Cable insulation skin stripping device
Technical Field
The invention relates to a stripping device, in particular to a cable insulating sheath stripping device.
Background
The cable is made of one or more mutually insulated conductors and an outer insulating protection layer, power or information is transmitted to a conducting wire at another position from one position, and an operator firstly needs to strip an insulating skin of the cable in the installation process of the cable and then installs the cable.
The mode of peeling off to cable insulation skin now is for artifical place the cable on the workstation, and the reuse cutter cuts the cable, and the working strength of this kind of mode is big, causes the damage to the conductor in the cable easily in the cutting process, and factor of safety is low, and another kind is skinned for using the cable peeler to the cable, and this kind of mode operation is too loaded down with trivial details, and the cost is too big.
Therefore, it is necessary to provide a cable insulation stripping device which does not damage the conductor in the cable during the cutting process, has high safety factor, is simple to operate and has low use cost, so as to solve the above problems.
Disclosure of Invention
In order to overcome to strip working strength big to cable insulation skin, cause the damage to the conductor in the cable easily in cutting process, factor of safety is low, the too loaded down with trivial details shortcoming of operation, and the technical problem is: the cable insulation sheath peeling device has the advantages that the conductor in the cable cannot be damaged in the cutting process, the safety coefficient is high, the operation is simple, and the use cost is low.
The technical scheme of the invention is as follows: the utility model provides a cable insulation skin peeling device, is including the mounting bracket, still including drum, a feeding section of thick bamboo, circular cutting device and storage device, the embedded drum that is equipped with in mounting bracket top, a feeding section of thick bamboo is installed at the drum top, communicates with each other in a feeding section of thick bamboo and the drum, is equipped with the circular cutting device in the drum, wherein the circular cutting device is used for the cutting of the insulation skin of cable, is equipped with storage device in the mounting bracket, wherein storage device is used for the storage of insulation skin.
Further, the circular cutting device comprises a contact rod, a sliding block, a movable rod, a first spring, an annular blade, a second spring, a L type cylinder body, a piston, a sliding rod, a clamping rod and a third spring, wherein cavities are formed in the left wall and the right wall in the cylinder, the contact rod is connected in the cavity in a hinged mode, first sliding grooves are formed in the left wall and the right wall in the cylinder and communicated with the cavities, the sliding block is arranged in the first sliding grooves in a sliding mode, the movable rod is arranged in the sliding block in a sliding mode, the first spring is connected between the inner side of the movable rod and the sliding block, the upper portion of the cavity is communicated with the cylinder, the annular blade is arranged on the inner wall of the upper portion of the cavity in a sliding mode, the inner side of the annular blade is located in the cylinder, the second spring is connected between the inner wall of the cylinder and the annular blade, L type cylinder body is arranged in an embedded mode in the left wall and right wall of the upper portion in the cylinder, the L type cylinder body is located above the cavity, the piston is arranged in the L type cylinder body in a sliding mode, the upper portion of the cylinder body in a sliding rod is arranged in a sliding mode, the sliding rod is connected with the.
Further, storage device installs the collecting hopper including collecting hopper, storage frame and apron at the top in the mounting bracket, and the lower part is equipped with the storage frame in the mounting bracket, and open on storage frame top right side has the feed opening, and the collecting hopper communicates with each other with the storage frame through the feed opening, and the apron is installed to storage frame left wall.
Further, the blanking device comprises a special-shaped plate, a cross rod, an arc plate, a fourth spring, a L-type clamping block, a fifth spring, a stop block, a sixth spring, a sleeve, a seventh spring and a pedal, a second sliding groove is formed in the right wall of the feeding cylinder, the special-shaped plate is slidably arranged on the second sliding groove, the right side of the special-shaped plate is located on the right side of the feeding cylinder, a first through hole is formed in the left side of the upper portion of the special-shaped plate, a third sliding groove is formed in the right wall of the first through hole, a cross rod is slidably arranged in the third sliding groove, the arc plate is installed at the left end of the cross rod, the arc plate is located on the right side of the first through hole, the fourth spring is connected between the right side of the arc plate and the inner wall of the third sliding groove, a second through hole is formed in the left side of the top of the special-shaped plate, the second through hole penetrates through the third sliding groove, a L-type clamping block is installed on the right side of the upper portion of the feeding cylinder, the lower portion of the L-type clamping block is located in the second through hole, a fifth spring is connected between the left bottom of the special-type sliding groove and the second sliding groove, a special-type spring is connected between the bottom of the special-type spring, a.
Further, still including baffle, torque spring and stopper, two walls all articulate and are connected with the baffle about in the feed opening, and torque spring is installed to two wall articulations about baffle and the feed opening, and the stopper is all installed to two walls about in the feed opening, and the stopper is located the baffle top.
Further, still including connecting rod and briquetting, the connecting rod is installed on sleeve left side upper portion, and the connecting rod slidingtype passes the collecting hopper right side, and the briquetting is installed to the connecting rod left end, and the briquetting is located directly over the feed opening.
The special-shaped plate type cable storage device has the advantages that the annular blade penetrates into the insulating skin of a cable through the matching of the movable rod and the contact rod, the arc-shaped plate can loosen or clamp the cable through the matching of the cross rod and the L-type clamping block, the cable can be driven to move downwards to tightly peel the insulating skin, the special-shaped plate can be driven to move downwards through downwards treading the pedal, an operator does not need to push the cable into the cylinder by hands, and meanwhile, the insulating skin in the storage frame cannot move upwards into the collection hopper after being filled with the insulating skin through the matching of the baffle and the limiting block.
Drawings
Fig. 1 is a schematic front view of the present invention.
Fig. 2 is an enlarged schematic view of part a of the present invention.
Fig. 3 is an enlarged view of part B of the present invention.
Fig. 4 is an enlarged view of the part C of the present invention.
In the reference numbers, 1 mounting frame, 2 cylinders, 3 feeding cylinders, 4 circular cutting devices, 41 cavities, 42 contact rods, 43 first sliding grooves, 44 sliding blocks, 45 movable rods, 46 first springs, 47 annular blades, 48 second springs, 49L cylinders, 410 pistons, 411 sliding rods, 412 clamping rods, 413 third springs, 414 clamping holes, 5 storage devices, 51 collecting hoppers, 52 storage frames, 53 cover plates, 54 blanking ports, 6 blanking devices, 61 second sliding grooves, 62 special-shaped plates, 63 first through holes, 64 third sliding grooves, 65 cross rods, 66 arc plates, 67 fourth springs, 68 second through holes, 69L clamping blocks, 610 fifth springs, 611 stop blocks, 612 sixth springs, 613 sleeves, 614 seventh springs, 615 pedals, 8 baffle plates, 9 torsion springs, 10 limiting blocks, 11 connecting rods and 12 pressing blocks are included.
Detailed Description
The invention is described in detail below with reference to the figures and the embodiments.
Example 1
The utility model provides a cable insulation skin peeling device, is shown as fig. 1, fig. 2 and fig. 3, including mounting bracket 1, drum 2, feed cylinder 3, circular cutting device 4 and storage device 5, the embedded drum 2 that is equipped with in 1 top of mounting bracket, feed cylinder 3 is installed at 2 tops of drum, communicates with each other in feed cylinder 3 and the drum 2, is equipped with circular cutting device 4 in the drum 2, wherein circular cutting device 4 is used for the cutting of the insulation skin of cable, is equipped with storage device 5 in the mounting bracket 1, wherein storage device 5 is used for the storage of insulation skin.
The circular cutting device 4 comprises a contact rod 42, a sliding block 44, a movable rod 45, a first spring 46, an annular blade 47, a second spring 48, a L type cylinder 49, a piston 410, a sliding rod 411, a clamping rod 412 and a third spring 413, a cavity 41 is formed in the left wall and the right wall in the cylinder 2, the contact rod 42 is hinged in the cavity 41, a first sliding groove 43 is formed in the left wall and the right wall in the cylinder 2, the first sliding groove 43 is communicated with the cavity 41, the sliding block 44 is arranged in the first sliding groove 43 in a sliding manner, the movable rod 45 is arranged in the sliding block 44 in a sliding manner, the first spring 46 is connected between the inner side of the movable rod 45 and the sliding block 44, the upper portion of the cavity 41 is communicated with the inside of the cylinder 2, the annular blade 47 is arranged in a sliding manner on the inner wall of the upper portion of the cavity 41, the inner side of the annular blade 47 is located in the cylinder 2, the second spring 48 is connected between the inner wall of the cylinder 2 and the annular blade 47, the left wall and the upper portion of the cylinder 2 are embedded type cylinder 49, the sliding type cylinder 49, the upper portion of the cylinder 49 is located above the cavity 41, the sliding type cylinder 410 is located above the cavity 41, the sliding rod 412 is connected with the sliding rod 412, the sliding rod 412 is connected with the clamping rod 412, the sliding rod 414 is connected with the clamping rod 412, the.
The material storing device 5 comprises a material collecting hopper 51, a material storing frame 52 and a cover plate 53, the material collecting hopper 51 is installed at the top in the installation frame 1, the material storing frame 52 is arranged at the lower part in the installation frame 1, a feed opening 54 is formed in the right side of the top of the material storing frame 52, the material collecting hopper 51 is communicated with the material storing frame 52 through the feed opening 54, and the cover plate 53 is installed on the left wall of the material storing frame 52.
When an operator peels off an insulating skin of a cable, the operator firstly inserts the cable into the feeding cylinder 3, as the operator continuously pushes the cable downwards, the cable moves downwards into the cylinder 2, when the cable is in contact with the sliding rod 411, the cable moves downwards to drive the sliding rod 411 to move outwards, so that the upper piston 410 moves outwards to compress air in the L-type cylinder 49, so that the lower piston 410 can be driven to generate downward thrust, so that the clamping rod 412 is in pressing contact with the outer end of the annular blade 47, when the cable continuously moves downwards to drive the sliding block 44 to move downwards to the bottom of the first sliding chute 43, the cable continuously moves downwards, the cable drives the movable rod 45 to move outwards, the first spring 46 is compressed, so that the contact rod 42 pushes the annular blade 47 to move inwards, the second spring 48 is stretched, the annular blade 47 can cut into the insulation of the cable, when the annular blade 47 moves downwards, the clamping rod 412 is matched with the clamping hole 414, the third spring 413 is stretched, after the annular blade 47 pulls the cable upwards to pull the annular blade, so that the annular blade 412 is not matched with the insulating skin of the cable, so that the cable does not contact with the second insulating skin of the sliding rod 411, so that the insulating skin of the cable is separated from the second sliding rod 47, when the annular blade 47 is not pulled downwards, the insulating skin of the annular blade 47, so that the cable is separated from the annular blade, the insulating skin of the insulating blade 47, the annular blade 47 is separated from the annular blade, so that the annular blade is not matched with the insulating hole, so that the insulating hole of the insulating rod 411 and the insulating blade of the insulating blade 47, so that the insulating blade of the insulating blade 47 is separated from the insulating blade of the insulating blade 47, so that the insulating blade of the insulating blade 47.
Example 2
On the basis of embodiment 1, as shown in fig. 1 and 3, the blanking device 6 further includes a blanking device 6, the blanking device 6 includes a special-shaped plate 62, a cross bar 65, an arc-shaped plate 66, a fourth spring 67, a L-shaped fixture 69, a fifth spring 610, a stopper 611, a sixth spring 612, a sleeve 613, a seventh spring 614 and a pedal 615, a second chute 61 is opened on the right wall in the feed cylinder 3, the special-shaped plate 62 is slidably disposed on the second chute 61, the right side of the special-shaped plate 62 is located on the right side of the feed cylinder 3, a first through hole 63 is opened on the left side of the upper portion of the special-shaped plate 62, a third chute 64 is opened on the right wall in the first through hole 63, the cross bar 65 is slidably disposed in the third chute 64, the arc-shaped plate 66 is installed on the left end of the cross bar 65, the arc-shaped plate 66 is located on the right side in the first through hole 63, the fourth spring 67 is connected between the right side of the arc-shaped plate 66 and the inner wall 611 of the third chute 64, a second through hole 68 is opened on the left side of the special-shaped plate 62, a second through hole 68 is connected with the second through hole 68, a second through hole 68 is connected with the right side of the third chute 64, a fixture 69 is installed on the right side of the feed cylinder 3, a fixture 613, a fixture 18, a lower portion of the clamp 18 is connected with a lower portion 18, a lower portion of the special-shaped plate 18, a lower portion of the sleeve 613, a lower portion of a sleeve 613, a lower portion of a lower portion.
When an operator inserts a cable into the feeding cylinder 3, the operator pushes the pedal 615 downwards, the pedal 615 moves downwards through the sleeve 613 to drive the special-shaped plate 62 to move downwards, the fifth spring 610 is compressed to separate the L-type fixture block 69 from the cross bar 65, the stop 611 moves upwards under the action of the sixth spring 612, the cross bar 65 is in contact with the stop 611, the fourth spring 67 is stretched to enable the arc-shaped plate 66 to press the cable, the operator continues to push the pedal 615 downwards to enable the cable to be pushed into the cylinder 2 to enable the annular cutting device 4 in the cylinder 2 to puncture the insulating skin of the cable, when the annular cutting device 4 in the cylinder 2 punctures the insulating skin of the cable, the operator releases the pedal, the special-shaped plate 62 moves upwards under the action of the fifth spring 610, the special-shaped plate 62 moves upwards to drive the cable 615, when the cable moves upwards to the top of the second chute 61, the L-type fixture block 69 pushes the stop 611 to move downwards, the sixth spring 612 is stretched, the L-type fixture block 69 is matched with the cross bar 65 again, so that the arc-shaped plate 66 is not clamped to enable the cable to be conveniently stripped off the insulating skin of the cable.
Example 3
On the basis of embodiment 2, as shown in fig. 1 and 3, still including baffle 8, torsion spring 9 and stopper 10, two walls all articulate and are connected with baffle 8 about in feed opening 54, and baffle 8 and feed opening 54 two walls are articulated to be installed torsion spring 9 about, and stopper 10 is all installed to two walls about in feed opening 54, and stopper 10 is located baffle 8 top.
Still including connecting rod 11 and briquetting 12, connecting rod 11 is installed on sleeve 613 left side upper portion, and connecting rod 11 slidingtype passes the collecting hopper 51 right side, and briquetting 12 is installed to connecting rod 11 left end, and briquetting 12 is located feed opening 54 directly over.
When piling up a large amount of insulating skins bottom aggregate bin 51, the operator extrudees the insulating skin of aggregate bin 51 bottom downwards with the hand, baffle 8 rotates downwards, thereby make insulating skin fall into in storage frame 52, after in the insulating skin of aggregate bin 51 bottom is crowded storage frame 52, baffle 8 is upwards swung under torsion spring 9's effect, stopper 10 can prevent that the insulating skin in storage frame 52 is too much, enter into to aggregate bin 51 in through feed opening 54, after the insulating skin is filled up in storage frame 52, the operator can open apron 53, thereby take out the insulating skin in the storage frame 52.
When an operator peels off a next cable, the pedal 615 can be stepped on to move downwards again, when the insulation skin of the next cable is peeled off, the operator continues to step on the pedal 615 downwards, the seventh spring 614 is stretched, so that the sleeve 613 moves downwards, the sleeve 613 moves downwards to drive the pressing block 12 to extrude the insulation skin at the bottom of the collecting hopper 51 downwards through the connecting rod 11, so that the insulation skin at the bottom of the collecting hopper 51 is extruded into the storage frame 52, and the insulation skin falling into the collecting frame can be extruded into the storage frame 52 along with the continuous stepping on of the pedal 615 by the operator.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.