod-shaped member (4a) and the inner rod-shaped member (4b) on the outer side of the extended fixed rod-shaped member (4) are slightly different.

FIG. 24 is a view showing an embodiment of an extended fixed rod-shaped member (4) for oblique installation, (a) is a side view of the extended fixed rod-shaped member (4), and (b) is an extension. It is a fastener for fixing the fixed rod-shaped member so that it can be extended freely.
The extension fixed type rod-shaped member (4) is composed of an outer rod-shaped member (4a) and an inner rod-shaped member (4b) having an outer diameter substantially equal to the inner diameter of the outer rod-shaped member (4a), and is inside the outer rod-shaped member (4a). The inner rod-shaped member (4b) is built in the outer rod-shaped member (4b), and one part of the inner rod-shaped member protruding from the one-end diameter of the outer rod-shaped member (4a) is pulled out to an arbitrary length, and the outer diameter screw type tightening attached near the outside of the one-end diameter. By turning the outer outer diameter screw type fastener (4c) like a banner pole with the tool (4c), the play space between the inner (4d) and the inner rod-shaped member (4b) disappears and is fixed. This makes it possible to adjust the length of the extended fixed rod-shaped member (4).
The extended fixed type strut (11) has the same structure in which the inner strut (11b) is built in the outer strut (11a), and is a pole type made of aluminum or the like that is locked to the rod-shaped member in addition to the rod-shaped member. The line (21i) and the like are also supported.
The outer rod-shaped member (4a) has substantially the same structure as the rod-shaped member (3), and has a locking portion on the side surface. An extension fixed rod-shaped member (4) is provided so that the exercise line (21) can be locked from above, front, and below by the round concave locking portion (6a) and the fixed side concave rail locking portion (6b). It has locking parts on the upper, front, and lower sides when attached to the unit. Even if the locking portion is one of the upper side, the front surface, and the lower side, the locking portion can be directed and fixed in an arbitrary direction by rotating the extension fixing type rod-shaped member (4). It is also possible. There is also a method of fixing using a lock pin (8 liters). It is desirable to use it at the same time as tightening and fixing, but there are cases where a play space is required in the fixing hole.

FIG. 25 (a) shows a rod-shaped member strut crossing type unit, which is slanted with a strut provided with a height-adjustable round concave double fixing portion and a round concave double fixing portion for a rod-shaped member side strut serving as an oblique function. The figure in which the rod-shaped member and the rod-shaped member fixed to the support by the round concave single fixing portion for the support on the side of the rod-shaped member having a constant distance between the two points are used and compared at the same time, (b) is a round concave. The double fixing portion (c) is a diagram showing an embodiment of a rectangular concave double fixing portion for a rod-shaped member side strut in which a round concave double fixing portion is formed into an elliptical shape which is horizontally long.
FIG. 25A shows a height-adjusting round concave double fixing portion (14a) which is a height-adjusting fixing portion (14) provided with a plurality of recesses for fixing a rod-shaped member to two columns when stationary. A rod-shaped member (3) provided with a round concave single fixing portion (9a) for a rod-shaped member side strut, which is a fixed portion at a total of two locations on one side on the left and right sides, is fixed substantially horizontally to make it horizontal. A comparison of a rod-shaped member strut cross section in which two rod-shaped members (3) having one of the oblique functions that can be fixed at various angles including the rod-shaped member (3) are fixed in a state of intersecting the two columns. It is a figure which shows the embodiment of the mold unit (2b), and is attached and detached by two struts which are fixed and upright from the vicinity of the left and right ends of the front surface or the rear part of two rod-shaped members, and the struts such as bolts and screws which have a circular cross section. The bolt-type fixtures (16a) for the round concave fixing portion of the side rod-shaped member are fixed by a total of two at both ends.
When the two stationary columns are fixed with two round concave single fixing portions (9a) for the rod-shaped member side columns, or when they are mounted diagonally either above or below, the rod-shaped members are fixed to one of the columns. When attached to the height adjustment round concave double fixing part (14a) of the other support, the position of the round concave single fixing part (9a) for the rod-shaped member side support that is not fixed is the bolt on the attached fixing part side. Is a fulcrum, and either the upper or lower circular motion is formed. Therefore, the rod-shaped member on the support column side is displaced from the round concave single fixing portion (13a), and the bolt cannot be passed through and cannot be fixed.
Therefore, in the rod-shaped member strut crossing type unit (2b), when the distance between the two strut is fixed and constant, there are two places for mounting the rod-shaped member (3) having an inclination other than horizontal in horizontal view. It is necessary to provide more round recesses for fixing on the fixing surface instead of the round concave single fixing portion (9a) for the rod-shaped member side support which is only the fixing portion.
FIG. 25B shows two or more round concave fixing portions for fixing the rod-shaped member, which is one of the oblique functions, so that the rod-shaped member can be attached with an inclination that changes the interval between the fixing portions. It is a rod-shaped member having a round concave double fixing portion (9c) for a rod-shaped member side strut.
On approximately the entire support fixing surface of the rod-shaped member, round recesses that engage with the round concave fixing portion of the support are provided at equal intervals of about 10 to 20 mm with reference to the center point of the round concave, although this is just an example. A plurality of round and concave rows are provided so as to form a straight line from a position approximately 50 mm from the right end to approximately 50 mm in front of the left end.
The round concave double fixing portion (9c) for the rod-shaped member side support column, which is provided at intervals of approximately 10 to 20 mm, serves as one of the oblique installation functions in the two stationary columns.
In order to fix the rod-shaped member at various angles between two or more columns, as many round concave fixing portions as possible are required between both ends of the rod-shaped member. However, even when the rod-shaped member side strut round concave double fixing portion (9c) having many round concave fixing portions is provided, the height adjusting round concave double fixing portion (9c) of two or more stationary columns is provided. In case of 14a), there may be a gap between the rounded concave portion of the rod-shaped member and the rounded concave portion of the support column, and there may be an oblique angle that cannot be penetrated by the pull-out prevention lock pin or the bolt type fixture.
In FIG. 25 (c), one or both of the support column side and the rod-shaped member have a round concave shape, which is not a substantially perfect circle (9c) but a horizontally long elliptical or rectangular rod-shaped member side support column. It is also considered that the fixing portion (9 g) can be easily fixed by penetrating the disconnection prevention lock pin and the bolt type fixture.

FIG. 26 is a schematic view showing an embodiment in which a universal clamp type unit fixture (18f) is used as a means for fixing the support column and the rod-shaped member, and is one fixing method.
The universal clamp type unit fixture (18f) includes a clamp strut side fixing portion (18d) for fixing the strut of the orthogonal clamp type unit fixture (18c) and a clamp rod-shaped member side fixing portion (18e) for fixing the rod-shaped body. ), And they are attached by a clamp rotation shaft (18 g), which is one rotation shaft, so that they intersect and rotate, respectively. Tighten to fix each.
The clamp strut side fixing portion (18d) and the clamp rod-shaped member fixing portion (18e) are pivotally fixed by a clamp rotation shaft (18g) so as to be rotatable, and the intersecting strut and the rod-shaped member are tightly connected at an arbitrary angle and direction. The structure is such that the crossing angle between the support column and the rod-shaped member can be freely changed. Further, the clamp strut side fixing portion and the clamp rod-shaped member fixing portion are also made according to the shapes of the strut and the rod-shaped member, respectively.
The universal clamp type unit fixture (18d) is fixed by a tightening force. Even if the height adjustment fixing portion (14) does not have the round concave and square concave rails, it can be fixed at any position of the support column and the rod-shaped member, and the rod-shaped member side support column concave double fixing portion (9c) and the height. It is a fixing means that can be fixed at any position without being affected by the position of the adjustment round concave double fixing part (14a), the rail fixing part of the support column and the rod-shaped member described later, and the height can be freely adjusted to the height adjustment fixing part. can.
A universal clamp at the position of the support (10) provided with two or more of the line locking units for exercise, the height adjustment fixing part (14) of each, and the position where the rod-shaped member has an arbitrary oblique angle and height. The mold unit fixture (18d) is attached, and the universal clamp type unit fixture for each rod-shaped member is adjusted and fixed.
Even when a plurality of rod-shaped members are attached to the columns of the exercise line locking unit, each rod-shaped member can be fixed at an arbitrary angle by the universal clamp type unit fixture (18d). ..

In FIG. 27, (a) is a rail locking portion used when a rail fixing portion is used for the rod-shaped member side strut fixing portion of the rod-shaped member, (b) is a rail locking portion, and (c) is a round concave locking. It is the schematic which showed the use together with the part and the connection tool with a support.
The method of connecting the rod-shaped member side strut rail fixing portion (9f) and the strut is illustrated by using any of the uneven rails that is one of the oblique functions on the rod-shaped member side strut fixing portion (9). ing.
27 (a) shows a plurality of rectangular member side strut fixing portions (9 g) for the rod-shaped member side strut, which is also one of the oblique functions of FIG. 22 (c). It is a rail shape with no boundary between the elliptical support fixing parts.
The concave rail or convex rail used for the rod-shaped member has a length substantially the same as or shorter than the total length of the rod-shaped member as the base, and is just an example. Convex rails are desirable.
When the rail fixing portion (9f) for the rod-shaped member side strut is used for the rod-shaped member of the exercise line locking unit (2), the height adjusting fixing portion (14) becomes the strut-side rod-shaped member fixing portion (13) on the strut side. ), The angle of the side surface having the rail fixing portion (9f) for the rod-shaped member side strut on the rod-shaped member side is fixed so as to be substantially parallel to the angle of the side surface having the fixing portion on the strut side. .. The concave rail or the convex rail is provided on the surface portion of the rod-shaped member.
The rail fixing portion and the rail surface portion of the rail locking portion provided in the exercise line locking system may not protrude from the side surface surface portion of the rod-shaped member and may be provided inside the surface portion.
When the rail fixing part (9f) for the rod-shaped member side support is used to attach the support, a round concave locking part that becomes a screw hole or a through hole for locking the exercise line on the same side or the same surface. It may be difficult to provide (6a).
Therefore, when a locking portion and a portion for fixing the support column are provided on the same side or the same surface, the rail fixing portion (9f) for the rod-shaped member side support column and the fixed side concave rail locking portion (6b) are provided as shared rails. Alternatively, it is desirable that the size is the same as that of the fixed side convex rail locking portion (6c) so that the exercise line can also be attached to the support column. It is also desirable that all the height adjusting rail fixing portions (14c) have the same size.
FIG. 27 (b) shows the upper surface and the lower surface when the front surface and the back surface of the rod-shaped member serve as a shared rail as a rail fixing portion (9f) for the rod-shaped member side support and a fixed side concave rail locking portion (6b). Is provided with a concave locking portion (Aa) of a screw hole or a through hole, which serves as a locking portion.
Considering the weight and load of the exercise line, through holes may be suitable for mounting. In that case, a rod-shaped member (3c) having a square vertical cross section as shown in (b), or a rod-shaped member having a cylindrical shape (3a) or an octagonal shape (3f), etc. A rod-shaped member having a surface that can be provided is provided, and a rail fixing portion (9f) or a rail locking portion for a rod-shaped member side strut having the same size as the rail fixing portion for the strut and the rail locking portion is provided on the front surface and the back. It is also conceivable to provide a round concave locking portion (6a) provided substantially perpendicularly to the upper surface and the lower surface.
In the case of a concave rail, it is also conceivable to widen the width of the grooved portion and provide a round concave locking portion (6a) in the groove which is opened substantially vertically or horizontally toward the opposite surface. ..
FIG. 27 (c) shows a slide bolt (17 m) that can be directly connected to the rail fixing portion (9f) for the rod-shaped member side strut and the height adjusting rail fixing portion (14c), and the height adjusting round concave double fixing of the strut. A height-adjustable slide bolt long (17n) that can penetrate the portion (14a).
When using a slide bolt (17 m), a rail stopper (7e) for fixing is required. In addition, when the height adjustment slide bolt long (17n) is fixed by using a thumbscrew in the round concave through hole of the support, the rod-shaped member only changes its movement to the left and right, and does not move up and down, so the height is adjusted. The use of slide bolt long will be omitted from the text below. In order to fix the slide bolt (17m) as well, one rail stopper is attached to the height adjustment rail fixing part (14c), and the rail fixing part (9f) for the rod-shaped member side support has two totals on the left and right sides of the bolt. It seems that three will be needed. The use of slide bolts will be omitted from the text below.
It is desirable that the rail fixing portion (9f) for the rod-shaped member side support is a slide rail having a rail stopper function.
In the slide rail composed of two rails, the rail provided on one of the rod-shaped members of the first rail and the second rail is used as the rail fixing portion (9f) for the rod-shaped member side support, and the slide rail can be moved to the left and right of the other. The rail of the above is used as a slide portion (17d) for the support column on the rod-shaped member side.

FIG. 28 is a schematic view showing an embodiment in which a slide portion (17d) for a rod-shaped member side strut that engages with a rail fixing portion (9f) for a rod-shaped member side strut and a height adjusting fixing portion (14) for the strut are connected. (A) is a vertical / horizontal right-angled slide portion (17f), and (b) is a vertical / horizontal slide rail rotation fixture (17h).
The slide portion (17d) for the rod-shaped member side strut is indirectly fixed to the height adjusting fixing portion (14) on the strut side.
It is also possible to fix it with bolts or the like to the height-adjusting round concave double fixing part (14a) that becomes a screw hole or a through hole, but in this case, since the rod-shaped member only moves to the left and right of two or more upright columns. In the future, fixing only the height-adjusting round concave double fixing portion (14a) and the rod-shaped member side support slide portion (17d) will be omitted.
By fixing to the height adjustment slide part (17b) that engages with the height adjustment rail fixing part (14c) with bolts or the like, the rod-shaped member moves up and down the height adjusting rail fixing part (14c) of the column, and this height is reached. By combining the adjustment slide portion (17b) and the rod-shaped member side support slide portion (17d), the rod-shaped member can be slid up and down and left and right.
This combination is a vertical / horizontal right-angled slide part (17f) (Fig. 28a) in which the rod-shaped member and the support are completely fixed at a substantially right angle, and a vertical / left-right right-angled slide part (17f) (FIG. 28a) in which the rod-shaped member and the support are pivotally fixed so as to be swivel. 17f) (Fig. 28b).
The opening on one side or both ends of the rail can be opened as a receiving port for another rail or the like. The receiving port may be closed with a removable cap. The rail shape can be not only a straight line but also a wavy line and a continuous vertical diagonal line.
The upper surface of the rail may not be straight. The length may also be longer than the rod-shaped member that is the base.
The rod-shaped member side strut rail fixing portion (9f) composed of two rails is a rail fixing portion for the rod-shaped member side strut, which is a rail fixed to the rod-shaped member side on either one of the first rail and the second rail. (9f), the other rail that moves to the left and right is the rod-shaped member side strut slide portion (17d), and this one rod-shaped member side strut slide portion (17d) is the strut side rod-shaped member fixing portion (13). Alternatively, the structure is such that it is connected to the rail slide portion (17) on the support column side.

FIG. 28A shows a welding point (17p) in which the central portion of the rod-shaped member side support slide portion (17d) and the central portion of the height adjusting slide portion (17b) intersect at a substantially right angle and are completely fixed. It is a vertical / horizontal right-angled slide portion (17f). Insert the slide part (17d) for the rod-shaped member side support through the openings provided at both ends of the rail fixing part (9f) for the rod-shaped member side support, and insert the other height width adjustment slide part (17b) and the height of the support. By inserting through the opening provided at the upper end of the slide adjustment rail fixing portion (14c), the support column and the rod-shaped member are connected.
By connecting this to both ends of the rod-shaped member and fixing it with a rail stopper, the height of the rod-shaped member can always be adjusted substantially horizontally, and the rail fixing portion (9f) for the rod-shaped member side support column of the rod-shaped member is in a vertical state. It is an exercise line locking unit that can move in parallel between the two.
It is desirable to use a lock-type vertical / horizontal right-angled slide portion (17 g) having a rail stopper function at two locations.
FIG. 28B shows a vertical / horizontal right-angled slide portion (17f) in which the central portion of the rod-shaped member side support slide portion (17d) and the central portion of the height adjusting slide portion (17b) intersect and are fixed at substantially right angles. It is a vertical / horizontal rotating slide portion (17h) in which the fixed portion of the above is rotatably stopped by a rotating fixture fulcrum (17l).
By turning the shaft-stopped portion, it becomes possible to perform oblique installation with a change in the angle between the connected rod-shaped member and the support column, which serves as an oblique installation function.
Insert the slide part (17d) for the rod-shaped member side support through the openings provided at both ends of the rail fixing part (9f) for the rod-shaped member side support, and insert the other height adjustment slide part (17b) into the height of the support. By inserting through the opening provided at the upper end of the adjustment rail fixing portion (14c), the support column and the rod-shaped member are connected.
By connecting this to both ends of the rod-shaped member and fixing it with a rail stopper, the height of the rod-shaped member can be adjusted horizontally and diagonally, and the rail fixing portion (9f) for the rod-shaped member side support column of the rod-shaped member is in an upright state. ) Is an exercise line locking unit that can move in parallel. Two or more rod-shaped members and columns can be connected in the same manner.
It is desirable to use a lock type vertical / horizontal rotation slide portion (17i) having a rail stopper function at two locations.
The width, depth, length, and shape of the rail fixing portion (9f) for the rod-shaped member side strut and the fixed side concave rail locking portion (6b) provided on the rod-shaped member are all the same, and two or more locations are provided. It is considered that the convenience of connecting and fixing to the support and locking the line will be improved.

FIG. 29 shows a rod-shaped member side strut with two columns having a height adjusting rail fixing portion (14c) and the height adjusting rail fixing portion facing the front or the back of the exercise line locking unit. Outline of a rod-shaped member strut crossing type unit (2b) in which two rod-shaped members having a rail fixing portion (9f) are crossed with the front side or the back side of the strut and attached at various angles including horizontal and oblique angles. It is a figure.
By connecting the height adjustment rail fixing part (14c) of the rod-shaped member and the rail fixing part (9f) for the rod-shaped member side support with the lock type up / down / left / right rotating slide part (17i), the oblique function is generated and left / right. It is possible to connect and fix even two or more rod-shaped members having different mounting angles and different mounting lengths between the two or more columns.
The rod-shaped members (3 or 3h) provided on the upper and lower sides can be fixed at various angles as long as they do not come into contact with each other. Three or more rod-shaped members (3 or 3h) can also be attached.

FIG. 30 shows an embodiment of an exercise line locking system according to claim 9, wherein the individually formed rod-shaped members and the columns are detachably fixed and separated from each other so that they can be used individually. (A) is a perspective view of a common rod-shaped member that can be used individually, (b) is a perspective view of a common strut that can be used individually, and (c) can be used individually. It is a perspective view of the 2nd movement line locking unit composed of a common rod-shaped member and a common strut.
A rod-shaped member that is detachably fixed, individually formed, and can be separated and used individually is used as a common rod-shaped member (3h), and a support that is detachably fixed and can be separated and used individually is common. It is a support (10 g).
FIG. 30A is an example diagram of the entire common rod-shaped member (3h) of the rod-shaped member that can be separated and used individually. It is not limited to this figure.
A common rod-shaped member (3h) having a different shape and length of each rod-shaped member and a shape of the locking portion including the locking portion is formed into a new unit according to the purpose, so that the unit has a new rod shape. It can also be used individually to add and fix members, fix new exercise lines, and reinforce the unit.
It is desirable that the total length of the common rod-shaped member (3h) is approximately 100 cm or more, and the total length can be changed according to each competition application. It is better to prepare according to the contents. In addition, various types of materials are required, such as light metal or reinforced synthetic resin, which is lightweight, and metal, which gives priority to durability, depending on the application.
The common rod-shaped member (3h) that can be separated and used individually includes an extension fixed type rod-shaped member (4).
Each common rod-shaped member (3h) has a round concave screw hole, a round concave locking portion (6a) having a common rail size, a round concave locking portion (6f), or a concave or convex fixed side rail engagement. It is provided with a stop portion (6b, 6c), a rail locking portion (6g), and a reinforced locking portion (6h).
The shape of the common rod-shaped member (3h) includes the shapes of the cylindrical rod-shaped member (3a) to the curved rod-shaped member (3j) shown in FIG.
A system truss rod-shaped member (3k) structure formed of a steel pipe material such as stainless steel or aluminum metal and three-dimensionally assembled using a system truss member using a truss structure, which is vertically fixed or vertically fixed as shown in the figure. There is also a common rod-shaped member (3h) having a horizontally fixed locking portion (6). It is also possible to assemble the system truss member into a solid such as a triangle or a quadrangle.
The shape of the locking portion is as follows: the round concave locking portion (6a), the fixed side concave rail locking portion (6b), the fixed side convex rail locking portion (6c) or the round concave locking as shown in FIG. There are parts, convex locking bodies, etc. Although not shown, a rod-shaped steel material with a length of about 5 to 10 cm that covers the entire circumference of the rod-shaped member is provided with a round-concave or round-convex locking portion and a round-concave that can be fixed to the rod-shaped member with a screw or the like. There is also a tubular slide locking portion such as a column side tubular slide locking portion (12c) on which the member can slide.
The common rod-shaped member (3h), the rod-shaped member body, and the locking part are used to form a new unit according to the purpose, to reinforce the unit, and to provide a support base, an installation surface, and a proximity to each other. It can be attached to the upright surface and the ceiling above the installation surface, and can be used individually for the purpose of performing line sports.
The rod-shaped member (3) is detachably fixed and separated from the support column so that the common rod-shaped member (3h) can be used individually. Round concave single fixing part (9a), square concave single fixing part (9b) for rod-shaped member side support, or round concave double fixing part (9c) for rod-shaped member side support, rail fixing for rod-shaped member side support At least one portion (9f) or a rectangular concave double fixing portion (9 g) for a rod-shaped member side strut is provided. It is desirable that each has a common size that can be shared with the locking portion (6).
Although not shown, when the side surfaces of the rod-shaped member (3) and the common rod-shaped member (3h) are circular and the rod-shaped member side support fixing portion (9) is provided on the curved portion, the rod-shaped member side support support is fixed. The portion where the portion (9) is provided may be cut into a flat surface, or a flat surface portion may be provided so as to protrude from the side surface, and a fixing portion for a rod-shaped member side strut may be provided in the vicinity of substantially the center of the flat surface portion. The plane is a straight line. Or there are things that are not connected.
FIG. 30B is an example diagram of the entire common strut (10 g) that can be separated and used individually. It is not limited to this figure.
It is desirable that the total length of the common support (10 g) is approximately 100 cm or more, and although it is an example, 50 cm, 100 cm, 150 cm, 200 cm, etc. are prepared so that the total length can be changed according to each competition application. good. In addition, various types of materials are required, such as light metal or reinforced synthetic resin, which is lightweight, and metal, which gives priority to durability, depending on the application.
The common columns (10 g) with different shapes and lengths of each column and the shape of the height adjustment fixing part including the height adjustment fixing body are reinforced for the new unit configuration according to the purpose. In addition, it can be attached to the installation surface and an upright surface close to it, and can be used individually for the purpose of performing line sports.
The shape of the height adjustment fixing portion is the shape shown in FIG. As the shape of the support column, various shapes and sizes such as the cylindrical support column (10a) to the stepladder type support column (10d) shown in FIG. 5 can be considered.
A common support (10g) having a height adjustment fixing part on a system truss support (10h) made of steel pipe materials such as stainless steel and aluminum metal and three-dimensionally assembled system truss members using a truss structure. ) Is also available. It is also possible to combine a height-adjustable round concave double fixing portion and a column-side tubular slide locking portion that can be moved up and down.
The columns made up of two or more system truss members of the unit may be connected by a common rod-shaped member made of system truss members so as to be bridged by using bolts, other ball joints, a dedicated joint member, or the like near the upper end.
All the common columns (10 g) that can be used individually have rod-shaped members (3) on the side surface at a plurality of locations from the height at which the bottom surface of the rod-shaped member is substantially in contact with the installation surface to the substantially upper end of the column (10). ) Is vertically downward from the upper end portion and vertically downward to the vicinity of about 10 mm below the upper end portion, and one or more rows of height adjustment fixing portions (14) are provided. The height adjustment fixing portion (14) has a height adjusting round concave double fixing portion (14a) or a height adjusting rail fixing portion (14c) having substantially the same size and spacing as the common support column (10 g), and is a rod-shaped member. However, it can be fixed by the fixing tool (16) for the rod-shaped member fixing portion on the support column side or the slide portion (17) for the rail. A common screw hole (8h) to which a support base (19) can be attached is provided.
There is also a support column that can be separated from the height adjusting fixed body (15) shown in FIG.
There is also a strut-side round concave locking portion (12a), a strut-side concave rail locking portion (12b), and a common strut (10 g) having a strut-side locking portion.
FIG. 30 (c) is a diagram in which a second exercise line locking unit (2c) is assembled by a common rod-shaped member (3h) and a common strut (10 g) that can be used individually.
Both the rod-shaped member strut sandwiching type unit (2a) and the rod-shaped member strut crossing type unit (2b) can be configured by being assembled by a common rod-shaped member (3h) and a common strut (10 g). It becomes a stop unit (2c). The number of units configured is not limited.
The second exercise line locking unit (2c) can be used in combination with the arranged exercise line locking system as a third or more exercise line locking unit.
In FIG. 30 (c-1), a second exercise line locking unit (2c) of a rod-shaped member strut crossing type unit type is assembled by two common rod-shaped members (3h) and two common strut (10 g). It is composed.
In FIG. 30 (c-2), a rod-shaped member strut crossing type unit type second exercise line locking unit (2c) is assembled by one common rod-shaped member (3h) and two common strut (10 g). It is composed. In this way, one or more common rod-shaped members can be assembled. Further, when the rod-shaped member having the rail-type locking portion and the support column having the rail-type height adjustment fixing portion are fixed by the lock-type vertical / horizontal rotation slide portion (17i), the support column and the rod-shaped member are aligned so as to fold the support column. It is also possible to fix it. When placed and used so that it is placed on the installation surface, it also has the function of a base due to the weight and frictional resistance of the folded columns and rod-shaped members. By attaching a cushion material to the portion in contact with the installation surface, it is considered that the occurrence of misalignment when using the line sports arranged at a height of about 0 cm can be reduced.
When commercially available ladder-shaped sports equipment for rudder training is laid on the floor of a gymnasium, etc., the ladder-shaped sports equipment shifts and moves during use, so use adhesive tape or the like to perform ladder-shaped sports on the floor. The equipment is attached to prevent slippage, but a ladder-shaped sports equipment or a ladder-type belt line for line sports (21 g) is used between the two exercise line locking units placed on the folded floor. ) Can be arranged using a buckle-type belt-type locking part connector (8 g) that engages in a so-called taut state with tensile force, so that displacement can be prevented and at the same time adhesiveness can be prevented. It is also possible to prevent the trouble of attaching a tape or the like to the floor surface and the adhesion of dirt such as an adhesive to the floor surface or the ladder-shaped sports equipment. Even if it is misaligned, you can easily return it to a taut state by moving the unit.
Further, by fixing the folded rod-shaped member and the support column with a belt or the like, it becomes easy to carry, and it is also convenient for carrying by a car or the like because it can be compactly loaded on the loading platform.
In FIG. 30 (c-3), a second exercise line locking unit (2c) of a rod-shaped member support holding type unit type is assembled by two common rod-shaped members (3h) and two common columns (10 g). It is composed.
In some drawings, the base is not shown.

In FIG. 31, the exercise line locking unit according to claim 10 uses a connecting means, and is the individually usable rod-shaped member, the individually usable common strut (10 g), or the exercise line locking unit. It is the schematic which shows the line locking unit for movement of various shapes formed by connecting.
A front view or a rear view (a-1) and a top view (a-2) connected in a straight line direction in the horizontal direction, and a perspective view (b-1) and a top view (b-1) and a top view (b-1) connected in a straight line direction in the horizontal direction. It is a figure which shows the embodiment of b-2).
The horizontal direction is the horizontal direction from the arranged exercise line locking unit, and includes all directions of a right angle, an acute angle, and an obtuse angle even if it is a straight line. They are connected using a connecting means having a straight line or an oblique angle in the horizontal direction.
The rod-shaped member connecting means (20) serving as the connecting means is used for connecting, and the rod-shaped member connecting means (20) includes a tubular body-shaped connecting tool (20a), a cono-shaped connecting tool (20b), and an L-shaped tubular shape. There are a body connecting tool (20c), a two-sided L-shaped connecting tool (20d), a cylindrical body connecting tool (20e) with a bolt of about 6 to about 10 mm, and the like. In addition to the means using the connecting tool, as an example, the diameter of the cylindrical body provided on the end face of the rod-shaped member to be connected is slightly smaller than the diameter of the tubular body provided on the end face of the different rod-shaped member to be connected. A connecting means for connecting by inserting a thin cylindrical body into the space is also conceivable.
By using a connecting means, the exercise line locking unit has a rod-shaped member that can be individually used, a common strut (10 g) that can be individually used, or an exercise line clerk in the exercise line locking unit that is arranged. The stop unit can be connected in the horizontal direction.
FIG. 31 (a-1) shows an embodiment in which a rod-shaped member and a support column or a second exercise line locking unit that can be individually used are connected to the exercise line locking unit so as to be aligned in the horizontal direction. In the figure or the rear view, a rod-shaped member such as a tubular body-shaped connecting tool (20a) and a horizontal connecting tool (20b), which is a rod-shaped member connecting means (20) formed of metal, a reinforced artificial resin, or the like. By connecting means that can connect each other in a straight line in series, it is configured by using a line locking unit for movement of substantially the same type, or a common rod-shaped member (3h) that can be used individually and a common strut (10 g) that can be used individually. The second movement line locking unit (2c) is connected in a straight line in the horizontal direction and is connected in series.
Insert one end of each rod-shaped body into the tubular body type connector (20a) at both ends, and use common screw holes (8h) provided at at least one location provided for each to use common screws and screws (8i). ) To fix it.
Similarly, the cono-shaped connector (20b) provided with the common screw hole (8h) is fixed by sandwiching the end faces of the rod-shaped bodies together. Near both ends of the connecting tool, through holes having the same diameter as the screw-type concave locking portion having a diameter of about 5 to about 10 mm provided near both ends of the rod-shaped member are provided, and are connected by a fixing tool such as a screw. do.
It is desirable that the common rod-shaped member (3h) has substantially the same cross-sectional diameter and shape as the rod-shaped member (3). Further, the common rod-shaped member (3h) can be attached to the support column of the exercise line locking unit and the common support column (10 g) by using the connecting means.
By attaching and fixing two or more common struts (10 g) near both ends of at least one or more common rod-shaped members (3h) with a supporter (16) for fixing a rod-shaped member on the stanchion side, a second exercise line clerk is engaged. A stop unit (2c) can be configured.
The second exercise line locking unit can be configured as both a rod-shaped member strut sandwiching type unit (2a) and a rod-shaped member strut crossing type unit (2b).
Although not shown, in the rod-shaped member support sandwich type unit, a cylindrical body type connecting tool (20a), a cono-shaped connecting tool (20b), etc. are used as the connecting means when connecting in series in a straight line in the horizontal direction. As another connecting means, a support column for fixing the rod-shaped member to the outside of the support column (10) provided in the rod-shaped member support support type unit, that is, 180 degrees opposite to the surface on which the rod-shaped member is sandwiched. A side rod-shaped member fixing portion (13) or a height adjusting fixing portion (14) is provided, and the common rod-shaped member (3h) is fixed to this fixing portion.
It is also possible to connect the columns through bolts and screws by providing through holes in the vicinity of the upper end and the vicinity of the lower end of the columns so that the two columns are stuck together and the through holes are overlapped. In addition, fixing belts, universal clamp type metal fittings (18f), etc. can also be fixed by aligning the columns.
It should be noted that the members above the rods to be connected are connected in the horizontal direction, and both can be diagonally connected in the horizontal direction having a height difference.
It is also possible to attach a base for enhancing stability to each of the columns of the second exercise line locking unit.
Although not shown, a support column made of a system truss member and a rod-shaped member may be used and connected with bolts or the like.
FIG. 31 (a-2) shows a second exercise line configured by using a common rod-shaped member (3h) that can be used individually and a common strut (10 g) that can be used individually in the exercise line locking unit. It is a top view which the locking unit (2c) is connected in series in a straight line.
FIG. 31 (b-1) shows a front or back surface showing an embodiment in which a rod-shaped member and a support column or a second exercise line locking unit that can be individually used are connected to the exercise line locking unit in a horizontal direction and at a right angle. This is a perspective view of the above, using an L-shaped tubular body connecting tool (20c) capable of right-angle connection, which is a rod-shaped member connecting means (20) serving as a connecting means made of metal, light metal, or reinforced artificial resin. The members are connected at right angles, and a substantially same type of exercise line locking unit or a second exercise line locking unit (2c) is connected at right angles in the horizontal direction.
The horizontal right angle is the direction perpendicular to the direction in which the opposing exercise line locking units are arranged. Alternatively, it is possible to connect in each direction with a direction perpendicular to the direction opposite to the direction in which the opposing exercise line locking units are arranged.
Although not shown, in the rod-shaped member support holding type unit, the connecting means for connecting horizontally and at right angles is not a means using an L-shaped cylindrical body connecting tool (20c), but a rod-shaped member support holding type. Supporter side rod-shaped member fixing portion (13) or height adjusting fixing portion for fixing the rod-shaped member to the front or back surface of the support column (10) provided in the unit, that is, a 90-degree surface of the surface sandwiching the so-called rod-shaped member. (14) is provided. The means for fixing the common rod-shaped member (3h) to the fixing portion is the connecting means.
It is also possible to connect the common columns with common bolts (8j) by using common bolt holes for both base and upper connection provided above and below the columns on the upper part of each column. It is desirable to use a reinforcing member from the outside to reinforce the connecting portion.
At least one or more of the exercise line locking units or the second exercise line locking units (2c) that can be connected in the horizontal direction can be continuously connected, and the upper limit is the ground that is the installation surface. There is no upper limit, although it depends on the size of the room, the length of the exercise line, etc.
FIG. 31 (b-2) shows a second exercise line configured by using a common rod-shaped member (3h) that can be used individually and a common strut (10 g) that can be used individually in the exercise line locking unit. It is a top view which connected the locking unit (2c) at a right angle by the L-shaped cylindrical body connecting tool (20c). Since the L-shaped tubular body connector (20c) has a right-angled bending angle, the rod-shaped members inserted into the connector are connected at a right angle, but the angle change of the connector is changed to a different angle, 90 degrees. It is also possible to fix it horizontally at a different angle from. As an example, if the connecting tool has an angle change of 45 degrees, the rod-shaped members to be connected can also be connected with an angle change of 45 degrees in the horizontal direction.
Connecting tools that change the angle, such as the L-shaped tubular body connecting tool (20c), are reinforced with a reinforcing material so that the angle does not change from a certain angle, and the connecting tool that can maintain a constant angle even when receiving an external force. Is desirable.

In FIG. 32, substantially both ends of the exercise line locking units arranged facing each other are arranged so that rod-shaped members and columns or second exercise line locking units that can be used individually are opposed to each other by using a connecting means. It is a schematic view from the upper surface of the exercise line locking system connected so as to form a continuous square at right angles to the direction of the exercise line locking unit, and each of the exercise line locking units arranged facing each other. An L-shaped tubular body connector (20c) or a two-sided L-shape that is bent at a right angle so that the internal angle is 90 degrees when the rod-shaped member connecting means (20), which is the connecting means, is connected to a total of four, one at each end. A rod-shaped member (3, 3h) and a support column (3, 3h) and columns (3, 3h) that can be used individually by attaching the mold connector (20d) with the L-shaped attachment port on one side facing the direction of the exercise line locking unit arranged opposite to each other. 10, 10 g) or by connecting a second movement line locking unit (2c) of substantially the same type to the attachment port on one side of the above-mentioned L-shaped rod-shaped member connecting means (20), a square shape is formed. It is connected like this.
One or more second exercise line locks at a substantially right angle using a connecting means such as a pillar material angle L joint metal fitting (20f) in the direction of the opposite exercise line locking units of the same size arranged so as to face each other. The unit or the common rod-shaped member and the common strut are connected, connected to the opposite exercise line locking unit, and the opposite end of the exercise line locking units also arranged opposite to each other is also the connected second. By connecting the exercise line locking units at right angles using pillar material angle L joint hardware (20f) etc. so that the exercise line locking units are in parallel, the exercise line locking system has all internal angles of 90 degrees in plan view. A right-angled square will be formed.
Reinforcement with a truss structure in addition to reinforcement by the reinforcing member provided in the column member angle L joint metal fitting (20f) at each internal angle portion to which each rod-shaped member, the locking portion, and the column are connected. It is desirable to provide reinforcement by fixing members and truss structural reinforcements to the inner corners.
By connecting substantially both ends of the exercise line locking units (2) arranged to face each other in a square shape with a common rod-shaped member or a second exercise line locking unit (2c), they face each other. Exercise lines can be attached via the locking portions of the common rod-shaped member or the second exercise line locking unit, and multiple exercise lines are crossed from the four locking portions and arranged in a grid pattern. It will be possible to set up. By attaching a plurality of rod-shaped members vertically at the same time, it is possible to arrange exercise lines at a plurality of heights from all sides.
Although not shown, if the rod-shaped member (3) is not a straight line but has the shape of a curved rod-shaped member (3j) obtained by dividing a perfect circle or an ellipse in a plan view, the rod-shaped member (3) can be connected by a circular division type connector to form a flat surface. A circle that is visually round or elliptical is formed, and similarly, the load-bearing force such as the tensile force applied to the line of the exercise line locking system is increased. By combining straight rod-shaped members, it is conceivable that the connected shape is an ellipse including a straight line.
When a light beam such as a laser beam is used for the exercise line and a light beam such as a laser beam is oscillated from all sides, it is possible to react from all angles compared to the case of only facing each other, and it is possible to respond to more complicated movements of athletes. It becomes a line locking system for exercise.
Further, substantially both ends of the exercise line locking unit are connected to each other by a rod-shaped member or a second exercise line locking unit so as to form a square shape, and further vertically doubled or tripled upward, downward, etc. Similarly, when the unit is connected so as to have steps, although not shown, the rod-shaped members and the columns are reinforced with truss structure reinforcing members, etc. at the parts with each internal angle, so that when using line sports. The resistance resistance such as the tensile force of the exercise line is also improved, and it becomes possible to perform line sports in which a larger load is applied.

In FIG. 33, a common rod-shaped member, a common strut, and a second exercise line locking unit are connected to both ends of the exercise line locking units arranged facing each other by a right-angled connecting tool to form a square shape. An exercise line clerk in which a laser oscillator (21k) containing infrared rays and a vibration receiver or a reflector (21l) are fixed to a locked portion of an enclosed exercise line locking unit and a laser light exercise line (21j) is arranged. It is a figure which shows the embodiment of the stop system, and the rod-shaped member can be fixed up and down at an arbitrary height by the height adjustment fixing part of a column. Safety is also improved because there is no tripping or catching that occurs with belts, strings, rubber strings, etc. Each laser oscillator and receiver or reflector are equipped with a switch function, and when these infrared rays or lasers are blocked, the switch function works and can be used in combination with electronic devices that have the function of outputting signals by various sounds and lights. Exercise lines are also conceivable. In addition to the laser light motion line (21j), it is also possible to use an electronic device having a function of outputting signals by various sounds and lights.
In addition, by three-dimensionally surrounding a plurality of exercise line locking units including the upper and lower sides and the rod-shaped member (3) in a mouth shape in both plan view and horizontal view, the height is substantially horizontal to a height of 2 m or more. A common rod-shaped member is erected so as to be a ceiling surface, and the rod-shaped member can be fixed to the upper surface of the installation surface. The erected rod-shaped member can also be provided with an exercise line (21) directed vertically downward including an obliquely downward direction.
In FIG. 33, the rod-shaped members fixed from the four sides are shown in one stage, but by setting the number of stages of the rod-shaped members fixed from the four sides to two or more, each locking provided in various parts is provided. There is also an effect that the exercise lines can be arranged from various directions and angles through the portions.

In FIG. 34, a rod-shaped member that can be used individually or a rod-shaped member of the second exercise line locking unit is vertically crossed and connected to the rod-shaped member of the exercise line locking unit by using a connecting means. It is a perspective view which shows the state which is done.
A rod-shaped member connected in a state where the rod-shaped member and the rod-shaped member (3) intersect at a substantially right angle in the vertical direction. It is also possible to cross the 6 to approximately 10 mm round concave locking portions and fix them with a common bolt fixing screw, a common nut (8k), or the like. Further, a universal clamp type unit fixture (18d) can be used instead of a bolt or the like.
Although not shown, the rod-shaped member end face bolt holes (9e) provided on the end surface of the rod-shaped member (3) and the round concave double fixing portion (9c) for the rod-shaped member side support provided on the side surface of the rod-shaped member (3). Alternatively, the round concave locking portion (6a) can be fixed at a right angle by a common bolt (8j) or a common screw / screw (8i) that engages with each other.
Bridging and connecting the common rod-shaped members between the rod-shaped members of the exercise line locking units arranged opposite to each other, or between the common rod-shaped members (3h) attached and fixed opposite to each other so as to bridge the common rod-shaped members. Is also possible.
However, fixing with only bolts causes an angle change. In this case, it is desirable to use a right-angled crossing connecting fitting (20g) or a right-angled crossing clamp fitting together as a reinforcing member (20f) having a truss structure or a rod-shaped member connecting means (20).

FIG. 35 is a front view showing an embodiment of an extension fixed type support column that supports a rod-shaped member from below, and is substantially 5 to abbreviated in a central portion of a cylindrical body type connecting tool (20a) serving as a rod-shaped member connecting means (20). A 10 mm bolt is attached and attached to the upper end surface of the extension fixed type support column (11), and the rod-shaped member (3) and the rod-shaped member (3) connected by the connecting tool can be supported from below.
When a load that pushes down the rod-shaped member is applied, it is possible to maintain a larger drag force that supports the rod-shaped member from the side of the column. However, it is possible to prevent the displacement by using a lock pin or the like so that the built-in support (11b) does not fall directly under the built-in support (11b) built in the outer support (11a) which is the outside of the extension fixed type support (11). desirable.

FIG. 36 is a schematic view of an exercise line locking system according to another embodiment in which a row of motion line locking units is bridged and connected by a rod-shaped member and a pole-shaped line suspended from the bridging rod-shaped member is used. be.
(A) is an overall view in which a pole-shaped exercise line is suspended vertically downward from a common rod-shaped member bridged between rod-shaped members of exercise line locking units arranged opposite to each other. , (B) is a top view in which the reinforced locking body and the rod-shaped member are fixed to the installation surface, and (c) is a strut body and the locking body in which the height adjusting portion is separated using the truss system member. It is a figure which shows the embodiment of the whole view which connected the rod-shaped member bodies in the separated state.
FIG. 36A is provided on the end surface of the common rod-shaped member (3h) so as to bridge the rod-shaped members (3) fixed to the upper part of the exercise line locking units (2) arranged to face each other and face each other. The hole (9e) for the end face bolt of the rod-shaped member and the round concave double fixing portion (9c) or the round concave locking portion (6a) for the rod-shaped member side support provided on the side surface of the rod-shaped member (3) are engaged together. A plurality of pole-type exercise lines (21i) and sports sheets (21i) and sports sheets (21i) are connected by a common bolt (8j) or a common screw / screw (8i) that engages at a right angle, and from the locking portion of the common rod-shaped member (3h). Cloth) (21n) is locked and arranged by using a locking portion connector so as to be suspended in the air.
As shown in FIG. 34, there is also a cross-type bridge connection method in which rod-shaped members are vertically crossed and connected in a right-angled direction.
In the usage of the rod-shaped member bridged overhead, sports sheets (cloth) (21n) are hung from overhead, and the athlete rides on the sports sheets and performs balanced sports such as dancing while balancing in the air. , By suspending multiple pole-type exercise lines (21i), in addition to training to run through between the suspended poles while stepping left and right, the pole-type exercise line fixed in the vertical direction. It is also possible to perform training to climb up to the top like a climbing stick.
The method of fixing the rod-shaped member to be crosslinked is to fix it with a bolt or the like using unevenness, or to bridge the rail locking portion of the rod-shaped member (3) fixed to the upper part of the exercise line locking unit (2). There is also a method of fixing the rod-shaped member on the side to be locked with a lock type slide locking portion (7d).
The exercise line locking unit and the exercise line locking system should have the strength, stability, and safety to climb the exercise line suspended from above and perform balance sports on the line. Is also made.
In this figure, the pole-type exercise line (21i) and the sports sheets (cloth) (21n) locked from above are locked and arranged, but in addition, each unit, rod-shaped member, and support are provided. By installing multiple combinations and locking parts on the floor, various exercises can be performed with respect to the athlete from the side, front, back, diagonally up and down, from below the floor, and from above above. It is possible to perform exercise line sports in the arrangement of the exercise line (21).
Although not shown, in addition to the reinforcement structure such as the base and truss structure for increasing stability, the column material having a truss structure is used for the fixing portion of the column and the rod-shaped member and the fixing portion of the rod-shaped member and the rod-shaped member. It is also necessary to reinforce with a square L joint metal fitting (20f) or the like. Further, it is desirable to individually attach a common support to the rod-shaped member of each unit to reinforce it. A support column having a height adjusting fixing portion made of a system truss member and a rod-shaped member having a locking portion made of a system truss member may be used.
In FIG. 36A, the common rod-shaped member (3h) is fixed so as to be sandwiched between the two common rod-shaped members (3h), but it can also be fixed so as to be overlapped. It is also possible to reinforce the fixed vicinity of the rod-shaped member bridged near the center of the competition space with a truss structure. It is desirable to attach a common strut directly under the joint portion between the crosslinked common rod-shaped member (3h) and the crosslinked rod-shaped member, and to reinforce the common strut and the common rod-shaped member with a truss structure member.
FIG. 36 (b) shows a common rod-shaped member fixed so as to bridge the rod-shaped members (3) fixed to the upper portion and the lower portion of the two exercise line locking units (2) arranged facing each other. A pole-type exercise line (21i) is arranged between (3h) in the vertical direction, which is the vertical direction.
The positions that can be arranged in the vertical direction were only between two or more rod-shaped members (3) fixed to one unit, but the upper and lower parts of the opposing exercise line locking units (2). By bridging the rod-shaped members (3) fixed to the top and bottom with the common rod-shaped member (3h) so that the top and bottom are substantially vertically above, the common rod-shaped member (3h) bridged and fixed vertically moves. Lines can be arranged in the vertical direction. In addition, the parallel exercise line locking units (2) facing each other by being bridged and fixed by a common rod-shaped member (3h) at a plurality of locations have the effect of improving stability.
Although it is an example, by locking and arranging the pole type line (21i) between the locking portion of the upper rod-shaped member and the locking portion of the floor surface so as not to move, it looks like a climbing rod. It is also possible to compete and train pole dance, etc., where you can climb the pole upwards or dance while climbing the pole.
Compared with FIG. 36 (a), the exercise line can be locked from the floor surface. The exercise line can be locked and arranged at a desired three-dimensional position from the front and back, left and right, above, and further below. The interval for locking the exercise line on all surfaces can be increased or decreased by increasing or decreasing the number of locking portions located above and below, left and right, and front and back.
However, there is a possibility that the foot may be caught when the athlete in use passes over the common rod-shaped member (3h) fixed so as to bridge on the installation surface. It is necessary to have an exercise line locking system in which a player does not get caught when passing over a common rod-shaped member (3h) fixed on the installation surface.
As a method, a mat having the same thickness as the rod-shaped member is laid between the rod-shaped members to eliminate unevenness. Alternatively, a rod-shaped member or a locking portion that can be used individually is embedded below the installation surface so that the locking portion faces upward and the installation surface and the locking portion are horizontal, and the installation surface and the rod-shaped member or the locking portion are embedded. This is a method of fixing the upper part of the body so that it is horizontal so that the legs do not get caught. However, the horizontal means the upper surface of the rail portion and the concave portion, and excludes the step inside the concave portion and the step of the locking portion connector attached to the locking portion.
FIG. 36 (c) is an overall view in which a strut body (10f) composed of a system truss strut (10h) and a rod-shaped member body (5) are connected by a connecting tool. The rod-shaped member (5) composed of the height-adjusting fixed portion (15) and the system truss rod-shaped member (3k) on the strut has substantially the same structure as the strut-side tubular slide locking portion (12c). The stopper body (6e) can be attached with a fixture. An arbitrary number of common rod-shaped members (3h) are attached to the height adjusting fixing unit (15) attached to the support column. In addition to the outdoor ground, it can be installed in parking lots and event venues, and it is possible to arrange a tightrope walking line with a larger tensile force and a spring-shaped exercise line. In the case of an exercise line with a large tensile force, it is desirable to use a strut body composed of a triangular system truss strut (10h). On the upper part, a plurality of common rod-shaped members (3h) made of system truss members are connected by bridging so as to divide them at equal intervals near the center, so that various exercise lines are connected to the locking portion provided downward. Can be locked downward. Even if the pole-shaped line (21i) is used like a climbing bar, the exercise line system configured by connecting the exercise line units made of system truss members has the power to support the weight of the athlete. By using this system truss member, the height of the entire system can be installed and arranged at least 3 m or more.
By similarly attaching the four rod-shaped members (5) attached to the upper portion to the lower portion, the resistance to a larger size is also increased. Further, it is desirable to provide a reinforcing member such as a column member angle L joint metal fitting (20f) at each internal angle. By attaching a locking body (6e) that fits the four strut bodies (10f), it is possible to arrange exercise lines that require high load drag, such as a tightrope walking line, on two diagonal lines. .. Further, by connecting similar units in the horizontal direction, it is possible to further arrange an exercise line such as a tightrope walking line that requires a high load drag on two diagonal lines.
Further, by attaching the rod-shaped member (3) to the height adjusting fixing body (15) attached to each support column, the desired height, desired width, desired vertical angle, and desired horizontal angle can be obtained. Further, it is possible to divide the desired various exercise lines into the desired upper and lower layers and arrange them at the same time. When the balance is lost on the tightrope walking line, it may be possible to arrange an exercise line for the purpose of preventing falls.
Furthermore, by connecting a rod-shaped member to the upper part of the unit, the desired width, desired vertical angle, desired height, and various desired exercise lines can be obtained from above in the desired left-right hierarchy and desired front and rear. It is also possible to divide into layers and arrange exercise lines at the same time.
The exercise line can be locked and arranged at a desired three-dimensional position from the front, back, left, right, and above. However, at this point, the exercise line has not been locked from the floor.

FIG. 37 shows that the exercise line locking unit according to claim 11 is gripped and fixed by gripping and fixing a tubular tubular body (22) that is inserted into a sports pole insertion hole (23) provided on an installation surface and stands upright. FIG. 5 is a front view showing an embodiment of an exercise line locking system capable of gripping a tubular cylinder (22) by providing means.
When fixing a stable and upright tubular cylinder (22) or support (10) to a rod-shaped member provided in an exercise line locking unit, which is inserted into a sports pole insertion hole (23) provided on the installation surface. , A strut (10) or a shared strut (10 g) provided with a rod-shaped member side strut fixing portion (9), or if it is an extension fixed type strut (11), a strut-side rod-shaped member fixing portion fixture is attached to the rod-shaped member. Sports poles (22a) for volleyball, tennis, badminton, etc., which can be fixed by (16) but do not have a rod-shaped member fixing portion (9), are provided by a strut-side rod-shaped member fixing portion (16). Since it cannot be fixed, a gripping and fixing means tool (24) as a means for gripping and fixing the sports pole and the rod-shaped member is required.
Similarly, the positions for fixing the tubular cylinder (22) provided with the rod-shaped member side support fixing portion (9) that is inserted into the sports pole insertion hole (23) and stands upright are also two positions from both sides of the exercise line locking unit. It is desirable to hold and fix the rod-shaped member supported by the support columns at substantially the center of the support column because the tensile force applied to both columns is also distributed to both columns substantially evenly. In addition to fixing with the support rod-shaped member fixing portion fixing tool (16), it is also possible to use the gripping fixing means tool (24) to fix the rod-shaped member so as to be sandwiched.
Further, the upright tubular cylinder (22) is not completely upright and may be tilted by about ± 3 degrees. A gap or space of about 3 to 5 mm may be created due to the difference between the inner diameter of the pole receiving port (23a) of the sports pole insertion hole (23) and the outer diameter of the tubular cylinder (22).
In FIG. 37, a tubular cylinder (22) having no fixing portion (9) for the rod-shaped member side support is inserted into the sports pole insertion hole (23), and the upright tubular cylinder (22) is gripped and fixed. The tubular cylinder (22) is gripped by the grip portion (24c) which is the U-shaped portion of the U-shaped grip tool (24a) in the grip fixing means tool (24) which is a means.
The centrally upright tubular cylinder (22) shown is detachably inserted into the pole receiving port (23a) of the sports pole insertion hole (23).
The existing sports pole insertion hole (23) in the gymnasium or the sports ground may be provided with the sports pole insertion hole (23) of the pole receiving port (23a) of three sizes.
The inner diameter of the pole receiving port (23a) is about 79 mm in diameter, about 52 mm in diameter, and about 42 mm in diameter.
However, there may be a difference of about ± 2 mm depending on the manufacturer.
The diameter of the tubular cylinder (22) held by the gripping and fixing means (24) is a 76 tubular cylinder having a horizontal cross-sectional diameter of approximately 76 mm ± 2 mm.
50 tubular cylinder with a diameter of approximately 50 mm ± 2 mm,
40 tubular cylinder with a diameter of approximately 40 mm ± 2 mm,
And a grip fixing means tool (24) provided with a grip portion (24c) capable of gripping and fixing at least the above three sizes or more is required.
The tubular cylinder (22) can be used individually with the support rod side rod-shaped member fixing portion (13), and uses a common support (10 g) that engages with the tubular tube hole (23b) of the sports pole insertion hole (23). It is possible.
The sports pole insertion hole (23) has a tubular tubular hole (23b) made of metal such as iron having a diameter and depth that allows the tubular tubular body (23b) to be inserted to stand upright stably. Is fixed under the installation surface with concrete etc. in a state where it does not move completely, and if the pole is not inserted, close the retractable flat lid (23c) and open the pole receiving port (23a) on the installation surface. Close.
The size is just an example,
In the 76 mm tubular cylinder having a diameter of about 76 mm ± 2 mm, the pole receiving ports have different depths such as a diameter of 79 mm ± 3 mm, a depth of about 25 cm, a depth of about 30 cm, and a depth of about 50 cm.
When the diameter of the tubular cylinder is about 50 mm ± 2 mm, the diameter of the pole receiving port is about 52 mm ± 3 mm, and the depth is about 25 cm and about 30 cm.
When the diameter of the tubular cylinder is about 40 mm ± 2 mm, the diameter of the pole receiving port is about 42 mm ± 3 mm, and the depth is about 25 cm and about 30 cm.
Volleyball and tennis sports poles located in existing gymnasiums and grounds have a standard diameter of about 76 m, and the sports pole receiving port for inserting those poles is 79 mm ± 3 mm in diameter and approximately 25 cm in depth. , Approximately 30 cm, approximately 50 cm tubular sports pole insertion holes are used.
Also, soft valley and badminton poles are mainly about 50 mm ± 2 mm in diameter or about 40 mm ± 2 mm in diameter, and these sports pole receiving ports are about 52 mm ± 3 mm in diameter and about 42 mm in diameter into which those poles can be inserted. It is ± 3 mm, and the depth is about 25 cm and about 30 cm.
The gripping and fixing means tool (24) serving as the gripping and fixing means is a U-shaped or square gripping portion (24c) that can be gripped and fixed so as to hold down these tubular cylinders having different diameters toward the rod-shaped members adjacent to each other from the side surface. In addition to the U-shaped gripper (24a) provided with 24b).
The fixing location of the gripping fixing means tool (24) to the rod-shaped member is fixed to the round concave double fixing portion (9c) for the rod-shaped member side support, which is the fixing portion for the rod-shaped member side support, with screws. Alternatively, it is fixed to the rail fixing portion (9f) for the rod-shaped member side strut with a fixing tool such as a bolt screw.
By being inserted into the sports pole insertion hole (23) provided on the installation surface, the fixed tubular cylinder (22) becomes a gripping and fixing means near the center of the rod-shaped member of the exercise line locking unit. By gripping the tubular cylinder (22) with the grip portion (24c) of the grip fixing means tool (24), the tubular cylinder (22) already fixed to the sports pole insertion hole (23) and stable, the exercise line. The stability of the locking unit is also increased, the movement of the unit due to the tensile force applied to the exercise line is prevented, the stability is increased, and at the same time, it is prevented from falling or coming off due to the impact from the support of the rod-shaped member. It also prevents the unit fixed only by the base for the support from tipping over due to the impact, and it is possible to greatly increase the tensile force applied to the exercise line that is locked and arranged in the exercise line locking unit. It becomes a locking system.

In FIG. 38, the tubular tubular body (22) standing upright on the installation surface is attached to the front or back surface of the rod-shaped member of the exercise line locking unit, and the grip portion (24c) of the grip fixing means tool (24) serving as the grip fixing means. It is a figure which shows the embodiment of the exercise line locking system gripped by, (a) shows the U-shaped gripper, (b) shows the means which uses the stainless band type gripper.
FIG. 38 (a) is a U-shaped gripper (24a) having a U-shaped grip portion (24c).
A tubular body (22) is electrically connected between a through hole portion which is a U-shaped grip portion (24c) of the U-shaped grip tool (24a) and a rod-shaped member, and is provided in the vicinity of both ends of the U-shaped grip tool. Pass the bolt part of the slide bolt (17h) passed through the rail fixing portion (9f) for the rod-shaped member side support through the rectangular elliptical hole (24d) extending vertically downward and grip it with the slide nut (17i). It is fixed.
In the case of the rectangular hole (24d), the rod-shaped member can be slanted, but in the case of the circular hole instead of the rectangular hole (24d), the rod-shaped member is fixed substantially horizontally with respect to the installation surface, and the rod-shaped member is fixed. Cannot be installed if it is installed diagonally.
FIG. 38 (b) is a stainless band type gripping tool (24b) of the gripping fixing means tool (24).
A stainless belt is used for the grip portion (24c) of the stainless band type grip tool (24b). In this figure, the tubular cylinder is fixed by connecting the stainless steel belts divided into two with bolts and nuts, but there is also a method of fixing by tightening with one stainless steel belt.
The fixing screw holes near both ends of the stainless band type gripper (24b) are not circular, but are rectangular elliptical holes (24d) that are oriented substantially vertically downward.
However, since the rod-shaped member side is a screw hole of the round hole of the round concave double fixing portion (9c) for the rod-shaped member side support, the angle change is limited when the rod-shaped member is obliquely installed.
On the rod-shaped member side, the rail fixing portion (9f) for the rod-shaped member side strut has an advantage that the angle can be adjusted more precisely than the round concave double fixing portion (9c) for the rod-shaped member side strut.
The gripping and fixing means is not limited to gripping and fixing by a stainless belt serving as the illustrated gripping portion (24c) and gripping and fixing by a U-shaped gripping tool, such as a universal clamp type unit fixing tool (18f). A grip fixing means tool that can be gripped and fixed is also included.

FIG. 39 is a schematic view showing an embodiment in which a pole-shaped line is locked to a rod-shaped member of an exercise line locking unit that grips and fixes a tubular cylinder.
It is fixed and held from the front surface of the exercise line locking unit (2) to the tubular tubular body (22) inserted into the sports pole insertion hole (23) by a gripping fixing means tool, and is attached to the locking portion on the upper surface of the rod-shaped member. Centering on the tubular cylinder (22), two pole-shaped lines (21i) made of stainless steel, aluminum or reinforced plastic, which are heavier than strings and rubber, are attached to both sides of the tubular body (22). It is fixed at 8c).
The two pole-shaped lines (21i) are arranged on the rod-shaped member of the exercise line locking unit which is similarly arranged to face each other. Even when one side of these lines is loaded with about half the weight of the athlete, the exercise line locking unit grips the tubular body (22) inserted into the sports pole insertion hole (23). By doing so, it will also be supported by the tubular body (22), and the drag force that will be the supporting force against the load applied to the exercise line will increase, greatly reducing the possibility that the unit will fall or move. It becomes a line locking system for exercise.
By gripping and fixing the tubular cylinder (22) inserted into the sports pole insertion hole (23) by the rod-shaped member of the exercise line locking unit, the unit can be rotated laterally around the tubular cylinder (22). It is possible that the movement of As a preventive measure, a common rod-shaped member, a common truss, a second movement line locking unit, etc. that can be used individually between the units in parallel are used to connect both ends to form a quadrangle in a plan view. However, by fixing the truss structure member (20f) diagonally to all the internal angles of the right-angled connecting portions, it is possible to prevent lateral rotation.
Assuming that the pole type line (21i) is further loaded, when fixing the rod-shaped member and the pole type line so as to cross each other, the T with a rotation prevention function is used instead of the U-shaped screw locking part connector (8c). It is desirable to use a character clamp, a cross-shaped connector, etc.

In FIG. 40, (a) shows a tightrope walking sports line arranged under the middle tubular body of the exercise line locking unit that grips, fixes, and holds the tubular body inserted into the sports pole insertion hole (23). , The rod-shaped member of the exercise line locking unit has pole-shaped lines arranged on both sides of the tightrope walking sports line to help maintain the tightrope walking balance. It is a front view of the above, and is the figure which shows each embodiment.
FIG. 40 (a) shows an exercise line in which the tubular body (22) inserted into the sports pole insertion hole (23) is gripped and fixed and held by the U-shaped gripping tool (24a) which is the gripping and fixing means tool (24). A tightrope walking sports line (21f) is arranged under the tubular body of the locking unit, and a pole-shaped line (21i) that assists in maintaining the tightrope walking balance is provided on the rod-shaped member of the exercise line locking unit for tightrope walking sports. It is fixed and arranged on both sides of the line by a U-shaped screw locking portion connector (8c) at a position of about 50 cm around a tubular cylinder (22). Assuming that a load is applied to the pole type line (21i), it is desirable to use a T-shaped clamp with a rotation prevention function, a cross-shaped connection tool, or the like instead of the U-shaped screw locking portion connector (8c).
Two sports poles (22a) or tubular cylinders (22) such as volleyball inserted into two facing sports pole insertion holes (23) provided in the gymnasium or outdoor ground, which is the installation surface, or a common support (10 g) is gripped and fixed by the gripping and fixing means tool (24) to further improve the stability of the exercise line locking unit, which is made of reinforced resin or metal and has a diameter of 30 to 40 mm and a total length of 180 cm or more. Two rod-shaped pole-shaped lines (21i) are locked at positions of about 50 cm on both the left and right sides around a tubular cylinder (22) that is gripped and fixed, and are arranged in a facing exercise line locking unit.
In the case of a volleyball court, the distance to the facing exercise line locking unit is about 11 m in the two sports pole insertion holes (23). The total length of the pole type line (21i) varies, but it is just an example. When the total length of the pole type line (21i) is 6 m, this pole type is at least between the facing exercise line locking units. The line cannot be arranged unless two lines are connected. For that purpose, a connecting tool for connecting the pole type lines is required.
In addition, the weight of one pole-shaped line with a total length of 6 m is at least 3 kg or more, and when these two lines are connected at a height of 1 m, the connecting part at the center is not horizontal due to gravity but is centered on the installation surface side. It may be curved and, in some cases, broken. In order to prevent this, a support column is required to support the connected pole type line from the installation surface side.
As one of the solutions, a cylindrical body type connecting tool with a bolt of about 6 to 10 mm is used as a connecting tool for connecting the pole type line by supporting the extension fixed type support column (11) to which the base is attached from below the installation surface side. 20e) is used.
In consideration of transportation, it is desirable to use a pole-type line having a length of about 2 m, in which a second pole having substantially the same length comes out from the inside and can be expanded and contracted and fixed. In this case, it is necessary to connect at least three pole-shaped lines on the volleyball court.
Since the height of the pole type line needs to be fixed at various heights, the extension fixed type support (11), which can be extended to about twice the height at least 80 cm or more, is attached to the pole type line. Cylindrical body type connection with bolts of approximately 6 to 10 mm with a bolt protruding vertically in the substantially center of a tubular connector that can be connected by inserting the two pole-type lines from two locations at both ends as a support. The two pole type lines are connected by the tool (20e), and the held bolt is screwed into the engaging bolt hole provided in the inner support column (11b) of the extension fixed type support column (11) to form a pole type. While supporting the line from below, it is possible to connect and arrange heavy exercise lines at various heights.
The two extended fixed struts (11) facing each other near the middle are provided with a common rod-shaped member (3h) or a rod-shaped member (5) that can be used individually, and the extended fixed struts (11) or the lower part of the base thereof. It is possible to connect each other.
Further, although there are only two extension fixed columns (11) in this drawing, the height maintenance stand (27) of the extension fixed columns is about 2 m from the two sports poles (22a) or the tubular cylinder (22). ), And the pole type arranged by connecting the common rod-shaped member (3h) or the rod-shaped member body (5) to the facing extension fixing columns at the upper and lower parts of the extension fixing column, respectively. It is thought that the stability of the line will increase further.
When a pole type line with a total length of 3 m is used, four pieces are connected at the volleyball court and connected at three places by a tubular body type connecting tool (20e) with a bolt of about 6 to about 10 mm, and each connecting tool is extended. The fixed support column (11) is attached while being supported from below. Therefore, as the number of columns supported from below increases, the drag against the load applied to the exercise line also increases, and it is possible to have a supporting force against the weight from above, which is at least supporting the weight of the pole type line (21i). It becomes. Supporting force from the exercise line, which is connected only by the cylindrical body type connector (20e) with bolts and is supported by the support from below, against the load applied from above, from the exercise line which is locked and arranged only at both ends. Will increase. However, the supporting force in the horizontal direction is weaker than that in the vertical direction, and the base responds to the lateral force. Consideration must be given to prevent the base from jumping up when the stanchion falls.
As one of the preventive measures, the lower parts of the extended fixed type columns (11) supporting the opposing exercise lines are connected by a common rod-shaped member (3h) or a rod-shaped member (5) that can be used individually. It is conceivable to take preventive measures that can suppress the tilting of the columns and prevent the bases of the two columns from jumping up. Also, although not shown, there are also two places, the common rod-shaped member (3h) that connects the lower parts, or the connecting part of the rod-shaped member (5) and the extension fixed type support (11), the outside, the outside of the support, and the internal angle part of the base. By attaching a truss structural member or a column material angle L joint metal fitting (20f), it is possible to increase the stability of the extended fixed column (11) and the pole type line.
Near the base of the sports pole (22a) or tubular body (22) or common support (10g) standing upright in the sports pole insertion hole (23) gripped and fixed to the rod-shaped member of the exercise line locking unit. Is attached to one side of the tightrope walking line (21f), and the other side of the tightrope walking line is also attached near the base on the installation surface of the facing sports pole or tubular cylinder, and the height of the tightrope walking line is high. Based on the height maintenance base (27) such as two flying boxes to keep at least 20 cm or more, it is stretched with high tension, and when the athlete stands on this tightrope walking line (21f), at least one of the left and right sides of the athlete The pole type line (21i) made of the reinforced resin or a light metal such as aluminum or stainless steel is supported from below by the extension fixed type support (11) and at least 1 by the tubular body type connector within the reach of the above. By connecting and arranging at more than one place, even if the athlete is about to lose balance on the tightrope walking line, he or she can manually reach the pole-shaped line (21i) arranged on either the left or right side. By touching it, it becomes a line for balance maintenance assistance that makes it possible to restore the balance.
Beginners tend to lose their balance when standing up or walking on this tightrope walk, and currently there is no auxiliary equipment to restore balance when they lose their balance on the tightrope walk.
By gripping the tubular cylinder (22) that stands upright on the installation surface between the exercise line locking units, the stability is greatly improved, and the balance maintenance assistance is provided within the reach of both sides of the tightrope walking line between the units. By arranging the exercise line, the exercise line locking system is characterized in that it also provides assistance for maintaining balance from tightrope walking or high-line sports.
FIG. 40 (b) is an extension fixed support column (11) that supports a pole-type exercise line.
In order to extend the pole type line (21i), a cylindrical body type connector (20e) with a bolt of 6 to about 10 mm is used, and an extension fixed type support (11) is attached from the lower side to support the pole type line (21i). ing. Even if a load is applied to the pole type line (21i), it can be supported by the extension fixed type support column (11). However, it is necessary to attach the base for the support together with the support, not just the support. In particular, the exercise line supported and arranged by the columns increases the bearing capacity against the load from above, but the bearing capacity from the base is required for the lateral load from the front, back, left and right. Therefore, when performing line sports where a large load is applied, a truss structural member or a column material angle L joint metal fitting (20f) or the like is attached to all the inner corners of the column and the base.

In FIG. 41, (a) is an individually usable common support (10 g) fixed to a wall surface or the like as an upright surface according to claim 12 by a second fixing means, or a height adjustment that can be individually used. The front view of the rod-shaped member strut sandwiching type unit constructed by using the fixing body (15), (b) is the individually usable common strut (10 g) fixed to the upright surface by the second fixing means, or the individually usable common strut (10 g). It is a figure which shows the embodiment of the front view of the rod-shaped member strut crossing type unit which was constructed by using the height adjustment fixed part body (15) which can be used.
A common support column (10 g) that can be used individually or the height adjustment fixing body (15) that can be used individually is fixed to an upright surface (26) adjacent to the object by a second fixing means, and a rod-shaped member is attached and installed. Therefore, the exercise line can be arranged together with the exercise line locking unit (2) arranged on the installation surface.
Further, an upright surface (26) in which a common strut (10 g) that can be used individually or a height adjusting fixing unit (15) that can be used individually is fixed to the upright surface (26) by a second fixing means. By fixing the common strut (10 g) that can be used individually or the height adjustment fixing part (15) that can be used individually on the upright surface facing the body, a rod-shaped member is attached together for exercise. A line locking unit can be configured, and an exercise line can be arranged between the exercise line locking units fixed to the upright surfaces facing each other.
By fixing the common strut (10 g) that can be used individually or the height adjustment fixing part to the wall surface that is an upright surface by the second fixing means, the base for the strut can be omitted, and the space can be locked without narrowing the space. The height of the rod-shaped member provided with the portion can be adjusted to an arbitrary height and fixed. In addition, when the height adjustment fixed body (15) is fixed, the support body is omitted, so not only a general sports gym, which is narrower than a gymnasium, but also a narrow space room of about 6 tatami mats, a transportable container, etc. However, the space is effective and the exercise line locking system is installed so that the exercise line system can be utilized.
However, compared to a unit fixed without a base by simultaneously using an L-shaped base (19 g) that can be fixed with a fixture on the installation surface and fixing the common support or height adjustment fixing part to the upright surface. It is possible to provide a drag force against a higher tensile force to the exercise line that is locked and arranged, and it is possible to perform line sports with a large load. It is also possible to prevent it from coming off.
The upright surface is a side surface or a wall on all sides that is close to the installation surface so as to be directly connected to the installation surface, and includes a door. However, the upright surface is not always a completely vertical surface, and a wall surface with an inclination of about ± 5 degrees is also included in the upright surface. For example, a wall with an inclination of about ± 5 degrees, such as that used in wall climbing competitions and bouldering, is also included. However, in the case of an upright surface with an inclination, an L-shaped base (19 g) that is a right angle may not be usable. Therefore, for an upright surface with an inclination, an inclined L-shaped base having the same inclination angle as the inclination is required. The upright surface and the installation surface are not limited to the surfaces that are completely directly connected to each other, and there may be a gap or groove of about 5 to 10 cm between the upright surface and the installation surface, or a protrusion in which blocks are arranged.
FIG. 41 (a) shows a rod-shaped member support holding type unit using an individually usable common support (10 g) or a height adjusting fixing body (15) fixed to a wall surface to be an upright surface by a second fixing means. It is a front view (a) which installed.
In the case of the rod-shaped member strut sandwiching type unit, since the height adjusting fixing portion is fixed by the second fixing means from the lateral direction, the height adjusting fixing unit (15) is still provided with the strut body (10f). It is desirable to use a common strut (10 g) or a reinforced height adjustment fixed body (15 c) with thickness.
Not only the bolts and screws that are the second fixing means, but also the connecting metal fittings and other adhesives, on the wall that becomes the upright surface (26) close to the installation surface of the room or gymnasium, or on the upright door. The height adjustment fixing body (15) can be attached as a substitute for the support of the rod-shaped member support support sandwiching type unit (2a) by using a second fixing means including fixing with an adhesive tape or a magnet. There is.
The common strut (10 g) that can be used individually or the height adjustment fixing body (15) that can be used individually can be attached to the surface of the upright surface (26) or embedded in the upright surface. When embedding, a gap is provided so that the rod-shaped member does not rub against the upright surface and friction does not occur, and the rod-shaped member is embedded and fixed so that it can be attached.
Since the rod-shaped member strut sandwiching type unit is fixed so that the rod-shaped member is sandwiched between the columns, a reinforced height adjustment fixing body (15c) having the same width and thickness as the rod-shaped member is used on an upright surface. It is fixed. It is fixed from both end faces of the rod-shaped member so as to be sandwiched between the reinforced height adjusting fixing parts (15c) fixed by the second fixing means.
The reinforced height adjustment fixed body (15c) is classified into a round concave type and a rail type. In the case of a round concave, it becomes a round concave that becomes a through hole. Screw the rod-shaped member end face bolt holes (9e) provided on both end faces of the rod-shaped member through a common bolt that engages from the outer round recess of the reinforced height adjustment fixing body (15c), and fix both both ends. ..
In the case of the rail type, the height adjustment slide portion (17b) or the like is inserted from the slide inlet having substantially the same shape as the slide locking portion inlet (6i) provided on the upper part of the reinforced height adjustment fixed portion (15c). And attach it.
A rod-shaped member is attached to the reinforced height adjusting fixed body (15c) fixed to the upright surface (26), and the exercise line can be arranged toward the exercise line locking unit arranged.
Further, by attaching the height adjusting fixing part (15) to both the upright surface (26) and the upright surface (26) facing each other, and attaching at least one rod-shaped member together, the upright surface (26) and the upright surface (26) and the upright surface (26) are attached. During 26), it is possible to arrange the desired number of exercise lines at the desired height, at the desired interval and angle, while changing the arrangement program provided in various forms. Become.
It is also possible to fix a common strut (10 g) that can be used individually to the upright surface (26) close to the installation surface by using the second fixing means.
In FIG. 41 (b), the rail height adjusting fixing body (15b) of the height adjusting fixing body (15) is fixed to the upright surface close to the installation surface by using the second fixing means, and the rod-shaped member columns intersect. It is a front view which attached the rod-shaped member so that it becomes a mold unit.
When the reinforced height adjusting fixed body (15c) is used, the second fixing means is embedded so that not only the upright surface but also the upright surface and the reinforced height adjusting fixed body (15c) are embedded so as to be close to a flat surface. There is also a method of fixing by. It is desirable that the surface of the reinforced height adjustment fixing body (15c) is fixed so as to protrude from the upright surface by about 5 mm without causing friction due to contact between the rod-shaped member and the upright surface.
Even in a space-saving room where the space for installing the base of the support required to increase stability is small, the common support (10g) or height adjustment fixing part (15c) is fixed directly to the interior wall that is an upright surface. By doing so, the exercise line locking unit can be installed without a base, and by arranging the exercise line locking unit that does not require a base on the facing wall and locking the exercise line, the exercise line can be installed. Line sports using elastic exercise lines such as rubber and exercise lines using laser beams, which have less load, can be performed even in a moving container, indoors with a space of about 6 tatami mats. In this case, each floor of the container and the room-like shape of about 6 tatami mats becomes the installation surface (25), and the wall surface including the doors surrounding all four sides becomes the upright surface (26).
However, when performing line sports in which the tension and attraction are high, it may be necessary to use a support or an L-shaped base (19 g) that fits the height adjusting fixed body (15) at the same time.
The height adjusting fixing body (15) can be fixed not only on an upright surface and an installation surface but also on a ceiling surface having a height of 4 m or more or so as to be embedded. It is also possible to hang it from the ceiling using an iron frame, attach a rod-shaped member to it, and attach an exercise line unit.

42 (a) is a top view in which a common rod-shaped member (3h) or a locking portion (6e) that can be individually used on the installation surface (25) is fixed by a second fixing means, and FIG. 42 (b) is a moving top view. The figure in which the common rod-shaped member or the locking part is fixed to the upright surface, the installation surface, and the ceiling surface of the container, (c) shows the height adjustment fixing part and the locking part on the upright surface, the installation surface, and the ceiling surface of the moving container. It is a figure which shows the embodiment of the figure which fixed the body.
The ceiling surface located above the installation surface may have a gap at the boundary with the upright surface.
FIG. 42A is a top view in which the locking portion (6e) that can be used individually is fixed to the installation surface (25) by the second fixing means, and the locking portion is fixed to the installation surface. ing. The installation surface (25) to which the locking portion is fixed is mainly indoors, and includes not only a gymnasium, a sports gym room, etc., but also a space narrower than a normal sports gym room, etc. It also includes the inside of a movable container where an exercise line locking system can be installed and a small room of about 6 tatami mats.
The common rod-shaped member (3h) and the locking portion (6e) that can be used individually are the second fixing means having the same fixing method as the common strut or the adjusting fixing portion.
Among the types of locking parts (6e) that can be used individually on the installation surface, fixing the reinforced locking part (6h) including the pedestal under the locking part includes the reinforcing part by the pedestal. This is desirable. The surface of the reinforced locking portion (6h), which is the upper surface of the locking portion, is mounted so as to be embedded under the installation surface by the second fixing means so that the surface which is the upper surface of the locking portion is substantially horizontal to the installation surface which is the floor surface of the room and the unevenness is reduced. ing.
The method of fixing these installation surfaces is that the surface, which is the upper surface of the locking portion, is embedded in a recess provided so as to be substantially the same height as the installation surface, and is fixed with a fixing material such as a fixture or an adhesive. It is fixed to the installation surface with a fixing material such as a fixture or adhesive, and the locking part protrudes from the floor surface. Further, it is conceivable that the locking portion protrudes from the floor surface and can be moved in a state of being temporarily fixed to the installation surface or standing still.
When mounting on the floor, it is conceivable to attach the round concave locking part (6f) and rail locking part (6g) to the floor surface as they are with fixtures such as screws and bolts, but the disadvantage is that they are above the floor. In addition, the locking body (6e) may pop out and the athlete may stumble. In the case of fixing the rod-shaped member in FIG. 36 (b) so as to bridge over the installation, the rod-shaped member is similarly fixed so as to protrude on the installation surface, and the athlete may stumble.
To solve this problem, the installation surface (25) is provided with a hole or recess having substantially the same width, overall length, and depth as the locking portion (6e), and the locking portion (6e) is located on the installation surface (25). It is possible to reduce the possibility of stumbling by fixing with a second fixing means so as to embed it so that it does not protrude upward or a dent is not formed under the installation surface (25). In particular, in order to embed a plate-shaped thick reinforced locking part (6h), a round concave locking part made of a thin plate-shaped light metal of about 3 to 5 mm has an embedding area, thickness, and strength. It is considered that (6f) is more suitable than the rail locking part (6g) in the locking part (6e) in terms of strength and ease of embedding. The locking portion of the reinforced locking portion (6h) is provided with a round concave, concave or convex rail type.
The reinforced locking parts (6h) and the like embedded below the floor surface are merely examples, but they are in a state of being fixed in parallel at intervals of 50 cm in advance, and these reinforced locking parts (6h). It is bridged and fixed to the upper part of the exercise line locking unit (2) so that the locking portion of the common rod-shaped member (3h) is located substantially vertically above the above. Similarly, the reinforced locking portion (6h), which is fixed to the floor surface by a second fixing means such as a fixture or an adhesive and the locking portion protrudes from the floor surface, is also the locking portion (6e) substantially vertically upward. ), The common rod-shaped member (3h) is bridged above the exercise line locking unit (2) and can be fixed. It is possible to fix the common rod-shaped member (3h) at an angle such as diagonally as well as the bridge fixing which is parallel to the substantially vertical upper part.
Although not shown, the exercise line locking system can be achieved by combining various exercise lines arranged in the vertical direction and various exercise lines arranged in several stages in the horizontal direction at the same time. Furthermore, since it is possible to arrange exercise lines having various angles in three dimensions, it is possible to perform line sports that require various movements.
The locking portion attached to the floor surface can be completely or partially covered with a plate-shaped or sheet-shaped flexible cover or the like.
FIG. 42 (b) shows the second fixing means on the wall to be the upright surface (26), the wall on all four sides including the door, the ceiling surface, and the installation surface to be the floor surface in the room of the container which is also movable. The locking parts (6e) that can be used individually are fixed by using fixing means including bolts and screws, connecting metal fittings, adhesives, double-sided tape, and magnets.
An exercise line is arranged on the locking portion (6e) fixed to the installation surface which is the upright surface, the ceiling surface, and the floor surface, so that line sports can be performed. In the exercise line locking system, the ceiling surface also becomes the installation surface (25) and can be used.
The surface to which the locking portion can be fixed includes an installation surface (25), a ceiling surface (29), and four side surfaces including an upright surface (26) such as a wall and a door. The surface that can be fixed is mainly indoors, and in addition to gymnasiums, sports gym rooms, etc., movable containers and narrow rooms of about 6 tatami mats can also be installed with an exercise line locking system.
Installing a plurality of exercise line locking units including columns (10) that require a base in a container or in a narrow space room of about 4 to 6 tatami mats will greatly reduce the exercise space.
Therefore, by directly attaching the locking part to the upright surface, ceiling surface, or installation surface, the locking part (6e) is fixed on all sides including the top and bottom of the room so that it can be effectively used even in a narrow space and line sports can be performed. It is a thing. However, when the locking portion (6e) is fixed to the locking portion (6e) by the second fixing means, it has various angles on all four sides including the wall and the door which are the upright surfaces (26) and the installation surface which is the ceiling surface and the floor surface. However, since the locking part is fixed including the vertical, horizontal, and oblique angles, it is difficult to move from the fixed position.
The locking portion body (6e) has a plurality of locking portions, and can lock a plurality of exercise lines. A method of using a plurality of rows of series-locked locking portions as a locking portion as in the flat plate type rod-shaped member (3i) is conceivable, but it is difficult to change the positions of the plurality of exercise lines locked at the same time. ..
The locking body (6e) can also be fixed to the upright surface, installation surface, and ceiling surface above the installation surface, where sufficient space for line sports such as gymnasiums, sports gyms, and training houses can be secured. There are various building regulations for the wall surface and ceiling surface, and there are some surfaces where the locking unit (6e) including the height-adjusting fixing unit (15) is restricted or the fixing itself is prohibited.
The moving container shown in the figure is made of metal such as iron on all four sides of the ceiling, floor, and wall, and using these surfaces, a locking body (6e) is attached to all surfaces for exercise. When arranging the line, the support force that can support at least the weight of the athlete even if the exercise line is applied is provided by the moving container in which the locking body (6e) is fixed. It will have a ceiling surface, floor, and walls.
Lightweight round concave locking parts (6f) and rail locking parts (6g) are placed on the upright surface (26) and ceiling surface (29) including the door of this container from the surface by the screws of the second fixing means. It is fixed. A hole having substantially the same size as the reinforced locking body (6h) is provided on the installation surface (25) serving as the floor of the container, and is fixed by the adhesive of the second fixing means so as to be embedded in the hole. ..
By locking and arranging various exercise lines on these locking portions at arbitrary positions, a rod-shaped member body having a locking portion and a support column that requires a base for supporting the rod-shaped members. By eliminating the need, it becomes possible to effectively perform exercise line sports even in a narrow space.
In this figure, since the ceiling, floor, and walls are all made of iron, a locking body that can lock various exercise lines is attached, but an upright surface in a gymnasium, indoor sports gym, etc. There are various types of walls, such as walls where the locking part (6e) cannot be fixed, walls where the position where the locking part (6e) can be fixed is limited, and for exercise used because the bearing capacity of the exercise line is low. There are also walls where the types of lines are limited.
Unfixable upright surfaces are bearing walls, gypsum board-only walls, veneer / plywood walls of 12 mm or less, and walls with limited fixable positions are walls with columns arranged at equal intervals and studs. It is fixed to these columns and studs by a second fixing means.
In addition, although the types of exercise lines are limited, locking parts are used for reinforced walls that are reinforced to withstand the screwing of heavy objects, veneer / plywood walls with a thickness of at least 12 mm, or walls with lightweight steel frames. (6e) can be fixed.
By using concrete anchors, which are the second fixing means, on the concrete wall, it is possible to fix the locking part (6e) and the reinforced locking part (6h) that can lock various exercise lines. ..
It may be necessary to consider in fixing the locking portion (6e) to the ceiling surface (29) by the second fixing means. It is a specific ceiling surface that may cause serious harm if it falls off.
The specific ceiling surface is a suspended ceiling surface (the straight ceiling surface does not correspond to the specific ceiling surface), the height of the ceiling surface is more than 6 m, the horizontal projection area is more than 200 square meters, and the mass is 2 kg / square meter. A specific ceiling surface is a ceiling surface that is super and is installed in a place where people use it on a daily basis and satisfies all of these conditions.
In the exercise line locking system, all ceiling surfaces that meet these conditions and are designated as specific ceiling surfaces are excluded from the ceiling surfaces that can be used in the exercise line locking system.
In the exercise line locking system, the ceiling surface that allows the locking part to be fixed has a structural material that forms the framework of the building on the ceiling surface itself, and is directly attached to this structural material or made of iron or other metal such as a container. The ceiling surface hanging bracket is firmly fixed to the ceiling surface, which is an integrated structure made of steel, or from the ceiling surface of an iron integrated structure such as a structural material or a container, and is reinforced with a bolt fixture to this ceiling surface hanging bracket. A ceiling surface on which the locking portion (6h) can be fixed, and an object having a mass of at least 200 kg can be hung from the locking portion fixed to the ceiling surface using an exercise line. It is a reinforced locking body fixed to the ceiling surface.
The reinforced locking portion (6h) is fixed by at least two ceiling surface hanging metal fittings, but it is also possible to fix a rod-shaped member (3) that can be used individually. The exercise line is locked and arranged downward from the locking portion of the suspended rod-shaped member. Rather than fixing the hanging rod-shaped member alone, connect it in a square shape with four rod-shaped members, and hang and fix the square-shaped member with at least four iron bars or the like on the ceiling surface substantially horizontally. It is thought that the stability will also increase.
However, as an exception, in order to stretch the ceiling surface plate, locking parts (6e) are placed at multiple locations on a long and narrow crossbar called a field edge, which is hung from a hut beam by a hanging tree, etc., from the surface of the ceiling surface plate with fixing screws. A laser oscillator (21k) or a receiver (including a reflector) (including a reflector), for example, a laser light motion line (21j) that is fixed to the field edge and does not place any load on the locked motion line. If the mass including 21 liters) and ceiling surface material is 2 kg / square meter or less, and there is no problem with the laser oscillator (21 k) or receiver (including reflector) (21 liters) based on the Building Standards Act, the frame of the building In some cases, the locking part can be fixed to the ceiling surface without being directly fixed to the structural material.
When a laser oscillating device (21k) that oscillates a laser light motion line (21j) that is laser light is attached to a rod-shaped member or a locking part located above, the locking part (6e) on the floor surface or A laser light receiver (21k) or a reflector (21l) needs to be attached to the common rod-shaped member (3h). In this case, the reflector (21l) is fixed to the upper part of the locking part (6e), the surface thereof is covered with a material that allows laser light to pass through, embedded in the installation surface, and the laser oscillator (21k) is above. ) And the laser light receiver (21k) are integrated into one device.
The locking body (6e) fixed on all four sides including the wall and door that will be the upright surface (26) does not have the function of adjusting the height of the exercise line arranged on the upright surface. It becomes.
FIG. 42 (c) is a diagram showing an embodiment in which the height-adjusting fixed portion is fixed to the upright surface of the moving container and the locking portion is fixed to the installation surface and the ceiling surface, and the container or the like which is also movable. In the room, the height adjustment fixed part (15) is attached to the wall that becomes the upright surface (26) and the wall on all four sides including the door, and the locking part (6e) is attached to the installation surface that is the ceiling surface and the floor surface. With the height adjustment fixing body (15), which can be used individually by using a fixing means including bolts, screws, adhesives, double-sided tapes, magnets, etc., which are both second fixing means. The locking portion (6e) is fixed. It is possible to perform line sports by arranging exercise lines on the rod-shaped member (3) attached to the height adjusting fixed body (15) and the locking body (6e) on the ceiling surface and the installation surface. It becomes.
The height adjusting fixed body (15) and the locking body (6e) are used to effectively arrange the exercise line even in a narrow space. Along with the reinforced locking body (6h), a reinforced height adjusting fixed body (15c) having increased strength is also prepared.
When performing line sports where the tension is high, it is desirable to use the support (10) and common support, and to use the support or the L-shaped base (19 g) that fits the height adjustment fixed body (15) at the same time. ..
The four sides including the wall and door, which are the upright surfaces (26) to which the height adjustment fixed body (15) is fixed, are mainly indoors, and are used in gymnasiums, sports gyms, etc., as well as exercise line locking systems. It also includes the inside of a container that can be installed and is also movable, and a small room of about 6 tatami mats.
In this figure, since all the walls including the door are iron containers, height adjustment fixing parts (15) with rod-shaped members fixed are attached in various places, but in indoors such as gymnasiums and indoor sports gyms. There are various types of upright surfaces, such as walls where the height adjustment fixing body (15) cannot be fixed, walls where the height adjustment fixing body (15) can be fixed in a limited position, and height adjustment fixing body (15). There are some walls where the types of exercise lines used are limited due to the low bearing capacity of 15).
Unfixable upright surfaces are bearing walls, gypsum board-only walls, veneer / plywood walls of 12 mm or less, and walls with limited fixable positions are walls with columns arranged at equal intervals and studs. It is fixed to these columns and studs by a second fixing means.
In addition, height adjustment and fixing are limited to the types of exercise lines for reinforced walls that are reinforced to withstand the screwing of heavy objects, veneer / plywood walls with a thickness of at least 12 mm, or walls with lightweight steel frames. The body (15) can be fixed.
By using concrete anchors, which are the second fixing means, on the concrete wall, height adjustment fixing body (15) that allows various exercise lines to be locked to the rod-shaped member to be attached, reinforced height adjustment fixing The body (15c) can be fixed.
By using the locking part (6e) and the height adjusting fixed part (15) in combination with the upright surface and the ceiling surface above the installation surface, various types such as upright, horizontal, parallel, diagonal, and up and down can be used. An exercise line can be placed at the position.
It is also possible to use all the exercise lines (21) arranged from the four sides, the sky, and the floor as the laser light exercise lines (21j).
It is also possible to arrange the height and width of each line at about 10 cm, although this is an example. In the case of the laser light motion line (21j) directed vertically downward from the ceiling surface portion on the upper surface, a reflector or a receiver is also required on the floor surface.
A laser oscillator (21k) and a vibration receiver or reflector (21l) that oscillate and receive each laser light motion line (21j) arranged at about 10 cm in height and width of this line. ) Are provided with different signal oscillation functions and switch functions such as on and off, and compete on the laser light motion line (21j) consisting of infrared rays, ultrasonic waves, visible light, etc., similar to the structure of the motion sensor device. When the person's body touches and senses the temperature difference, or when the infrared beam is blocked, the sensor reacts and the switch is turned on and off.
By providing a function to store the position, time, angle, speed, etc. of touching the line as electronic data in a storage medium or the like, the line (21j) for laser light movement of another athlete performing the same operation is touched. It is also conceivable to provide a function to compare the differences with the position, time, angle, speed, etc. as data and clarify the differences.
In addition, the transmission sound function provided in each laser light exercise line (21j) is also used to compare with the athlete and the stored data such as the position, time, angle, speed, etc. when the athlete touches each line. While exercising, the difference between exercise and movement can be seen on the spot in real time, which is almost the same as the movement, such as sound using speakers, images such as screens and monitors, or stimulators attached to the body. An exercise line locking system having a function that enables comparison while including visual, auditory, and sensations caused by irritation to the skin is also conceivable.

The exercise line locking system provides multiple different exercise lines, at different heights, for different people, from infants to the elderly, and top athletes, in different locations, indoors and outdoors. It is an unprecedented line system for exercise that can be used in various sizes and can be enjoyed in various ways such as exercise, dance, and leisure.
Manufacture of rod-shaped members and struts, rubber, belt-shaped lines, poles made of metal or synthetic resin, and exercise lines including laser beams will be manufactured in specialized industries. In addition, exercises performed using this exercise line locking system also include unprecedented exercise methods, and in order to establish this, each sports representative player, etc. creates and sells a textbook CD. In addition, it is necessary to establish an association to spread exercise line sports, and create an organization that allows athletes who are active or retired in various fields to earn employment and unearned income, both domestically and overseas. , It is considered that it can be used as a new sports business.
This exercise line locking system is also very effective for elderly people to improve their sense of balance and core. Many elderly people have been forced to live in wheelchairs since they fell, but by performing balance training with this exercise line locking system, it is possible to greatly prevent the possibility of falling.
In the future, based on this system, it will be possible to develop exercise methods and enjoyment methods, and to develop an exercise line training method software development business. The system can also use poles and pole insertion holes for volleyball, tennis, etc., but these sizes are also universal. It will be possible to spread this system equipment and exercise method not only in Japan but also in the world.

1 Exercise line locking system 2 Exercise line locking unit 2a Rod-shaped member strut sandwiching type unit 2b Rod-shaped member strut crossing type unit 2c Second exercise line locking unit 3 Rod-shaped member 3a Cylindrical rod-shaped member 3b Square rod-shaped member 3c Pentagonal rod-shaped member 3d Hexagonal rod-shaped member 3e Octagonal rod-shaped member 3f Gamo-shaped rod-shaped member 3g Cavity-free rod-shaped member 3h Common rod-shaped member 3i Flat plate-shaped rod-shaped member 3j Curved rod-shaped member 3k System truss rod-shaped member 4 Extension fixed-type rod-shaped member 4a Outer rod-shaped member Member 4b Inner rod-shaped member 4c Outer diameter screw type fastener 4d Gap cap 5 Rod-shaped member body 6 Locking part 6a Round concave locking part 6b Fixed side concave rail locking part 6c Fixed side convex rail locking part 6d Square concave type Locking part 6e Locking part 6f Round concave locking part 6g Rail locking part 6h Reinforced locking part 6i Slide locking part receiving port 7 Slide locking part 7a Concave slide locking part 7b Convex slide Stop 7c Slide lock connection hole 7d Lock type slide lock 7e Rail slide stopper 7f Slide bolt lock 8 Lock connection 8a L-shaped screw lock Lock connection 8b U-shaped screw lock Part connection tool 8c U-shaped screw lock part connection tool 8d Ring screw lock part connection tool 8e Hook type screw type lock part connection tool 8f Can type screw type lock part connection tool 8g Buckle type belt type locking part connection tool 8h Variable angle locking part connector 8h Common screw hole 8i Common screw / screw 8j Common bolt 8k Common nut 8l Elastic material locking part connection tool 9 Rod-shaped member side strut fixing part 9a Rod-shaped member side strut round concave single fixing part 9b Square concave single fixing part for rod-shaped member side strut 9c Round concave double fixing part for rod-shaped member side strut 9d Rod-shaped member end face cap 9e Rod-shaped member end face bolt hole 9f Rod-shaped member side strut rail fixing part 9g Rod-shaped member side strut length Square concave double fixing part 10 struts 10a Cylindrical struts 10b Polygonal struts 10c Gamo type struts 10d Stepped struts 10f struts 10g Common struts 10e System truss struts 11 Extension fixed struts 11a Outer struts 11b Inner struts 11c Strut diameter screw type tightening Attachment 12 Strut-side locking portion 12a Strut-side round concave locking portion 12b Strut-side concave rail locking portion 12c Strut-side tubular slide locking portion 13 Strut-side rod-shaped member fixing portion 13a Strut-side rod-shaped member round-concave single fixing portion 13b Strut side rod-shaped member Square concave single fixing part 13c Baking welding fixing part 14 Height adjustment fixing part
14a Height adjustment round concave double fixing part 14b Height adjustment double angle concave double fixing part 14c Height adjustment rail fixing part 15 Height adjustment fixing part body 15a Round concave height adjustment fixing part body 15b Rail height adjustment fixing part body 15c Reinforced height adjustment fixing part 16 Supporting rod side rod-shaped member fixing part Fixing tool 16a Supporting side rod-shaped member Round concave fixing part Bolt type fixing tool 16b Supporting side rod-shaped member Square concave fixing part Bolt type fixing tool 16c T-shaped orthogonal Fixing tool for mold round concave fixing part 16d Strut side rod-shaped member Chain type fixing tool for round concave fixing part 17 Slide part for rail 17a Vertical movement support shaft swivel slide Rail fixing tool 17b Height adjustment slide part 17c Lock type height adjustment slide 17d Sliding part for rod-shaped member side strut 17e Lock type Sliding part for rod-shaped member side strut 17f Vertical / horizontal right-angled slide part 17g Lock type vertical / horizontal right-angled slide part 17h Vertical / horizontal rotation Sliding part 17i Lock type vertical / horizontal rotation Dynamic slide part 17j Fixture base 17k Rod-shaped member insertion tubular body 17l Fixture fulcrum 17m Height adjustment slide bolt 17n Height adjustment slide bolt Long 17o Slide nut 17p Welding point 18 Clamp type unit Fixture 18a Single type clamp type with bolt Unit fixture 18b Fitting type T-shaped orthogonal clamp type unit fixture with tightening screw 18c Orthogonal clamp type unit fixture 18d Clamp support side fixing part 18e Clamp rod-shaped member side fixing part 18f Flexible clamp type unit fixture 18g Clamp turning Dynamic shaft 19 Support base 19a Flat base 19b Straight rod type base 19c Three-point support base 19d Four-point support base 19e Anchor type base 19f Base / upper connection common bolt hole 19g L-shaped base 19h Pole insertion hole Engagement base 19i Pole insertion hole engaging part 20 Rod-shaped member connecting means 20a Cylindrical connecting tool 20b Cono-shaped connecting tool 20c L-shaped tubular body connecting tool 20d Two-sided L-shaped connecting tool 20e Approximately 6 to 10 mm Cylinder with bolt Shape type connector 20f Pillar material angle L joint hardware 20g Right angle crossing connection metal fittings 21 Exercise line 21a Fine rubber cord 21b Rubber belt 21c Low elasticity thin line 21d Fine cord 21e Rope-shaped thick cord 21f Tie-crossing line 21g Ladder type belt line 21h mesh Type Belt line 21i Pole type line 21j Laser light motion line 21k Laser oscillator 21l Receiver (including reflector)
21m power cord 21n sheets (cloth)
22 Tubular cylinder 22a Sports pole (volleyball, tennis, badminton)
22b Sports pole connection fixture 23 Sports pole insertion hole 23a Pole receiving port 23b Tubular tubular hole 23c Lid 24 Grip fixing means tool 24a U-shaped grip tool 24b Stainless band type grip tool 24c Grip part 24d Rectangular elliptical hole 25 Installation surface (competition) scene)
26 Wall surface (upright surface)
27 Height maintenance stand 28 Mobile container, narrow space room, etc. 29 Ceiling surface (horizontal plane)
30 Inclined arrangement 31 Vertical arrangement

41 is a top view in which a common rod-shaped member (3h) or a locking portion (6e) that can be individually used on the installation surface (25) is fixed by a second fixing means , and FIG. 41 is a moving top view. It is a figure which shows the embodiment of the figure which fixed the common rod-shaped member or the locking part to the upright surface, the installation surface, and the ceiling surface of a container.
The ceiling surface located above the installation surface may have a gap at the boundary with the upright surface.
FIG. 41 (a) is a top view in which the locking portion (6e) that can be used individually is fixed to the installation surface (25) by the second fixing means, and the locking portion is fixed to the installation surface. ing. The installation surface (25) to which the locking portion is fixed is mainly indoors, and includes not only a gymnasium, a sports gym room, etc., but also a space narrower than a normal sports gym room, etc. It also includes the inside of a movable container where an exercise line locking system can be installed and a small room of about 6 tatami mats.
The common rod-shaped member (3h) and the neglected stage (6e) that can be used individually are the second fixing means having the same fixing method as the common support or the adjustment fixing stage.
Among the types of locking parts (6e) that can be used individually on the installation surface, fixing the reinforced locking part (6h) including the pedestal under the locking part includes the reinforcing part by the pedestal. This is desirable. The surface of the reinforced locking portion (6h), which is the upper surface of the locking portion, is mounted so as to be embedded under the installation surface by the second fixing means so that the surface which is the upper surface of the locking portion is substantially horizontal to the installation surface which is the floor surface of the room and the unevenness is reduced. ing.
The method of fixing these installation surfaces is that the surface, which is the upper surface of the locking portion, is embedded in a recess provided so as to be approximately the same height as the installation surface, and is fixed with a fixing material such as a fixture or an adhesive. It is fixed to the installation surface with a fixing material such as a fixture or adhesive, and the locking part protrudes from the floor surface. Further, it is conceivable that the locking portion protrudes from the floor surface and can be moved in a state of being temporarily fixed to the installation surface or standing still.
When mounting on the floor, it is conceivable to attach the round concave locking part (6f) and rail locking part (6g) to the floor surface as they are with fixtures such as screws and bolts, but the disadvantage is that they are above the floor. In addition, the locking body (6e) may pop out and the athlete may stumble. When the rod-shaped member shown in FIG. 36 (b) was fixed so as to be bridged on the installation surface, the rod-shaped member was similarly fixed so as to protrude on the installation surface, and the athlete could stumble.
To solve this problem, the installation surface (25) is provided with a hole or recess having substantially the same width, overall length, and depth as the locking portion (6e), and the locking portion (6e) is located on the installation surface (25). It is possible to reduce the possibility of stumbling by fixing with a second fixing means so as to embed it so that it does not protrude upward or a dent is not formed under the installation surface (25). In particular, in order to embed a plate-shaped thick reinforced locking part (6h), a round concave locking part made of a thin plate-shaped light metal of about 3 to 5 mm has an embedding area, thickness, and strength. It is considered that (6f) is more suitable than the rail locking part (6g) in the locking part (6e) in terms of strength and ease of embedding. The locking portion of the reinforced locking portion (6h) is provided with a round concave, concave or convex rail type.
The reinforced locking parts (6h) and the like embedded below the floor surface are merely examples, but they are in a state of being fixed in parallel at intervals of 50 cm in advance, and these reinforced locking parts (6h). It is bridged and fixed to the upper part of the exercise line locking unit (2) so that the locking portion of the common rod-shaped member (3h) is located substantially vertically above the above. Similarly, the reinforced locking portion (6h), which is fixed to the floor surface by a second fixing means such as a fixture or an adhesive and the locking portion protrudes from the floor surface, is also the locking portion (6e) substantially vertically upward. ), The common rod-shaped member (3h) is bridged above the exercise line locking unit (2) and can be fixed. It is possible to fix the common rod-shaped member (3h) at an angle such as diagonally as well as the bridge fixing which is parallel to the substantially vertical upper part.
Although not shown, the exercise line locking system can be achieved by combining various exercise lines arranged in the vertical direction and various exercise lines arranged in several stages in the horizontal direction at the same time. Furthermore, since it is possible to arrange exercise lines having various angles in three dimensions, it is possible to perform line sports that require various movements.
The locking portion attached to the floor surface can be completely or partially covered with a plate-shaped or sheet-shaped flexible cover or the like.
FIG. 41 (b) shows the second fixing means on the wall to be the upright surface (26), the wall on all four sides including the door, the ceiling surface, and the installation surface to be the floor surface in the room of the container which is also movable. The locking parts (6e) that can be used individually are fixed by using fixing means including bolts and screws, connecting metal fittings, adhesives, double-sided tape, and magnets.
An exercise line is arranged on the locking portion (6e) fixed to the installation surface which is the upright surface, the ceiling surface, and the floor surface, so that line sports can be performed. In the exercise line locking system, the ceiling surface also becomes the installation surface (25) and can be used.
The surface to which the locking portion can be fixed includes an installation surface (25), a ceiling surface (29), and four side surfaces including an upright surface (26) such as a wall and a door. The surface that can be fixed is mainly indoors, and in addition to gymnasiums, sports gym rooms, etc., movable containers and narrow rooms of about 6 tatami mats can also be installed with an exercise line locking system.
Installing a plurality of exercise line locking units including columns (10) that require a base in a container or in a narrow space room of about 4 to 6 tatami mats will greatly reduce the exercise space.
Therefore, by directly attaching the locking part to the upright surface, ceiling surface, or installation surface, the locking part (6e) is fixed on all sides including the top and bottom of the room so that it can be effectively used even in a narrow space and line sports can be performed. It is a thing. However, when the locking portion (6e) is fixed to the locking portion (6e) by the second fixing means, it has various angles on all four sides including the wall and the door which are the upright surfaces (26) and the installation surface which is the ceiling surface and the floor surface. However, since the locking part is fixed including the vertical, horizontal, and oblique angles, it is difficult to move from the fixed position.
The locking portion body (6e) has a plurality of locking portions, and can lock a plurality of exercise lines. A method of using a plurality of rows of series-locked locking portions as a locking portion as in the flat plate type rod-shaped member (3i) is conceivable, but it is difficult to change the positions of the plurality of exercise lines locked at the same time. ..
The locking body (6e) can also be fixed to the upright surface, installation surface, and ceiling surface above the installation surface, where sufficient space for line sports such as gymnasiums, sports gyms, and training houses can be secured. There are various building regulations for the wall surface and ceiling surface, and there are some surfaces where the locking unit (6e) including the height-adjusting fixing unit (15) is restricted or the fixing itself is prohibited.
The moving container shown in the figure is made of metal such as iron on all four sides of the ceiling, floor, and wall, and using these surfaces, a locking body (6e) is attached to all surfaces for exercise. When arranging the line, the support force that can support at least the weight of the athlete even if the exercise line is applied is provided by the moving container in which the locking body (6e) is fixed. It will have a ceiling surface, floor, and walls.
Lightweight round concave locking parts (6f) and rail locking parts (6g) are placed on the upright surface (26) and ceiling surface (29) including the door of this container from the surface by the screws of the second fixing means. It is fixed. A hole having substantially the same size as the reinforced locking body (6h) is provided on the installation surface (25) serving as the floor of the container, and is fixed by the adhesive of the second fixing means so as to be embedded in the hole. ..
By locking and arranging various exercise lines on these locking portions at arbitrary positions, a rod-shaped member body having a locking portion and a support column that requires a base for supporting the rod-shaped members. By eliminating the need, it becomes possible to effectively perform exercise line sports even in a narrow space.
In this figure, since the ceiling, floor, and walls are all made of iron, a locking body that can lock various exercise lines is attached, but an upright surface in a gymnasium, indoor sports gym, etc. There are various types of walls, such as walls where the locking part (6e) cannot be fixed, walls where the position where the locking part (6e) can be fixed is limited, and for exercise used because the bearing capacity of the exercise line is low. There are also walls where the types of lines are limited.
Unfixable upright surfaces are bearing walls, gypsum board-only walls, veneer / plywood walls of 12 mm or less, and walls with limited fixable positions are walls with columns arranged at equal intervals and studs. It is fixed to these columns and studs by a second fixing means.
In addition, although the types of exercise lines are limited, locking parts are used for reinforced walls that are reinforced to withstand the screwing of heavy objects, veneer / plywood walls with a thickness of at least 12 mm, or walls with lightweight steel frames. (6e) can be fixed.
By using concrete anchors, which are the second fixing means, on the concrete wall, it is possible to fix the locking part (6e) and the reinforced locking part (6h) that can lock various exercise lines. ..
It may be necessary to consider in fixing the locking portion (6e) to the ceiling surface (29) by the second fixing means. It is a specific ceiling surface that may cause serious harm if it falls off.
The specific ceiling surface is a suspended ceiling surface (the straight ceiling surface does not correspond to the specific ceiling surface), the height of the ceiling surface is more than 6 m, the horizontal projection area is more than 200 square meters, and the mass is 2 kg / square meter. A specific ceiling surface is a ceiling surface that is super and is installed in a place where people use it on a daily basis and satisfies all of these conditions.
In the exercise line locking system, all ceiling surfaces that are specified ceiling surfaces that meet these conditions are excluded from the ceiling surfaces that can be used in the exercise line locking system.
In the exercise line locking system, the ceiling surface that allows the locking part to be fixed has a structural material that forms the framework of the building on the ceiling surface itself, and is directly attached to this structural material or made of iron or other metal such as a container. The ceiling surface hanging bracket is firmly fixed to the ceiling surface, which is an integrated structure made of steel, or from the ceiling surface of an iron integrated structure such as a structural material or a container, and is reinforced with a bolt fixture to this ceiling surface hanging bracket. A ceiling surface on which the locking portion (6h) can be fixed, and an object having a mass of at least 200 kg can be hung from the locking portion fixed to the ceiling surface using an exercise line. It is a reinforced locking body fixed to the ceiling surface.
The reinforced locking portion (6h) is fixed by at least two ceiling surface hanging metal fittings, but it is also possible to fix a rod-shaped member (3) that can be used individually. The exercise line is locked and arranged downward from the locking portion of the suspended rod-shaped member. Rather than fixing the hanging rod-shaped member alone, connect it in a square shape with four rod-shaped members, and hang and fix the square-shaped member with at least four iron bars or the like on the ceiling surface substantially horizontally. It is thought that the stability will also increase.
However, as an exception, in order to stretch the ceiling surface plate, locking parts (6e) are placed at multiple locations on a long and narrow crossbar called a field edge, which is hung from a hut beam by a hanging tree, etc., from the surface of the ceiling surface plate with fixing screws. A laser oscillator (21k) or a receiver (including a reflector) (including a reflector), for example, a laser light motion line (21j) that is fixed to the field edge and does not place any load on the locked motion line. If the mass including 21 liters) and ceiling surface material is 2 kg / square meter or less, and there is no problem with the laser oscillator (21 k) or receiver (including reflector) (21 liters) based on the Building Standards Act, the frame of the building In some cases, the locking part can be fixed to the ceiling surface without being directly fixed to the structural material.
When a laser oscillating device (21k) that oscillates a laser light motion line (21j) that is laser light is attached to a rod-shaped member or a locking part located above, the locking part (6e) on the floor surface or A laser light receiver (21k) or a reflector (21l) needs to be attached to the common rod-shaped member (3h). In this case, the reflector (21l) is fixed to the upper part of the locking part (6e), the surface thereof is covered with a material that allows laser light to pass through, embedded in the installation surface, and the laser oscillator (21k) is above. ) And the laser light receiver (21k) are integrated into one device.
The locking body (6e) fixed on all four sides including the wall and door that will be the upright surface (26) does not have the function of adjusting the height of the exercise line arranged on the upright surface. It becomes.

In FIG. 42, (a) is an individually usable common support (10 g) fixed to the wall surface or the like which is the upright surface according to claim 12 by a second fixing means, or the height adjustment which can be individually used. The front view of the rod-shaped member strut sandwiching type unit constructed by using the fixed body (15), (b) is the individually usable common strut (10 g) fixed to the upright surface by the second fixing means or the individually usable common strut (10 g). The front view of the rod-shaped member strut crossing type unit constructed by using the usable height adjustment fixing body (15), (c) shows the height adjustment fixing body on the upright surface, the installation surface, and the ceiling surface of the moving container. It is a figure which shows the embodiment of the figure which fixed the locking part body.
A common support column (10 g) that can be used individually or the height adjustment fixing body (15) that can be used individually is fixed to an upright surface (26) adjacent to the object by a second fixing means, and a rod-shaped member is attached and installed. Therefore, the exercise line can be arranged together with the exercise line locking unit (2) arranged on the installation surface.
Further, an upright surface (26) in which a common strut (10 g) that can be used individually or a height adjusting fixing unit (15) that can be used individually is fixed to the upright surface (26) by a second fixing means. By fixing the common strut (10 g) that can be used individually or the height adjustment fixing part (15) that can be used individually on the upright surface facing the body, a rod-shaped member is attached together for exercise. A line locking unit can be configured, and an exercise line can be arranged between the exercise line locking units fixed to the upright surfaces facing each other.
By fixing the common strut (10 g) that can be used individually or the height adjustment fixing part to the wall surface that is an upright surface by the second fixing means, the base for the strut can be omitted, and the space can be locked without narrowing the space. The height of the rod-shaped member provided with the portion can be adjusted to an arbitrary height and fixed. In addition, when the height adjustment fixed body (15) is fixed, the support body is omitted, so not only a general sports gym, which is narrower than a gymnasium, but also a narrow space room of about 6 tatami mats, a transportable container, etc. However, the space is effective and the exercise line locking system is installed so that the exercise line system can be utilized.
However, compared to a unit fixed without a base by simultaneously using an L-shaped base (19 g) that can be fixed with a fixture on the installation surface and fixing the common support or height adjustment fixing part to the upright surface. It is possible to provide a drag force against a higher tensile force to the exercise line that is locked and arranged, and it is possible to perform line sports with a large load. It is also possible to prevent it from coming off.
The upright surface is a side surface or a wall on all sides that is close to the installation surface so as to be directly connected to the installation surface, and includes a door. However, the upright surface is not always a completely vertical surface, and a wall surface with an inclination of about ± 5 degrees is also included in the upright surface. For example, a wall with an inclination of about ± 5 degrees, such as that used in wall climbing competitions and bouldering, is also included. However, in the case of an upright surface with an inclination, an L-shaped base (19 g) that is a right angle may not be usable. Therefore, for an upright surface with an inclination, an inclined L-shaped base having the same inclination angle as the inclination is required. The upright surface and the installation surface are not limited to the surfaces that are completely directly connected to each other, and there may be a gap or groove of about 5 to 10 cm between the upright surface and the installation surface, or a protrusion in which blocks are arranged.
FIG. 42 (a) shows a rod-shaped member strut sandwiching type unit using an individually usable common strut (10 g) or a height adjusting fixing unit (15) fixed to a wall surface to be an upright surface by a second fixing means. It is a front view (a) which installed.
In the case of the rod-shaped member strut sandwiching type unit, since the height adjusting fixing portion is fixed by the second fixing means from the lateral direction, the height adjusting fixing unit (15) is still provided with the strut body (10f). It is desirable to use a common strut (10 g) or a reinforced height adjustment fixed body (15 c) with thickness.
Not only the bolts and screws that are the second fixing means, but also the connecting metal fittings and other adhesives, on the wall that becomes the upright surface (26) close to the grounding surface such as indoors and gymnasiums, or on the upright door. The height adjustment fixing body (15) can be attached as a substitute for the support of the rod-shaped member support support sandwiching type unit (2a) by using a second fixing means including fixing with an adhesive tape or a magnet. There is.
The common strut (10 g) that can be used individually or the height adjustment fixing body (15) that can be used individually can be attached to the surface of the upright surface (26) or embedded in the upright surface. When embedding, a gap is provided so that the rod-shaped member does not rub against the upright surface and friction does not occur, and the rod-shaped member is embedded and fixed so that it can be attached.
Since the rod-shaped member strut sandwiching type unit is fixed so that the rod-shaped member is sandwiched between the columns, a reinforced height adjustment fixing body (15c) having the same width and thickness as the rod-shaped member is used on an upright surface. It is fixed. It is fixed from both end faces of the rod-shaped member so as to be sandwiched between the reinforced height adjusting fixing parts (15c) fixed by the second fixing means.
The reinforced height adjustment fixed body (15c) is classified into a round concave type and a rail type. In the case of a round concave, it becomes a round concave that becomes a through hole. Screw the rod-shaped member end face bolt holes (9e) provided on both end faces of the rod-shaped member through a common bolt that engages from the outer round recess of the reinforced height adjustment fixing body (15c), and fix both both ends. ..
In the case of the rail type, the height adjustment slide portion (17b) or the like is inserted from the slide inlet having substantially the same shape as the slide locking portion inlet (6i) provided on the upper part of the reinforced height adjustment fixed portion (15c). And attach it.
A rod-shaped member is attached to the reinforced height adjusting fixed body (15c) fixed to the upright surface (26), and the exercise line can be arranged toward the exercise line locking unit arranged.
Further, by attaching the height adjusting fixing part (15) to both the upright surface (26) and the upright surface (26) facing each other, and attaching at least one rod-shaped member together, the upright surface (26) and the upright surface (26) and the upright surface (26) are attached. During 26), it is possible to arrange the desired number of exercise lines at the desired height, at the desired interval and angle, while changing the arrangement program provided in various forms. Become.
It is also possible to fix a common strut (10 g) that can be used individually to the upright surface (26) close to the installation surface by using the second fixing means.
In FIG. 42 (b), the rail height adjusting fixing body (15b) of the height adjusting fixing body (15) is fixed to the upright surface close to the installation surface by using the second fixing means, and the rod-shaped member columns intersect. It is a front view which attached the rod-shaped member so that it becomes a mold unit.
When the reinforced height adjusting fixed body (15c) is used, the second fixing means is embedded so that not only the upright surface but also the upright surface and the reinforced height adjusting fixed body (15c) are embedded so as to be close to a flat surface. There is also a method of fixing by. It is desirable that the surface of the reinforced height adjustment fixing body (15c) is fixed so as to protrude from the upright surface by about 5 mm without causing friction due to contact between the rod-shaped member and the upright surface.
Even in a space-saving room where the space for installing the base of the support required to increase stability is small, the common support (10g) or height adjustment fixing part (15c) is fixed directly to the interior wall that is an upright surface. By doing so, the exercise line locking unit can be installed without a base, and by arranging the exercise line locking unit that does not require a base on the facing wall and locking the exercise line, the exercise line can be installed. Line sports using elastic exercise lines such as rubber and exercise lines using laser beams, which have less load, can be performed even in a moving container, indoors with a space of about 6 tatami mats. In this case, each floor of the container and the room-like shape of about 6 tatami mats becomes the installation surface (25), and the wall surface including the doors surrounding all four sides becomes the upright surface (26).
However, when performing line sports in which the tension and attraction are high, it may be necessary to use a support or an L-shaped base (19 g) that fits the height adjusting fixed body (15) at the same time.
The height adjusting fixing body (15) can be fixed not only on an upright surface and an installation surface but also on a ceiling surface having a height of 4 m or more or so as to be embedded. It is also possible to hang it from the ceiling using an iron frame, attach a rod-shaped member to it, and attach an exercise line unit.
FIG. 42 (c) is a diagram showing an embodiment in which the height-adjusting fixed portion is fixed to the upright surface of the moving container and the locking portion is fixed to the installation surface and the ceiling surface, and the container or the like which is also movable. In the room, the height adjustment fixed part (15) is attached to the wall that becomes the upright surface (26) and the wall on all four sides including the door, and the locking part (6e) is attached to the installation surface that is the ceiling surface and the floor surface. With the height adjustment fixing body (15), which can be used individually by using a fixing means including bolts, screws, adhesives, double-sided tapes, magnets, etc., which are both second fixing means. The locking portion (6e) is fixed. It is possible to perform line sports by arranging exercise lines on the rod-shaped member (3) attached to the height adjusting fixed body (15) and the locking body (6e) on the ceiling surface and the installation surface. It becomes.
The height adjusting fixed body (15) and the locking body (6e) are used to effectively arrange the exercise line even in a narrow space. Along with the reinforced locking body (6h), a reinforced height adjusting fixed body (15c) having increased strength is also prepared.
When performing line sports where the tension is high, it is desirable to use the support (10) and common support, and to use the support or the L-shaped base (19 g) that fits the height adjustment fixed body (15) at the same time. ..
The four sides including the wall and door, which are the upright surfaces (26) to which the height adjustment fixed body (15) is fixed, are mainly indoors, and are used in gymnasiums, sports gyms, etc., as well as exercise line locking systems. It also includes the inside of a container that can be installed and is also movable, and a small room of about 6 tatami mats.
In this figure, since all the walls including the door are iron containers, height adjustment fixing parts (15) with rod-shaped members fixed are attached in various places, but in indoors such as gymnasiums and indoor sports gyms. There are various types of upright surfaces, such as walls where the height adjustment fixing body (15) cannot be fixed, walls where the height adjustment fixing body (15) can be fixed in a limited position, and height adjustment fixing body (15). There are some walls where the types of exercise lines used are limited due to the low bearing capacity of 15).
Unfixable upright surfaces are bearing walls, gypsum board-only walls, veneer / plywood walls of 12 mm or less, and walls with limited fixable positions are walls with columns arranged at equal intervals and studs. It is fixed to these columns and studs by a second fixing means.
In addition, height adjustment and fixing are limited to the types of exercise lines for reinforced walls that are reinforced to withstand the screwing of heavy objects, veneer / plywood walls with a thickness of at least 12 mm, or walls with lightweight steel frames. The body (15) can be fixed.
By using concrete anchors, which are the second fixing means, on the concrete wall, height adjustment fixing body (15) that allows various exercise lines to be locked to the rod-shaped member to be attached, reinforced height adjustment fixing The body (15c) can be fixed.
By using the locking part (6e) and the height adjusting fixed part (15) in combination with the upright surface and the ceiling surface above the installation surface, various types such as upright, horizontal, parallel, diagonal, and up and down can be used. An exercise line can be arranged at the position.
It is also possible to use all the exercise lines (21) arranged from the four sides, the sky, and the floor as the laser light exercise lines (21j).
It is also possible to arrange the height and width of each line at about 10 cm, although this is an example. In the case of the laser light motion line (21j) directed vertically downward from the ceiling surface portion on the upper surface, a reflector or a receiver is also required on the floor surface.
A laser oscillator (21k) and a vibration receiver or reflector (21l) that oscillate and receive each laser light motion line (21j) arranged at about 10 cm in height and width of this line. ) Are provided with different signal oscillation functions and switch functions such as on and off, and compete on the laser light motion line (21j) consisting of infrared rays, ultrasonic waves, visible light, etc., similar to the structure of the motion sensor device. When the person's body touches and senses the temperature difference, or when the infrared beam is blocked, the sensor reacts and the switch is turned on and off.
By providing a function to store the position, time, angle, speed, etc. of touching the line as electronic data in a storage medium or the like, the line (21j) for laser light movement of another athlete performing the same operation is touched. It is also conceivable to provide a function to compare the differences with the position, time, angle, speed, etc. as data and clarify the differences.
In addition, the transmission sound function provided in each laser light exercise line (21j) is also used to compare with the athlete and the stored data such as the position, time, angle, speed, etc. when the athlete touches each line. While exercising, the difference between exercise and movement can be seen on the spot in real time, which is almost the same as the movement, such as sound using speakers, images such as screens and monitors, or stimulators attached to the body. An exercise line locking system having a function that enables comparison while including visual, auditory, and sensations caused by irritation to the skin is also conceivable.

Claims (12)

An exercise line locking system in which at least two exercise line locking units extending horizontally in a plan view are arranged in a row on an installation surface to lock an exercise line.
The exercise line locking unit is
A rod-shaped member provided with locking portions capable of locking the exercise line detachable by using a locking means at a plurality of locations in the horizontally long direction and supported on the installation surface from substantially both sides of the rod-shaped member. Equipped with two or more struts
The rod-shaped member and the support column are fixed,
The side surfaces of the rod-shaped members of the exercise line locking units in a row are arranged on the installation surface at intervals so as to substantially face each other.
An exercise line locking system, wherein the exercise line can be arranged between the exercise line locking units in a row via the locking portion. The rod-shaped member is formed so as to be separable into a rod-shaped member body that does not include the locking portion and a locking portion that has the locking portion, and is detachably fixed by a fixture, and each of them can be used individually. The exercise line locking system according to claim 1, wherein the exercise line locking system is possible. The strut is characterized by having one or more strut-side locking portions capable of locking the exercise lines detachable by using the locking means from the upper end to the lower end of the three-dimensional surface of the strut. The exercise line locking system according to claim 1 or 2. The exercise line locking system according to any one of claims 1 to 3, wherein the exercise line locking unit is fixed to at least two rod-shaped members. At least one exercise line is vertically locked with the locking means provided between the at least two rod-shaped members fixed to the exercise line locking unit. The exercise line locking system according to claim 4, wherein the exercise line locking system is possible. The method according to any one of claims 1 to 5, wherein the height of the rod-shaped member can be freely adjusted by using the height adjusting and fixing means, and the support is provided with the height adjusting and fixing portion. Exercise line locking system. The strut is formed so as to be separable into a strut body not including the height adjusting fixing portion and a height adjusting fixing portion having the height adjusting fixing portion, and is detachably fixed by the fixing tool, respectively. The exercise line locking system according to claim 6, wherein the exercise line locking system can be used individually. According to claim 6 or 7, the exercise line locking unit has an oblique function capable of horizontally fixing or obliquely fixing two or more rod-shaped members to be fixed. The exercise line locking system described. The movement according to any one of claims 1 to 8, wherein the individually formed rod-shaped member and the support column are detachably fixed and can be separated from each other and used individually. Line locking system for. The exercise line locking unit is characterized in that at least one of the individually usable rod-shaped members, the individually usable columns, or the exercise line locking unit can be connected in the horizontal direction by using a connecting means. The exercise line locking system according to claim 9. The exercise line locking unit includes a gripping and fixing means for gripping and fixing a tubular cylinder that is inserted into a pole receiving port provided on an installation surface and stands upright, and the tubular cylinder is gripped by a grip portion of the gripping and fixing means. The exercise line locking system according to any one of claims 1 to 10, wherein the exercise line locking system can be gripped. The claim is characterized in that at least one of the individually usable columns or the individually usable height adjusting fixing body can be fixed to an upright surface close to the installation surface by a second fixing means. 7. The exercise line locking system according to 7.

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