CN113213771A - Toughened glass manufacturing surface treatment system - Google Patents

Abstract

The invention belongs to the technical field of glass processing, and particularly relates to a toughened glass production and manufacturing surface treatment system which comprises a cabinet body, wherein electric heating rollers are symmetrically arranged on the cabinet body, the electric heating rollers are used for supporting and drying glass and are movably connected with the cabinet body through a retainer, one end, away from the electric heating rollers, of the cabinet body is movably connected with a cover plate through an air cylinder, the air cylinder is used for triggering through the retainer, the cover plate is used for covering and sealing the glass through the lifting of the air cylinder, spring pipes are symmetrically arranged at two ends of the cover plate and are used for supplementing corrosive liquid and cleaning liquid in the cover plate, and one end, away from the spring pipes, of the cover plate is connected with a movable plate in a sliding mode. The invention effectively reduces the volatilization speed of the corrosive liquid (hydrofluoric acid solution) by sealed punctiform corrosion work in the chemical treatment process of the glass, reduces the potential safety hazard of the work of operators and improves the utilization efficiency of the corrosive liquid.

Description

Toughened glass manufacturing surface treatment system

Technical Field

The invention belongs to the technical field of glass processing, and particularly relates to a surface treatment system for production and manufacturing of toughened glass.

Background

The toughened glass belongs to safety glass, is a prestressed glass, and in order to raise the strength of glass, it usually uses chemical or physical method to form compressive stress on the surface of glass, and when the glass is subjected to external force, the surface layer stress can be counteracted firstly, so that it can raise its bearing capacity, and can raise the wind pressure resistance, cold and hot property and impact property of glass. The frosting treatment is often needed in the production and processing of the toughened glass, the surface of the glass is processed into a rough surface to enable the glass to have the characteristic of opacity, the frosting treatment mode at present mainly comprises methods such as mechanical sand blasting, manual grinding and chemical method treatment (such as hydrofluoric acid corrosion), but with the continuous improvement of the treatment requirement of the toughened glass, the defects existing in the frosting treatment process of the toughened glass are urgently needed to be improved.

Among the prior art, the common toughened glass dull polish processing mode on the market mainly handles with chemical method as the owner, when utilizing hydrofluoric acid corrosion preparation glass ground, the mode of etching is usually adopted and is operated, but because hydrofluoric acid solution has strong corrosivity, and volatile characteristics, lead to glass to cause the harm to nearby operating personnel easily at the volatile hydrofluoric acid solution of etching in-process, the volatile hydrofluoric acid solution can't be retrieved simultaneously and cause very big waste, increase glass's dull polish treatment cost, reduce economic benefits.

To this end, we propose a tempered glass manufacturing surface treatment system to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems and provides a tempered glass production and manufacturing surface treatment system which reduces the volatilization speed of hydrofluoric acid solution by sealed pitting work so as to improve the safety and the economy of a tempered glass chemical treatment process.

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

the utility model provides a toughened glass produces surface treatment system, includes the cabinet body, cabinet body symmetry is equipped with the electric heating roller, the electric heating roller supports and stoving work to glass, the electric heating roller passes through holder and cabinet body swing joint, the one end that the electric heating roller was kept away from to the cabinet body has the apron through cylinder swing joint, the cylinder triggers work through the holder, the apron goes up and down to cover glass through the cylinder and seals work, the both ends symmetry of apron is equipped with the spring pipe, the spring pipe realizes the supplementary work of lapping interior corrosive liquid and washing liquid of apron, the one end sliding connection that the spring pipe was kept away from to the apron has the fly leaf, the fly leaf passes through choked flow device and apron reciprocating motion, realizes glass's evenly scribbling and cleaning work.

In foretell toughened glass produces and makes surface treatment system, the one end of the cabinet body is equipped with the feed inlet, the other end of the cabinet body is equipped with the discharge gate, feed inlet and discharge gate all rotate and are connected with the bearing roller.

In the toughened glass manufacturing surface treatment system, the retainer is of a U-shaped structure, the cabinet body is provided with the sliding sleeve, and one end, away from the electric heating roller, of the retainer is movably connected with the sliding sleeve through the reset spring.

In the toughened glass manufacturing surface treatment system, one end of the retainer, which is far away from the electric heating roller, is fixedly connected with a T-shaped trigger rod, the sliding sleeve is symmetrically provided with an electric contact piece, one end of the electric contact piece is matched with the trigger rod, and the other end of the electric contact piece is electrically connected with the air cylinder.

In foretell toughened glass manufacturing surface treatment system, the one end that the cabinet body is close to the sliding sleeve is equipped with the water conservancy diversion layer, the bottom position on water conservancy diversion layer is equipped with the blow off pipe, the one end cooperation that the cabinet body is close to the blow off pipe is equipped with the suction pump, the suction pump communicates respectively through solenoid electric valve has cleaning solution pipe and corrosive liquid pipe, cleaning solution pipe and one of them group of spring pipe intercommunication setting that is close to the discharge gate, cleaning solution pipe cooperation is equipped with the trachea, corrosive liquid pipe and another group are close to the spring pipe intercommunication setting of feed inlet.

In foretell toughened glass manufacture surface treatment system, the fly leaf is equipped with the multiunit through-hole, and is adjacent the diameter size of through-hole increases from corruption liquid pipe one end to washing liquid pipe one end gradually, fly leaf fixedly connected with multiunit brush, brush and through-hole cooperation set up.

In the surface treatment system for production and manufacturing of toughened glass, the cover plate is of a concave structure, the cover plate is symmetrically provided with the sliding openings, and the movable plate is connected with the sliding openings in a sliding mode through the vibrating springs.

In the surface treatment system for the production and manufacturing of toughened glass, the sliding opening is rotatably connected with a plurality of groups of balls, and the balls are in rolling connection with the movable plate through the grooves.

In foretell toughened glass produces and makes surface treatment system, the choked flow device includes choked flow fan, cam and pendulum rod, choked flow fan and spring pipe cooperation setting, choked flow fan and the coaxial fixed connection of cam, the one end and the cam sliding connection of pendulum rod, the other end and the fly leaf of pendulum rod rotate to be connected.

In the surface treatment system for manufacturing the toughened glass, the cam is provided with the guide rail, the swing rod is connected with the guide rail in a sliding mode through the spherical sliding block, and the maximum diameter size of the sliding block is larger than the opening diameter size of the guide rail.

The invention has the beneficial effects that: through setting up removable cover for glass directly carries out sealed corrosion treatment at dull polish processing's in-process, avoids traditional etching treatment in-process hydrofluoric acid solution to volatilize in a large number, reduces the potential safety hazard in the operating personnel working process, improves hydrofluoric acid solution's utilization of resources, and the fly leaf of apron cooperation reciprocating motion evenly paints and washes glass simultaneously, effectively improves glass's treatment effeciency.

The device is triggered according to gravity, a worker pushes plate glass to be processed into the electric heating roller of the cabinet body through the feeding hole, when the plate glass is completely placed on the electric heating roller, the retainer fixedly connected with the electric heating roller descends and triggers and starts the air cylinder through the trigger contact piece, and the cover plate descends.

The liquid injection device has better coating uniformity, when the cover plate seals the flat glass, the control device controls the corrosive liquid pipe to inject liquid into the cover plate, the corrosive liquid drops on the flat glass from the area between the cover plate and the movable plate through the through hole, the movable plate is driven to reciprocate by the corrosive liquid through the flow blocking device in the injection process, and the hydrofluoric acid solution on the flat glass is coated by the movable plate through the brush in the reciprocating process, so that the uniformity of glass corrosion is improved.

And the hydrofluoric acid solution after the corrosion work is recovered through a suction pump by sliding down the bottom of the gathering diversion layer. After the glass is subjected to corrosion treatment for a period of time, the corrosion liquid pipe is closed through the control device, the cleaning liquid pipe is opened, and the residual corrosion liquid on the glass is cleaned through flushing. After glass accomplished the cleaning, close the cleaning solution pipe through controlling means, dry the heating through the electric heating roller to glass, supplementary tracheal air current weathers glass, improves glass's drying efficiency. And after the glass is dried, the glass enters the next processing procedure through the discharge hole, and the frosting treatment of the glass is completed.

The invention has the outstanding characteristics that: the device is different from the traditional chemical method in the treatment process, etching operation is changed into sealed smearing treatment, the contact area of hydrofluoric acid solution outside is reduced, the volatilization speed of the hydrofluoric acid solution is reduced, meanwhile, the acting force of the hydrofluoric acid solution and cleaning liquid on a flow blocking fan in the injection process is utilized to drive a movable plate to reciprocate, uniform smearing of the hydrofluoric acid solution and quick cleaning of the cleaning liquid are realized, and the glass frosting treatment efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of a surface treatment system for tempered glass production provided by the present invention;

FIG. 2 is a schematic structural view of a retainer in a surface treatment system for tempered glass production provided by the present invention;

FIG. 3 is a schematic structural diagram of a flow blocking device in a surface treatment system for tempered glass production and manufacturing according to the present invention;

FIG. 4 is an enlarged schematic view at A in FIG. 3;

fig. 5 is a schematic top view of a flow blocking device in a surface treatment system for tempered glass production and manufacturing according to the present invention.

In the figure: 1 cabinet body, 11 feed inlets, 12 discharge outlets, 13 carrier rollers, 14 sliding sleeves, 141 electric contacts, 15 flow guide layers, 16 sewage discharge pipes, 2 electric heating rollers, 3 retainers, 31 return springs, 32 trigger rods, 4 cylinders, 5 cover plates, 51 sliding openings, 52 balls, 6 spring pipes, 7 movable plates, 71 through holes, 72 brushes, 73 vibrating springs, 74 grooves, 8 flow blocking devices, 81 flow blocking fans, 82 cams, 821 guide rails, 83 swinging rods, 831 sliders, 9 suction pumps, 91 electromagnetic control valves, 92 cleaning liquid pipes, 93 corrosion liquid pipes and 94 air pipes.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

As shown in fig. 1-5, a surface treatment system for manufacturing tempered glass comprises a cabinet 1, and it should be noted that one end of the cabinet 1 is provided with a feed port 11, the other end of the cabinet 1 is provided with a discharge port 12, the feed port 11 and the discharge port 12 are both rotatably connected with a carrier roller 13, plate glass to be treated is pushed into the cabinet 1 through the feed port 11, and the glass subjected to frosting treatment is transmitted to the next processing procedure through the discharge port 12.

The cabinet body 1 symmetry is equipped with electric heating roller 2, and electric heating roller 2 supports and stoving work to glass, and electric heating roller 2 passes through holder 3 and cabinet body 1 swing joint, and it should be noted that electric heating roller 2 is used for the stoving work of sheet glass after corruption, clean process, improves glass's treatment effeciency.

One end of the cabinet body 1 far away from the electric heating roller 2 is movably connected with a cover plate 5 through an air cylinder 4, the air cylinder 4 performs trigger work through a retainer 3, the cover plate 5 performs cover and seal work on glass through the lifting of the air cylinder 4, it should be noted that the retainer 3 adopts a U-shaped structure, the cabinet body 1 is provided with a sliding sleeve 14, one end of the retainer 3 far away from the electric heating roller 2 is movably connected with the sliding sleeve 14 through a return spring 31, one end of the retainer 3 far away from the electric heating roller 2 is fixedly connected with a T-shaped trigger rod 32, the sliding sleeve 14 is symmetrically provided with an electric contact plate 141, one end of the electric contact plate 141 is matched with the trigger rod 32, the other end of the electric contact plate 141 is electrically connected with the air cylinder 4, after the electric heating roller 2 bears flat glass, the trigger rod 32 and the sliding sleeve 14 slide through pressing, until the, the lowering action of the lid 5 is realized.

When the device uses, the staff pushes the plate glass to be processed into the electric heating roller 2 of the cabinet body 1 through the carrier roller 13 of the feeding port 11, when the plate glass is completely placed on the electric heating roller 2, the retainer 3 fixedly connected with the electric heating roller 2 slides through the reset spring 31 and the sliding sleeve 14, the trigger rod 32 fixedly connected with the retainer 3 slides inside the sliding sleeve 14 until the trigger rod 32 contacts with the electric contact piece 141, the cylinder 4 is started through the control device, and the cover plate 5 descends.

Spring pipes 6 are symmetrically arranged at two ends of the cover plate 5, the spring pipes 6 realize the supplement work of corrosive liquid and cleaning liquid in the cover plate 5, it is noted that a flow guide layer 15 is arranged at one end of the cabinet body 1 close to the sliding sleeve 14, a drain pipe 16 is arranged at the bottom of the flow guide layer 15, the drain pipe 16 is used for removing liquid which can not be reused in the cabinet body 1, a suction pump 9 is arranged at one end of the cabinet body 1 close to the drain pipe 16 in a matching way, the suction pump 9 is respectively communicated with a cleaning liquid pipe 92 and a corrosive liquid pipe 93 through an electromagnetic control valve 91, the cleaning liquid pipe 92 is communicated with one group of spring pipes 6 close to the discharge port 12, the glass washing device is used for washing corroded glass, the cleaning liquid pipe 92 is provided with the air pipe 94 in a matched mode, drying efficiency of the glass is improved through blowing of air flow, and the corrosion liquid pipe 93 is communicated with the other spring pipe 6 which is close to the feeding hole 11 and used for corroding the glass.

One end sliding connection that the spring pipe 6 was kept away from to apron 5 has fly leaf 7, it should be noted that fly leaf 7 is equipped with multiunit through-hole 71, the diameter size of adjacent through-hole 71 increases gradually from corruption liquid pipe 93 one end to washing liquid pipe 92 one end, improve the homogeneity of glass in the different positions hydrofluoric acid solution content of corrosion treatment in-process, fly leaf 7 fixedly connected with multiunit brush 72, brush 72 and through-hole 71 cooperation set up, improve the homogeneity of glass corruption through painting of brush 72, improve the cleaning efficiency of glass in the cleaning process simultaneously.

The movable plate 7 and the cover plate 5 are connected in a sliding manner: the cover plate 5 adopts a concave structure, the cover plate 5 is symmetrically provided with sliding openings 51, the movable plate 7 is connected with the sliding openings 51 in a sliding manner through vibrating springs 73, it should be noted that the sliding openings 51 are connected with a plurality of groups of balls 52 in a rotating manner, and the balls 52 are connected with the movable plate 7 in a rolling manner through grooves 74, so that the friction coefficient between the movable plate 7 and the cover plate 5 in the reciprocating sliding process is reduced.

The movable plate 7 reciprocates through the flow blocking device 8 and the cover plate 5, so that the glass is uniformly coated and cleaned.

Specifically, the choke device 8 comprises a choke fan 81, a cam 82 and a swing rod 83, the choke fan 81 is matched with the spring tube 6, the choke fan 81 is coaxially and fixedly connected with the cam 82, the choke fan 81 is rotatably connected with the cover plate 5 through a bearing, one end of the swing rod 83 is slidably connected with the cam 82, the cam 82 is provided with a guide rail 821, the swing rod 83 is slidably connected with the guide rail 821 through a spherical sliding block 831, and the maximum diameter of the sliding block 831 is larger than the opening diameter of the guide rail 821. The other end of the swing rod 83 is rotatably connected with the movable plate 7, so that the cam 82 is driven to rotate by the flow blocking fan 81 in the process of injecting the hydrofluoric acid solution or the cleaning solution into the cover plate 5, and the cam 82 drives the movable plate 7 to reciprocate by the swing rod 83, so that the movable plate 7 can uniformly paint and wash glass.

After apron 5 sealed the sheet glass, annotate liquid work to apron 5 through controlling means control corrosion liquid pipe 93, hydrofluoric acid solution gets into the region between apron 5 and the fly leaf 7 through spring pipe 6, drips on the sheet glass through-hole 71, and hydrofluoric acid solution drives choked flow fan 81 and rotates at the injection in-process, and choked flow fan 81 drives fly leaf 7 through coaxial fixed connection's cam 82 and carries out reciprocating motion, specific motion process: one end of the swing rod 83 slides through the spherical sliding block 831 and the guide rail 821 of the cam 82, the other end of the swing rod 83 drives the movable plate 7 and the sliding opening 51 of the cover plate 5 to slide, at this time, the ball 52 connected with the sliding opening 51 in a rolling manner is connected with the movable plate 7 in a sliding manner through the groove 74, and the vibrating spring 73 at the two ends of the movable plate 7 close to the sliding opening 51 enables the movable plate 7 to realize reciprocating motion through the return force work. The movable plate 7 is used for smearing hydrofluoric acid solution on the flat glass through the brush 72 in the reciprocating motion process, so that the corrosion uniformity of the glass is improved.

The hydrofluoric acid solution after the completion of the corrosion work is collected by the suction pump 9 through the bottom of the sliding collection diversion layer 15. After the glass is subjected to corrosion treatment for a period of time, the corrosion liquid pipe 93 is closed through the control device, the cleaning liquid pipe 92 is opened, the residual corrosion liquid on the glass is cleaned through washing, at the moment, the movable plate 7 drives the movable plate 7 to move through the flow blocking device 8 close to one end of the cleaning liquid pipe 92, the brush 72 is further driven to wash the glass, and the cleaning liquid which completes the cleaning work is gathered at the bottom of the diversion layer 15 through sliding and is recovered through the suction pump 9. After the glass finishes the cleaning work, the cleaning liquid pipe 92 is closed through the control device, the glass is dried and heated through the electric heating roller 2, the glass is dried by the air flow of the auxiliary air pipe 94, and the drying efficiency of the glass is improved. After the glass is dried, the glass enters the next processing procedure through the discharge hole 12, and the frosting treatment of the glass is completed.

The operating principle of the present invention will now be described as follows:

when the device uses, the staff pushes the plate glass to be processed into the electric heating roller 2 of the cabinet body 1 through the carrier roller 13 of the feeding port 11, when the plate glass is completely placed on the electric heating roller 2, the retainer 3 fixedly connected with the electric heating roller 2 slides through the reset spring 31 and the sliding sleeve 14, the trigger rod 32 fixedly connected with the retainer 3 slides inside the sliding sleeve 14 until the trigger rod 32 contacts with the electric contact piece 141, the cylinder 4 is started through the control device, and the cover plate 5 descends.

After apron 5 sealed the sheet glass, annotate liquid work to apron 5 through controlling means control corrosion liquid pipe 93, hydrofluoric acid solution gets into the region between apron 5 and the fly leaf 7 through spring pipe 6, drips on the sheet glass through-hole 71, and hydrofluoric acid solution drives choked flow fan 81 and rotates at the injection in-process, and choked flow fan 81 drives fly leaf 7 through coaxial fixed connection's cam 82 and carries out reciprocating motion, specific motion process: one end of the swing rod 83 slides through the spherical sliding block 831 and the guide rail 821 of the cam 82, the other end of the swing rod 83 drives the movable plate 7 and the sliding opening 51 of the cover plate 5 to slide, at this time, the ball 52 connected with the sliding opening 51 in a rolling manner is connected with the movable plate 7 in a sliding manner through the groove 74, and the vibrating spring 73 at the two ends of the movable plate 7 close to the sliding opening 51 enables the movable plate 7 to realize reciprocating motion through the return force work. The movable plate 7 is used for smearing hydrofluoric acid solution on the flat glass through the brush 72 in the reciprocating motion process, so that the corrosion uniformity of the glass is improved.

The hydrofluoric acid solution after the completion of the corrosion work is collected by the suction pump 9 through the bottom of the sliding collection diversion layer 15. After the glass is subjected to corrosion treatment for a period of time, the corrosion liquid pipe 93 is closed through the control device, the cleaning liquid pipe 92 is opened, the residual corrosion liquid on the glass is cleaned through washing, at the moment, the movable plate 7 drives the movable plate 7 to move through the flow blocking device 8 close to one end of the cleaning liquid pipe 92, the brush 72 is further driven to wash the glass, and the cleaning liquid which completes the cleaning work is gathered at the bottom of the diversion layer 15 through sliding and is recovered through the suction pump 9. After the glass finishes the cleaning work, the cleaning liquid pipe 92 is closed through the control device, the glass is dried and heated through the electric heating roller 2, the glass is dried by the air flow of the auxiliary air pipe 94, and the drying efficiency of the glass is improved. After the glass is dried, the glass enters the next processing procedure through the discharge hole 12, and the frosting treatment of the glass is completed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides a toughened glass produces and makes surface treatment system, includes the cabinet body (1), its characterized in that, the cabinet body (1) symmetry is equipped with electric heating roller (2), electric heating roller (2) support and dry work glass, electric heating roller (2) are through holder (3) and cabinet body (1) swing joint, the one end that electric heating roller (2) were kept away from to the cabinet body (1) has apron (5) through cylinder (4) swing joint, cylinder (4) trigger work through holder (3), apron (5) go up and down through cylinder (4) and cover the seal work to glass, the both ends symmetry of apron (5) is equipped with spring pipe (6), the supplementary work of corrosive liquid and washing liquid in apron (5) is realized to spring pipe (6), the one end sliding connection that spring pipe (6) were kept away from to apron (5) has fly leaf (7), the movable plate (7) reciprocates through the flow blocking device (8) and the cover plate (5), so that the glass is uniformly coated and cleaned.

2. The toughened glass production and manufacturing surface treatment system according to claim 1, wherein one end of the cabinet body (1) is provided with a feed port (11), the other end of the cabinet body (1) is provided with a discharge port (12), and the feed port (11) and the discharge port (12) are both rotatably connected with a carrier roller (13).

3. The toughened glass production and manufacturing surface treatment system according to claim 1, wherein the holder (3) is of a U-shaped structure, the cabinet body (1) is provided with a sliding sleeve (14), and one end of the holder (3) far away from the electric heating roller (2) is movably connected with the sliding sleeve (14) through a return spring (31).

4. The toughened glass manufacturing surface treatment system according to claim 3, wherein a T-shaped trigger rod (32) is fixedly connected to one end of the retainer (3) far away from the electric heating roller (2), the sliding sleeve (14) is symmetrically provided with an electric contact piece (141), one end of the electric contact piece (141) is matched with the trigger rod (32), and the other end of the electric contact piece (141) is electrically connected with the air cylinder (4).

5. The toughened glass production and manufacturing surface treatment system according to claim 3, wherein a flow guide layer (15) is arranged at one end, close to the sliding sleeve (14), of the cabinet body (1), a drain pipe (16) is arranged at the bottom position of the flow guide layer (15), a suction pump (9) is arranged at one end, close to the drain pipe (16), of the cabinet body (1) in a matched mode, the suction pump (9) is respectively communicated with a cleaning liquid pipe (92) and a corrosion liquid pipe (93) through an electromagnetic control valve (91), the cleaning liquid pipe (92) and one group of spring pipes (6) close to the discharge port (12) are communicated, an air pipe (94) is arranged in the matched mode of the cleaning liquid pipe (92), and the corrosion liquid pipe (93) and the other group of spring pipes (6) close to the feed port (11) are communicated.

6. The tempered glass manufacturing surface treatment system according to claim 5, wherein the movable plate (7) is provided with a plurality of sets of through holes (71), the diameter size of the adjacent through holes (71) is gradually increased from one end of the corrosion liquid pipe (93) to one end of the cleaning liquid pipe (92), the movable plate (7) is fixedly connected with a plurality of sets of brushes (72), and the brushes (72) and the through holes (71) are cooperatively arranged.

7. The tempered glass manufacturing surface treatment system according to claim 1, wherein the cover plate (5) has a concave structure, the cover plate (5) is symmetrically provided with sliding openings (51), and the movable plate (7) is slidably connected with the sliding openings (51) through a vibrating spring (73).

8. The system for processing the production and manufacturing surface of the tempered glass as recited in claim 7, wherein the sliding opening (51) is rotatably connected with a plurality of groups of balls (52), and the balls (52) are in rolling connection with the movable plate (7) through grooves (74).

9. The surface treatment system for tempered glass production according to claim 1, wherein the flow blocking device (8) comprises a flow blocking fan (81), a cam (82) and a swing rod (83), the flow blocking fan (81) is matched with the spring tube (6), the flow blocking fan (81) is coaxially and fixedly connected with the cam (82), one end of the swing rod (83) is slidably connected with the cam (82), and the other end of the swing rod (83) is rotatably connected with the movable plate (7).

10. A tempered glass manufacturing surface treatment system according to claim 9, wherein the cam (82) is provided with a guide rail (821), the swing link (83) is slidably connected with the guide rail (821) through a spherical slider (831), and a maximum diameter dimension of the slider (831) is larger than an opening diameter dimension of the guide rail (821).

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