CN114193314A

CN114193314A - Longitudinal movement polishing assembly and polishing process based on glass steel tube axial displacement direction

Info

Publication number: CN114193314A
Application number: CN202111440971.4A
Authority: CN
Inventors: 张飞
Original assignee: Nantong Zhenwei Composite Material Co ltd
Current assignee: Nantong Zhenwei Composite Material Co ltd
Priority date: 2021-11-30
Filing date: 2021-11-30
Publication date: 2022-03-18
Anticipated expiration: 2041-11-30
Also published as: CN114193314B

Abstract

The invention discloses a longitudinal movement polishing assembly and a polishing process based on the axial displacement direction of a glass steel tube, and belongs to the technical field of glass steel tube polishing. The polishing machine comprises a workbench, wherein a support frame is fixedly arranged at the top of the workbench, a moving block is slidably connected to the bottom of the support frame, a connecting frame is fixedly arranged at the bottom of the moving block, a length strip is arranged on one side of the connecting frame, a lifting mechanism is arranged on the connecting frame, a polishing mechanism is connected to the lifting mechanism, a sliding groove is formed in the center of the top of the workbench, a sliding plate is slidably connected in the sliding groove, a bottom plate is fixedly arranged at the top of the sliding plate, a connecting ring is fixedly arranged on the bottom plate, a rotating mechanism is connected in the connecting ring, a mounting column is fixedly arranged at the top of the connecting ring, and the mounting column is fixedly arranged at the bottom of the connecting frame; the glass reinforced plastic pipe can be automatically driven to rotate by the arranged rotating mechanism, so that the operation is simple, the labor intensity of workers is reduced, and the working efficiency is improved.

Description

Longitudinal movement polishing assembly and polishing process based on glass steel tube axial displacement direction

Technical Field

The invention relates to the technical field of glass steel tube polishing, in particular to a longitudinal moving polishing assembly based on the axial displacement direction of a glass steel tube and a polishing process.

Background

The glass fiber reinforced plastic pipe is also called a glass fiber winding sand inclusion pipe (RPM pipe); the glass fiber and the product thereof are mainly used as reinforcing materials, unsaturated polyester resin, epoxy resin and the like which are high molecular components are used as basic materials, and inorganic nonmetal particle materials such as quartz sand, calcium carbonate and the like are used as filling materials; the standard effective length of the pipe is 6m and 12m, and the manufacturing method comprises three processes of fixed-length winding, centrifugal casting and continuous winding; the classification can be carried out according to the process method, the pressure grade PN and the rigidity grade SN of the product.

In the process of polishing the glass reinforced plastic pipe, after polishing of one side of the glass reinforced plastic pipe is completed, the glass reinforced plastic pipe needs to be rotated, the other side of the glass reinforced plastic pipe needs to be polished continuously, and when the glass reinforced plastic pipe is rotated, a worker usually turns over the glass reinforced plastic pipe manually, so that the labor intensity of the worker is increased, the speed is low, and the working efficiency is easily influenced.

Disclosure of Invention

The invention aims to provide a longitudinal movement polishing assembly and a polishing process based on the axial displacement direction of a glass steel tube, which can automatically drive the glass steel tube to rotate, not only is the operation simple, but also the labor intensity of workers is reduced, and therefore the working efficiency is improved.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a longitudinal movement polishing subassembly based on FRP pipe axial displacement direction, includes the workstation, workstation top fixed mounting has the support frame, bottom sliding connection has the movable block in the support frame, movable block bottom fixed mounting has the link, link one side is provided with the length strip, install elevating system on the link, elevating system is last to be connected with polishing mechanism, workstation top center department has seted up the spout, sliding connection has the slide in the spout, slide top fixed mounting has the bottom plate, bottom plate fixed mounting has the go-between, the go-between in-connection has rotary mechanism, go-between top fixed mounting has the erection column, erection column fixed mounting is in the link bottom.

As a further scheme of the invention: rotary mechanism includes the grip ring, grip ring sliding connection is inside the go-between, the equal sliding connection in grip ring both ends has two grip blocks with the axial, the relative one side of grip block all rotates and is connected with the centre gripping roller, one of them grip block lateral wall in grip ring both sides all rotates and is connected with the threaded rod, equal threaded connection has the mounting panel on the threaded rod, the equal fixed mounting of mounting panel is on the grip block lateral wall, the equal fixed mounting in one end that the grip block was kept away from to the threaded rod has first knob.

As a further scheme of the invention: two rack plates are connected to the upper end and the lower end of the clamping plate, one end of each rack plate is fixedly connected with one of the clamping plates, the other end of each rack plate is connected with the other clamping plate in a sliding mode, every two rack plates are connected with a transmission gear in a meshed mode, a fixing column is fixedly mounted on the transmission gear, and the fixing column is rotatably connected to the side wall of the clamping ring.

As a further scheme of the invention: the equal fixed mounting in grip ring both sides has annular rack, grip ring bottom both sides all are connected with the linkage gear, the grip ring passes through annular rack and linkage gear engagement and connects, fixedly connected with pivot between the linkage gear, the pivot runs through the go-between and rotates with the go-between to be connected, pivot one end fixed mounting has the handle.

As a further scheme of the invention: elevating system includes the second knob, fixed mounting has the fixed axle on the second knob, the fixed axle runs through the link and rotates to be connected on the link inside wall, connecting thread has all been seted up to the fixed axle both sides, the fixed axle both sides all are connected with the slider, the slider all is on the fixed axle through connecting thread sliding connection, the equal fixed mounting in slider both ends has first cylinder, first cylinder one end fixed mounting has the pointer, pointer and length strip are corresponding.

As a further scheme of the invention: all rotate on the first cylinder and be connected with the connecting plate, per two all rotate between the connecting plate and be connected with the second cylinder, fixed mounting has the connecting block between the second cylinder, connecting block bottom fixed mounting has the slide bar, slide bar through connection frame and link sliding connection.

As a further scheme of the invention: the polishing mechanism comprises a polishing motor, a mounting frame is fixedly mounted on the polishing motor, the mounting frame is fixedly mounted at the bottom of the sliding rod, a connecting shaft is fixedly connected to the output end of the polishing motor, a linkage plate is fixedly mounted at the bottom of the connecting shaft, and one end, far away from the connecting shaft, of the linkage plate is rotatably connected with a center column.

As a further scheme of the invention: the polishing device is characterized in that a pulley is fixedly mounted at the bottom of the center column, a frame is connected to the bottom of the pulley, a groove is formed in the top of the frame, the pulley is connected to the top of the frame in a sliding mode through the groove, and a polishing plate is fixedly mounted at the bottom of the frame.

A longitudinal movement polishing process based on the axial displacement direction of a glass steel tube comprises the following steps:

s1, placing the glass fiber reinforced plastic pipe in a clamping ring, rotating first knobs at two sides of the clamping ring to rotate a threaded rod on the first knob, wherein the threaded rod is in threaded connection with a mounting plate to slide on the mounting plate, so that a clamping plate arranged at one side of the threaded rod slides on the side wall of the clamping ring, and driving the clamping plate at the other side to slide on the clamping ring to be close to the clamping ring through a transmission gear in meshed connection between a rack plate and a rack plate connected between the clamping plates, so that a clamping roller at one side opposite to the clamping plate clamps and fixes the glass fiber reinforced plastic pipe in the clamping ring;

s2: the second knob is rotated to drive the fixed shaft to rotate on the connecting frame, the connecting threads arranged on two sides of the fixed shaft drive the sliding blocks on two sides of the fixed shaft to slide on the fixed shaft to be close to each other, so that the first cylinders on two sides of the sliding blocks move horizontally, and when the first cylinders move horizontally, the connecting block is driven by the connecting plate and the second cylinder to move, so that the sliding rod at the bottom of the connecting block slides downwards on the connecting frame, and the polishing mechanism is driven to contact the surface of the glass steel tube;

s3: when the polishing disc contacts the surface of the glass steel tube, the polishing motor is started to drive the connecting shaft to rotate, so that the linkage plate at the bottom of the connecting shaft rotates, the central column on the linkage plate is driven to rotate around the connecting shaft, and when the central column rotates, the pulley at the bottom is driven to slide in a groove at the top of the frame in a reciprocating manner, so that the frame moves horizontally in a reciprocating manner, and the polishing disc at the bottom of the frame is driven to reciprocate on the surface of the glass steel tube to polish the glass steel tube;

s4: after polishing of one side of the glass reinforced plastic pipe is completed, the rotating shaft is driven to rotate at the lower end of the connecting ring through the rotating handle, the linkage gears on two sides of the rotating shaft rotate, and the linkage gears are meshed and connected with the clamping ring through the annular racks arranged on two sides of the clamping ring to drive the clamping ring to rotate, so that the glass reinforced plastic pipe in the clamping ring is rotated.

The invention has the beneficial effects that: when the device is used, the glass fiber reinforced plastic pipe is placed in the clamping ring, the first knobs at two sides of the clamping ring are rotated to rotate the threaded rod on the first knob, the threaded rod is connected with the mounting plate through threads to slide on the mounting plate, so that the clamping plate arranged at one side of the threaded rod slides on the side wall of the clamping ring, the clamping plate at the other side is driven to slide on the clamping ring to be close to the clamping plate through the transmission gear connected between the rack plate and the rack plate connected between the clamping plates in a meshing way, the glass fiber reinforced plastic pipe in the clamping ring is clamped and fixed by the clamping roller at the opposite side of the clamping plate, after one side of the glass fiber reinforced plastic pipe is polished, the rotating shaft is driven to rotate at the lower end part of the connecting ring through the rotating handle, the linkage gears at two sides of the rotating shaft rotate, the linkage gears are connected with the clamping ring through the annular racks arranged at two sides of the clamping ring in a meshing way to drive the clamping ring to rotate, the glass reinforced plastic pipe clamping device has the advantages that the glass reinforced plastic pipe in the clamping ring can be automatically driven to rotate through the arranged rotating mechanism, so that the operation is simple, the labor intensity of workers is reduced, and the working efficiency is improved;

according to the lifting mechanism, the second knob is rotated to drive the fixed shaft to rotate on the connecting frame, the connecting threads arranged on two sides of the fixed shaft drive the sliding blocks on two sides of the fixed shaft to slide and approach to each other on the fixed shaft, so that the first cylinders on two sides of the sliding blocks move horizontally, when the first cylinders move horizontally, the connecting plates and the second cylinders drive the connecting blocks to move, the sliding rods at the bottoms of the connecting blocks slide downwards on the connecting frame, and therefore the polishing mechanism is driven to contact the surface of the glass steel tube;

the polishing mechanism drives the connecting shaft to rotate by opening the polishing motor, so that the linkage plate at the bottom of the connecting shaft rotates, the central column on the linkage plate is driven to rotate around the connecting shaft, and when the central column rotates, the pulley at the bottom is driven to slide in a groove at the top of the frame in a reciprocating manner, so that the frame horizontally reciprocates, and the polishing disc at the bottom of the frame is driven to reciprocate on the surface of the glass steel tube to polish the glass steel tube.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of a rotating mechanism according to the present invention;

FIG. 3 is a schematic structural diagram of the lifting mechanism of the present invention;

FIG. 4 is a schematic view of the polishing mechanism of the present invention;

fig. 5 is a partial structural schematic diagram of the present invention.

The reference numbers in the figures illustrate: 1. a work table; 2. a support frame; 3. a chute; 4. a base plate; 5. a slide plate; 6. a connecting ring; 7. a rotation mechanism; 701. a clamp ring; 702. an annular rack; 703. a clamping plate; 704. a grip roller; 705. a rack plate; 706. a transmission gear; 707. fixing a column; 708. a threaded rod; 709. a first knob; 710. mounting a plate; 711. a linkage gear; 712. a rotating shaft; 713. a handle; 8. a lifting mechanism; 801. a second knob; 802. a fixed shaft; 803. connecting threads; 804. a slider; 805. a first cylinder; 806. a connecting plate; 807. a second cylinder; 808. connecting blocks; 809. a slide bar; 810. a pointer; 9. a polishing mechanism; 901. polishing the motor; 902. a mounting frame; 903. a frame; 904. a groove; 905. a pulley; 906. a central column; 907. a linkage plate; 908. polishing the plate; 909. a connecting shaft; 10. a moving block; 11. a connecting frame; 12. a length bar; 13. and (6) mounting the column.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; rather than all embodiments. Based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

Example (b):

as shown in fig. 1-2, a longitudinal movement polishing assembly based on the axial displacement direction of a glass fiber reinforced plastic tube comprises a worktable 1, a supporting frame 2 is fixedly arranged at the top of the workbench 1, a moving block 10 is connected at the bottom in the supporting frame 2 in a sliding way, the bottom of the moving block 10 is fixedly provided with a connecting frame 11, one side of the connecting frame 11 is provided with a length bar 12, the connecting frame 11 is provided with a lifting mechanism 8, the lifting mechanism 8 is connected with a polishing mechanism 9, a sliding chute 3 is arranged at the center of the top of the workbench 1, a sliding plate 5 is connected in the sliding chute 3 in a sliding way, the top of the sliding plate 5 is fixedly provided with a bottom plate 4, the bottom plate 4 is fixedly provided with a connecting ring 6, the rotating mechanism 7 is connected in the connecting ring 6, the top of the connecting ring 6 is fixedly provided with a mounting column 13, and the mounting column 13 is fixedly arranged at the bottom of the connecting frame 11;

the rotating mechanism 7 comprises a clamping ring 701, the clamping ring 701 is connected inside the connecting ring 6 in a sliding manner, two ends of the clamping ring 701 are connected with two clamping plates 703 in the same axial direction in a sliding manner, one opposite side of each clamping plate 703 is connected with a clamping roller 704 in a rotating manner, the side wall of one clamping plate 703 on two sides of the clamping ring 701 is connected with a threaded rod 708 in a rotating manner, the threaded rods 708 are connected with mounting plates 710 in a threaded manner, the mounting plates 710 are fixedly mounted on the side wall of the clamping ring 701, one end, far away from the clamping plate 703, of each threaded rod 708 is fixedly provided with a first knob 709, and when the threaded rods 708 are driven to rotate by rotating the first knobs 709, the single clamping plate 703 can be driven to slide on the clamping ring 701 through threaded connection of the threaded rods 708 and the mounting plates 710;

two rack plates 705 are connected to the upper end and the lower end of each clamping plate 703, one end of each rack plate 705 is fixedly connected with one clamping plate 703, the other end of each rack plate 705 is connected with the other clamping plate 703 in a sliding manner, a transmission gear 706 is meshed between every two rack plates 705, fixing columns 707 are fixedly mounted on the transmission gears 706, the fixing columns 707 are rotatably connected to the side wall of the clamping ring 701, and when one clamping plate 703 slides on the clamping ring 701, the other clamping plate 703 can be driven to slide on the clamping ring 701 through the transmission gear 706 connected between the rack plates 705 and the rack plates 703 and connected between the clamping plates 703;

the equal fixed mounting in grip ring 701 both sides has annular rack 702, grip ring 701 bottom both sides all are connected with link gear 711, grip ring 701 passes through annular rack 702 and link gear 711 meshing connection, fixedly connected with pivot 712 between the link gear 711, pivot 712 runs through go-between 6 and is connected with go-between 6 rotation, pivot 712 one end fixed mounting has handle 713, when turning handle 713 drives for pivot 712 is rotatory, can make the link gear 711 of pivot 712 both sides rotate simultaneously, link gear 711 is connected through meshing with annular rack 702 and is driven grip ring 701 and rotate in go-between 6.

The working principle of the invention is as follows: when the device is used, the glass fiber reinforced plastic tube is placed in the clamping ring 701, the first knobs 709 at both sides of the clamping ring 701 are rotated to rotate the threaded rods 708 on the first knobs 709, the threaded rods 708 are screwed on the mounting plate 710 to slide, so that the clamping plates 703 mounted at one side of the threaded rods 708 slide on the side walls of the clamping ring 701, the driving gears 706 engaged and connected between the rack plates 705 and 705 connected between the clamping plates 703 drive the clamping plates 703 at the other side to slide and approach on the clamping ring 701, so that the clamping rollers 704 at the opposite side of the clamping plates 703 clamp and fix the glass fiber reinforced plastic tube in the clamping ring 701, after one side of the glass fiber reinforced plastic tube is polished, the rotating shaft 712 is driven to rotate at the lower end part of the connecting ring 6 by rotating the handle 713, the linkage gears 711 is rotated by the annular racks 702 mounted at both sides of the clamping ring 701 and 701, the glass fiber reinforced plastic pipe clamping device drives the clamping ring 701 to rotate, so that the glass fiber reinforced plastic pipe in the clamping ring 701 can be rotated, the glass fiber reinforced plastic pipe can be automatically driven to rotate through the arranged rotating mechanism 7, the operation is simple, the labor intensity of workers is reduced, and the working efficiency is improved.

As shown in fig. 3, the lifting mechanism 8 includes a second knob 801, a fixing shaft 802 is fixedly installed on the second knob 801, the fixed shaft 802 penetrates through the connecting frame 11 and is rotatably connected to the inner side wall of the connecting frame 11, both sides of the fixed shaft 802 are provided with connecting threads 803, both sides of the fixed shaft 802 are connected with sliding blocks 804, the sliding blocks 804 are slidably connected to the fixed shaft 802 through connecting threads 803, first cylinders 805 are fixedly installed at both ends of the sliding blocks 804, one end of the first cylinder 805 is fixedly provided with a pointer 810, the pointer 810 corresponds to the length bar 12, the first cylinders 805 are rotatably connected with connecting plates 806, a second cylinder 807 is rotatably connected between every two connecting plates 806, a connecting block 808 is fixedly installed between the second cylinders 807, a sliding rod 809 is fixedly installed at the bottom of the connecting block 808, and the sliding rod 809 penetrates through the connecting frame 11 and is in sliding connection with the connecting frame 11.

The working principle is as follows: according to the invention, the lifting mechanism 8 drives the fixed shaft 802 to rotate on the connecting frame 11 by rotating the second knob 801, the sliding blocks 804 on two sides of the fixed shaft 802 are driven to slide on the fixed shaft 802 to approach each other by the connecting threads 803 arranged on two sides of the fixed shaft 802, so that the first cylinders 805 on two sides of the sliding blocks 804 move horizontally, when the first cylinders move horizontally, the connecting blocks 808 are driven to move by the connecting plates 806 and the second cylinders 807, the sliding rods 809 at the bottoms of the connecting blocks 808 slide downwards on the connecting frame 11, so that the polishing mechanism 9 is driven to contact the surface of the glass steel tube, and because the pointers 810 are arranged on one side of the first cylinders 805 and correspond to the length bars 12, when the first cylinders 805 move, the pointers 810 are driven to move, and the polishing thickness of the glass steel tube by the polishing mechanism 9 can be accurately controlled by the length bars 12 pointed by the pointers 810.

As shown in fig. 4-5, the polishing mechanism 9 includes a polishing motor 901, a mounting bracket 902 is fixedly mounted on the polishing motor 901, the mounting bracket 902 is fixedly mounted at the bottom of a sliding rod 809, an output end of the polishing motor 901 is fixedly connected with a connecting shaft 909, a linkage plate 907 is fixedly mounted at the bottom of the connecting shaft 909, one end of the linkage plate 907, which is far away from the connecting shaft 909, is rotatably connected with a central column 906, a pulley 905 is fixedly mounted at the bottom of the central column 906, a frame 903 is connected to the bottom of the pulley 905, a groove 904 is formed in the top of the frame 903, the pulley 905 is slidably connected to the top of the frame 903 through the groove 904, and a polishing plate 908 is fixedly mounted at the bottom of the frame 903.

The working principle is as follows: the polishing mechanism 9 of the invention drives the connecting shaft 909 to rotate by opening the polishing motor 901, so that the linkage plate 907 at the bottom of the connecting shaft 909 rotates, the central column 906 on the linkage plate 907 is driven to rotate around the connecting shaft 909, when the central column 906 rotates, the pulley 905 at the bottom is driven to slide in the groove 904 at the top of the frame 903 in a reciprocating manner, the frame 903 horizontally reciprocates, and the polishing disc at the bottom of the frame 903 is driven to reciprocate on the surface of the glass steel tube, so as to polish the glass steel tube.

As shown in fig. 1 to 5, a longitudinal movement polishing process based on the axial displacement direction of a glass fiber reinforced plastic tube comprises the following steps:

s1, placing the glass fiber reinforced plastic tube in the clamping ring 701, rotating the first knobs 709 at two sides of the clamping ring 701 to rotate the threaded rods 708 on the first knobs 709, enabling the threaded rods 708 to be in threaded connection with the mounting plate 710 to slide, so that the clamping plates 703 arranged at one side of the threaded rods 708 slide on the side walls of the clamping ring 701, and driving the clamping plates 703 at the other side to slide close to the clamping ring 701 through the transmission gears 706 meshed and connected between the rack plates 705 and the rack plates 705 connected between the clamping plates 703 to enable the clamping rollers 704 at the opposite side of the clamping plates 703 to clamp and fix the glass fiber reinforced plastic tube in the clamping ring 701;

s2: the second knob 801 is rotated to drive the fixed shaft 802 to rotate on the connecting frame 11, the connecting threads 803 arranged on two sides of the fixed shaft 802 drive the sliding blocks 804 on two sides of the fixed shaft 802 to slide on the fixed shaft 802 to approach each other, so that the first cylinders 805 on two sides of the sliding blocks 804 horizontally move, and when the first cylinders 805 horizontally move, the connecting plate 806 and the second cylinders 807 drive the connecting block 808 to move, so that the sliding rod 809 at the bottom of the connecting block 808 downwards slides on the connecting frame 11, and the polishing mechanism 9 is driven to contact the surface of the glass steel tube;

s3: when the polishing disc contacts the surface of the glass steel tube, a polishing motor 901 is turned on to drive a connecting shaft 909 to rotate, so that a linkage plate 907 at the bottom of the connecting shaft 909 rotates, a central column 906 on the linkage plate 907 is driven to rotate around the connecting shaft 909, and when the central column 906 rotates, a pulley 905 at the bottom is driven to slide in a reciprocating manner in a groove 904 at the top of a frame 903, so that the frame 903 horizontally reciprocates, and the polishing disc at the bottom of the frame 903 is driven to reciprocate on the surface of the glass steel tube to polish the glass steel tube;

s4: after one side of the glass fiber reinforced plastic pipe is polished, the rotating handle 713 drives the rotating shaft 712 to rotate at the lower end of the connecting ring 6, the linkage gears 711 at two sides of the rotating shaft 712 rotate, and the linkage gears 711 are meshed and connected with the clamping ring 701 through the annular racks 702 arranged at two sides of the clamping ring 701 to drive the clamping ring 701 to rotate, so that the glass fiber reinforced plastic pipe in the clamping ring 701 rotates.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention. Furthermore, the word "comprising" does not exclude other elements or steps, and the word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. Several elements of the plurality recited in the product claims may be implemented by one element in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims

1. The utility model provides a longitudinal movement polishing subassembly based on FRP pipe axial displacement direction which characterized in that: comprises a workbench (1), a support frame (2) is fixedly mounted at the top of the workbench (1), a moving block (10) is slidably connected to the bottom of the support frame (2), a connecting frame (11) is fixedly mounted at the bottom of the moving block (10), a length strip (12) is arranged on one side of the connecting frame (11), an elevating mechanism (8) is mounted on the connecting frame (11), a polishing mechanism (9) is connected to the elevating mechanism (8), a sliding groove (3) is formed in the center of the top of the workbench (1), a sliding plate (5) is slidably connected to the sliding groove (3), a bottom plate (4) is fixedly mounted at the top of the sliding plate (5), a connecting ring (6) is fixedly mounted on the bottom plate (4), a rotating mechanism (7) is connected to the connecting ring (6), and a mounting column (13) is fixedly mounted at the top of the connecting ring (6), the mounting column (13) is fixedly mounted at the bottom of the connecting frame (11).

2. The longitudinal movement polishing component based on the axial displacement direction of the glass reinforced plastic pipe as claimed in claim 1, wherein: rotary mechanism (7) include grip ring (701), inside grip ring (701) sliding connection was in go-between (6), equal sliding connection in grip ring (701) both ends has two grip blocks (703) with the axial, grip block (703) one side relatively all rotates and is connected with grip roller (704), one of them grip block (703) lateral wall in grip ring (701) both sides all rotates and is connected with threaded rod (708), equal threaded connection has mounting panel (710) on threaded rod (708), the equal fixed mounting of mounting panel (710) is on grip ring (701) lateral wall, the equal fixed mounting in one end that grip block (703) was kept away from in threaded rod (708 has first knob (709).

3. The longitudinal movement polishing component based on the axial displacement direction of the glass reinforced plastic pipe as claimed in claim 2, wherein: two rack plates (705) are connected to the upper end and the lower end of the space between the clamping plates (703), one end of each rack plate (705) is fixedly connected with one of the clamping plates (703), the other end of each rack plate (705) is slidably connected with the other clamping plate (703), a transmission gear (706) is meshed and connected between every two rack plates (705), fixed columns (707) are fixedly mounted on the transmission gear (706), and the fixed columns (707) are rotatably connected to the side wall of the clamping ring (701).

4. The longitudinal movement polishing component based on the axial displacement direction of the glass reinforced plastic pipe as claimed in claim 3, wherein: the utility model discloses a clamp ring (701) and clamping ring (701) all fixed mounting have annular rack (702) in the both sides, clamping ring (701) bottom both sides all are connected with linkage gear (711), clamping ring (701) are connected through annular rack (702) and linkage gear (711) meshing, fixedly connected with pivot (712) between linkage gear (711), pivot (712) run through go-between (6) and rotate with go-between (6) and be connected, pivot (712) one end fixed mounting has handle (713).

5. The longitudinal movement polishing component based on the axial displacement direction of the glass reinforced plastic pipe as claimed in claim 1, wherein: elevating system (8) include second knob (801), fixed mounting has fixed axle (802) on second knob (801), fixed axle (802) run through link (11) and rotate and connect on link (11) inside wall, connecting thread (803) have all been seted up to fixed axle (802) both sides, fixed axle (802) both sides all are connected with slider (804), slider (804) all through connecting thread (803) sliding connection on fixed axle (802), the equal fixed mounting in slider (804) both ends has first cylinder (805), first cylinder (805) one end fixed mounting has pointer (810), pointer (810) and length strip (12) are corresponding.

6. The longitudinal movement polishing component based on the axial displacement direction of the glass reinforced plastic pipe as claimed in claim 5, wherein: all rotate on first cylinder (805) and be connected with connecting plate (806), per two all rotate between connecting plate (806) and be connected with second cylinder (807), fixed mounting has connecting block (808) between second cylinder (807), connecting block (808) bottom fixed mounting has slide bar (809), slide bar (809) run through link (11) and with link (11) sliding connection.

7. The longitudinal movement polishing component based on the axial displacement direction of the glass reinforced plastic pipe as claimed in claim 1, wherein: the polishing mechanism (9) comprises a polishing motor (901), a mounting rack (902) is fixedly mounted on the polishing motor (901), the mounting rack (902) is fixedly mounted at the bottom of a sliding rod (809), a connecting shaft (909) is fixedly connected to the output end of the polishing motor (901), a linkage plate (907) is fixedly mounted at the bottom of the connecting shaft (909), and one end, far away from the connecting shaft (909), of the linkage plate (907) is rotatably connected with a central column (906).

8. The longitudinal movement polishing assembly based on the axial displacement direction of the glass reinforced plastic pipe as claimed in claim 7, wherein: center post (906) bottom fixed mounting has pulley (905), pulley (905) bottom is connected with frame (903), frame (903) top is seted up fluted (904), pulley (905) pass through fluted (904) sliding connection at frame (903) top, frame (903) bottom fixed mounting has polishing board (908).

9. A longitudinal movement polishing process based on the axial displacement direction of a glass steel tube is characterized in that: the polishing process comprises the following steps:

s1, placing the glass fiber reinforced plastic pipe in a clamping ring (701), rotating first knobs (709) on two sides of the clamping ring (701), enabling a threaded rod (708) on the first knobs (709) to rotate, enabling the threaded rod (708) to be in threaded connection with a mounting plate (710) to slide on the mounting plate (710), enabling a clamping plate (703) mounted on one side of the threaded rod (708) to slide on the side wall of the clamping ring (701), driving a clamping plate (703) on the other side to slide on the clamping ring (701) to be close through a transmission gear (706) in meshed connection between a rack plate (705) and a rack plate (705) connected between the clamping plates (703), and enabling clamping rollers (704) on the opposite side of the clamping plate (703) to clamp and fix the glass fiber reinforced plastic pipe in the clamping ring (701);

s2: the second knob (801) is rotated to drive the fixed shaft (802) to rotate on the connecting frame (11), the connecting threads (803) arranged on two sides of the fixed shaft (802) drive the sliding blocks (804) on two sides of the fixed shaft (802) to slide and approach each other on the fixed shaft (802), so that the first cylinders (805) on two sides of the sliding blocks (804) move horizontally, when the first cylinders (805) move horizontally, the connecting block (808) is driven to move through the connecting plate (806) and the second cylinder (807), the sliding rod (809) at the bottom of the connecting block (808) slides downwards on the connecting frame (11), and the polishing mechanism (9) is driven to contact the surface of the glass steel tube;

s3: when the polishing disc contacts the surface of the glass steel tube, a polishing motor (901) is started to drive a connecting shaft (909) to rotate, so that a linkage plate (907) at the bottom of the connecting shaft (909) rotates, a central column (906) on the linkage plate (907) is driven to rotate around the connecting shaft (909), and when the central column (906) rotates, a pulley (905) at the bottom is driven to slide in a groove (904) at the top of a frame (903) in a reciprocating mode, so that the frame (903) horizontally reciprocates, and the polishing disc at the bottom of the frame (903) is driven to reciprocate on the surface of the glass steel tube to polish the glass steel tube;

s4: after one side of the glass fiber reinforced plastic pipe is polished, the rotating shaft (712) is driven to rotate at the lower end of the connecting ring (6) through the rotating handle (713), the linkage gears (711) on two sides of the rotating shaft (712) rotate, the linkage gears (711) are meshed and connected with the clamping ring (701) through the annular racks (702) arranged on two sides of the clamping ring (701), the clamping ring (701) is driven to rotate, and therefore the glass fiber reinforced plastic pipe in the clamping ring (701) is rotated.