CN113800282A - Dust collecting mechanism of sheet transfer machine - Google Patents

Abstract

The invention provides a dust collecting mechanism of a sheet transfer machine, which is characterized in that a material placing seat is arranged above a frame of a transfer platform, a plurality of supporting walls which are transversely arranged at intervals are arranged on a supporting part on the surface of the material placing seat, a transfer piece for placing sheets is positioned on a bearing surface above each supporting wall, a dust falling area for dust to fall is formed between each two adjacent supporting walls, the dust collecting mechanism comprises a dust collecting body and a driving device which are arranged above the transfer platform, an air suction unit is communicated with an air suction chamber behind the dust collecting body, an air injection unit is communicated with an air injection chamber below the dust collecting body, when the driving device drives the dust collecting body to be close to the material placing seat downwards, air can be blown in by an external air pressure source through an air supply pipe, the air injection unit blows up dust accumulated in the dust falling area, air is sucked by the external air pressure source through an air exhaust pipe, and the air suction unit can quickly suck the flying dust into the air suction chamber, the dust collecting effect can be improved, and the production yield can be improved.

Description

Dust collecting mechanism of sheet transfer machine

Technical Field

The invention relates to a dust collecting mechanism of a plate transfer machine, in particular to a transfer platform which is provided with a material placing seat, and a transfer piece for placing a plate is positioned on a supporting part of the material placing seat, so that a driving device can drive a dust collecting body to approach the material placing seat, and a suction nozzle unit can cooperate with an air injection unit to quickly suck dust flying on the material placing seat, and the dust collecting effect can be further improved.

Background

The rapid development of technology and information nowadays makes various electronic products or devices on the market continuously come out of date, and a Printed Circuit Board (PCB) for electronic components is mostly arranged inside the electronic products or devices, i.e. electronic circuits formed by the printed circuit board can be carried by electronic components with different functions or actions, so that the electronic products or devices can exert their own functions, and as the application of the circuit board is more extensive, related process equipment manufacturers are also more actively invested in research and development.

The circuit board can be divided into a hard board and a soft board according to its flexibility; if the shape of the composite board can be divided into a single-sided board, a double-sided board and a multi-layer board; the material includes a paper-based copper clad laminate, a composite substrate, a glass fiber cloth copper clad laminate, a soft or hard copper clad laminate, a ceramic substrate, a metal substrate, a thermoplastic substrate, etc., the Copper Clad Laminate (CCL) is an indispensable key material in the manufacturing process of circuit boards, and is a laminate formed by laminating a Pre Preg (also called a prepreg) obtained by impregnating insulating paper, glass fiber cloth or other fiber materials with resin and copper foil at high temperature and high pressure, before the adhesive film is processed, the adhesive film is rolled in a continuous winding mode to form a material belt, and after the processes of slitting, slicing and the like, the cut adhesive films can be superposed together and heated to a certain range, and pressing and curing the copper clad laminate into a substrate with the required thickness, and then laminating and curing one or two sides of the substrate to form a copper clad laminate.

In order to meet the requirements of manufacturing copper foil substrates, printed circuit boards and other plates, a continuous adhesive film is sent into a cutting machine to be cut into sheet adhesive films, the adhesive films can be stacked on a pallet in a staggered manner after passing through an automatic stacking machine, and then the sheets are conveyed to a subsequent work station by a connecting device or manually to be produced, but the continuous adhesive film can generate a large amount of dust, particles and the like in the multiple cutting processes, if the dust, the particles and the like are not removed in time, on one hand, the processing precision and the qualification rate of the adhesive film can be directly influenced, the quality of subsequent production is reduced, on the other hand, a cutting tool is damaged, the service life is shortened and the like, so that most of production and processing equipment related to common circuit boards has a dust collection design, and reasonable air volume and negative pressure calculation can be carried out according to the size of a dust collection opening and the working environment (such as the type and the number of the machine stations are many), the present invention relates to a method for processing adhesive film, and more particularly to a method for processing adhesive film, which can process dust intensively, but when the adhesive film is used for subsequent transportation, stacking or separation, the adhesive film is pulled and moved to a platform by a clamping and moving machine, and during the pulling and moving process of the adhesive film, a small amount of dust is generated, so that how to design a moving machine which can rapidly absorb dust on the platform for centralized processing during the pulling and moving process of the adhesive film, so as to effectively improve the quality of production, which is an important subject and problem that manufacturers want to improve for a long time.

Disclosure of Invention

Therefore, in view of the above-mentioned shortcomings, the present inventors have collected relevant data, evaluated and considered in many ways, and made continuous trial and modification based on years of experience accumulated in the industry, and originally invented and patented the dust collecting mechanism of the sheet transfer machine.

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

the utility model provides a piece moves collection dirt mechanism that carries machine which characterized in that includes:

a shifting platform is provided with a frame, at least one material placing seat is arranged above the frame, a supporting part on the surface of the material placing seat is provided with a plurality of supporting walls which are transversely arranged at intervals, a bearing surface is formed above the plurality of supporting walls, at least one shifting piece for placing a sheet piece on the bearing surface is positioned on the bearing surface, and dust falling areas for dust on the surface of the sheet piece to fall into are respectively formed between the plurality of supporting walls; and

the dust collection mechanism is arranged above the transfer platform and comprises a dust collection body and a driving device for driving the dust collection body to approach the material placing seat, the dust collection body comprises at least one air suction chamber, a dust collection space with at least one end connected with an external air pressure source through an exhaust air pipe is formed in the air suction chamber, and the air suction chamber is communicated with an air suction unit for sucking dust into the dust collection space and then discharging the dust through the exhaust air pipe.

The slab moves collection mechanism of machine that carries, wherein: the stand top department that should move the platform sets up the material seat of a plurality of arrays side by side to standing form supporting part in this plural material seat has along moving and moving the plural support wall that extends and control interval arrangement around the direction, and the outside expansion in this plural each support wall top is formed with the accepting face of flute profile.

The slab moves collection mechanism of machine that carries, wherein: the transfer piece is a rolling rod made of glass or high polymer polyethylene.

The slab moves collection mechanism of machine that carries, wherein: the clamping and transferring seat is arranged above the frame of the transferring platform, the clamping and transferring mechanism is reciprocated back and forth along the transferring direction of the plate, and a plurality of clamping units for pressing and clamping the plate are transversely arranged on the clamping and transferring seat at intervals.

The slab moves collection mechanism of machine that carries, wherein: the driving device of the dust collecting mechanism is provided with a lifting cylinder arranged on the clamping and transferring seat, and is connected above the dust collecting body below the lifting cylinder through a fixed seat so as to drive the dust collecting body to be close to a dust falling area of the material placing seat.

The slab moves collection mechanism of machine that carries, wherein: the dust collecting mechanism has one air sucking unit below the dust collecting body and with several air sucking ports communicated to the air sucking chamber, and the dust collecting space inside the air sucking chamber is made to suck air via the outer air pressure source to form negative pressure state.

The slab moves collection mechanism of machine that carries, wherein: the dust collecting mechanism has one dust collecting body with one air sucking unit in the back and at least one air jetting chamber with one end connected via air supplying pipe to the outer air pressure source and below the air sucking chamber and communicated with the air jetting unit for blowing the dust inside the dust falling area of the material setting seat or on the surface of the plate.

The slab moves collection mechanism of machine that carries, wherein: the air suction unit is provided with a plurality of air suction ports which are communicated with the air suction chamber in a straight line shape, and the dust collection space in the air suction chamber is sucked by the external air pressure source to form a negative pressure state.

The slab moves collection mechanism of machine that carries, wherein: the air injection unit is provided with a plurality of air injection ports which are communicated with the air injection chamber in a straight line shape.

The slab moves collection mechanism of machine that carries, wherein: the driving device of the dust collecting mechanism is provided with a lifting cylinder, and the lower part of a push rod of the lifting cylinder is connected above the dust collecting body through a fixed seat so as to drive the dust collecting body to be close to a dust falling area of the material placing seat.

The main advantages of the invention are that the material placing seat is arranged on the moving platform above the frame, the supporting part on the surface of the material placing seat is provided with a plurality of supporting walls which are transversely arranged at intervals, the bearing surface above each supporting wall is provided with a moving part for placing the sheet, a dust falling area for the dust on the surface of the sheet to fall into is respectively formed between each two adjacent supporting walls, the dust collecting mechanism arranged above the moving platform comprises a dust collecting body and a driving device, an air suction chamber below the dust collecting body is communicated with an air suction unit, when the driving device drives the dust collecting body to be close to the material placing seat downwards, air suction can be carried out through an exhaust air pipe by an external air pressure source, so that the dust accumulated in the dust falling area or on the surface of the sheet can be quickly sucked into a dust collecting space of the air suction chamber through the air suction unit to form a negative pressure state, and then is intensively discharged to the outside through the exhaust air pipe, or can be further discharged to a dust collector for recycling treatment, so as to improve the quality and the qualification rate of the plate during the subsequent operations of conveying, stacking, separating and the like or production.

The secondary advantage of the invention lies in that the dust collecting body of the dust collecting mechanism is provided with an air suction unit communicated with the air suction chamber at the rear part, and the dust collecting body also comprises an air spraying chamber positioned below the air suction chamber, and the air spraying chamber is communicated with air spraying units forming different sides with the air suction unit.

Another advantage of the present invention is that a clamping and transferring mechanism is disposed above the frame of the transferring platform, and after one of the sheets is clamped by the plurality of clamping units on the clamping and transferring base, the sheet is pulled backwards to transfer the sheet to the plurality of transferring members on the material placing base, and each transferring member can be a rolling rod made of glass or high molecular polyethylene material, so as to reduce dust generated by contact friction between the sheet and the transferring member or prevent surface scratch thereof.

The dust collecting device has the advantages that the driving device of the dust collecting mechanism is provided with the lifting cylinder, the lifting cylinder is arranged on the clamping and transferring seat of the clamping and transferring mechanism, the lower part of the push rod of the lifting cylinder is connected above the dust collecting body through the fixed seat, and in the process of sucking dust by the air suction unit of the dust collecting body, the clamping and transferring mechanism can be synchronously driven, so that the air suction unit moves and sucks out the dust on the material placing seat rapidly, and the dust collecting effect can be ensured.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of the present invention.

Fig. 2 is a front view of the preferred embodiment of the present invention.

Fig. 3 is a rear view schematically illustrating the driving device of the present invention driving the dust collecting body to approach toward the material placing seat of the transferring platform.

Fig. 4 is a rear view schematically illustrating the dust collecting body of the present invention sucking out the dust in the dust falling area from the material placing base by the air sucking unit.

Fig. 5 is a rear view of the dust collecting body according to another preferred embodiment of the present invention, wherein the air injection unit injects air towards the material placing base and the air suction unit sucks out dust in the dust falling area.

Description of reference numerals: 1-a transfer platform; 11-a frame; 12-a material placing seat; 120-a dust falling area; 121-a support; 1211 — a support wall; 1212-a bearing surface; 122-a transfer member; 13-a gripping transfer mechanism; 131-a gripping and transfer seat; 132-a gripping unit; 14-a correction mechanism; 141-correcting the transfer seat; 142-a pneumatic gripper; 15-a pallet; 2-a dust collecting mechanism; 21-dust collecting body; 210-a dust collecting space; 211-a suction chamber; 212-a suction unit; 2121-suction port; 213-an air injection chamber; 214-a gas injection unit; 2141-gas injection holes; 22-a drive device; 221-a lifting cylinder; 2211-push rod; 222-a fixed seat; 3-a plate sheet; 31-dust.

Detailed Description

To achieve the above objects and advantages, the present invention provides a technical solution and a structure thereof, wherein the structure and function of the preferred embodiment of the present invention are described in detail as follows for a complete understanding.

Referring to fig. 1 to 4, there are shown a perspective view, a front view, a rear view of a driving device driving a dust collecting body to approach toward a material placing seat of a transfer platform, and a rear view of the dust collecting body sucking out dust in a dust placing area from the material placing seat through an air suction unit, respectively, in accordance with a preferred embodiment of the present invention, as can be clearly seen from the drawings, a dust collecting mechanism of a sheet transfer machine according to the present invention includes a transfer platform 1 and a dust collecting mechanism 2, wherein:

the transfer platform 1 has a frame 11, and at least one material placing seat 12 is arranged above the frame 11, in the present embodiment, a plurality of material placing seats 12 are arranged side by side on the frame 11 to form an array, the material placing base 12 has a standing support 121 on the surface, and the support 121 has a plurality of support walls 1211 extending in the transfer direction (i.e., X-axis direction) in the front-back direction and arranged at left-right intervals (i.e., Y-axis direction), a concave receiving surface 1212 is formed on each support wall 1211 and is outwardly expanded, and at least one transferring member 122 for placing the plate 3 thereon is positioned on the receiving surface 1212, and a groove-shaped dust falling area 120 for the dust 31 on the plate 3 to fall into is formed between each two adjacent supporting walls 1211, and the moving member 122 can be a rolling rod made of glass or high polymer polyethylene (UPE) material for reducing the dust generated by contact friction with the plate 3 or preventing the surface thereof from being scratched, etc.

Furthermore, a clamping and transferring seat 131 of the clamping and transferring mechanism 13 is disposed above the frame 11 of the transferring platform 1, a plurality of lifting cylinders of the clamping and transferring unit 132 are transversely arranged at intervals on a cross beam of the clamping and transferring seat 131, a transverse telescopic cylinder is connected below a push rod of the lifting cylinder through a pressing plate, a slide shovel and a pressing cylinder which can swing up and down are respectively connected in front of the push rod of the telescopic cylinder through the clamping plate, a clamping head is connected below a push rod of the pressing cylinder for pressing and clamping the sheet 3, an X-axis driving mechanism is connected on support arms at two sides of the cross beam of the clamping and transferring seat 131, a motor of the X-axis driving mechanism is connected with two linear slide rails through a belt pulley in a transmission manner, and the two linear slide rails are respectively connected on the two support arms, so that the clamping and transferring seat 131 can be driven by the X-axis driving mechanism to make the clamping and transferring unit 132 reciprocate back and forth along the transferring direction, to complete the transfer of the sheet 3.

In addition, the transfer platform 1 is provided with a plurality of correction transfer seats 141 of the correction mechanism 14 in the vertical direction (i.e. Y-axis direction) of the supporting wall 1211 of the material placing seat 12, and pneumatic clamping jaws 142 are provided on the correction transfer seats 141 for clamping the edge of the sheet 3 transferred to the material placing seat 12, and the support arms of the correction transfer seats 141 are respectively connected with Y-axis driving mechanisms, and the motors of the two Y-axis driving mechanisms can drive nut supports by screw transmission, and each nut support is respectively connected to the support arm, so that the Y-axis driving mechanism can drive the correction transfer seats 141 to reciprocate left and right along the Y-axis direction, thereby completing the left and right position correction positioning action of the sheet 3 with different widths.

The dust collecting mechanism 2 comprises a dust collecting body 21 and a driving device 22, wherein the dust collecting body 21 comprises at least one air suction chamber 211 extending along the length direction, a dust collecting space 210 in a negative pressure state is formed inside the air suction chamber 211, at least one end of the air suction chamber 211 is connected to an external air pressure source (such as an air suction pump or an air compressor) through an exhaust air pipe, the dust collecting body 21 is provided with an air suction unit 212 below in the present embodiment, the air suction unit 212 is provided with a plurality of air suction ports 2121 communicated with the air suction chamber 211 in a straight line shape, but in practical application, the air suction unit 212 can be arranged at one side (such as the rear) of the dust collecting body 21, the air suction unit 212 comprises a plurality of adapter pipes with one ends communicated with the air suction chamber 211, and suction nozzles are respectively arranged at the other ends bent downwards in an adapter pipe, so that the air suction chamber 211 of the dust collecting body 21 can be sucked through the exhaust air pipe by the external air pressure source to form a negative pressure state, causing the suction unit 212 to generate suction.

In addition, the driving device 22 is disposed at the center of the clamping and transferring seat 131 of the clamping and transferring mechanism 13, and has a lifting cylinder 221, wherein the lifting cylinder 221 is connected to the rear of the beam of the clamping and transferring seat 131 through a fixing plate, and the lower portion of the push rod 2211 of the lifting cylinder 221 is connected to the upper portion of the dust collecting body 21 through a fixing seat 222, and the dust collecting body 21 and the driving device 22 can be synchronously driven to reciprocate back and forth along the transferring direction during the process of transferring the sheet 3 by the clamping and transferring mechanism 13.

When the dust collecting mechanism of the plate transfer machine of the present invention is used, the driving control system is used in conjunction with the external air pressure source to perform the driving and control operations, real-time detection and status diagnosis related to the transfer platform 1 and the dust collecting mechanism 2, wherein the clamping and transfer mechanism 13 can use the X-axis driving mechanism to drive the clamping and transfer seat 131 to displace towards the stacked plates 3 on the front pallet 15, and clamp one of the plates 3 by the clamping unit 132, and then pull the plate 3 backwards to transfer onto the material placing seat 12 of the frame 11, when the plate 3 is transferred to the position of the correcting mechanism 14, the Y-axis driving mechanism will drive the correcting and transfer seat 141 to displace towards the edge of the plate 3, and after the pneumatic clamping jaw 142 clamps the edge of the plate 3, the plate 3 can be pulled to correct and position the left and right positions, and after the plate 3 completes the correcting action, the clamping and transfer mechanism 13 will transfer the plate 3 to the next position to perform the staggered stacking, or conveyed to a subsequent station for production.

In the process of cutting the sheet 3 for multiple times, the thicker the cross section of the sheet 3, the more the dust 31 is generated, and when the sheet 3 is transported, stacked or separated subsequently, some dust 31 may be generated, so that after the clamping and transferring mechanism 13 of the transferring platform 1 and the correcting mechanism 14 complete the transferring and positioning of the sheet 3, the dust 31 remained in the process of transferring the sheet 3 on each transferring member 122 of the drawing or placing base 12 falls into the dust falling area 120 between two adjacent supporting walls 1211 of the supporting portion 121, and the lifting cylinder 221 of the driving device 22 drives the dust collecting body 21 to approach the placing base 12, so that the plurality of air inlets 2121 of the air suction unit 212 below the dust falling area 120 are respectively close to the opening above the dust falling area 120, or the suction nozzle extends into the dust falling area 120, and the air suction operation can be performed by the air exhaust duct through the external air pressure source, so that the dust 31 accumulated in the dust falling area 120 or on the surface of the sheet 3 can be quickly sucked through the plurality of air inlets 2121 or suction nozzle of the air suction unit 212 The dust is sucked into the suction chamber 211 of the dust collecting body 21 and then is discharged to the outside through the exhaust air duct in a centralized manner, or can be further discharged to a dust collector, and is recycled through the steps of sieving, gravity separation and the like, so that the quality and the qualification rate of the subsequent production of the sheet 3 are improved, the suction unit 212 of the dust collecting body 21 can synchronously drive the dust collecting body 21 through the clamping and transferring mechanism 13 in the process of sucking the dust 31, and the suction unit 212 can move while quickly sucking the dust 31 on the material placing seat 12, so that the dust collecting effect can be further improved.

Referring to fig. 5, a dust collecting body according to another preferred embodiment of the present invention is shown in a rear view when the air blowing unit blows air toward the material placing base and the air suction unit sucks out dust in the dust falling area, the transfer platform 1 of the present embodiment is substantially the same as the transfer platform 1 shown in fig. 1 to 4 in structure and assembly, the two structures mainly comprise that the dust collecting body 21 of the dust collecting mechanism 2 also comprises an air spraying chamber 213, and at least one end of the air-jet chamber 213 is connected to an external air pressure source (such as a blower pump or a blower) through an air-supply duct, the dust collecting body 21 is provided with an air injection unit 214 at the center of the lower part of the air suction chamber 211, and the gas injection unit 214 has a plurality of gas injection ports 2141 which are linearly communicated with the gas injection chamber 213, so that the plural suction ports 2121 of the rear suction unit 212 and the plural air injection ports 2141 of the lower air injection unit 214 of the dust collection body 21 form suction flows and air injection flows in different sides or directions.

When the dust collecting mechanism 2 is to perform dust collecting operation on the material placing seat 12 of the transfer platform 1 or the sheet 3 on the material placing seat 12, the lifting cylinder 221 of the driving device 22 can drive the dust collecting body 21 to approach toward the material placing base 12 or the plate 3, so that the plurality of air outlets 2141 of the air injection unit 214 below the dust collecting body are respectively close to the opening above the dust falling area 120, so that air can be blown into the air injection chamber 213 of the dust collecting body 21 through the air supply pipe by an external air pressure source, and after the air is ejected through the plurality of air outlets 2141 of the air injection unit 214, the dust 31 accumulated in the dust falling area 120 or on the surface of the plate 3 can be blown up or scattered, and then the air suction operation is performed by the external air pressure source through the air exhaust duct, so that the plural air inlets 2121 of the air suction unit 212 at the rear of the dust collecting body 21 can simultaneously suck the flying dust 31 into the air suction chamber 211, and forms a circulating dust-collecting airflow which is then exhausted to the outside or recovered by a dust collector through an exhaust air duct.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. The utility model provides a piece moves collection dirt mechanism that carries machine which characterized in that includes:

a shifting platform is provided with a frame, at least one material placing seat is arranged above the frame, a supporting part on the surface of the material placing seat is provided with a plurality of supporting walls which are transversely arranged at intervals, a bearing surface is formed above the plurality of supporting walls, at least one shifting piece for placing a sheet piece on the bearing surface is positioned on the bearing surface, and dust falling areas for dust on the surface of the sheet piece to fall into are respectively formed between the plurality of supporting walls; and

the dust collection mechanism is arranged above the transfer platform and comprises a dust collection body and a driving device for driving the dust collection body to approach the material placing seat, the dust collection body comprises at least one air suction chamber, a dust collection space with at least one end connected with an external air pressure source through an exhaust air pipe is formed in the air suction chamber, and the air suction chamber is communicated with an air suction unit for sucking dust into the dust collection space and then discharging the dust through the exhaust air pipe.

2. The dust collecting mechanism of a sheet transfer machine according to claim 1, wherein: the stand top department that should move the platform sets up the material seat of a plurality of arrays side by side to standing form supporting part in this plural material seat has along moving and moving the plural support wall that extends and control interval arrangement around the direction, and the outside expansion in this plural each support wall top is formed with the accepting face of flute profile.

3. The dust collecting mechanism of a sheet transfer machine according to claim 2, wherein: the transfer piece is a rolling rod made of glass or high polymer polyethylene.

4. The dust collecting mechanism of a sheet transfer machine according to claim 1, wherein: the clamping and transferring seat is arranged above the frame of the transferring platform, the clamping and transferring mechanism is reciprocated back and forth along the transferring direction of the plate, and a plurality of clamping units for pressing and clamping the plate are transversely arranged on the clamping and transferring seat at intervals.

5. The dust collecting mechanism of a sheet transfer machine according to claim 4, wherein: the driving device of the dust collecting mechanism is provided with a lifting cylinder arranged on the clamping and transferring seat, and is connected above the dust collecting body below the lifting cylinder through a fixed seat so as to drive the dust collecting body to be close to a dust falling area of the material placing seat.

6. The dust collecting mechanism of a sheet transfer machine according to claim 1, wherein: the dust collecting mechanism has one air sucking unit below the dust collecting body and with several air sucking ports communicated to the air sucking chamber, and the dust collecting space inside the air sucking chamber is made to suck air via the outer air pressure source to form negative pressure state.

7. The dust collecting mechanism of a sheet transfer machine according to claim 1, wherein: the dust collecting mechanism has one dust collecting body with one air sucking unit in the back and at least one air jetting chamber with one end connected via air supplying pipe to the outer air pressure source and below the air sucking chamber and communicated with the air jetting unit for blowing the dust inside the dust falling area of the material setting seat or on the surface of the plate.

8. The dust collecting mechanism of a sheet transfer machine according to claim 7, wherein: the air suction unit is provided with a plurality of air suction ports which are communicated with the air suction chamber in a straight line shape, and the dust collection space in the air suction chamber is sucked by the external air pressure source to form a negative pressure state.

9. The dust collecting mechanism of a sheet transfer machine according to claim 7, wherein: the air injection unit is provided with a plurality of air injection ports which are communicated with the air injection chamber in a straight line shape.

10. The dust collecting mechanism of a sheet transfer machine according to claim 1, wherein: the driving device of the dust collecting mechanism is provided with a lifting cylinder, and the lower part of a push rod of the lifting cylinder is connected above the dust collecting body through a fixed seat so as to drive the dust collecting body to be close to a dust falling area of the material placing seat.

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