CN116394110B - Surface treatment device for processing annular silica gel belt - Google Patents

Abstract

The invention discloses a surface treatment device for processing an annular silicon rubber belt, which belongs to the technical field of processing of silicon rubber belts and comprises a bottom plate, wherein a supporting component, an auxiliary component and a polishing component are arranged above the bottom plate, the supporting component can realize automatic spreading and fixing of the annular silicon rubber belt without manual installation, and can fix the annular silicon rubber belt with different sizes, the auxiliary component can adjust the position of the annular silicon rubber belt on a supporting roller, the situation that the annular silicon rubber belt is separated during surface treatment due to the position deviation of the annular silicon rubber belt on the supporting roller is avoided, and the polishing component can enable the polishing roller to be always attached to the surface of the annular silicon rubber belt according to the position of the surface of the annular silicon rubber belt on the supporting roller, so that the surface treatment of the annular silicon rubber belt is realized, the polishing component can be folded, and the occupation of space is reduced.

Description

Surface treatment device for processing annular silica gel belt

Technical Field

The invention relates to the technical field of silica gel belt processing, in particular to a surface treatment device for processing an annular silica gel belt.

Background

The annular silicon adhesive tape has excellent electrical insulation, ozone resistance, weather resistance and radiation resistance; special surface properties (non-tackiness, anti-tackiness) and physiological inertia, can resist common acid, alkali, salt inorganic matters, alcohols, animal and vegetable oils and polar organic matters, and after the existing silica gel belt is manufactured, uneven surfaces or burrs can appear on the surfaces, and the burrs or uneven places can influence the subsequent use of the annular silica gel belt.

The Chinese patent application with the bulletin number of CN209919509U discloses a polishing dust collector for processing a conveyor belt, which comprises a base, a vertical barrel and a polishing machine body, wherein the vertical barrel is fixed on the base, a control rod is installed on the vertical barrel, the control rod is connected with a clamping block, the clamping block is installed on the vertical barrel, a working bearing is installed on the clamping block, the working bearing is installed on a fixed rod, the fixed rod is installed on the fixed barrel, the control rod is connected with a toothed plate, a rotary drum is installed on a connecting rod, the polishing machine body is installed on the connecting rod, a motor is installed on the base, the working rod is connected with a linkage rod, a shifting block is connected with a movable rod, and a brush plate is fixed on the movable rod.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a surface treatment device for processing an annular silicon rubber belt, which solves the problems that the automatic fixing of a conveying belt can not be realized, the position of the conveying belt can not be adjusted, and the conveying belt is easy to separate during movement.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a surface treatment device that annular silica gel area processing was used, the on-line screen storage device comprises a base plate, the bottom plate top is provided with supporting component and auxiliary assembly, supporting component includes supporting baseplate, even slidable mounting has 3 supporting racks on the supporting baseplate, the backing roll is installed in the tip of supporting rack all rotation, the backing roll is used for strutting the silica gel area, auxiliary assembly includes 3 supplementary laths, the tip fixed mounting of supporting rack has supplementary crown plate, supplementary lath and the supplementary crown plate sliding fit who corresponds, equal fixed mounting has the regulation crown plate on the supplementary lath, the regulation crown plate is used for adjusting the position of silica gel area on the backing roll, the bottom plate top still is provided with the subassembly of polishing, the subassembly of polishing is including expanding lath I, it installs expansion lath II to expand lath II to rotate on the expansion lath II, it has the bar slide to expand lath III to go up slidable mounting, bar slide and expansion lath I swing joint, the last rotation of bar slide is installed and is polished the roller, the polishing roller is used for polishing silica gel area surface.

Further, the support assembly further comprises a rotating plate, the rotating plate is rotatably arranged on the bottom plate, the rotating plate is provided with a support driving plate in a sliding mode, the support driving plate is fixedly connected with the support bottom plate, and the support bottom plate is fixedly provided with a fixing support.

Further, a driving gear is rotatably arranged on the fixed support, 3 extending gears are rotatably arranged on the supporting bottom plate, the extending gears are meshed with corresponding supporting racks to form a gear rack pair, driven gears are fixedly arranged on the extending gears, and the driven gears are meshed with the driving gears to form the gear pair.

Further, the auxiliary assembly further comprises an auxiliary electric cylinder fixedly mounted on the supporting driving plate, an auxiliary circular plate is fixedly mounted at the piston rod end of the auxiliary electric cylinder, and the auxiliary lath is in sliding fit with the auxiliary circular plate.

Further, the polishing assembly further comprises a unfolding sliding plate, the unfolding sliding plate is slidably mounted on the supporting bottom plate, the unfolding screw rod is rotatably mounted on the supporting bottom plate, the unfolding screw rod and the unfolding sliding plate form a screw pair, the unfolding first sliding plate is slidably mounted on the supporting bottom plate, the end part of the unfolding first sliding plate is fixedly provided with an auxiliary pushing plate, and the auxiliary pushing plate is in sliding fit with the unfolding sliding plate.

Further, one end of the second unfolding slat is rotationally connected with the first unfolding slat, the other end of the second unfolding slat is rotationally connected with the third unfolding slat, the second unfolding rack is slidably mounted on the side face of the first unfolding slat, a plurality of teeth are arranged on the second unfolding slat and the rotating end of the first unfolding slat, the second unfolding rack and the second unfolding slat are meshed to form a gear rack pair, a driving sliding rod is slidably mounted on the unfolding sliding plate, and the driving sliding rod is used for pushing the second unfolding rack to slide.

Further, a first strip-shaped sliding groove is formed in the first strip-shaped unfolding plate, a second strip-shaped sliding seat moves on the first strip-shaped sliding groove of the first strip-shaped unfolding plate, sliding grooves are formed in the second strip-shaped unfolding plate, limiting blocks are fixedly arranged on two sides of the first strip-shaped unfolding plate, auxiliary limiting blocks are symmetrically and fixedly arranged on the supporting bottom plate, and the limiting blocks and the auxiliary limiting blocks are used for limiting the sliding positions of the first strip-shaped unfolding plate.

Further, a first unfolding rack is slidably arranged on the second unfolding rack, a second unfolding rack is fixedly arranged on the third unfolding rack, the first unfolding rack is meshed with the first unfolding rack to form a rack-and-pinion pair, a driving push rod is fixedly arranged on the unfolding slide plate and used for pushing the first unfolding rack to slide, and a limiting rack is fixedly arranged on the supporting bottom plate and used for limiting the rotating position of the second unfolding rack.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the invention, the support assembly is arranged, so that the annular silica gel belt can be automatically unfolded and fixed without manual installation, and the annular silica gel belt with different sizes can be fixed. (2) The invention can adjust the position of the annular silicon rubber belt on the supporting roller by arranging the auxiliary component, and avoids the situation of detachment during the surface treatment of the annular silicon rubber belt caused by the position deviation of the annular silicon rubber belt on the supporting roller during the installation of the annular silicon rubber belt. (3) According to the invention, the polishing assembly is arranged, so that the polishing roller can always be attached to the surface of the annular silica gel belt according to the position of the surface of the annular silica gel belt on the supporting roller, the surface of the annular silica gel belt is treated, the polishing assembly can be folded, and the occupation of space is reduced.

Drawings

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

Fig. 2 is a schematic structural view of an auxiliary assembly of the present invention.

Fig. 3 is an enlarged partial schematic view at a in fig. 2.

Fig. 4 is a schematic structural view of the support assembly of the present invention.

Fig. 5 is a schematic view of the structure of the grinding assembly in a folded state.

Fig. 6 is a bottom view of the sanding assembly of the present invention in a stowed condition.

Fig. 7 is a schematic view of the structure of the driving pushrod according to the present invention.

Fig. 8 is a partially enlarged schematic view at B in fig. 7.

Fig. 9 is a partially enlarged schematic view at C in fig. 7.

Fig. 10 is a schematic view of the structure of the support base of the present invention.

Fig. 11 is a partially enlarged schematic view of fig. 10 at D.

Fig. 12 is a schematic view of the structure of the polishing motor of the present invention.

Fig. 13 is a schematic view of a structure of one place of the unfolding slat of the present invention.

Fig. 14 is a schematic view of the structure of the second spreading slat of the present invention.

Fig. 15 is a schematic view of the structure of the three deployed slats of the present invention.

Fig. 16 is a schematic view of the sanding assembly of the present invention in an expanded configuration.

Fig. 17 is a bottom view of the sanding assembly of the present invention in an expanded condition.

Reference numerals: 101-a bottom plate; 102-a position-adjusting motor; 103-rotating plate; 104-an auxiliary electric cylinder; 105-fixed electric cylinder; 106-supporting rollers; 107-grinding roller; 108-supporting a driving plate; 109-a support floor; 110-auxiliary circular plate; 111-auxiliary laths; 112-support rack; 113-a driven gear; 114-an extension gear; 115-auxiliary ring plates; 116-adjusting ring plates; 117-fixing the bracket; 118-supporting the motor; 119-a drive gear; 120-driving a motor; 121-restraining the lath; 122-unfolding motor; 123-unfolding a screw rod; 124-deploying the skateboard; 125-spreading out the first slat; 126-spreading out the second slat; 127-spreading out the third slat; 128-a deployment gear; 129-deploy rack one; 130-unfolding a second rack; 131-driving the slide bar; 132-auxiliary push plate; 133-a grinding motor; 134-a bar-shaped slide; 135-limiting blocks; 136-an auxiliary limiting block; 137-drive push rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: referring to fig. 1-17, a surface treatment device for processing an annular silica gel belt comprises a bottom plate 101, wherein a supporting component is arranged on the bottom plate 101 and comprises a rotating plate 103, the rotating plate 103 is rotatably arranged on the bottom plate 101, a positioning motor 102 is fixedly arranged on the side surface of the bottom plate 101, an output shaft of the positioning motor 102 is fixedly connected with the rotating plate 103, a supporting driving plate 108 is slidably arranged on the rotating plate 103, a fixed electric cylinder 105 is symmetrically and fixedly arranged on the rotating plate 103, and a piston rod end of the fixed electric cylinder 105 is fixedly connected with the supporting driving plate 108.

The lower surface of the support driving plate 108 is fixedly provided with a support bottom plate 109, 3 support racks 112 are uniformly and slidably arranged on the support bottom plate 109, the end parts of the support racks 112 are respectively and rotatably provided with one of the support racks 112 of the support roller 106,3, a driving motor 120 is fixedly arranged on one of the support racks 112, and an output shaft of the driving motor 120 is fixedly connected with the corresponding support roller 106.

The fixed support 117 is fixedly mounted on the support base plate 109, the driving gear 119 is rotatably mounted on the fixed support 117, the support motor 118 is fixedly mounted on the fixed support 117, an output shaft of the support motor 118 is fixedly connected with the driving gear 119, 3 extending gears 114 are rotatably mounted on the support base plate 109, the extending gears 114 are meshed with corresponding support racks 112 to form a gear rack pair, the driven gears 113 are fixedly mounted on the extending gears 114, the driven gears 113 are meshed with the driving gears 119 to form a gear pair, in an initial state, the support roller 106 is located at a position closest to the center of a circle of the driving gear 119, and the support base plate 109 is located at a position closest to the rotating plate 103.

The positioning motor 102 is started to drive the rotating plate 103 to rotate, the lower end face of the supporting roller 106 is parallel to the upper surface of the bottom plate 101, the annular silica gel belt is placed on the bottom plate 101, the fixed electric cylinder 105 is started to drive the supporting driving plate 108 to move downwards, namely, the supporting bottom plate 109 is moved downwards, so that after the 3 supporting rollers 106 pass through the middle of the annular silica gel belt, the lower end face of the supporting roller 106 is contacted with the surface of the bottom plate 101, the supporting motor 118 is started to drive the driving gear 119 to rotate, namely, the 3 driven gears 113 are rotated, the stretching gear 114 and the driven gears 113 synchronously rotate, so that the 3 supporting racks 112 are driven to move in a direction far away from the supporting motor 118, namely, the 3 supporting rollers 106 are driven to move in a direction far away from the supporting motor 118, and finally, the 3 supporting rollers 106 are contacted with the inner side of the annular silica gel belt, namely, the supporting and fixing of the annular silica gel belt is realized through the 3 supporting rollers 106.

Be provided with auxiliary assembly on the bottom plate 101, auxiliary assembly includes 3 auxiliary laths 111, the tip fixed mounting of support rack 112 has auxiliary annular plate 115, auxiliary lath 111 and corresponding auxiliary annular plate 115 sliding fit, all fixed mounting has regulation annular plate 116 on the auxiliary lath 111, fixed mounting has auxiliary electric jar 104 on the support drive plate 108, auxiliary circular plate 110 is fixed with to the piston rod end of auxiliary electric jar 104, auxiliary lath 111 all and auxiliary circular plate 110 sliding fit, regulation annular plate 116 and backing roll 106 do not contact, during the initial state, auxiliary circular plate 110 is located the nearest position of distance swivel plate 103.

When the support rack 112 slides in a direction away from the support motor 118, the support rack 112 and the auxiliary slat 111 are in sliding fit, so that the auxiliary slat 111 and the support rack 112 slide in a direction away from the support motor 118 synchronously, namely, the auxiliary slat 111 slides on the auxiliary circular plate 110, after the support roller 106 finishes supporting and fixing the annular silicon tape, the auxiliary cylinder 104 is started to drive the auxiliary circular plate 110 to move downwards, namely, the 3 auxiliary slats 111 move downwards, and then the 3 adjusting ring plates 116 move downwards relative to the auxiliary ring plates 115, so that the 3 adjusting ring plates 116 contact the side surface of the annular silicon tape fixed on the support roller 106, namely, under the action of the 3 adjusting ring plates 116, the side surface of the annular silicon tape fixed on the support roller 106 is parallel to the upper surface of the bottom plate 101, namely, the position adjustment of the annular silicon tape fixed on the support roller 106 is finished.

The bottom plate 101 is provided with a polishing assembly, the polishing assembly comprises a second unfolding plate 126, a fixed electric cylinder 105 is slidably mounted on a supporting bottom plate 109, limiting blocks 135 are fixedly mounted on two sides of the first unfolding plate 125, auxiliary limiting blocks 136 are symmetrically and fixedly arranged on the supporting bottom plate 109, the limiting blocks 135 and the auxiliary limiting blocks 136 are used for limiting the sliding positions of the first unfolding plate 125, one end of the second unfolding plate 126 is rotationally connected with the first unfolding plate 125, a third unfolding plate 127 is rotationally mounted on the other end of the second unfolding plate 126, a strip-shaped sliding seat 134 is slidingly mounted on the third unfolding plate 127, the strip-shaped sliding seat 134 is movably connected with the first unfolding plate 125, a polishing roller 107 is rotationally mounted on the strip-shaped sliding seat 134, a polishing motor 133 is fixedly mounted on the strip-shaped sliding seat 134, and an output shaft of the polishing motor 133 is fixedly connected with the polishing roller 107.

The expansion slide plate 124 is slidably mounted on the support bottom plate 109, the expansion screw rod 123 is rotatably mounted on the support bottom plate 109, the expansion screw rod 123 and the expansion slide plate 124 form a screw pair, the expansion motor 122 is fixedly mounted on the support bottom plate 109, an output shaft of the expansion motor 122 is fixedly connected with the expansion screw rod 123, the auxiliary push plate 132 is fixedly mounted on the end, closest to the center of the expansion motor 122, of the expansion first plate 125, the auxiliary push plate 132 is slidably matched with the expansion slide plate 124, and a spring is arranged between the expansion slide plate 124 and the auxiliary push plate 132.

The side surface of the first unfolding slat 125 is slidably provided with a second unfolding rack 130, a spring is arranged between the first unfolding slat 125 and the second unfolding rack 130, the end, closest to the unfolding motor 122, of the second unfolding slat 126 is provided with a plurality of teeth, the second unfolding rack 130 and the second unfolding slat 126 are meshed to form a gear rack pair, the unfolding slide plate 124 is slidably provided with a driving slide bar 131, a spring is arranged between the driving slide bar 131 and the unfolding slide plate 124, the strength of the spring between the unfolding slide plate 124 and the driving slide bar 131 is greater than that between the second unfolding rack 130 and the first unfolding slat 125, and the strength of the spring between the unfolding slide plate 124 and the driving slide bar 131 is greater than that between the unfolding slide plate 124 and the auxiliary push plate 132.

The first unfolding slat 125 is provided with a strip-shaped chute, the strip-shaped sliding seat 134 moves on the strip-shaped chute of the first unfolding slat 125, the end, closest to the unfolding motor 122, of the second unfolding slat 126 is provided with a chute, and the strip-shaped sliding seat 134 is movably connected with the second unfolding slat 126.

The second unfolding plate 126 is slidably provided with a first unfolding rack 129, a spring is arranged between the second unfolding plate 126 and the first unfolding rack 129, the third unfolding plate 127 is fixedly provided with a second unfolding gear 128, the first unfolding gear 128 and the first unfolding rack 129 are meshed to form a gear rack pair, the second unfolding plate 124 is fixedly provided with a driving push rod 137, the driving push rod 137 is used for pushing the first unfolding rack 129 to slide, the supporting bottom plate 109 is fixedly provided with a limiting plate 121, the limiting plate 121 is used for limiting the rotation position of the second unfolding plate 126, in the initial state, the polishing roller 107 is located at the center of the supporting bottom plate 109, the unfolding plate 124 is located at the position closest to the unfolding motor 122, two sides of the first unfolding plate 125, two sides of the second unfolding plate 126 and two sides of the third unfolding plate 127 are parallel to the sides of the limiting plate 121, and when the first unfolding plate 129 and the second unfolding plate 130 are not subjected to external force, the third unfolding plate 127 and the second unfolding plate 126 cannot rotate freely under the action of the spring between the first unfolding plate 129 and the second unfolding plate 126, and the sliding seat 134 cannot move under the action of the second unfolding plate 126.

In the initial state, when the polishing assembly is in the folded state (as shown in fig. 5 and 6), and the position of the polishing roller 107 needs to be adjusted, the unfolding motor 122 is started to drive the unfolding screw rod 123 to rotate, so that the unfolding slide plate 124 slides in a direction away from the unfolding motor 122, and further under the action of the spring between the unfolding slide plate 124 and the auxiliary push plate 132, the auxiliary push plate 132 slides in a direction away from the unfolding motor 122, so that the unfolding slat 125 slides in a direction away from the unfolding motor 122, until the limiting block 135 contacts with the auxiliary limiting block 136, the limiting block 135 cannot move continuously under the action of the auxiliary limiting block 136, namely, the unfolding slat 125 cannot move continuously in a direction away from the unfolding motor 122.

The expansion slide plate 124 is driven to move in a direction away from the expansion motor 122 continuously, the expansion slat I125 cannot move continuously, namely the auxiliary push plate 132 cannot move continuously, namely the spring between the auxiliary push plate 132 and the expansion slide plate 124 is compressed, the strength of the spring between the driving slide rod 131 and the expansion slide plate 124 is larger than that of the spring between the expansion rack II 130 and the expansion slat I125, the expansion rack II 130 slides relative to the expansion slat I125 under the action of the driving slide rod 131, the spring between the expansion slat I125 and the expansion rack II 130 is compressed, the expansion slat II 126 is driven to rotate under the action of the expansion rack II 130, the expansion slat III 127 and the expansion slat II 126 synchronously rotate under the action of the expansion slat III 127 and the expansion gear 128, finally the side surface of the expansion slat II 126 contacts the limiting slat 121, the expansion slat II 126 cannot rotate continuously under the action of the limiting slat 121, namely the side surface of the expansion rack I129 and the side surface of the expansion slat 125 are parallel, and the two side surfaces of the expansion slat I125 coincide.

Continuing to drive the expansion slide plate 124 to move towards the direction away from the expansion motor 122, so that the driving push rod 137 contacts the expansion rack one 129, and as the expansion rack two 130 cannot continue to move, the spring between the driving slide rod 131 and the expansion slide plate 124 is compressed, under the action of the driving push rod 137, the expansion rack one 129 moves towards the direction away from the expansion motor 122, namely, the spring between the expansion rack one 129 and the expansion slide plate two 126 is compressed, under the action of the expansion rack one 129, the expansion gear 128 rotates, and then the expansion slide plate three 127 rotates, namely, the expansion slide plate three 127 rotates towards the direction away from the center of the supporting bottom plate 109, and as the strip slide 134 is slidably mounted on the expansion slide plate three 127, the strip slide 134 is movably connected with the expansion slide plate one 125, namely, under the action of the expansion slide plate one 125 and the expansion slide plate three 127, namely, the strip slide 134 slides towards the direction away from the expansion motor 122, namely, the expansion of the polishing assembly is realized (as shown in fig. 16 and 17).

Working principle: when the outer side surface of the annular silica gel is required to be polished, the unfolding motor 122 is started to drive the unfolding slide plate 124 to slide in a direction away from the unfolding motor 122, and under the action of the unfolding first strip 125, the unfolding second strip 126, the unfolding third strip 127 and the strip-shaped sliding seat 134, the polishing roller 107 moves to a position farthest from the unfolding motor 122.

Then place annular silica gel area on bottom plate 101, start fixed cylinder 105 makes backing roll 106 lower extreme contact to the bottom plate 101 surface, start back-up motor 118 drive gear 119 again and rotate, and then make 3 backing rolls 106 to keeping away from the direction removal of backing plate 109 center, realize that 3 backing rolls 106 are fixed to the support of annular silica gel area promptly, restart supplementary cylinder 104 drive supplementary plectane 110 and move downwards, even make 3 regulation annular lamina 116 move downwards, accomplish the regulation to the annular silica gel area position on backing roll 106, avoid annular silica gel area when moving on backing roll 106, the offset in position leads to breaking away from.

Then, the unfolding motor 122 is started to drive the unfolding sliding plate 124 to move towards the direction close to the unfolding motor 122, namely the polishing roller 107 moves towards the direction close to the unfolding motor 122, namely the polishing roller 107 contacts the outer side face of the annular silica gel belt, the driving motor 120 is started to drive the corresponding supporting roller 106 to rotate, further the annular silica gel belt rotates on the supporting roller 106, and then the polishing motor 133 is started to drive the polishing roller 107 to rotate, so that polishing treatment on the outer side face of the annular silica gel belt is realized.

When the inner side surface of the annular silica gel belt is to be polished, the polishing assembly is in a folded state, namely the polishing roller 107 is positioned at the position closest to the unfolding motor 122, the annular silica gel belt is supported and fixed through the supporting roller 106, then the position of the annular silica gel belt on the supporting roller 106 is regulated under the action of the regulating ring plate 116, the unfolding motor 122 is started to drive the unfolding sliding plate 124 to move in the direction away from the unfolding motor 122, namely the polishing roller 107 moves in the direction away from the unfolding motor 122, namely the polishing roller 107 contacts the inner side surface of the annular silica gel belt, the driving motor 120 is started to drive the annular silica gel belt to rotate on the supporting roller 106, and the polishing motor 133 is started to drive the polishing roller 107 to rotate, so that the polishing treatment on the inner side surface of the annular silica gel belt is realized.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (4)

1. Surface treatment device for annular silica gel area processing, including bottom plate (101), its characterized in that:

the supporting assembly comprises a supporting bottom plate (109), 3 supporting racks (112) are uniformly and slidably arranged on the supporting bottom plate (109), supporting rollers (106) are rotatably arranged at the ends of the supporting racks (112), the supporting rollers (106) are used for supporting the silicon rubber belt, the auxiliary assembly comprises 3 auxiliary slats (111), an auxiliary annular plate (115) is fixedly arranged at the ends of the supporting racks (112), the auxiliary slats (111) are in sliding fit with the corresponding auxiliary annular plates (115), adjusting annular plates (116) are fixedly arranged on the auxiliary slats (111), and the adjusting annular plates (116) are used for adjusting the positions of the silicon rubber belt on the supporting rollers (106);

the polishing device is characterized in that a polishing assembly is further arranged above the bottom plate (101), the polishing assembly comprises a first unfolding slat (125), a second unfolding slat (126) is rotatably arranged on the first unfolding slat (125), a third unfolding slat (127) is rotatably arranged on the second unfolding slat (126), a strip-shaped sliding seat (134) is slidably arranged on the third unfolding slat (127), the strip-shaped sliding seat (134) is movably connected with the first unfolding slat (125), a polishing roller (107) is rotatably arranged on the strip-shaped sliding seat (134), and the polishing roller (107) is used for polishing the surface of the silica gel belt;

the polishing assembly further comprises a unfolding sliding plate (124), the unfolding sliding plate (124) is slidably mounted on the supporting bottom plate (109), the unfolding screw rod (123) is rotatably mounted on the supporting bottom plate (109), the unfolding screw rod (123) and the unfolding sliding plate (124) form a screw pair, the unfolding first plate (125) is slidably mounted on the supporting bottom plate (109), an auxiliary pushing plate (132) is fixedly mounted at the end part of the unfolding first plate (125), and the auxiliary pushing plate (132) is in sliding fit with the unfolding sliding plate (124);

one end of the second unfolding slat (126) is rotationally connected with the first unfolding slat (125), the other end of the second unfolding slat (126) is rotationally connected with the third unfolding slat (127), a second unfolding rack (130) is slidably arranged on the side surface of the first unfolding slat (125), a plurality of teeth are arranged on the second unfolding slat (126) and the rotating end of the first unfolding slat (125), the second unfolding rack (130) and the second unfolding slat (126) are meshed to form a gear rack pair, a driving sliding rod (131) is slidably arranged on the unfolding sliding plate (124), and the driving sliding rod (131) is used for pushing the second unfolding rack (130) to slide;

the first unfolding slat (125) is provided with a strip-shaped chute, the strip-shaped sliding seat (134) moves on the strip-shaped chute of the first unfolding slat (125), the second unfolding slat (126) is provided with a chute, two sides of the first unfolding slat (125) are fixedly provided with limiting blocks (135), the supporting bottom plate (109) is symmetrically and fixedly provided with auxiliary limiting blocks (136), and the limiting blocks (135) and the auxiliary limiting blocks (136) are used for limiting the sliding position of the first unfolding slat (125);

the unfolding rack I (129) is slidably mounted on the unfolding rack II (126), the unfolding gear (128) is fixedly mounted on the unfolding rack III (127), the unfolding gear (128) and the unfolding rack I (129) are meshed to form a gear rack pair, the unfolding slide plate (124) is fixedly provided with a driving push rod (137), the driving push rod (137) is used for pushing the unfolding rack I (129) to slide, the supporting bottom plate (109) is fixedly provided with a limiting rack (121), and the limiting rack (121) is used for limiting the rotating position of the unfolding rack II (126).

2. The surface treatment device for processing an annular silica gel belt according to claim 1, wherein: the support assembly further comprises a rotating plate (103), the rotating plate (103) is rotatably arranged on the bottom plate (101), a support driving plate (108) is slidably arranged on the rotating plate (103), the support driving plate (108) is fixedly connected with the support bottom plate (109), and a fixing bracket (117) is fixedly arranged on the support bottom plate (109).

3. The surface treatment device for processing an annular silica gel belt according to claim 2, wherein: the fixed support (117) is rotatably provided with a driving gear (119), the supporting bottom plate (109) is rotatably provided with 3 extending gears (114), the extending gears (114) are meshed with corresponding supporting racks (112) to form a gear-rack pair, the extending gears (114) are fixedly provided with driven gears (113), and the driven gears (113) are meshed with the driving gears (119) to form a gear pair.

4. A surface treatment device for processing an annular silica gel belt according to claim 3, wherein: the auxiliary assembly further comprises an auxiliary electric cylinder (104) fixedly mounted on the supporting driving plate (108), an auxiliary circular plate (110) is fixedly mounted at the piston rod end of the auxiliary electric cylinder (104), and the auxiliary laths (111) are in sliding fit with the auxiliary circular plate (110).