CN117047611B - Corner polishing equipment for glass fiber reinforced plastic processing - Google Patents

Abstract

The invention discloses corner polishing equipment for glass fiber reinforced plastic processing, which relates to the technical field of polishing equipment and comprises the following components: the lifting platform is arranged on the upper side of the base, and a first conveying frame and a second conveying frame are respectively arranged on two sides of the base; the part placing table is connected with the output end of the lifting table; the polishing box is arranged on the upper side of the part placing table, and a polishing piece is arranged in the polishing box through a working motor; the part placement stage includes: the top end of the second table body is provided with a position correcting mechanism; the station grooves are formed in the second table body, and are distributed in an annular mode by taking the aligning mechanism as a circle center. When the glass reinforced plastic pipe is processed, one end of the glass reinforced plastic pipe to be processed is vertically upwards distributed through the part placement table, and the part placement table is lifted to be in contact with the polishing piece so as to polish the glass reinforced plastic pipe, and when the glass reinforced plastic pipe is polished, the part placement table and the polishing box are attached together, so that dust and impurities generated by polishing can be prevented from polluting the processing environment.

Description

Corner polishing equipment for glass fiber reinforced plastic processing

Technical Field

The invention relates to the technical field of polishing equipment, in particular to corner polishing equipment for glass fiber reinforced plastic processing.

Background

Glass fiber reinforced plastics, also known as GFRP, fiber reinforced plastics, generally refers to reinforced plastics using glass fibers to reinforce unsaturated polyester, epoxy resin and phenolic resin matrices, and glass fibers or products thereof as reinforcing materials, known as glass fiber reinforced plastics;

the glass fiber reinforced plastic has the characteristics of high hardness and light material, and is widely applied to various industries; the tubular structure is one of the structures which are usually processed by glass fiber reinforced plastics, the process is simple, the tubular structure can be molded at one time, and the economic effect is outstanding; after the glass fiber reinforced plastic is formed, in order to improve the performance and appearance, many manufacturers use polishing equipment to polish the edges of the product.

Through searching, chinese patent (publication No. CN 115319550A) discloses a comprehensive polishing device for glass fiber reinforced plastic tubular products, which comprises a polishing table, wherein a fixed cylinder is fixedly connected to the polishing table, a fixed frame is fixedly connected to the inner bottom of the fixed cylinder, a driving motor is arranged in the polishing table, the output end of the driving motor is coaxially and fixedly connected with a rotating block, the rotating block is coaxially and rotatably connected to the fixed frame, a rotating ring is coaxially and rotatably connected to the fixed frame, and a driving assembly is connected between the rotating block and the rotating ring.

In prior art, when polishing glass steel pipe in batches, need grinding device have higher efficient throughput to improve the holistic machining efficiency of product, and when polishing fast, need guarantee the quality of polishing of product, consequently, this application provides a corner equipment of polishing for glass steel processing.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide corner polishing equipment for glass fiber reinforced plastic processing.

In order to achieve the above purpose, the present invention provides the following technical solutions: the corner polishing equipment for glass fiber reinforced plastic processing comprises a base, wherein a lifting table is arranged on the upper side of the base, a part placement table is arranged on the upper side of the lifting table, polishing boxes positioned on the upper sides of the lifting table and the part placement table are arranged on the upper side of the base, and the polishing boxes and the part placement table are axially distributed;

the two sides of the part placing table are respectively provided with a first conveying frame and a second conveying frame, the first conveying frame is used for vertically moving the glass fiber reinforced plastic pipes to be processed into the part placing table, and the second conveying frame is used for moving the processed glass fiber reinforced plastic pipes out of the part placing table;

the top end of the interior of the polishing box is provided with a working motor, the output end of the working motor faces downwards, and a polishing piece is arranged on the working motor;

the polishing piece rotates based on a working motor to polish the top ends of the glass reinforced plastic pipes;

the workpiece reinforcing module is arranged at the lower side of the polishing piece in the polishing box and used for supporting each glass reinforced plastic pipe when the glass reinforced plastic pipe is processed, so that the problem of shaking is avoided, and the processing quality is improved;

the part placement table comprises a second table body, wherein a position correcting mechanism is arranged at the top end of the second table body, a plurality of station grooves are formed in the second table body, and the station grooves are distributed in an annular shape by taking the position correcting mechanism as a circle center;

the inside of each station groove is slidably connected with a lifting frame, each station groove is used for containing a glass reinforced plastic pipe, and the bottom of the glass reinforced plastic pipe is placed on the upper side of the lifting frame;

and a plurality of second lifting mechanisms are arranged in the second platform body, and the output ends of the second lifting mechanisms are respectively connected with each lifting frame and are used for driving the glass fiber reinforced plastic pipes in the corresponding station grooves to move in the vertical direction.

Further, the base comprises a placing seat, a first steering motor is arranged on the upper side of the placing seat, and the output end of the first steering motor is connected with the lifting table;

the upper surface of the placement seat is provided with an annular chute.

Further, the elevating platform includes first stage body, the lower surface mounting of first stage body has the reinforcement position that extends to the spout inside, and the internally mounted of first stage body has a plurality of first lifting mechanisms, and the output of a plurality of first lifting mechanisms all is connected with the second stage body for drive the second stage body and remove, so as to lift it to the downside of polishing case, and then contact the glass steel pipe in each station inslot with polishing piece.

Further, a supporting frame is arranged in the polishing box, and an annular clamping groove is formed in the side face of the polishing piece;

the inside embedding of support frame is to the inside of joint groove, and the support frame upper and lower surface all rotates to be connected with the rolling element with the position of polishing piece contact for reduce the frictional force of polishing piece when rotatory.

Further, the communication port is set up to one side of the piece of polishing of having seted up to the incasement portion of polishing, and the communication port is used for carrying out the intercommunication with filter equipment, when polishing for retrieve the dust and the impurity that will polish the production.

Further, the position correcting mechanism comprises a connecting column, and the connecting column is connected with the second platform body through a lifting cylinder;

a plurality of second cylinders are arranged on the outer sides of the connecting columns, and clamping mechanical claws are arranged at the output ends of the second cylinders;

the number of the second air cylinders corresponds to the number of the station grooves, and each second air cylinder is respectively located on the upper side of the corresponding station groove.

Further, the workpiece reinforcement module comprises at least one group of fixing frames, and the fixing frames are connected with the inner wall of the polishing box;

a plurality of through grooves are formed in the fixing frame, the through grooves are respectively located on the axial extension lines of the station grooves, and the size of each through groove is matched with that of each station groove.

Furthermore, a locking mechanism is arranged in each through groove, and after the glass fiber reinforced plastic pipe passes through the through grooves, the locking mechanism clamps the glass fiber reinforced plastic pipe and fixes the glass fiber reinforced plastic pipe;

the locking mechanism comprises a plurality of first cylinders which are annularly distributed in the through groove, the output ends of the first cylinders face the circle center of the corresponding through groove, and the first locking plates are arranged.

Further, the workpiece reinforcement module comprises a plurality of limit grooves which are formed in the polishing box based on the distribution mode of the station grooves and are all positioned on the lower side of the polishing piece;

a plurality of storage grooves are formed in the limiting grooves, a plurality of elastic supporting structures are mounted in the storage grooves, and the elastic supporting structures are distributed in an annular mode on a horizontal plane.

Further, the elastic supporting structure comprises a rotating wheel, contact inclined planes are arranged on the upper side and the lower side of the rotating wheel, an assembling frame is rotatably connected to the outer side of the rotating wheel, and each assembling frame is slidably connected with the corresponding containing groove;

the assembly frame is used for supporting the rotating wheel, an elastic piece is arranged between the side face of the assembly frame and the polishing box, when the glass fiber reinforced plastic pipe ascends, the glass fiber reinforced plastic pipe is contacted with a contact inclined plane at the lower side of the rotating wheel, the assembly frame further slides along the storage groove through the compression elastic piece, and after the top end of the glass fiber reinforced plastic pipe passes, the assembly frame abuts against the rotating wheel at one side of the glass fiber reinforced plastic pipe through the elastic piece.

Further, the reinforced structure is installed to the upside of lifting frame, and after the glass steel pipe got into the station groove, its bottom was connected with corresponding reinforced structure, and reinforced structure and the bottom equipment of glass steel pipe, fixed to drive it and rotate, the rotation direction of glass steel pipe is opposite with the rotation direction of polishing piece.

Further, the reinforcing structure comprises a second steering motor connected with the lifting frame, a supporting sleeve is arranged at the output end of the second steering motor, and the bottom end of the supporting sleeve is sleeved on the outer side of the second steering motor and is in rotary connection with the lifting frame; the supporting sleeve is connected with the lifting frame so as to reduce the stress born by the output end of the second steering motor;

the upper surface of the supporting sleeve is provided with a connecting sleeve, the side surface of the connecting sleeve is attached to the inner wall of the station groove, and the inner wall of the connecting sleeve is provided with a downward inclined guide surface to prevent the glass fiber reinforced plastic pipe from being detained at the upper side of the connecting sleeve;

the fixed pipe is installed to the middle part of supporting sleeve upper surface, a plurality of third cylinders that are annular distribution are installed to the outside of fixed pipe, and each the output of third cylinder is set up against the fixed pipe, and all installs the second locking board.

Compared with the prior art, the invention has the following beneficial effects:

when the glass reinforced plastic pipe is processed, one end of the glass reinforced plastic pipe to be processed is vertically upwards distributed through the part placement table, and is lifted to be in contact with the polishing piece so as to polish the glass reinforced plastic pipe;

when the glass fiber reinforced plastic pipe is lifted, the glass fiber reinforced plastic pipe can be moved to a processing part in a synchronous manner and can be separated from the part placing table through the lifting frame in a single manner, so that the purpose of rapid processing is achieved;

in conclusion, the polishing device is high in automation degree and mechanical degree, high in processing efficiency when polishing glass reinforced plastic pipes in a large batch, and capable of preventing the glass reinforced plastic pipes from shaking when polishing the glass reinforced plastic pipes, so that the processing quality can be improved.

Drawings

FIG. 1 is a schematic diagram of a corner grinding apparatus for glass fiber reinforced plastic processing;

FIG. 2 is a side view of the base, lift table, parts placement table and grinding box of the present invention;

FIG. 3 is a cross-sectional view of the grinding box of example 1 of the present invention;

FIG. 4 is a cross-sectional view of the component placement stage and the positioning mechanism of embodiment 1 of the present invention;

FIG. 5 is a cross-sectional view of the grinding box of example 2 of the present invention;

FIG. 6 is a sectional view of the component placement stage in embodiment 2 of the present invention;

FIG. 7 is an enlarged view of the portion A of FIG. 5 in accordance with the present invention;

fig. 8 is an enlarged view of the structure of the portion B in fig. 6 according to the present invention.

In the figure: 1. a base; 2. a lifting table; 3. a part placement table; 4. polishing the box; 5. a first carriage; 6. a second carriage; 7. a position correcting mechanism; 8. a working motor; 9. a polishing member; 10. a fixing frame; 11. a through groove; 12. a support frame; 13. a communication port; 14. a locking mechanism; 141. a first cylinder; 142. a first locking plate; 71. a connecting column; 72. a second cylinder; 73. a gripper; 101. a placement seat; 102. a first steering motor; 21. a first stage body; 22. a first lifting mechanism; 31. a second stage body; 32. a station groove; 33. lifting the frame; 34. a second lifting mechanism; 41. a limit groove; 42. an elastic support structure; 35. a reinforcing structure; 351. a second steering motor; 352. a support sleeve; 353. connecting sleeves; 354. a fixed tube; 355. a third cylinder; 356. a second locking plate; 421. a rotating wheel; 422. assembling a frame; 423. an elastic member.

Detailed Description

Example 1

Referring to fig. 1 to 4, a corner polishing apparatus for glass reinforced plastic processing includes a base 1, a lifting table 2 is installed at an upper side of the base 1, a part placement table 3 is installed at an upper side of the lifting table 2, and a polishing box 4 located at an upper side of the lifting table 2 and the part placement table 3 is installed at an upper side of the base 1, the polishing box 4 being axially distributed with the part placement table 3;

the two sides of the part placing table 3 are respectively provided with a first conveying frame 5 and a second conveying frame 6, the first conveying frame 5 is used for vertically moving the glass fiber reinforced plastic pipe to be processed into the part placing table 3, and the second conveying frame 6 is used for moving the processed glass fiber reinforced plastic pipe out of the part placing table 3;

the top end of the inside of the polishing box 4 is provided with a working motor 8, the output end of the working motor 8 faces downwards, and a polishing piece 9 is arranged;

the polishing piece 9 rotates based on the working motor 8 to polish the top ends of the glass reinforced plastic pipes;

the workpiece reinforcement module is arranged at the lower side of the polishing piece 9 inside the polishing box 4 and used for supporting each glass reinforced plastic pipe when the glass reinforced plastic pipe is processed, so that the problem of shaking is avoided, and the processing quality is improved;

the part placing table 3 comprises a second table body 31, a position correcting mechanism 7 is arranged at the top end of the second table body 31, a plurality of station grooves 32 are formed in the second table body 31, and the station grooves 32 are distributed in a ring shape by taking the position correcting mechanism 7 as a circle center;

the inside of each station groove 32 is slidably connected with a lifting frame 33, each station groove 32 is used for containing a glass reinforced plastic pipe, and the bottom of the glass reinforced plastic pipe is placed on the upper side of the lifting frame 33;

the second table body 31 is internally provided with a plurality of second lifting mechanisms 34, and output ends of the second lifting mechanisms 34 are respectively connected with each lifting frame 33 and are used for driving the glass reinforced plastic pipes in the corresponding station grooves 32 to move in the vertical direction.

Referring to fig. 4, the base 1 includes a placement base 101, a first steering motor 102 is installed on the upper side of the placement base 101, and an output end of the first steering motor 102 is connected with a lifting table 2;

the upper surface of the placement seat 101 is provided with an annular chute.

The lifting platform 2 comprises a first platform body 21, the lower surface of the first platform body 21 is provided with a reinforcing part extending to the inside of the chute, the inside of the first platform body 21 is provided with a plurality of first lifting mechanisms 22, the output ends of the first lifting mechanisms 22 are connected with a second platform body 31 and used for driving the second platform body 31 to move so as to lift the second platform body 31 to the lower side of the polishing box 4, and then the glass reinforced plastic pipes in the station grooves 32 are contacted with the polishing piece 9.

Referring to fig. 3, a supporting frame 12 is installed in the polishing box 4, and an annular clamping groove is formed in the side surface of the polishing piece 9;

the inside of support frame 12 imbeds to the inside of joint groove, and the support frame 12 upper and lower surface all rotates to be connected with the rolling element with the position of polishing piece 9 contact for reduce the frictional force of polishing piece 9 when rotatory.

The inside intercommunication mouth 13 of seting up of one side of polishing piece 9 of polishing case 4, intercommunication mouth 13 are used for carrying out the intercommunication with filter equipment, when polishing for retrieve the dust and the impurity that produce of polishing.

Referring to fig. 4, the aligning mechanism 7 includes a connection post 71, and the connection post 71 is connected to the second table 31 through a lifting cylinder;

a plurality of second air cylinders 72 are arranged on the outer sides of the connecting columns 71, and clamping mechanical claws 73 are arranged at the output ends of the second air cylinders 72;

the number of the second air cylinders 72 corresponds to the number of the station slots 32, and each of the second air cylinders 72 is located at an upper side of the corresponding station slot 32, respectively.

The workpiece reinforcement module comprises two groups of fixing frames 10, wherein the two groups of fixing frames 10 are connected with the inner wall of the polishing box 4 and are distributed up and down;

a plurality of through grooves 11 are formed in the fixing frame 10, the through grooves 11 are respectively located on the axial extension lines of the station grooves 32, and the size of each through groove 11 is matched with that of each station groove 32.

The locking mechanism 14 is arranged in each through groove 11, and after the glass fiber reinforced plastic pipe passes through the through grooves 11, the locking mechanism 14 clamps and fixes the glass fiber reinforced plastic pipe;

the locking mechanism 14 includes a plurality of first cylinders 141, the plurality of first cylinders 141 are distributed in the through groove 11 in a ring shape, and output ends of the first cylinders 141 face to the center of the corresponding through groove 11, and are provided with first locking plates 142.

Working principle:

when the device works, two groups of polishing devices are adjacently arranged, and a steering mechanism is arranged in the middle and used for rotating the glass reinforced plastic pipe and replacing the top end and the bottom end;

the first conveying frame 5 moves the glass fiber reinforced plastic pipe to one side of the part placing table 3, the first steering motor 102 drives the part placing table 3 to rotate, a group of clamping mechanical claws 73 and the station grooves 32 in the aligning mechanism 7 are moved to the first conveying frame 5, then the corresponding second air cylinders 72 of the clamping mechanical claws 73 are moved, the clamping mechanical claws 73 are moved to the outer sides of the glass fiber reinforced plastic pipe, the clamping mechanical claws 73 clamp the glass fiber reinforced plastic pipe, then the second air cylinders 72 are reset, the glass fiber reinforced plastic pipe is moved to the upper side of the second table body 31, the clamping mechanical claws 73 are loosened, and the glass fiber reinforced plastic pipe is moved to the second table body 31;

then the first lifting mechanism 22 in the lifting platform 2 is started, the part placing platform 3 is lifted until the glass reinforced plastic pipes penetrate through the through grooves 11 and then move to the lower side of the polishing piece 9, then the first air cylinders 141 in the through grooves 11 are started, and the glass reinforced plastic pipes are clamped and fixed through the first locking plates 142;

then the working motor 8 is started to drive the polishing piece 9 to polish each glass reinforced plastic pipe;

after polishing, the part placement table 3 descends, the gripper mechanism 73 grips each glass fiber reinforced plastic pipe, then the lifting cylinder in the aligning mechanism 7 is started, each glass fiber reinforced plastic pipe is separated from the station groove 32, then the lifting cylinder is started towards the group of second cylinders 72 of the second conveying frame 6, the glass fiber reinforced plastic pipes are moved into the second conveying frame 6, and the glass fiber reinforced plastic pipes are moved to the steering mechanism and the other polishing device through the second conveying frame 6, and the other ends of the glass fiber reinforced plastic pipes are polished.

Example 2

Referring to fig. 5 to 8, a corner polishing apparatus for glass reinforced plastic processing includes a base 1, a lifting table 2 is installed at an upper side of the base 1, a part placement table 3 is installed at an upper side of the lifting table 2, and polishing boxes 4 located at upper sides of the lifting table 2 and the part placement table 3 are installed at an upper side of the base 1, the polishing boxes 4 being axially distributed with the part placement table 3;

the two sides of the part placing table 3 are respectively provided with a first conveying frame 5 and a second conveying frame 6, the first conveying frame 5 is used for vertically moving the glass fiber reinforced plastic pipe to be processed into the part placing table 3, and the second conveying frame 6 is used for moving the processed glass fiber reinforced plastic pipe out of the part placing table 3;

the top end of the inside of the polishing box 4 is provided with a working motor 8, the output end of the working motor 8 faces downwards, and a polishing piece 9 is arranged;

the polishing piece 9 rotates based on the working motor 8 to polish the top ends of the glass reinforced plastic pipes;

the workpiece reinforcement module is arranged at the lower side of the polishing piece 9 inside the polishing box 4 and used for supporting each glass reinforced plastic pipe when the glass reinforced plastic pipe is processed, so that the problem of shaking is avoided, and the processing quality is improved;

the part placing table 3 comprises a second table body 31, a position correcting mechanism 7 is arranged at the top end of the second table body 31, a plurality of station grooves 32 are formed in the second table body 31, and the station grooves 32 are distributed in a ring shape by taking the position correcting mechanism 7 as a circle center;

the inside of each station groove 32 is slidably connected with a lifting frame 33, each station groove 32 is used for containing a glass reinforced plastic pipe, and the bottom of the glass reinforced plastic pipe is placed on the upper side of the lifting frame 33;

the second table body 31 is internally provided with a plurality of second lifting mechanisms 34, and output ends of the second lifting mechanisms 34 are respectively connected with each lifting frame 33 and are used for driving the glass reinforced plastic pipes in the corresponding station grooves 32 to move in the vertical direction.

Referring to fig. 5 and 7, the workpiece reinforcement module includes a plurality of limiting grooves 41, and the plurality of limiting grooves 41 are formed in the polishing box 4 based on the distribution mode of the station grooves 32 and are all located at the lower side of the polishing member 9;

a plurality of storage grooves are formed in the limiting grooves 41, a plurality of elastic supporting structures 42 are mounted in the storage grooves, and the elastic supporting structures 42 are distributed in a ring shape on a horizontal plane.

The elastic supporting structure 42 comprises a rotating wheel 421, contact inclined planes are arranged on the upper side and the lower side of the rotating wheel 421, assembly frames 422 are rotatably connected to the outer side of the rotating wheel 421, and each assembly frame 422 is slidably connected with a corresponding storage groove;

the assembly frame 422 is used for supporting the rotating wheel 421, an elastic piece 423 is arranged between the side surface of the assembly frame 422 and the polishing box 4, when the glass fiber reinforced plastic pipe ascends, the glass fiber reinforced plastic pipe contacts with a contact inclined surface at the lower side of the rotating wheel 421, the assembly frame 422 slides along the storage groove through the compression elastic piece 423, and after the top end of the glass fiber reinforced plastic pipe passes, the assembly frame 422 abuts against the rotating wheel 421 on one side of the glass fiber reinforced plastic pipe through the elastic piece 423.

Referring to fig. 6 and 8, a reinforcing structure 35 is installed on the upper side of the lifting frame 33, and after the glass reinforced plastic pipe enters the station groove 32, the bottom end of the glass reinforced plastic pipe is connected with the corresponding reinforcing structure 35, the reinforcing structure 35 is assembled and fixed with the bottom end of the glass reinforced plastic pipe, and drives the glass reinforced plastic pipe to rotate, and the rotation direction of the glass reinforced plastic pipe is opposite to that of the polishing piece 9.

The reinforcement structure 35 comprises a second steering motor 351 connected with the lifting frame 33, a supporting sleeve 352 is arranged at the output end of the second steering motor 351, and the bottom end of the supporting sleeve 352 is sleeved on the outer side of the second steering motor 351 and is in rotary connection with the lifting frame 33; the supporting sleeve 352 is connected with the lifting frame 33 so as to reduce the stress applied to the output end of the second steering motor 351;

the connecting sleeve 353 is arranged on the upper surface of the supporting sleeve 352, the side surface of the connecting sleeve 353 is attached to the inner wall of the station groove 32, and the inner wall of the connecting sleeve 353 is provided with a downward inclined guide surface, so that the glass reinforced plastic pipe is prevented from being detained on the upper side of the connecting sleeve 353;

the fixed pipe 354 is installed to the middle part of support sleeve 352 upper surface, and a plurality of third cylinders 355 that are annular distribution are installed to the outside of fixed pipe 354, and the output of each third cylinder 355 sets up dorsad fixed pipe 354, and all installs second locking plate 356.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present invention are intended to be considered as protecting the scope of the present template.

Claims (8)

1. A corner equipment of polishing for glass steel processing, characterized by, include:

the lifting platform (2) is arranged on the upper side of the base (1), and a first conveying frame (5) and a second conveying frame (6) are respectively arranged on two sides of the base (1); the base (1) comprises a placing seat (101), a first steering motor (102) is arranged on the upper side of the placing seat (101), and the output end of the first steering motor (102) is connected with the lifting table (2); the lifting table (2) comprises a first table body (21), wherein the lower surface of the first table body (21) is provided with a reinforcing part extending to the inside of the chute, and a plurality of first lifting mechanisms (22) are arranged in the first table body (21);

the part placing table (3) is connected with the output end of the lifting table (2); the first steering motor (102) drives the part placement table (3) to rotate;

the polishing box (4) is arranged on the upper side of the part placing table (3), and a polishing piece (9) is arranged in the polishing box through a working motor (8);

the part placement table (3) includes:

the top end of the second table body (31) is provided with a position correcting mechanism (7);

the output ends of the first lifting mechanisms (22) are connected with the second table body (31) and are used for driving the second table body (31) to move so as to lift the second table body to the lower side of the polishing box (4), and further, the glass fiber reinforced plastic pipes in the station grooves (32) are contacted with the polishing pieces (9);

the station grooves (32) are formed in the second table body (31), and are distributed in a ring shape by taking the aligning mechanism (7) as a circle center;

the lifting frames (33) are respectively arranged in the station grooves (32);

the second lifting mechanisms (34) are arranged in the second table body (31) and are respectively connected with the lifting frames (33);

the workpiece reinforcement module comprises at least one group of fixing frames (10), and the fixing frames (10) are connected with the inner wall of the polishing box (4);

a plurality of through grooves (11) are formed in the fixing frame (10), the through grooves (11) are respectively positioned on the axial extension lines of the station grooves (32), and the size of each through groove (11) is matched with that of each station groove (32);

a locking mechanism (14) is arranged in each through groove (11), and after the glass fiber reinforced plastic pipe passes through the through grooves (11), the locking mechanism (14) clamps the glass fiber reinforced plastic pipe and fixes the glass fiber reinforced plastic pipe;

the locking mechanism (14) comprises a plurality of first air cylinders (141), the first air cylinders (141) are annularly distributed in the through grooves (11), the output ends of the first air cylinders (141) face the circle center of the corresponding through grooves (11), and first locking plates (142) are arranged on the output ends of the first air cylinders;

wherein, the position correcting mechanism (7) comprises:

the connecting column (71) is connected with the second platform body (31) through a lifting cylinder;

the second air cylinders (72), a plurality of second air cylinders (72) are arranged on the outer sides of the connecting columns (71), and the distribution positions of the second air cylinders (72) correspond to the station grooves (32);

and a plurality of clamping mechanical claws (73), wherein the clamping mechanical claws (73) are respectively connected with the output ends of the second air cylinders (72).

2. The corner polishing equipment for glass fiber reinforced plastic processing according to claim 1, wherein a supporting frame (12) is arranged in the polishing box (4), and an annular clamping groove is formed in the side surface of the polishing piece (9);

the inner side of the supporting frame (12) is embedded into the clamping groove, and rolling parts are rotationally connected to the contact parts of the upper surface and the lower surface of the supporting frame (12) and the polishing piece (9).

3. The corner polishing equipment for glass fiber reinforced plastic processing according to claim 1, wherein a communication port (13) is formed in the polishing box (4), and the communication port (13) is arranged on one side of the polishing piece (9).

4. A corner grinding apparatus for glass reinforced plastic processing according to claim 3, wherein a locking mechanism (14) is installed inside each through slot (11).

5. The corner polishing equipment for glass fiber reinforced plastic processing according to claim 1, wherein the workpiece reinforcement module comprises a plurality of limit grooves (41), and the limit grooves (41) are corresponding to the distribution mode of the station grooves (32) and are all positioned on the lower side of the polishing piece (9);

a plurality of storage grooves are formed in the limiting grooves (41), a plurality of elastic supporting structures (42) are mounted in the storage grooves, and the elastic supporting structures (42) are distributed annularly on a horizontal plane.

6. The corner polishing apparatus for glass fiber reinforced plastic processing according to claim 5, wherein the elastic supporting structure (42) comprises a rotating wheel (421), wherein both upper and lower sides of the rotating wheel (421) are provided with contact inclined planes, and an assembling frame (422) is rotatably connected to the outer side of the rotating wheel (421);

each assembly frame (422) is in sliding connection with a corresponding storage groove, and an elastic piece (423) is arranged between the side surface of each assembly frame (422) and the grinding box (4).

7. Corner grinding apparatus for glass fibre reinforced plastic processing according to claim 5, characterized in that the upper side of the lifting frame (33) is fitted with a reinforcing structure (35);

the reinforcing structure (35) is assembled and fixed with the bottom end of the glass fiber reinforced plastic pipe and drives the glass fiber reinforced plastic pipe to rotate.

8. A corner grinding apparatus for glass fibre reinforced plastic processing according to claim 7, characterized in that the reinforcement structure (35) comprises a second steering motor (351) connected to the lifting frame (33), the output of the second steering motor (351) being fitted with a supporting sleeve (352);

the upper surface of the supporting sleeve (352) is provided with a connecting sleeve (353), the side surface of the connecting sleeve (353) is attached to the inner wall of the station groove (32), and the inner wall of the connecting sleeve (353) is provided with a downward inclined guide surface;

the middle part of support sleeve (352) upper surface installs fixed pipe (354), a plurality of third cylinders (355) that are annular distribution are installed in the outside of fixed pipe (354), and each third cylinder (355) installs second locking plate (356) in the one end of fixed pipe (354) dorsad.