KR102485202B1 - Safty holder - Google Patents

Abstract

An embodiment of the present invention, the body portion extending by a predetermined length along one direction; a pair of coupling parts formed at both ends of the body part and extending by a predetermined length in a direction crossing the one direction; and permanent magnets coupled to each end of the pair of coupling units, wherein the pair of coupling units include: a first coupling unit protruding from the body; a second coupling portion having a predetermined space into which the first coupling portion is inserted, and slidably coupled to the first coupling portion such that a length into which the first coupling portion is inserted is variable; and an elastic member having one end coupled to an end of the first coupling portion and the other end coupled to an inner surface of the second coupling portion facing the end of the first coupling portion.

Description

Safety holder {SAFTY HOLDER}

The present invention relates to a safety cradle, and more particularly, to a safety cradle having a structure that is detachable from a panel and capable of fixing a control cable.

The transformer protection panel is a device that is energized and connected to the transformer to prevent damage to the transformer. As the protection panel, a transformer protection panel and a transmission line protection panel may be used.

The transformer protection panel includes a panel forming the exterior of the transformer protection panel, and a control cable electrically conducting the transformer and the transformer protection panel is led out at the bottom of the panel.

The control cable that is drawn out is connected by the operator to another cable that is electrically connected to the transformer.

However, when connecting the control cables, a plurality of control cables are located on the floor of the work site, and an accident in which a worker stumbles and falls due to the control cables not seen by the operator may occur.

In addition, since a plurality of control cables are arranged without being distinguished on the floor of a work site, an accident may occur in which a worker miswires a control cable to a cable other than the cable to be originally connected.

That is, a problem in which a worker is injured or equipment is damaged due to the above-described accident may occur.

An object of the present invention is to provide a safety cradle having a structure capable of solving the above problems.

First, an object of the present invention is to provide a safety cradle having a structure capable of fixing the control cable pulled out from the panel to the outer surface of the panel by separating it from the floor of the work site.

In addition, one object of the present invention is to provide a safety cradle having a structure capable of suppressing the control cable from being arbitrarily moved while the control cable is mounted thereon.

In addition, one object of the present invention is to provide a safety cradle having a structure capable of separately mounting a plurality of control cables.

Another object of the present invention is to provide a safety cradle having a structure capable of suppressing arbitrary movement toward a floor surface by the weight of a control cable while the safety cradle is attached to a panel.

Another object of the present invention is to provide a safety cradle having a structure capable of suppressing abrasion on the outer surface of the panel by the safety cradle while the safety cradle is attached to the panel.

In order to achieve the above object, the safety cradle according to an embodiment of the present invention, the body portion extending by a predetermined length along one direction; a pair of coupling parts formed at both ends of the body part and extending by a predetermined length in a direction crossing the one direction; and permanent magnets coupled to each end of the pair of coupling parts.

In addition, the pair of coupling parts, a first coupling portion protruding from the body portion; a second coupling portion having a predetermined space into which the first coupling portion is inserted, and slidably coupled to the first coupling portion such that a length into which the first coupling portion is inserted is variable; and an elastic member having one end coupled to an end of the first coupling portion and the other end coupled to an inner surface of the second coupling portion facing the end of the first coupling portion.

Further, in the direction in which the coupling portion extends, a permanent magnet coupling groove into which a permanent magnet is inserted is recessed at an end of the second coupling portion, and an abrasion preventing member covering the permanent magnet is coupled to an end portion of the second coupling portion.

In addition, the wear prevention member is formed of a rubber material.

In addition, when the end of the first coupling portion moves away from the inner surface of the second coupling portion, the elastic member is stretched and elastically deformed, and the elastic member elastically deforms the first coupling portion and the second coupling portion toward each other. tow

In addition, the permanent magnets coupled to the pair of coupling parts are attached to a panel formed of a magnetic material, and a cable withdrawal hole through which a plurality of cables are drawn out is formed at the bottom of the panel, and the plurality of cables drawn out are attached to the body. It is disposed between the part and the panel and supported by the body part.

Also, before the elastic member is elastically deformed, the shortest distance between the body and the panel is smaller than the diameters of the plurality of cables.

In addition, a support reinforcement part is formed on one side of the body part facing the bottom surface where the panel is installed, the support reinforcement part extends obliquely toward the panel and the bottom surface, and an end of the support reinforcement part is connected to the panel. come into contact

In addition, an anti-slip portion for increasing frictional force generated between the support reinforcement portion and the panel is formed at an end of the support reinforcement portion.

In addition, a plurality of partition protrusions are protruded from each other by a predetermined distance from each other, and a plurality of partition protrusions are disposed between a pair of coupling parts, and between the coupling part and the partition protrusions and between the plurality of partition protrusions. Between the partition protrusions, a cable insertion space is formed.

In addition, the safety cradle according to an embodiment of the present invention, the body portion extending by a predetermined length along one direction; a pair of coupling parts formed at both ends of the body part and extending by a predetermined length in a direction crossing the one direction; and permanent magnets coupled to each end of the pair of coupling parts.

In addition, a plurality of partition protrusions are protruded from each other by a predetermined distance from each other, and a plurality of partition protrusions are disposed between a pair of coupling parts, and between the coupling part and the partition protrusions and between the plurality of partition protrusions. Between the partition protrusions, a cable insertion space is formed.

In addition, a plurality of the partition protrusions are sequentially arranged along one direction, and a guide space open toward the one direction is recessed on one side surface of the partition protrusions facing the one direction.

In addition, an elastic member and a cable fixing member are sequentially inserted into the guide space, and both ends of the elastic member are coupled to the inner surface of the partition protrusion and the cable fixing member, respectively.

In addition, when the inner surface of the compartment protrusion and the cable fixing member are adjacent to each other, the elastic member is compressed and elastically deformed, and the elastically deformed elastic member moves the cable fixing member and the inner surface of the compartment protrusion in a direction away from each other. pressurize

In addition, in the coupling part where the partition protrusion is located in the one direction among the pair of coupling parts, a coupling part guide space that opens toward the partition protrusion is recessed, and in the coupling part guide space, a coupling part elastic member And the coupling portion cable fixing member is sequentially inserted, and both ends of the coupling portion elastic member are coupled to the inner surface of the coupling portion and the coupling portion cable fixing member, respectively.

In addition, when the inner surface of the coupling portion and the coupling portion cable fixing member are adjacent to each other, the coupling portion elastic member is compressed and elastically deformed, and the elastically deformed coupling portion elastic member is combined with the coupling portion cable fixing member. The inner surfaces of the parts are pressed in a direction away from each other.

In addition, the permanent magnets respectively coupled to the pair of coupling parts are attached to a panel formed of a magnetic material, and a cable withdrawal hole through which a plurality of cables are drawn out is formed at the bottom of the panel, and the plurality of cables drawn out are It is disposed in the cable insertion space between the body and the panel and supported by the body.

In addition, before the elastic member is elastically deformed, the shortest distance between the end of the cable fixing member facing the one direction and the adjacent partition protrusion and the coupling portion adjacent to the end of the cable fixing member facing the one direction The shortest distance between them is smaller than the diameter of the plurality of cables.

In addition, among portions of the cable fixing member and the coupler cable fixing member, an inclined surface is formed at a portion facing the panel, and the inclined surface is inclined in one direction and in a direction away from the panel.

In addition, a support reinforcement part is formed on one side of the body part facing the bottom surface where the panel is installed, the support reinforcement part extends obliquely toward the panel and the bottom surface, and an end of the support reinforcement part is connected to the panel. come into contact

In addition, an anti-slip portion for increasing frictional force generated between the support reinforcement portion and the panel is formed at an end of the support reinforcement portion.

In addition, a permanent magnet coupling groove into which a permanent magnet is inserted is recessed at an end of the coupling portion, and a wear prevention member covering the permanent magnet is coupled to an end portion of the coupling portion into which the permanent magnet is inserted, and the wear prevention member is made of rubber. made of material

In addition, the safety cradle according to an embodiment of the present invention, a body portion extending by a predetermined length along one direction, and having a guide space that is open toward the one direction is recessed therein; an elastic member inserted into the guide space; and a pressing part extending by a predetermined length along the one direction and partially inserted into the guide space, wherein the elastic member and the pressing part are sequentially inserted into the guide space, and both ends of the elastic member are the same. It is coupled with the inner surface of the guide space and the pressing part, respectively.

In addition, when the inner surface of the guide space and the pressing part are adjacent to each other, the elastic member is compressed and elastically deformed, and the elastic member presses the pressing part and the guide space in a direction away from each other.

Further, in the one direction, a permanent magnet of the pressing unit is coupled to one side of the pressing unit, and a permanent magnet of the body unit is coupled to the other side of the body, which is opposite to the one side into which the pressing unit is inserted.

In addition, a permanent magnet coupling groove of the pressing unit is recessed on the one side surface of the pressing unit, the permanent magnet of the pressing unit is inserted into and coupled to the permanent magnet coupling groove of the pressing unit, and the one side surface of the pressing unit is permanently connected to the pressing unit. A wear prevention member covering the magnet is coupled to the pressing portion.

In addition, a body part permanent magnet coupling groove is recessed on the other side surface of the body part, and the body part permanent magnet is inserted into and coupled to the body part permanent magnet coupling groove, and the body part permanent magnet is inserted into the body part permanent magnet coupling groove. A body part wear prevention member covering the magnet is coupled.

In addition, a support part is formed on an outer circumferential surface of the body part in a direction crossing the one direction, and the support part is configured to have a variable extension length.

In addition, the support portion is provided as a pair, and the pair of support portions are spaced apart from each other by a predetermined distance in the one direction.

Further, in the extension direction, a support permanent magnet coupling groove is recessed on one side of the support portion, a support permanent magnet is inserted into and coupled to the support portion permanent magnet coupling groove, and the one side of the support portion into which the support permanent magnet is inserted. A support portion wear prevention member covering the permanent magnet of the support portion is coupled to the surface.

In addition, the support portion protrudes from the outer circumferential surface of the body portion, and the support portion guide space is formed in the recessed support portion formed in the direction of extension of the support portion therein; and a support arm partially inserted into the support guide space.

In addition, a body through-hole is formed on an outer circumferential surface of the support body.

In addition, the body through-hole is formed adjacent to an end of the support body.

In addition, the support arm extends in a direction away from the body, a plurality of elastic protrusions are formed on an outer circumferential surface of the support arm, and the plurality of elastic protrusions are spaced apart from each other by a predetermined distance along the extension direction of the support arm. do.

In addition, the elastic protruding part includes an elastic member and a protruding member sequentially inserted into a space recessed by a predetermined depth on an outer circumferential surface of the support arm.

In addition, the protruding member is formed to a size that can be inserted into the through-hole of the body.

In addition, the support part, the support body protrudes from the outer peripheral surface of the body, the support guide space is formed in the recessed guide space in the extension direction of the support portion therein; a first support arm partially inserted into the support guide space; and a second support arm formed inside the first support arm and partially inserted into an arm guide space opened in an extending direction of the support.

In addition, a body through-hole is formed on an outer circumferential surface of the support body, the body through-hole is formed adjacent to an end of the support body, the first support arm extends in a direction away from the body, and the first support A plurality of first elastic protrusions are formed on an outer circumferential surface of the arm, the plurality of first elastic protrusions are disposed spaced apart from each other by a predetermined distance along an extending direction of the first support arm, and the first elastic protrusions are disposed on the first support part. It includes an elastic member and a first protruding member sequentially inserted into a space depressed by a predetermined depth on an outer circumferential surface of the arm, and the first protruding member may be formed to a size that can be inserted into the body through-hole.

In addition, an arm through-hole may be formed on an outer circumferential surface of the first support arm, and the arm through-hole may be formed adjacent to an end of the first support arm.

In addition, the second support arm extends in a direction away from the body, a plurality of second elastic protrusions are formed on an outer circumferential surface of the second support arm, and the plurality of second elastic protrusions extends the second support arm. The second elastic protruding part includes an elastic member and a second protruding member that are sequentially inserted into a space recessed by a predetermined depth on an outer circumferential surface of the second support arm, and disposed spaced apart from each other by a predetermined distance along a direction. 2 protruding member may be formed to a size that can be inserted into the arm through-hole.

According to an embodiment of the present invention, the following effects can be derived.

First, a safety cradle having a permanent magnet is attached to the outer surface of a panel made of a magnetic material, and a predetermined space is formed between the safety cradle and the outer surface of the panel. The control cable drawn out from the lower part of the panel is inserted into the predetermined space toward the upper side of the panel and then bent toward the lower side.

Thereby, the safety cradle is positioned below the bent portion of the control cable.

Therefore, the control cable can be mounted on the safety cradle without being disposed on the floor of the work site.

As a result, since a worker wiring the control cable is prevented from tripping over the control cable disposed on the floor of the work site, injury to the worker can be prevented.

In addition, the safety cradle has an elastic member and is configured to be approached or separated from the panel while being coupled to the panel. When the safety cradle is separated from the panel, the elastic member is tensioned, and the safety cradle is pressed in a direction adjacent to the panel by the tensioned elastic member.

As a result, since the control cable disposed between the safety cradle and the panel is pressed toward the panel by the safety cradle, arbitrary movement of the control cable can be suppressed.

In addition, the safety cradle may be configured to partition a plurality of spaces between the panel and the safety cradle.

Accordingly, a plurality of control cables may be separated from each other and disposed between the safety cradle and the panel.

As a result, since each of the plurality of control cables is clearly distinguished from each other, it is possible to prevent an operator from erroneously wiring control cables.

In addition, a plurality of spaces partitioning a plurality of control cables are sequentially arranged along one direction, and a control cable fixing member capable of moving forward or backward in one direction is provided in each of the plurality of spaces.

When each control cable is inserted into each space, the control cable fixing member moves backward, and the control cable fixing member is pressed in one direction by an elastic member connected to the control cable fixing member.

Thereby, the control cable is pressed by the control cable fixing member.

As a result, random movement of the control cable can be suppressed.

In addition, an abrasion preventing member may be provided between the panel and the permanent magnet provided in the safety cradle. Accordingly, it is possible to prevent abrasion of the panel by the permanent magnet.

In addition, the safety cradle is formed with a support reinforcement portion extending obliquely toward the bottom surface where the panel is installed and the panel.

As a result, when a load, such as the weight of a control cable, directed to the floor is applied to the safety cradle, arbitrary movement of the safety cradle is suppressed by the support reinforcement part.

1 is a perspective view illustrating a panel on which a safety cradle is installed according to an embodiment of the present invention.
2 is a perspective view illustrating a state in which a control cable is mounted on a safety cradle according to an embodiment of the present invention.
3 is a perspective view illustrating a safety cradle according to an embodiment of the present invention.
4 is an exploded view showing a safety cradle according to another embodiment of the present invention.
5 is a perspective view illustrating an assembled state of the safety holder according to FIG. 4;
6 is a perspective view illustrating a safety cradle according to another embodiment of the present invention.
FIG. 7 is a cross-sectional view of the safety holder according to FIG. 6 taken along line VII-VII.
8 is a cross-sectional view of the safety holder according to FIG. 6 taken along line VIII-VIII.
9 is a perspective view illustrating a safety cradle according to another embodiment of the present invention.
10 is a cross-sectional view of the safety holder according to FIG. 9 taken along line X-X.
11 is a cross-sectional view showing a safety cradle according to another embodiment of the present invention.
12 is a cross-sectional view illustrating a state in which a control cable is mounted on the safety cradle according to FIG. 11;
13 is a cross-sectional view illustrating a safety cradle according to another embodiment of the present invention.
14 is an exploded perspective view illustrating the safety cradle according to FIG. 3;
15 is a partial perspective view showing the inside of the panel.
16 is a partial perspective view showing a gap formed between the front part and the side part of the panel.
17 is a perspective view illustrating a safety cradle according to another embodiment of the present invention installed inside a panel.
18 is a perspective view illustrating the safety cradle according to FIG. 17;
19 is an exploded perspective view illustrating each end of the safety holder according to FIG. 18;
20 is a cross-sectional view of the safety holder according to FIG. 18 taken along line XX-XX.
21 is a cross-sectional view illustrating an exploded view of a support provided in the safety holder according to FIG. 18 .
22 is a cross-sectional view of the safety holder according to FIG. 18 taken along line XII-XII.
23 is a cross-sectional view showing a state in which the length of the support portion according to FIG. 19 is shortened.

Hereinafter, a safety cradle according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the following description, descriptions of some components may be omitted to clarify the characteristics of the present invention.

1. Explanation of terms

The term “energization” used in the following description means that one component is electrically connected to another component or is connected to enable information communication. The conduction may be formed by a conducting wire, a communication cable, or the like.

The terms "front side", "rear side", "left side", "right side", "upper side" and "lower side" used in the following description will be understood with reference to the coordinate system shown in FIGS. 1 to 14 .

2. Description of the safety cradle 10 according to an embodiment of the present invention

Referring to FIGS. 1 to 3 , a panel 1 from which a control cable 2 is pulled out and a safety cradle 10 attached to an outer surface of the panel 1 are shown.

The panel 1 forms the appearance of a device that performs predetermined functions. The panel 1 accommodates a device that performs a predetermined function therein and is formed in the form of a square column made of a magnetic material. In an embodiment not shown, the panel 1 may be formed in various shapes forming a predetermined space therein.

A device that performs a predetermined function accommodated in the panel 1 may be a transformer protection board. The transformer protection half is energized and connected to a transformer (not shown) to prevent damage to the transformer.

A control terminal lead-out hole 1a is formed through the lower side of the panel 1.

A control cable 2 that connects a device accommodated in the panel 1 and another device to be energized is pulled out through the control terminal lead-out hole 1a.

A plurality of control cables 2 are drawn out, and the drawn out control cables 2 are energized and coupled with cables drawn out from other devices. Coupling between cables may be performed by a worker.

However, the plurality of control cables 2 drawn out are disposed on the floor of the work site, and in this case, a problem in which a worker trips over the plurality of control cables 2 located on the floor may occur. As a result, injury to workers may occur.

In addition, since the plurality of control cables 2 are arbitrarily arranged on the floor of the work site, a problem may occur in that they are connected to cables other than the cables that should be originally connected due to a worker's mistake. As a result, damage may occur to a device accommodated in the panel 1 .

That is, since the plurality of control cables 2 drawn out are not distinguished from each other and are disposed on the floor of the work site, injury to workers and incorrect connection of cables may occur.

In order to prevent injury to workers and incorrect connection of cables, a safety cradle 10 detachably from the panel 1 may be provided on the outer surface of the panel 1 .

The safety cradle 10 is detachably coupled to the outer surface of the panel 1 at the upper side of the cable lead-out hole 1a.

The safety cradle 10 combined with the outer surface of the panel 1 forms a predetermined space between the panel 1 and the safety holder 10 .

The control cable 2 drawn out from the lower part of the panel 1 is bent upward, inserted into the predetermined space, and then bent downward again.

Thereby, the safety cradle 10 is positioned below the bent portion of the control cable 2 . Therefore, the control cable 2 can be supported by the safety cradle 10 .

As a result, the control cable 2 can be mounted on the safety cradle 10 without being disposed on the floor of the work site.

Since the control cable 2 is mounted and supported on the safety cradle 10, it is prevented that the operator trips over the control cable 2 disposed on the floor of the work site.

In addition, by sequentially mounting a plurality of control cables 2 on the safety holder 10, the control cables 2 can be clearly distinguished. Accordingly, damage to devices inside the panel 1 due to incorrect connection of the control cable 2 can be prevented.

The safety cradle 10 may be installed at a sufficient distance upward from the cable lead-out hole 1a so that the control cable 2 is not disposed on the floor of the work site.

The specific configuration of the safety cradle 10 is as follows.

The safety cradle 10 includes a body part 11 extending left and right by a predetermined distance, and a pair of coupling parts 15 extending from both ends of the body part 11 by a predetermined distance toward the rear side.

The safety cradle 10 may be formed of a light and insulating material. In one embodiment, the safety holder 10 may be formed of a plastic material.

The predetermined distance at which the body portion 11 extends may be equal to or smaller than the left and right lengths of the panel 1 .

Since buttons for operating devices accommodated in the panel 1 may be formed in the central portion of the panel 1, the body portion 11 extends to a length such that both ends may be adjacent to the left and right corners of the panel 1. It is desirable to form

The body portion 11 may have a rectangular cross section. However, it is not limited thereto, and may have various cross-sectional shapes. In an embodiment not shown, the body portion 11 may have a circular or polygonal cross-sectional shape.

A predetermined distance at which the pair of coupling parts 15 extend may be greater than or equal to the diameter of the control cable 2 .

In one embodiment, the predetermined distance at which the pair of coupling parts 15 extend may be greater than or equal to the diameter of the control cable 2 and less than twice the diameter.

The coupling part 15 may have a rectangular cross section. However, it is not limited thereto, and may have various cross-sectional shapes. In an embodiment not shown, the coupling part 15 may have a circular cross section or a polygonal cross section.

A permanent magnet 16 may be coupled to the rear side of the coupling part 15 . The permanent magnet 16 may have a circular cross-sectional shape. However, it is not limited thereto, and the permanent magnet 16 may have various cross-sectional shapes.

When the permanent magnets 16 provided on the pair of coupling parts 15 come close to the outer surface of the panel 1, an attractive force is generated between the permanent magnets 16 and the panel 1 made of a magnetic material.

Accordingly, the safety cradle 10 may be coupled to the outer surface of the panel 1 .

A support reinforcement part 18 protrudes from the lower surface of the safety cradle 10 . The support reinforcement part 18 is inclined toward the rear side and the lower side.

When an excessive load is applied downward to the safety cradle 10, the support reinforcement 18 presses the outer surface of the panel 1 to prevent the safety cradle 10 from being separated from the panel 1.

An anti-slip member 18a may be provided on an outer surface of an end of the safety holder 10 . The non-slip member 18a may be implemented as a coating formed of a rubber material.

Accordingly, it is possible to prevent the safety holder 10 from randomly moving downward or from being separated from the panel 1 and falling to the floor.

In addition, when the permanent magnet 16 is moved on the outer surface of the panel 1, wear may occur on the outer surface of the panel 1 by the permanent magnet 16.

In order to suppress abrasion on the outer surface of the panel 1, an abrasion preventing member 17 may be provided at the coupling part 15.

3. Description of the safety cradle 10 according to another embodiment of the present invention

Compared to the safety cradle 10 according to the above-described embodiment, the safety cradle 10 according to the present embodiment has the following differences.

Referring to FIG. 4 , in the safety cradle 10 according to another embodiment of the present invention, the coupling part 15 is deformed from the safety cradle 10 according to the above-described embodiment.

A permanent magnet coupling groove 15a is recessed in the coupling portion 15 of the safety holder 10 according to the present embodiment.

Specifically, a permanent magnet coupling groove 15a recessed by a predetermined depth toward the front side is formed on the rear side surface of the coupling part 15.

The permanent magnet coupling groove 15a is formed in a size corresponding to that of the permanent magnet 16 .

The permanent magnet 16 is inserted and coupled to the permanent magnet coupling groove 15a. An adhesive material may be applied between the permanent magnet coupling groove 15a and the permanent magnet 16 .

A wear prevention member 17 is coupled to the rear side of the coupling part 15 to which the permanent magnet 16 is coupled. The wear-resistant member 17 may be formed in a size capable of covering the permanent magnet 16 .

The wear prevention member 17 may be formed of a material capable of preventing wear between the permanent magnet 16 and the outer surface of the panel 1 . In one embodiment, the wear prevention member 17 may be formed of a linen material or a rubber material.

Referring to FIG. 5 , a permanent magnet 16 and a wear prevention member 17 are coupled to the rear side of the coupling part 15 .

Since the abrasion prevention member 17 contacts the outer surface of the panel 1 instead of the permanent magnet 16, wear on the outer surface of the panel 1 by the permanent magnet 16 can be prevented.

Since the safety cradle 10 according to the present embodiment is similar in configuration and function to the safety cradle 10 according to the above-described embodiment except for the above-described differences, the description of the omitted configuration is according to an embodiment. It can be understood with reference to the description of the safety cradle (10).

4. Description of the safety cradle 10 according to another embodiment of the present invention

Hereinafter, a safety cradle 10 according to another embodiment of the present invention will be described with reference to FIGS. 6 to 8 .

The safety cradle 10 according to the present embodiment may be formed to be spaced apart from or close to the outer surface of the panel 1 .

Compared with the safety cradle 10 according to the embodiment described above with reference to FIG. 3 , the safety cradle 10 according to the present embodiment has the following differences.

In the safety cradle 10 according to another embodiment of the present invention, the coupling part 15 is deformed in the safety cradle 10 according to the above-described embodiment.

The coupling portion 15 of the safety holder 10 according to the present embodiment includes a first coupling portion 151 protruding rearward from the left and right ends of the body portion 11, and a partition protrusion accommodating the first coupling portion 151. It includes an elastic member 153 connecting between the body 121 and the first coupling part 151 and the compartment protrusion body 121 .

The second coupling part accommodating space 152a opened toward the front side is recessed in the partition protrusion body 121 .

The first coupling portion 151 may be slidably inserted into the second coupling portion accommodating space 152a. As the first coupling part 151 is moved forward and backward in the second coupling part accommodating space 152a, the length into which the first coupling part 151 is inserted changes.

The second coupling portion accommodating space 152a may be formed in a shape corresponding to the first coupling portion 151 . When the first coupling part 151 has a square cross-sectional shape, the second coupling part accommodating space 152a also has a corresponding square cross-sectional shape.

Among the inner surfaces of the compartment protrusion body 121 in which the second coupling portion accommodating space 152a is formed, an inner surface facing the front side and a rear side surface of the first coupling portion 151 are connected to each other by an elastic member 153.

A permanent magnet 16 is coupled to the rear side of the outer surface of the partition protrusion body 121 .

Referring to FIG. 7 , the first coupling part 151 may be slid forward and backward in the second coupling part accommodation space 152a.

7(a) shows a state before the elastic member 153 is elastically deformed, and FIG. 7(b) shows a state in which the first coupling part 151 is moved to the rear side and the elastic member 153 is tensioned. shows

When the first coupling part 151 is moved to the rear side, the elastic member 153 is stretched and elastically deformed, and a restoring force to return to the original state is formed in the elastically deformed elastic member 153 .

Since the front and rear ends of the elastic member 153 are coupled to the first coupling portion 151 and the second coupling portion 152, respectively, the first coupling portion 151 and the second coupling portion 152 are formed by the restoring force. are pulled toward each other.

Referring to FIG. 8 , a cross section of a state in which the safety cradle 10 is installed on the panel 1 and the control cable 2 is mounted on the safety cradle 10 is shown.

Before the elastic member 153 of the safety holder 10 is elastically deformed, the shortest distance between the body 11 and the panel 1 is smaller than the diameter of the control cable 2.

Therefore, when the control cable 2 is disposed between the body part 11 and the panel 1, the body part 11 is pressed in a direction away from the outer surface of the panel 1.

At this time, since the pair of coupling parts 152 are coupled and fixed to the outer surface of the panel 1 by the permanent magnet 16, the pair of first coupling parts 151 formed at the left and right ends of the body part 11 ) is moved in a direction away from the outer surface of the panel 1 together with the body portion 11.

That is, the first coupling portion 151 slides toward the front side in the second coupling portion accommodating space 152a.

As a result, the elastic member 153 connecting the second coupling portion 152 and the first coupling portion 151 is stretched in the front and rear directions and elastically deformed.

A restoring force is formed in the elastic member 153 that is elastically deformed, and the first coupling part 151 and the second coupling part 152 are pulled toward each other by the restoring force.

As a result, the body part 11 directly connected to the first coupling part 151 is pressed toward the outer surface of the panel 1 .

As a result, the body portion 11 presses the control cable 2 toward the panel 1 .

Since the control cable 2 is pressed toward the panel 1, arbitrary movement of the control cable 2 between the body portion 11 and the outer surface of the panel 1 can be suppressed.

Since the safety cradle 10 according to the present embodiment is similar in configuration and function to the safety cradle 10 according to the above-described embodiment except for the above-described differences, the description of the omitted configuration is according to an embodiment. It can be understood with reference to the description of the safety cradle (10).

5. Description of the safety cradle 10 according to another embodiment of the present invention

Hereinafter, a safety cradle 10 according to another embodiment of the present invention will be described with reference to FIGS. 9 to 10 .

The space between the safety cradle 10 and the outer surface of the panel 1 according to the present embodiment is divided into a plurality of pieces.

Compared with the safety cradle 10 according to the embodiment described above with reference to FIG. 3 , the safety cradle 10 according to the present embodiment has the following differences.

In the safety cradle 10 according to another embodiment of the present invention, the body 11 is deformed from the safety cradle 10 according to the above-described embodiment.

The body portion 11 of the safety holder 10 according to the present embodiment includes a plurality of compartmental protrusions 12 protruding toward the rear side.

A plurality of partition protrusions 12 are spaced apart from each other by a predetermined distance along the left and right sides.

In one embodiment, the partition protrusion 12 may be formed in five. However, it is not limited thereto. In an embodiment not shown, the partition protrusions 12 may be formed in the same number as the number of the control cables 2 drawn out.

A cable insertion space 13 is formed between the plurality of partition protrusions 12 . In addition, a cable insertion space 13 is formed between the coupling part 15 and the partition protrusion 12.

The length of the front and rear sides of the partition protrusion 12 may be shorter than the length of the front and rear sides of the coupling part 15 .

The partition protrusion 12 may have a square cross-sectional shape. However, it is not limited thereto. In an embodiment not shown, the partition protrusion 12 may have a circular or polygonal cross-sectional shape.

When the safety cradle 10 is attached to the outer surface of the panel 1 by the permanent magnet 16, the space between the safety cradle 10 and the outer surface of the panel 1 is partitioned by the partition protrusion 12.

That is, the space between the safety cradle 10 and the outer surface of the panel 1 is partitioned into a plurality of cable insertion spaces 13 .

Therefore, the plurality of control cables 2 can be disposed separately in each cable insertion space 13 .

As a result, the operator can clearly distinguish the plurality of control cables 2 from each other.

As a result, damage to devices inside the panel 1 due to incorrect connection of the plurality of control cables 2 by the operator can be prevented.

Since the safety cradle 10 according to the present embodiment is similar in configuration and function to the safety cradle 10 according to the above-described embodiment except for the above-described differences, the description of the omitted configuration is according to an embodiment. It can be understood with reference to the description of the safety cradle (10).

6. Description of the safety cradle 10 according to another embodiment of the present invention

Hereinafter, a safety cradle 10 according to another embodiment of the present invention will be described with reference to FIGS. 11 to 13 .

The space between the safety cradle 10 and the outer surface of the panel 1 according to the present embodiment is divided into a plurality of spaces, and in each partitioned space, a fixing member for pressing the control cable 2 when the control cable 2 is inserted is provided. are provided

Compared with the safety cradle 10 according to another embodiment described above with reference to FIGS. 9 to 10 , the safety cradle 10 according to the present embodiment has the following differences.

In the safety cradle 10 according to another embodiment of the present invention, the partition protrusion 12 and the coupling part 15 are deformed.

The compartment protrusion 12 of the safety holder 10 according to the present embodiment is inserted into the compartment protrusion body 121 having a guide space 121a open toward the right side, and inserted into the guide space 121a from the right side toward the left side. It includes a cable fixing member 122 and an elastic member 123 connecting the cable fixing member 122 and the partition protrusion body 121.

The cable fixing member 122 may be slidably inserted into the guide space 121a. As the cable fixing member 122 moves left and right in the guide space 121a, the length into which the cable fixing member 122 is inserted changes.

The guide space 121a may be formed in a shape corresponding to the cable fixing member 122 . When the cable fixing member 122 has a square cross-sectional shape, the guide space 121a also has a corresponding square cross-sectional shape.

Among the inner surfaces of the partition body 121 in which the guide space 121a is formed, the inner surface facing the front side and the left surface of the cable fixing member 122 are connected to each other by the elastic member 123 .

The cable fixing member 122 may slide left and right in the guide space 121a.

When the cable fixing member 122 is moved to the left, the elastic member 123 is compressed and elastically deformed, and a restoring force to return to its original state is formed in the elastically deformed elastic member 153.

Since the left and right ends of the elastic member 123 are coupled to the cable fixing member 122 and the compartment protrusion body 121, respectively, the cable fixing member 122 and the compartment protrusion body 121 move away from each other by the restoring force. is pressurized

Referring to FIG. 12 , a cross section of a state in which the safety cradle 10 is installed on the panel 1 and the control cable 2 is mounted on the safety cradle 10 is shown.

Before the elastic member 123 of the safety holder 10 is elastically deformed, the shortest distance between the cable fixing member 122 and the compartment protrusion body 121 located on the right side of the cable fixing member 122 is the control cable 2 ) is formed smaller than the diameter of

Therefore, when the control cable 2 is disposed in the cable insertion space 13, the cable fixing member 122 is pressed to the left.

At this time, since the compartment protrusion body 121 located on the left side of the cable fixing member 122 to be pressed is fixed, the left side of the cable fixing member 122 approaches the inner surface of the compartment protrusion body 121 facing each other. .

That is, the cable fixing member 122 slides toward the left in the guide space 121a.

As a result, the elastic member 123 connecting between the partition protrusion body 121 and the cable fixing member 122 is compressed left and right and elastically deformed.

A restoring force is formed in the elastic member 153 that has been elastically deformed, and the cable fixing member 122 and the compartment protrusion body 121 are pressed away from each other by the restoring force.

As a result, the cable fixing member 122 and the control cable 2 disposed on the right side of the cable fixing member 122 are pressurized.

As a result, the control cable 2 is pressed toward the partition protrusion 12 disposed on the right side of the control cable 2 .

As a result, arbitrary movement of the control cable 2 in the cable insertion space 13 can be suppressed.

In the cable insertion space 13 formed on the leftmost side, the coupling portion 15, instead of the partition protrusion 12, is disposed on the left side.

Therefore, the control cable 2 inserted into the leftmost cable insertion space 13 is pressed by the coupling portion cable fixing member 154 inserted into the coupling portion 15 .

In the coupling portion 15 formed on the leftmost side, a coupling portion guide space 15b opened toward the right side is recessed.

The coupling portion cable fixing member 154 is inserted into the coupling portion guide space 15b from right to left.

Coupler The cable fixing member 154 and the coupler 15 are connected by an elastic member 155 .

Since the sliding process of the coupling part cable fixing member 154 in the coupling part guide space 15b is the same as the sliding process of the cable fixing member 122 in the guide space 121a, Replace with description.

Referring to FIG. 13 , an inclined surface 122a is formed at a portion of the cable fixing member 122 facing the outer surface of the panel 1 . Although not shown, an inclined surface (not shown) is formed at a portion facing the outer surface of the panel 1 among the portions of the coupling portion cable fixing member 154 .

Inclined surfaces provided on the cable fixing member 122 and the coupler cable fixing member 154 are inclined toward the front and the right, respectively.

Since the inclined surface is formed, the control cable 2 can be easily inserted into the cable insertion space 13 along the inclined surface without colliding with the cable fixing member 122 and the coupling part cable fixing member 154.

The safety cradle 10 according to the present embodiment is similar in configuration and function to the safety cradle 10 according to another embodiment described above with FIGS. 9 to 10 except for the above-described differences, so the description is omitted. For can be understood with reference to the description of the safety cradle 10 according to another embodiment described above along with FIGS. 9 to 10 .

7. Description of the safety cradle 10 according to another embodiment of the present invention

Compared to the safety cradle 10 according to the above-described embodiment, the safety cradle 10 according to the present embodiment has the following differences.

Referring to FIG. 14 , in the safety cradle 10 according to another embodiment of the present invention, the body 11 is deformed from the safety cradle 10 according to the above-described embodiment.

In the body portion 11 of the safety holder 10 according to the present embodiment, a caution display unit insertion groove 11a is recessed.

Specifically, on the front side surface of the coupling part 15, a caution display unit insertion groove 11a recessed by a predetermined depth toward the rear side is formed.

The attention display unit insertion groove 11a is formed in a size corresponding to the attention display unit 112 .

The attention display unit 112 is inserted into and coupled to the attention display unit insertion groove 11a. A permanent magnet 111 is provided in the attention display unit insertion groove 11a. As a result, the attention display unit 112 formed of a magnetic material may be detachably coupled to the permanent magnet 111 .

In an embodiment not shown, an adhesive material may be applied between the attention display unit 112 and the attention display unit insertion groove 11a.

A phrase giving a worker's attention may be written on the warning display unit 112 . As shown, the front side of the warning display unit 112 is inserted with a phrase such as “Prevent safety accidents by checking and rechecking cable connections!!” to call attention to the operator. This can prevent an operator from accidentally connecting the control cable 2 or getting injured by tripping over the control cable 2 .

Various phrases may be written on the front side of the attention display unit 112 .

Since the safety cradle 10 according to the present embodiment is similar in configuration and function to the safety cradle 10 according to the above-described embodiment except for the above-described differences, the description of the omitted configuration is according to an embodiment. It can be understood with reference to the description of the safety cradle (10).

8. Description of the safety cradle 20 according to another embodiment of the present invention

Referring to FIGS. 15 and 16 , various electronic components for controlling devices electrically connected to the panel 1 are installed in the inner space 1b of the panel 1 . In one embodiment, the electronic components may be circuit breakers, relays, and the like.

The electronic components are connected to each other with wires by a predetermined method, and the wires connecting the electronic components are accommodated in a panel duct installed along inner walls of the inner space 1b.

Among the side portions of the inner wall of the inner space 1b, a safety cradle installation surface 1c is formed at a portion connected to the front portion where the door of the panel 1 is opened.

The safety holder installation surface 1c has a predetermined width in the front-back direction and a predetermined length in the vertical direction. In one embodiment, the predetermined width may be 5 cm or more.

The safety holder installation surface 1c is formed on the left and right sides of the inner space 1b, respectively.

Referring to FIG. 17 , the safety cradle 20 according to the present embodiment is installed on the safety cradle installation surface 1c to support the control cable 2 .

18 to 23, the safety holder 20 according to the present embodiment extends along the left and right sides by a predetermined length, and the body portion in which the guide space 21a opened toward the left side is recessed ( 21).

An elastic member 23 is inserted from left to right in the guide space 21a.

In addition, after the elastic member 23 is inserted, the pressing portion 22 is inserted into the guide space 21a. That is, the elastic member 23 and the pressing part 22 are sequentially inserted into the guide space 21a. The left end of the elastic member 23 is coupled to the right end of the pressing portion 22, and the right end is coupled to the right inner wall of the guide space 21a.

The pressing portion 22 extends along the left and right sides by a predetermined length and is partially inserted into the guide space 21a.

Accordingly, the pressing part 22 protrudes from the left side of the body part 21 by a predetermined length, and the protruding length of the pressing part 22 may be deformed according to the elastic deformation of the elastic member 23 .

As the pressing portion 22 is pressed by an external force, the elastic member 23 is compressed, and as a result, the length of the pressing portion 22 inserted into the guide space 21a may be increased.

The safety cradle 20 can be installed on the safety cradle installation surface 1c of the panel 1 due to the variable length structure in which the pressing part 22 is inserted into the body 21 .

First, the pressing part 22 is brought into contact with the safety holder installation surface 1c formed on the left side, and then pressed toward the left side.

As a result, the elastic member 23 is compressed between the right end of the pressing portion 22 and the guide space 21a, and a restoring force to return to the original state is generated in the compressed elastic member 23.

Since the pressing part 22 is fixed by the safety holder installation surface 1c on the left side, the elastic member 23 presses the body part 21 to the right side with restoring force.

The body part 21 comes into contact with the right safety cradle installation surface 1c and presses the right safety cradle installation surface 1c to the right by the restoring force of the elastic member 23 .

As a result, the pressing part 22 and the body part 21 press the left and right sides of the inner space 1b of the panel 1 by the restoring force of the elastic member 23, whereby the safety holder 20 is placed on the panel. (1) can be fixed.

The left and right lengths of the safety cradle 20 in which the pressing part 22 is inserted into the body part 21 can be varied by the aforementioned elastic deformation, and the left and right lengths before elastic deformation are the left and right lengths of the panel inner space 1b. formed longer. In addition, the left and right lengths of the safety holder 20 in a state in which the elastic member 23 is compressed to the maximum are formed shorter than the left and right lengths of the panel inner space 1b.

The pressing part permanent magnet 222 is coupled to the left side of the pressing part 22 , and the body part permanent magnet 212 is coupled to the right side of the body part 21 .

Specifically, the pressurizing part permanent magnet coupling groove 221 is recessed on the left side of the pressing part 22, and the pressing part permanent magnet 212 is inserted into the pressing part permanent magnet coupling groove 221 and coupled thereto. A wear prevention member 223 covering the permanent magnet 212 of the pressing unit is coupled to the left side of the unit 22 .

In addition, the body portion permanent magnet coupling groove 211 is recessed on the right side of the body portion 21, and the body portion permanent magnet 212 is inserted into and coupled to the body portion permanent magnet coupling groove 211, and the body portion ( 21) is coupled to the body part wear prevention member 213 covering the body part permanent magnet 212 on the right side.

The left end of the pressing part 22 and the right end of the body part 21 may be coupled to the inner wall of the panel 1 by the permanent magnet 212 of the pressing part and the permanent magnet 212 of the body part.

In addition, abrasion on the inner wall of the panel 1 can be suppressed by the pressing part wear prevention member 223 and the body part wear prevention member 213 .

In addition, the safety holder 20 according to the present embodiment includes a support part 24 extending downward from the lower surface of the body part 21 .

A plurality of support units 24 may be provided. In the illustrated embodiment, a pair of support portions 24 are formed on the left and right sides of the body portion 21, respectively. However, it is not limited thereto, and in an embodiment not shown, the support part 24 may be formed in two or more.

The support portion 24 is configured to have a variable extension length.

The support part 24 includes a support body 241 , a first support arm 242 and a second support arm 243 .

The first support arm 242 is partially inserted into the support body 241, and the length of the first support arm 242 inserted into the support body 241 is variable. In addition, the second support arm 243 is partially inserted into the first support arm 242, and the length of the second support arm 243 inserted into the first support arm 242 is variable.

That is, the first support arm 242 and the second support arm 243 may be close to or separated from the body 21 .

The support body 241 protrudes from the lower surface of the body 21 and extends to a predetermined length. In addition, a support guide space 241a opened toward the lower side is recessed inside the support body 241 .

In addition, the first support arm 242 is partially inserted into the support guide space 241a. That is, in a state where the first support arm 242 is inserted into the support guide space 241a at its maximum length, the lower end of the first support arm 242 protrudes downward in the support space 241a by a predetermined length. .

A body through-hole 241b is formed on the outer circumferential surface of the support body 241 , and the body through-hole 241b is formed adjacent to the lower end of the support body 241 .

The body through-hole 241b functions to fix the first support arm 242 so that it does not move arbitrarily up and down.

A plurality of first elastic protrusions 2421 configured to be inserted into the body through-hole 241b are formed on an outer circumferential surface of the first support arm 242 . The plurality of first elastic protrusions 2421 are spaced apart from each other by a predetermined distance in the vertical direction.

The first elastic protruding part 2421 includes an elastic member 2423 and a first protruding member 2424 that are sequentially inserted into the first groove 2422 recessed in the outer circumferential surface of the first support arm 242 .

Among the plurality of first protruding members 2424, the first protruding member 2424 disposed in the portion inserted into the support guide space 241a is inserted toward the first groove 2422, and thus the first protruding member 2424 ) and the elastic member 2423 disposed between the inner circumferential surface of the first groove 2422 is compressed. The compressed elastic member 2423 applies a restoring force to the first protruding member 2424 in a direction in which the first protruding member 2424 protrudes from the first groove 2422 .

As the first support arm 242 moves up and down in the support guide space 241a, when the first protruding member 2424 is aligned to face the body through-hole 241b, the first protruding member 2424 It protrudes by the elastic member 2423 and is inserted into the body through-hole 241b.

Since arbitrary movement in the vertical direction of the first protruding member 2424 into which the body through-hole 241b is inserted is suppressed, vertical movement of the first support arm 242 may be suppressed. The first protruding member 2424 is formed to a size that can be inserted into the body through-hole 241b.

In addition, even when the first protruding member 2424 comes out of the support guide space 241a, the first protruding member 2424 protrudes by the elastic member 2423.

In addition, an arm guide space 242a open downward is recessed inside the first support arm 242, and an arm through hole 242b is formed on an outer circumferential surface of the first support arm 242. The arm through hole 242b is formed adjacent to the lower end of the first support arm 242 .

The arm through-hole 242b functions to fix the second support arm 243 so that it is not arbitrarily moved up and down.

A plurality of second elastic protrusions 2431 configured to be inserted into the arm through-holes 242b are formed on an outer circumferential surface of the second support arm 243 . The plurality of second elastic protrusions 2431 are spaced apart from each other by a predetermined distance in the vertical direction.

The second elastic protruding part 2431 includes an elastic member 2433 and a second protruding member 2434 that are sequentially inserted into the second groove 2432 recessed in the outer circumferential surface of the second support arm 243 .

Among the plurality of second protruding members 2434, the second protruding member 2434 disposed in the portion inserted into the arm guide space 242a is inserted toward the second groove 2432, and thus the second protruding member 2434 ) and the elastic member 2433 disposed between the inner circumferential surface of the second groove 2432 is compressed. The compressed elastic member 2433 applies a restoring force to the second protruding member 2434 in a direction in which the second protruding member 2434 protrudes from the second groove 2432 .

As the second support arm 243 moves up and down in the arm guide space 242a, when the second protruding member 2434 is aligned to face the arm through hole 242b, the second protruding member 2434 It protrudes by the elastic member 2433 and is inserted into the arm through-hole 242b.

Since the arbitrary vertical movement of the second protruding member 2434 into which the arm through-hole 242b is inserted is suppressed, the vertical movement of the second support arm 243 can be suppressed. The second protruding member 2434 is formed to a size that can be inserted into the female through hole 242b.

Also, when the second protruding member 2434 comes out of the arm guide space 242a, the second protruding member 2434 protrudes by the elastic member 2433.

An arm permanent magnet coupling groove 2435 is recessed at the lower end of the second support arm 243, and an arm permanent magnet 2436 is coupled to the arm permanent magnet coupling groove 2435. In addition, an arm wear prevention member 2437 covering the arm permanent magnet 2436 is coupled to the lower surface of the second support arm 243 .

As described above, the support portion 24 is configured such that its length is variable in the vertical direction.

Referring to FIG. 22, a state in which the first and second support arms 242 and 243 are maximally protruded is shown, and referring to FIG. 23, the first and second support arms 242 and 243 are maximally inserted. condition is shown.

The lower end of the support part 24 comes into contact with the lower surface 1d of the panel in the inner space 1b of the panel to support the body part 21 and the pressing part 22 .

Accordingly, the control cable 2 can be more firmly mounted on the body part 21 and the pressing part 22 .

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention described in the claims below. You will understand that you can.

1: Panel
1a: cable outlet
1b: space inside the panel
1c: Safety cradle mounting surface
1d: panel bottom face
2: control cable
10: Safety Cradle
11: body part
11a: caution display insertion groove
111: permanent magnet
112: caution display
12: compartment protrusion
121: compartment protrusion body
121a: guide space
122: cable fixing member
123: elastic member
13: cable insertion space
15: coupling part
15a: permanent magnet coupling groove
15b: joint guide space
151: first coupling part
152: second coupling part
152a: second coupling unit accommodating space
153: elastic member
154: coupling part cable fixing member
155: coupling elastic member
16: permanent magnet
17: wear prevention member
18: support reinforcement
18a: non-slip part
20: safety cradle
21: body part
211: body part permanent magnet coupling groove
212: body permanent magnet
213: body wear prevention member
21a: guide space
22: pressing part
221: pressing part permanent magnet coupling groove
222: permanent magnet of pressing part
223: pressing part wear prevention member
23: elastic member
24: support
241: support body
241a: support guide space
241b: body through hole
242: first support arm
242a: arm guide space
242b: female through hole
2421: first elastic protrusion
2422 first home
2423: elastic member
2424: first protruding member
243: second support arm
2431: second elastic part protrusion
2432 second home
2433: elastic member
2434: second protruding member
2435: arm permanent magnet coupling groove
2436: Arm permanent magnet
2437: arm wear prevention member

Claims (38)

a body portion extending by a predetermined length along one direction;
a pair of coupling parts formed at both ends of the body part and extending by a predetermined length in a direction crossing the one direction; and
Including a permanent magnet coupled to each end of the pair of coupling parts,
A pair of coupling parts,
a first coupling portion protruding from the body portion;
a second coupling portion having a predetermined space into which the first coupling portion is inserted, and slidably coupled to the first coupling portion such that a length into which the first coupling portion is inserted is variable; and
An elastic member having one end coupled to an end of the first coupling portion and the other end coupled to an inner surface of the second coupling portion facing the end of the first coupling portion,
When the end of the first coupling portion moves away from the inner surface of the second coupling portion, the elastic member is stretched and elastically deformed,
The elastic member that is elastically deformed pulls the first coupling portion and the second coupling portion toward each other,
safety cradles. According to claim 1,
In the direction in which the coupling portion extends, a permanent magnet coupling groove into which a permanent magnet is inserted is recessed at an end of the second coupling portion,
An end of the second coupling part is coupled with a wear prevention member covering the permanent magnet.
safety cradles. According to claim 2,
The wear-resistant member is formed of a rubber material,
safety cradles. delete According to claim 1,
The permanent magnets respectively coupled to the pair of coupling parts are attached to a panel formed of a magnetic material,
A cable withdrawal hole through which a plurality of cables are drawn is formed in the lower portion of the panel,
The plurality of cables drawn out are disposed between the body portion and the panel and supported by the body portion.
safety cradles. According to claim 5,
Before the elastic member is elastically deformed, the shortest distance between the body and the panel is smaller than the diameter of the plurality of cables.
safety cradles. According to claim 5,
A support reinforcement part is formed on one side of the body part facing the bottom surface where the panel is installed,
The support reinforcement part extends obliquely toward the panel and the bottom surface,
The end of the support reinforcement part is in contact with the panel,
safety cradles. According to claim 7,
An anti-slip portion is formed at an end of the support reinforcement portion to increase the frictional force generated between the support reinforcement portion and the panel.
safety cradles. According to claim 1,
In the body portion, a plurality of partition protrusions are spaced apart from each other by a predetermined distance and protrude,
A plurality of partition protrusions are disposed between the pair of coupling parts,
A cable insertion space is formed between the coupling part and the partition protrusion and between the plurality of partition protrusions.
safety cradles. a body portion extending by a predetermined length along one direction;
a pair of coupling parts formed at both ends of the body part and extending by a predetermined length in a direction crossing the one direction; and
Including a permanent magnet coupled to each end of the pair of coupling parts,
In the body portion, a plurality of partition protrusions are spaced apart from each other by a predetermined distance and protrude,
A plurality of partition protrusions are disposed between the pair of coupling parts,
A cable insertion space is formed between the coupling part and the partition protrusion and between the plurality of partition protrusions,
A plurality of the partition protrusions are sequentially arranged along one direction,
A guide space opening toward the one direction is recessed on one side surface of the partition protrusion facing the one direction,
An elastic member and a cable fixing member are sequentially inserted into the guide space,
The elastic member has both ends coupled to the inner surface of the partition protrusion and the cable fixing member, respectively.
safety cradles. delete According to claim 10,
When the inner surface of the partition protrusion and the cable fixing member are adjacent to each other, the elastic member is compressed and elastically deformed;
The elastic member, which is elastically deformed, presses the cable fixing member and the inner surface of the partition protrusion in a direction away from each other,
safety cradles. According to claim 10,
In the coupling part in which the partition protrusion is located in the one direction of the pair of coupling parts, a coupling part guide space that opens toward the partition protrusion is formed in a depression,
The coupling portion elastic member and the coupling portion cable fixing member are sequentially inserted into the coupling portion guide space,
Both ends of the coupling portion elastic member are coupled to the inner surface of the coupling portion and the coupling portion cable fixing member, respectively.
safety cradles. According to claim 13,
When the inner surface of the coupling portion and the coupling portion cable fixing member are adjacent to each other, the coupling portion elastic member is compressed and elastically deformed,
The elastically deformed coupling portion elastic member presses the coupling portion cable fixing member and the inner surface of the coupling portion in a direction away from each other,
safety cradles. According to claim 14,
The permanent magnets respectively coupled to the pair of coupling parts are attached to a panel formed of a magnetic material,
A cable withdrawal hole through which a plurality of cables are drawn is formed in the lower portion of the panel,
The plurality of cables drawn out are disposed in the cable insertion space between the body portion and the panel and supported by the body portion.
safety cradles. According to claim 15,
Before the elastic member is elastically deformed,
The shortest distance between the end of the cable fixing member facing the one direction and the adjacent partition protrusion and the shortest distance between the end of the cable fixing member facing the one direction and the adjacent coupling part,
Formed smaller than the diameter of the plurality of cables,
safety cradles. According to claim 15,
Of the cable fixing member and the coupling part cable fixing member, an inclined surface is formed at a portion facing the panel,
The inclined surface is inclined in one direction and in a direction away from the panel,
safety cradles. According to claim 15,
A support reinforcement part is formed on one side of the body part facing the bottom surface where the panel is installed,
The support reinforcement part extends obliquely toward the panel and the bottom surface,
The end of the support reinforcement part is in contact with the panel,
safety cradles. According to claim 18,
An anti-slip portion is formed at an end of the support reinforcement portion to increase the frictional force generated between the support reinforcement portion and the panel.
safety cradles. According to claim 10,
A permanent magnet coupling groove into which a permanent magnet is inserted is recessed at an end of the coupling portion,
An abrasion preventing member covering the permanent magnet is coupled to an end of the coupling part into which the permanent magnet is inserted,
The wear-resistant member is formed of a rubber material,
safety cradles. a body portion extending by a predetermined length along one direction and having a guide space formed therein that is open toward the one direction;
an elastic member inserted into the guide space; and
A pressing portion extending by a predetermined length along the one direction and partially inserted into the guide space,
The elastic member and the pressing portion are sequentially inserted into the guide space,
Both ends of the elastic member are coupled to the inner surface of the guide space and the pressing portion, respectively;
A support portion is formed on the outer circumferential surface of the body portion to extend in a direction crossing the one direction,
The support portion is configured to have a variable extension length,
safety cradles. According to claim 21,
When the inner surface of the guide space and the pressing portion are adjacent to each other, the elastic member is compressed and elastically deformed,
The elastic member that is elastically deformed presses the pressing part and the guide space in a direction away from each other,
safety cradles. The method of claim 22,
A permanent magnet of the pressing part is coupled to one side surface of the pressing part in the one direction,
Of the parts of the body part, a body part permanent magnet is coupled to the other side opposite to one side into which the pressing part is inserted.
safety cradles. According to claim 23,
A permanent magnet coupling groove of the pressing unit is recessed on the one side surface of the pressing unit,
The permanent magnet of the pressing part is inserted into the coupling groove of the permanent magnet of the pressing part and coupled thereto;
A wear prevention member covering the permanent magnet of the pressing unit is coupled to the one side surface of the pressing unit.
safety cradles. According to claim 24,
A body part permanent magnet coupling groove is recessed on the other side surface of the body part,
The body part permanent magnet is inserted into and coupled to the body part permanent magnet coupling groove,
A body portion wear prevention member covering the body portion permanent magnet is coupled to the other side surface of the body portion.
safety cradles. delete According to claim 21,
The support is provided in a pair,
The pair of supports are disposed spaced apart from each other by a predetermined distance in the one direction,
safety cradles. According to claim 21,
In the extension direction, a permanent magnet coupling groove of the support portion is recessed on one side of the support portion,
The support permanent magnet is inserted and coupled to the support permanent magnet coupling groove,
A support wear prevention member covering the permanent magnet of the support portion is coupled to the one side surface of the support portion into which the support portion permanent magnet is inserted.
safety cradles. According to claim 21,
the support,
a support body protruding from an outer circumferential surface of the body and having a support guide space formed therein, which is open in an extension direction of the support; and
Including a support arm partially inserted into the support guide space,
safety cradles. According to claim 29,
A body through-hole is formed on the outer circumferential surface of the support body,
safety cradles. 31. The method of claim 30,
The body through hole is formed adjacent to the end of the support body,
safety cradles. 31. The method of claim 30,
The support arm extends in a direction away from the body,
A plurality of elastic protrusions are formed on the outer circumferential surface of the support arm,
A plurality of elastic protrusions are disposed spaced apart from each other by a predetermined distance along the extension direction of the support arm,
safety cradles. 33. The method of claim 32,
The elastic protrusion includes an elastic member and a protruding member sequentially inserted into a space recessed by a predetermined depth on the outer circumferential surface of the support arm,
safety cradles. 34. The method of claim 33,
The protruding member is formed to a size that can be inserted into the body through-hole,
safety cradles. According to claim 21,
the support,
a support body protruding from an outer circumferential surface of the body and having a support guide space formed therein, which is open in an extension direction of the support;
a first support arm partially inserted into the support guide space; and
A second support arm formed inside the first support arm and partially inserted into an arm guide space open in an extension direction of the support,
safety cradles. The method of claim 35,
A body through-hole is formed on an outer circumferential surface of the support body,
The body through-hole is formed adjacent to an end of the support body,
The first support arm extends in a direction away from the body,
A plurality of first elastic protrusions are formed on an outer circumferential surface of the first support arm,
The plurality of first elastic protrusions are spaced apart from each other by a predetermined distance along the extension direction of the first support arm,
The first elastic protrusion includes an elastic member and a first protrusion member sequentially inserted into a space recessed by a predetermined depth on an outer circumferential surface of the first support arm,
The first protruding member is formed to a size that can be inserted into the body through-hole,
safety cradles. 37. The method of claim 36,
An arm through-hole is formed on an outer circumferential surface of the first support arm,
The arm through-hole is formed adjacent to the end of the first support arm,
safety cradles. 38. The method of claim 37,
The second support arm extends in a direction away from the body,
A plurality of second elastic protrusions are formed on an outer circumferential surface of the second support arm,
A plurality of second elastic protrusions are disposed spaced apart from each other by a predetermined distance along the extension direction of the second support arm,
The second elastic protrusion includes an elastic member and a second protrusion member sequentially inserted into a space recessed by a predetermined depth on an outer circumferential surface of the second support arm,
The second protruding member is formed to a size that can be inserted into the arm through-hole,
safety cradles.

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