KR101350982B1 - A cable chain - Google Patents

Abstract

The present invention is to provide a cable chain that can secure a sufficient bearing capacity for the load by the cable. According to the present invention, the side bands 10a and 10b are arranged at regular intervals, and the frame assembly 20 is installed to connect the upper and lower ends of the side bands to each other. At least one side of the front or rear of the frame assembly 20 is provided with a plurality of coupling grooves (24c). The divider assembly 30 is provided with coupling protrusions 32a and 34a coupled to the coupling groove 24c of the frame assembly, respectively, and coupled to the upper and lower frame assemblies. Therefore, even if a load is applied by a cable or the like that enters inside, the plurality of dividers can sufficiently support the frame assembly 20.

Description

Cable chain {A cable chain}

The present invention relates to a cable chain, and more particularly to a cable chain configured to withstand loads such as a cable located inside the cable chain.

Cable protection devices, also known as cable chains, are used in automation lines and the like to protect and guide cables. Such a cable protection device may be used while forming a straight section or a curved section having a constant curvature.

Such a cable protection device is configured such that one link member is continuously coupled to protect and guide the cable in a straight section and a curved section as described above. The link body includes a pair of side bands facing each other at regular intervals, and an upper frame and a lower frame connecting upper and lower portions of the side bends, respectively.

As shown in FIG. 1, the link member includes a pair of side bands 2a and 2b facing each other at a predetermined interval, and a frame 4 connecting upper and lower portions of the side bands 2a and 2b to each other. It is configured by. The side bands 2a and 2b are continuously connected to be rotated for a predetermined period. A plurality of cables are located in the space defined by the side bands 2a and 2b and the frame 4, and are guided along a predetermined path while being protected by a cable chain.

Since the cable is located inside the cable chain, the cable chain is subjected to the load by the cable. Especially in the case of long cable chains or large cable chains, the load by the cables increases, and cable chains made of synthetic resin may be deformed if the load of such cables is too large. Of course. Deformation of the cable chain or breakage due to overstress can cause substantial loss to the production line.

An object of the present invention for solving such a problem is to provide a cable chain that can withstand the load of the cable sufficiently. The object of the present invention can be said to mean to provide a highly reliable cable chain by preventing the damage caused by the load of the cable in the substantially right and left width or long-distance cable chain.

The cable chain according to the present invention for achieving the above object is a pair of side bands arranged at regular intervals; A frame assembly installed to connect the upper end and the lower end of the side band to each other and having a plurality of coupling grooves on at least one side of the front or rear surface thereof; And a divider assembly coupled to the upper and lower frame assemblies, respectively, having coupling protrusions coupled to the coupling grooves of the frame assembly, respectively.

According to this, the coupling protrusion of the divider assembly is coupled to the coupling groove of the frame assembly, so that the divider can firmly support the frame assembly even when a cable load is applied to the frame assembly.

According to an embodiment of the present invention, the divider assembly may include: a first divider having a coupling protrusion coupled to a coupling groove inside an upper end portion and a lower end portion, and including an elastic hook; It comprises a second divider having a coupling protrusion coupled to the coupling groove inside the upper end and the lower end, and having a coupling groove to which the elastic hook is elastically coupled. According to this embodiment, the coupling protrusion of the first divider and the second divider is coupled to the coupling groove on both sides of the frame assembly, thereby providing a more rigid support structure.

According to another embodiment of the present invention, a continuous protrusion is formed on one side of the opposing surface of the first divider or the second divider, and a continuous groove portion to which the protrusion is coupled is formed on the other side. Therefore, the first divider and the second divider can be coupled to each other, so that the load applied to the frame assembly can be more firmly supported.

According to still another embodiment of the present invention, a frame assembly may include: a frame formed of aluminum and having a transverse insertion groove formed with a portion of a front surface thereof; A synthetic resin insert inserted into the insertion groove of the frame and having a coupling groove; And a pair of end caps coupled to both ends of the frame.

According to the embodiment of the present invention, it can be seen that the load applied to the frame assembly connecting the upper end and the lower end of the side band can be more firmly supported. That is, even if the load of the cable in the inner space partitioned by the pair of sidebands and the frame assembly acts on the lower frame assembly, the divider assembly can support such a load, so as to distribute the overall load as well as It can be seen that the bearing capacity can be further enhanced.

1 is an exemplary perspective view of a typical cable chain.
2 is an exemplary perspective view of a cable chain according to the present invention.
Figure 3 is an exploded perspective view of the divider assembly of the present invention.
Figure 3b is a perspective view of the bonded state of the divider assembly of the present invention.
Figure 3c is an exemplary cross-sectional view showing a coupling process of the divider assembly and the upper and lower frames of the present invention.
4A is an illustrative perspective view of a frame of the present invention.
4B is an illustrative perspective view of the frame assembly of the present invention.
Figure 5 is an illustration of a combination of the frame assembly and divider assembly of the present invention.
Figure 6 is a perspective view of the bonded state of the frame assembly and divider assembly of the present invention.
Figure 7 is an illustration of the coupling of the cable chain of the present invention.
Figure 8 is an illustration of the coupling of the cable chain of the present invention.
Figure 9 is an exemplary view showing a coupling structure of the divider and the frame of the present invention.
10 is a diagram illustrating a combination of the sideband and the frame of the present invention.

Hereinafter, the present invention will be described in more detail based on the embodiments shown in the drawings.

As shown in FIG. 2, the cable chain according to the present invention includes a side band 10: 10a and 10b arranged at regular intervals and a frame connecting upper and lower portions of the side bands 10a and 10b, respectively. The assembly 20 and the divider assembly 30 installed vertically on the frame assembly 20 and partitioning a space therebetween.

The side bands 10a and 10b have positions that face each other at regular intervals, have substantially the same configuration, and have shapes corresponding to each other. And each sideband (10a, 10b) is connected to the sideband of the same type to be rotated at a predetermined angle on both sides, this connection is substantially the same as conventional. That is, the configuration of the side bands 10a and 10b in the present invention is the same as the conventional one.

And the upper end and the lower end of the side band 10 is connected by the frame assembly 20. The frame assembly 20 serves to maintain the sideband 10 to move while maintaining a constant interval. The frame assembly 20 and the side band 10 may be connected in the same manner as the conventional configuration, and the detailed configuration thereof will be described later.

A configuration of the frame assembly 20 will be described with reference to FIGS. 4A and 4B. The frame assembly 20 includes a frame 22 having a predetermined length, an insert 24 fitted to front and rear of the frame 22, and an end cap 26 fitted to both ends of the frame 22. It is configured to include.

The frame 22 may be formed of synthetic resin, but is preferably formed of a metal material for strength reinforcement, and more preferably, formed of lightweight aluminum. At the front and rear ends of the frame 22, insertion grooves 22a having the same shape are formed in the transverse direction (lateral direction). The insertion groove 22a is formed to be larger than the open front portion, so that the insert 24 can be inserted or removed only in the direction of the arrow shown in FIG.

A locking protrusion 24a is formed at a rear portion of the insert 24 inserted into the insertion groove 22a from the side. When the insert 24 is inserted into the insertion groove 22a, the locking protrusion 24a is caught by the locking portion 22b of the inlet portion, so that the insert 24 is moved forward or backward from the insertion groove 22a. It is regulated so as not to escape randomly. The defect groove 24c opened to the front of the insert 24 (or the rear of the insert inserted into the rear insertion groove) is formed. It is preferable that a plurality of coupling grooves 24c are formed, which is a portion to which coupling protrusions 32a and 34a to be described below are coupled.

After insert 22 is inserted into the frame 22 from the side, end caps 26 are coupled to both ends of the frame 22. The end cap 26 is press-fitted into the insertion groove 22a of the frame 22, for example, a coupling protrusion 26a fitted into the insertion groove 22a inside each end cap 26. ) Is formed.

In the arrangement of the above-described frame assembly 20, coupling grooves are formed in the front and rear surfaces, and in the illustrated embodiment, the defect grooves 24c are formed in the insert 24 inserted into the frame 22. . And both ends of the frame 22 is coupled to the upper end and the lower end of the side band 10, for example, the embodiment is coupled to the side band 10 through a pair of end caps 26, respectively.

The frame 22 is preferably formed of a metal material such as aluminum, but may be molded of a synthetic resin material. For example, the frame assembly 20 itself may be injection-molded with a synthetic resin, but the coupling groove 24c may be formed on the front surface thereof, and the end cap may be integrally formed at both ends thereof.

Next, the divider 30 which is vertically coupled to the upper and lower pair of frame assemblies 20 and partitions a space therebetween will be described. Conventional dividers only perform the function of partitioning the interior space by simply being coupled between the frame assembly 20. However, the divider 30 according to the present invention, in addition to the basic function of partitioning the space inside the vertically coupled between the frame assembly 20, the load applied to the frame assembly 20 (for example, the load by the cable Etc.) is further included. That is, by being able to firmly support the frame assembly 20 located below, it can be said that it has a function to hold the lower frame assembly 20 so as not to sag under load.

3 and 5, the divider 30 of the present invention is composed of a first divider 32 and a second divider 34 divided into two directions. The first divider 32 and the second divider 34 may be said to have substantially the same configuration, and they are combined to form one divider 30 as a whole.

A plurality of coupling protrusions 32a and 34a are formed on inner surfaces of upper and lower ends of the first divider 32 and the second divider 34. In the illustrated embodiment, it can be seen that the coupling protrusions 32a and 34a are each formed of three. The coupling protrusions 32a and 34a are inserted into the coupling groove 24c of the insert 24 inserted into the frame 22. 9 shows a state in which the coupling protrusions 32a and 34a are inserted into the coupling groove 24c. As such, the portion where the coupling protrusions 32a and 34a are coupled to the coupling groove 24c is substantially formed at the top and bottom of each divider 32 and 34. Therefore, since one divider 32 or 34 is coupled to the upper and lower frames 22 by the engaging projections 32a and 34a and the engaging groove 24c, respectively, the portion where the dividers 32 and 34 are provided. The frame 22 may have a solid supporting force that does not sag downwards.

Next, a combination of the first divider 32 and the second divider 34 will be described with reference to FIG. 3. As described above, the dividers 32 and 34 are coupled by the frame assembly 20, the coupling protrusions 32a and 34a, and the coupling groove 24c, respectively, and the first divider 32 and the second divider ( 34) are also coupled to each other. That is, as clearly shown in FIG. 3C, an elastic hook 32b is provided at the upper and lower ends of the first divider 32, and a coupling groove 34b is formed at a corresponding portion of the second divider 34. have. When the elastic hook 32b of the first divider 32 is inserted into the coupling groove 34b, the engaging portion 32c of the elastic hook 32b is inserted into the coupling groove 34b, causing elastic deformation. It is elastically caught by the coupling step 34c. Therefore, when the upper and lower elastic hooks 32b are coupled to the coupling grooves 34b, it can be seen that the upper and lower portions of the dividers 32 and 34 can be elastically coupled to each other.

In addition, the intermediate portions of the first divider 32 and the second divider 34 that are in contact with each other also have a concave-convex structure in which both can be coupled to each other. That is, the concave-convex structure is provided on the opposing surface of the first divider 32 and the second divider 34. For example, a plurality of protruding protrusions 32d are continuously formed in the middle of the first divider 32. A plurality of groove portions 34d corresponding to the second divider 34 are continuously formed in corresponding portions of the second divider 34. Therefore, when the first divider 32 and the second divider 34 are coupled to each other, the protrusion 32d is coupled into the groove 34d, and the corresponding portions are engaged with each other. The protruding portion 32d and the groove portion 34d may have any shape as long as they can engage with each other. As the protrusion 32d and the groove 34d are engaged with each other, the first divider 32 and the second divider 34 are coupled to each other, and the load can be evenly distributed.

In this manner, as shown in FIG. 6, the divider 30 is coupled to the frame assembly 20 as the first divider 32 and the second divider 34 are coupled to each other. In this case, the lower frame assembly 20 is able to have a solid support force by the coupling protrusions 32a and 34a of the divider 30 to the coupling groove 24c, and the cable to be raised thereon. The load of the back can be sufficiently supported, and there is no fear of deformation.

Next, look at the overall assembly process of the cable chain according to the present invention.

First, as shown in FIG. 7, the side bands 10; 10a and 10b of both sides are connected using the frame assembly 20. As described above, the frame assembly 20 and the side band 10 may be connected using a conventional structure. For example, as shown in FIG. 7, the coupling protrusions 29 extending downward from both ends of the frame assembly 20 are formed, and the coupling grooves 19 are formed on the upper surfaces of the corresponding side bands 10a and 10b. It is also possible to combine the two by forming a). In this case, for example, it is possible to form an open state inside the coupling groove 19, and to form a projection 19b so that the coupling protrusion 29 is coupled therebetween.

Here, another embodiment for connecting the side band 10 and the frame assembly 20 will be described. As shown in FIG. 10, the coupling groove 10c formed in the left and right directions is formed at an upper end of the one side band 10a. The coupling groove 10c may be formed in a groove shape, but may be molded in a shape penetrating the sidewall of the side band 10a. 10 d of pin coupling holes are formed in the upper end part of the corresponding height of the side band 10b of the other side.

In addition, a coupling protrusion 20a inserted into the coupling groove 10c is formed at one side (left end of the drawing) of the frame assembly 20. In the state in which the coupling protrusion 20a is coupled to the coupling groove 10c, the right end of the frame assembly 20 is lowered as shown by an arrow. In the state where the defect groove 20b formed at the right end of the frame assembly 20 coincides with the pin coupling hole 10d of the side band 10b, the coupling pin P is inserted into the coupling groove 20b. Assemble the ball 10d.

When assembled in this way, the frame assembly 20 is substantially in a state coupled to the side bands (10a, 10b) of both sides. Here, in order to allow the left and right ends of the frame assembly 20 to be smoothly inserted into the respective inner surfaces of the side bands 10a and 10b, grooves having a constant depth in the vertical direction are formed on the inner surfaces of the side bands 10a and 10b. Of course, it is possible to form. That is, if a groove having an open upper portion is formed at a predetermined depth (vertical direction) in the inner portion of each of the side bands 10a and 10b in which the defect grooves 20a and the pin defect holes 20b are formed, The assembly of the assembly 20 will be able to proceed more smoothly.

When the combination of the frame assembly 20 and the side bands 20 on both sides is completed by using the above-described embodiment or the conventional structure, as shown in FIG. 8, the divider 30 is connected to the frame assembly 20. To be bound to That is, the first divider 32 and the second divider 34 are coupled to the upper and lower frame assemblies 20. At this time, a plurality of first divider 32 and the second divider 34 are formed on the inner side of the upper and lower ends of the first divider 32 and the second divider 34. FIG. The engaging projections 32a and 34a are fitted into the engaging grooves 24c of the insert 24 of the frame assembly 20. By such a coupling relationship, the frame assembly 20 and the divider assembly 30 are combined.

In this way, the elastic hook 32b of the first divider 32 is elastically coupled to the second divider (the coupling groove 34b. That is, the elastic hook 32b of the first divider 32 is When inserted into the coupling groove 34b, the engaging portion 32c of the elastic hook 32b is elastically caught by the coupling step 34c after being inserted into the coupling groove 34b to cause elastic deformation. 3c, and at the same time, a plurality of continuous protrusions 32d of the first divider 32 are coupled to a plurality of continuous grooves 34d of the second divider 34, which can be seen in FIG. 3b. There will be.

In this way, when the coupling is completed, the state as shown in FIG. Looking at this state, the engaging projection (32a, 34a) of the dividers (32, 34) is fitted into the engaging groove (24c) of the frame assembly 20, so that the load of the cable or the like to the lower frame assembly 20 Even if it is applied, it becomes a state which can bear such a load sufficiently. Considering the fact that a plurality of divider assemblies 30 are installed between a pair of frame assemblies 20, a load by a cable or the like is substantially applied through the plurality of coupling protrusions 32a and 34a. And since it is distributed to the frame assembly 20, it becomes possible to ensure sufficient support force as a whole.

As described above, according to the present invention, the load applied to the frame assembly supporting the cable or the like is provided through the coupling protrusions 32a and 34a and the coupling groove 24c. It can be seen that the basic technical theme is to be distributed to support.

In the above-described embodiment, the divider assembly 30 includes a first divider 32 and a second divider 34 that are coupled to the front and rear surfaces of the frame assembly 20. However, other modifications are possible within the technical scope in which the coupling protrusion 32a is inserted into the coupling groove 24c and combined with the upper and lower frame assemblies 20, and for example, the technical spirit of the present invention may be achieved through any one of the dividers. Naturally, it can be implemented.

Within the scope of the basic technical idea of the present invention, various modifications are possible for a person having ordinary knowledge in the art, and the protection scope of the present invention should be determined based on the appended claims. something to do.

10, 10a, 10b ..... sideband 20 ..... frame assembly
22 ..... Frame 22a ..... Slot
24 ..... Insert 24c .....
30 ..... Divider Assembly 32 ..... First Divider
32a ..... engaging projection 32b ...... elastic hook
32d ..... protrusion 34 ..... 2nd divider
34a ..... engaging projection 34d ..... groove

Claims (4)

A pair of side bands 10a and 10b disposed at regular intervals;
A frame assembly 20 installed to connect the upper end and the lower end of the side band to each other, and having a plurality of coupling grooves 24c on at least one side of the front and rear surfaces thereof; And
A divider assembly (30) having a coupling protrusion coupled to the coupling groove (24c) of the frame assembly, respectively, at an upper end and a lower end, and coupled to the upper and lower frame assemblies;
The divider assembly has a coupling protrusion 32a coupled to the coupling groove 24c inside the upper end and the lower end, and includes a first divider having an elastic hook 32b, and a coupling groove 24c inside the upper end and the lower end. And a second divider having a coupling protrusion (34a) coupled to the second hook and a coupling groove (34b) to which the elastic hook (32b) is elastically coupled.
delete 2. The cable chain according to claim 1, wherein a continuous protrusion (32d) is formed on one side of the opposite surface of the first divider or the second divider, and a continuous groove (34d) on which the protrusion is coupled to the other side.
According to claim 1 or 3, wherein the frame assembly,
A frame 22 formed of aluminum and having an insertion groove 22a in a horizontal direction in which part of the front surface is opened;
A synthetic resin insert 24 inserted into the insertion groove 22a of the frame and having a coupling groove 24c; And
And a pair of end caps (26) coupled to both ends of the frame.

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