CN115055758A

CN115055758A - Multilayer chamfering device for sealing element of packer

Info

Publication number: CN115055758A
Application number: CN202210588952.4A
Authority: CN
Inventors: 赖伟华; 李良辉; 李江平; 庞瑞杰; 马国宝; 刘建锋; 童飞; 郭非凡; 潘惠鹏
Original assignee: Baiqin Energy Technology Huizhou Co ltd
Current assignee: Baiqin Energy Technology Huizhou Co ltd
Priority date: 2022-05-27
Filing date: 2022-05-27
Publication date: 2022-09-16
Anticipated expiration: 2042-05-27
Also published as: CN115055758B

Abstract

The invention discloses a multilayer chamfering device of a sealing element of a packer, which belongs to the technical field of packer processing and comprises a bidirectional moving mechanism, a first rotating mechanism, a second rotating mechanism, a fixing mechanism and a chamfering device, wherein the first rotating mechanism and the second rotating mechanism are respectively arranged on two output ends of the bidirectional moving mechanism; through the operation of this device, can realize the multilayer chamfer of sealing member, need not overturn the inner and outer lane chamfer course of working that the sealing member just can accomplish the sealing member both ends, through mutually supporting between two-way moving mechanism and two fixed establishment, make the sealing member fixed in turn between two fixed establishment to this machining error who reduces the sealing member, not only the simple operation also has showing the promotion to machining efficiency.

Description

Multilayer chamfering device for sealing element of packer

Technical Field

The invention relates to the technical field of packer processing, in particular to a multilayer chamfering device for a sealing element of a packer.

Background

The packer rubber barrel for the oil and gas field is widely used in China, is spread in each production corner of development and exploration and is used for layered mining, testing, water injection, acidification and fracturing of the oil and gas field, the packer has the main function of separating a production layer and a construction layer from each other so as to prevent interference of fluid and pressure between the layers, the quality of one packer is mainly shown in the sealing performance of the packer, and therefore the sealing element becomes the core of the packer sealing.

The sealing element of the packer is made of rubber products by a mould pressing or injection molding method, and in the manufacturing process of the sealing element, the upper end, the middle end and the lower end of the formed sealing element need to be chamfered in multiple layers, and the chamfering device of the sealing element in the prior art is mostly fixed from the outer ring or the inner ring of the sealing element ring body in order to ensure that the whole sealing element is not easy to shake when in use, however, the fixing mode can easily shield the upper end and the lower end of the sealing element, so that when the inner ring and the outer ring at the lower end of the sealing element need to be chamfered after the chamfering of the inner ring and the outer ring at the upper end of the sealing element is finished, the chamfering work of the inner and outer rings at the lower end of the sealing element can only be finished by overturning and then fixing the sealing element after the sealing element is removed, the processing mode is very complicated, and the sealing element is fixed after being turned over, so that the position deviation is easy to occur, and the processing efficiency is greatly influenced.

Disclosure of Invention

The embodiment of the invention provides a multi-layer chamfering device for a sealing element of a packer, which aims to solve the technical problems.

The embodiment of the invention adopts the following technical scheme: including two-way moving mechanism, first slewing mechanism, second slewing mechanism, fixed establishment and chamfer device, first slewing mechanism is installed respectively on two output of two-way moving mechanism with the second slewing mechanism, fixed establishment is equipped with two, two fixed establishment is and sets up in opposite directions and is connected with first slewing mechanism and second slewing mechanism respectively, the chamfer device is equipped with two and sets up respectively in two-way moving mechanism's both sides, one side of two-way moving mechanism is equipped with the PLC controller, first slewing mechanism, second slewing mechanism, two-way moving mechanism and two chamfer devices all with PLC controller electric connection.

Further, the bidirectional moving mechanism comprises a bidirectional module sliding table and a bottom plate, the bidirectional module sliding table is installed on the bottom plate, and two output ends of the bidirectional module sliding table are fixedly connected with the bottoms of the first rotating mechanism and the second rotating mechanism respectively.

Furthermore, first slewing mechanism and second slewing mechanism all include support frame and driving motor, the support frame is the rotation with the fixed establishment who corresponds the position and is connected, driving motor installs on the support frame, and driving motor's output passes the support frame and is connected with the fixed establishment who corresponds the position.

Further, every fixed establishment all includes mount, direction box, first support piece, second support piece, briquetting and actuating mechanism, the direction box sets up the side at the mount, and leads the box and be connected with the mount, first support piece is the symmetry setting with second support piece, and first support piece and second support piece with the end all be in the inside of direction box, first support piece and second support piece all can draw in or the expanding motion in the direction box, the briquetting sets up in the direction box and is in between first support piece and the second support piece, the upper and lower both sides of briquetting are the slope setting, actuating mechanism sets up on the direction box, and actuating mechanism's output is connected with the briquetting.

Furthermore, the driving mechanism comprises a first electric cylinder, the first electric cylinder is arranged on one side of the guide box, the output end of the first electric cylinder penetrates through the guide box to be connected with the pressing block, and the pressing block can drive the first supporting piece and the second supporting piece to move in the up-and-down direction respectively through the driving of the first electric cylinder;

further, first support piece and second support piece all include slider and fagging, the fagging sets up the outside of direction box, and the one end and the slider fixed connection of fagging, the side of slider is equipped with the lug, be equipped with the recess with lug looks adaptation in the direction box.

Further, every all be equipped with spacing groove and spout on the fagging, and still be equipped with protective component on the slider, protective component includes baffle, movable block and bolt, the baffle sets up the top at the fagging, the movable block sets up in the spout of fagging, and the bottom of movable block and baffle is connected, the bolt passes spacing groove and movable block threaded connection from the below of fagging.

Furthermore, a spring is arranged between each sliding block and the guide box.

Furthermore, the chamfering device comprises a cutting knife, a knife rest and a second electric cylinder, the second electric cylinder is installed on the bottom plate, the knife rest is arranged on the output end of the second electric cylinder and connected with the output end of the second electric cylinder, and the cutting knife is installed on the knife rest.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, in order to ensure that the whole sealing element is not easy to shake when the sealing element chamfering device in the prior art is used, the sealing element chamfering device is mostly fixed from the outer ring or the inner ring of the sealing element ring body, but the fixing mode is easy to shield the position of the upper end or the lower end of the sealing element, so that after the chamfering of the inner ring and the outer ring at the upper end of the sealing element is finished, when the chamfering of the inner ring and the outer ring at the lower end of the sealing element is needed, the sealing element chamfering can only be finished by turning the sealing element after being detached and then fixing the sealing element again; through the operation of this device, the staff can be to PLC controller input operation instruction, make two-way moving mechanism drive first slewing mechanism and second slewing mechanism and carry out syntropy or reverse movement, and mutually support with two fixed establishment, realize the fixed process in turn to the sealing member, no longer need the upset sealing member just can cooperate two chamfering device to accomplish the interior outer lane chamfer course of working at sealing member both ends, and then can reduce the machining error of sealing member, and not only the simple operation, also show the promotion to machining efficiency.

And secondly, the two fixing mechanisms can be respectively controlled to carry out angle adjustment through the matched operation of the first rotating mechanism and the second rotating mechanism, so that the two fixing mechanisms cannot be mutually blocked, and the two fixing mechanisms can form a cross state to complete the alternate fixing process of the sealing element.

Thirdly, a spring is arranged between each sliding block and the guide box, when the first electric cylinder pulls the pressing block to move backwards, a thrust force can be exerted on each sliding block and the guide box in front of the first electric cylinder through the tension of the spring, and then when the pressing block stops pushing, each sliding block can drive the supporting plates at the corresponding positions to move oppositely, so that the supporting and fixing of the inner ring of the sealing element can be stopped.

According to the invention, each supporting plate is provided with a limiting groove and a sliding groove, and the sliding block is also provided with a protective component, so that before processing, a worker can adjust the position of the baffle according to the size of the sealing element, after the position of the baffle is adjusted, the bolt can be screwed down, and the movable block and the sliding grooves in the supporting plates are matched to form a mutual limiting effect, so that the baffle can be always in a fixed position on the supporting plates, and further, the sealing element can be prevented from generating position deviation during alternate fixing.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not limit the invention. In the drawings:

FIG. 1 is a schematic structural view of a first operating state of the present invention;

FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is a structural diagram illustrating a second operational state of the present invention;

FIG. 4 is a structural view illustrating a third operating state of the present invention;

FIG. 5 is a partial schematic view of the present invention;

FIG. 6 is a first schematic view of the internal structure of the fixing mechanism of the present invention;

FIG. 7 is a second schematic view of the internal structure of the fixing mechanism of the present invention;

FIG. 8 is a first perspective view of the supporting plate and the protecting assembly of the present invention;

FIG. 9 is a schematic perspective view of a second embodiment of the supporting plate and the guard assembly of the present invention;

FIG. 10 is a perspective view of the chamfering apparatus according to the present invention.

Reference numerals

The device comprises a bidirectional moving mechanism 1, a bidirectional module sliding table 11, a bottom plate 12, a first rotating mechanism 2, a supporting frame 21, a driving motor 22, a second rotating mechanism 3, a fixing mechanism 4, a fixing frame 41, a guide box 42, a first supporting piece 43, a second supporting piece 44, a pressing block 45, a first electric cylinder 46, a sliding block 47, a protection component 471, a baffle 472, a movable block 473, a bolt 474, a supporting plate 48, a limiting groove 481, a sliding groove 482, a chamfering device 5, a cutting knife 51, a knife rest 52, a second electric cylinder 53 and a spring 6.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the invention provides a multilayer chamfering device of a packer sealing element, which comprises a bidirectional moving mechanism 1, a first rotating mechanism 2, a second rotating mechanism 3, two fixing mechanisms 4 and a chamfering device 5, wherein the first rotating mechanism 2 and the second rotating mechanism 3 are respectively arranged at two output ends of the bidirectional moving mechanism 1, the two fixing mechanisms 4 are arranged, the two fixing mechanisms 4 are oppositely arranged and are respectively connected with the first rotating mechanism 2 and the second rotating mechanism 3, the chamfering device 5 is arranged at two sides of the bidirectional moving mechanism 1, a PLC (programmable logic controller) is arranged at one side of the bidirectional moving mechanism 1, and the first rotating mechanism 2, the second rotating mechanism 3, the bidirectional moving mechanism 1, the two fixing mechanisms 4 and the two chamfering devices 5 are electrically connected with the PLC;

when the chamfering device is used, a worker inputs an operation instruction to the PLC, under the control of the PLC, the bidirectional moving mechanism 1 drives the first rotating mechanism 2 and the second rotating mechanism 3 to move reversely, the first rotating mechanism 2 is located on the right side of the chamfering device 5 at the adjacent position, and meanwhile, the two fixing mechanisms 4 are controlled to operate and be in a contraction state;

at this time, a sealing element is placed on the fixing mechanism 4 at the first rotating mechanism 2, then the fixing mechanism 4 at the first rotating mechanism 2 is started, the fixing mechanism 4 at the first rotating mechanism 2 is in an expanded state and fixes the inner ring of the sealing element, then the chamfering device 5 close to the first rotating mechanism 2 extends to the bidirectional moving mechanism 1, at this time, after the PLC controls the first rotating mechanism 2 to drive the sealing element at the position to synchronously rotate, the bidirectional moving mechanism 1 is controlled, the bidirectional moving mechanism 1 drives the first rotating mechanism 2 and the second rotating mechanism 3 to move a distance towards each other, when the first rotating mechanism 2 moves to the corresponding position of the chamfering device 5 at the adjacent position, the sealing element in the rotating state is in contact with the chamfering device 5 at the corresponding position, and along with the operation of the chamfering device 5 at the corresponding position, chamfering the inner and outer rings at one end of the sealing element;

after the inner ring and the outer ring at one end of the sealing element are chamfered, the chamfering device 5 at the position close to the first rotating mechanism 2 operates again and is far away from the processing area of the sealing element, the first rotating mechanism 2 stops operating, and the fixing mechanism 4 on the first rotating mechanism 2 and the fixing mechanism 4 on the second rotating mechanism 3 form a cross state with the same horizontal position, at the moment, the two-way moving mechanism 1 operates again and drives the first rotating mechanism 2 and the second rotating mechanism 3 to move continuously and oppositely until the fixing mechanism 4 on the first rotating mechanism 2 and the fixing mechanism 4 on the second rotating mechanism 3 are crossed with each other, the fixing mechanism 4 on the second rotating mechanism 3 extends to the inner ring of the sealing element, then the fixing mechanism 4 on the second rotating mechanism 3 starts operating and is also adjusted to an expanded state to form a fixing to the inner ring of the sealing element, at the moment, the fixing mechanism 22 on the first rotating mechanism 2 is adjusted to a contracted state and stops fixing to the sealing element, meanwhile, the bidirectional moving mechanism 1 drives the first rotating mechanism 2 and the second rotating mechanism 3 to reversely move again, so that the fixing mechanism 4 at the second rotating mechanism 3 drives the sealing element to be separated from the fixing mechanism 4 at the first rotating mechanism 2 until the sealing element is positioned at the left side of the chamfering device 5 adjacent to the second rotating mechanism 3, the second rotating mechanism 3 is started again to drive the sealing element to rotate again, then the bidirectional moving mechanism 1 drives the first rotating mechanism 2 and the second rotating mechanism 3 to move for a certain distance in an opposite direction, so that the other end of the sealing element is contacted with the chamfering device 5 at the corresponding position in a rotating state, and along with the operation of the chamfering device 5 at the corresponding position, the other end of the sealing element can also perform inner and outer ring chamfering processing, and after the sealing element finishes chamfering, the second rotating mechanism 3 and the corresponding fixing mechanism 22 thereof stop operating, at the moment, the sealing element can be discharged, and meanwhile, when the sealing element finishes chamfering of the first end face, after the fixing mechanism 4 on the first rotating mechanism 2 is separated from the sealing element, the second sealing element can be continuously charged, so that the continuous chamfering processing operation of the sealing element can be realized;

through the operation of this device, can realize the multilayer chamfer course of working of sealing member, no longer need the upset sealing member just can accomplish the interior outer lane chamfer course of working at sealing member both ends, through mutually supporting between two-way moving mechanism 1 and two fixed establishment 4, can make the sealing member fix in turn between two fixed establishment 4 to this reduces the machining error at sealing member both ends, not only the simple operation also is showing the promotion to machining efficiency.

Preferably, the bidirectional moving mechanism 1 comprises a bidirectional module sliding table 11 and a bottom plate 12, the bidirectional module sliding table 11 is mounted on the bottom plate 12, and two output ends of the bidirectional module sliding table 11 are fixedly connected with the bottoms of the first rotating mechanism 2 and the second rotating mechanism 3 respectively; can realize that first slewing mechanism 2 and second slewing mechanism 3 carry out synchronous motion through the two-way module slip table 11 that sets up to ensure that the sealing member can carry out fixed in turn between two fixed establishment 22, simultaneously, also can cooperate two chamfer devices 5 to accomplish the chamfer course of working of sealing member.

Preferably, the first rotating mechanism 2 and the second rotating mechanism 3 both include a supporting frame 21 and a driving motor 22, the supporting frame 21 is rotatably connected with the fixing mechanism 22 at the corresponding position, the driving motor 22 is installed on the supporting frame 21, and the output end of the driving motor 22 passes through the supporting frame 21 and is connected with the fixing mechanism 22 at the corresponding position; can drive the fixed establishment 22 that support frame 21 corresponds the position through the driving motor 22 that sets up and rotate, and then can make the sealing member be in the rotation state and cooperate two chamfering device 5 to carry out the chamfer processing, simultaneously, driving motor 22 in first slewing mechanism 2 and the second slewing mechanism 3 can control two fixed establishment 22 respectively and carry out angle modulation for two fixed establishment 22 can not obstruct each other, thereby ensure that two fixed establishment 22 can form the alternately fixed process of crossing state completion to the sealing member.

Preferably, each of the fixing mechanisms 4 includes a fixing frame 41, a guide box 42, a first supporting member 43, a second supporting member 44, a pressing block 45 and a driving mechanism, the guide box 42 is disposed at a side end of the fixing frame 41, the guide box 42 is connected to the fixing frame 41, the first supporting member 43 and the second supporting member 44 are symmetrically disposed, the same end of the first supporting member 43 and the same end of the second supporting member 44 are both located inside the guide box 42, the first supporting member 43 and the second supporting member 44 can both perform folding or expanding movement in the guide box 42, the pressing block 45 is disposed in the guide box 42 and located between the first supporting member 43 and the second supporting member 44, upper and lower sides of the pressing block 45 are obliquely disposed, the driving mechanism is disposed on the guide box 42, and an output end of the driving mechanism is connected to the pressing block 45; the driving mechanism comprises a first electric cylinder 46, the first electric cylinder 46 is arranged at one side of the guide box 42, the output end of the first electric cylinder 46 penetrates through the guide box 42 to be connected with a pressing block 45, and the pressing block 45 can drive the first supporting piece 43 and the second supporting piece 44 to move in the up-and-down direction respectively through the driving of the first electric cylinder 46; when the first electric cylinder 46 pushes the pressing block 45 to extend forwards, the upper side and the lower side of the pressing block 45 form pushing forces in the upper direction and the lower direction for the first supporting piece 43 and the second supporting piece 44, and the first supporting piece 43 and the second supporting piece 44 can expand towards the two sides along with the gradual penetration of the pressing block 45, so that the supporting and fixing effects can be formed for the inner ring of the sealing element.

Preferably, each of the first supporting member 43 and the second supporting member 44 includes a sliding block 47 and a supporting plate 48, the supporting plate 48 is disposed outside the guide box 42, one end of the supporting plate 48 is fixedly connected to the sliding block 47, a protrusion is disposed at a side end of the sliding block 47, and a groove adapted to the protrusion is disposed in the guide box 42; when the pressing block 45 moves forward, two sides of the pressing block 45 respectively exert certain thrust on the sliding blocks 47 in the first supporting piece 43 and the second supporting piece 44, and under the matching action of the convex blocks and the grooves, the sliding blocks 47 in the first supporting piece 43 and the second supporting piece 44 can move to the upper side and the lower side in the guide box 42 in a limiting manner, and the position deviation cannot be generated in the moving process.

Preferably, each supporting plate 48 is provided with a limiting groove 481 and a sliding groove 482, and the sliding block 47 is further provided with a protective component 471, the shielding assembly 471 includes a shielding plate 472, a movable block 473 and a bolt 474, the shielding plate 472 is disposed above the supporting plate 48, the movable block 473 is disposed in the sliding groove 482 of the supporting plate 48, and the movable block 473 is connected with the bottom of the baffle 472, the bolt 474 passes through the limiting groove 481 from the lower part of the supporting plate 48 to be in threaded connection with the movable block 473, before processing, a worker can adjust the position of the baffle 472 according to the size of a sealing element, after the position of the baffle 472 is adjusted, the bolt 474 can be screwed down and the movable block 473 can be matched with the sliding groove 482 on the supporting plate 48 to realize the mutual limiting effect, the baffle 472 is always fixed to the stay 48, and the seal is prevented from being displaced during the alternate fixing.

Preferably, a spring 6 is arranged between each sliding block 47 and the guide box 42, when the first electric cylinder 46 pulls the pressing block 45 to move backwards, a pushing force can be exerted on each sliding block 47 and the guide box 42 through the tension of the spring 6, and further when the pressing block 45 stops pushing, each sliding block 47 can drive the supporting plate 48 at the corresponding position to move towards each other, so that the inner ring of the sealing element can be stopped being supported and fixed.

Preferably, the chamfering device 5 comprises a cutting knife 51, a knife rest 52 and a second electric cylinder 53, the second electric cylinder 53 is installed on the base plate 12, the cutter frame 52 is arranged on the output end of the second electric cylinder 53 and connected with the output end of the second electric cylinder 53, the cutting knife 51 is installed on the cutter frame 52, when the sealing piece needs to be chamfered, the second electric cylinder 53 can drive the tool rest 52 and the cutting knife 51 to move forwards, and keeps a corresponding position with one side of the sealing element ring body, along with the approach of the sealing element, the second electric cylinder 53 can drive the tool rest 52 to move back and forth, so that the cutting knife 51 can perform chamfering processing on the inner and outer rings of the sealing element, when the two fixing mechanisms 4 need to fix the sealing piece alternatively, the second electric cylinder 53 drives the tool post 52 and the cutting knife 51 to move backwards, to ensure that the seal does not collide with the cutting knives 51 in both chamfering devices 5 during the movement.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. The utility model provides a multilayer chamfering device of packer sealing member, its characterized in that, includes two-way movement mechanism (1), first slewing mechanism (2), second slewing mechanism (3), fixed establishment (4) and chamfering device (5), install respectively on two output of two-way movement mechanism (1) first slewing mechanism (2) and second slewing mechanism (3), fixed establishment (4) are equipped with two, two fixed establishment (4) are and set up in opposite directions and are connected with first slewing mechanism (2) and second slewing mechanism (3) respectively, chamfering device (5) are equipped with two and set up the both sides in two-way movement mechanism (1) respectively, one side of two-way movement mechanism (1) is equipped with the PLC controller, first slewing mechanism (2), second slewing mechanism (3), two-way movement mechanism (1), The two fixing mechanisms (4) and the two chamfering devices (5) are electrically connected with the PLC.

2. The multilayer chamfering device for the packer sealing members as claimed in claim 1, wherein the bidirectional moving mechanism (1) comprises a bidirectional module sliding table (11) and a bottom plate (12), the bidirectional module sliding table (11) is installed on the bottom plate (12), and two output ends of the bidirectional module sliding table (11) are fixedly connected with the bottoms of the first rotating mechanism (2) and the second rotating mechanism (3) respectively.

3. The multilayer chamfering device for the packer sealing element according to claim 1, wherein the first rotating mechanism (2) and the second rotating mechanism (3) each comprise a support frame (21) and a driving motor (22), the support frame (21) is rotatably connected with the fixing mechanism (22) at the corresponding position, the driving motor (22) is installed on the support frame (21), and the output end of the driving motor (22) penetrates through the support frame (21) to be connected with the fixing mechanism (22) at the corresponding position.

4. The multi-layer chamfering device for packer sealing members according to claim 1, wherein each of the fixing mechanisms (4) includes a fixed frame (41), a guide box (42), a first support member (43), a second support member (44), a pressing block (45) and a driving mechanism, the guide box (42) is disposed at a side end of the fixed frame (41), the guide box (42) is connected with the fixed frame (41), the first support member (43) and the second support member (44) are symmetrically disposed, the same ends of the first support member (43) and the second support member (44) are disposed inside the guide box (42), the first support member (43) and the second support member (44) can perform folding or expanding movement in the guide box (42), the pressing block (45) is disposed in the guide box (42) and between the first support member (43) and the second support member (44), the upper side and the lower side of the pressing block (45) are obliquely arranged, the driving mechanism is arranged on the guide box (42), and the output end of the driving mechanism is connected with the pressing block (45).

5. The multilayer chamfering apparatus for packer seals according to claim 4, wherein the driving mechanism includes a first electric cylinder (46), the first electric cylinder (46) is disposed at one side of the guide box (42), and the output end of the first electric cylinder (46) passes through the guide box (42) and is connected with the pressing block (45), the pressing block (45) can drive the first support member (43) and the second support member (44) to move in two directions, namely up and down, respectively, by the driving of the first electric cylinder (46).

6. The multilayer chamfering device for the packer sealing according to claim 4, wherein the first supporting piece (43) and the second supporting piece (44) each comprise a sliding block (47) and a supporting plate (48), the supporting plate (48) is arranged on the outer side of the guide box (42), one end of the supporting plate (48) is fixedly connected with the sliding block (47), a convex block is arranged on the side end of the sliding block (47), and a groove matched with the convex block is arranged in the guide box (42).

7. The multi-layer chamfering device for the packer sealing according to claim 6, wherein each supporting plate (48) is provided with a limiting groove (481) and a sliding groove (482), the sliding block (47) is further provided with a protection assembly (471), the protection assembly (471) comprises a baffle plate (472), a movable block (473) and a bolt (474), the baffle plate (472) is arranged above the supporting plate (48), the movable block (473) is arranged in the sliding groove (482) of the supporting plate (48), the movable block (473) is connected with the bottom of the baffle plate (472), and the bolt (474) penetrates through the limiting groove (481) from the lower side of the supporting plate (48) to be in threaded connection with the movable block (473).

8. The multi-layer chamfer device of a packer seal according to claim 6, characterized in that a spring (6) is provided between each slide (47) and the guide box (42).

9. The multi-layer chamfering device for packer seals according to claim 2, characterized in that the chamfering device (5) comprises a cutting knife (51), a knife holder (52) and a second electric cylinder (53), the second electric cylinder (53) being mounted on the bottom plate (12), the knife holder (52) being arranged on the output end of the second electric cylinder (53) and being connected to the output end of the second electric cylinder (53), the cutting knife (51) being mounted on the knife holder (52).