CN117059342A - Intelligent power cable recycling equipment - Google Patents

Abstract

The invention relates to recovery processing equipment, in particular to intelligent power cable recovery processing equipment. The utility model provides an intelligent power cable recovery processing equipment, includes runner and cutting ring, the runner is provided with two, and two runners set up relatively, and the periphery of two runners all is provided with the cutting ring. Still include motor II and support, two runners rotate respectively to be connected on two supports, equal fixedly connected with motor II on every support, motor II's output shaft is fixed on corresponding runner. Still include base and vertical bar, the vertical bar of the equal fixedly connected with vertical setting in both ends around the base, two equal vertical sliding connection of support are on two vertical bars. The sheath of the cable can be easily peeled off to take out the internal metal.

Description

Intelligent power cable recycling equipment

Technical Field

The invention relates to recovery processing equipment, in particular to intelligent power cable recovery processing equipment.

Background

The power cable is a cable for transmitting and distributing electric energy, and is commonly used for urban underground power grids, power station outgoing lines, power supply in industrial and mining enterprises and power transmission lines under sea water passing through the river. The operation of the power grid is independent of the support of cables, the cables serve as important components of a power system, the tasks of transportation, distribution and the like of electric energy are born, and the current networking aspect of the power cables plays a very important role. When the power cable is damaged, the metal value in the cable is high, and the metal needs to be recycled, but the cable has a relatively hard outer skin on the outer side, so that the metal in the cable is not easy to take out.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides intelligent power cable recycling equipment which has the beneficial effects that the sheath of a cable can be conveniently stripped to take out internal metal.

The utility model provides an intelligent power cable recovery processing equipment, includes runner and cutting ring, the runner is provided with two, and two runners set up relatively, and the periphery of two runners all is provided with the cutting ring.

Still include motor II and support, two runners rotate respectively to be connected on two supports, equal fixedly connected with motor II on every support, motor II's output shaft is fixed on corresponding runner.

Still include base and vertical bar, the vertical bar of the equal fixedly connected with vertical setting in both ends around the base, two equal vertical sliding connection of support are on two vertical bars.

Still include articulated pole II, pneumatic cylinder II and movable block, the rear portion fixedly connected with pneumatic cylinder II of base, pneumatic cylinder II's active end fixedly connected with movable block, articulated on the movable block have two articulated poles II, and two articulated poles II's the other end articulates respectively on two supports.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic diagram of an intelligent power cable recycling apparatus;

FIG. 2 is a schematic diagram of a second configuration of an intelligent power cable recycling apparatus;

FIG. 3 is a schematic diagram III of an intelligent power cable recycling device;

FIG. 4 is a schematic structural view of a platen;

FIG. 5 is a second schematic structural view of a platen;

FIG. 6 is a schematic diagram of a side frame;

FIG. 7 is a second schematic structural view of a side frame;

FIG. 8 is a schematic view of the structure of the base;

FIG. 9 is a schematic diagram of a wheel;

fig. 10 is a schematic diagram of a second structure of the rotating wheel.

In the figure: a platen 101; a moving plate 102; ribs 103; a jamb 104; a sliding sleeve 105; a hinge lever I106;

a side frame 201; a friction wheel 202; a motor I203; a drum 204; square columns 205; a connecting rod 206; a hydraulic cylinder I207;

a base 301; a vertical bar 302; a spool 303; a screw 304; a V-shaped plate 305; an arc-shaped rubber sheet 306; hinge lever II307; hydraulic cylinder II308; a moving block 309;

a wheel 401; a cutting ring 402; a slip prevention rib 403; motor II404; a bracket 405; an L-shaped bar 406; a flap 407.

Detailed Description

This example can achieve the effect of facilitating the removal of the inner metal by peeling the cable apart, as shown in fig. 9-10.

Because intelligent power cable recovery processing equipment includes runner 401 and cutting ring 402, two runners 401 set up relatively from top to bottom, and the outer Zhou Junyi body shaping of two runners 401 has cutting ring 402, is close to the both sides of cable with the cutting ring 402 on two runners 401, then drives two cutting ring 402 and rotates the drive cable and constantly remove, then two cutting ring 402 tangential cable's both sides respectively, and then conveniently peels off the crust of cable and take out inside metal.

As shown in fig. 9 to 10, this example can achieve the effect of driving the motor II404 to rotate on the bracket 405 by the motor II 404.

Because intelligent power cable recovery processing equipment still includes motor II404 and support 405, two runners 40 rotate through the bearing respectively and connect on two supports 405, all have motor II404 through the screw connection on every support 405, and motor II 404's output shaft is on corresponding runner 401, and then can drive motor II404 through motor II404 and rotate on support 405.

This example can achieve the effect of pressing two wheels 401 against cables of different diameters, as shown in fig. 8.

Because intelligent power cable recovery processing equipment still includes base 301 and vertical bar 302, both ends all have vertical bar 302 of vertical setting through the screw connection around the base 301, and two equal vertical sliding connection of support 405 are on two vertical bars 302, and then make can be close to each other and keep away from between two support 405, and then drive and be close to each other and keep away from between two runners 401 for two runners 401 press towards the cable of different diameters.

This example can achieve the effect of driving two wheels 401 closer to or farther from each other, as shown in fig. 8.

Because intelligent power cable recovery processing equipment still includes articulated rod II307, pneumatic cylinder II308 and movable block 309, the rear portion of base 301 has pneumatic cylinder II308 through the screw connection, and the expansion end of pneumatic cylinder II308 has movable block 309 through flange joint, articulates on the movable block 309 has two articulated rod II307, and the other end of two articulated rod II307 articulates respectively on two supports 405. The moving block 309 can be driven to move back and forth by driving the expansion and contraction of the hydraulic cylinder II308, and when the moving block 309 moves back and forth, the two brackets 405 are respectively driven to slide close to or far away from each other by the two hinge rods II307, so as to drive the two rotating wheels 401 to move close to or far away from each other.

As shown in fig. 9-10, this example can achieve the effect of allowing the cable to enter exactly between the two wheels 401.

Because intelligent power cable recovery processing equipment still includes L shape pole 406 and separation blade 407, the left side of every support 405 all has L shape pole 406 through the screw connection, the left portion of every L shape pole 406 all has separation blade 407 through the screw connection, two separation blades 407 also can be close to each other simultaneously or keep away from when two supports 405 are close to or keep away from, the cable gets into between two separation blades 407 before peeling between the two runners 401, two separation blades 407 carry out the spacing to the upper and lower position of cable for the cable gets into accurately between two runners 401.

This example can achieve the effect of preventing the cable from moving back and forth out of between the two wheels 401, as shown in fig. 8.

Because intelligent power cable recovery processing equipment still includes traveller 303, screw 304 and V shaped plate 305, the middle part of every vertical bar 302 all has traveller 303 in the fore-and-aft direction sliding connection, two V shaped plates 305 weld respectively at the inner of two traveller 303, the middle part of every vertical bar 302 all threaded connection has screw 304, two screws 304 are pressed respectively on two traveller 303, can fix the position of traveller 303 and V shaped plate 305 through screw 304, and then can slide the interval between two V shaped plates 305 of two traveller 303 adjustment, make two V shaped plates 305 keep off the front and back both sides at the cable respectively, prevent that the cable from moving back and forth and breaking away from between two runner 401.

As shown in fig. 8, this example can achieve an effect of making the degree of bonding between the V-shaped plate 305 and the cable better.

Because the intelligent power cable recycling device further comprises arc-shaped rubber sheets 306, the upper end and the lower end of the inner side of each V-shaped plate 305 are adhered with the arc-shaped rubber sheets 306. The arc-shaped rubber sheet 306 has the characteristic of elasticity, so that the arc-shaped rubber sheet 306 can be pressed on the cable, the combination degree between the V-shaped plate 305 and the cable is better, and the cable is prevented from being separated from the space between the two V-shaped plates 305.

This example, as shown in fig. 6-7, can achieve the effect of entering the drum 204 and passing through the drum 204 when the cable is stripped.

Since the intelligent power cable recycling apparatus further includes the side frame 201 and the drum 204, the side frame 201 is connected to the right side of the base 301 by screws, the drum 204 is rotatably connected to the upper portion of the side frame 201, and the drum 204 guides the cable when the cable is peeled off and enters the drum 204 and passes through the drum 204.

This example achieves the effect of allowing the cable to be flattened after stripping to be fanned out, as shown in fig. 1-10.

Because the intelligent power cable recycling equipment further comprises the pressing plate 101, the moving plate 102, the convex edges 103, the side columns 104, the sliding sleeve 105, the hinging rods I106, the square columns 205, the connecting rods 206 and the hydraulic cylinders I207, the square columns 205 are welded on the front side and the rear side of the left part of the rotating drum 204, the right ends of the two connecting rods 206 are respectively and slidably connected to the two square columns 205, the hydraulic cylinders I207 are respectively connected to the end parts of the two square columns 205 through flanges, and the movable ends of the two hydraulic cylinders I207 are respectively connected to the two connecting rods 206 through flanges; the two pressing plates 101 are oppositely arranged, the upper end and the lower end of each pressing plate 101 are respectively and slidably connected with the movable plates 102, a plurality of ribs 103 are welded on the inner side of each movable plate 102 from top to bottom, sliding sleeves 105 are slidably connected on the side posts 104, two hinging rods I106 are hinged on the sliding sleeves 105, the other ends of the two hinging rods I106 are respectively hinged on the two movable plates 102, compression springs are sleeved on the side posts 104 and are positioned between the pressing plates 101 and the sliding sleeves 105, the two sliding sleeves 105 are respectively welded on the left ends of the two connecting rods 206, when the two hydraulic cylinders I207 respectively drive the two connecting rods 206 to slide close to each other, the two sliding sleeves 105 can be driven to slide close to each other, the two side posts 104 and the two pressing plates 101 are driven to slide close to each other, the two sliding sleeves 101 are respectively contacted with two sides of a cable, then, when the two sliding sleeves 105 are continuously driven to slide close to each other, the two pressing plates 101 are pressed on two sides of the cable, the two sliding sleeves 101 can not move after the cable is flattened, the two sliding sleeves 105 are respectively pressed on the two sliding sleeves 101 are pressed on the two sliding plates 101, the two sliding sleeves are respectively, the two sliding sleeves 101 are driven to move close to the two sliding sleeves 101 to the two sliding sleeves 102, and the two sliding sleeves are separated from the two sliding sleeves 102, and the two sliding sleeves are conveniently move along the two sliding sleeves 102, and the two sliding sleeves are driven to move along the two sliding sleeves through the sliding sleeves 102, and the sliding sleeves are conveniently and the two sliding sleeves are moved.

This example may achieve the effect of allowing the cable to be more fully fanned out, as shown in fig. 6-7.

Because intelligent power cable recovery processing equipment still includes friction pulley 202 and motor I203, there is motor I203 through the screw connection on the side bearer 201, fixedly connected with friction pulley 202 on motor I203's the output shaft, friction pulley 202 and rotary drum 204 friction drive, and then motor I203 drives rotary drum 204 through friction pulley 202 and rotates on side bearer 201, and then rotate two clamp plates 101 to different directions and press the cable, adjust the direction of two clamp plates 101 and make the cable scatter in different positions for the cable can more fully scatter.

Because intelligent power cable recovery processing equipment includes anti-skidding arris 403, anti-skidding arris 403 are the periphery that the annular set up at runner 401, can improve the friction between runner 401 and the cable through anti-skidding arris 403 for drive the cable constantly and convey more easily when two runners 401 rotate.

Claims (10)

1. An intelligent power cable recycling device comprises a rotating wheel (401) and a cutting ring (402), and is characterized in that: two rotating wheels (401) are arranged, the two rotating wheels (401) are arranged oppositely, and annular cutters (402) are arranged on the peripheries of the two rotating wheels (401).

2. An intelligent power cable recovery processing device according to claim 1, wherein: the motor II (404) and the supports (405) are further included, the two rotating wheels (401) are respectively connected to the two supports (405) in a rotating mode, the motor II (404) is fixedly connected to each support (405), and an output shaft of the motor II (404) is fixed to the corresponding rotating wheel (401).

3. An intelligent power cable recovery processing device according to claim 2, wherein: still include base (301) and vertical bar (302), both ends all fixedly connected with vertical bar (302) of vertical setting around base (301), two supports (405) are all vertical sliding connection on two vertical bars (302).

4. An intelligent power cable recovery processing device according to claim 3, wherein: still include articulated pole II (307), pneumatic cylinder II (308) and movable block (309), the rear portion fixedly connected with pneumatic cylinder II (308) of base (301), the expansion end fixedly connected with movable block (309) of pneumatic cylinder II (308), articulated on movable block (309) have two articulated poles II (307), the other end of two articulated poles II (307) articulates respectively on two supports (405).

5. An intelligent power cable recovery processing device according to claim 2, wherein: the novel anti-theft device further comprises L-shaped rods (406) and baffle plates (407), wherein the L-shaped rods (406) are fixedly connected to the left side of each bracket (405), and the baffle plates (407) are fixedly connected to the left part of each L-shaped rod (406).

6. An intelligent power cable recovery processing device according to claim 4, wherein: the sliding column structure comprises a sliding column (303), screws (304) and V-shaped plates (305), wherein the middle part of each vertical bar (302) is slidably connected with the sliding column (303) in the front-back direction, the V-shaped plates (305) are fixedly connected with the inner ends of the two sliding columns (303), the screws (304) are connected with the middle part of each vertical bar (302) in a threaded mode, and the two screws (304) are respectively pressed on the two sliding columns (303).

7. An intelligent power cable recovery processing device according to claim 6, wherein: the novel V-shaped plate comprises a V-shaped plate (305) and is characterized by further comprising arc-shaped rubber sheets (306), wherein the upper end and the lower end of the inner side of each V-shaped plate are adhered with the arc-shaped rubber sheets (306).

8. An intelligent power cable recovery processing device according to claim 7, wherein: the device further comprises a side frame (201) and a rotary drum (204), wherein the side frame (201) is fixedly connected to the right side of the base (301), and the rotary drum (204) is rotatably connected to the upper portion of the side frame (201).

9. An intelligent power cable recovery processing device according to claim 8, wherein: the hydraulic cylinder comprises a rotary cylinder body, and is characterized by further comprising a pressing plate (101), a movable plate (102), ribs (103), side columns (104), sliding sleeves (105), hinging rods I (106), square columns (205), connecting rods (206) and hydraulic cylinders I (207), wherein the square columns (205) are fixedly connected to the front side and the rear side of the left part of the rotary cylinder body, the right ends of the two connecting rods (206) are respectively and slidably connected to the two square columns (205), the hydraulic cylinders I (207) are fixedly connected to the end parts of the two square columns (205), and the movable ends of the two hydraulic cylinders I (207) are respectively and fixedly connected to the two connecting rods (206);

two clamp plates (101) set up relatively, the upper and lower both ends of every clamp plate (101) all sliding connection has movable plate (102), the inboard of every movable plate (102) all is provided with a plurality of bead (103), sliding connection has sliding sleeve (105) on jamb (104), it has two articulated pole I (106) to articulate on sliding sleeve (105), the other end of two articulated pole I (106) articulates respectively on two movable plate (102), compression spring has been cup jointed on jamb (104), compression spring is located between clamp plate (101) and sliding sleeve (105), two sliding sleeve (105) are fixed connection respectively in the left end of two connecting rods (206).

10. An intelligent power cable recovery processing device according to claim 9, wherein: the device also comprises a friction wheel (202) and a motor I (203), wherein the motor I (203) is fixedly connected to the side frame (201), the friction wheel (202) is fixedly connected to an output shaft of the motor I (203), and the friction wheel (202) and the rotary drum (204) are in friction transmission.