CN111629872A

CN111629872A - A processing device and its processing base

Info

Publication number: CN111629872A
Application number: CN201880087309.5A
Authority: CN
Inventors: 谢建华
Original assignee: Shenzhen A&E Intelligent Technology Institute Co Ltd
Current assignee: Shenzhen A&E Intelligent Technology Institute Co Ltd
Priority date: 2018-07-13
Filing date: 2018-07-13
Publication date: 2020-09-04
Also published as: WO2020010623A1

Abstract

The application discloses processingequipment and processing base station thereof, wherein, the processing base station includes rotary platform, runner assembly and supporting component. The rotating platform is used for supporting a workpiece to be machined; the rotating assembly is rotatably connected with the rotating platform, and the rotating platform rotates by taking the rotating assembly as a rotating center; the supporting component is arranged on the side edge of the rotating component and used for supporting the rotating platform and supporting the rotating platform to rotate on the top of the supporting component. By means of the scheme, the processing assembly can process any region of the surface of the workpiece to be processed, and therefore the problems that when the processing range of the processing assembly is insufficient, the workpiece to be processed needs to be processed by the aid of the plurality of processing assemblies, the processing efficiency is low, and the processing cost is high can be solved.

Description

Processing device and processing base station thereof

[ technical field ] A method for producing a semiconductor device

The application relates to the technical field of machining, in particular to a machining device and a machining base platform thereof.

[ background of the invention ]

Nowadays, marble products are pursued by more and more households because the surfaces of the marble products are smooth and rich in texture. The smooth surface of existing marble products is generally formed by a grinding process.

The prior marble products are generally divided into manual grinding and mechanical grinding when the surfaces of the marble products are ground. For the manual grinding mode, the processing efficiency is low, and the dust generated during the manual grinding of the marble can seriously affect the physical and psychological health of operators; to the mode of mechanical polishing, when the size of marble product is great, can surpass the workable size scope of the equipment of polishing, and lead to the marble product can't once only accomplish the operation of polishing, need add extra equipment of polishing and processing station and further polish the marble product, consequently can reduce the machining efficiency of marble product, lead to the processing cost of marble product to improve

[ summary of the invention ]

The application provides a processingequipment and processing base station thereof to solve current marble product and add the problem that machining efficiency is not high and the processing cost is high man-hour.

In order to solve the technical problem, the application adopts a technical scheme that: a machining base is provided, wherein the machining base comprises: the rotary platform is used for supporting a workpiece to be processed; the rotating assembly is rotatably connected with the rotating platform, and the rotating platform rotates by taking the rotating assembly as a rotating center; and the supporting component is arranged on the side edge of the rotating component and used for supporting the rotating platform and supporting the rotating platform to rotate at the top of the supporting component.

In order to solve the above technical problem, another technical solution adopted by the present application is: provided is a processing device. The processing device comprises a processing base and a processing assembly, wherein the processing assembly is used for processing a workpiece to be processed on the processing base, and the processing base comprises the processing base as described in any one of the preceding paragraphs.

The beneficial effect of this application is: the present application provides a processing apparatus and a processing base thereof, which are distinguished from the prior art. The processing base station comprises a rotary platform which can rotatably support the workpiece to be processed, the workpiece to be processed fixed on the rotary platform can rotate together with the rotary platform through rotation of the rotary platform to adjust the processing area of the workpiece to be processed, and the processing assembly can process any area of the surface of the workpiece to be processed, so that the processing efficiency of the processing assembly can be improved, and the processing cost can be saved.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

FIG. 1 is a schematic view of an embodiment of a machining base of the present application;

fig. 2 is a schematic front view of the machining base shown in fig. 1;

FIG. 3 is a schematic view of an embodiment of a support assembly in the processing station of FIG. 1;

fig. 4 is a schematic structural view of a top view of the machining base shown in fig. 1;

FIG. 5 is a schematic structural view of a cross-sectional view of the machining base shown in FIG. 4 at section C-C';

FIG. 6 is a partially enlarged view of the machining base shown in FIG. 4 in a region B;

fig. 7 is a schematic structural diagram of an embodiment of a processing apparatus provided in the present application.

[ detailed description ] embodiments

In order to make the technical problems solved, the technical solutions adopted, and the technical effects achieved by the present application clearer, the technical solutions of the embodiments of the present application will be further described in detail below with reference to the accompanying drawings.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural diagram of an embodiment of a machining base according to the present application, and fig. 2 is a schematic structural diagram of a front view of the machining base shown in fig. 1. The processing base 100 includes a rotary table 110, a support assembly 120, and a rotation assembly 130. The rotating platform 110 is used for placing the workpieces to be processed 140, the rotating platform 110 comprises a positioning part 111, the positioning part 111 is used for positioning the workpieces to be processed 140, the positioning part 111 is provided with a fixing structure matched with the workpieces to be processed 140, the workpieces to be processed 140 can be fixed on the rotating platform 110 through the fixing structure, and the problem that the workpieces to be processed 140 are processed abnormally due to the fact that the workpieces to be processed 140 are not placed stably enough on the rotating platform 110 is solved.

In this embodiment, the positioning element 111 may be a protrusion, the to-be-processed piece 140 has a groove matching with the positioning element 111, and the to-be-processed piece 140 may be fixed on the rotating platform 110 by matching and connecting the positioning element 111 with the groove on the to-be-processed piece 140. The member to be processed 140 in this embodiment may be a marble product, such as a marble table, a chair, etc., and the member to be processed 140 is not limited herein. Therefore, after the workpiece 140 to be processed is placed on the rotating platform 110 and matched with the positioning part 111, the workpiece 140 to be processed can be stably fixed on the rotating platform 110 under the action of self gravity and the clamping action of the positioning part 111; meanwhile, in order to improve the compatibility of the rotary platform 110 so that the rotary platform 110 can be matched with workpieces 140 to be processed of different sizes, a plurality of fixing positions may be provided on the rotary platform 110 to fix the positioning member 111, and the fixing positions of the positioning member 111 are changed so as to be matched with workpieces 140 to be processed of different sizes; further, a slide rail may be disposed on the rotating platform 110, and the positioning element 111 is matched with the slide rail, so that the positioning element 111 can slide on the slide rail and can be fixed at any position on the slide rail, and therefore, the position of the positioning element 111 on the slide rail can be adjusted to match workpieces 140 to be processed with different sizes. Meanwhile, in order to stabilize the fixing of the member to be processed 140, a plurality of positioning members 111 may be adapted to match a plurality of grooves on the member to be processed 140.

The supporting component 120 is used for supporting the rotating platform 110, referring to fig. 3, fig. 3 is a schematic structural diagram of an embodiment of the supporting component in the processing platform shown in fig. 1. The support assembly 120 is movably engaged with the rotary platform 110 such that the rotary platform 110 can rotate under the support of the support assembly 120. In this embodiment, the supporting assembly 120 includes a roller 123 and a supporting frame 122, one end of the supporting frame 122 may be fixed on the supporting plate 121, and the other end of the supporting frame 122 is provided with the roller 123, wherein the roller 123 is used for supporting the rotating platform 110 and is in rolling fit with the rotating platform 110, and the supporting frame 122 with the roller 123 is used for supporting the rotating platform 110, so that the rotating platform 110 is in rolling fit with the roller 123, friction between the rotating platform 110 and the supporting assembly 120 during rotation may be reduced, thereby enabling the rotating platform 110 to rotate easily and smoothly and reducing wear of the rotating platform 110 and the supporting assembly 120. In this embodiment, in order to make the supporting assembly 120 support the rotating platform 110 stably, a plurality of supporting assemblies 120 with the same size may be uniformly distributed on one side of the rotating platform 110 to support the rotating platform 110, so that the pressure of the rotating platform 110 may be uniformly distributed on each supporting assembly 120.

In this embodiment, the machining base 100 further includes a rotating member 130, wherein the supporting member 120 is disposed outside the rotating member 130. The rotating assembly 130 is connected to the rotating platform 110 and drives the rotating platform 110 to rotate under the support of the supporting assembly 120. Referring to fig. 5, the rotating assembly 130 may include a first motor 1301, the rotating platform 110 may be provided with a rotating shaft 113, and the rotating shaft 113 is connected to the rotating shaft 113 through a rotating shaft of the first motor 1301 to drive the rotating shaft 113 to rotate, so that the rotating platform 110 fixedly connected to the rotating shaft 113 rotates synchronously with the rotating shaft 113. The first motor 1301 can also be fixed to the support plate 121, and the rotating shaft 113 is connected to the rotating shaft of the first motor 1301 to limit the rotating platform 110, so that the rotating platform 110 can rotate around the rotating shaft 113, and the rotating platform 110 can be prevented from deviating in position when rotating. In this embodiment, the rotating shaft of the first motor 1301 and the rotating shaft 113 may be connected by a coupling.

Therefore, in this embodiment, the rotating assembly 130 drives the rotating platform 110 to rotate on the supporting assembly 120, so as to further drive the workpiece 140 to be processed on the rotating platform 110 to rotate together, when the position of the processing assembly is fixed, the processing region of the processing device on the workpiece 140 to be processed can be changed by rotating the workpiece 140 to be processed, so that the workpiece 140 to be processed can process a plurality of surfaces of the workpiece 140 to be processed only by one processing assembly on the rotating platform 110, and therefore, it can be prevented that all regions of the workpiece 140 to be processed cannot be processed when the processing range of the processing assembly is insufficient, and therefore, the processing efficiency of the workpiece 140 to be processed can be improved, and the processing cost can be reduced.

In the embodiment, the rotating platform 110 is rotated to drive the workpiece 140 to be processed on the rotating platform 110 to rotate, so that the processing efficiency of processing the workpiece 140 to be processed can be improved. Furthermore, the lifting device can be used for driving the workpiece 140 to be processed to move up and down so as to further improve the processing efficiency of processing the workpiece 140 to be processed.

Referring to fig. 1 to 5, fig. 5 is a schematic structural view of a cross-sectional view of the machining base shown in fig. 4 at a cross-section C-C'. Wherein, the machining base 100 further comprises a fixing device 150, wherein the fixing device 150 is used for fixing the support component 120. The fixing device 150 includes a bottom plate 151 and a fixing frame 152, the fixing frame 152 is disposed on the bottom plate 151, wherein the fixing frame 152 is provided with a fixing member 153, and the fixing member 153 is used for connecting and fixing the supporting component 120. Alternatively, in order to stabilize the support of the support member 120 by the fixing member 153, the support member 120 may be provided to the support plate 121, and the fixing member 153 may support the support member 120 stably by supporting the fixed support plate 121.

Alternatively, the fixing member 153 may be a sliding fixing member and is slidably engaged with the fixing frame 152, please refer to fig. 6, and fig. 6 is a partially enlarged structural view of the processing base shown in fig. 4 in the region B. The fixing frame 152 is provided with a sliding rail 1521, the fixing member 153 is slidably engaged with the sliding rail 1521 and can slide along the sliding rail 1521, and the fixing member 153 can be fixed at any position on the sliding rail 1521 so as to fix the position of the supporting component 120.

In this embodiment, the sliding track 1521 is a sliding rod disposed on the fixing frame 152, the fixing member 153 has a through hole 1531, the sliding rod passes through the through hole 1531 and then is slidably engaged with the fixing member 153, wherein the fixing device 150 further includes a driving assembly 170 for driving the fixing member 153 to slide along the sliding track 1521, the driving assembly 170 includes a second motor 171 and a transmission link assembly 172 connected to the motor, and the transmission link assembly 172 is connected to the fixing member 153, so as to drive the fixing member 153 to slide along the sliding track 1521. Wherein the second motor 171 may be fixed on the base plate 151.

In this embodiment, the bottom plate 151 includes two oppositely disposed fixing frames 152, each of which is disposed on the bottom plate

The fixing frames 152 are respectively provided with fixing pieces 153 capable of sliding along the sliding tracks 1521, and the two fixing pieces 153 are respectively connected with and support two sides of the supporting plate 121 of the supporting component 120, so that the whole supporting component 120, the rotary platform 110 thereon and the rotating component 130 can be stably placed; furthermore, the two fixing members 153 slide on the respective fixing frames 152 synchronously along the sliding rail 1521, so that the whole supporting assembly 120, the rotating platform 110 thereon and the rotating assembly 130 can be driven to move up and down stably, the processing range of the processing assembly for processing the workpiece 140 can be further increased, the processing efficiency is further increased, and the processing cost is saved.

The number of the fixing frames 152 is not limited in this embodiment, and a plurality of fixing frames 152 may be selected to fix the support assembly 120 in other embodiments. Optionally, the plurality of fixing frames 152 are used to uniformly support and fix the plurality of supporting assemblies 120, so that the supporting assemblies 120 are stressed more uniformly, or the plurality of fixing frames 152 are used to uniformly support and fix the supporting plate 121. Therefore, the support assembly 120 and the rotary platform 110 and the rotating assembly 130 on the support assembly 120 can be arranged more smoothly.

Referring to fig. 6, fig. 6 is a schematic structural view of a partially enlarged view of the processing base shown in fig. 4 in a region B. In this embodiment, the fixing device 150 may further include a connecting member 154 and a second sliding rail 1522 disposed on the fixing frame 152, wherein the connecting member 154 is slidably engaged with the second sliding rail 1522, one end of the connecting member 154 is fixed to the supporting plate 121, and the other end of the connecting member 154 is slidably engaged with the second sliding rail 1522, so that when the fixing member 153 is brought to the supporting plate 121 to move up and down, the supporting plate 121 can move smoothly.

In this embodiment, the fixing frame 152 is provided with two second sliding rails 1522, and each sliding rail is provided with two connecting members 154 in sliding fit with the corresponding sliding rail, so that the stability of the support plate 121 during up-and-down movement can be further improved. In other embodiments, the number of the connecting members 154 and the second sliding tracks 1522 can be selected according to design requirements, and is not limited herein.

Further, the processing base 110 may further include a controller 180, wherein the controller 180 may be configured to control a rotation shaft of the rotation assembly 130 to rotate, and drive the rotation platform 110 to rotate by controlling the rotation shaft of the rotation assembly 130 to rotate, wherein an angle of the rotation platform 110 may be adjusted by the controller 180, so that the rotation platform 110 rotates to a desired angle for processing; meanwhile, the controller 180 may also control the second motor 171, thereby controlling the up-and-down movement of the fixing member 153. The controller 180 controls the second motor 171 to control the fixing members 153 to slide along the sliding rail 1521, and fixes the fixing members 153 at any position on the sliding rail 1521, so as to adjust the height of the rotating platform 110 on which the member to be processed 140 is arranged, so that the member to be processed 140 can be located at a height required by processing, wherein the controller is used for controlling the second motor 171 to control the plurality of fixing members 153 to slide synchronously, so that the rotating platform 110 can move smoothly, and further the controller can perform fine adjustment on each fixing member 153 through the second motor 171 and the transmission link assembly 172, so that the plurality of fixing members 153 can support the support assembly 120 smoothly.

Therefore, in the embodiment, the rotating assembly 130 is brought to the rotating platform 110 to rotate on the supporting assembly 120, so as to drive the to-be-processed workpiece 140 on the rotating platform 110 to rotate together, when the position of the processing assembly is fixed, the processing area of the processing assembly on the to-be-processed workpiece 140 can be changed by rotating the to-be-processed workpiece 140, so that the to-be-processed workpiece 140 can process a plurality of surfaces of the to-be-processed workpiece 140 on the processing base 100 only through one processing assembly, and thus, when the processing range of the processing assembly is not enough, all areas of the to-be-processed workpiece 140 cannot be processed, so that the processing efficiency of the to-be-processed workpiece 140 can be; further, the present embodiment further provides a fixing device 150 to fix the supporting component 120, so that the rotating platform 110 on the supporting component 120 can be stably arranged; further, the fixing member 153 capable of sliding on the fixing device 150 is adopted to support the supporting assembly 120, and the rotating platform 110 on the supporting assembly 120 is driven by the sliding of the fixing member 153 to move synchronously, so that the processing range of the workpiece 140 to be processed can be further increased, and therefore, the processing efficiency can be further increased and the cost can be saved.

Different from the prior art, the present application further provides a processing apparatus, please refer to fig. 7, and fig. 7 is a schematic structural diagram of an embodiment of the processing apparatus provided in the present application. The processing apparatus 200 includes any one of the processing bases described above, which is not described herein.

In this embodiment, the processing device 200 includes a processing base 210 and a processing assembly 220, wherein the processing assembly 220 is used for processing a workpiece to be processed arranged on the processing base 210. The machining assembly 220 comprises a machining head 221, wherein the machining head 221 is used for machining a workpiece to be machined.

Alternatively, the machining head 221 in this embodiment may be used for machining the surface of the workpiece to be machined, and the machining contents may include grinding, painting, and the like, and the machining contents of the machining head 221 are not limited herein. The processing device 220 may be a robot, the processing head 221 may be disposed at one end of the robot, and the processing head 221 is disposed on the robot to process the workpiece to be processed.

In this embodiment, the processing head 221 may be a polishing sheet, and the processing head 221 and the robot arm may be mounted and fixed by a hook and loop fastener. Since the machining head 221 is worn out by polishing the surface of the workpiece to be machined after the machining head 221 is brought into contact with the workpiece to be machined, the machining head 221 needs to be replaced periodically. Accordingly, the further processing device 200 may further comprise a processing head exchange assembly 230, the processing head exchange assembly 230 being for exchanging the processing head 221. Wherein the processing head exchange assembly 230 includes a supply section 231 and a refueling section 232. The supply section 231 is used to supply a new processing head 221 and the refuel section 232 is used to replace a worn processing head 221 on the processing assembly 220. The feeding part 231 includes a pushing assembly for placing the new processing head 221 and pushing up the new processing head 221 to a predetermined mounting position so that the new processing head 221 can be mounted with the processing device 220; the material changing part 232 is used for clinging to the worn processing head 221 and tearing the worn processing head 221 off the processing assembly 220, and a recycling box 233 can be further arranged below the material changing part 232, so that the worn processing head 221 torn off the processing assembly 220 falls into the recycling box 233 under the action of the gravity of the worn processing head 221 to recycle the worn processing head 221.

Further, the processing apparatus 200 may further include a controller 240, wherein the controller 240 may be an integrated control box, wherein a part of modules of the controller 240 may be the same as the controller 180 described above, and is configured to control the rotation and the elevation of the rotating platform 211 of the processing base 210; other modules of the controller 240 may be used to control the machining of the substitute workpiece by the machining assembly 220, to control the machining assembly 220 to automatically replace the machining head, and to control the machining head replacement assembly 230 to replace the machining head 221 of the machining assembly 220.

To sum up, the application provides a processingequipment and processing base station thereof to add man-hour to the marble product among the solution prior art, the not high and high problem of processing cost of machining efficiency. The rotating platform which can rotate the angle is adopted to support the workpiece to be machined, so that the machining direction of the workpiece to be machined can be changed when the workpiece to be machined is machined, different side surfaces of the workpiece to be machined can be machined through one machining assembly, the machining efficiency is improved, and the machining cost is saved; the supporting assembly can be further arranged on the lifting device to drive the rotating platform to move up and down so as to change the machining height of the workpiece to be machined, and therefore the machining efficiency can be further improved.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Claims

A machining base, comprising:

the rotary platform is used for supporting a workpiece to be processed;

the rotating assembly is rotatably connected with the rotating platform, and the rotating platform rotates by taking the rotating assembly as a rotating center; and

the supporting assembly is arranged on the side edge of the rotating assembly and used for supporting the rotating platform and supporting the rotating platform to rotate at the top of the supporting assembly.
The machining base according to claim 1,

the rotary platform comprises a positioning piece, and the positioning piece is arranged on the rotary platform to position the workpiece to be machined.
The machining base according to claim 2,

the processing base station comprises a plurality of positioning pieces, and each positioning piece comprises a fixing structure matched with the to-be-processed piece so as to fix the to-be-processed piece.
The machining base according to claim 1,

the rotary platform comprises a connecting shaft, the connecting shaft is connected with the rotating assembly, and the rotating assembly drives the connecting shaft to rotate so as to drive the rotary platform to rotate.
The machining base according to claim 1,

the processing base station comprises a plurality of supporting assemblies, each supporting assembly comprises a roller, and the supporting assemblies support the rotating platform through the rollers and are matched with the rotating platform in a rolling mode.
The machining base according to any one of claims 1 to 5,

the processing base station further comprises a fixing device, the fixing device comprises a bottom plate and a fixing frame, the fixing frame is fixed on the bottom plate, a fixing piece is arranged on the fixing frame, and the fixing piece is used for supporting and fixing the supporting component.
The machining base according to claim 6,

the fixing frame comprises a sliding guide rail matched with the fixing piece, and the fixing piece slides along the sliding guide rail and is fixed at any position of the sliding guide rail.
The machining base according to claim 6,

the bottom plate is provided with at least two fixing frames, each fixing frame is provided with a sliding fixing piece which is used for supporting and fixing a supporting plate, and the supporting plate is used for supporting and fixing the supporting component.
A processing device, comprising a processing component and a processing base station, wherein the processing component is used for processing a substitute processing piece on the processing base station,

the processing base station includes:

the rotary platform is used for supporting a workpiece to be processed;

the rotating assembly is rotatably connected with the rotating platform, and the rotating platform rotates by taking the rotating assembly as a rotating center; and

the supporting assembly is arranged on the side edge of the rotating assembly and used for supporting the rotating platform and supporting the rotating platform to rotate at the top of the supporting assembly.
The processing device according to claim 9,

the rotary platform comprises a positioning piece, and the positioning piece is arranged on the rotary platform to position the workpiece to be machined.
The processing apparatus as set forth in claim 10,

the processing base station comprises a plurality of positioning pieces, and each positioning piece comprises a fixing structure matched with the to-be-processed piece so as to fix the to-be-processed piece.
The processing device according to claim 9,

the rotary platform comprises a connecting shaft, the connecting shaft is connected with the rotating assembly, and the rotating assembly drives the connecting shaft to rotate so as to drive the rotary platform to rotate.
The processing device according to claim 9,

the processing base station comprises a plurality of supporting assemblies, each supporting assembly comprises a roller, and the supporting assemblies support the rotating platform through the rollers and are matched with the rotating platform in a rolling mode.
The processing apparatus according to any one of claims 9 to 13,

the processing base station further comprises a fixing device, the fixing device comprises a bottom plate and a fixing frame, the fixing frame is fixed on the bottom plate, a fixing piece is arranged on the fixing frame, and the fixing piece is used for supporting and fixing the supporting component.
The processing apparatus as set forth in claim 14,

the fixing frame comprises a sliding guide rail matched with the fixing piece, and the fixing piece slides along the sliding guide rail and is fixed at any position of the sliding guide rail.
The processing apparatus as set forth in claim 14,

the bottom plate is provided with at least two fixing frames, each fixing frame is provided with a sliding fixing piece which is used for supporting and fixing a supporting plate, and the supporting plate is used for supporting and fixing the supporting component.
The processing device according to claim 9,

the processing assembly comprises a processing head which is in contact with the workpiece to be processed so as to process the workpiece to be processed.
The processing apparatus as set forth in claim 17,

the processing device further comprises a processing head replacing assembly, the processing head replacing assembly is used for replacing the processing head, wherein the processing head replacing device is provided with a recycling box for recycling the processing head.
The processing apparatus as set forth in claim 18,

the processing device further comprises a controller, and the controller is used for controlling the processing device to operate.