CN115781448A

CN115781448A - Incision structure of polishing based on glass fiber board

Info

Publication number: CN115781448A
Application number: CN202211711866.4A
Authority: CN
Inventors: 刘凯
Original assignee: Yizheng Huixin Frp Co ltd
Current assignee: Yizheng Huixin Frp Co ltd
Priority date: 2022-12-29
Filing date: 2022-12-29
Publication date: 2023-03-14
Anticipated expiration: 2042-12-29
Also published as: CN115781448B

Abstract

The invention relates to the technical field of fiber board edge grinding, in particular to a notch grinding structure based on a glass fiber board, wherein a periphery grinding mechanism comprises a supporting base and a periphery grinding assembly; the periphery polishing assembly is annularly and rotatably connected to the supporting base, the top of the periphery polishing assembly is fixedly connected with a connecting ring which is coaxial with the supporting base, the driving assembly and the connecting ring are in clamping fit, the supporting disk is rotatably connected with a transmission structure which is meshed with the driving assembly, and when the driving assembly drives part of the inner hole polishing assemblies to rotate to polish the round holes, the other part of the inner hole polishing assemblies realize tight support of the round holes; according to the invention, through the clamping action of the L-shaped rod and the connecting ring on the periphery polishing mechanism, the inner hole polishing assembly is utilized to polish the circular holes on the circular glass fiber board, and simultaneously the connecting ring is driven to synchronously rotate, so that the synchronous rotation of a plurality of periphery polishing assemblies arranged annularly is realized, and the synchronous polishing of the peripheral side notches and the circular hole notches of the circular glass fiber board is further realized.

Description

Incision structure of polishing based on glass fiber board

Technical Field

The invention relates to the technical field of fiber board edge grinding, in particular to a notch grinding structure based on a glass fiber board.

Background

The insulating glass fiber board is generally synthesized by glass fiber materials and high-heat-resistance composite materials, asbestos components harmful to human bodies are not contained, the insulating glass fiber board has higher mechanical property and dielectric property, and has better heat resistance and moisture resistance, after the insulating glass fiber board is prepared, the edge glass fiber board is often required to be cut into a specific shape to adapt to different working conditions, the circular-plate-type insulating glass fiber board is a glass fiber board commonly used in the circular-plate-type insulating glass fiber board, round holes are uniformly cut in the circular-plate-type glass fiber board, and when the glass fiber board is cut, burrs or burrs are easily generated at the cutting part of the glass fiber board to influence the working performance of the glass fiber board.

Through the retrieval, a chinese patent that the publication number of granting is CN113523950B discloses an edging machinery after insulating glass fiber board cutting, including PMKD, edging device, L type mounting bracket and drive arrangement, PMKD's upper end be provided with the edging device, the L type mounting bracket is installed to PMKD's upper end rear side, the upper end front side of L type mounting bracket is provided with drive arrangement. The invention can carry out uniform machinery for polishing the side wall and the hole wall of a plurality of circular plate type insulating glass fiber boards, does not need to replace the working position of the glass fiber board and an edging machine, improves the utilization rate and the edging efficiency of the edging machine, and also improves the edging effect of the inner wall of the circular hole.

However, in the process of implementing the specific embodiment of the present invention, the inventors of the present application found that the above-mentioned technology has the following drawbacks: (1) Only the polishing of the peripheral side surface of the round glass fiber plate and the polishing of the inner wall of the round hole on the round glass fiber plate are realized, and the polishing of the boundary between the peripheral side surface of the round glass fiber plate and the plane and the polishing of the boundary between the inner wall of the round hole and the plane cannot be effectively realized, so that the polishing effect of the cut of the round glass fiber plate is poor; (2) The polishing of the peripheral side face of the circular glass fiber plate and the polishing of the inner wall of the circular hole are independent and complete through respective polishing structures, and the polishing of the peripheral side face of the circular glass fiber plate can not be realized while the circular hole is polished, so that the polishing efficiency of the notch of the glass fiber plate is reduced. Therefore, we provide a notch polishing structure based on a glass fiber board to solve the above technical problems.

Disclosure of Invention

In order to solve the problems, the invention provides a notch polishing structure based on a glass fiber plate, which solves a plurality of technical problems in the background technology through the specific structural design of a periphery polishing assembly, a connecting ring and an inner hole polishing mechanism.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a notch polishing structure based on a glass fiber plate, which comprises a periphery polishing mechanism, wherein the periphery polishing mechanism comprises a supporting base and a periphery polishing assembly; the periphery polishing assemblies are annularly and uniformly distributed above the supporting base, the periphery polishing assemblies are rotatably connected with the supporting base, and the top of each periphery polishing assembly is fixedly connected with a connecting ring which is coaxial with the supporting base;

round glass fiber plates stacked layer by layer are arranged between the support base and the connecting ring, and the round glass fiber plates are supported by the peripheral polishing assembly;

still include hole grinding machanism, hole grinding machanism includes:

the driving and rotating assembly is rotatably connected to the center of the supporting disc, the driving and rotating assembly and the connecting ring are in clamping fit, the supporting disc is rotatably connected with transmission structures which are uniformly distributed along the peripheral direction of the supporting disc, and the transmission structures are meshed with the driving and rotating assembly; and

the inner hole polishing assembly is fixedly connected to the bottom of the corresponding transmission structure, the inner hole polishing assembly is coaxially inserted into a round hole in the round glass fiber plate, and when the driving assembly drives part of the inner hole polishing assembly to rotate to polish the round hole, the other part of the inner hole polishing assembly realizes tight support of the round hole.

As a preferred technical solution of the present invention, the upper surface of the supporting base is provided with a rotating seat which is coaxial, the periphery polishing assembly includes a fixed plate connected to the rotating seat and a moving plate disposed on the periphery of the circular glass fiber plate, a guide rod slidably engaged with the fixed plate is disposed on one side of the moving plate, and an adjusting rod rotatably connected with the moving plate is screwed on the fixed plate.

As a preferable technical scheme of the invention, a plurality of first grinding pieces are uniformly distributed on the other side surface of the moving plate along the length direction of the moving plate, the inner height of each first grinding piece is the same as the thickness of the round glass fiber plate, and the first grinding pieces are used for supporting the round glass fiber plate and realizing the grinding of the peripheral side of the round glass fiber plate.

As a preferred technical scheme of the invention, the driving and rotating assembly comprises a linkage disk fixedly connected with an output shaft of a driving and rotating motor at the bottom of a support disk, the peripheral side surface of the linkage disk is connected with an arc toothed plate through a support rod, an L-shaped rod is fixedly connected on the linkage disk, and the lower end of the L-shaped rod is in clearance fit with a clamping groove on the connecting ring; the transmission structure comprises a rotating shaft matched with the supporting disk in a rotating mode, and a gear at the top of the rotating shaft is meshed with the arc toothed plate.

As a preferred technical scheme of the invention, the inner hole polishing assembly comprises a hollow embedded pipe, wherein a positioning seat at the bottom of the hollow embedded pipe is in clearance fit with a positioning groove on the supporting base; the side face of the periphery of the hollow embedded pipe is provided with a limiting hole channel, the limiting rod on the movable disc is matched in the limiting hole channel, and the limiting rod is matched with the thread in a sliding fit mode with the inner wall of the adjusting ring on the hollow embedded pipe.

As a preferred technical scheme of the invention, a plurality of horizontal sliding rods are arranged on the outer surface of the hollow embedded pipe along the length direction of the hollow embedded pipe, the end part of each horizontal sliding rod, which is positioned on the outer side of the hollow embedded pipe, is fixedly connected with a second polishing piece, the inner height of each second polishing piece is the same as the thickness of the round glass fiber plate, and each second polishing piece is used for supporting the round glass fiber plate and polishing the round hole of the round glass fiber plate; the horizontal sliding rod is fixedly connected with a translation sphere at the end part on the inner side of the hollow embedded pipe, and a second elastic piece is arranged between the translation sphere and the inner surface of the hollow embedded pipe.

As a preferred technical solution of the present invention, the first polishing member and the second polishing member are both configured as a U-shaped structure.

As a preferable technical scheme of the invention, extrusion parts which are in one-to-one correspondence with the second grinding parts are uniformly distributed in the hollow embedded pipe along the length direction of the hollow embedded pipe, the translation spheres are symmetrically arranged at two sides of the extrusion parts, the translation spheres are attached to the inclined surfaces of the extrusion parts, two adjacent extrusion parts are connected through a support rod, and the lower end of the connecting rod is fixedly connected with the corresponding extrusion parts.

The invention has the following beneficial effects:

1. according to the invention, through the clamping effect of the L-shaped rod and the connecting ring on the periphery polishing mechanism, the inner hole polishing assembly is utilized to polish the circular holes on the circular glass fiber plate, and simultaneously the connecting ring is driven to synchronously rotate, so that the synchronous rotation of a plurality of periphery polishing assemblies arranged annularly is realized, the synchronous polishing of the peripheral side notches and the circular hole notches of the circular glass fiber plate is further realized, and the polishing efficiency of the glass fiber plate is greatly improved.

2. According to the invention, the first polishing piece and the second polishing piece are both arranged into the U-shaped structures, so that not only can the polishing operation of the cut surface of the circular glass fiber plate be realized, but also the polishing of the junction of the curved surface cut and the plane of the circular glass fiber plate can be realized, and the polishing effect of the cut of the circular glass fiber plate can be improved.

3. According to the invention, in the process of in-situ rotary polishing by using the arc toothed plate to drive part of the inner hole polishing assemblies, the other part of the inner hole polishing assemblies support the inner wall of the circular hole on the circular glass fiber plate, so that the random shaking of the circular glass fiber plate in the polishing process is effectively avoided, and the stability of the glass fiber plate during polishing is favorably improved.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a notch polishing structure based on a glass fiber board.

Fig. 2 is a front view of the structure of fig. 1.

Fig. 3 is a schematic structural view of the peripheral grinding mechanism.

Figure 4 is a schematic diagram of a periphery grinding assembly.

Fig. 5 is a schematic structural diagram of the inner hole grinding mechanism.

Fig. 6 is a schematic structural diagram of the driving assembly.

Fig. 7 is a structural schematic diagram of the bottom view angle of fig. 6.

Figure 8 is a schematic diagram of the configuration of the bore grinding assembly.

Fig. 9 is a cross-sectional view of a longitudinal structure of fig. 8.

Fig. 10 is an enlarged view of a portion of a structure in fig. 9.

In the drawings, the components represented by the respective reference numerals are listed below:

1-peripheral grinding mechanism, 10-supporting base, 11-peripheral grinding component, 110-fixing plate, 111-moving plate, 112-guide bar, 113-adjusting bar, 114-first grinding component, 12-connecting ring, 120-clamping groove, 13-rotating seat, 14-positioning groove, 2-round glass fiber plate, 3-inner hole grinding mechanism, 31-driving component, 32-supporting plate, 33-transmission structure, 330-rotating shaft, 331-gear, 34-inner hole grinding component, 340-hollow inner embedded tube, 341-positioning seat, 342-moving plate, 343-fixing plate, 344-first elastic component, 345-connecting rod, 346-limiting hole channel, 347-adjusting ring, 348-second grinding component, 349-translation sphere, 3410-second elastic component, extrusion component 1-34135-driving motor, 36-linkage disk, 37-arc toothed plate, 38-L-shaped bar, 4-hydraulic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 first embodiment is as follows:

referring to fig. 1-10, the present invention is an incision polishing structure based on a glass fiber plate, including a periphery polishing mechanism 1, where the periphery polishing mechanism 1 includes a support base 10 and a periphery polishing assembly 11; the periphery grinding assemblies 11 are circumferentially and uniformly distributed above the supporting base 10, the periphery grinding assemblies 11 are rotatably connected with the supporting base 10, the periphery side surfaces of the glass fiber plate are ground by rotation of the periphery grinding assemblies 11, and the top of each periphery grinding assembly 11 is fixedly connected with a connecting ring 12 which is coaxial with the supporting base 10;

round glass fiber plates 2 stacked layer by layer are arranged between the support base 10 and the connecting ring 12, and the round glass fiber plates 2 are supported by the peripheral polishing assembly 11; according to the actual use requirement of the glass fiber board, the glass fiber board is generally cut into a round shape, and round holes required to be used are required to be cut on the round glass fiber board 2;

still include hole grinding machanism 3, hole grinding machanism 3 includes:

the polishing device comprises a driving and rotating assembly 31, wherein the driving and rotating assembly 31 is rotatably connected to the center of a supporting plate 32, the hydraulic rod 4 is arranged on the supporting plate 32, the up-and-down movement of the whole inner hole polishing mechanism 3 can be realized, the polishing requirement of round hole notches on the surface of a round glass fiber plate 2 is realized, the driving and rotating assembly 31 is in clamping fit with a connecting ring 12, the driving and rotating assembly 31 and the connecting ring 12 can synchronously rotate through the structural arrangement, transmission structures 33 uniformly distributed along the circumferential direction of the supporting plate 32 are rotatably connected to the supporting plate 32, the transmission structures 33 are meshed with the driving and rotating assembly 31, and the number of the transmission structures 33 can be set to be eight; and

hole subassembly 34 of polishing, hole subassembly 34 of polishing are connected to be fixed in corresponding transmission structure 33 bottom, and hole subassembly 34 of polishing is pegged graft in the round hole on circular glass fiber board 2 with the axle center, when driving to change subassembly 31 and order about part hole subassembly 34 of polishing rotatory round hole of polishing, another part hole subassembly 34 of polishing realizes the inseparable support to the round hole.

One specific application of this embodiment is: through rotating the driving and rotating assembly 31, under the meshing action of the driving and rotating assembly 31 and the four transmission structures 33 arranged at the cross of the first part, the in-situ rotation of the inner hole polishing assembly 34 at the bottom of the corresponding transmission structure 33 is realized, the polishing of the round hole notches at the four transmission structures 33 arranged at the cross of the first part is realized, at the moment, the inner hole polishing assembly 34 at the position corresponding to the four transmission structures 33 arranged at the cross of the second part tightly supports the inner wall of the round hole notch, after the driving and rotating assembly 31 continuously rotates to separate from the four transmission structures 33 arranged at the cross of the first part, the four transmission structures 33 arranged at the cross of the second part are meshed with the driving and rotating assembly 31, the polishing of the round hole notches at the four transmission structures 33 arranged at the cross of the second part is realized under the rotating action of the driving and rotating assembly 31, at the moment, the inner hole polishing assembly 34 at the position corresponding to the four transmission structures 33 arranged at the cross of the first part tightly supports the inner wall of the round hole notch, and in the whole notch circular glass fiber plate 2 surface notches are synchronously polished.

The second embodiment is as follows:

on the basis of the first embodiment, the present embodiment is different in that:

referring to fig. 3 and 4, a rotating base 13 coaxial with the axis is disposed on the upper surface of the supporting base 10, the peripheral polishing assembly 11 includes a fixed plate 110 connected to the rotating base 13 and a moving plate 111 disposed on the peripheral side of the circular glass fiber plate 2, a guide rod 112 slidably engaged with the fixed plate 110 is disposed on one side surface of the moving plate 111, an adjusting rod 113 rotatably connected with the moving plate 111 is screwed on the fixed plate 110, and the moving plate 111 can be prevented from rotating during the process of rotating the adjusting rod 113 by the guide rod 112.

Referring to fig. 2 and 4, a plurality of first polishing members 114 are uniformly distributed on the other side surface of the movable plate 111 along the length direction thereof, the inner height of each first polishing member 114 is the same as the thickness of the circular glass fiber plate 2, so that the circular glass fiber plate 2 is in clearance fit inside the first polishing member 114, the first polishing member 114 is used for supporting the circular glass fiber plate 2 and polishing the periphery of the circular glass fiber plate, after the circular glass fiber plate 2 is placed inside the first polishing members 114 on the plurality of circumferentially arranged peripheral polishing assemblies 11, the first polishing members 114 can be attached to the peripheral side surface of the circular glass fiber plate 2 by rotating the adjusting rod 113, the first polishing members 114 arranged by the U-shaped structure can not only polish the peripheral side surface of the circular glass fiber plate 2, but also polish the junction between the peripheral side surface of the circular glass fiber plate 2 and the plane, and thereby greatly improving the polishing effect of the peripheral side surface notch of the circular glass fiber plate 2.

Referring to fig. 5, 6 and 7, the driving assembly 31 includes a linkage disk 36 fixedly connected to an output shaft of a driving motor 35 at the bottom of the support disk 32, an arc toothed plate 37 is connected to the peripheral side of the linkage disk 36 through a support rod, an L-shaped rod 38 is fixedly connected to the linkage disk 36, and the lower end of the L-shaped rod 38 is in clearance fit with a slot 120 on the connection ring 12;

the transmission structure 33 comprises a rotating shaft 330 which is matched with the supporting disc 32 in a rotating mode, the gear 331 at the top of the rotating shaft 330 is meshed with the arc toothed plate 37, and the four arc toothed plates 37 arranged in a crossed mode can only be meshed with the corresponding four transmission structures 33 at each time, so that the alternating rotating grinding operation of the four transmission structures 33 arranged in the crossed mode of the first part and the four transmission structures 33 arranged in the crossed mode of the second part is achieved.

One specific application of this embodiment is: place circular glass fiber board 2 after inside the first 114 of polishing on the subassembly 11 of polishing of a plurality of peripheries that the hoop set up, can order about first 114 of polishing to laminate on circular glass fiber board 2 week side through rotating adjusting rod 113, start driving motor 35 and drive the rotation of arc pinion rack 37 on the linkage disk 36, under the meshing effect of arc pinion rack 37 and drive structure 33, realize four drive structure 33 that the cross of first part set up and four drive structure 33's of the cross setting of second part rotation operation of polishing in turn, realize from this that circular glass fiber board 2 goes up the polishing of each round hole incision, utilize first 114 of polishing to realize the synchronous polishing of circular glass fiber board 2 week side incision at this in-process.

The third concrete example:

referring to fig. 8, the inner hole polishing assembly 34 includes a hollow embedded tube 340, the outer diameter of the hollow embedded tube 340 is smaller than the circular hole cut on the circular glass fiber plate 2, a positioning seat 341 at the bottom of the hollow embedded tube 340 is in clearance fit with a positioning groove 14 on the support base 10 to ensure that the hollow embedded tube 340 performs in-situ rotational polishing at the positioning groove 14, a moving disc 342 and a fixed disc 343 are respectively arranged inside the hollow embedded tube 340, a first elastic element 344 is arranged between the moving disc 342 and the fixed disc 343, and a connecting rod 345 in sliding fit with the fixed disc 343 is arranged at the bottom of the moving disc 342;

the peripheral side surface of the hollow embedded pipe 340 is provided with a limiting hole channel 346, a limiting rod on the movable disc 342 is matched in the limiting hole channel 346, and the limiting rod is in sliding fit with the inner wall of the adjusting ring 347 which is in threaded fit with the hollow embedded pipe 340; the moving plate 342 is moved down along the inner wall of the hollow embedded tube 340 by rotating the adjusting ring 347, during which the first elastic member 344 is compressed in a charged state.

Referring to fig. 9 and 10, a plurality of horizontal sliding rods are arranged on the outer surface of the hollow embedded pipe 340 along the length direction thereof, the end parts of the horizontal sliding rods, which are positioned at the outer side of the hollow embedded pipe 340, are fixedly connected with second polishing pieces 348, the inner height of the second polishing pieces 348 is the same as the thickness of the circular glass fiber plate 2, and the second polishing pieces 348 are used for supporting the circular glass fiber plate 2 and polishing the circular hole thereof; the second polishing piece 348 arranged in the U-shaped structure can polish the round hole cut of the round glass fiber plate 2 and the junction between the inner wall of the round hole of the round glass fiber plate 2 and the plane, so that the polishing effect of the round hole cut of the round glass fiber plate 2 is greatly improved;

the end connection that the horizontal sliding rod is located the inboard of cavity embedded pipe 340 is fixed with translation spheroid 349, is provided with second elastic component 3410 between translation spheroid 349 and the interior surface of cavity embedded pipe 340, and when translation spheroid 349 received the level and bulldozed, the second piece 348 horizontal migration of polishing made and made its laminating on round hole incision inner wall, through the second piece 348 of polishing realize polishing of round hole incision in the inside rotation of round hole incision.

Referring to fig. 10, extrusion pieces 3411 corresponding to the second polishing pieces 348 one by one are uniformly distributed in the hollow embedded tube 340 along the length direction thereof, translation spheres 349 are symmetrically arranged at both sides of the extrusion pieces 3411, the translation spheres 349 are attached to the inclined surfaces of the extrusion pieces 3411, two adjacent extrusion pieces 3411 are connected through a support rod, and the lower end of the connecting rod 345 is fixedly connected with the corresponding extrusion pieces 3411; when the adjusting ring 347 is rotated to move the movable disk 342 downwards along the inner wall of the hollow embedded pipe 340, the translational ball 349 is horizontally pushed and pressed by the extrusion piece 3411, so that the second polishing piece 348 is attached to the inner wall of the circular hole cut, and polishing and supporting of the inner wall of the circular hole cut are realized by the second polishing piece 348.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A notch polishing structure based on a glass fiber plate comprises a periphery polishing mechanism, wherein the periphery polishing mechanism comprises a supporting base and a periphery polishing assembly; the method is characterized in that: the periphery polishing assemblies are annularly and uniformly distributed above the supporting base, the periphery polishing assemblies are rotatably connected with the supporting base, and the top of each periphery polishing assembly is fixedly connected with a connecting ring which is coaxial with the supporting base;

still include hole grinding machanism, hole grinding machanism includes:

the inner hole polishing assembly is fixedly connected to the bottom of the corresponding transmission structure, and is inserted into a round hole in the round glass fiber plate coaxially, when the rotating assembly drives partial inner hole polishing assemblies to rotate to polish the round hole, the other partial inner hole polishing assemblies are tightly supported by the round hole.

2. The structure of claim 1, wherein the supporting base has a coaxial rotating base on its upper surface, the peripheral polishing assembly comprises a fixed plate connected to the rotating base and a moving plate disposed around the circular glass fiber plate, a side of the moving plate is provided with a guide rod in sliding fit with the fixed plate, and the fixed plate is screwed with an adjusting rod rotatably connected to the moving plate.

3. The incision polishing structure based on glass fiber board as claimed in claim 2, wherein a plurality of first polishing members are uniformly distributed on the other side surface of the moving plate along the length direction, the inner height of the first polishing members is the same as the thickness of the round glass fiber board, and the first polishing members are used for supporting the round glass fiber board and polishing the periphery of the round glass fiber board.

4. The incision polishing structure based on the glass fiber board as claimed in claim 1, wherein the driving assembly comprises a linkage disk fixedly connected with a driving motor output shaft at the bottom of the support disk, an arc toothed plate is connected to the peripheral side surface of the linkage disk through a support rod, an L-shaped rod is fixedly connected to the linkage disk, and the lower end of the L-shaped rod is in clearance fit with a clamping groove on the connection ring;

the transmission structure comprises a rotating shaft which is matched with the supporting disk in a rotating mode, and a gear at the top of the rotating shaft is meshed with the arc toothed plate.

5. The notch polishing structure based on a glass fiber plate as claimed in claim 3, wherein the inner hole polishing assembly comprises a hollow embedded tube, a positioning seat at the bottom of the hollow embedded tube is in clearance fit with a positioning groove on the supporting base, a moving disc and a fixed disc are respectively arranged inside the hollow embedded tube, a first elastic member is arranged between the moving disc and the fixed disc, and a connecting rod in sliding fit with the fixed disc is arranged at the bottom of the moving disc;

the side face of the periphery of the hollow embedded pipe is provided with a limiting hole channel, the limiting rod on the movable disc is matched in the limiting hole channel, and the limiting rod is matched with the thread in a sliding fit mode on the inner wall of the adjusting ring on the hollow embedded pipe.

6. The notch polishing structure based on the glass fiber plate as claimed in claim 5, wherein a plurality of horizontal sliding rods are arranged on the outer surface of the hollow embedded tube along the length direction of the hollow embedded tube, the end parts of the horizontal sliding rods, which are positioned at the outer side of the hollow embedded tube, are fixedly connected with second polishing pieces, the inner height of each second polishing piece is the same as the thickness of the circular glass fiber plate, and the second polishing pieces are used for supporting the circular glass fiber plate and polishing the circular holes of the circular glass fiber plate;

the horizontal sliding rod is fixedly connected with a translation sphere at the end part on the inner side of the hollow embedded pipe, and a second elastic piece is arranged between the translation sphere and the inner surface of the hollow embedded pipe.

7. A fibreglass board-based kerf milling structure as claimed in claim 6, wherein the first and second milling members are each arranged in a U-shaped configuration.

8. The incision polishing structure based on glass fiber boards as claimed in claim 6, wherein extrusion pieces corresponding to the second polishing pieces one by one are uniformly distributed in the hollow embedded pipe along the length direction of the hollow embedded pipe, the translation spheres are symmetrically arranged on two sides of the extrusion pieces, the translation spheres are attached to the inclined surfaces of the extrusion pieces, two adjacent extrusion pieces are connected through supporting rods, and the lower ends of the connecting rods are fixedly connected with the corresponding extrusion pieces.