CN116872007A - Polishing equipment for glass fiber pipe production - Google Patents

Abstract

The invention discloses polishing equipment for glass fiber tube production, which belongs to the technical field related to glass fiber tube production and processing, and comprises a frame body, an installation table, left and right sliding parts and a transverse plate, wherein the glass fiber tube is movably installed on the transverse plate; the side end of the glass fiber tube is provided with polishing equipment, which comprises an inner polishing head and an outer polishing head, and the rotation directions of the inner polishing head and the outer polishing head are opposite; the inner polishing head is connected with a rotating shaft through a supporting rod, and blades are arranged on the rotating shaft; the outer polishing head is arranged on the rotating cylinder, and blades are arranged in the rotating cylinder; the blades on the rotating shaft and the blades in the rotating cylinder are arranged in a staggered way; the rotary cylinder is provided with a chip leakage opening, the rotary cylinder is rotatably arranged on the mounting seat, and the mounting seat is communicated with the chip collecting box through the chip leakage hopper. The inner and outer polishing heads can simultaneously polish the two sides of the glass fiber tube and the rotation directions of the inner and outer polishing heads are opposite, so that the polishing efficiency is improved, and the glass fiber tube is prevented from being distorted, and the product quality is improved.

Description

Polishing equipment for glass fiber pipe production

Technical Field

The invention belongs to the technical field related to glass fiber tube production and processing, and particularly relates to polishing equipment for glass fiber tube production.

Background

The glass fiber pipe is a light, high-strength and corrosion-resistant pipeline made of glass fiber and resin composite materials, and is widely applied to the fields of petroleum, chemical industry, electric power, agriculture, municipal administration and the like. The production process of the glass fiber tube mainly comprises the steps of molding, curing, cutting, polishing and the like.

When the glass fiber tube is used, the length is generally required, so that the glass fiber tube needs to be cut and separated for use after being produced, burrs are easily generated on the inner wall and the outer wall of the cut end face of the glass fiber tube, and the cut end face of the glass fiber tube needs to be polished; polishing is an important procedure in the production of glass fiber tubes, not only removes the defects of burrs, bulges and the like on the surfaces of the pipelines, but also improves the smoothness and flatness of the pipelines and ensures the quality and performance of the pipelines. The polishing equipment is mechanical equipment for polishing glass fiber pipes, and at present, the common glass fiber pipe polishing equipment on the market has the following types:

manual polishing equipment: the hand-held pneumatic or electric sander is used for polishing the glass fiber tube, so that the operation is simple, the cost is low, the efficiency is low, the quality is unstable, and the personnel fatigue and injury are easily caused.

Automatic polishing equipment: the glass fiber tube is polished by using the fixed or movable polishing machine, so that the glass fiber tube polishing machine is convenient to operate, high in efficiency and good in quality, and still has poor adaptability, and the position and angle of the polishing head are manually adjusted. The glass fiber tube is polished by the polishing head controlled by the numerical control technology, the operation is simple and convenient, the efficiency is high, but the glass fiber tube is divided when one end of the glass fiber tube is polished inside and outside, and the polishing head is polished partially at the same time, but the rotation directions of the inner polishing head and the outer polishing head are the same, so that the quality of a product is influenced, the cost is high, and the maintenance is complex.

Therefore, the novel glass fiber tube polishing equipment is developed, the polishing efficiency and quality can be improved, and the cost can be reduced.

Disclosure of Invention

Aiming at the problems, the invention provides polishing equipment for glass fiber tube production, which is used for solving the technical problems of low efficiency, low quality and high cost of the polishing equipment in the prior art.

In order to achieve the above purpose, the invention adopts the following technical scheme:

a polishing device for glass fiber tube production comprises a frame body, wherein an installation table is arranged on the frame body, a left sliding piece and a right sliding piece are arranged on the installation table, a transverse plate is arranged on the left sliding piece and the right sliding piece, and the glass fiber tube is movably installed on the transverse plate; the side end of the glass fiber tube is provided with polishing equipment, which comprises an inner polishing head and an outer polishing head, and the rotation directions of the inner polishing head and the outer polishing head are opposite; the inner polishing head is connected with a rotating shaft through a supporting rod, and blades are arranged on the rotating shaft; the outer polishing head is movably arranged on the rotating cylinder, and a plurality of blades are arranged in the rotating cylinder; the blades on the rotating shaft and the blades in the rotating cylinder are arranged in a staggered way; the rotary cylinder is provided with a plurality of chip leakage openings, the rotary cylinder is rotatably arranged on the mounting seat, and the mounting seat is communicated with the chip collecting box through the chip leakage hopper.

Compared with the prior art, the invention has the beneficial effects that: the inner and outer polishing heads polish the inner and outer surfaces of the glass fiber tube, can polish the two surfaces of the glass fiber tube simultaneously, and have opposite rotation directions, so that the polishing efficiency is improved, and the glass fiber tube is prevented from being distorted, and the product quality is improved.

The invention adopts the staggered arrangement of the blades on the rotating shaft and the blades in the rotating cylinder, can timely discharge the dust powder and dust generated in the polishing process and suck the dust powder and dust into the dust collecting box, and reduces environmental pollution and equipment loss.

As a further improvement of the scheme, one end of the rotating shaft is connected with the output end of the motor, a first gear is arranged on the rotating shaft and is in meshed connection with a second gear, and the second gear is in meshed connection with the inner side of the rotating cylinder; the second gear is arranged on the fixed plate through the bearing seat.

The improved technical effects are as follows: the motor drives the first gear, and the first gear is meshed with the second gear to realize opposite rotation directions of the inner grinding head and the outer grinding head, so that the structure is simple, the space is saved, and the cost and the weight are reduced; the bearing seat and the fixed plate are utilized to support the second gear, so that friction force and abrasion are reduced, transmission efficiency is improved, and service life is prolonged.

As a further improvement of the above, the second gear and one side of the second gear are provided with a partition plate.

The improved technical effects are as follows: the arrangement of the partition plate prevents the cuttings from being blown to the vicinity of the first gear and the second gear, and influences the service life.

As a further improvement of the scheme, the rotating cylinder is connected with the mounting seat through a bearing, and the mounting seat is arranged on the frame body through a bracket.

The improved technical effects are as follows: the arrangement of the bearing improves the smoothness of the rotation of the rotating cylinder.

As a further improvement of the scheme, the chip collecting box comprises a box body, wherein the upper end of the box body is provided with a chip inlet, the side end of the box body is provided with a movable door, and the movable door is provided with a handle; the inside slope of box is provided with album bits frame, and the middle part of album bits frame sets up album bits cloth, and album bits cloth's below is provided with the through-hole, and the through-hole sets up in the bottom of box.

The improved technical effects are as follows: the chip is guided into the chip collecting box through the chip inlet, so that the chip is prevented from being scattered on equipment or the ground, and the working environment and the safety are prevented from being influenced; the chip collecting box is conveniently opened and closed through the movable door and the handle, so that chips can be conveniently cleaned and poured out regularly, and the strength and time of manual operation are reduced; the chip is collected through the chip collecting cloth on the chip collecting frame, so that the chip collecting frame is convenient for later unified treatment; the chip collecting cloth and the through holes arranged below ensure that the gas flows smoothly.

As a further improvement of the scheme, the cleaning brush component is movably arranged in the chip collecting box and comprises a brush body, the brush body is arranged at the bottom end of the fixed disc, a telescopic rod is arranged on one side of the fixed disc and is inserted into one side of the guide rod and one side of the box, and a pull ring is arranged at the tail end of the telescopic rod.

The improved technical effects are as follows: the chip collecting plate is pushed downwards by the brush body to facilitate uniform collection, so that the time and effort are saved.

As a further improvement of the above, the baffle comprises a transverse section and an inclined section, the transverse section being connected to the rotating cylinder by means of screws.

The improved technical effects are as follows: the arrangement of the baffle can prevent the cuttings from splashing outwards, so that the safety of operators is protected, and the workshop environment is also protected.

As a further improvement of the scheme, the outer polishing head is arranged in the step hole of the mounting seat through the mounting block.

The improved technical effects are as follows: the installation and the replacement of the external polishing head are convenient.

As a further improvement of the scheme, the left and right sliding parts are double-rod air cylinders, the double-rod air cylinders are arranged on the mounting table, the upper ends of the double-rod air cylinders are provided with transverse plates, the transverse plates are provided with fixing seats, and bolts are movably inserted in the fixing seats.

The improved technical effects are as follows: the left and right sliding parts are double-rod air cylinders, so that the glass fiber tube can move left and right smoothly, and the glass fiber tube can be polished by the coordination of the left and right sliding parts and polishing equipment, so that the efficiency is improved. The glass fiber tube is convenient to be placed and detached quickly by the fixing seat and the bolts.

As a further improvement of the scheme, the bottom end of the frame body is provided with a base.

The improved technical effects are as follows: the direct contact between the frame body and the ground is reduced through the base, so that the frame body is prevented from being affected by humidity or corrosion.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of a fiberglass tube mounting and sanding assembly in accordance with the present invention.

Fig. 3 is a side view of a fiberglass tube installation in accordance with the present invention.

Fig. 4 is a schematic structural view of the polishing apparatus of the present invention.

Fig. 5 is an enlarged schematic view at a in fig. 4.

Fig. 6 is a side view of the connection of the inner sanding head with the support rod and the rotation shaft in the present invention.

FIG. 7 is a schematic illustration of the connection of the dust collection bin to the cleaning brush assembly of the present invention.

In the figure: 1. a frame body; 2. a mounting table; 3. a double-rod cylinder; 4. a fixing seat; 5. a glass fiber tube; 6. a bolt; 7. a support rod; 8. an inner polishing head; 9. a baffle; 901. a transverse section; 902. an inclined section; 10. an outer polishing head; 11. a bearing; 12. a rotating cylinder; 13. a mounting base; 14. a rotation shaft; 15. a partition plate; 16. a second gear; 17. a bearing seat; 18. a fixing plate; 19. a motor; 20. a bracket; 21. a cleaning brush assembly; 2101. a brush body; 2102. a fixed plate; 2103. a telescopic rod; 2104. a guide rod; 2105. a pull ring; 22. a first gear; 23. a chip leakage bucket; 24. a chip leakage port; 25. a blade; 26. a mounting block; 27. a cross plate; 28. a chip collecting box; 2801. a case; 2802. a chip inlet; 2803. a movable door; 2804. a handle; 2805. chip collecting cloth; 2806. a through hole; 2807. a chip collecting frame; 29. a base; 100. polishing equipment.

Detailed Description

In order that those skilled in the art will better understand the technical solutions, the following detailed description of the technical solutions is provided with examples and illustrations only, and should not be construed as limiting the scope of the present patent.

Referring to fig. 1 to 7, in a specific embodiment, a polishing apparatus for glass fiber tube production includes a frame 1, a mounting table 2 provided on the frame 1, a left and right sliding member provided on the mounting table 2, a transverse plate 27 provided on the left and right sliding member, and a glass fiber tube 5 movably mounted on the transverse plate 27; the side end of the glass fiber tube 5 is provided with polishing equipment 100 which comprises an inner polishing head 8 and an outer polishing head 10, and the rotation directions of the inner polishing head 8 and the outer polishing head 10 are opposite; the inner polishing head 8 is connected with a rotating shaft 14 through a supporting rod 7, and the rotating shaft 14 is provided with blades 25; the outer polishing head 10 is movably arranged on the rotary cylinder 12, and a plurality of blades 25 are arranged in the rotary cylinder 12; the blades 25 on the rotating shaft 14 and the blades 25 in the rotating cylinder 12 are staggered; the rotary cylinder 12 is provided with a plurality of chip leakage openings 24, the rotary cylinder 12 is rotatably arranged on the mounting seat 13, and the mounting seat 13 is communicated with the chip collecting box 28 through the chip leakage hopper 23.

Specifically, the glass fiber tube 5 is firstly mounted on the fixed seat 4 of the transverse plate 27 and then fixed by the bolts 6, so that the glass fiber tube is aligned with the inner polishing head 8 and the outer polishing head 10;

then, the motors 19 of the inner sanding head 8 and the outer sanding head 10 are started to rotate at a high speed in opposite rotation directions to sand the inner and outer surfaces of the glass fiber tube 5;

meanwhile, the left and right sliding parts are started to be double-rod air cylinders 3, so that the transverse plate 27 drives the glass fiber tube 5 to slide left and right on the mounting table 2, and one side of the glass fiber tube 5 is polished;

in the polishing process, the blades 25 on the rotating shaft 14 and the blades 25 in the rotating cylinder 12 are arranged in a staggered manner, so that strong wind power can be generated, and chips generated by polishing are blown into the rotating cylinder 12;

the chip leakage port 24 on the rotary barrel 12 can discharge chips out of the rotary barrel 12, and the chips are conveyed into the chip collecting box 28 through the chip leakage hopper 23, so that the chips are collected and processed.

Wherein, the bottom of support body 1 is provided with base 29, reduces the direct contact of support body 1 and ground through base 29, prevents that support body 1 from receiving moist or the influence of corruption. The outer polishing head 10 is arranged in the step hole of the mounting seat 13 through the mounting block 26, so that the outer polishing head 10 is convenient to mount and replace. The left and right sliding parts are double-rod air cylinders 3, the double-rod air cylinders 3 are arranged on the mounting table 2, a transverse plate 27 is arranged at the upper end of each double-rod air cylinder 3, a fixed seat 4 is arranged on the transverse plate 27, and bolts 6 are movably inserted in the fixed seat 4. The chip leakage openings 24 are annularly distributed on the outer wall of the tail end of the rotary cylinder 12.

As shown in fig. 1-2 and 4, as a preferred mode of the above embodiment, one end of the rotating shaft 14 is connected with the output end of the motor 19, a first gear 22 is arranged on the rotating shaft 14, the first gear 22 is meshed with the second gear 16, and the second gear 16 is meshed with the inner side of the rotating cylinder 12; the second gear 16 is arranged on the fixed plate 18 by means of a bearing block 17. The second gear 16 and one side of the second gear 16 are provided with a partition 15. The rotary cylinder 12 is connected with the mounting seat 13 through the bearing 11, and the mounting seat 13 is arranged on the frame body 1 through the bracket 20.

Specifically, the motor 19 is started first, so that the output end of the motor drives the rotating shaft 14 to rotate, and the inner polishing head 8 is arranged at one end of the rotating shaft 14; then, the first gear 22 on the rotating shaft 14 drives the second gear 16 to rotate through meshing transmission, the two directions are opposite, the second gear 16 is fixed on the fixed plate 18 through the bearing seat 17, then the second gear 16 is meshed with the inner side of the rotating cylinder 12, the rotating cylinder 12 is the same as the second gear 16 along the same direction, and the outer grinding head 10 is arranged at one end of the rotating cylinder 12, so that the opposite rotating directions of the inner grinding head 8 and the outer grinding head 10 are realized;

finally, the baffle 15 is arranged on one side of the second gear 16 and the rotary drum 12, so that chips can be prevented from entering between the gears, and the normal operation of the gears can be protected.

As shown in fig. 1-2, 4 and 7, as a preferred mode of the above embodiment, the chip collecting box 28 includes a box body 2801, a chip inlet 2802 is provided at an upper end of the box body 2801, a movable door 2803 is provided at a side end of the box body 2801, and a handle 2804 is provided on the movable door 2803; the inside slope of box 2801 is provided with album bits frame 2807, and album bits frame 2807's middle part sets up album bits cloth 2805, and album bits cloth 2805's below is provided with through-hole 2806, and through-hole 2806 sets up the bottom at box 2801.

Specifically, the chip collecting box 28 is firstly placed below the polishing device 100, the chip leaking hopper 23 is in butt joint with the chip inlet 2802, and the movable door 2803 is closed and locked; then, when the polishing apparatus 100 is operated, the chips generated by polishing are conveyed to the chip collecting box 28 through the chip leakage port 24 and the chip leakage hopper 23, and enter the box 2801; then, the chips can be collected on the chip collecting cloth 2805 in the middle of the chip collecting frame 2807 obliquely arranged in the box body 2801, so that the chips can be conveniently and uniformly treated in the later period; finally, when the chip collection bin 28 is fully loaded, the movable door 2803 can be opened by the handle 2804 to pour or transfer chips into other containers, and then the movable door 2803 is closed and locked to continue to use the chip collection bin 28. The chip collecting cloth 2805 is fixed at the middle part of the chip collecting frame 2807 by a screw; the dust collecting cloth 2805 and the through holes 2806 arranged below ensure that the gas flows smoothly.

As shown in fig. 1-2, 4 and 7, as a preferred mode of the above embodiment, the dust collecting box 28 is movably provided with a cleaning brush assembly 21, the cleaning brush assembly 21 includes a brush body 2101, the brush body 2101 is disposed at the bottom end of a fixed disc 2102, a telescopic rod 2103 is disposed at one side of the fixed disc 2102, the telescopic rod 2103 is inserted at one side of a guide rod 2104 and a box 2801, and a pull ring 2105 is disposed at the end of the telescopic rod 2103.

Specifically, first, the cleaning brush assembly 21 is mounted in the dust collecting box 28, the brush body 2101 is contacted with the dust collecting plate 2805, the telescopic rod 2103 is inserted into one side of the guide rod 2104 and the box body 2801, and the pull ring 2105 is exposed out of one side of the box body 2801 and the guide rod 2104;

then, when the chip collecting box 28 needs to be cleaned, the telescopic rod 2103 can be pushed inwards through the pull ring 2105 to drive the brush body 2101 to move on the chip collecting plate 2805, so that chips in the chip collecting plate 2805 are pushed downwards; the telescopic rod 2103 can be telescopic in the pushing process and can be telescopic according to the requirement; the telescopic rod 2103 is composed of two sections, wherein one section is telescopic in length in the other section, and telescopic is realized by arranging an anti-slip layer on the inner side of the other section.

Next, the cuttings are poured or transferred into another container, and then the telescoping rod 2103 is pushed back into place; finally, the movable door 2803 is closed and locked, and the chip collection bin 28 is continued to be used.

As shown in fig. 6, as a preferred mode of the above embodiment, the baffle 9 includes a lateral section 901 and an inclined section 902, and the lateral section 901 is connected to the rotary drum 12 by screws. The baffle 9 can prevent the cuttings from splashing outwards, so that the safety of operators is protected and the workshop environment is also protected.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Specific examples are used herein to illustrate the principles and embodiments of the present patent technical solution, and the above examples are only used to help understand the method of the present patent and its core ideas. The foregoing is merely a preferred embodiment of the present patent, and it should be noted that, due to the limited text expression, there is objectively an infinite number of specific structures, and it will be apparent to those skilled in the art that several modifications, adaptations or variations can be made and the above technical features can be combined in a suitable manner without departing from the principles of the present patent; such modifications, variations, or combinations, or the direct application of the concepts and aspects of the disclosed patent to other applications without modification, are intended to be within the scope of the present disclosure.

Claims (10)

1. The polishing equipment for the glass fiber tube production is characterized by comprising a frame body (1), wherein an installation table (2) is arranged on the frame body (1), a reciprocating sliding piece is arranged on the installation table (2), a transverse plate (27) is arranged on the reciprocating sliding piece, and a glass fiber tube (5) is movably installed on the transverse plate (27); the side end of the glass fiber tube (5) is provided with polishing equipment (100) which comprises an inner polishing head (8) and an outer polishing head (10), and the rotation directions of the inner polishing head (8) and the outer polishing head (10) are opposite; the inner polishing head (8) is connected with a rotating shaft (14) through a supporting rod (7), and blades (25) are arranged on the rotating shaft (14); the outer polishing head (10) is movably arranged on the rotary cylinder (12), and a plurality of blades (25) are arranged in the rotary cylinder (12); the blades (25) on the rotating shaft (14) and the blades (25) in the rotating cylinder (12) are arranged in a staggered way; the rotary cylinder (12) is provided with a plurality of chip leakage openings (24), the rotary cylinder (12) is rotatably arranged on the mounting seat (13), and the mounting seat (13) is communicated with the chip collecting box (28) through the chip leakage hopper (23).

2. A sanding apparatus for glass fiber tube production as defined in claim 1, wherein one end of the rotary shaft (14) is connected with the output end of the motor (19), the rotary shaft (14) is provided with a first gear (22), the first gear (22) is in meshed connection with a second gear (16), and the second gear (16) is in meshed connection with the inner side of the rotary drum (12); the second gear (16) is arranged on the fixed plate (18) through a bearing seat (17).

3. A sanding apparatus for glass fiber tube production according to claim 2, characterized in that the second gear (16) and one side of the second gear (16) are provided with a partition (15).

4. A sanding apparatus for glass fiber tube production according to claim 2, characterized in that the rotating drum (12) is connected with the mounting base (13) by means of bearings (11), the mounting base (13) being arranged on the frame body (1) by means of brackets (20).

5. The polishing apparatus for glass fiber tube production according to claim 1, wherein the chip collecting box (28) comprises a box body (2801), a chip inlet (2802) is formed in the upper end of the box body (2801), a movable door (2803) is formed in the side end of the box body (2801), and a handle (2804) is arranged on the movable door (2803); the chip collecting frame (2807) is obliquely arranged in the box body (2801), chip collecting cloth (2805) is arranged in the middle of the chip collecting frame (2807), through holes (2806) are formed in the lower portion of the chip collecting cloth (2805), and the through holes (2806) are formed in the bottom of the box body (2801).

6. The polishing device for glass fiber tube production according to claim 5, wherein a cleaning brush assembly (21) is movably arranged in the chip collecting box (28), the cleaning brush assembly (21) comprises a brush body (2101), the brush body (2101) is arranged at the bottom end of a fixed disc (2102), a telescopic rod (2103) is arranged on one side of the fixed disc (2102), the telescopic rod (2103) is inserted on one side of a guide rod (2104) and a box body (2801), and a pull ring (2105) is arranged at the tail end of the telescopic rod (2103).

7. A sanding apparatus for glass fiber tube production according to claim 1, characterized in that the baffle (9) comprises a transverse section (901) and an inclined section (902), the transverse section (901) being connected to the rotating drum (12) by means of screws.

8. A sanding apparatus for glass fiber tube production according to claim 1, characterized in that the outer sanding head (10) is arranged in a stepped bore of the mounting seat (13) by means of a mounting block (26).

9. The polishing equipment for glass fiber tube production according to claim 1, wherein the reciprocating sliding piece is a double-rod air cylinder (3), the double-rod air cylinder (3) is arranged on the mounting table (2), a transverse plate (27) is arranged at the upper end of the double-rod air cylinder (3), a fixing seat (4) is arranged on the transverse plate (27), and a bolt (6) is movably inserted in the fixing seat (4).

10. A sanding apparatus for glass fiber tube production according to claim 1, characterized in that the bottom end of the frame body (1) is provided with a base (29).