CN212329025U - Ceramic disc cleaning machine - Google Patents

Abstract

The utility model relates to a pottery dish cleaning machine, get a set mechanism, pottery dish transport mechanism, pottery dish wiper mechanism and pottery dish play set mechanism including the pottery dish, pottery dish wiper mechanism corresponds the output that sets up and get a set mechanism at the pottery dish, and pottery dish transport mechanism corresponds the setting in pottery dish wiper mechanism top, and pottery dish goes out a set mechanism and corresponds the output that sets up at pottery dish wiper mechanism. This pottery dish cleaning machine gets a mechanism, pottery dish transport mechanism, pottery dish wiper mechanism and pottery dish through the pottery dish and goes out mutually supporting of a mechanism, can scrub the pottery dish surface after the paster automatically, scrub efficiently, improved the cleanliness factor of product greatly to product quality has been guaranteed.

Description

Ceramic disc cleaning machine

The technical field is as follows:

the utility model relates to an electronic product processing technology field especially relates to a pottery dish cleaning machine.

Background art:

the demand of the semiconductor market in China for loading machines is rapidly increased, the labor force is in short supply, and the labor cost is continuously increased, so that the demand of manufacturers for automatic equipment is improved, and the semiconductor market packaging machine has obvious effects of reducing the production cost and improving the product yield.

The existing ceramic plate needs to be subjected to multiple processes such as cleaning, gluing, pasting, shoveling, storing and the like during processing. Especially ceramic disks, require cleaning of the surface after mounting. However, the cleaning mechanism in the related cleaning and pasting all-in-one machine only washes the surface of the ceramic disc, and the cleaning effect is poor and the cleaning efficiency is low.

The utility model has the following contents:

the utility model aims at the defect of prior art, provide a degree of automation height, cleaning efficiency height, can guarantee product quality's ceramic dish cleaning machine.

The utility model discloses a realize through following technical scheme: a ceramic disc cleaning machine comprises a ceramic disc taking mechanism, a ceramic disc carrying mechanism, a ceramic disc cleaning mechanism and a ceramic disc discharging mechanism;

the ceramic disc taking mechanism is used for automatically conveying ceramic discs and comprises a ceramic disc stacking assembly and a ceramic disc taking-out assembly, wherein the ceramic disc taking-out assembly is correspondingly arranged on one side of the ceramic disc stacking assembly and is used for taking out the ceramic discs in the ceramic disc stacking assembly and overturning the ceramic discs;

the ceramic disc carrying mechanism is used for grabbing ceramic discs and sending out the ceramic discs and comprises a guide rail assembly and a carrying manipulator assembly, wherein the carrying manipulator assembly is arranged on the guide rail assembly and can move up and down or left and right along the guide rail assembly;

the ceramic disc cleaning mechanism is used for cleaning a ceramic disc and comprises a cleaning groove, a cleaning disc, cleaning carrier rollers and a cleaning driving piece, wherein the cleaning carrier rollers are arranged in the cleaning groove and used for supporting the ceramic disc, the cleaning discs are arranged in a group and symmetrically arranged on two sides of the ceramic disc and used for cleaning two sides of the ceramic disc, and the cleaning driving piece is respectively connected with the cleaning carrier rollers and the cleaning disc and used for driving the cleaning carrier rollers and the cleaning disc to rotate;

the ceramic disc discharging mechanism is used for discharging the scrubbed ceramic discs and comprises a ceramic disc discharging component and a ceramic disc stacking component, wherein the ceramic disc discharging component is correspondingly arranged on one side of the ceramic disc stacking component and is used for overturning the ceramic discs and feeding the ceramic discs into the ceramic disc stacking component.

In order to stack or deposit ceramic dish just to be convenient for ceramic dish takes out one by one, the subassembly is stacked to ceramic dish includes lift driving piece and ceramic dish stacking frame, the lift driving piece can drive ceramic dish stacking frame and go up and down, evenly be provided with a plurality of groups from last to bottom in the ceramic dish stacking frame and be used for the level to place the locating rack of ceramic dish, have the cavity between the locating rack of same group.

In order to facilitate taking out the ceramic dish in stacking the subassembly from the ceramic dish, the ceramic dish takes out the subassembly and includes pulley group, pulley group translation driving piece, presss from both sides tight arm driving piece, roll-over stand and upset driving piece, pulley group corresponds the cavity below that sets up at the locating rack, pulley group translation driving piece can drive pulley group and shift out ceramic dish and stack the frame, the roll-over stand correspondence sets up in pulley group one side, the upset driving piece can drive the roll-over stand upset, press from both sides tight arm and be a pair of, set up on the roll-over stand, it is tight that the ceramic dish that the tight arm of clamp driving piece can drive the tight arm of clamp and.

In order to ensure the safety during turning and avoid the situation that the ceramic plate is deviated in position and cannot be clamped accurately, one side of the turning frame is provided with a positioning table for supporting the ceramic plate.

In order to guarantee effectiveness and rapidity of scrubbing, the guide rail subassembly includes horizontal guide rail, horizontal drive spare, perpendicular guide rail and vertical drive spare, perpendicular guide rail sets up on horizontal guide rail, and horizontal drive spare can drive perpendicular guide rail and remove along horizontal guide rail, the setting of transport manipulator subassembly is on perpendicular guide rail, and vertical drive spare can drive transport manipulator subassembly and remove along perpendicular guide rail, and the transport manipulator subassembly is including removing bracket and tray, the tray is a pair of, and two trays are fixed in removing the bracket bottom, forms between two trays and is used for holding up ceramic dish edge perpendicularly and avoid its passageway that drops.

In order to further improve the brushing efficiency, a plurality of sets of vertical guide rails are arranged on the horizontal guide rail, and a plurality of moving brackets are arranged on each vertical guide rail.

In order to avoid the ceramic disc from falling off, a pressing assembly for pressing the top end of the ceramic disc is arranged on the moving bracket.

Correspondingly, the ceramic disc cleaning mechanism is provided with a plurality of sets, and can be used for carrying out repeated brushing or subsequent drying.

In order to facilitate the sending out of the brushed ceramic disc, the ceramic disc sending-out component comprises a turnover power part, a turnover seat, a bracket driving part, a push plate driving part, a belt pulley group and a belt pulley group translation driving part, the overturning power part can drive the overturning seat to overturn, the overturning seat is provided with a roller for supporting the ceramic plate, the bracket is fixed on the roll-over stand, two supporting plates are fixed on the bracket, a channel for vertically supporting the edge of the ceramic disc and preventing the ceramic disc from falling is formed between the two supporting plates, a pressing wheel is fixed on one side of the bracket, the bracket driving piece can drive the bracket and the pressing wheel to lift, the push plate is correspondingly arranged on one side of the turnover seat, the push plate driving piece can drive the push plate to push the ceramic disc to move along the roller, the belt pulley group is correspondingly arranged on one side of the turnover seat, the belt pulley group translation driving piece can drive the belt pulley group to move so as to receive the ceramic disc pushed by the push plate and send the ceramic disc into the ceramic disc stacking assembly.

The utility model has the advantages that: this pottery dish cleaning machine gets a mechanism, pottery dish transport mechanism, pottery dish wiper mechanism and pottery dish through the pottery dish and goes out mutually supporting of a mechanism, can scrub the pottery dish surface after the paster automatically, scrub efficiently, improved the cleanliness factor of product greatly to product quality has been guaranteed.

Description of the drawings:

fig. 1 is a schematic perspective view of the ceramic disc cleaning machine of the present invention;

FIG. 2 is a schematic perspective view of the ceramic plate taking mechanism of the present invention;

fig. 3 is a schematic perspective view of the ceramic plate taking mechanism of the present invention in another direction;

fig. 4 is a schematic perspective view of the ceramic tray carrying mechanism of the present invention;

fig. 5 is a schematic perspective view of the ceramic plate cleaning mechanism of the present invention;

fig. 6 is a schematic perspective view of the ceramic tray feeding assembly according to the present invention.

The specific implementation mode is as follows:

the following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the protection scope of the present invention can be clearly and clearly defined.

As shown in fig. 1, the ceramic tray cleaning machine includes a ceramic tray taking mechanism 1, a ceramic tray carrying mechanism 2, a ceramic tray cleaning mechanism 3 and a ceramic tray discharging mechanism 4, wherein the ceramic tray cleaning mechanism 3 is correspondingly disposed at an output end of the ceramic tray taking mechanism 1, the ceramic tray carrying mechanism 2 is correspondingly disposed above the ceramic tray cleaning mechanism 3, and the ceramic tray discharging mechanism 4 is correspondingly disposed at an output end of the ceramic tray cleaning mechanism 3.

The ceramic disc taking mechanism shown in fig. 2 and 3 comprises a ceramic disc stacking assembly and a ceramic disc taking assembly, wherein the ceramic disc taking assembly is correspondingly arranged at the output end of the ceramic disc stacking assembly and is used for taking out the ceramic disc in the ceramic disc stacking assembly and turning the ceramic disc.

Ceramic dish stacks subassembly includes lifting drive spare 11 and ceramic dish and stacks frame 13, lifting drive spare 11 goes up and down through lifting plate 12 drive ceramic dish stack frame 13, evenly be provided with a plurality of groups from last to bottom in the ceramic dish stack frame 13 and be used for the level to place the locating rack 14 of ceramic dish for the ceramic dish stacks frame 13 formation multilayer formula at ceramic dish and stacks, has the cavity between the same group locating rack 14, so that the ceramic dish takes out the subassembly and takes out the ceramic dish from locating rack 14.

Ceramic dish takes out subassembly includes belt pulley group 18, belt pulley group translation driving piece, presss from both sides tight arm 17, presss from both sides tight arm driving piece, roll-over stand 15 and upset driving piece 19, belt pulley group 18 corresponds the cavity below that sets up at locating rack 14, belt pulley group translation driving piece can drive belt pulley group 18 and shift out ceramic dish stack frame 13, roll-over stand 15 corresponds the setting in belt pulley group 18 one side, roll-over driving piece 19 can drive roll-over stand 15 upset, and roll-over stand 15 one side is provided with the location platform 16 that is used for supporting ceramic dish, press from both sides tight arm 17 and be a pair of, set up on roll-over stand 15, it can drive tight arm 17 to press from both sides tight ceramic dish that belt pulley group 18 sent out to press.

When the ceramic disc stacking machine is used for processing, the pulley group translation driving piece drives the pulley group 18 to move into the ceramic disc stacking frame 13, the lifting driving piece 11 drives the ceramic disc stacking frame 13 to descend, the ceramic disc at the bottommost layer falls on the pulley group 18, the ceramic disc is sent out of the ceramic disc stacking frame 13 through belt transmission on the pulley group 18, when the ceramic disc moves to the positioning table 16, the clamping arm driving piece drives the two clamping arms 17 to clamp the two sides of the ceramic disc, the overturning driving piece 19 drives the overturning frame 15 to overturn, and therefore the horizontal ceramic disc is overturned to be in a vertical state, and therefore a manipulator can grab the ceramic disc. The ceramic disks are sent out one by one from the bottom to the top as the ceramic disk stacking frame 13 is continuously lowered.

The ceramic tray carrying mechanism shown in fig. 4 is used for grabbing ceramic trays and sending out the ceramic trays, and comprises a guide rail assembly and a carrying manipulator assembly, wherein the carrying manipulator assembly is arranged on the guide rail assembly and can move up and down or move left and right along the guide rail assembly.

The guide rail assembly comprises a horizontal guide rail 22, a horizontal driving part 21, a vertical guide rail 23 and a vertical driving part 24, the vertical guide rails 23 are multiple groups and are arranged on the horizontal guide rail 22, the horizontal driving part 21 can drive each vertical guide rail 23 to move left and right along the horizontal guide rail 22 simultaneously, the carrying manipulator assembly is arranged on the vertical guide rail 23 and comprises a moving bracket 25 and supporting blocks 26, the supporting blocks 26 are a pair, the two supporting blocks 26 are fixed at the bottom end of the moving bracket 25, a channel used for vertically supporting the edge of the ceramic disc and avoiding the ceramic disc from falling is formed between the two supporting blocks 26, and in addition, the top end of the moving bracket 25 is provided with a pressing block 28 and a pressing power part 27 which are used for pressing the top end of. Note that two moving brackets 25 are provided on each vertical guide rail 23, and the two moving brackets 25 are lifted and lowered as a whole.

When the ceramic disc cleaning mechanism is processed, the horizontal driving piece 21 drives the whole carrying manipulator assembly to move to a ceramic disc in a vertical state, the vertical driving piece 24 drives the moving bracket 25 and the support blocks 26 to descend, when the ceramic disc descends to the lower side of the vertical ceramic disc, the horizontal driving piece 21 drives the whole carrying manipulator assembly to continue to move along the horizontal guide rail 22 and gradually approach the ceramic disc, then the moving bracket 25 ascends, the ceramic disc is embedded into the two support blocks 26, the ceramic disc is supported, the top end of the ceramic disc is tightly pressed by the pressing block 28, then the whole carrying manipulator assembly moves along the horizontal guide rail 22 and is positioned above the ceramic disc cleaning mechanism, and the vertical driving piece 24 drives the moving bracket 25 and the support blocks 26 to descend, so that the ceramic disc enters the ceramic disc cleaning mechanism. It should be noted that the utility model discloses a plurality of transport manipulator subassemblies function simultaneously, when the leftmost manipulator snatched the ceramic dish of vertical state, the ceramic dish of having scrubbed in the second set of ceramic dish wiper mechanism was sent into to the second set of ceramic dish wiper mechanism in the second set of manipulator was scrubbed to this analogizes, and the multistation is scrubbed in order to this action can be realized simultaneously.

The ceramic disc cleaning mechanism shown in fig. 5 is used for cleaning a ceramic disc, and includes a cleaning tank 31, a cleaning disc 33, cleaning supporting rollers 34, a cleaning driving member 32 and spraying pipes 35, wherein a plurality of the cleaning supporting rollers 34 are arranged in the cleaning tank 31 and used for vertically supporting the ceramic disc, the cleaning discs 33 are arranged in a group and symmetrically arranged at two sides of the ceramic disc and used for cleaning two sides of the ceramic disc, the cleaning driving member 33 is respectively connected with the cleaning supporting rollers 34 and the cleaning disc 33 through chain wheel assemblies and used for driving the cleaning supporting rollers 34 and the cleaning disc 33 to simultaneously rotate, and the spraying pipes 35 are arranged in a group and correspondingly arranged at two sides of the ceramic disc. It should be noted that the ceramic disc cleaning mechanism is provided with a plurality of sets, wherein the front three sets are used for cleaning, and the rear three sets are used for drying.

During processing, the ceramic disc is conveyed to the brushing carrier roller 34 in the brushing groove 31 by the manipulator, the brushing driving piece 32 drives the brushing carrier roller 34 and the brushing disc 33 to rotate, and the spray pipe 35 sprays water, so that the surface of the ceramic disc is uniformly brushed.

The ceramic disc discharging mechanism is used for discharging the scrubbed ceramic discs and comprises a ceramic disc discharging component and a ceramic disc stacking component, the ceramic disc discharging component is correspondingly arranged on one side of the ceramic disc stacking component and used for overturning the ceramic discs and feeding the ceramic discs into the ceramic disc stacking component, and the ceramic disc stacking component in the ceramic disc taking mechanism are identical in structure and are not described repeatedly.

The ceramic disc sending-out assembly shown in fig. 6 comprises a turning power component 41, a turning seat 42, a bracket 43, a bracket driving component 45, a push plate 48, a push plate driving component, a belt pulley group 49 and a belt pulley group translation driving component, wherein the turning power component 41 can drive the turning seat 42 to turn, the turning seat 42 is provided with a plurality of rollers 47 for supporting the ceramic disc, the bracket 43 is fixed on the turning frame 42 through a portal frame, the bracket 43 is fixed with two support plates 44, a channel for vertically supporting the edge of the ceramic disc and preventing the ceramic disc from falling is formed between the two support plates 44, the other side of the bracket 43 is fixed with a pressure roller 46, the bracket driving component 45 can drive the bracket 43 and the pressure roller 46 to go up and down, the push plate 48 is correspondingly arranged on one side of the turning seat 42, the push plate driving component can drive the push plate 48 to push the ceramic disc to move along, the pulley set translation driving member can drive the pulley set 49 to move to receive the ceramic discs pushed by the push plate 48 and send the ceramic discs into the ceramic disc stacking assembly.

When the ceramic plate cleaning machine is used, a ceramic plate which is cleaned and dried is conveyed to the position above a ceramic plate conveying component by a conveying mechanical arm component, the conveying mechanical arm component descends, the ceramic plate falls on a supporting plate 44 of a bracket 43, at the moment, a pressing wheel 46 and a roller 47 are matched to clamp the ceramic plate tightly, a turnover power part 41 drives a whole turnover frame 42 to turn over, the ceramic plate is made to be horizontal, the bracket 43 rises, a pushing plate 48 pushes the ceramic plate to move along the roller 47, the ceramic plate is made to move to a belt pulley group 49, the belt pulley group can convey the ceramic plate into the ceramic plate stacking component, and cleaning is completed.

It should be noted that, in the present invention, the power member, the driving member, etc. may adopt similar structures such as the cylinder, the motor, the electric cylinder, etc., and may also adopt the linkage of the related connecting rod structure to realize the power, therefore, it is not limited to the structure in the description or the drawings attached to the description of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "top", "bottom", "side", "end", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In addition, in the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "disposed," "provided," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Finally, it should be noted that: the above embodiments are only specific embodiments of the present invention, and are not intended to limit the technical solution of the present invention, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: those skilled in the art can still modify or easily conceive of changes in the technical solutions described in the foregoing embodiments or make equivalent substitutions for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. A ceramic dish cleaning machine which characterized in that: the ceramic disc cleaning device comprises a ceramic disc taking mechanism, a ceramic disc conveying mechanism, a ceramic disc cleaning mechanism and a ceramic disc discharging mechanism;

the ceramic disc taking mechanism is used for automatically conveying ceramic discs and comprises a ceramic disc stacking assembly and a ceramic disc taking-out assembly, wherein the ceramic disc taking-out assembly is correspondingly arranged on one side of the ceramic disc stacking assembly and is used for taking out the ceramic discs in the ceramic disc stacking assembly and overturning the ceramic discs;

the ceramic disc carrying mechanism is used for grabbing ceramic discs and sending out the ceramic discs and comprises a guide rail assembly and a carrying manipulator assembly, wherein the carrying manipulator assembly is arranged on the guide rail assembly and can move up and down or left and right along the guide rail assembly;

the ceramic disc cleaning mechanism is used for cleaning a ceramic disc and comprises a cleaning groove, a cleaning disc, cleaning carrier rollers and a cleaning driving piece, wherein the cleaning carrier rollers are arranged in the cleaning groove and used for supporting the ceramic disc, the cleaning discs are arranged in a group and symmetrically arranged on two sides of the ceramic disc and used for cleaning two sides of the ceramic disc, and the cleaning driving piece is respectively connected with the cleaning carrier rollers and the cleaning disc and used for driving the cleaning carrier rollers and the cleaning disc to rotate;

the ceramic disc discharging mechanism is used for discharging the scrubbed ceramic discs and comprises a ceramic disc discharging component and a ceramic disc stacking component, wherein the ceramic disc discharging component is correspondingly arranged on one side of the ceramic disc stacking component and is used for overturning the ceramic discs and feeding the ceramic discs into the ceramic disc stacking component.

2. The ceramic disk cleaning machine of claim 1, wherein: ceramic dish stacks the subassembly and stacks the frame including lift driving piece and ceramic dish, the lift driving piece can drive ceramic dish and stack the frame and go up and down, ceramic dish stacks the frame and evenly is provided with a plurality of groups from last to down and is used for the level to place the locating rack of ceramic dish in, has the cavity between the locating rack of same group.

3. The ceramic disk cleaning machine of claim 2, wherein: the subassembly is taken out to pottery dish includes pulley group, pulley group translation driving piece, presss from both sides tight arm driving piece, roll-over stand and upset driving piece, the pulley group corresponds the cavity below that sets up at the locating rack, pulley group translation driving piece can drive pulley group and shift out the pottery dish and stack the frame, the roll-over stand corresponds the setting in pulley group one side, the upset driving piece can drive the roll-over stand upset, it is a pair of to press from both sides tight arm, sets up on the roll-over stand, it can drive to press from both sides tight arm and presss from both sides the pottery dish that the pulley group sent out tightly to.

4. The ceramic disk cleaning machine of claim 3, wherein: and one side of the roll-over stand is provided with a positioning table for supporting the ceramic disc.

5. The ceramic disk cleaning machine of claim 1, wherein: the guide rail assembly comprises a horizontal guide rail, a horizontal driving piece, a vertical guide rail and a vertical driving piece, wherein the vertical guide rail is arranged on the horizontal guide rail, the horizontal driving piece can drive the vertical guide rail to move along the horizontal guide rail, the carrying mechanical arm assembly is arranged on the vertical guide rail, the vertical driving piece can drive the carrying mechanical arm assembly to move along the vertical guide rail, the carrying mechanical arm assembly comprises a moving bracket and a supporting block, the supporting block is a pair, the two supporting blocks are fixed at the bottom end of the moving bracket, and a channel which is used for vertically supporting the edge of the ceramic plate and avoiding the ceramic plate from falling is formed between the.

6. The ceramic disk cleaning machine of claim 5, wherein: the horizontal guide rail is provided with a plurality of sets of vertical guide rails, and each vertical guide rail is provided with a plurality of movable brackets.

7. The ceramic disk cleaning machine of claim 5, wherein: and a pressing component for pressing the top end of the ceramic disc is arranged on the movable bracket.

8. The ceramic disk cleaning machine of claim 6, wherein: the ceramic disk cleaning mechanism has a plurality of sets.

9. The ceramic disk cleaning machine of claim 1, wherein: the ceramic disc sending-out component comprises a turning power piece, a turning seat, a bracket driving piece, a push plate driving piece, a belt pulley group and a belt pulley group translation driving piece, the overturning power part can drive the overturning seat to overturn, the overturning seat is provided with a roller for supporting the ceramic plate, the bracket is fixed on the roll-over stand, two supporting plates are fixed on the bracket, a channel for vertically supporting the edge of the ceramic disc and preventing the ceramic disc from falling is formed between the two supporting plates, a pressing wheel is fixed on one side of the bracket, the bracket driving piece can drive the bracket and the pressing wheel to lift, the push plate is correspondingly arranged on one side of the turnover seat, the push plate driving piece can drive the push plate to push the ceramic disc to move along the roller, the belt pulley group is correspondingly arranged on one side of the turnover seat, the belt pulley group translation driving piece can drive the belt pulley group to move so as to receive the ceramic disc pushed by the push plate and send the ceramic disc into the ceramic disc stacking assembly.

Images