CN219041253U - Outer protective sleeve cutting device for power cable - Google Patents

Abstract

The utility model provides a power cable outer protection ring cutting device, which comprises: the mounting frame is of a box-shaped structure, one group of opposite side surfaces are transparent, a supporting plate is arranged at one side, close to the top plate, of the inside of the mounting frame, and a hollow sleeve is arranged on the supporting plate; the limiting mechanism comprises a first limiting component and a second limiting component, the second limiting component is fixed on the bottom plate of the mounting frame, and the first limiting component is movably arranged on the side plate of the mounting frame; the cutting mechanism penetrates through the top plate of the mounting frame and is movably mounted in the hollow sleeve, and the cutting mechanism is in threaded connection with the top plate of the mounting frame. When the cutting device is used, the cable is fixed through the limiting mechanism, the outer sheath of the cable is cut by the cutting mechanism, the consistent cutting depth in the circular cutting process can be ensured, and the use safety is high.

Description

Outer protective sleeve cutting device for power cable

Technical Field

The utility model relates to the technical field of power cables, in particular to a device for cutting an outer protective sleeve of a power cable.

Background

The cable is an electric energy or signal transmission device, and is usually composed of several wires or groups of wires, and the cable comprises conductors and insulation protection layers outside the conductors in any mode, so that the cable has the characteristics of internal power-on and external insulation.

In the manufacturing process of the cable connector, constructors firstly strip and cut the cable, and in the past, wallpaper cutters or electrician cutters are used for operation when the cable sheath layer is stripped and cut, if the cutters are improperly used, damage can be caused to the internal structure of the cable, such as damage to the shielding or insulating layer of the cable when the outer sheath is stripped and cut, and hidden danger is buried for later operation of the cable. Meanwhile, the phenomenon of personal injury caused by improper use can also exist when the common cutter is held by a hand to conduct peeling and cutting.

Disclosure of Invention

The utility model aims to provide a power cable outer protection ring cutting device, which solves the problems that in the prior art, when a common handheld cutter cuts a cable sheath layer, the internal structure of a cable is damaged easily and constructors are injured easily.

The technical scheme adopted by the utility model is as follows: a power cable outer sheath collar cutting device, comprising:

the mounting frame is of a box-shaped structure, a group of opposite side surfaces of the mounting frame are transparent, a supporting plate is arranged on one side, close to the top plate, of the inside of the mounting frame, and a hollow sleeve is arranged on the supporting plate;

the limiting mechanism comprises a first limiting component and a second limiting component, the second limiting component is fixed on the bottom plate of the mounting frame, the first limiting component is movably arranged on the side plate of the mounting frame, and the first limiting component is close to or far away from the second limiting component to fix or relax the cable;

and the cutting mechanism penetrates through the top plate of the mounting frame and is movably arranged in the hollow sleeve, and the cutting mechanism is in threaded connection with the top plate of the mounting frame.

Specifically, be equipped with the bar through-hole on the curb plate of mounting bracket, first spacing subassembly sets up on the bar through-hole.

Specifically, first spacing subassembly includes first limiting plate, retaining member, two first spacing units, the both ends of first limiting plate are passed through the retaining member is fixed on the bar through-hole, be equipped with a plurality of first spacing hole on the first limiting plate, two first spacing unit detachably installs on the first spacing hole.

Specifically, every first spacing unit includes first connecting piece, first pivot and first spacing bearing, first pivot with first spacing bearing coaxial coupling, the both ends of first pivot with first connecting piece is kept away from the one end in first spacing hole can dismantle the connection.

Specifically, the second spacing subassembly includes second limiting plate and two second spacing units, the fixed setting of second limiting plate is in on the bottom plate of mounting bracket, be equipped with a plurality of second spacing hole on the second limiting plate, two second spacing unit detachably installs on the second spacing hole.

Specifically, every the spacing unit of second includes second connecting piece, second pivot and second limit bearing, the second pivot with the spacing bearing coaxial coupling of second, the both ends of second pivot with the second connecting piece is kept away from the one end in the spacing hole of second can dismantle and be connected.

Specifically, the cutting mechanism comprises a driving assembly, a cutting assembly and a spring, and the driving assembly drives the cutting assembly to be close to the first limiting assembly when moving towards the cutting assembly; when the driving assembly moves in a direction away from the cutting assembly, the cutting assembly is away from the first limiting assembly under the action of the spring.

Specifically, the drive assembly includes actuating lever and drive piece, the actuating lever runs through the roof of mounting bracket and with its threaded connection, the drive piece sets up in the hollow sleeve with the actuating lever links firmly.

Specifically, the actuating lever is kept away from the one end of mounting bracket is equipped with twist grip.

Specifically, the cutting assembly comprises a driven block, a driven rod and a blade, wherein the driven block is fixedly connected with the driven rod, and one end, far away from the driven rod, of the driven block is abutted with the driving block; the spring is arranged between the driven block and the bottom surface of the hollow sleeve and sleeved on the driven rod; the blade and the end of the driven rod extending out of the hollow sleeve are detachably connected.

The utility model has the beneficial effects that: the driving rod is in threaded connection with the mounting frame, so that the cutting depth of the cutting mechanism can be controlled linearly, when the cutting mechanism descends to the designated cutting depth, the driving rod stops rotating, the position of the cutting mechanism is fixed, the cutting depth in the circular cutting process can be kept consistent, and damage to the internal structure of a cable due to misoperation of a handheld common cutter is avoided; meanwhile, the blade is arranged inside the mounting frame, so that the blade cannot directly contact constructors, the constructors can be prevented from being accidentally injured during construction, and the construction safety is high.

Drawings

FIG. 1 is a front view of an embodiment of the present utility model;

FIG. 2 is a left side view of an embodiment of the present utility model;

fig. 3 is a block diagram of a first spacing assembly and a second spacing assembly in an embodiment of the present utility model.

In the figure:

100. a mounting frame; 110. a support plate; 120. a hollow sleeve; 130. a bar-shaped through hole;

200. a limiting mechanism;

210. a first limit assembly; 211. a first limiting plate; 211a, a first limiting hole; 212. a locking member; 213. a first limit unit; 213a, a first connector; 213b, a first rotation axis; 213c, a first limit bearing;

220. the second limiting component; 221. a second limiting plate; 221a, a second limiting hole; 222. a second limit unit; 222a, a second connector; 222b, a second rotating shaft; 222c, a second limit bearing;

300. a cutting mechanism; 310. a drive assembly; 311. a driving rod; 312. a driving block; 313. rotating the handle; 320. a cutting assembly; 321. a driven block; 322. a driven rod; 323. a blade; 330. a spring;

400. and (3) a cable.

Detailed Description

The following describes the technical solution of the embodiments of the present utility model in detail by means of the accompanying drawings, but the scope of protection of the present utility model is not limited to the embodiments.

Referring to fig. 1, an outer sheath ring cutting device for a power cable includes: the device comprises a mounting frame 100, a limiting mechanism 200 and a cutting mechanism 300.

The mounting frame 100 is a box-like structure in which one set of opposing sides are transparent. The limiting mechanism 200 is disposed in the mounting frame 100 for fixing the cable 400 to be stripped. The inside one side that is close to the roof at mounting bracket 100 is equipped with backup pad 110, is equipped with hollow sleeve 120 on the backup pad 110, and cutting mechanism 300 runs through the roof of mounting bracket 100 and movably sets up in hollow sleeve 120, and cutting mechanism 300 and the roof spiro union of mounting bracket 100 are in order to realize the removal or the fixed of self position, and cutting mechanism 300 is through moving in hollow sleeve 120 in order to be close to or keep away from stop gear 200 to cut the oversheath of cable 400.

The side plate of the mounting frame 100 is provided with a bar-shaped through hole 130 for limiting the limiting mechanism 200.

The limiting mechanism 200 comprises a first limiting component 210 and a second limiting component 220, the first limiting component 210 is movably arranged on the strip-shaped through hole 130, the second limiting component 220 is fixed on the bottom plate of the mounting frame 100, and the first limiting component 210 moves along the length direction of the strip-shaped through hole 130 to approach or separate from the second limiting component 220, so that the purpose of fixing or loosening the cable 400 is finally achieved.

Referring to fig. 2 to 3, the first limiting assembly 210 includes a first limiting plate 211, a locking member 212 and two first limiting units 213, the first limiting plate 211 is disposed on the bar-shaped through hole 130 through the locking members 212 at both ends, when the locking members 212 are locked, the first limiting plate 211 is fixed on the mounting frame 100, and when the locking members 212 are released, the first limiting plate 211 can move along the length direction of the bar-shaped through hole 130, so as to change the distance between the first limiting assembly 210 and the second limiting assembly 220, thereby fixing or releasing the cable 400. The first limiting plate 211 is provided with a plurality of first limiting holes 211a, the two first limiting units 213 are detachably arranged on the first limiting holes 211a, and the distances between the two first limiting units 213 can be changed by arranging the first limiting units 213 on different first limiting holes 211a so as to achieve the purpose of clamping cables with different sizes. Wherein, the locking member 212 can be a butterfly bolt, which is convenient for locking and releasing.

Each first limiting unit 213 includes a first connecting member 213a, a first rotating shaft 213b, and a first limiting bearing 213c, the first rotating shaft 213b is coaxially connected with the first limiting bearing 213c, and two ends of the first rotating shaft 213b are detachably connected with one end of the first connecting member 213a, which is far away from the first limiting hole 211a, so as to suspend the first limiting bearing 213c on the first limiting plate 211.

The second limiting assembly 220 comprises a second limiting plate 221 and two second limiting units 222, the second limiting plate 221 is fixedly arranged on the bottom plate of the mounting frame 100, a plurality of second limiting holes 221a are formed in the second limiting plate 221, the two second limiting units 222 are detachably arranged on the second limiting holes 221a, and the distance between the two second limiting units 222 can be changed by arranging the second limiting units 222 on different second limiting holes 221a so as to achieve the purpose of clamping cables with different sizes.

Each second limiting unit 222 includes a second connecting piece 222a, a second rotating shaft 222b and a second limiting bearing 222c, the second rotating shaft 222b is coaxially connected with the second limiting bearing 222c, and two ends of the second rotating shaft 222b are detachably connected with one end, far away from the second limiting hole 221a, of the second connecting piece 222a, so that the second limiting bearing 222c is supported on the second limiting plate 221.

In some specific embodiments, two strip-shaped through holes 130 are formed on each side plate of the mounting frame 100, and the strip-shaped through holes 130 on the two side plates are positioned in the same position; the two first limiting plates 211 are arranged, the two first limiting plates 211 are arranged in parallel, and the plate surfaces of the first limiting plates 211 are perpendicular to the top surface of the mounting frame 100; wherein the distance between the two bar-shaped through holes 130 on each of the side plates is the same as the distance between the two first connection pieces 213a connecting both ends of each of the first rotation shafts 213b, so that the first connection pieces 213a are mounted on the first limiting plate 211. Two second limiting plates 221 are arranged, the two second limiting plates 221 are arranged in parallel, and the plate surfaces of the second limiting plates 221 are perpendicular to the bottom surface and the side surfaces of the mounting frame 100; the distance between the two second limiting plates 221 is the same as the distance between the two second connecting members 222a connecting the two ends of each second rotating shaft 222b, so that the second connecting members 222a are mounted on the second limiting plates 221.

During installation, according to the cross-sectional dimension of the cable 400, the two first connecting pieces 213a connecting the two ends of each first rotating shaft 213b are installed on the first limiting holes 211a with the centers on the same straight line, and the two second connecting pieces 222a connecting the two ends of each second rotating shaft 222b are installed on the second limiting holes 221a with the centers on the same straight line, so that the axes of the first limiting bearings 213c, the axes of the second limiting bearings 222c and the axes of the cable 400 are parallel, and when the cable 400 is subjected to circular cutting, the circular cutting device rotates around the axes of the cable 400 more smoothly and saves labor.

Cutting mechanism 300 includes a drive assembly 310, a cutting assembly 320, and a spring 330. The driving assembly 310 includes a driving rod 311 and a driving block 312, wherein the driving rod 311 penetrates through the top plate of the mounting frame 100 and is in threaded connection with the top plate, and the driving block 312 is arranged in the hollow sleeve 120 and fixedly connected with the driving rod 311. The cutting assembly 320 comprises a driven block 321, a driven rod 322 and a blade 323, wherein the driven block 321 is fixedly connected with the driven rod 322, and one end, far away from the driven rod 322, of the driven block 321 is abutted with the driving block 312; the spring 330 is arranged between the driven block 321 and the bottom surface of the hollow sleeve 120 and sleeved on the driven rod 322; the blade 323 is detachably connected to the end of the driven rod 322 extending out of the hollow sleeve 120. The rotary driving rod 311 makes the driving block 312 move downwards, the driven block 321 abutting against the driving block 312 is stressed to drive the driven rod 322 and the blade 323 to move downwards, when the blade 323 reaches the cutting depth, the rotary driving assembly 310 is stopped, the position of the whole cutting mechanism 300 is fixed, and the circular cutting device is rotated by taking the shaft of the cable as the rotating shaft to perform circular cutting; after the circular cutting is performed, the driving block 312 moves upward by rotating the driving rod 311 in the opposite direction, but the driven block 321 is not pressed by the driving block 312 any more, but the spring 330 is pressed by the operation of the first rotation of the driving rod 311, so that the spring 330 has a deformation tendency to recover the free state, and the driven block 321 is driven by the upward elastic force to drive the driven rod 322 and the blade 323 to move upward, so that the whole cutting mechanism 300 is recovered.

In some embodiments, for ease of construction, the end of the drive rod 311 remote from the mounting bracket 100 is provided with a swivel handle 313.

When the utility model is used, the driving rod 311 is rotated to enable the cutting mechanism 300 to be far away from the limiting mechanism 200, and then the first limiting assembly 210 is moved in a direction far away from the second limiting assembly 220; one end of the cable 400 to be peeled and cut is extended between the first limit component 210 and the second limit component 220, the ring tangent point is adjusted to be right below the cutting mechanism 300, the first limit component 210 is moved to be close to the second limit component 220 so as to fix the cable 400, the cutting mechanism 300 is close to the limit mechanism 200 by the rotary driving rod 311, the cutting mechanism stops when reaching the cutting depth, the ring cutting device is rotated by taking the shaft of the cable 400 as a rotary shaft, and a ring cutting seam is left on the outer protective layer of the cable 400; finally, the driving rod 311 is rotated to enable the cutting mechanism 300 to be far away from the limiting mechanism 200, the first limiting assembly 210 is moved in a direction far away from the second limiting assembly 220, the cable 400 is taken down after being loosened, and the cut annular outer sheath is stripped along the axial direction of the cable 400.

Example 1:

a power cable outer sheath collar cutting device, comprising: the device comprises a mounting frame 100, a limiting mechanism 200 and a cutting mechanism 300.

The mounting frame 100 is of a box-shaped structure, wherein a group of opposite side surfaces are transparent, a supporting plate 110 is arranged at one side, close to the top plate, of the inside of the mounting frame 100, and a hollow sleeve 120 is arranged on the supporting plate 110; two strip-shaped through holes 130 are formed in each side plate of the mounting frame 100, and the positions of the strip-shaped through holes 130 in the two side plates are the same.

The spacing mechanism 200 includes a first spacing assembly 210 and a second spacing assembly 220.

The first limiting assembly 210 includes a first limiting plate 211, a locking member 212, and two first limiting units 213. Two ends of the first limiting plate 211 are arranged on the strip-shaped through hole 130 through the locking piece 212, and the first limiting plate 211 moves along the length direction of the strip-shaped through hole 130 to enable the first limiting assembly 210 to be close to or far from the second limiting assembly 220; the two first limiting plates 211 are arranged, the two first limiting plates 211 are arranged in parallel, and the plate surfaces of the first limiting plates 211 are perpendicular to the top surface of the mounting frame 100. The first limiting plate 211 is provided with a plurality of first limiting holes 211a, and the two first limiting units 213 are detachably mounted on the first limiting holes 211 a. Each first limiting unit 213 includes a first connecting member 213a, a first rotating shaft 213b, and a first limiting bearing 213c, the first rotating shaft 213b is coaxially connected with the first limiting bearing 213c, and two ends of the first rotating shaft 213b are detachably connected with one end of the first connecting member 213a, which is far away from the first limiting hole 211 a. Wherein, the distance between the two bar-shaped through holes 130 on each side plate is the same as the distance between the two first connecting pieces 213a connecting the two ends of each first rotating shaft 213b, and the locking piece 212 is a butterfly bolt.

The second limiting assembly 220 includes a second limiting plate 221 and two second limiting units 222. The second limiting plates 221 are fixedly arranged on the bottom plate of the mounting frame 100, two second limiting plates 221 are arranged in parallel, and the plate surfaces of the second limiting plates 221 are perpendicular to the bottom surface and the side surfaces of the mounting frame 100. The second limiting plate 221 is provided with a plurality of second limiting holes 221a, and two second limiting units 222 are detachably mounted on the second limiting holes 221 a. Each second limiting unit 222 comprises a second connecting piece 222a, a second rotating shaft 222b and a second limiting bearing 222c, the second rotating shaft 222b is coaxially connected with the second limiting bearing 222c, and two ends of the second rotating shaft 222b are detachably connected with one end, far away from the second limiting hole 221a, of the second connecting piece 222 a. The distance between the two second limiting plates 221 is the same as the distance between the two second connecting members 222a connecting the two ends of each second rotating shaft 222 b.

The cutting mechanism 300 penetrates through the top plate of the mounting frame 100 and is movably arranged in the hollow sleeve 120, the cutting mechanism 300 comprises a driving component 310, a cutting component 320 and a spring 330, and the driving component 310 drives the cutting component 320 to be close to the first limiting component 210 when moving towards the cutting component 320; when the driving assembly 310 moves away from the cutting assembly 320, the cutting assembly 320 moves away from the first limiting assembly 210 under the action of the spring 330. The driving assembly 310 comprises a driving rod 311 and a driving block 312, wherein the driving rod 311 penetrates through the top plate of the mounting frame 100 and is in threaded connection with the top plate, the driving block 312 is arranged in the hollow sleeve 120 and is fixedly connected with the driving rod 311, and a rotary handle 313 is arranged at one end, far away from the mounting frame 100, of the driving rod 311. The cutting assembly 320 comprises a driven block 321, a driven rod 322 and a blade 323, wherein the driven block 321 is fixedly connected with the driven rod 322, and one end, far away from the driven rod 322, of the driven block 321 is abutted with the driving block 312; the spring 330 is arranged between the driven block 321 and the bottom surface of the hollow sleeve 120 and sleeved on the driven rod 322; the blade 323 is detachably connected to the end of the driven rod 322 extending out of the hollow sleeve 120.

According to the utility model, the driving rod 311 is in threaded connection with the mounting frame 100, so that the cutting depth of the cutting mechanism 300 can be controlled linearly, when the cutting mechanism 300 descends to a specified cutting depth, the driving rod 311 is stopped to fix the position of the cutting mechanism 300, the cutting depth in the circular cutting process can be kept consistent, and the damage of misoperation of a hand-held common cutter to the internal structure of a cable is avoided; meanwhile, the blade 323 is arranged inside the mounting frame 100, so that the blade is not in direct contact with constructors, the constructors can be prevented from injuring themselves accidentally during construction, and the construction safety is high.

The foregoing is a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model and are intended to be comprehended within the scope of the present utility model.

Claims (10)

1. The utility model provides a power cable outer sheath ring cuts device which characterized in that includes:

the mounting frame is of a box-shaped structure, a group of opposite side surfaces of the mounting frame are transparent, a supporting plate is arranged on one side, close to the top plate, of the inside of the mounting frame, and a hollow sleeve is arranged on the supporting plate;

the limiting mechanism comprises a first limiting component and a second limiting component, the second limiting component is fixed on the bottom plate of the mounting frame, the first limiting component is movably arranged on the side plate of the mounting frame, and the first limiting component is close to or far away from the second limiting component to fix or relax the cable;

and the cutting mechanism penetrates through the top plate of the mounting frame and is movably arranged in the hollow sleeve, and the cutting mechanism is in threaded connection with the top plate of the mounting frame.

2. The device of claim 1, wherein the side plates of the mounting frame are provided with strip-shaped through holes, and the first limiting component is arranged on the strip-shaped through holes.

3. The device for cutting the outer sheath of the power cable according to claim 2, wherein the first limiting assembly comprises a first limiting plate, a locking piece and two first limiting units, two ends of the first limiting plate are fixed on the strip-shaped through hole through the locking piece, a plurality of first limiting holes are formed in the first limiting plate, and the two first limiting units are detachably mounted on the first limiting holes.

4. A power cable outer sheath ring cutting device according to claim 3, wherein each first limiting unit comprises a first connecting piece, a first rotating shaft and a first limiting bearing, the first rotating shaft is coaxially connected with the first limiting bearing, and two ends of the first rotating shaft are detachably connected with one end, far away from the first limiting hole, of the first connecting piece.

5. The device for cutting the outer sheath of the power cable according to claim 2, wherein the second limiting assembly comprises a second limiting plate and two second limiting units, the second limiting plate is fixedly arranged on the bottom plate of the mounting frame, a plurality of second limiting holes are formed in the second limiting plate, and the two second limiting units are detachably mounted on the second limiting holes.

6. The device of claim 5, wherein each second limiting unit comprises a second connecting piece, a second rotating shaft and a second limiting bearing, the second rotating shaft is coaxially connected with the second limiting bearing, and two ends of the second rotating shaft are detachably connected with one end, away from the second limiting hole, of the second connecting piece.

7. The device of claim 1, wherein the cutting mechanism comprises a driving component, a cutting component and a spring, and the driving component drives the cutting component to be close to the first limiting component when moving towards the cutting component; when the driving assembly moves in a direction away from the cutting assembly, the cutting assembly is away from the first limiting assembly under the action of the spring.

8. The device of claim 7, wherein the drive assembly comprises a drive rod and a drive block, the drive rod extends through the top plate of the mounting frame and is in threaded connection with the top plate, and the drive block is disposed in the hollow sleeve and is fixedly connected with the drive rod.

9. The device of claim 8, wherein the end of the drive rod remote from the mounting bracket is provided with a rotatable handle.

10. The device of claim 8, wherein the cutting assembly comprises a driven block, a driven rod and a blade, the driven block is fixedly connected with the driven rod, and one end of the driven block away from the driven rod is abutted with the driving block; the spring is arranged between the driven block and the bottom surface of the hollow sleeve and sleeved on the driven rod; the blade and the end of the driven rod extending out of the hollow sleeve are detachably connected.

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