CN216096786U - Multi-rail drag chain structure for groove cutting - Google Patents

Abstract

The utility model relates to the technical field of groove cutting, in particular to a multi-track drag chain structure for groove cutting, which comprises: the cable drag chain comprises a bending part and two linear parts positioned at two ends of the bending part, and the two linear parts are respectively positioned at two sides of the Z-axis moving device; the cable drag chain comprises two movable plates, each movable plate comprises an installation part, the installation parts extend towards two sides to be provided with a first support part and a second support part respectively, the installation parts are provided with a first abutting part, the first abutting part is located on the outer side of the middle of the bending part, the first support part and the second support part are provided with a second abutting part respectively, the second abutting part is located on the inner side of the linear part, and a triangular area for the cable drag chain to move is formed between the first abutting part and the second abutting part. The utility model limits the moving area of the cable drag chain through the triangular area, and the moving plate can limit the height of the cable drag chain, reduce the action amplitude and angle of the cable drag chain, and avoid the situation that the cable drag chain is broken due to overlarge disturbance degree.

Description

Multi-rail drag chain structure for groove cutting

Technical Field

The utility model relates to the technical field of groove cutting, in particular to a multi-rail drag chain structure for groove cutting.

Background

The groove cutting machine is used for processing grooves, comprises a moving device and a cutting device which are provided with three shafts, and the cutting device comprises a cutting head and a control box, wherein a motor and various electronic elements used for controlling the cutting head are arranged in the control box.

For example, patent No. 2019103291942 and the patent name is groove cutting machine, can see from this patent that Z axle mobile device sets up on cutting device, and cutting device includes the cable tow chain to cutting head and control box are connected respectively to cable tow chain both ends. Meanwhile, one part of the cable drag chain is connected with the Z-axis moving device and is positioned above the Z-axis moving device, so that the cable drag chain can be influenced in the moving process of the Z-axis moving device, and meanwhile, the cable drag chain can rotate and move at any angle, so that the action amplitude and the angle of the cable drag chain are larger, and the cable drag chain can be broken due to overlarge disturbance degree.

Disclosure of Invention

The utility model aims to provide a multi-track drag chain structure for groove cutting, wherein a triangular area for a cable drag chain to move is formed between a first abutting part and a second abutting part so as to limit the moving area of the cable drag chain, and the two movable plates can limit the height of the cable drag chain, so that the action amplitude and angle of the cable drag chain are reduced, the situation that the cable drag chain is broken due to overlarge disturbance can be avoided, and the problem that the cable drag chain is broken due to the overlarge disturbance is solved.

The purpose of the utility model is realized as follows:

a multi-track drag chain structure for groove cutting, comprising:

the cable drag chain comprises a bending part and two linear parts positioned at two ends of the bending part, the two linear parts are respectively positioned at two sides of the Z-axis moving device, and the two linear parts are respectively connected with the cutting head and the control box;

the mounting frame is arranged above the control box;

the two movable plates are movably arranged on the mounting frame, each movable plate comprises an installation portion, the installation portions extend towards two sides to be provided with a first support portion and a second support portion respectively, the installation portions are provided with a first abutting piece, the first abutting piece is located on the outer side of the middle portion of the bending portion, the first support portion and the second support portion are provided with a second abutting piece respectively, the second abutting piece is located on the inner side of the straight line portion, and a triangular area for the cable drag chain to move is formed between the first abutting piece and the second abutting piece.

Preferably, the mounting portion is provided with a third abutting member, and the third abutting member is located on the inner side of the middle portion of the bending portion, so that the bending portion is limited from moving to the second abutting member.

Preferably, a driving source for driving the two moving plates to move is arranged at the top of the mounting frame, the two sliding rails are symmetrically arranged at the top of the mounting frame, and the sliding blocks are arranged at the bottoms of the moving plates below the two moving plates and correspond to the sliding rails.

Preferably, the mounting rack comprises a support rod and a placing rod, the driving source is arranged on the support rod, and the slide rail is arranged on the placing rod;

the supporting rod is provided with a supporting frame at the joint of the supporting rod and the placing rod, a first groove is formed in the side wall of the supporting rod, a first clamping piece is arranged on the side wall of the supporting frame corresponding to the first groove, a second groove is formed in the side wall of the placing rod, and a second clamping piece is arranged on the side wall of the supporting frame corresponding to the second groove.

Preferably, the slide rail comprises a slide way and a bottom plate connected with the mounting frame, the top of the slide way is cylindrical, and two sides of a joint between the top of the slide way and the bottom plate are inclined planes;

the slide block is provided with a sliding groove, two sides of the opening of the sliding groove are inwards provided with a butting part, the sliding groove is sleeved on the top of the sliding way, and the butting part is closed to the inclined plane.

Preferably, one end of the driving source, which is far away from the moving plate, is sleeved with a distance meter, and the distance meter is used for detecting the distance between the moving plate and the distance meter, so as to send information to the control box and further control whether the driving source drives the moving plate to move.

Preferably, the middle part of the first abutting part is respectively provided with a first through hole, a first connecting shaft penetrates through the first through hole and the two moving plates, and two ends of the first connecting shaft are exposed and are in threaded connection with the nut;

or/and the middle part of the second abutting part is provided with a second through hole respectively, a second connecting shaft penetrates through the second through hole and the two moving plates, and two ends of the second connecting shaft are exposed and are in threaded connection with the nut.

Preferably, the linear part is sleeved with a first lantern ring and a second lantern ring, the two sides of the first lantern ring are respectively provided with a first connecting part and a second connecting part, and the two sides of the second lantern ring are respectively provided with a third connecting part and a fourth connecting part; the first connecting part and the third connecting part are connected through a mounting plate, and the second connecting part and the fourth connecting part are connected with the side wall of the Z-axis moving device through corner connecting strips respectively.

Preferably, the straight line part is sleeved with a third lantern ring and a fourth lantern ring, a fifth connecting part is arranged at the bottom of the third lantern ring, and the fifth connecting part is connected with the side wall of the Z-axis moving device through a corner connecting strip;

three inner walls of lantern ring outwards extend and are provided with cowl, thereby when the cable tow chain removed, cowl and four butts of lantern ring restrict the cable tow chain to remove to the direction of lantern ring three.

Preferably, the first side wall of the abutting part is formed into a first arc surface corresponding to the cable drag chain, and the second side wall of the abutting part is formed into a second arc surface corresponding to the cable drag chain.

Compared with the prior art, the utility model has the outstanding and beneficial technical effects that:

1. according to the utility model, the triangular area for the movement of the cable drag chain is formed between the first abutting part and the second abutting part, so that the movement area of the cable drag chain is limited, and the two moving plates can limit the height of the cable drag chain, so that the action amplitude and angle of the cable drag chain are reduced, and the situation that the cable drag chain is broken due to overlarge disturbance degree can be avoided.

2. According to the utility model, the third abutting part limits the bending part to move towards the second abutting part, so that the moving range is reduced, and the action amplitude and angle of the cable drag chain are further reduced.

3. The top of the slide way is cylindrical, two sides of the joint between the top of the slide way and the bottom plate are inclined planes, the slide groove is sleeved at the top of the slide way, and the abutting part and the inclined planes are closed, so that the slide way and the slide block are connected more stably, and meanwhile, the slide way can play a good limiting role and avoid right-angle abrasion.

4. The distance between the movable frame and the distance measuring device is detected through the distance measuring device, so that information is sent to the control box to control whether the driving source drives the movable frame to move or not.

5. According to the utility model, the first lantern ring and the second lantern ring are arranged, namely the two lantern rings are arranged, and the mounting plate is matched, so that the limited area of the cable drag chain, namely the surface enlarged from a point, can be enlarged, and the moving range of the cable drag chain can be better limited.

6. According to the utility model, the third lantern ring is arranged, so that the moving range of the cable drag chain is limited, meanwhile, the arc-shaped baffle is abutted against the fourth lantern ring to limit the cable drag chain to move towards the third lantern ring, and further, the situation that the use of the cutting head is influenced by the fact that the cable drag chain between the third lantern ring and the cutting head is too short is avoided.

7. The utility model increases the contact area through the arrangement of the cambered surface, thereby ensuring better limiting effect.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic cross-sectional structure of the present invention.

Fig. 4 is a schematic structural view of the moving plate and the mounting bracket.

Fig. 5 is a schematic structural diagram of a related structure of the moving plate.

Fig. 6 is a schematic structural view of the support rod and the placement rod.

Fig. 7 is a structural schematic view of a related structure of the support frame.

Fig. 8 is a schematic structural diagram of the first collar and the second collar.

Fig. 9 is a schematic structural diagram of a third collar and a fourth collar.

Reference numerals: 1-cable drag chain; 11-a bend; 12-a straight portion; 2, moving a board; 21-a mounting portion;

22-branch one; 23-branch two; 24-a slide block; 241-a chute; 242-an abutment; 3-mounting a frame;

31-a slide rail; 311-a slide; 312-a backplane; 313-inclined plane; 32-a support bar; 321-groove I;

33-placing the rod; 331-groove two; 34-a support frame; 341-fastener one; 342-a second clamping piece;

4-a first abutting part; 41-a first through hole; 42-arc surface one; 5-a second abutting part; 52-cambered surface two;

6-a third abutting part; 7-lantern ring one; 71-connecting part one; 72-link two; 8-lantern ring II;

81-connecting part three; 82-connecting part four; 9-lantern ring III; 91-connecting part five; 92-a curved baffle;

10-a drive source; 20-a range finder; 30-a nut; 40-lantern ring four; 50-mounting a plate;

60-corner connecting strips.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 7, a multi-track drag chain structure for groove cutting comprises a cable drag chain 1, a mounting frame 3 and two moving plates 2, wherein the cable drag chain 1 comprises a bending part 11 and two linear parts 12 positioned at two ends of the bending part 11, the two linear parts 12 are respectively positioned at two sides of a Z-axis moving device, and the two linear parts 12 are respectively connected with a cutting head and a control box;

therefore, in the actual use process, the two straight line parts 12 are respectively positioned at the two sides of the Z-axis moving device, so that the influence on the cable drag chain 1 in the moving process of the Z-axis moving device is avoided.

Meanwhile, the mounting frame 3 is arranged above the control box, and the two moving plates 2 are movably arranged on the mounting frame 3. Each moving plate 2 comprises a mounting part 21, and the mounting part 21 is respectively provided with a branch part I22 and a branch part II 23 which extend towards two sides.

The installation part 21 is provided with a first abutting part 4, the first abutting part 4 is located on the outer side of the middle part of the bending part 11, the first branch part 22 and the second branch part 23 are respectively provided with a second abutting part 5, the second abutting part 5 is located on the inner side of the straight line part 12, and a triangular area for the movement of the cable drag chain 1 is formed between the first abutting part 4 and the two second abutting parts 5.

Therefore, in the actual use process, a triangular area for the movement of the cable drag chain 1 is formed between the first abutting part 4 and the second abutting part 5, so that the movement area of the cable drag chain is limited, and the height of the cable drag chain 1 can be limited by the two movable plates 2, so that the action amplitude and the angle of the cable drag chain 1 are reduced, and the situation that the cable drag chain 1 is broken due to overlarge disturbance degree can be avoided.

Wherein two movable plates 2 remove and set up on mounting bracket 3 to the distance between adjustable cable tow chain 1 and the Z axle mobile device and then adjust the moving range of cable tow chain 3. This is because different lengths of cable drag chains 1 may be required to process different items or different equipment and thus may be adjusted by the movement settings of the moving plate 2.

For example, the distance between the cable drag chain 1 and the Z-axis moving device can be shortened by approaching the moving plate 2 to a point toward the Z-axis moving device, so that more cable drag chains 1 can be moved toward the cutting head in the moving process, and the rotating range of the cutting head is larger.

As shown in fig. 1 to 5, the mounting portion 21 is provided with a third abutment 6, and the third abutment 6 is located inside the middle portion of the bending portion 11, thereby restricting the bending portion 11 from moving toward the second abutment 5.

Therefore, in the actual use process, the third abutting piece 6 limits the bending part 11 to move towards the second abutting piece 5, so that the moving range is reduced, and the action amplitude and the action angle of the cable drag chain 1 are further reduced.

As shown in fig. 1 to 5, a driving source 10 for driving the two moving plates 2 to move is disposed on the top of the mounting frame 3, two slide rails 31 are symmetrically disposed on the top of the mounting frame 3, and sliders 24 are disposed at the bottoms of the two moving plates 2 located below the two moving plates 2 corresponding to the slide rails 31. Wherein the driving source 5 is a cylinder, and the two slide rails 31 enable the movement to be more stable.

Therefore, in actual use, when the driving source 10 drives the moving plate 2 to move, the slider 24 moves on the slide rail 31, thereby playing a role of guiding.

As shown in fig. 4 to 6, the structure of the slide rail 31 and the slider 24 is: firstly, the slide rail 31 comprises a slide way 311 and a bottom plate 312 connected with the mounting frame 3, the top of the slide way 311 is a cylinder, and two sides of the joint between the top of the slide way 311 and the bottom plate 312 are both inclined surfaces 313.

The slider 24 is provided with a sliding slot 241, and two sides of the opening of the sliding slot 241 are inwardly provided with an abutting portion 242, wherein the sliding slot 241 is sleeved on the top of the sliding way 311, and the abutting portion 242 and the inclined surface 313 are closed.

Therefore, in the actual use process, the top of the slide way 311 is a cylinder, and both sides of the connection between the top of the slide way 311 and the bottom plate 312 are the inclined surfaces 313, and meanwhile, the slide groove 241 is sleeved on the top of the slide way 311, and the abutting portion 242 and the inclined surfaces 313 are closed.

Compared with the slide rail 31 and the slide block 24 with square grooves and square blocks, the slide way 311 replaces a plane with a cylindrical cambered surface, so that the contact area is increased, the connection between the slide rail 31 and the slide block 24 is more stable, and meanwhile, the right-angled abrasion is also avoided. And the abutting portion 242 is brought close to the inclined surface 313, thereby performing a good limit function.

As shown in fig. 6 and 7, the mounting bracket 3 has the following structure: first, the mount 3 includes a support bar 32 and a placing bar 33, and the driving source 10 is provided on the support bar 32, and the slide rail 31 is provided on the placing bar 33.

Meanwhile, a support frame 34 is arranged at the joint of the support rod 32 and the placing rod 33, a first groove 321 is formed in the side wall of the support rod 32, a first clamping piece 341 is arranged on the side wall of the support frame 34 corresponding to the first groove 321, a second groove 331 is formed in the side wall of the placing rod 33, and a second clamping piece 342 is arranged on the side wall of the support frame 34 corresponding to the second groove 331.

Therefore, during the actual use process, the arrangement of the support rod 32 and the placing rod 33 realizes the placing of the components, and the support frame 34 is matched to fasten the connection between the support rod 32 and the placing rod 33 and increase the strength of the whole.

And the first groove 321 and the first clamping piece 341 are matched to fasten the connection between the support frame 34 and the support rod 32, and the second groove 331 and the second clamping piece 342 are matched to fasten the connection between the support frame 34 and the placing rod 33.

As shown in fig. 1 to 7, a distance meter 20 is sleeved on an end of the driving source 10 away from the moving plate 2, and the distance meter 20 is used for detecting a distance between the moving plate 2 and the distance meter 20, so as to send information to the control box to control whether the driving source 10 drives the moving plate 2 to move.

Therefore, during actual use, the distance between the moving plate 2 and the distance meter 20 is detected by the distance meter 20, so as to send information to the control box to control whether the driving source 10 drives the moving plate 2 to move.

This is because the cable drag chain 1 of one device is limited, and when different products are processed, the corresponding cutting head rotation range is different, and at this time, the cutting head rotation range can be realized by adjusting the distance between the cable drag chain 1 and the Z-axis moving device, and then whether the distance between the cable drag chain 1 and the Z-axis moving device is proper or not is detected by the distance measuring device 20.

As shown in fig. 3, the connection between the first abutment 4 and the moving plate 2: first, the first abutting member 4 is provided at the middle thereof with a first through hole 41, and a first connecting shaft passes through the first through hole 41 and the two moving plates 2, and both ends of the first connecting shaft are exposed and are in threaded connection with the nut 30.

And because the cable drag chain 1 moves to drive the first abutting part 4 to rotate, a bearing is arranged between the first abutting part 4 and the first connecting shaft.

Similarly, the second abutting part 5 can adopt a structure as the first abutting part 4, that is, the middle part of the second abutting part 5 is respectively provided with a second through hole, a second connecting shaft passes through the second through hole and the two moving plates 2, and two ends of the second connecting shaft are exposed and are in threaded connection with the nut 30.

Meanwhile, the second abutting part 5 can adopt other structures, the same structure as that of the first abutting part 4 can be adopted, and the structure can also be different from that of the third abutting part 6.

As shown in fig. 3, the first abutment member 4 is formed into the first arc surface 42 corresponding to the cable drag chain 1, and the second abutment member 5 is formed into the second arc surface 52 corresponding to the cable drag chain 1. Therefore, in the actual use process, the contact area is increased through the arrangement of the first arc surface 42 and the second arc surface 52, and the limit is better.

As shown in fig. 1, since the distance between the second abutment 5 and the cutting head and the control box is also relatively long, it is not sufficient to have a single second abutment 5. A collar connected to the sidewall of the Z-axis moving device may be fitted to one or both of the two linear portions 12 to perform a limit.

The part difference that corresponds 1 connections of cable tow chain simultaneously can adopt different lantern ring structures, and the structure that this section of being connected as 1 and the control box of cable tow chain adopted is: as shown in fig. 1, 2 and 8, first, the straight portion 12 is sleeved with a first collar 7 and a second collar 8, the first collar 7 is provided with a first connecting portion 71 and a second connecting portion 72 on two sides, and the second collar 8 is provided with a third connecting portion 81 and a fourth connecting portion 82 on two sides.

The first connecting portion 71 and the third connecting portion 81 are connected by the mounting plate 50, and the second connecting portion 72 and the fourth connecting portion 82 are respectively connected with the side wall of the Z-axis moving device by the corner connecting strip 60.

Therefore in the in-service use process, thereby carry on spacingly to cable tow chain 1 through the setting of lantern ring one 7 and lantern ring two 8, the setting of two lantern rings simultaneously and cooperation mounting panel to can enlarge the face that the restriction area of cable tow chain 1 enlarges from the point promptly, and then the moving range of restriction cable tow chain 1 that can be better.

When the spacing subassembly that this section of adoption that cable tow chain 1 and cutting head are connected is: as shown in fig. 1, 2, 3 and 9, the straight line part 12 is sleeved with a third collar 9 and a fourth collar 40, the bottom of the third collar 9 is provided with a fifth connecting part 91, and the fifth connecting part 91 is connected with the side wall of the Z-axis moving device through a corner connecting strip 60.

Meanwhile, the inner wall of the third lantern ring 9 extends outwards to form an arc-shaped baffle 92, and when the cable drag chain 1 moves, the arc-shaped baffle 9 is abutted to the fourth lantern ring 40 so as to limit the cable drag chain 1 to move towards the third lantern ring 9.

Therefore, in the actual use process, through the setting of lantern ring three 9 to the range of movement of restriction cable tow chain 1, thereby restrict the direction removal of cable tow chain 1 to lantern ring three 9 through cowl 92 and lantern ring four 10 butt simultaneously, and then avoid being located the cable tow chain 1 between lantern ring three 9 and cutting head short and influence the use of cutting head.

The foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. While the present invention is not limited to the above-described embodiments, various changes and modifications may be made without departing from the spirit and scope of the utility model, and these changes and modifications are intended to be included within the scope of the utility model as claimed.

Claims (10)

1. A multi-track tow chain structure for groove cutting, comprising:

the cable drag chain (1) comprises a bending part (11) and two linear parts (12) positioned at two ends of the bending part (11), the two linear parts (12) are respectively positioned at two sides of the Z-axis moving device, and the two linear parts (12) are respectively connected with the cutting head and the control box;

the mounting frame (3) is arranged above the control box;

two movable plates (2), its removal sets up on mounting bracket (3), and every movable plate (2) includes installation department (21) to installation department (21) extend to both sides respectively and are provided with a portion one (22) and a portion two (23), installation department (21) are provided with a butt piece one (4), and butt piece one (4) are located the outside at flexion (11) middle part, a portion one (22) and a portion two (23) are provided with a butt piece two (5) respectively, and butt piece two (5) are located the inboard of sharp portion (12) to the shaping has the triangle-shaped region that supplies cable tow chain (1) to remove between butt piece one (4) and two butt piece two (5).

2. The multi-track drag chain structure for groove cutting of claim 1, wherein: the mounting portion (21) is provided with a third abutting piece (6), and the third abutting piece (6) is located on the inner side of the middle of the bending portion (11), so that the bending portion (11) is limited to move towards the second abutting piece (5).

3. The multi-track drag chain structure for groove cutting according to claim 1 or 2, wherein: the top of the mounting rack (3) is provided with a driving source (10) for driving the two movable plates (2) to move, the top of the mounting rack (3) is symmetrically provided with two sliding rails (31), and the bottoms of the movable plates (2) below the two movable plates (2) are provided with sliding blocks (24) corresponding to the sliding rails (31).

4. The multi-track drag chain structure for groove cutting of claim 3, wherein: the mounting rack (3) comprises a support rod (32) and a placing rod (33), the driving source (10) is arranged on the support rod (32), and the sliding rail (31) is arranged on the placing rod (33);

the junction of bracing piece (32) and placing pole (33) is provided with support frame (34), and recess one (321) have been seted up to bracing piece (32) lateral wall, and support frame (34) lateral wall corresponds recess one (321) and is provided with joint spare one (341), the lateral wall of placing pole (33) is seted up recess two (331), and support frame (34) lateral wall corresponds recess two (331) and is provided with joint spare two (342).

5. The multi-track drag chain structure for groove cutting of claim 3, wherein: the sliding rail (31) comprises a sliding way (311) and a bottom plate (312) connected with the mounting frame (3), the top of the sliding way (311) is cylindrical, and two sides of the joint between the top of the sliding way (311) and the bottom plate (312) are both inclined planes (313);

the sliding block (24) is provided with a sliding groove (241), two sides of the opening of the sliding groove (241) are inwards provided with an abutting part (242), the sliding groove (241) is sleeved on the top of the sliding rail (311), and the abutting part (242) is close to the inclined plane (313).

6. The multi-track drag chain structure for groove cutting of claim 3, wherein: one end of the driving source (10) far away from the moving plate (2) is sleeved with a distance meter (20), and the distance meter (20) is used for detecting the distance between the moving plate (2) and the distance meter (20), so that information is sent to the control box to control whether the driving source (10) drives the moving plate (2) to move or not.

7. The multi-track drag chain structure for groove cutting according to claim 1 or 2, wherein: the middle parts of the first abutting parts (4) are respectively provided with a first through hole (41), a first connecting shaft penetrates through the first through holes (41) and the two moving plates (2), and two ends of the first connecting shaft are exposed and are in threaded connection with the nuts (30);

or/and the middle part of the second abutting part (5) is respectively provided with a second through hole, a second connecting shaft penetrates through the second through hole and the two moving plates (2), and two ends of the second connecting shaft are exposed and are in threaded connection with the nut (30).

8. The multi-track drag chain structure for groove cutting according to claim 1 or 2, wherein: the straight line part (12) is sleeved with a first lantern ring (7) and a second lantern ring (8), a first connecting part (71) and a second connecting part (72) are arranged on two sides of the first lantern ring (7) respectively, and a third connecting part (81) and a fourth connecting part (82) are arranged on two sides of the second lantern ring (8) respectively; the first connecting part (71) is connected with the third connecting part (81) through the mounting plate (50), and the second connecting part (72) and the fourth connecting part (82) are respectively connected with the side wall of the Z-axis moving device through corner connecting strips (60).

9. The multi-track drag chain structure for groove cutting according to claim 1 or 2, wherein: the straight line part (12) is sleeved with a third lantern ring (9) and a fourth lantern ring (40), the bottom of the third lantern ring (9) is provided with a fifth connecting part (91), and the fifth connecting part (91) is connected with the side wall of the Z-axis moving device through a corner connecting strip (60);

the inner wall of the third lantern ring (9) extends outwards to form an arc-shaped baffle (92), and when the cable drag chain (1) moves, the arc-shaped baffle (92) abuts against the fourth lantern ring (40) to limit the cable drag chain (1) to move towards the third lantern ring (9).

10. The multi-track drag chain structure for groove cutting according to claim 1 or 2, wherein: the side wall of the first abutting part (4) is formed into a first cambered surface (42) corresponding to the cable drag chain (1), and the side wall of the second abutting part (5) is formed into a second cambered surface (52) corresponding to the cable drag chain (1).

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