WO2021230436A1 - Dust-free cableveyor - Google Patents

Abstract

The present invention relates to a dust-free cableveyor comprising: a link unit in which a plurality of link module bodies are rotatably coupled to one another and extend in the lengthwise direction, the link module bodies being formed separately from one another on opposite sides in a direction perpendicular to the ground; a support connection unit coupled respectively to facing upper and lower portions of the link module bodies to connect the upper and lower portions, and forming a cable passage in which a cable is accommodated; and a wear-resistant insertion member provided on a contact surface on which the link module bodies are coupled to one another and in contact with one another. Generation of dust due to degradational wearing through repeated friction between components during operation of equipment may be suppressed. In addition, there are technical features of suppressing dust generation due to the wearing caused by repeated micro-contacts between inner cables and the components and preventing damage to the cable.

Description

Dust-free cable bear

The present invention relates to a cable bear, and more particularly, to a dust-free cable bear capable of suppressing the generation of dust by providing means made of abrasion-resistant material in a friction part.

In general, a cable veyor refers to a device for protecting wires and hoses of automation equipment and guiding them safely.

A number of links are interconnected and combined as needed, such as a chain connection type, so that the joints of each link are curved. By accommodating cables or hydraulic hoses connected to various automation equipment of It is a kind of protective equipment to prevent disconnection or leakage.

The cable bear provides a space to be guided to the cable as a basic mutual link, and the upper and lower portions of the cable bear can protect the inner cable or hose from the outside while mutually supporting the link as a connecting support.

The cable bears are widely used from small to large, and in the case of cable bears manufactured in small or medium sizes, they are injection molded with a polyamide (PA)-based plastic synthetic resin-based material that is easy to mold and manufacture, and the approximate The shape is made in such a way that the shaft part is formed on one side of the corresponding side, the shaft hole is formed to correspond to the opposite side, the link joint according to the coupling of the shaft part and the shaft hole is coupled, and the supporter hangs both sides of the link on one side to fix the inside It is manufactured as a unit that forms a passage through which cables or hoses can be accommodated.

The link unit as described above is used by continuously connecting as needed as a combination of the shaft portion and the shaft hole, but there is a problem in that friction occurs between the links according to the cable bear operation, and dust is generated according to the friction.

In addition, due to the movement of the cable or hose accommodated in the link unit due to the operation of the cable bear, the contact is accumulated inside the link, causing a problem of damage, and thus problems such as generation of dust are continuously induced. the current situation.

The present invention is to solve the above problems, and it is an object of the present invention to suppress the generation of dust due to the deterioration of the wear phenomenon due to the repeated friction between the components during operation of the device.

In addition, there is another object of suppressing the generation of dust generated by abrasion caused by the micro-repeated contact between the internal cable and the components and at the same time preventing the cable from being damaged.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned will be clearly understood by those of ordinary skill in the art from the following description.

In order to achieve the above object, in the present invention, a plurality of link module bodies are rotatably coupled to each other to extend in the longitudinal direction, and the link module body includes a link part formed to be spaced apart on both sides in a vertical direction from the ground, and the opposite side of the link module body. It is coupled to the upper and lower portions of the link module body and connects them, and includes a support connecting portion for forming a cable passage in which a cable is accommodated and a wear-resistant inserting member provided on a contact surface in which the link module body is coupled to and in contact with each other. characterized.

The link module body, one side is made of a circular plate shape, an insertion hole in which a coupling protrusion is formed protruding to the outer surface, and the other side is made in a shape corresponding to the insertion hole, and a coupling hole is formed in the side so that the coupling protrusion is It is characterized in that it comprises a receiving device that is inserted into the coupling.

The insertion hole has a cut-out surface formed along the arc shape of the outer end, and a locking jaw is formed at the rear of the receiver, so that the locking jaw is positioned on the cut surface in a state in which the insertion hole and the receiver are combined, so that the link It is characterized in that the rotation range of the module body is set.

The wear-resistant inserting member is formed on the contact surface between the insertion hole and the accommodation portion to block direct contact between the insertion portion and the accommodation portion.

It is installed between the support connection parts formed in the upper and lower parts, one or more fixing holes are formed in the longitudinal direction, characterized in that it further comprises a cable fixing member through which the cable is formed.

And, the wear-resistant insertion member and the cable fixing member is characterized in that using ultra-high molecular weight polyethylene (UHMW-PE).

The present invention according to the above configuration can expect the following effects.

First, it is possible to suppress the generation of dust due to the deterioration of the wear phenomenon due to the repeated friction between the components during the operation of the device.

In addition, it has the effect of suppressing the generation of dust generated by abrasion caused by the micro-repeated contact between the internal cable and the component and preventing the cable from being damaged.

1 is a conceptual diagram of a dust-free cable bear according to an embodiment of the present invention.

2 is a view showing a position in which a wear-resistant inserting member is formed in the link module body according to the present invention.

Figure 3 is a view showing one side cutaway of the dust-free cable bear according to the present invention.

4 is an exploded perspective view showing a coupling relationship between a support connection part, a cable fixing member, and a cable according to the present invention;

The present invention relates to a cable bear, and more particularly, to a dust-free cable bear capable of suppressing the generation of dust by providing means made of abrasion-resistant material in a friction part.

In particular, it suppresses the generation of dust due to the deterioration of abrasion phenomenon due to repeated friction between the components during operation of the device, and suppresses the generation of dust caused by abrasion caused by the micro-repeated contact between the internal cable and the component and prevents the breakage of the cable. It is a technical feature to prevent.

1 is a conceptual diagram of a dust-free cable bear according to an embodiment of the present invention, FIG. 2 is a view showing a position in which a wear-resistant inserting member is formed in a link module body according to the present invention, and FIG. 3 is a non-dusting cable according to the present invention It is a view showing one side cutaway of the dust cable bear, and FIG. 4 is an exploded perspective view showing the coupling relationship between the support connection part, the cable fixing member, and the cable according to the present invention.

Hereinafter, a dust-free cable bear according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The present invention largely includes a link portion 10, a support connection portion 20, and a wear-resistant inserting member (30).

First, in the link unit 10, a plurality of link module bodies 100 are rotatably coupled to each other to extend in the longitudinal direction, and the link module bodies 100 are formed to be spaced apart from each other in a vertical direction from the ground.

That is, the link unit 10 can be extended in the longitudinal direction by coupling the link module body 100 to each other, and the quantity of the link module body 100 can be adjusted according to the length of the cable C or the working environment. possible.

Here, the link module body 100 is divided into an insertion hole 110 and a receiving hole 120 , and the classification criterion is divided according to a difference in the structure and role of one side and the other side of the link module body 100 .

When the link module body 100 is positioned adjacent to each other for coupling of the plurality of link module bodies 100, the insertion hole 110 and the receiving hole 120 are positioned adjacent to each other so that they are connected by mutual coupling.

First, the insertion hole 110 is formed on one side of the link module body 100, is formed in a circular plate shape, and the coupling protrusion 111 is formed to protrude to the outer surface.

At this time, since the insertion hole 110 is formed in a circular shape, rotation is possible without interference when the receiving hole 120 is rotated in the inserted state.

The receiving hole 120 is formed on the other side of the link module body 100 and has a shape corresponding to the insertion hole 110 , and a coupling hole 121 is formed in the side to the coupling protrusion 111 . By being inserted and coupled, the coupling between the link module bodies 100 is made.

At this time, the insertion hole 110 and the receiving port 120 are located on the same extension line, and the insertion hole 110 is stepped inwardly from the receiving port 120 so that the coupling protrusion 111 is the coupling. It has a structure that can be inserted and coupled to the hole 121 so that the outer surface can be made in a flat state in the coupled state.

On the other hand, when the insertion port 110 and the receiving port 120 of the adjacent link module body 100 are rotatably coupled, the rotational movable range is set.

In order to set the rotational movable range, the insertion hole 110 has a cut surface 112 formed along the arc shape of the outer end, and the receiving hole 120 has a locking protrusion 122 formed at the rear of the insertion hole 110 . ) and the receiving tool 120 are coupled, the locking jaw 122 is positioned on the cut surface 112 to set the rotational movable range by interference.

More specifically, the locking jaw 122 is positioned on the same line as the cut surface 112 of the outer end of the insertion hole 110 , and the locking jaw 122 enters the cut surface 112 . As it is positioned, the rotational movable range is set as interference occurs between the cross-section of the cut surface 112 and the locking jaw 122 .

That is, in order to adjust the rotational movable range of the link module body 100 , the range of the cut surface 112 may be adjusted, and according to the arrangement of the cut surface 112 and the locking jaw 122 , the It is also possible to rotate with

Next, the support connection part 20 is coupled to and connected to the upper and lower portions of the opposite link module body 100, respectively, and according to the support connection part 20 formed up and down with the link module body 100 on both sides. A cable passage 21 in which the cable C is accommodated is formed therein.

The cable C accommodated in the cable passage 21 is not separated from the outside because the top, bottom, left, and right are blocked, thereby preventing the cable C from being damaged.

At this time, it is preferable that any one of the upper or lower support connection parts 20 is integrally coupled to form the link module body 100 on the left and right sides in an integrated state, and the other is formed detachably to form the insertion hole 110 . ) and the receiving port 120, it is preferable to make it easy to work when combining and removing.

In one embodiment of the present invention, the upper support connection part 20 is integrally coupled to the link module body 100 , and the lower support connection part 20 is detachably formed on the link module body 100 .

The attachment and detachment method of the support connection part 20 is to form a fastening bar on the lower side of the link module body 100, and to form fastening rings on both ends of the support connection part 20, so that mutual fastening through force fitting is adopted. However, the detachable method is not limited thereto.

Next, the wear-resistant inserting member 30 is provided on the contact surface to which the link module body 100 is coupled to each other.

More specifically, the wear-resistant insertion member 30 is formed on the contact surface between the insertion port 110 and the receiving unit 120 to block direct contact between the insertion unit and the receiving unit, thereby preventing the existing configuration. It is possible to block the generation of dust due to the phenomenon of deterioration and wear caused by repeated friction between parts.

In addition, the cable fixing member 40 may be further provided in order to suppress the generation of dust generated by abrasion caused by abrasion between the cable (C) and the component parts and to prevent damage to the cable (C).

The cable fixing member 40 is installed between the support connection parts 20 formed in the upper and lower parts, and one or more fixing holes 41 are formed in the longitudinal direction so that the cable C is inserted and formed so that the cable (C) is inserted. It is possible to prevent damage and abrasion of the cable (C) by blocking direct contact between the cable (C) and the link module body (100) and the supporting connection part (20) while reducing the operation of C).

On the other hand, the inner surface of the support connection part 20 is formed with a groove 22 that is dug to a predetermined depth, and the cable fixing member 40 is made in the shape of a rectangular parallelepiped, and the groove 22 of the support connection part 20 is formed. It is fixed by pressing the cable fixing member 40 while coupling the support connection part 20 to the link module body 100 after positioning it on the top.

The cable fixing member 40 has one or more fixing holes 41 formed therein, and as an insertion path 42 communicating with the fixing hole 41 is formed, the cable C is forced into the insertion path 42 . The cable (C) is fixed to the cable fixing member (40) by pushing it into the fixing hole (41).

In this case, it is preferable to use ultra-high molecular weight polyethylene (UHMW-PE) for the wear-resistant inserting member 30 and the cable fixing member 40 .

The molecular weight of general polyethylene is about 20,000 to 300,000, but as the molecular weight of ultra-high molecular weight polyethylene is from 1 million to 10 million, it withstands low-temperature environments well, has excellent abrasion resistance, and is light and strong. In addition, it has impact resistance and has a low absorption rate, enabling waterproofing.

The above-described embodiments are merely exemplary, and those of ordinary skill in the art can variously modified other embodiments therefrom.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also other variously modified embodiments by the technical spirit of the invention described in the claims below.

The present invention relates to a cable bear, and more particularly, it can be used in the field of a dust-free cable bear capable of suppressing dust generation by providing means made of abrasion-resistant material in a friction part.

Claims (6)

a plurality of link module bodies that are rotatably coupled to each other and extend in the longitudinal direction, and the link module bodies are formed to be spaced apart on both sides in a vertical direction from the ground; a support connecting part coupled to and connected to the upper and lower portions of the opposing link module body, respectively, and forming a cable passage in which the cable is accommodated; and a wear-resistant inserting member provided on a contact surface in which the link module body is coupled to and in contact with each other. According to claim 1, The link module body, an insertion hole in which one side is made of a circular plate shape, and a coupling protrusion is formed to protrude to an outer surface; The other side is made of a shape corresponding to the insertion hole, and a coupling hole is formed in the side to accommodate the coupling protrusion to be inserted and coupled; Dust-free cable bear comprising a. 3. The method of claim 2, The insertion hole has a cut-out surface formed along the arc shape of the outer end, and a locking jaw is formed at the rear of the receiver, so that the locking jaw is positioned on the cut surface in a state in which the insertion hole and the receiver are combined, so that the link Dust-free cable bear, characterized in that the rotation range of the module is set. 3. The method of claim 2, The wear-resistant insert member, Dust-free cable bear, characterized in that it is formed on the contact surface between the insertion hole and the accommodation portion to block direct contact between the insertion portion and the accommodation portion. According to claim 1, The dust-free cable bear further comprising: a cable fixing member installed between the support connection parts formed in the upper and lower parts, and having one or more fixing holes formed in the longitudinal direction to insert the cable. 6. The method of claim 1 or 5, The wear-resistant insertion member and the cable fixing member are dust-free cable bear, characterized in that using ultra-high molecular weight polyethylene (UHMW-PE).

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