KR102153187B1 - Length-adjustable structure for a pipe - Google Patents

Abstract

In the scaffolding pipe length adjustment structure according to an embodiment of the present invention, in the scaffolding pipe length adjustment structure for adjusting the length of the scaffolding pipe used for the safety railing, the first pipe having a first hollow And a second pipe inserted along the first hollow in a first longitudinal direction of the first pipe, wherein the second pipe is within the first hollow, at a position moving distance in the first longitudinal direction Accordingly, when the length exposed to the outside from one end of the first pipe is changed, and the length exposed to the outside from one end of the first pipe is the first length, the positional movement in the first longitudinal direction may be restricted. I can.

Description

Length-adjustable structure for a pipe}

The present invention relates to a scaffolding pipe length control structure, and more particularly, to a scaffolding pipe length control structure for adjusting the length of a scaffolding pipe used for a safety railing.

In general, in construction sites of various buildings or ship building sites of shipyards, it is possible to support concrete casting forms, install work paths and scaffolds for the movement of workers, or install safety nets to prevent the fall of foreign substances or work tools. The scaffolding structure is installed so that it is possible.

The scaffolding is composed of a plurality of vertical scaffolding pipes, horizontal pipes, and scaffolding. When installing the scaffolding, vertical scaffolding pipes are arranged at predetermined intervals, horizontal pipes are arranged in the vertical scaffolding pipes and connected to each other by means of connecting means, and then scaffolds are placed on the horizontal scaffolding pipes.

At this time, it is necessary to adjust the length of the horizontal pipes according to the installation environment of the scaffolding structure. In this case, pre-fabricated horizontal pipes are spliced or cut to a certain length. However, it is difficult not only to cut a pre-fabricated horizontal pipe to an exact length, but also to cut and extend the time required to extend the construction period.

Accordingly, there has been active research to implement the length adjustment of horizontal pipes simply and quickly according to the installation environment of the scaffolding structure.

Korean Patent Registration No. 10-1782291

It is an object of the present invention to provide a structure for adjusting the length of a scaffolding pipe to conveniently and quickly implement the length adjustment of a scaffolding pipe used for a safety railing.

In the scaffolding pipe length adjustment structure according to an embodiment of the present invention, in the scaffolding pipe length adjustment structure for adjusting the length of the scaffolding pipe used for the safety railing, the first pipe having a first hollow And a second pipe inserted along the first hollow in a first longitudinal direction of the first pipe, wherein the second pipe is within the first hollow, at a position moving distance in the first longitudinal direction Accordingly, when the length exposed to the outside from one end of the first pipe is changed, and the length exposed to the outside from one end of the first pipe is the first length, the positional movement in the first longitudinal direction may be restricted. I can.

The second pipe of the scaffolding pipe length control structure according to an embodiment of the present invention is formed to have a third length, and when the length exposed to the outside from one end of the first pipe is the first length, the second pipe The length of the region overlapping with the first pipe may be the second length, and the sum of the first length and the second length may be the third length.

The first pipe of the scaffolding pipe length adjustment structure according to an embodiment of the present invention has a protrusion protruding from an inner surface defining the first hollow, and the protrusion is from one end of the first pipe The second pipe is formed in a region corresponding to the second length, and the second pipe includes a protruding corresponding portion protruding from an outer surface, and the protruding corresponding portion is a region corresponding to the second length from one end of the second pipe Can be formed in

The protrusion counterpart of the scaffolding pipe length adjustment structure according to an embodiment of the present invention is in contact with the protrusion while the second pipe is moved in position in the first longitudinal direction within the first hollow to form the second pipe. The movement of the position in the first longitudinal direction may be restricted.

The second pipe of the scaffolding pipe length control structure according to an embodiment of the present invention has a depression recessed from an outer surface along a length direction, and the depression is formed in a shape corresponding to the projection, and the When the protrusion is inserted, rotation of the second pipe in the first hollow may be restricted.

The concave portion of the scaffolding pipe length control structure according to an embodiment of the present invention, a first concave piece, a second concave piece, a third concave piece, and a fourth concave piece sequentially along the outer peripheral surface of the second pipe Consisting of, and each of the indented pieces constituting the indentation may be formed to be spaced a predetermined distance from the neighboring indentation pieces.

The protrusion of the scaffolding pipe length control structure according to an embodiment of the present invention is formed in a shape corresponding to the concave portion, and sequentially protrudes along the inner circumferential surface of the first protrusion piece, the second protrusion piece, and the third protrusion. Consisting of a piece and a fourth protrusion piece, each of the protrusion pieces constituting the protrusion may be formed to be spaced apart a predetermined distance from the adjacent protrusion piece.

The protruding counterpart of the scaffolding pipe length control structure according to an embodiment of the present invention includes: a first protruding counterpart formed on the first recessed piece, a second protruding counterpart formed on the second recessed piece, and the second 3 may be provided with a third protruding counterpart piece formed on the recessed piece and a fourth protruding counterpart piece formed on the fourth recessed piece.

The first pipe of the structure for adjusting the length of the scaffolding pipe according to an embodiment of the present invention includes a through part penetrating from an outer surface toward an inner surface, and while being inserted into the through part, the first hollow from the outside by an external force. An inlet portion introduced into the inlet and an external force application portion exposed to the outside while being connected to the inlet portion to which the external force is applied, and the inlet portion, at a first position not introduced into the first hollow, along the through portion The position is moved to a second position introduced into the first hollow, and the second pipe is pressurized by the inlet according to the positional movement from the first position to the second position of the inlet, and the first pipe The movement of the position in the longitudinal direction of the may be restricted.

The through part of the scaffolding pipe length control structure according to an embodiment of the present invention forms a female thread from an outer surface to an inner surface of the first pipe, and the inlet part is a number corresponding to the female thread along an outer circumferential surface. A screw thread is formed, and the external force application portion is formed at an end of the inlet portion and is formed larger than a longitudinal area of the inlet portion, so that rotation of the inlet portion may be facilitated by the rotational force applied to the external force application portion.

The scaffolding pipe length control structure according to an embodiment of the present invention further includes a third pipe having a second hollow, wherein at least a portion of the second pipe is exposed to the outside from one end of the first pipe, It may be inserted into the second hollow of the third pipe to be connected to the third pipe.

The second pipe of the scaffolding pipe length control structure according to an embodiment of the present invention is a color that distinguishes the length by a different color in a region corresponding to the first length exposed to the outside from one end of the first pipe. A display may be formed.

The color display unit of the scaffolding pipe length control structure according to an embodiment of the present invention may be classified into different colors in units of a predetermined length.

The color display portion of the structure for adjusting the length of the scaffolding pipe according to an embodiment of the present invention may be formed in a gradient.

According to the present invention, the length adjustment of the scaffolding pipe used for the safety railing can be implemented simply and quickly, thereby improving the convenience of the operator.

In addition, by allowing the operator to intuitively recognize the degree of length adjustment of the scaffolding pipe, it is possible to increase the safety of the pipe according to the length adjustment.

1 is a schematic perspective view showing a structure for adjusting the length of a scaffolding pipe according to an embodiment of the present invention.
2 and 3 are schematic cross-sectional views showing a structure for adjusting the length of a scaffolding pipe according to an embodiment of the present invention.
Figure 4 is a schematic diagram for explaining the first pipe of the scaffolding pipe length adjustment structure according to an embodiment of the present invention.
Figure 5 is a schematic view for explaining a second pipe of the scaffolding pipe length control structure according to an embodiment of the present invention.
6 is a schematic view for explaining a connection structure between a first pipe and a second pipe of a structure for adjusting the length of a scaffolding pipe according to an embodiment of the present invention.
7 to 9 are schematic diagrams for explaining a structure for adjusting the length of a scaffolding pipe according to another embodiment of the present invention.
10 to 12 are schematic views for explaining a structure for adjusting the length of a scaffolding pipe according to another embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the presented embodiments, and those skilled in the art who understand the spirit of the present invention can add, change, or delete other elements within the scope of the same idea. Other embodiments included within the scope of the inventive concept may be easily proposed, but it will be said that this is also included within the scope of the inventive concept.

In addition, components having the same function within the scope of the same idea shown in the drawings of each embodiment will be described with the same reference numerals.

1 is a schematic perspective view showing a scaffolding pipe length adjustment structure according to an embodiment of the present invention, and FIGS. 2 and 3 are schematic cross-sectional views showing a scaffolding pipe length adjustment structure according to an embodiment of the present invention .

In addition, Figure 4 is a schematic diagram for explaining the first pipe of the scaffolding pipe length control structure according to an embodiment of the present invention, Figure 5 is a second of the scaffolding pipe length control structure according to an embodiment of the present invention It is a schematic diagram for explaining a pipe.

1 to 3, a structure for adjusting the length of a scaffolding pipe according to an embodiment of the present invention is a structure for adjusting the length of a scaffolding pipe used for a safety railing.

The length control structure (1, hereinafter, length control structure) for scaffolding of the present invention may include a first pipe 10 and a second pipe 20 constituting a scaffolding pipe. The length of the scaffolding pipe may be adjusted according to the positional relationship between the first pipe 10 and the second pipe 20.

The first pipe 10 may be a circular pipe in which a first hollow H1 is formed.

The second pipe 20 may be inserted in the first longitudinal direction S1 of the first pipe 10 along the first hollow H1.

The second pipe 20 has a length exposed to the outside from one end of the first pipe 10 according to a positional movement distance in the first hollow H1 in the first longitudinal direction S1 It can be changed.

Specifically, when the second pipe 20 is positioned in the first hollow H1, the second pipe 20 may be disposed to overlap the first pipe 10. In this case, the outer surface of the second pipe 20 may be in close contact with the inner surface of the first pipe 10 defining the first hollow H1. Here, the second pipe 20 may slide along the inner surface of the first pipe 10 within the first hollow H1.

The second pipe 20 may change the length of the scaffolding pipe according to the length exposed from one end of the first pipe 10.

In addition, when the length of the second pipe 20 exposed to the outside from one end of the first pipe 10 is the first length L1, the position of the second pipe 20 is moved in the first longitudinal direction S1. It may be limited, and the position can be moved in a direction opposite to the first longitudinal direction (S1), and when the position is moved in a direction opposite to the first longitudinal direction (S1), it is separated from the first pipe 10 It can be possible.

At this time, at least a portion of the second pipe 20 is located in the first hollow H1.

The second pipe 20 is formed to have a third length L3, and when the length exposed to the outside from one end of the first pipe 10 is the first length L1, the first pipe ( The length of the region overlapped with 10) is the second length L2.

Here, the sum of the first length L1 and the second length L2 is the third length L3.

4 and 5, the first pipe 10 may include a protrusion 11 protruding from an inner surface defining the first hollow H1.

The protrusion 11 may be formed at a position shorter than the second length L2 from one end of the first pipe 10.

The second pipe 20 may include a protruding counterpart 21 protruding from an outer surface.

The protrusion counterpart 21 may be formed at a position shorter than the second length L2 from one end of the second pipe 20.

In addition, while the second pipe is moved in position in the first longitudinal direction (S1) within the first hollow, the protruding counterpart is in contact with the protrusion to move in the first longitudinal direction (S1) of the second pipe. You can restrict the movement of the position.

According to the formation position of the protrusion 11 with respect to the first pipe 10 and the formation position of the protrusion corresponding part 21 with respect to the second pipe 20, the first pipe 10 and the A second length L2 that is an overlapping limit length of the second pipe 20 may be determined. This may be sufficiently inferred with reference to FIG. 3.

The second length L2 may vary depending on the material of the first pipe 10 and the second pipe 20 and the installation environment of the safety railing using the scaffolding pipe of the present invention, but is generally safe. It can be of a length determined to match the limit load required for the railing.

Specifically, the limit load required for the connected first pipe 10 and the second pipe 20 may be determined according to the overlapped second length L2, which is the protrusion 11 and the protrusion counterpart (21) can be determined by the formation position.

In other words, the determination of the second length L2 by the protrusion 11 and the protrusion counterpart 21 is the limit of the connection structure pipe between the first pipe 10 and the second pipe 20. By determining the load, the safety railing can be implemented more stably.

For reference, if the length adjustment by the protrusion 11 and the protrusion counter 21 is absent, it is difficult for the operator to visually determine the overlapping length of the connected pipe. If the limit load may not be suitable as a safety railing, or if the limit load of the connected pipe exceeds the required value significantly, the pipe used for length adjustment will be installed excessively, resulting in waste of materials and work time. It can only be brought about.

The protrusion counterpart 21 is in contact with the protrusion 11 while the second pipe 20 is moved in the first longitudinal direction S1 within the first hollow H1 Position movement of the pipe 20 in the first longitudinal direction S1 may be restricted.

Specifically, when the protrusion 11 is disposed on the position movement path of the protrusion counterpart 21 and contacts the protrusion counterpart 21, it hinders the positional movement of the protrusion counterpart 21 By doing so, the positional movement of the second pipe 20 connected to the protrusion counterpart 21 is restricted.

Meanwhile, the second pipe 20 may include a concave portion 23 recessed from an outer surface along the longitudinal direction.

The depression 23 is formed in a shape corresponding to the protrusion 11, and when the protrusion 11 is inserted, the second pipe 20 rotates within the first hollow H1 You can make it limited.

Specifically, the concave portion 23, a first concave piece 231, a second concave piece 232, a third concave piece 233 sequentially concealed along the outer circumferential surface of the second pipe 20, and It may be composed of a fourth depression piece 234.

In addition, each concave piece constituting the concave portion 23 may be formed to be spaced a predetermined distance from the adjacent concave piece.

The protrusion 11 is formed in a shape corresponding to the concave portion 23, the first protruding piece 111, the second protruding piece 112, and the third protruding piece 113 sequentially protruding along the inner circumferential surface. ) And a fourth protruding piece 114.

Each of the protrusions constituting the protrusion 11 may be formed to be spaced apart a predetermined distance from the adjacent protrusions.

The second pipe 20 may be inserted into the first hollow (H1), the protrusion 11 may be inserted into the recess 23 during movement, and the protrusion 11 is the recess In the state inserted into (23), rotation can be prevented based on the first pipe (10).

In order to be exposed to the outside from one end of the first pipe 10, the protrusion 11 must be inserted into the recess 23.

This prevents rotation of the second pipe 20 with respect to the first pipe 10, so that when a safety railing is manufactured by the first pipe 10 and the second pipe 20 , It is possible to prevent a fall accident due to rotation of the first pipe 10 or the second pipe 20 by the user using the safety railing.

In addition, the protrusion counterpart 21 includes a first protrusion counterpart 111 formed on the first depression piece 231, and a second projection counterpart 112 formed on the second depression piece 232 , A third protruding counterpart 113 formed on the third indented piece 233 and a fourth protruding counterpart 114 formed on the fourth indented piece 234 may be provided.

7 to 9 are schematic diagrams for explaining a structure for adjusting the length of a scaffolding pipe according to another embodiment of the present invention.

7 to 9, the pipe length adjustment structure for scaffolding according to another embodiment of the present invention, except for the first pipe 30, the pipe length adjustment structure described with reference to FIGS. 1 to 6 ( Since it is the same as 1), only the description of the first pipe 30 will be described below.

A penetrating part 33 penetrating from the outer side toward the inner side, and the inlet 34 and the inlet being inserted into the through part 33 and flowing from the outside into the first hollow H1 by external force While connected to 34, it may be provided with an external force applying portion 35 that is exposed to the outside to apply the external force.

The inlet portion 34 may be moved from a first position not introduced into the first hollow H1 to a second position introduced into the first hollow H1 along the through portion 33. have.

The second pipe 20 is pressurized by the inlet portion 34 according to the positional movement of the inlet portion 34 from the first position to the second position, so that the first pipe 30 Position movement in the longitudinal direction can be restricted. Specifically, when the inlet portion 34 is located in the first position, the second pipe 20 may be moved in a longitudinal direction within the first hollow or can be separated from the first hollow, and the inlet portion When (34) is located in the second position, the movement of the position in the longitudinal direction within the first hollow may be restricted, and thus departure from the first hollow may be limited.

In addition, the through part 33 may form a female thread from an outer surface to an inner surface of the first pipe 30.

The inlet portion 34 may form a male thread corresponding to the female thread along an outer circumferential surface.

The external force application portion 35 is formed at the end of the inlet portion 34 and is formed larger than the longitudinal area of the inlet portion 34, and is introduced by the rotational force applied to the external force application portion 35 The rotation of the part 34 can be made easy.

10 to 12 are schematic diagrams for explaining a structure for adjusting the length of a scaffolding pipe according to another embodiment of the present invention.

10 to 12, the length control structure for a scaffolding pipe according to another embodiment of the present invention, except for the third pipe 50 and the second pipe 60, 1 to 6 Since it is the same as the scaffolding pipe length adjustment structure 1 described with reference, only the description of the third pipe 50 and the second pipe 60 will be described below.

The length control structure for a scaffolding pipe according to another embodiment of the present invention may further include a third pipe 50 in which a second hollow H2 is formed.

The second hollow H2 may have a size into which the second pipe 60 can be inserted, and may have the same inner diameter as the first pipe 10.

At least a portion of the second pipe 20 exposed to the outside from one end of the first pipe 10 is inserted into the second hollow H2 of the third pipe 50, and the third It may be connected to the pipe 50.

The third pipe 50 may be connected to the second pipe 60 so that the length of the scaffolding pipe may be further extended. Specifically, when it is necessary to extend the pipe according to the connection between the first pipe 10 and the second pipe 60, the second pipe 60 and the third pipe 50 are connected to each other. , You can implement it.

In addition, the third pipe 50, a through-hole penetrating from an outer surface toward an inner surface, an inlet 54 that is inserted into the through-hole and flows into the second hollow H2 from the outside by an external force. ) And an external force applying portion 55 connected to the inlet portion 54 and exposed to the outside to apply the external force.

The inlet portion 54 may be moved from a position not introduced into the second hollow H2 to a position introduced into the second hollow H2 along the through portion.

The second pipe 60 is pressed by the inlet 54 according to the positional movement of the inlet 54, so that the positional movement of the third pipe 50 in the longitudinal direction may be limited. .

In addition, the second pipe 60 has a color display unit 41 that divides the length of the second pipe 60 in a different color in an area corresponding to the first length L1 exposed to the outside from one end of the first pipe 10. Can be formed.

The color display part 41 may be formed by being divided into different colors in units of a predetermined length. The color display part 41 may check the degree of insertion of the second pipe 60 into the third pipe 50.

Specifically, while the second pipe 60 is inserted into the second hollow (H2), the user checks the degree to which the color display part 41 is concealed by the third pipe 50, The degree of overlap between the 2 pipe 20 and the third pipe 50 can be checked.

As described above, the overlapping length of the first pipe 10 and the second pipe 60 is determined by the protrusion 11 and the protrusion counterpart 21, and the second pipe 60 and the The overlapping length of the third pipe 50 may be determined by the color display 41 of the second pipe 60.

The color display unit 41 may display an area corresponding to an overlap length that determines a limit load of a connection portion between the second pipe 60 and the third pipe 50, and corresponds to the overlap length. The limit load can be increased or decreased by marking in a distinct color.

Referring to FIG. 12, the color display unit 61 is formed in a gradation, and the degree of insertion of the second pipe 60 into the third pipe 50 can be checked according to the degree of darkness or lightness of the color. .

In the above, the configuration and features of the present invention have been described based on the embodiments according to the present invention, but the present invention is not limited thereto, and various changes or modifications can be made within the spirit and scope of the present invention. It will be apparent to those skilled in the art, and therefore, such changes or modifications are found to belong to the appended claims.

1: Scaffolding pipe length adjustment structure
10: first pipe
H: first hollow
L1: first length
L2: second length
L3: third length
11: protrusion
20: second pipe
21: protruding counterpart
S1: first longitudinal direction
23: depression
30: first pipe
33: through part
34: inlet
35: external force
40: second pipe
41: color display
50: third pipe
60: second pipe
61: color display
55: external force
54: inlet

Claims (14)

In the scaffolding pipe length control structure for adjusting the length of the scaffolding pipe used in the safety railing,
A first pipe formed with a first hollow; And
Including; a second pipe inserted in the first longitudinal direction of the first pipe along the first hollow,
The second pipe,
In the first hollow, the length exposed to the outside from one end of the first pipe is changed according to the position moving distance in the first longitudinal direction, and the length exposed to the outside from one end of the first pipe is In the case of the first length, the position movement in the first longitudinal direction is limited, the position movement in the opposite direction to the first longitudinal direction is possible, and when the position is moved in the opposite direction to the first longitudinal direction, the Detachable from the first pipe,
The first pipe,
A penetrating part penetrating from the outer side toward the inner side, while being inserted into the through part, being connected to the inlet part and the inlet part flowing into the first hollow from the outside by an external force, and being exposed to the outside to apply the external force It has an external force applying part,
The inlet,
From a first position not introduced into the first hollow, the position is moved to a second position introduced into the first hollow along the through part,
The second pipe,
It is pressurized by the inlet part according to the positional movement of the inlet part from the first position to the second position, so that the positional movement in the longitudinal direction of the first pipe is limited,
The through part,
Forming a female thread from the outer surface to the inner surface of the first pipe,
The inlet,
A male thread corresponding to the female thread is formed along the outer circumferential surface,
The external force application unit,
It is formed at the end of the inlet and is formed larger than the longitudinal sectional area of the inlet, so that rotation of the inlet is easy by the rotational force applied to the external force application unit,
The second pipe,
When the inlet is located in the first position, the position is moved in the longitudinal direction within the first hollow or can be separated from the first hollow, and when the inlet is located in the second position, the length within the first hollow A structure for adjusting the length of a scaffolding pipe, characterized in that the positional movement in the direction is limited, and thus separation from the first hollow is limited.
The method of claim 1,
The second pipe,
It is formed to have a third length, and when the length exposed to the outside from one end of the first pipe is the first length, the length of the region overlapping the first pipe is the second length, and the first length and the second length The sum of the two lengths is the third length of the scaffolding pipe length control structure, characterized in that.
The method of claim 2,
The first pipe,
And a protrusion protruding from an inner surface defining the first hollow,
The protrusion,
It is formed at a position shorter than the second length from one end of the first pipe,
The second pipe,
It has a protruding corresponding portion protruding from the outer surface,
The protrusion corresponding part,
Length control structure for scaffolding, characterized in that formed at a position shorter than the second length from one end of the second pipe.
The method of claim 3,
The protrusion corresponding part,
For scaffolding, characterized in that while the second pipe is moved in the first longitudinal direction within the first hollow, it comes into contact with the protrusion to limit the positional movement of the second pipe in the first longitudinal direction. Pipe length adjustment structure.
The method of claim 3,
The second pipe has a concave portion recessed from the outer surface along the longitudinal direction,
The depression,
When the protrusion is inserted while being formed in a shape corresponding to the protrusion, the length control structure for a scaffolding pipe is configured to limit rotation of the second pipe in the first hollow.
The method of claim 5,
The depression,
It consists of a first indented piece, a second indented piece, a third indented piece, and a fourth indented piece sequentially along the outer circumferential surface of the second pipe,
Each of the indented pieces constituting the indentation portion is a scaffolding pipe length control structure, characterized in that formed to be spaced a predetermined distance from the adjacent indentation pieces.
The method of claim 6,
The protrusion,
It is formed in a shape corresponding to the concave portion, and consists of a first protruding piece, a second protruding piece, a third protruding piece, and a fourth protruding piece sequentially protruding along the inner circumferential surface,
Each of the protrusion pieces constituting the protrusion is formed to be spaced apart from the adjacent protrusion pieces by a predetermined distance.
The method of claim 7,
The protruding counterpart includes a first protruding counterpart formed on the first indented piece, a second protruding counterpart formed on the second indented piece, a third protruding counterpart formed on the third indented piece, and the fourth Scaffolding pipe length adjustment structure, characterized in that provided with a fourth protruding counter piece formed on the indented piece.
delete delete The method of claim 2,
It further includes; a third pipe having a second hollow formed therein,
The second pipe,
At least a portion exposed to the outside from one end of the first pipe is inserted into the second hollow of the third pipe, and is connected to the third pipe.
The method of claim 11,
The second pipe,
A length control structure for a scaffolding pipe, characterized in that a color display for dividing lengths with different colors is formed in a region corresponding to the first length exposed from one end of the first pipe to the outside.
The method of claim 12,
The color display unit,
Pipe length control structure for scaffolding, characterized in that it is divided into different colors in units of a certain length.
The method of claim 12,
The color display unit,
Scaffolding pipe length control structure, characterized in that formed in a gradient.

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