CN114050513A - Handheld wire stripper for microwave communication antenna feeder line - Google Patents

Abstract

The invention relates to the field of communication, in particular to a handheld wire stripper for a microwave communication antenna feeder line, which comprises an installation frame, a grab handle, a first slide rail plate, a first clamping frame and the like; the outer bottom of installing frame connects there is the grab handle, and the inside hookup of installing frame has first slide rail board, and first slide rail board sliding connection has first clamping frame. Through the cooperation of first cutting knife and second cutting knife and device on it, first cutting knife can cut the feeder and cut out horizontal section, and the second cutting knife can vertically cut open the feeder, has realized the purpose that can strip insulating medium and outer metal mesh on the feeder automatically high-efficiently.

Description

Handheld wire stripper for microwave communication antenna feeder line

Technical Field

The invention relates to the field of communication, in particular to a handheld wire stripper for a microwave communication antenna feeder.

Background

The feeder line plays a role in transmitting signals in a cable television system, the performance of the feeder line in an outdoor environment may be affected by rainy weather, when a communication system breaks down, the feeder line needs to be maintained in time, a main feeder pipe, a rheostat and a branch feeder cable need to be checked, and reasons need to be found and processed in time when problems are found.

The feeder line structure is from inside to outside core wire, insulating medium and outer metal mesh in proper order, and the wire stripping is the necessary step in the process of maintenance, installation feeder line, and the tradition method is that the staff holds the feeder line by hand, uses the cutting knife to cut out horizontal tangent plane on the feeder line, then uses the cutting knife to vertically mark out vertical tangent plane to strip insulating medium and outer metal mesh on the cable, but the tradition method cuts staff's hand very easily, and the potential safety hazard is higher, and traditional method troublesome poeration, leads to the inefficiency of wire stripping.

Disclosure of Invention

Therefore, in order to solve the above problems, it is necessary to provide a handheld wire stripper for microwave communication antenna feeder, which can automatically and efficiently strip the insulating medium and the outer metal mesh on the feeder and effectively reduce the potential safety hazard, so as to solve the problems of high potential safety hazard and low wire stripping efficiency of manual wire stripping by the prior art.

The technical scheme is as follows: the utility model provides a hand-held type wire stripper for microwave communication antenna feeder, including installing frame, grab handle, first slide rail board, first clamping frame, second clamping frame, first spring, slip push pedal, flexible folded sheet, first drive frame, clamping components, cutting assembly and runner assembly:

a grab handle is connected with the outer bottom of the mounting frame;

the first sliding rail plate is connected inside the mounting frame;

the first clamping frame is connected with the first sliding rail plate in a sliding manner;

the first clamping frame is connected with a first clamping frame in a sliding mode, the first clamping frame is clamped into a hole in the first clamping frame, and the first clamping frame and the second clamping frame are matched together to clamp the feeder line;

the first spring is connected between the first clamping frame and the first slide rail plate, and the first spring is connected between the second clamping frame and the first slide rail plate;

the mounting frame is connected with the sliding push plate in a sliding manner;

the sliding push plate is connected with the mounting frame through a connecting rod;

the lower part of the sliding push plate is fixedly connected with a first transmission frame which is L-shaped;

the first transmission frame is provided with a clamping assembly, and the clamping assembly is used for enabling the first clamping frame and the second clamping frame to clamp the feeder line;

the cutting assembly is arranged on the mounting frame and used for cutting the feeder line;

the rotating assembly is arranged on the first sliding rail plate and used for enabling the cutting assembly to cut a transverse cutting surface on the feeder line.

In a preferred embodiment of the present invention, the retractable folding plate is of a folding structure, and is used for sealing the top of the mounting frame, so as to prevent external foreign matters from falling into the mounting frame.

In a preferred embodiment of the invention, the clamping assembly comprises a first slotting frame, an extrusion frame and a first clamping column frame, the first slotting frame is connected to the first transmission frame, the extrusion frame is connected in a sliding manner inside the mounting frame, the extrusion frame is in contact with both the first clamping frame and the second clamping frame, the first clamping column frame is connected to the top of the extrusion frame, and the first clamping column frame is in limit fit with the first slotting frame.

In a preferred embodiment of the invention, the cutting assembly comprises a second slotting frame, a second sliding rail plate, a wedge-shaped extrusion ring, a second column clamping frame, a support ring frame, a support circular ring, a sliding rail frame, a sliding support frame, a pushing frame, a second spring and a first cutting knife, the second slotting frame is symmetrically connected to the top of the extrusion frame, the second sliding rail plate is connected to the inside of the installation frame, the wedge-shaped extrusion ring is connected to the second sliding rail plate in a sliding manner, the second column clamping frame is connected to the wedge-shaped extrusion ring in a limiting fit manner, the support ring frame is connected to the first sliding rail plate, the support circular frame is connected to the support circular frame in a rotating manner, four sliding rail frames are connected to the support circular ring in a circumferentially distributed manner, the sliding support frame is connected to the sliding rail frame in a sliding manner, the pushing frame is connected to the sliding support frame, and the pushing frame is in contact with the wedge-shaped extrusion ring, a second spring is connected between the sliding support frame and the sliding rail frame, the bottom of the pushing frame is connected with a first cutting knife, and the first cutting knife is in contact with the support ring.

In a preferred embodiment of the present invention, the rotating assembly includes a first supporting frame, a helical gear rack, a first helical gear and a second helical gear, the first supporting frame is connected to the first sliding rail plate, the helical gear rack is fixedly connected to the first transmission rack, the first helical gear is rotatably connected to the first supporting frame, the first helical gear is engaged with the helical gear rack, the second helical gear is fixedly connected to the exterior of the supporting circular frame, and the second helical gear is engaged with the first helical gear.

In a preferred embodiment of the invention, the cutting device further comprises a cutting component, the cutting component is arranged on the mounting frame, the cutting component comprises a second support frame, a third sliding rail plate, a sliding rail plate, a second transmission frame, a double-groove pushing plate, a second cutting knife, a return spring and a third clamping column frame, the second support frame is connected to the bottom in the mounting frame, the third sliding rail plate is connected to the second support frame, the sliding rail plate is connected to the top of the third sliding rail plate in a sliding manner, the second transmission frame is connected to the oblique rack, the double-groove pushing plate is connected to the second transmission frame, the second cutting knife is symmetrically connected to the sliding rail plate in a sliding manner, the return spring is connected between the second cutting knife and the sliding rail plate, the third clamping knife column frame is connected to one side of the second cutting knife, and the double-groove pushing plate are in limit fit.

In a preferred embodiment of the present invention, the present invention further comprises a spreading assembly, the spreading assembly is disposed on the second support frame, the spreading assembly includes an L-shaped slotted plate and a fourth column clamping frame, the L-shaped slotted plate is symmetrically coupled to the second support frame, the fourth column clamping frame is coupled to one side of the second cutting knife, and the fourth column clamping frame is slidably engaged with the L-shaped slotted plate.

In a preferred embodiment of the invention, the pushing device further comprises a pushing assembly, the pushing assembly is arranged on the mounting frame, the pushing assembly comprises a sliding push rod, a limiting plate, a third spring, a limiting round frame and a fourth spring, the sliding push rod is connected to the mounting frame in a sliding manner, the limiting plate is fixedly connected to one end of the sliding push rod, the third spring is connected between the sliding push rod and the mounting frame, the limiting round frame is connected to the sliding push rod in a sliding manner, the limiting round frame is matched with the limiting plate in a sliding manner, at least one part of the limiting round frame penetrates through the wedge-shaped extrusion ring, and the fourth spring is connected between the limiting plate and the limiting round frame.

In a preferred embodiment of the invention, the limiting circular frame adopts an arc surface shape and is used for limiting the stripped insulating medium and the outer layer metal mesh to play a role of preventing the stripped insulating medium and the outer layer metal mesh from falling to the inner bottom of the mounting frame.

Compared with the prior art, the invention has the following advantages:

through the cooperation of first cutting knife and second cutting knife and device on it, first cutting knife can cut the feeder and cut out horizontal section, and the second cutting knife can vertically cut open the feeder, has realized the purpose that can strip insulating medium and outer metal mesh on the feeder automatically high-efficiently.

At the in-process of cutting out horizontal section face with the feeder, inside the second cutting knife can cut into the feeder earlier straight line, the second cutting knife can strut feeder inside afterwards for the second cutting knife can peel off insulating medium and outer metal mesh on the feeder better, and then can improve wire stripping efficiency effectively.

The limiting plate can push out the stripped insulating medium and the outer metal mesh which are possibly remained on the limiting circular frame, so that the stripped insulating medium and the stripped outer metal mesh are prevented from being accumulated in the equipment, and the equipment can be conveniently stripped again.

In the wire stripping process, the hand of a user cannot contact the first cutting knife and the second cutting knife, so that the worker can be prevented from being cut, and the potential safety hazard is effectively reduced.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of the present invention in a partially cut-away perspective structure.

Fig. 4 is a schematic cross-sectional perspective view of the clamping assembly of the present invention.

Fig. 5 is a partially cut-away perspective view of the cutting assembly of the present invention.

Fig. 6 is a schematic view of a first partially assembled body of the cutting assembly of the present invention.

Fig. 7 is a schematic view of a second partial body structure of the cutting assembly of the present invention.

Fig. 8 is a perspective view of a third portion of the cutting assembly of the present invention.

Fig. 9 is a perspective view of the rotating assembly of the present invention.

Figure 10 is a partially cut-away perspective view of the cutaway assembly of the present invention.

Fig. 11 is a schematic view of a partial perspective view of a cutaway assembly of the present invention.

Fig. 12 is a schematic perspective view of a first distracting assembly of the present invention.

Fig. 13 is a schematic perspective view of a second distracting assembly of the present invention.

Figure 14 is a schematic view of a partially cut-away perspective structure of a push-out assembly of the present invention.

Fig. 15 is a perspective view of the pushing assembly of the present invention.

In the figure: 1. a mounting frame, 2, a grab handle, 31, a first slide rail plate, 311, a first clamping frame, 32, a second clamping frame, 321, a first spring, 34, a sliding push plate, 35, a telescopic folding plate, 36, a first transmission frame, 4, a clamping assembly, 41, a first slotting frame, 42, a squeezing frame, 43, a first clamping column frame, 5, a cutting assembly, 51, a second slotting frame, 52, a second slide rail plate, 53, a wedge-shaped squeezing ring, 54, a second clamping column frame, 55, a supporting ring frame, 56, a supporting circular frame, 57, a supporting circular ring, 58, a slide rail frame, 59, a sliding supporting frame, 510, a pushing frame, 511, a second spring, 512, a first cutting knife, 6, a rotating assembly, 61, a first supporting frame, 62, a bevel gear frame, 63, a first bevel gear, 64, a second bevel gear, 7, a splitting assembly, 71, a second supporting frame, 72, a third slide rail plate, 721, a sliding rail plate, 73. second driving frame, 74, two fluting push plates, 75, second cutting knife, 751, homing spring, 76, third joint post frame, 8, prop open the subassembly, 81, L shape fluting board, 82, fourth joint post frame, 9, push-out subassembly, 91, slip push rod, 92, limiting plate, 93, third spring, 94, spacing circle frame, 95, fourth spring.

Detailed Description

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.

Example 1

A hand-held wire stripper for microwave communication antenna feeder lines is disclosed, as shown in figures 1-9, comprising a mounting frame 1, a handle 2, a first slide rail plate 31, a first clamping frame 311, a second clamping frame 32, a first spring 321, a slide push plate 34, a telescopic folding plate 35, a first transmission frame 36, a clamping assembly 4, a cutting assembly 5 and a rotating assembly 6, wherein the handle 2 is connected to the outer bottom of the mounting frame 1, the first slide rail plate 31 is connected to the inside of the mounting frame 1, the first slide rail plate 31 is slidably connected with the first clamping frame 311, the first clamping frame 311 is slidably connected with the second clamping frame 32, the second clamping frame 32 is clamped into a hole on the first clamping frame 311, the first clamping frame 311 and the second clamping frame 32 are matched together for clamping the feeder lines, the first spring 321 is connected between the first clamping frame 311 and the first slide rail plate 31, the second clamping frame 32 is also connected with the first spring 321 between the first slide rail plate 31, the installing frame 1 is connected with a sliding push plate 34 in a sliding mode, a telescopic folding plate 35 used for sealing the top of the installing frame 1 is connected between the sliding push plate 34 and the installing frame 1, a first transmission frame 36 is fixedly connected to the lower portion of the sliding push plate 34, the first transmission frame 36 is of an L shape, a clamping assembly 4 used for enabling the first clamping frame 311 and the second clamping frame 32 to clamp the feeder line is arranged on the first transmission frame 36, a cutting assembly 5 used for cutting the feeder line is arranged on the installing frame 1, and a rotating assembly 6 used for enabling the cutting assembly 5 to cut a transverse cutting face on the feeder line is arranged on the first sliding rail plate 31.

Clamping component 4 is including first fluting frame 41, extrusion frame 42 and first jack-post frame 43, the hookup has first fluting frame 41 on the first transmission 36, it has L type spout to open on the first fluting frame 41, the inside slidingtype of installing frame 1 is connected with extrusion frame 42, extrusion frame 42 is N type structure, extrusion frame 42 and first clamping frame 311, the equal contact of second clamping frame 32, first jack-post frame 43 is connected at extrusion frame 42 top, first jack-post frame 43 and the spacing cooperation of first fluting frame 41.

The cutting assembly 5 comprises a second slotted frame 51, a second slide rail plate 52, a wedge-shaped extrusion ring 53, a second column clamping frame 54, a support ring frame 55, a support circular frame 56, a support circular ring 57, a slide rail frame 58, a sliding support frame 59, a pushing frame 510, a second spring 511 and a first cutter 512, wherein the top of the extrusion frame 42 is symmetrically connected with the second slotted frame 51, the second slotted frame 51 is provided with an L-shaped sliding groove, the inside of the installation frame 1 is connected with the second slide rail plate 52, the second slide rail plate 52 is connected with the wedge-shaped extrusion ring 53 in a sliding way, the wedge-shaped extrusion ring 53 is in an annular structure, the wedge-shaped extrusion ring 53 is connected with the second column clamping frame 54 in a connecting way, the second column frame 54 is in limit matching with the second slotted frame 51, the first slide rail plate 31 is connected with the support ring frame 55, the support circular frame 55 is connected with the support circular frame 56 in a sliding way, the support circular frame 56 is connected with the support circular frame 57, and the support circular ring 57 is provided with the four slide rail frames 58 in a distributed way, the sliding rail frame 58 is connected with a sliding support frame 59 in a sliding mode, the sliding support frame 59 is Z-shaped, a pushing frame 510 is connected to the sliding support frame 59, one side, away from the sliding rail frame 58, of the pushing frame 510 is of an inclined plane structure, the pushing frame 510 is in contact with the wedge-shaped extrusion ring 53, a second spring 511 is connected between the sliding support frame 59 and the sliding rail frame 58, the bottom of the pushing frame 510 is connected with a first cutting knife 512 used for cutting an insulating medium and an outer-layer metal mesh on a feeder line, and the first cutting knife 512 is in contact with the supporting ring 57.

The rotating assembly 6 comprises a first supporting frame 61, a helical gear rack 62, a first helical gear 63 and a second helical gear 64, the first supporting frame 61 is connected to the first sliding rail plate 31 in a linkage mode, the helical gear rack 62 is fixedly connected to the first transmission frame 36, one side, close to the supporting circular frame 56, of the helical gear rack 62 is in a helical gear shape, the first supporting frame 61 is connected with the first helical gear 63 in a rotating mode, the first helical gear 63 is meshed with the helical gear rack 62, the second helical gear 64 is fixedly connected to the outer portion of the supporting circular frame 56, and the second helical gear 64 is meshed with the first helical gear 63.

When the feeder stripper is used, a worker holds the handle 2, manually penetrates the feeder to be stripped through the supporting circular frame 56, manually pulls the sliding push plate 34 and the upper device thereof to move, and causes the first slotting frame 41 to drive the first clamping column frame 43 and the upper device thereof to move downwards, the telescopic folding plate 35 contracts, the squeezing frame 42 squeezes the first clamping frame 311 and the second clamping frame 32 to move towards the direction of approaching each other and clamps the feeder to be stripped, the first spring 321 is stretched accordingly, the second slotting frame 51 drives the second clamping column frame 54 and the upper device thereof to move towards the direction of approaching the supporting circular frame 56, the wedge-shaped squeezing ring 53 squeezes the pushing frame 510 and the upper device thereof to move towards each other and causes the first cutter 512 to cut the feeder to be stripped, the second spring 511 is stretched accordingly, during the manual pulling of the sliding push plate 34 and the upper device thereof, the bevel gear frame 62 drives the first bevel gear 63 to rotate and causes the first bevel gear 64 and the second bevel gear 64 and the upper device thereof to rotate, therefore, the first cutting knife 512 rotates on the feeder line to be stripped and cuts a transverse section, so that the insulating medium and the outer metal mesh on the feeder line are effectively cut off, then the feeder line with the insulating medium and the outer metal mesh cut off is taken out manually, the sliding push plate 34 and the device on the sliding push plate are pulled manually to reset, the telescopic folding plate 35 resets and seals the top of the installation frame 1 again, so that external foreign matters are prevented from entering the inside of the installation frame 1, the first clamping column frame 43 and the device on the sliding push plate reset in sequence, and the effect of automatically and transversely cutting the feeder line is achieved.

Example 2

On the basis of the embodiment 1, as shown in fig. 10 to 13, the feeder splitting device further includes a splitting assembly 7 for longitudinally splitting the feeder, the splitting assembly 7 is disposed on the mounting frame 1, the splitting assembly 7 includes a second support frame 71, a third slide rail plate 72, a slide rail plate 721, a second transmission frame 73, a double-slotted push plate 74, a second cutting knife 75, a return spring 751 and a third clamping column frame 76, the second support frame 71 is connected to the bottom of the mounting frame 1, the second support frame 71 is I-shaped, the third slide rail plate 72 is connected to the second support frame 71, the third slide rail plate 72 is provided with a transverse sliding slot, the top of the third slide rail plate 72 is slidably connected to the slide rail plate 721, the second transmission frame 73 is connected to the bevel gear frame 62, the second transmission frame 73 is connected to the double-slotted push plate 74, the double-slotted push plate 74 is provided with a pair of oblique sliding slots, the slide rail plate 721 is symmetrically connected to the second cutting knife 75 for longitudinally splitting the feeder, a homing spring 751 is connected between the second cutter 75 and the sliding rail plate 721, a third clamping column frame 76 is connected with one side of the second cutter 75, and the third clamping column frame 76 is in limit fit with the double-slotted pushing plate 74.

In the process of manually pulling the sliding push plate 34 and the upper device to move, the second transmission frame 73 and the upper device thereof can move together, when the second cutting knife 75 is in contact with the feeder line, due to the blocking effect of the feeder line, the second cutting knife 75 can stop moving, the second transmission frame 73 and the upper device thereof can continue moving, due to the guiding effect of the double-slotted push plate 74, the two second cutting knives 75 can move towards the directions away from each other, the homing spring 751 can be compressed therewith, then the double-slotted push plate 74 can drive the second cutting knife 75 to continue moving and enable the second cutting knife 75 to longitudinally split the feeder line, when the second transmission frame 73 and the upper device thereof are reset, the double-slotted push plate 74 can drive the second cutting knife 75 and the upper device thereof to reset therewith, the homing spring 751 can reset therewith and drive the second cutting knife 75 to reset, and the purpose of longitudinally split the feeder line can be automatically realized.

Example 3

On the basis of the embodiment 2, as shown in fig. 10 to 13, the feeder further includes a spreading assembly 8, the spreading assembly 8 for spreading the insulating medium and the outer metal mesh on the feeder is disposed on the second supporting frame 71, the spreading assembly 8 includes an L-shaped slotted plate 81 and a fourth post clamping frame 82, the second supporting frame 71 is symmetrically connected with the L-shaped slotted plate 81, the L-shaped slotted plate 81 is provided with an L-shaped sliding slot, one side of the second cutting knife 75 is connected with the fourth post clamping frame 82, and the fourth post clamping frame 82 is slidably matched with the L-shaped slotted plate 81.

In the process that the second transmission frame 73 and the device on the second transmission frame move towards the direction close to the supporting circular frame 56, due to the limiting effect of the fourth clamping column frame 82, the second cutting knife 75 cannot move, so that the second cutting knife 75 is directly cut into the feeder line, then under the guiding effect of the L-shaped slotting plate 81, the fourth clamping column frame 82 and the device on the fourth clamping column frame 82 can move towards the direction away from each other and enable the two second cutting knives 75 to prop open the feeder line, the homing spring 751 can be compressed accordingly, so that the feeder line can be better longitudinally split, when the second transmission frame 73 and the device on the second transmission frame are reset, the fourth clamping column frame 82 and the device on the fourth clamping column frame 82 can be reset accordingly under the guiding effect of the L-shaped slotting plate 81, the homing spring 751 can be reset accordingly and drives the second cutting knife 75 to reset, and the purpose of better longitudinally splitting the feeder line is achieved.

Example 4

On the basis of embodiment 3, as shown in fig. 14 to 15, the device further includes a pushing assembly 9, the pushing assembly 9 is disposed on the mounting frame 1, the pushing assembly 9 is used for pushing out the stripped insulating medium and the outer metal mesh that may remain, and includes a sliding push rod 91, a limiting plate 92, a third spring 93, a limiting circular frame 94 and a fourth spring 95, the mounting frame 1 is slidably connected with the sliding push rod 91, an end of the sliding push rod 91, which is far away from the mounting frame 1, is disc-shaped, an end of the sliding push rod 91 is fixedly connected with the limiting plate 92, the third spring 93 is connected between the sliding push rod 91 and the mounting frame 1, the sliding push rod 91 is slidably connected with the limiting circular frame 94, the limiting circular frame 94 is arc-shaped, the limiting circular frame 94 is slidably engaged with the limiting plate 92, the limiting plate 92 is used for pushing out the stripped insulating medium and the outer metal mesh that may remain on the limiting circular frame 94, at least a part of the limiting circular frame 94 penetrates through the wedge-shaped extrusion ring 53, and a fourth spring 95 is connected between the limiting plate 92 and the limiting circular frame 94.

After the stripped feeder line is taken out, the sliding push rod 91 and the upper device thereof are manually pushed to move towards the direction close to the supporting circular frame 56, the third spring 93 and the fourth spring 95 are stretched accordingly, so that the limiting plate 92 pushes out the insulation medium and the outer metal mesh which are possibly left on the limiting circular frame 94 and are peeled off, then the sliding push rod 91 is loosened, the third spring 93 resets accordingly and drives the sliding push rod 91 and the upper device thereof to reset, and the fourth spring 95 resets accordingly and drives the limiting circular frame 94 to reset.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a hand-held type wire stripper for microwave communication antenna feeder, characterized by, including installing frame, grab handle, first slide rail board, first clamping frame, second clamping frame, first spring, slip push pedal, flexible folded sheet, first drive frame, clamping components, cutting assembly and runner assembly:

a grab handle is connected with the outer bottom of the mounting frame;

the first sliding rail plate is connected inside the mounting frame;

the first clamping frame is connected with the first sliding rail plate in a sliding manner;

the first clamping frame is connected with a first clamping frame in a sliding mode, the first clamping frame is clamped into a hole in the first clamping frame, and the first clamping frame and the second clamping frame are matched together to clamp the feeder line;

the first spring is connected between the first clamping frame and the first slide rail plate, and the first spring is connected between the second clamping frame and the first slide rail plate;

the mounting frame is connected with the sliding push plate in a sliding manner;

the sliding push plate is connected with the mounting frame through a connecting rod;

the lower part of the sliding push plate is fixedly connected with a first transmission frame which is L-shaped;

the clamping component is arranged on the first transmission frame and used for enabling the first clamping frame and the second clamping frame to be connected

The clamping frame clamps the feeder line;

the cutting assembly is arranged on the mounting frame and used for cutting the feeder line;

the rotating assembly is arranged on the first sliding rail plate and used for enabling the cutting assembly to cut a transverse cutting surface on the feeder line.

2. A hand-held wire stripper for microwave communication antenna feed lines as defined in claim 1, wherein the telescopic folding plate is of a folded structure for sealing the top of the mounting frame to prevent foreign objects from falling into the inside of the mounting frame.

3. The hand-held wire stripper for microwave communication antenna feeder according to claim 1, wherein the clamping assembly comprises a first slotted frame, a pressing frame and a first clamping frame, the first slotted frame is connected to the first transmission frame, the pressing frame is slidably connected to the inside of the mounting frame, the pressing frame is in contact with both the first clamping frame and the second clamping frame, the first clamping frame is connected to the top of the pressing frame, and the first clamping frame is in limit fit with the first slotted frame.

4. The hand-held wire stripper for microwave communication antenna feeder according to claim 3, wherein the cutting assembly comprises a second slotted frame, a second sliding rail plate, a wedge-shaped extrusion ring, a second column frame, a support ring frame, a support circular ring, a sliding rail frame, a sliding support frame, a pushing frame, a second spring and a first cutter, the second slotted frame is symmetrically connected to the top of the extrusion frame, the second sliding rail plate is connected to the inside of the mounting frame, the wedge-shaped extrusion ring is slidably connected to the second sliding rail plate, the second column frame is connected to the wedge-shaped extrusion ring, the second column frame is in limit fit with the second slotted frame, the support ring frame is connected to the first sliding rail plate, the support circular frame is rotatably connected to the support circular frame, the support circular frame is connected to the support circular ring, four sliding rail frames are circumferentially distributed and connected to the support circular ring, the sliding support frame is slidably connected to the sliding support frame, the sliding support frame is connected with a pushing frame, the pushing frame is in contact with the wedge-shaped extrusion ring, a second spring is connected between the sliding support frame and the sliding rail frame, the bottom of the pushing frame is connected with a first cutting knife, and the first cutting knife is in contact with the supporting ring.

5. The hand-held wire stripper for a microwave communication antenna feeder according to claim 4, wherein the rotary member comprises a first support frame, a helical gear rack, a first helical gear and a second helical gear, the first support frame is coupled to the first slide plate, the helical gear rack is fixedly coupled to the first support frame, the first helical gear is rotatably coupled to the first support frame, the first helical gear is engaged with the helical gear rack, the second helical gear is fixedly coupled to an outer portion of the support circular frame, and the second helical gear is engaged with the first helical gear.

6. A hand-held wire stripper for microwave communications antenna feeds as claimed in claim 5, the cutting device is characterized by further comprising a cutting component, the cutting component is arranged on the mounting frame and comprises a second support frame, a third sliding rail plate, a sliding rail plate, a second transmission frame, a double-groove pushing plate, a second cutting knife, a homing spring and a third clamping column frame, the second support frame is connected to the bottom in the mounting frame, the third sliding rail plate is connected to the second support frame in a sliding mode, the top of the third sliding rail plate is connected with the sliding rail plate in a sliding mode, the second transmission frame is connected to the oblique tooth frame in a connecting mode, the double-groove pushing plate is connected to the second transmission frame in a connecting mode, the sliding rail plate is symmetrically connected with the second cutting knife, the homing spring is connected between the second cutting knife and the sliding rail plate, one side of the second cutting knife is connected with the third clamping column frame, and the double-groove pushing plate are in limit fit.

7. The hand-held wire stripper for microwave communication antenna feeders as recited in claim 6, further comprising a spreader assembly, said spreader assembly being disposed on said second support frame, said spreader assembly comprising an L-shaped slotted plate and a fourth post-clamping frame, said second support frame being symmetrically coupled with said L-shaped slotted plate, said second cutting blade being coupled at one side thereof with said fourth post-clamping frame, said fourth post-clamping frame being slidably engaged with said L-shaped slotted plate.

8. The handheld wire stripper for microwave communication antenna feeder according to claim 7, further comprising a push-out assembly, wherein the push-out assembly is disposed on the mounting frame, the push-out assembly comprises a sliding push rod, a limiting plate, a third spring, a limiting round frame and a fourth spring, the sliding push rod is slidably connected to the mounting frame, the limiting plate is fixedly connected to one end of the sliding push rod, the third spring is connected between the sliding push rod and the mounting frame, the limiting round frame is slidably connected to the sliding push rod, the limiting round frame is slidably engaged with the limiting plate, at least a portion of the limiting round frame passes through the wedge-shaped extrusion ring, and the fourth spring is connected between the limiting plate and the limiting round frame.

9. A hand-held wire stripper for microwave communications antenna feedlines as claimed in claim 8 wherein the limiting circular frame is arcuate to limit the stripped dielectric and outer metal mesh from falling to the bottom of the mounting frame.

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