CN112427982A

CN112427982A - Pipe cutting dislocation device

Info

Publication number: CN112427982A
Application number: CN202011227855.XA
Authority: CN
Inventors: 熊洁静
Original assignee: Zhejiang Franta Co ltd
Current assignee: Zhejiang Franta Co ltd
Priority date: 2020-11-06
Filing date: 2020-11-06
Publication date: 2021-03-02
Anticipated expiration: 2040-11-06
Also published as: CN112427982B

Abstract

The invention discloses a tube cutting dislocation device, which comprises: the device comprises a first pipe body positioning mechanism, a second pipe body positioning mechanism, a top plate and a bottom plate; the bottom plate is provided with a first lower fixing seat and a lower second fixing seat, the first pipe body positioning mechanism comprises a first positioning ring, one end of the first positioning ring is provided with a first pipe body fixing column, the other end of the first positioning ring is provided with an extension column, the second pipe body positioning mechanism comprises a second positioning ring, one end of the second positioning ring is provided with a second pipe body fixing column, the other end of the second positioning ring is provided with a transmission column, and a first upper fixing seat and a second upper fixing seat which respectively correspond to the first lower fixing seat and the lower second fixing seat are arranged below the top plate; the horizontal position of the lowest point of the lower half positioning groove of the first lower fixing seat is lower than that of the second lower fixing seat. The invention overcomes the defect that the pipe body is easy to be choked when being cut, and the performance of the pipe body is influenced.

Description

Pipe cutting dislocation device

Technical Field

The invention relates to the field of pipe body machining, in particular to a pipe body cutting and dislocation device.

Background

At present, present body cutting device is all fixed the back with the cutting piece cutting with extrusion device to the body, and this kind of mode leads to the body to appear the body when the cutting and holds back the condition of rolling over easily, has influenced the performance of body, and the mode extrusion of this kind of extrusion body is more complicated with the extrusion process of relaxing in addition, has reduced cutting efficiency.

Disclosure of Invention

The invention provides a pipe body cutting and dislocation device aiming at the problems, and solves the defect that the pipe body is easily blocked during cutting because the pipe body is cut by a cutting blade after the pipe body is fixed by an extrusion device of the existing pipe body cutting device.

The technical scheme adopted by the invention is as follows:

a pipe cutting and dislocation device, comprising: the device comprises a first pipe body positioning mechanism, a second pipe body positioning mechanism, a top plate and a bottom plate; the bottom plate is provided with a first lower fixing seat and a lower second fixing seat, the first pipe body positioning mechanism comprises a first positioning ring, one end of the first positioning ring is provided with a first pipe body fixing column, the other end of the first positioning ring is provided with an extension column, the second pipe body positioning mechanism comprises a second positioning ring, one end of the second positioning ring is provided with a second pipe body fixing column, the other end of the second positioning ring is provided with a transmission column, and a first upper fixing seat and a second upper fixing seat which correspond to the first lower fixing seat and the lower second fixing seat respectively are arranged below the top plate; the first upper fixing seat and the second upper fixing seat are respectively provided with an upper half positioning groove, the first lower fixing seat and the second lower fixing seat are respectively provided with a lower half positioning groove, and the upper half positioning groove and the lower half positioning groove are assembled together to form an annular positioning groove matched with the pipe body; the horizontal position of the lowest point of the lower half positioning groove of the first lower fixing seat is lower than that of the lowest point of the lower half positioning groove of the second lower fixing seat; be equipped with a pair of first support column on the roof, first support column passes first fixing base downwardly connected lower fixing base, be equipped with reset spring between the lower surface of first upper fixing base upper surface and roof, first retaining ring can block in the first constant head tank of last fixing base. The invention adopts a first pipe body positioning mechanism and a second pipe body positioning mechanism, wherein a first pipe body fixing column of the first pipe body positioning mechanism and a second pipe body fixing column of the second pipe body positioning mechanism are respectively arranged at two ends of a pipe body to be cut, pushing the top plate downwards to respectively arrange the first positioning ring of the first pipe body positioning mechanism and the second positioning ring of the second pipe body positioning mechanism into corresponding positioning grooves, cutting the pipe body by using a cutter, then the first tube body positioning mechanism and the second tube body positioning mechanism which are provided with the cut tube bodies are staggered to separate the cut tube bodies by releasing the top plate, which avoids the cutting of the pipe body by the cutting blade after the pipe body is fixed by the extrusion device, solves the problem that the pipe body is easy to be blocked during the cutting, the invention has the advantages of accurate positioning, simple and convenient use and improved processing efficiency.

Optionally, the outer end of the transmission column is fixedly connected with a spring mounting column, a limiting ring is arranged at the joint of the spring mounting column and the transmission column, a fixing plate with the top end connected with a top plate is arranged at one end, far away from the limiting ring, of the spring mounting column, and a driving spring is arranged on the spring mounting column; and the bottom plate is also provided with a limiting plate for limiting the limiting ring. The spring mounting column is fixedly connected to the outer end of the transmission column and matched with the limiting ring and the limiting plate, so that the pipe body is convenient to disassemble and assemble.

Optionally, a first sliding chute is formed in one side, opposite to the limiting plate, of the second positioning ring, a sliding sheet is installed in the first sliding chute, and a second sliding chute communicated with the first sliding chute is formed in one side, close to the limiting plate, of the second lower fixing seat; and a through hole is formed in the second positioning ring, penetrates through the positioning ring and extends to the inside of the first pipe body fixing column. Preferably, the sliding piece is provided with a fixing hole and a fixing sliding groove so as to be convenient for fixing the sliding piece.

Optionally, a lower extension fixing plate is further arranged on the top plate, and the lower extension fixing plate is provided with an opening through which the transmission column can pass conveniently.

Optionally, a pair of second support columns symmetrically arranged is arranged on the second lower fixing seat; and a positioning detection plate is also arranged on the inner side of the second upper fixed seat. The second fixing ring is fixed by the auxiliary positioning groove of the positioning detection plate, so that the second fixing ring is prevented from falling off.

Optionally, a mirror frame is arranged at the bottom of the positioning detection plate, a wireless camera with a power supply is arranged in the mirror frame, and a plurality of groups of ultraviolet lamps are arranged outside the mirror frame; an inner mounting groove is formed in one side, close to the first upper fixing seat, of the second upper fixing seat, a moving plate is mounted in the inner mounting groove, a connecting rod is arranged at the bottom of the moving plate, a strip-shaped clamping block is connected to the top of the connecting rod, an L-shaped bearing block is arranged on the bottom surface of the moving plate and used for supporting the strip-shaped clamping block, a metal plate is detachably mounted at the bottom of the moving plate, a transparent hot melt adhesive layer mixed with nano fluorescent powder and having a melting point of 50-70 ℃ is arranged on one surface, close to the first upper fixing seat, of the metal plate, and the nano fluorescent powder emits light under the excitation; and one side of the strip-shaped clamping block is also provided with a compression spring with one end abutting against the side wall of the inner mounting groove. After cutting, the first pipe body positioning mechanism and the second pipe body positioning mechanism which are provided with the cut pipe bodies are staggered to separate the cut pipe bodies, the invention separates the cut pipe bodies by positioning the detection plate, when the moving plate pushes the metal plate downwards, one surface of the metal plate with the transparent hot melt adhesive layer contacts the pipe body tangent plane arranged on the first pipe body fixing column, when the metal plate is heated, the transparent hot melt adhesive with the nano fluorescent powder is melted layer by layer and is adhered to the section of the tube body, when the section of the tube body is uneven, the amount of the adhesive adhered to the section of the tube body is different, more transparent hot melt adhesive with fluorescent powder is adhered to the protruded part of the section, the part with the sunken section is adhered with less transparent hot melt adhesive of fluorescent powder, when the ultraviolet lamp starts to irradiate the section of the tube body, the camera can judge whether the section of the tube body is flat or not by observing the distribution of fluorescence; according to the invention, the tube body is not required to be disconnected for independent detection, but the distribution of the fluorescent powder on the cut surface is observed through a vision system, so that the flatness distribution of the cut surface of the tube body is efficiently and intuitively known, and further whether the tube body is qualified in cutting or not is judged, and whether the cutter has a curled edge or not can also be judged.

Optionally, the movable plate is far away from compression spring one side and still is equipped with the third spout, the top of movable plate is equipped with first apical plate board, be equipped with the spring between first apical plate board and the roof, still be equipped with the inserted bar that the bottom was equipped with the awl piece in the third spout, the strip fixture block is withstood to the awl piece bottom for promote the strip fixture block to remove the inserted bar top is equipped with second apical plate, the spring of overcoat in the inserted bar outside has between the top surface of second apical plate and movable plate, the inserted bar top is equipped with the scale, be equipped with the identification block on the spring, the terminal directional scale of identification block. The invention pushes the inserted link downwards to move downwards by a distance (the moving distance of the inserted link is changed by the scale pointed by the identification block), so that the moving plate is slightly close to the section of the pipe body, the tapered block is pushed to extrude the strip-shaped clamping block to move by adjusting the position of the inserted link, the metal plate is driven to be in small contact with the section of the pipe body, the force of the metal plate in contact with the section of the pipe body is further controlled, and the thickness depth of the transparent hot melt adhesive layer in contact with the section of the pipe body is.

Optionally, a laser emitter is further arranged in the mirror frame, and the laser emitter is used for heating the transparent hot melt adhesive layer of the metal plate; the laser emitter and the ultraviolet lamp are externally connected with an external power supply through wires.

Optionally, the positioning detection plate is further provided with a control unit, the control unit is electrically connected to the laser emitter head, and the control unit is used for controlling the laser emitter head to be turned on or turned off.

(III) advantageous effects

1. According to the invention, the first pipe body fixing column of the first pipe body positioning mechanism and the second pipe body fixing column of the second pipe body positioning mechanism are respectively arranged at two ends of a pipe body to be cut, the top plate is pushed downwards to respectively arrange the first positioning ring of the first pipe body positioning mechanism and the second positioning ring of the second pipe body positioning mechanism into the corresponding positioning grooves, the pipe body is cut by using the cutter, and then the first pipe body positioning mechanism and the second pipe body positioning mechanism which are provided with the cut pipe bodies are staggered to separate the cut pipe bodies by releasing the top plate, so that the defect that the pipe bodies are easily folded when the pipe bodies are cut and the performance of the pipe bodies is influenced is overcome.

2. The spring mounting column is fixedly connected to the outer end of the transmission column and matched with the limiting ring and the limiting plate, so that the pipe body is convenient to disassemble and assemble.

3. The sliding piece is inserted into the second sliding groove, and the second positioning ring is fixed by fixing the sliding piece.

4. The second fixing ring is fixed by the auxiliary positioning groove of the positioning detection plate, so that the second fixing ring is prevented from falling off.

5. The metal plate is moved to push the metal plate downwards, one surface of the metal plate with the transparent hot melt adhesive layer contacts a pipe body section arranged on a first pipe body fixing column, the metal plate is heated, the transparent hot melt adhesive with the nanometer fluorescent powder is melted layer by layer and is adhered to the pipe body section, when the section of the pipe body is uneven, the amount of adhesive adhered to the pipe body section is different, more transparent hot melt adhesive with the fluorescent powder is adhered to the part protruding from the section, less transparent hot melt adhesive with the fluorescent powder is adhered to the part with the concave section, and when an ultraviolet lamp starts to irradiate the pipe body section, a camera can judge whether the section of the pipe body is flat or not by observing the distribution of fluorescence; according to the invention, the tube body is not required to be disconnected for independent detection, but the distribution of the fluorescent powder on the cut surface is observed through a vision system, so that the flatness distribution of the cut surface of the tube body is efficiently and intuitively known, and further whether the tube body is qualified in cutting or not is judged, and whether the cutter has a curled edge or not can also be judged.

6. The invention pushes the inserted link downwards to move downwards by a distance (the moving distance of the inserted link is changed by the scale pointed by the identification block), so that the moving plate is slightly close to the section of the pipe body, the tapered block is pushed to extrude the strip-shaped clamping block to move by adjusting the position of the inserted link, the metal plate is driven to be in small contact with the section of the pipe body, the force of the metal plate in contact with the section of the pipe body is further controlled, and the thickness depth of the transparent hot melt adhesive layer in contact with the section of the pipe body is.

Description of the drawings:

fig. 1 is a first perspective view of a pipe cutting and dislocating device according to embodiment 1 of the present invention;

fig. 2 is a perspective view of a pipe cutting and dislocating device according to embodiment 1 of the present invention;

FIG. 3 is a cross-sectional view of a pipe cutting and dislocating device according to embodiment 1 of the present invention;

FIG. 4 is a cross-sectional view of a pipe cutting and dislocating device according to embodiment 2 of the present invention;

FIG. 5 is an enlarged partial view of the part A in FIG. 4 of the pipe cutting and aligning device according to embodiment 2 of the present invention;

FIG. 6 is a partial enlarged view of the part B in FIG. 4 of the pipe cutting and dislocating apparatus according to embodiment 2 of the present invention;

FIG. 7 is a cross-sectional view of a metal plate of the pipe cutting and aligning apparatus according to embodiment 2 of the present invention;

fig. 8 is a flowchart of the control unit of the pipe cutting and dislocating apparatus according to embodiment 2 of the present invention.

The figures are numbered:

1. a first tube positioning mechanism, 2, a second tube positioning mechanism, 3, a top plate, 4, a bottom plate, 5, a first lower fixing seat, 6, a lower second fixing seat, 7, a first positioning ring, 8, a first tube fixing column, 9, an extension column, 10, a second positioning ring, 11, a second tube fixing column, 12, a transmission column, 13, a first upper fixing seat, 14, a second upper fixing seat, 15, an upper positioning groove, 16, a lower positioning groove, 17, a first supporting column, 18, a reset spring, 19, a spring mounting column, 20, a limiting ring, 21, a fixing plate, 22, a driving spring, 23, a limiting plate, 24, a first chute, 25, a sliding plate, 26, a second chute, 27, a perforation, 28, a lower extension fixing plate, 29, a perforation, 30, a second supporting column, 31, a positioning detection plate, 32, a lamp frame, 33, a wireless camera, 34, ultraviolet rays, 35, an inner mounting groove, 36. the device comprises a moving plate, 37, a connecting rod, 38, strip-shaped fixture blocks, 39, a supporting block, 40, a metal plate, 41, a transparent hot melt adhesive layer, 42, a compression spring, 43, a third sliding groove, 44, a first top side plate, 45, an inserting rod, 46, a second top side plate, 47, a marking block, 48, a laser emitter, 49, a conical block, 50, a bottom sliding groove, 51 and a control unit.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, 2 and 3, the technical scheme adopted by the invention is as follows:

a pipe cutting and dislocation device, comprising: the device comprises a first pipe body positioning mechanism 1, a second pipe body positioning mechanism 2, a top plate 3 and a bottom plate 4; the bottom plate is provided with a first lower fixed seat 5 and a lower second fixed seat 6, the first pipe body positioning mechanism comprises a first positioning ring 7, one end of the first positioning ring is provided with a first pipe body fixing column 8, the other end of the first positioning ring is provided with an extension column 9, the second pipe body positioning mechanism comprises a second positioning ring 10, one end of the second positioning ring is provided with a second pipe body fixing column 11, the other end of the second positioning ring is provided with a transmission column 12, and a first upper fixed seat 13 and a second upper fixed seat 14 which respectively correspond to the first lower fixed seat and the lower second fixed seat are arranged below the top plate; the first upper fixing seat and the second upper fixing seat are both provided with upper half positioning grooves 15, the first lower fixing seat and the second lower fixing seat are both provided with lower half positioning grooves 16, and the upper half positioning grooves and the lower half positioning grooves are assembled together into annular positioning grooves matched with the pipe body; the horizontal position of the lowest point of the lower half positioning groove of the first lower fixing seat is lower than that of the lowest point of the lower half positioning groove of the second lower fixing seat; be equipped with a pair of first support column 17 on the roof, first support column passes first fixing base downwardly connected lower fixing base, be equipped with reset spring 18 between the lower surface of first upper fixing base upper surface and roof, first retaining ring can block in the first constant head tank of last fixing base.

The outer end of the transmission column is fixedly connected with a spring mounting column 19, a limiting ring 20 is arranged at the joint of the spring mounting column and the transmission column, a fixing plate 21 with the top end connected with a top plate is arranged at one end of the spring mounting column, which is far away from the limiting ring, and a driving spring 22 is arranged on the spring mounting column; and a limiting plate 23 for limiting the limiting ring is also arranged on the bottom plate. A first sliding chute 24 is formed in one side, opposite to the limiting plate, of the second positioning ring, a sliding sheet 25 is installed in the first sliding chute, and a second sliding chute 26 communicated with the first sliding chute is formed in one side, close to the limiting plate, of the second lower fixing seat; the second positioning ring is provided with a through hole 27, the through hole penetrates through the positioning ring and extends to the inside of the first pipe body fixing column, and the transmission column is inserted into the through hole and further movably connected with the second pipe body fixing column. The bottom plate is further provided with a bottom sliding groove convenient for the limiting plate to slide, and the bottom sliding groove is arranged in the bottom of the limiting plate.

Also provided on the top plate is a lower extension mounting plate 28 provided with an opening 29 for the drive post to pass through. A pair of second supporting columns 30 which are symmetrically arranged is arranged on the second lower fixing seat; and a positioning detection plate 31 is also arranged on the inner side of the second upper fixed seat.

When this embodiment is implemented, will treat the body of tailorring and pack into.

Example 2

As shown in fig. 4, 5, 6, 7 and 8, the present embodiment 2 is different from the embodiment 1 in that a frame 32 is provided at the bottom of the positioning detection plate, a wireless camera 33 with a power supply is provided in the frame, and a plurality of groups of ultraviolet lamps 34 are provided outside the frame; an inner mounting groove 35 is formed in one side, close to the first upper fixing seat, of the second upper fixing seat, a moving plate 36 is arranged in the inner mounting groove, a connecting rod 37 is arranged at the bottom of the moving plate, a strip-shaped fixture block 38 is connected to the top of the connecting rod, an L-shaped supporting block 39 is arranged on the bottom surface of the moving plate and used for supporting the strip-shaped fixture block, a metal plate 40 is detachably mounted at the bottom of the moving plate, a transparent hot melt adhesive layer 41 mixed with nano fluorescent powder and having a melting point of 50-70 ℃ is arranged on one surface, close to the first upper fixing seat, of the metal plate, and the nano fluorescent powder emits light under the; and one side of the strip-shaped fixture block is also provided with a compression spring 42, and one end of the compression spring is propped against the side wall of the inner mounting groove.

The movable plate is kept away from compression spring one side and still is equipped with third spout 43, the top of movable plate is equipped with first ejector plate 44, be equipped with the spring between first ejector plate and the roof, still be equipped with the inserted bar 45 that the bottom was equipped with the section for triangle-shaped's awl piece 49 in the third spout, the strip fixture block is withstood to the awl piece bottom for promote the strip fixture block removal the inserted bar top is equipped with second ejector plate 46, the spring of overcoat in the inserted bar outside has between the top surface of second ejector plate and movable plate, inserted bar top surface is equipped with the scale, be equipped with identification block 47 on the spring, the terminal directional scale of identification block.

A laser emitter 48 is also arranged in the mirror frame and used for heating the transparent hot melt adhesive layer of the metal plate; the laser emitter and the ultraviolet lamp are externally connected with an external power supply through wires. The positioning detection plate is further provided with a control unit 51, the control unit is electrically connected with the laser emitter heads, and the control unit is used for controlling the laser emitter heads to be opened or closed. It should be noted that the control unit in this embodiment may adopt a PLC (programmable logic controller or other chip of the internet of things). The heating element in this embodiment may be an electric heating wire, an electric heating resistor, or the like. The embodiment can also adopt electric heating blowing to heat the metal plate. An electric heating fan is additionally arranged to heat the metal plate.

When the embodiment is implemented, when the moving plate pushes the metal plate downwards, one surface of the metal plate with the transparent hot melt adhesive layer contacts a pipe body section arranged on the first pipe body fixing column, the metal plate is heated, the transparent hot melt adhesive layer with the nanometer fluorescent powder is melted layer by layer and is adhered to the pipe body section, when the section of the pipe body is uneven, the amount of adhesive adhered to the pipe body section is different, more transparent hot melt adhesive with the fluorescent powder is adhered to the part with the convex section, and less transparent hot melt adhesive with the fluorescent powder is adhered to the part with the concave section, when the ultraviolet lamp starts to irradiate the pipe body section, the camera can judge whether the pipe body section is flat or not by observing the distribution of fluorescence; according to the invention, the tube body is not required to be disconnected for independent detection, but the distribution of the fluorescent powder on the cut surface is observed through a vision system, so that the flatness distribution of the cut surface of the tube body is efficiently and intuitively known, and further whether the tube body is qualified in cutting or not is judged, and whether the cutter has a curled edge or not can also be judged.

The distance that the inserted bar moved down (through the change of the directional scale of identification block, for the displacement of inserted bar) promotes downwards for the body tangent plane is pressed close to slightly to the movable plate, promotes the removal of taper block extrusion strip fixture block through adjustment inserted bar position, drives the metal sheet and contacts the body tangent plane less, and then the dynamics of control metal sheet contact body tangent plane, and then the thickness depth of adjustment transparent hot melt adhesive layer contact body tangent plane.

Example 3

A pipe cutting and dislocation device, comprising: the device comprises a first pipe body positioning mechanism, a second pipe body positioning mechanism, a top plate and a bottom plate; the bottom plate is provided with a first lower fixing seat and a lower second fixing seat, the first pipe body positioning mechanism comprises a first positioning ring, one end of the first positioning ring is provided with a first pipe body fixing column, the other end of the first positioning ring is provided with an extension column, the second pipe body positioning mechanism comprises a second positioning ring, one end of the second positioning ring is provided with the first pipe body fixing column, the other end of the second positioning ring is provided with a transmission column, and a first upper fixing seat and a second upper fixing seat which correspond to each other are arranged below the top plate; the first upper fixing seat and the second upper fixing seat are respectively provided with an upper half positioning groove, the first lower fixing seat and the second lower fixing seat are respectively provided with a lower half positioning groove, and the upper half positioning groove and the lower half positioning groove are assembled together to form an annular positioning groove matched with the pipe body; the horizontal position of the lowest point of the lower half positioning groove of the first lower fixing seat is lower than that of the lowest point of the lower half positioning groove of the second lower fixing seat; be equipped with a pair of first support column on the roof, first support column passes first fixing base downwardly connected lower fixing base, be equipped with reset spring between the lower surface of first upper fixing base upper surface and roof, first retaining ring can block in the first constant head tank of last fixing base.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings can be directly or indirectly applied to other related technical fields and are included in the scope of the present invention.

Claims

1. A tube cutting dislocation device, its characterized in that includes: the device comprises a first pipe body positioning mechanism, a second pipe body positioning mechanism, a top plate and a bottom plate; the bottom plate is provided with a first lower fixing seat and a lower second fixing seat, the first pipe body positioning mechanism comprises a first positioning ring, one end of the first positioning ring is provided with a first pipe body fixing column, the other end of the first positioning ring is provided with an extension column, the second pipe body positioning mechanism comprises a second positioning ring, one end of the second positioning ring is provided with a second pipe body fixing column, the other end of the second positioning ring is provided with a transmission column, and a first upper fixing seat and a second upper fixing seat which correspond to the first lower fixing seat and the lower second fixing seat respectively are arranged below the top plate; the first upper fixing seat and the second upper fixing seat are respectively provided with an upper half positioning groove, the first lower fixing seat and the second lower fixing seat are respectively provided with a lower half positioning groove, and the upper half positioning groove and the lower half positioning groove are assembled together to form an annular positioning groove matched with the pipe body; the horizontal position of the lowest point of the lower half positioning groove of the first lower fixing seat is lower than that of the lowest point of the lower half positioning groove of the second lower fixing seat; be equipped with a pair of first support column on the roof, first support column passes first fixing base downwardly connected lower fixing base, be equipped with reset spring between the lower surface of first upper fixing base upper surface and roof, first retaining ring can block in the first constant head tank of last fixing base.

2. The pipe cutting and dislocation device as claimed in claim 1, wherein the outer end of the transmission post is fixedly connected with a spring mounting post, a limiting ring is arranged at the joint of the spring mounting post and the transmission post, a fixing plate with the top end connected with the top plate is arranged at one end of the spring mounting post away from the limiting ring, and a driving spring is arranged on the spring mounting post; and the bottom plate is also provided with a limiting plate for limiting the limiting ring.

3. The pipe cutting and dislocation device as claimed in claim 1, wherein a first chute is formed on one side of the second positioning ring opposite to the limit plate, a sliding sheet is installed in the first chute, and a second chute communicated with the first chute is formed on one side of the second lower fixing seat close to the limit plate; and a through hole is formed in the second positioning ring, penetrates through the positioning ring and extends to the inside of the first pipe body fixing column.

4. The pipe cutting and misalignment device of claim 1, wherein the top plate further comprises a lower extension fixing plate, and the lower extension fixing plate is provided with an opening for the transmission post to pass through.

5. The pipe cutting and dislocating device of claim 1, wherein a pair of symmetrically arranged second supporting columns is arranged on the second lower fixing seat; and a positioning detection plate is also arranged on the inner side of the second upper fixed seat.

6. The pipe body cutting and dislocating device according to claim 1, 2, 3, 4 or 5, wherein a frame is arranged at the bottom of the positioning detection plate, a wireless camera with a power supply is arranged in the frame, and a plurality of groups of ultraviolet lamps are arranged outside the frame; an inner mounting groove is formed in one side, close to the first upper fixing seat, of the second upper fixing seat, a moving plate is mounted in the inner mounting groove, a connecting rod is arranged at the bottom of the moving plate, a strip-shaped clamping block is connected to the top of the connecting rod, an L-shaped bearing block is arranged on the bottom surface of the moving plate and used for supporting the strip-shaped clamping block, a metal plate is detachably mounted at the bottom of the moving plate, a transparent hot melt adhesive layer mixed with nano fluorescent powder and having a melting point of 50-70 ℃ is arranged on one surface, close to the first upper fixing seat, of the metal plate, and the nano fluorescent powder emits light under the excitation; and one side of the strip-shaped clamping block is also provided with a compression spring with one end abutting against the side wall of the inner mounting groove.

7. The pipe cutting and dislocation device as claimed in claim 6, wherein a third sliding groove is further formed in one side of the moving plate, which is away from the compression spring, a first top side plate is arranged at the top of the moving plate, a spring is arranged between the first top side plate and the top plate, an insertion rod with a conical block at the bottom is further arranged in the third sliding groove, the bottom of the conical block abuts against the strip-shaped fixture block for pushing the strip-shaped fixture block to move, a second top side plate is arranged at the top of the insertion rod, a spring sleeved outside the insertion rod is arranged between the second top side plate and the top surface of the moving plate, scales are arranged at the top of the insertion rod, a mark block is arranged on the spring, and the tail end of the mark block.

8. The pipe cutting and misalignment device as defined in claim 7, wherein a laser emitter is further provided in the frame, the laser emitter being used for heating the transparent hot melt adhesive layer of the metal plate; the laser emitter and the ultraviolet lamp are externally connected with an external power supply through wires.

9. The pipe cutting and misalignment device as claimed in claim 8, wherein the positioning detection plate is further provided with a control unit, the control unit is electrically connected to the laser emitter, and the control unit is used for controlling the laser emitter to be turned on or off.