KR100984258B1 - Apparatus for load controlling - Google Patents

Abstract

PURPOSE: A load adjustment device for exercise apparatus is provided, which increases exercise effect and use convenience by controlling numbers of a spring. CONSTITUTION: A load adjustment device for exercise apparatus comprises: a plurality of compression rods(2) in which a compressed spring(1) is inserted and the upper end is fixed; a plurality of variable compression rods(3) in which a compressed spring is inserted; a main body fixing frame which fixed in the main body of the exercise apparatus and in which the bottom part of the compression rod is fixed; and a lift frame(4) which is selectively compacted and controls a moving part.

Description

Variable load control device for exercise equipment {Apparatus for load controlling}

The present invention relates to a device that can be easily adjusted to the size of the exercise load to be used in weight training exercise equipment. That is, the present invention relates to an apparatus for maximizing the movement effect and increasing the ease of use by allowing the weight of the exercise device to easily adjust the number of actions of the spring so that the amount of exercise is appropriate.

The exercise equipment for weight training is composed of a plurality of weights are divided and stacked in a chain connected, the exerciser selectively adjusts the number of the weights to fix and then lift the weights using the arms or legs, etc. It is a device configured to exercise muscles by the operation of.

In place of the above weight body, a spring may be used to make the device simpler and reduce the overall weight of the device. In other words, by using the elastic force of the spring as a load for the movement, there is a mechanism of the structure to apply a force in the direction of extending the spring after placing a plurality of springs in parallel.

Registration No. 10-0641685 (2006.11.10) is a multi-stage load generating device for exercise equipment that uses the elasticity of the spring and allows the user to easily adjust the load to suit them. In view of its configuration, a plate, a main shaft, a rotor, an operation bar, a rocker and a clutch, and a plurality of elastic bodies connecting the rocker and the rotor are provided. One end of the rocker is connected to the elastic body and the other end is configured to be inserted into the rotation pin to be rotated with respect to the rotation pin. The pivot pin is positioned between the two plates and both ends are fixed to the plate. The lower end of the rocker is inserted into the pivot pin, and one end of the elastic body is coupled to the front side of the upper end, and a clutch groove is formed on one side of the rocker to control the number of elastic bodies that are selectively engaged or released by the clutch rod. .

In the conventional structure as described above, in order to determine the exercise load by selecting the number of weights, pins were attached to the weight so as to lift only the selected weight. However, such a structure has a great difficulty in use or management because a large number of weights are arranged in a plurality of rows and the volume and weight of the apparatus is large. In addition, the structure was complicated, and it was cumbersome to pull out and refit the pin for weight control. In addition, sudden movement during exercise, that is, sudden release of force, caused noise and danger from collision of the weight.

And when using springs, the troublesome problem of determining the number of springs still remains. That is, as a structure in which a plurality of springs are installed, each of which uses only the springs to apply the load, the individual springs must be handled, and the springs must be stretched by hand to hang.

Invention No. 10-0641685 described above uses a configuration such as an operation handle and a cable for operating the clutch rod to select the elastic body. However, this configuration has a problem that the clutch rod should be easily coupled to or released from the clutch groove of the lock. However, as the clutch rod moves, the intermittent groove formed in the clutch rod interferes with the lock and thus is not easily coupled.

Therefore, an object of the present invention is to have a structure to reduce the volume and weight of the exercise device, and to easily determine the load suitable for the exercise amount.

In order to achieve the above object, a plurality of compression springs are inserted into the constant compression rods or variable compression rods, and the exerciser simply compresses the desired number of compression springs inserted in the variable compression rods by simply operating a lever. It provides a structure that can act as a load of.

According to the present invention, by using the compression spring it is possible to solve the problem of the weight and volume of the mechanism itself by the conventional weight body, and by using a simple lever operating structure to selectively determine the number of use of the compression spring during movement By being able to act as a load, the convenience of the movement is increased, and there is no noise or danger due to the operation of the mechanism.

The present invention is a variable load adjustment device 100 for an exercise machine that can easily select the exercise load in the exercise equipment for weight training as shown in FIG. Therefore, the structure is installed in the main body 51 of the exercise device 50, the load is generated by the compression spring (1) rather than the weight.

In particular, the present invention has a basic load of the compression spring (1), in addition to having a structure for adjusting the exercise load by a structure that can selectively compress more compression spring (1).

A general weight training exercise device, as shown in Fig. 1, between the main body 51, the support 52 is installed in the lower portion of the main body 51 can be seated by the athlete, the operation of lifting the load and the like ( 53).

The generating of the exercise load is installed in the main body 51, the variable load adjusting device for exercise equipment 100 of the present invention is a structure that generates a load and a structure for adjusting the load is also connected, compression spring ( 1) a plurality of normally compressed rods 2, the upper end of which is inserted; A plurality of variable compression rods 3 having a compression spring 1 inserted therein; A main body fixing frame (5) fixed at a lower end of the constant compression rod (2) and having a variable compression rod (3) penetrated therein and fixed to a body of the exercise device; The compression spring (1) of the variable compression rod (3) is compressed while the compression spring (1) of the constant compression rod (2) is compressed while being inserted into the lower end of the constant compression rod (2) and the variable compression rod (3). It comprises a; lifting frame (4) for selectively compressing by adjusting the operation load by the operation of the unit (110).

The main body 51 is fixed to the main body fixing frame 5, a plurality of constant compression rods 2 and the variable compression bar (3) is installed on the main body fixing frame (5). Therefore, the lower end of the elevating frame 4 is raised while compressing the compression spring 1 when the elevating frame 4 connected by the operation 53 and the rope 6 or the like, and a load is generated. Of course, the compression spring (1) is fixed to the upper end of the constant compression rod (2) and the variable compression rod (3), the compression spring (1) is compressed from the bottom to the top.

And the variable compression bar (3) is formed longer than the normal compression bar (2), the fastening groove (7) is formed at the same position as the lower end of the constant compression bar (2), the fastening groove (7) ) Compresses the compression spring 1 only when it is fastened by the adjusting unit 110 to generate a load.

That is, the constant compression rod (2) is always a structure in which the compression spring (1) is compressed by the lifting frame (4), the variable compression rod (3) is a variable compression rod (3) selected by the operation of the control unit 110 ) Only the compression spring (1) is to compress the structure that can control the load.

And the adjusting unit 110 is moved by the lever (8), it becomes a ring shape, a moving selection plate 9 formed with a plurality of fastening protrusions in the interior of the ring; Laminated in the lower portion of the movement selection plate (9), the number of holes formed by the number of the variable compression rod (3), the pin 10 protrudes in the hole and the fastening groove (7) of the variable compression rod (3) A coupling piece guide plate 12 having a coupling piece 11 coupled to the coupling piece; and the coupling piece 11 pushes the pin 10 whenever the movement selection plate 9 moves a predetermined distance. The structure is characterized in that it is coupled to the fastening groove 7 of the variable compression rod (3).

In this case, although the compression spring 1 is arranged on the same plane, it can be variously implemented in a shape arranged on each side of the round or polygon. That is, it may be arranged on the same plane as shown in FIG. 5, or may be arranged concentrically as shown in FIG. Of course, when arranged concentrically, all components, such as the lever guide 17 and the lever bar 18, are also implemented in a round shape.

It may have a variety of structures as described above, but will be described below with reference to the basic embodiment in which the compression spring (1) is disposed on the same plane. Thus, the basic embodiment of the present invention is shown in full in FIG. 2, and the exercise device 50 to which it is applied is shown in FIG. 1.

In the present invention, there is a compression spring (1) and a constant compression rod (2) that always generates an exercise load. Its action is shown in FIG. 3. That is, the constant compression rod 2 is provided in the main body fixing frame 5, and the compression spring 1 is fitted in the constant compression rod 2 so that the upper end is fixed. And in the lower portion of the constant compression bar (2) is a structure that can be lifted by the lifting frame (4) is fitted, the structure is to push up the lower end of the compression spring (1) during compression.

Therefore, when the lifting frame 4 is raised by the operating period 53 and the rope 6, the compression spring 1 is compressed to generate an exercise load.

And the present invention has a plurality of variable compression rods 3, the compression spring (1) is inserted. It is a structure that can adjust the exercise load by not selecting any one or selecting one or more of a plurality. Therefore, when the compression spring (1) by the variable compression rod (3) is not compressed at all, there is only a motion load by the compression spring (1) fitted to the above-mentioned constant compression rod (2), at least one variable compression When the rod (3) is selected to compress the compression spring (1) fitted thereto, the movement load is increased by that much.

As shown in FIG. 4, when the variable compression rod 3 is not selected in FIG. 4 (a) in which the adjusting unit 110 is installed, the lifting frame 4 is lifted as shown in FIG. 4 (b). (3) is ascending along the lifting frame 4 as it is, the compression spring (1) is not compressed. When the variable compression rod 3 is selected by the adjustment unit 110, as shown in FIG. 4C, some of the components of the adjustment unit 110 fix the variable compression rod 3 and the lifting frame 4. If this rises, only the compression spring 1 is compressed while the upper portion is compressed to generate an exercise load.

As described above, the structure for compressing the compression spring 1 of the variable compression rod 3 by the control unit 110 is shown in detail in Figures 6 to 12.

Selection of the number of the variable compression rods (3) is made by the operation of the lever (8), the groove fixing rod 14 formed with a plurality of grooves 13 is installed on the lever fixing plate (15) fixed to the main body (51). And a link 16 is pivoted on the lever fixing plate 15 so that the lever 8 is movable to the link 16 so as to be selectively inserted into the plurality of grooves 13. .

Therefore, when the lever 8 is inserted into the groove 13 at a proper position by operating the lever 8 as shown in FIGS. 6 to 8, the variable compression rod 3 selected according to the position of the groove 13 is provided. The number of will be different. The lever 8 is installed in the lever bar 18 moving inside the lever guide 17 formed in the link 16 as shown in FIGS. 7 and 8. The lever bar 18 is supported by the lever spring 19 so as to maintain the state in which the lever 8 is always fitted in the groove 13.

When the lever 8 is moved, the movement selection plate 9 formed at the end of the link 16 is moved. The movement selection plate 9 depends on which position of the groove 13 is inserted in the lever 8 in FIG. 6. ), The moving distance is changed, and as a result, as shown in Figure 12, the number of selection of the variable compression rod (3) is different.

That is, the initial state of the movement selection plate 9 is as shown in FIG. 12 (a). When the lever 8 is inserted into the nearest groove 13 and moved, the movement selection plate 9 is moved as shown in FIG. The fastening protrusion 20a moves the pin 10, and the pin 10 moves the coupling piece 11 as shown in FIG. 9 to the fastening recess 7 of the variable compression rod 3 as shown in FIG. 11. Is inserted. Therefore, in this state, when the lifting frame 4 is raised, the variable compression rod 3 is in place as shown in FIG. 4 (c), and thus the compression spring 1 is compressed by the lifting of the lifting frame 4, thereby increasing the load. Will be generated.

Then, when the lever 8 is inserted into the groove 13 further away, the moving selection plate 9 is moved more, as shown in FIG. 12 (c), and the new pin 10 is fastened to the fastening protrusion ( 20b) will be pushed.

As described above, when the moving selection plate 9 is moved to a more moving distance by the gradual operation of the lever 8, the variable compression rod 3 is fixed by pushing a large number of pins 10.

Looking at the structure in the above operating relationship through Figure 12, a plurality of fastening protrusions to sequentially push one pin 10 to fix the variable compression rod (3). In the embodiment as shown in FIG. 12, the fastening protrusion 20 includes a fastening protrusion 20a, a fastening protrusion 20b, a fastening protrusion 20c, a fastening protrusion 20d, a fastening protrusion 20e, and the length of the protrusions in the above order. Big. And since the longest structure is to push the pin 10, if there is a continuous movement of the moving selection plate 9, the fastening protrusions that pushed the pin 10 in the previous step continues to push the pin 10 State is maintained. Of course, the number of fastening protrusions is the same as the number of the variable compression rod (3).

As described above, as the lever 8 is inserted into the recess 13 in the distant position, the variable compression rods 3 are fixed in a larger number, thereby allowing a larger exercise load. Therefore, the exerciser can easily determine the exercise load corresponding to the exercise amount by the operation of the lever 8.

The adjusting unit 110 may have a structure for guiding the operation more easily. The movement selection plate 9 is installed inside the guide housing 21 as shown in FIG. 12 to guide the movement, and the movement selection plate ( The coupling pieces 11 moved by 9 are guided by the coupling piece guide plate 12 as in FIG. 9. Of course, the coupling piece guide plate 12 is formed with holes through which the coupling piece 11 can be inserted and moved, and are stacked below the moving selection plate 9.

The pin guide plate 22 having a hole through which the variable compression rod 3 penetrates and guides the pin 10 formed on the coupling piece 11 is moved moving plate 9 and coupling piece guide plate as shown in FIG. It can be laminated between 12.

Naturally, other components may be added to facilitate or assist the operation of the adjusting unit 110 as described above.

1 is a fitness device to which the present invention is applied

2 is a state diagram of a variable load adjusting device

3 is a state diagram of the normal compression rod

4 is an operation state diagram of the variable compression rod

5 is a perspective view of a variable load adjusting device

6 is a state diagram of the control unit

7 is a plan view of FIG.

FIG. 8 is a sectional view taken along the line “A-A” of FIG. 7;

9 is a state diagram of the coupling piece guide plate and the coupling piece

10 is a state diagram of the pin guide plate

11 is a state in which the coupling piece is inserted into the fastening groove of the variable compression ring

12 is a state diagram in which the engaging piece is moved by the moving selection plate

13 is a structural diagram of another embodiment

[Description of Drawings]

1: compression spring 2: normal compression rod

3: variable compression rod 4: lifting frame

5: body fixing frame 6: rope

7: fastening groove 8: lever

9: Moving selection board 10: Pin

11: combined piece 12: combined piece guide plate

13: groove 14: groove groove

15: lever fixing plate 16: link

17: lever guide 18: lever bar

19: lever spring 20a, 20b, 20c, 20d, 20e: fastening protrusion

21: guide housing 22: pin guide plate

50: exercise equipment 51: the body

52: support 53: operation

100: variable load control device 110: control unit

Claims (3)

Compression spring (1) is inserted into a plurality of normal compression rods (2) fixed at the top; A plurality of variable compression rods 3 having a compression spring 1 inserted therein; A main body fixing frame (5) fixed at a lower end of the constant compression rod (2) and having a variable compression rod (3) penetrated therein and fixed to a body of the exercise device; The compression spring (1) of the variable compression rod (3) is compressed while the compression spring (1) of the constant compression rod (2) is compressed while being inserted into the lower end of the constant compression rod (2) and the variable compression rod (3). Lifting frame (4) to be selectively compressed by the operation of the unit 110 to adjust the exercise load; characterized in that it comprises a; load control device for exercise equipment. The method of claim 1, wherein the variable compression rod (3) is formed longer than the compression rod (2), the fastening groove (7) is formed at the same position as the lower end of the constant compression rod (2), When the fastening groove (7) is fastened by the adjustment unit 110, characterized in that the compression spring (1) to generate a load, characterized in that the variable load control device for exercise equipment. According to claim 1, wherein the adjustment unit 110 is moved by the lever (8), the ring shape, the movement selection plate (9) having a plurality of fastening protrusions formed inside the ring; Laminated in the lower portion of the movement selection plate (9), the number of holes formed by the number of the variable compression rod (3), the pin 10 protrudes in the hole and the fastening groove (7) of the variable compression rod (3) A coupling piece guide plate 12 having a coupling piece 11 coupled to the coupling piece; and the coupling piece 11 pushes the pin 10 whenever the movement selection plate 9 moves a predetermined distance. Characterized in that it is coupled to the fastening groove (7) of the variable compression rod (3), variable load control device for exercise equipment.

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