CN113690804B - Cable processing device - Google Patents

Abstract

The invention discloses a cable processing device which comprises a feeding assembly, wherein the feeding assembly comprises a processing pipe, a feeding pipe fixed in the processing pipe, mounting plates fixed on two sides of the inner wall of the feeding pipe, a feeding piece positioned in one of the mounting plates, a clamping piece positioned in the other mounting plate, an adjusting piece arranged in the feeding pipe, and a bearing piece fixed in the feeding pipe. According to the cable stripping device, cables with different diameters can be machined through the matching of the feeding assembly and the machining assembly, and then the cut insulating layer can be automatically stripped through the cable stripping assembly without manual operation again, so that the working efficiency is greatly improved.

Description

Cable processing device

Technical Field

The invention relates to the technical field of cable processing, in particular to a cable processing device.

Background

The cable is generally a rope-like cable formed by twisting several or several groups of conductors (each group is at least two), each group of conductors are mutually insulated and are usually twisted around a center, a highly-insulated covering layer is coated on the whole outer surface, the surface insulating layer of the cable is usually required to be removed in the processing process of the cable, the processing equipment for removing the insulating layer in the prior art is difficult to process the cables with different diameters, and the insulating layer is required to be manually stripped after the cutting is finished, so that the working efficiency is low.

Disclosure of Invention

In order to solve the technical problems, the invention provides the following technical scheme: a cable processing device comprises a feeding assembly, a clamping assembly and a clamping assembly, wherein the feeding assembly comprises a processing pipe, a feeding pipe fixed inside the processing pipe, mounting plates fixed on two sides of the inner wall of the feeding pipe, a feeding piece positioned inside one of the mounting plates, a clamping piece positioned inside the other mounting plate, an adjusting piece arranged inside the feeding pipe and a receiving piece fixed inside the feeding pipe; the processing assembly is positioned at one end of the processing pipe and comprises a cutting knife, a driven gear and a fixing ring, wherein a spiral groove is formed in the inner side of the fixing ring, a convex block is fixed on one side of the cutting knife, which is close to the fixing ring, the convex block slides in the spiral groove, and the driven gear is positioned at one end of the processing pipe; the wire stripping assembly is arranged on the outer side of the machining assembly and comprises a discharge pipe, a reinforcing rod and a wire stripping piece, one end of the reinforcing rod is fixed with the machining pipe, the other end of the reinforcing rod is fixed with the discharge pipe, the discharge pipe is located in the middle of the discharge end of the machining pipe, and the wire stripping piece is arranged at one end, close to the discharge pipe, of the discharge pipe.

As a preferable aspect of the cable processing apparatus of the present invention, wherein: the feeding part comprises a feeding gear, a fixed shaft, a first connecting rod and a driving motor;

the feeding gear is located in the mounting panel, the fixed axle is fixed in the top and the bottom of feeding gear, and is two sets of the spacing groove has all been seted up to the mounting panel inner wall, the fixed axle slide in the feeding piece the spacing inslot, head rod and top the fixed axle is fixed, the top of head rod with driving motor's output is fixed, driving motor is located the top of processing pipe.

As a preferable aspect of the cable processing apparatus of the present invention, wherein: the clamping piece comprises a moving plate, a clamping plate, a sliding block and a second connecting rod;

the movable plate is located in the mounting panel, the clamping plate is fixed with the inner side of the movable plate, the sliding block is fixed to the top and the bottom of the movable plate, the sliding block slides in the limiting groove of the clamping piece, and the second connecting rod is fixed with the top of the sliding block.

As a preferable aspect of the cable processing apparatus of the present invention, wherein: the adjusting part comprises a bearing, a fixing plate, a threaded rod and a driving pipe;

the bearing is provided with two sets, respectively with the head rod with the second connecting rod is fixed, the one end of threaded rod with the bearing is fixed, and the other end threaded connection in the driving tube, the driving tube rotate connect in the inboard of fixed plate.

As a preferable aspect of the cable processing apparatus of the present invention, wherein: the bearing piece comprises a bearing plate, an arc-shaped plate, a guide rod and a tensioning spring;

the receiving plate is fixed with the inner wall of the feeding pipe, the arc-shaped plate is located above the receiving plate, the top end of the guide rod is fixed with the arc-shaped plate, and two ends of the tensioning spring are respectively fixed with the receiving plate and the arc-shaped plate.

As a preferable aspect of the cable processing apparatus of the present invention, wherein: the inner wall of the processing pipe is fixed with a guide plate, and the cutting knife slides in the guide plate.

As a preferable aspect of the cable processing apparatus of the present invention, wherein: the processing assembly further comprises a driving gear, a fixed rod and a connecting plate;

the connecting plate is fixed on the top of the processing pipe, the fixed rod is rotatably connected with the connecting plate, the driving gear is fixed with one end of the fixed rod, and the driving gear is meshed with the driven gear.

As a preferable aspect of the cable processing apparatus of the present invention, wherein: the surface of the fixing ring is provided with a groove, the surface of the processing pipe is in threaded connection with a bolt, and the bolt slides in the groove.

As a preferable aspect of the cable processing apparatus of the present invention, wherein: the wire stripping piece comprises a wire stripping plate, a supporting plate and a return spring;

the wire stripping plate is annularly and uniformly distributed at one end of the discharging pipe, the supporting plate is fixed at the outer side of the discharging pipe, two ends of the reset spring are respectively fixed with the supporting plate and the wire stripping plate, and the wire stripping plate is rotatably connected with the discharging pipe.

As a preferable aspect of the cable processing apparatus of the present invention, wherein: the wire stripping plate is provided with a through hole, and a clamp spring is arranged in the through hole.

The invention has the beneficial effects that: according to the cable stripping device, cables with different diameters can be machined through the matching of the feeding assembly and the machining assembly, and then the cut insulating layer can be automatically stripped through the cable stripping assembly without manual operation again, so that the working efficiency is greatly improved.

Drawings

Fig. 1 is an overall configuration diagram of a cable processing apparatus.

Fig. 2 is a structural view of a feeding assembly of the cable processing device.

Fig. 3 is a structural view of a processing unit of the cable processing apparatus.

Fig. 4 is another view of the cutting blade of the cable processing device.

Fig. 5 is a side view of a feed assembly of the cable processing apparatus.

Fig. 6 is a connecting structure view of the moving plate and the holding plate of the cable processing apparatus.

Fig. 7 is a structural view of a wire stripping assembly of the cable processing device.

Fig. 8 is an enlarged view of a portion a in fig. 7 of the cable processing apparatus.

In the figure: 100. a feeding assembly; 101. processing a pipe; 102. a feed pipe; 103. mounting a plate; 104. a feeding member; 104a, a feeding gear; 104b, a fixed shaft; 104c, a first connecting rod; 104d, a driving motor; s, limiting grooves; 105. a clamping member; 105a, moving plate; 105b, a clamping plate; 105c, a slider; 105d, a second connecting rod; 106. an adjustment member; 106a, a bearing; 106b, a fixing plate; 106c, a threaded rod; 106d, a driving pipe; 107. a receiving member; 107a, a bearing plate; 107b, an arc-shaped plate; 107c, a guide rod; 107d, a tension spring; 200. processing the assembly; 201. a cutting knife; 202. a driven gear; 203. a fixing ring; m, a groove; 204. a helical groove; 205. a bump; 206. a guide plate; 207. a driving gear; 208. fixing the rod; 209. a connecting plate; 300. a wire stripping assembly; 301. a discharge pipe; 302. a reinforcing rod; 303. wire stripping parts; 303a, stripping the wire; K. a through hole; 303b, a support plate; 303c, a return spring; 303d, a snap spring.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Example 1

Referring to fig. 1 to 3 and 7, a first embodiment of the present invention provides a cable processing apparatus, which includes a feeding assembly 100, a processing assembly 200, and a wire stripping assembly 300, wherein the feeding assembly 100 and the processing assembly 200 perform wire stripping processing on a cable, and the wire stripping assembly 300 removes a stripped insulation layer from a copper core.

Specifically, the feeding assembly 100 includes a processing tube 101, a feeding tube 102 fixed inside the processing tube 101, mounting plates 103 fixed on two sides of the inner wall of the feeding tube 102, a feeding member 104 located inside one of the mounting plates 103, a clamping member 105 located inside the other mounting plate 103, an adjusting member 106 disposed inside the feeding tube 102, and a receiving member 107 fixed inside the feeding tube 102.

Referring to fig. 2, the processing pipe 101 is rectangular, so that the device can be conveniently placed, and the stability in the processing process is improved; the feeding piece 104 and the clamping piece 105 feed the cable into the feeding pipe 102, so that the feeding efficiency is improved; the adjusting member 106 is used for adjusting the distance between the clamping member 105 and the feeding member 104, so that the cable feeding device can adapt to cables with different diameters; the bearing part 107 supports the cable during the processing process, and the stability during the processing process is improved.

The processing assembly 200 is located at one end of the processing pipe 101 and comprises a cutting knife 201, a driven gear 202 and a fixing ring 203, wherein a spiral groove 204 is formed in the inner side of the fixing ring 203, a convex block 205 is fixed on one side, close to the fixing ring 203, of the cutting knife 201, the convex block 205 slides in the spiral groove 204, and the driven gear 202 is located at one end of the processing pipe 101.

Referring to fig. 3, four groups of cutting knives 201 are symmetrically and uniformly distributed in the processing pipe 101, and the inner sides of the cutting knives 201 are V-shaped blades, so that the efficiency of cutting the insulating layer is improved; when driven gear 202 and solid fixed ring 203 rotated, lug 205 removed in spiral groove 204, moved to the inboard simultaneously or outside simultaneously and removed four groups of cutting knife 201 through lug 205 drive to adjust the interval between four groups of cutting knife 201, conveniently process the cable of different diameters.

The wire stripping assembly 300 is arranged on the outer side of the machining assembly 200 and comprises a discharge pipe 301, a reinforcing rod 302 and a wire stripping piece 303, wherein one end of the reinforcing rod 302 is fixed with the machining pipe 101, the other end of the reinforcing rod 302 is fixed with the discharge pipe 301, the discharge pipe 301 is located in the middle of the discharge end of the machining pipe 101, and the wire stripping piece 303 is arranged at one end, close to the discharge pipe 301, of the discharge pipe 301.

Referring to fig. 7, the center of the discharge pipe 301 corresponds to the centers of the four sets of cutting blades 201, the processed copper core can directly enter the discharge pipe 301, and in the process of leading out the copper core from the discharge pipe 301, the cut insulating layer is led out outwards through the wire stripping piece 303, so that the insulating layer is separated from the copper core, and thus, the separation operation is not required to be carried out again manually.

Example 2

Referring to fig. 2 to 6, a second embodiment of the present invention is based on the above embodiment.

Specifically, the feeding member 104 includes a feeding gear 104a, a fixed shaft 104b, a first connecting rod 104c and a driving motor 104 d; the feeding gear 104a is located in the mounting plate 103, the fixing shaft 104b is fixed at the top and the bottom of the feeding gear 104a, the inner walls of the two sets of mounting plates 103 are provided with limit grooves S, the fixing shaft 104b slides in the limit grooves S of the feeding member 104, the first connecting rod 104c is fixed with the top fixing shaft 104b, the top end of the first connecting rod 104c is fixed with the output end of the driving motor 104d, and the driving motor 104d is located at the top of the processing tube 101.

Referring to fig. 5, the fixed shaft 104b is fixed with a limiting block, which is located at the top and bottom of the limiting groove S and is used for limiting the fixed shaft 104b and the feeding gear 104a and preventing the fixed shaft 104b and the feeding gear 104a from shifting in the process of moving left and right; the processing tube 101 is provided with a through hole, and the top end of the first connecting rod 104c moves in the through hole.

The clamp 105 includes a moving plate 105a, a clamping plate 105b, a slider 105c, and a second connecting rod 105 d;

the moving plate 105a is located in the mounting plate 103, the clamping plate 105b is fixed to the inner side of the moving plate 105a, the slider 105c is fixed to the top and the bottom of the moving plate 105a, the slider 105c slides in the limiting groove S of the clamping member 105, and the second connecting rod 105d is fixed to the top of the slider 105 c.

Referring to fig. 6, a material guiding roller is rotatably connected to one side of the clamping plate 105b close to the feeding gear 104a, which enables the cable to enter the processing tube 101 more conveniently during the process of extruding the cable; the moving plate 105a is limited through the sliding block 105c and the limiting groove S, so that the moving plate 105a is prevented from deviating in the process of moving left and right, and the sliding block 105c is rectangular and used for preventing the moving plate 105a from rotating in the using process and influencing the processing efficiency.

The adjusting member 106 includes a bearing 106a, a fixing plate 106b, a threaded rod 106c, and a driving tube 106 d;

two sets of bearings 106a are provided and fixed with the first connecting rod 104c and the second connecting rod 105d, respectively, one end of the threaded rod 106c is fixed with the bearing 106a, the other end is connected in the driving tube 106d in a threaded manner, and the driving tube 106d is rotatably connected to the inner side of the fixing plate 106 b.

Referring to fig. 5, the inner ring of the bearing 106a is fixed to the first connecting rod 104c and the second connecting rod 105d, the outer ring is fixed to the threaded rod 106c, and the bearing 106a and the threaded rod 106c do not rotate along with the driving motor 104d when the driving motor 104d drives the first connecting rod 104c and the feeding gear 104a to rotate; the two sets of threaded rods 106c are threaded in opposite directions, and when the driving tube 106d rotates, the two sets of threaded rods 106c move simultaneously inward or simultaneously outward, so that the distance between the feeding gear 104a and the clamping plate 105b can be adjusted to adapt to cables with different diameters.

The bearing part 107 comprises a bearing plate 107a, an arc plate 107b, a guide rod 107c and a tension spring 107 d;

the bearing plate 107a is fixed with the inner wall of the feeding pipe 102, the arc plate 107b is positioned above the bearing plate 107a, the top end of the guide rod 107c is fixed with the arc plate 107b, and two ends of the tension spring 107d are respectively fixed with the bearing plate 107a and the arc plate 107 b.

Referring to fig. 5, the receiving plate 107a is U-shaped, and one end of the guide rod 107c is located inside the receiving plate 107a, and a round block is fixed to limit the position of the guide rod 107c and prevent the guide rod from being separated from the receiving plate 107 a; the top of the arc-shaped plate 107b is arc-shaped and is matched with the surface of the cable, and when the cable is placed between the feeding gear 104a and the clamping plate 105b, the cable is supported through the arc-shaped plate 107b, so that the feeding efficiency is improved; the tensioning spring 107d gives the arcuate plate 107b a tendency to move upwards to allow for easier support during machining of cables of different diameters.

A guide plate 206 is fixed to the inner wall of the processing tube 101, and the cutter 201 slides in the guide plate 206.

Referring to fig. 4, a guide plate 206 is fixed around the inner wall of the processing pipe 101 to guide the cutting blade 201 and prevent the cutting blade 201 from being deviated during the inward or outward movement.

The processing assembly 200 further comprises a driving gear 207, a fixing rod 208 and a connecting plate 209;

the connecting plate 209 is fixed on the top of the processing tube 101, the fixing rod 208 is rotatably connected with the connecting plate 209, the driving gear 207 is fixed on one end of the fixing rod 208, and the driving gear 207 is meshed with the driven gear 202.

Referring to fig. 3, a force-borrowing block is fixed at one end of the fixing rod 208, and a worker rotates the fixing rod 208 and the driving gear 207 through the force-borrowing block, and the driving gear 207 can drive the driven gear 202 to rotate.

The surface of the fixing ring 203 is provided with a groove M, the surface of the processing pipe 101 is connected with a bolt in a threaded manner, and the bolt slides in the groove M.

Referring to fig. 3, the bolt and the groove M are used to mount and limit the fixing ring 203, so that the mounting thereof is more convenient.

Example 3

Referring to fig. 7 and 8, a third embodiment of the present invention is based on the first two embodiments.

Specifically, the wire stripping member 303 includes a wire stripping plate 303a, a support plate 303b, and a return spring 303 c;

the wire stripping plates 303a are uniformly distributed at one end of the discharge pipe 301 in an annular shape, the supporting plate 303b is fixed at the outer side of the discharge pipe 301, two ends of the return spring 303c are respectively fixed with the supporting plate 303b and the wire stripping plate 303a, and the wire stripping plate 303a is rotatably connected with the discharge pipe 301.

Referring to fig. 7, at least four groups of wire stripping plates 303a are provided, and are rotatably connected with the end surface of the discharge pipe 301 through shafts, and one side of each wire stripping plate 303a, which is far away from the discharge pipe 301, is in a flat strip shape, so that a cut insulating layer can be scraped; the supporting plate 303b is L-shaped, one side of the supporting plate is fixed with the discharge pipe 301, the end face of the inner side of the supporting plate is located above the wire stripping plate 303a, and the wire stripping plate 303a tends to move inwards through the return spring 303c, so that the supporting plate can adapt to cables with different diameters.

Referring to fig. 8, a through hole K is formed in the wire stripping plate 303a, and a clamp spring 303d is arranged in the through hole K; further improve the power of the inside removal of wire stripping board 303a through jump ring 303d, when the copper core will be stripped wire board 303a and promote to the outside, wire stripping board 303a can be more firm and timely play the effect of scraping the insulating layer.

When the device is used, a cable to be processed is led in from one end of the processing tube 101, so that one end of the cable is located between the feeding gear 104a and the clamping plate 105b, the driving motor 104d is started at the moment, the first connecting rod 104c and the feeding gear 104a are driven to rotate by the driving motor 104d, the cable is led into the feeding tube 102 through the feeding gear 104a, then an insulating layer on the surface of the cable is cut by the four groups of cutting knives 201, in the cutting process, one end which is cut is continuously led out towards the direction of the discharging tube 301, at the moment, the wire stripping plate 303a is pushed outwards by the copper core, the copper core enters the discharging tube 301, meanwhile, the cut insulating layer is scraped from the surface of the copper core by the wire stripping plate 303a, manual follow-up secondary scraping operation is not needed, and the working efficiency is greatly improved;

when cables with different diameters need to be processed, the driving tube 106d is firstly rotated, the driving tube 106d drives the two threaded rods 106c to simultaneously move inwards or outwards, namely, the distance between the feeding gear 104a and the clamping plate 105b can be adjusted, so as to adapt to cables with different diameters, then the fixing rod 208 is manually rotated, the fixing rod 208 and the driving gear 207 drive the driven gear to rotate, at the moment, the lug 205 moves in the spiral groove 204, the four groups of cutting knives 201 are driven by the lug 205 to simultaneously move inwards or outwards, so as to adjust the distance between the four groups of cutting knives 201, the cables with different diameters are conveniently processed, and the application range of the device is greatly improved.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (7)

1. A cable processingequipment which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the feeding assembly (100) comprises a processing pipe (101), a feeding pipe (102) fixed inside the processing pipe (101), mounting plates (103) fixed on two sides of the inner wall of the feeding pipe (102), a feeding piece (104) positioned inside one of the mounting plates (103), a clamping piece (105) positioned inside the other mounting plate (103), an adjusting piece (106) arranged inside the feeding pipe (102), and a bearing piece (107) fixed inside the feeding pipe (102);

the processing assembly (200) is positioned at one end of the processing pipe (101) and comprises a cutting knife (201), a driven gear (202) and a fixing ring (203), a spiral groove (204) is formed in the inner side of the fixing ring (203), a convex block (205) is fixed on one side, close to the fixing ring (203), of the cutting knife (201), the convex block (205) slides in the spiral groove (204), and the driven gear (202) is positioned at one end of the processing pipe (101);

the wire stripping assembly (300) is arranged on the outer side of the machining assembly (200) and comprises a discharge pipe (301), a reinforcing rod (302) and a wire stripping piece (303), one end of the reinforcing rod (302) is fixed with the machining pipe (101), the other end of the reinforcing rod is fixed with the discharge pipe (301), the discharge pipe (301) is located in the middle of the discharge end of the machining pipe (101), and the wire stripping piece (303) is arranged at one end, close to the discharge pipe (301), of the discharge pipe (301);

the feeding piece (104) comprises a feeding gear (104 a), a fixed shaft (104 b), a first connecting rod (104 c) and a driving motor (104 d);

the feeding gears (104 a) are positioned in the mounting plates (103), the fixing shafts (104 b) are fixed to the top and the bottom of the feeding gears (104 a), limiting grooves (S) are formed in the inner walls of the two groups of mounting plates (103), the fixing shafts (104 b) slide in the limiting grooves (S) of the feeding members (104), the first connecting rods (104 c) are fixed to the fixing shafts (104 b) at the top, the top ends of the first connecting rods (104 c) are fixed to the output ends of the driving motors (104 d), and the driving motors (104 d) are positioned at the top of the processing pipes (101);

the clamping piece (105) comprises a moving plate (105 a), a clamping plate (105 b), a sliding block (105 c) and a second connecting rod (105 d);

the moving plate (105 a) is located in the mounting plate (103), the clamping plate (105 b) is fixed to the inner side of the moving plate (105 a), the sliding block (105 c) is fixed to the top and the bottom of the moving plate (105 a), the sliding block (105 c) slides in the limiting groove (S) of the clamping piece (105), and the second connecting rod (105 d) is fixed to the top of the sliding block (105 c);

the adjusting piece (106) comprises a bearing (106 a), a fixing plate (106 b), a threaded rod (106 c) and a driving pipe (106 d);

the bearing (106 a) is provided with two groups which are respectively fixed with the first connecting rod (104 c) and the second connecting rod (105 d), one end of the threaded rod (106 c) is fixed with the bearing (106 a), the other end of the threaded rod is in threaded connection with the inside of the driving pipe (106 d), and the driving pipe (106 d) is rotatably connected to the inner side of the fixing plate (106 b).

2. The cable processing apparatus of claim 1, wherein: the bearing piece (107) comprises a bearing plate (107 a), an arc-shaped plate (107 b), a guide rod (107 c) and a tension spring (107 d);

accept board (107 a) with the inner wall of inlet pipe (102) is fixed, arc (107 b) are located accept board (107 a) top, the top of guide bar (107 c) with arc (107 b) are fixed, the both ends of tensioning spring (107 d) respectively with accept board (107 a) with arc (107 b) are fixed.

3. The cable processing apparatus of claim 2, wherein: a guide plate (206) is fixed on the inner wall of the processing pipe (101), and the cutting knife (201) slides in the guide plate (206).

4. The cable processing apparatus of claim 3, wherein: the processing assembly (200) further comprises a driving gear (207), a fixing rod (208) and a connecting plate (209);

the connecting plate (209) is fixed to the top of the processing pipe (101), the fixing rod (208) is rotatably connected with the connecting plate (209), the driving gear (207) is fixed to one end of the fixing rod (208), and the driving gear (207) is meshed with the driven gear (202).

5. The cable processing apparatus of claim 3 or 4, wherein: the surface of the fixing ring (203) is provided with a groove (M), the surface of the processing pipe (101) is in threaded connection with a bolt, and the bolt slides in the groove (M).

6. The cable processing apparatus of claim 5, wherein: the wire stripping piece (303) comprises a wire stripping plate (303 a), a supporting plate (303 b) and a return spring (303 c);

wire stripping plate (303 a) be the annular equipartition in the one end of discharging pipe (301), backup pad (303 b) are fixed in the outside of discharging pipe (301), reset spring (303 c) both ends respectively with backup pad (303 b) with wire stripping plate (303 a) are fixed, wire stripping plate (303 a) with discharging pipe (301) rotate and are connected.

7. The cable processing apparatus of claim 6, wherein: a through hole (K) is formed in the wire stripping plate (303 a), and a clamp spring (303 d) is arranged in the through hole (K).

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