阅读说明：本技术 石英玻璃加石墨烯涂层加热体制备处理设备 (Quartz glass adds graphite alkene coating heating member preparation treatment facility ) 是由 秦炳就 于 2021-07-19 设计创作，主要内容包括：本发明涉及一种石墨烯领域,尤其涉及一种石英玻璃加石墨烯涂层加热体制备处理设备。技术问题：提供一种石英玻璃加石墨烯涂层加热体制备处理设备。一种石英玻璃加石墨烯涂层加热体制备处理设备,包括有第一支撑架、第二支撑架、第三支撑架、连接架、控制器、铜片放置组件和刮除组件；刮除组件与第一支撑架和第二支撑架进行连接。本发明使用时实现了自动同时在石英玻璃两端同时放置铜片,同时进行按压使其与石英玻璃表面整齐,使铜片被压住固定同时对两块铜片周围多余导电银胶进行刮除,提升了处理效率同时保证了处理质量,避免人工操作出现问题导致返工。(The invention relates to the field of graphene, in particular to a preparation treatment device for a heating body with a quartz glass and graphene coating. The technical problem is as follows: provides a preparation treatment device for a heating body with a quartz glass and graphene coating. A preparation treatment device for a heating body with a quartz glass and graphene coating comprises a first support frame, a second support frame, a third support frame, a connecting frame, a controller, a copper sheet placing assembly and a scraping assembly; the scraping component is connected with the first supporting frame and the second supporting frame. When the copper sheet processing device is used, the copper sheets are automatically and simultaneously placed at two ends of the quartz glass, and are pressed to be in order with the surface of the quartz glass, so that the copper sheets are pressed and fixed, and redundant conductive silver adhesive around the two copper sheets is scraped, the processing efficiency is improved, the processing quality is ensured, and rework caused by problems in manual operation is avoided.)

1. A preparation treatment device for a heating body with a quartz glass and graphene coating comprises a bottom frame, supporting columns, a base plate, a first supporting frame, a second supporting frame, a third supporting frame and a connecting frame; four corners of the bottom surface of the underframe are fixedly connected with a group of support columns respectively; the four groups of support columns are fixedly connected with one group of base plates respectively; the underframe is fixedly connected with the first support frame, the second support frame, the third support frame and the connecting frame; the method is characterized in that: the copper sheet scraping device also comprises a copper sheet placing assembly and a scraping assembly; a copper sheet placing component is arranged in the middle above the underframe; the copper sheet placing assembly is fixedly connected with the connecting frame; the copper sheet placing assembly is fixedly connected with the scraping assembly; the copper sheet placing component places copper sheets in grooves at two ends of the quartz glass; scraping components are arranged at the middle part and the left side above the underframe; the scraping component is connected with the first support frame and the second support frame; the scraping component scrapes off the excessive conductive silver adhesive extruded around the copper sheet.

2. The quartz glass and graphene coated heating body preparation treatment device as claimed in claim 1, wherein the heating body preparation treatment device comprises: the copper sheet placing assembly comprises an electric sliding rail, a first electric sliding block, a second electric sliding block, a first copper sheet placing unit and a second copper sheet placing unit; the electric slide rail is fixedly connected with the connecting frame; the electric slide rail is respectively connected with the first electric slide block and the second electric slide block in a sliding way; the first electric sliding block is fixedly connected with the first copper sheet placing unit; the first copper sheet placing unit is fixedly connected with the first scraping unit; the second electric slide block is fixedly connected with the second copper sheet placing unit; the second copper sheet placing unit is fixedly connected with the second scraping unit.

3. The quartz glass and graphene coated heating body preparation treatment device as claimed in claim 2, wherein the heating body preparation treatment device comprises: the scraping assembly comprises a main motor, a third transmission rod, a shaft sleeve, a fourth bevel gear, a fifth bevel gear, a second fixing frame, a second electric push rod, a sixth bevel gear, a first scraping unit and a second scraping unit; the main motor is fixedly connected with the underframe; the output shaft of the main motor is fixedly connected with a third transmission rod; the third transmission rod is in transmission connection with the shaft sleeve; two sides of the shaft sleeve are fixedly connected with a fourth bevel gear and a fifth bevel gear respectively; the second fixing frame is rotatably connected with the shaft sleeve; the second fixing frame is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe; a sixth bevel gear is arranged on the side surface of the fourth bevel gear; when the sixth bevel gear is meshed with the fourth bevel gear, the sixth bevel gear rotates; when the sixth bevel gear is not meshed with the fourth bevel gear, the sixth bevel gear does not rotate; the sixth bevel gear is fixedly connected with the first scraping unit; the first scraping unit is connected with the second supporting frame; the first scraping unit is in transmission connection with the second scraping unit through a belt; the second scraping unit is connected with the first supporting frame.

4. The quartz glass and graphene coated heating body preparation treatment device as claimed in claim 3, wherein the heating body preparation treatment device comprises: the first copper sheet placing unit comprises a second fixing plate, a third electric push rod, a copper sheet box, a baffle, a convex plate, a third pressing block, a first elastic piece, a first wedge-shaped block, a second wedge-shaped block, a first separating plate, a first translation sliding block, a second elastic piece, a second separating plate, a third wedge-shaped block, a fourth wedge-shaped block, a second translation sliding block, a third elastic piece and a fourth elastic piece; the second fixing plate is fixedly connected with the first electric sliding block; the second fixing plate is fixedly connected with one side of the two groups of third electric push rods; the other sides of the two groups of third electric push rods are fixedly connected with the copper sheet box; the copper sheet box is fixedly connected with the first scraping unit; a group of baffles are fixedly connected to both sides of the bottom surface of the copper sheet box; the convex plate and the third pressing block are in sliding connection with the copper sheet box; the convex plate is fixedly connected with one side of the first elastic piece; the other side of the first elastic piece is fixedly connected with the copper sheet box; the first wedge-shaped block is fixedly connected with the convex plate; the first wedge-shaped block is in transmission connection with the second wedge-shaped block; the second wedge-shaped block is fixedly connected with the first translation sliding block; the first separating plate is fixedly connected with the first translation sliding block; the first translation sliding block is in sliding connection with the copper sheet box; the first translation sliding block is fixedly connected with one side of the second elastic piece; the other side of the second elastic piece is fixedly connected with the copper sheet box; a second separation plate is arranged on the side surface of the third pressing block; the second separation plate is fixedly connected with the second translation sliding block; the third wedge block is fixedly connected with the third pressing block; the third wedge block is in transmission connection with the fourth wedge block; the fourth wedge-shaped block is fixedly connected with the second translation sliding block; the second translation sliding block is in sliding connection with the copper sheet box; the second translation sliding block is fixedly connected with one side of the third elastic piece; the other side of the third elastic part is fixedly connected with the copper sheet box; one side of the fourth elastic piece is fixedly connected with the third pressing block; the other side of the fourth elastic piece is fixedly connected with the copper sheet box.

5. The quartz glass and graphene coated heating body preparation treatment device as claimed in claim 4, wherein the heating body preparation treatment device comprises: the first scraping unit comprises a transmission wheel, a first bidirectional screw rod, a third translation sliding block, a translation sliding rail, a connecting rod, a pushing block, a fourth electric push rod, a bearing plate, a third fixing plate, a fifth electric push rod, a first pressing plate, a sixth electric push rod, a T-shaped sliding rail frame, a second pressing plate, a first translation sliding plate, a first wedge plate, a second translation sliding plate, a second wedge plate, a second bidirectional screw rod, a third translation sliding plate, a third wedge plate, a third bidirectional screw rod, a fourth translation sliding plate, a fourth wedge plate, a first sliding rod, a first spring, a second sliding rod, a second spring, a fifth wedge block and a sixth wedge block; the driving wheel is fixedly connected with the first bidirectional screw rod; the transmission wheel is in transmission connection with the second scraping unit through a belt; the first bidirectional screw rod is fixedly connected with the sixth bevel gear; the first bidirectional screw rod is rotatably connected with the second support frame; the first bidirectional screw rod is rotatably connected with the third translation sliding block; the third translation sliding block is in sliding connection with the translation sliding rail; the translation sliding rail is fixedly connected with the second support frame; the connecting rod is fixedly connected with the third translation sliding block; the connecting rod is fixedly connected with the pushing block; the two sides of the translation sliding rail are symmetrically provided with a combination of a third translation sliding block, a connecting rod and a pushing block; a fourth electric push rod is arranged on the side face of the middle part of the translation slide rail; the fourth electric push rod is fixedly connected with the bearing plate; a third fixing plate is arranged above the side surface of the bearing plate; the third fixing plate is fixedly connected with the fifth electric push rod; the third fixing plate is fixedly connected with the copper sheet box; the fifth electric push rod is fixedly connected with the first pressing plate; the sixth electric push rod is fixedly connected with the T-shaped slide rail frame; the sixth electric push rod is fixedly connected with the second pressing plate; the first translation sliding plate is in sliding connection with the T-shaped sliding rail frame; the first translation sliding plate is fixedly connected with the first wedge-shaped plate; the second translation sliding plate is in sliding connection with the T-shaped sliding rail frame; the second translation sliding plate is fixedly connected with the second wedge-shaped plate; two sides of the second bidirectional screw rod are respectively connected with the first translation sliding plate and the second translation sliding plate in a rotating mode; the second bidirectional screw rod is rotatably connected with the T-shaped slide rail frame through a connecting block; a first translation sliding plate, a first wedge-shaped plate, a second translation sliding plate, a second wedge-shaped plate and a second bidirectional screw rod are symmetrically arranged on two sides of the second pressing plate; the third translation sliding plate is in sliding connection with the T-shaped sliding rail frame; the third translation sliding plate is fixedly connected with the third wedge-shaped plate; one side of the third bidirectional screw rod is in rotary connection with the third translation sliding plate; the other side of the third bidirectional screw rod is in screwed connection with the fourth translation sliding plate; the third bidirectional screw rod is rotatably connected with the T-shaped slide rail frame through a connecting block; the fourth translational sliding plate is in sliding connection with the T-shaped sliding rail frame; the fourth translational sliding plate is fixedly connected with the fourth wedge-shaped plate; two sides of the first sliding rod are respectively connected with the third translational sliding plate and the fourth translational sliding plate in a sliding manner; two sides of the first spring are fixedly connected with the third translational sliding plate and the fourth translational sliding plate respectively; two sides of the second sliding rod are respectively connected with the first translation sliding plate and the second translation sliding plate in a sliding manner; two sides of the second spring are fixedly connected with the first translation sliding plate and the second translation sliding plate respectively; a combination of a second sliding rod and a second spring is symmetrically arranged on two sides of the second pressure plate; the fifth wedge-shaped block is fixedly connected with the second wedge-shaped plate; the fifth wedge-shaped block is in transmission connection with the sixth wedge-shaped block; the sixth wedge-shaped block is fixedly connected with the fourth wedge-shaped plate; and the fifth wedge block and the sixth wedge block are symmetrically arranged on two sides of the fourth wedge plate.

6. The quartz glass and graphene coated heating body preparation treatment device as claimed in claim 4, wherein the heating body preparation treatment device comprises: the baffle is in a step shape.

7. The quartz glass and graphene coated heating body preparation treatment device as claimed in claim 4, wherein the heating body preparation treatment device comprises: and a sliding groove matched with the first translation sliding block and the second translation sliding block is arranged in the copper sheet box.

8. The quartz glass and graphene coated heating body preparation treatment device as claimed in claim 5, wherein the heating body preparation treatment device comprises: the bearing plate is provided with a convex rectangular plate, and a space is arranged between the two sides of the rectangular plate and the surface of the bearing plate.

Technical Field

The invention relates to the field of graphene, in particular to a preparation treatment device for a heating body with a quartz glass and graphene coating.

Background

Graphene has excellent optical, electrical and mechanical properties, has important application prospects in the aspects of materials science, micro-nano processing, energy, biomedicine, drug delivery and the like, is considered to be a revolutionary material in the future, and with the gradual breakthrough of the problems of batch production, large size and the like, the industrial application of graphene is quickened.

In the prior art, when a quartz glass and graphene coating heating body is prepared, three pieces of quartz glass are used as base materials, grooves are ground at two ends of one piece of quartz glass to place copper sheets as electrodes, the copper sheets are fixed by conductive silver adhesive, the surfaces of the electrodes and the surfaces of the glass are smooth, and graphene slurry is coated on the surfaces of the quartz glass after the electrodes are made; because the less thin manual work of copper sheet is inconvenient when operating and is taken, be difficult to guarantee during the placement that it is in the horizontality and put into the recess, it is difficult to control to put into the back pressing force degree of recess, and then can not reach electrode surface and glass surfacing's requirement, and the single can only place the copper sheet in quartz glass one end, the treatment effeciency is lower, and in order to guarantee electrode surface and glass surfacing, the electrically conductive silver glue in the recess needs the coating more, after putting into the copper sheet, the extrusion can lead to electrically conductive silver glue to spill over, directly scribble graphite alkene thick liquids on quartz glass surface and can cause the influence to produce the property, artifical striking off inefficiency and lead to the copper sheet to remove the skew easily when striking off, seriously lead to carrying out rework processing.

In summary, we propose a heating body preparation processing device with a quartz glass and graphene coating to solve the above problems.

Disclosure of Invention

In order to overcome the defects that when a quartz glass and graphene coating heating body is prepared, three quartz glass blocks are used as base materials, grooves are ground at two ends of one quartz glass block, copper sheets are placed as electrodes and are fixed by conductive silver adhesive, the surfaces of the electrodes and the surfaces of the glass blocks are smooth, and graphene slurry is coated on the surfaces of the quartz glass blocks after the electrodes are manufactured; because the less thin manual work of copper sheet is inconvenient when operating and is taken, be difficult to guarantee during the placement that it is in the horizontality and put into the recess, it is difficult to control to put into the back pressing force degree of recess, and then can not reach electrode surface and glass surfacing's requirement, and the single can only place the copper sheet in quartz glass one end, the treatment effeciency is lower, and in order to guarantee electrode surface and glass surfacing, the electrically conductive silver glue in the recess needs the coating more, after putting into the copper sheet, the extrusion can lead to electrically conductive silver glue to spill over, it can cause the influence to produce the property to directly scribble graphite alkene thick liquids on quartz glass surface, artifical striking off inefficiency and lead to the copper sheet to remove the skew easily when striking off, seriously lead to carrying out the shortcoming of doing over again and handling, the technical problem: provides a preparation treatment device for a heating body with a quartz glass and graphene coating.

A preparation treatment device for a heating body with a quartz glass and graphene coating comprises a bottom frame, supporting columns, a base plate, a first supporting frame, a second supporting frame, a third supporting frame, a connecting frame, a controller, a copper sheet placing assembly and a scraping assembly; four corners of the bottom surface of the underframe are fixedly connected with a group of support columns respectively; the four groups of support columns are fixedly connected with one group of base plates respectively; the underframe is fixedly connected with the first support frame, the second support frame, the third support frame, the connecting frame and the controller; a copper sheet placing component is arranged in the middle above the underframe; the copper sheet placing assembly is fixedly connected with the connecting frame; the copper sheet placing assembly is fixedly connected with the scraping assembly; the copper sheet placing component places copper sheets in grooves at two ends of the quartz glass; scraping components are arranged at the middle part and the left side above the underframe; the scraping component is connected with the first support frame and the second support frame; the scraping component scrapes off the excessive conductive silver adhesive extruded around the copper sheet.

Optionally, the copper sheet placing assembly comprises an electric sliding rail, a first electric sliding block, a second electric sliding block, a first copper sheet placing unit and a second copper sheet placing unit; the electric slide rail is fixedly connected with the connecting frame; the electric slide rail is respectively connected with the first electric slide block and the second electric slide block in a sliding way; the first electric sliding block is fixedly connected with the first copper sheet placing unit; the first copper sheet placing unit is fixedly connected with the first scraping unit; the second electric slide block is fixedly connected with the second copper sheet placing unit; the second copper sheet placing unit is fixedly connected with the second scraping unit.

Optionally, the scraping assembly includes a main motor, a third transmission rod, a shaft sleeve, a fourth bevel gear, a fifth bevel gear, a second fixed frame, a second electric push rod, a sixth bevel gear, a first scraping unit and a second scraping unit; the main motor is fixedly connected with the underframe; the output shaft of the main motor is fixedly connected with a third transmission rod; the third transmission rod is in transmission connection with the shaft sleeve; two sides of the shaft sleeve are fixedly connected with a fourth bevel gear and a fifth bevel gear respectively; the second fixing frame is rotatably connected with the shaft sleeve; the second fixing frame is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe; a sixth bevel gear is arranged on the side surface of the fourth bevel gear; when the sixth bevel gear is meshed with the fourth bevel gear, the sixth bevel gear rotates; when the sixth bevel gear is not meshed with the fourth bevel gear, the sixth bevel gear does not rotate; the sixth bevel gear is fixedly connected with the first scraping unit; the first scraping unit is connected with the second supporting frame; the first scraping unit is in transmission connection with the second scraping unit through a belt; the second scraping unit is connected with the first supporting frame.

Optionally, the first copper sheet placing unit comprises a second fixing plate, a third electric push rod, a copper sheet box, a baffle, a convex plate, a third pressing block, a first elastic piece, a first wedge-shaped block, a second wedge-shaped block, a first separating plate, a first translation sliding block, a second elastic piece, a second separating plate, a third wedge-shaped block, a fourth wedge-shaped block, a second translation sliding block, a third elastic piece and a fourth elastic piece; the second fixing plate is fixedly connected with the first electric sliding block; the second fixing plate is fixedly connected with one side of the two groups of third electric push rods; the other sides of the two groups of third electric push rods are fixedly connected with the copper sheet box; the copper sheet box is fixedly connected with the first scraping unit; a group of baffles are fixedly connected to both sides of the bottom surface of the copper sheet box; the convex plate and the third pressing block are in sliding connection with the copper sheet box; the convex plate is fixedly connected with one side of the first elastic piece; the other side of the first elastic piece is fixedly connected with the copper sheet box; the first wedge-shaped block is fixedly connected with the convex plate; the first wedge-shaped block is in transmission connection with the second wedge-shaped block; the second wedge-shaped block is fixedly connected with the first translation sliding block; the first separating plate is fixedly connected with the first translation sliding block; the first translation sliding block is in sliding connection with the copper sheet box; the first translation sliding block is fixedly connected with one side of the second elastic piece; the other side of the second elastic piece is fixedly connected with the copper sheet box; a second separation plate is arranged on the side surface of the third pressing block; the second separation plate is fixedly connected with the second translation sliding block; the third wedge block is fixedly connected with the third pressing block; the third wedge block is in transmission connection with the fourth wedge block; the fourth wedge-shaped block is fixedly connected with the second translation sliding block; the second translation sliding block is in sliding connection with the copper sheet box; the second translation sliding block is fixedly connected with one side of the third elastic piece; the other side of the third elastic part is fixedly connected with the copper sheet box; one side of the fourth elastic piece is fixedly connected with the third pressing block; the other side of the fourth elastic piece is fixedly connected with the copper sheet box.

Optionally, the first scraping unit includes a transmission wheel, a first bidirectional screw rod, a third translational slide block, a translational slide rail, a connection rod, a push block, a fourth electric push rod, a carrying plate, a third fixing plate, a fifth electric push rod, a first press plate, a sixth electric push rod, a T-shaped slide rail frame, a second press plate, a first translational slide plate, a first wedge plate, a second translational slide plate, a second wedge plate, a second bidirectional screw rod, a third translational slide plate, a third wedge plate, a third bidirectional screw rod, a fourth translational slide plate, a fourth wedge plate, a first slide rod, a first spring, a second slide rod, a second spring, a fifth wedge block and a sixth wedge block; the driving wheel is fixedly connected with the first bidirectional screw rod; the transmission wheel is in transmission connection with the second scraping unit through a belt; the first bidirectional screw rod is fixedly connected with the sixth bevel gear; the first bidirectional screw rod is rotatably connected with the second support frame; the first bidirectional screw rod is rotatably connected with the third translation sliding block; the third translation sliding block is in sliding connection with the translation sliding rail; the translation sliding rail is fixedly connected with the second support frame; the connecting rod is fixedly connected with the third translation sliding block; the connecting rod is fixedly connected with the pushing block; the two sides of the translation sliding rail are symmetrically provided with a combination of a third translation sliding block, a connecting rod and a pushing block; a fourth electric push rod is arranged on the side face of the middle part of the translation slide rail; the fourth electric push rod is fixedly connected with the bearing plate; a third fixing plate is arranged above the side surface of the bearing plate; the third fixing plate is fixedly connected with the fifth electric push rod; the third fixing plate is fixedly connected with the copper sheet box; the fifth electric push rod is fixedly connected with the first pressing plate; the sixth electric push rod is fixedly connected with the T-shaped slide rail frame; the sixth electric push rod is fixedly connected with the second pressing plate; the first translation sliding plate is in sliding connection with the T-shaped sliding rail frame; the first translation sliding plate is fixedly connected with the first wedge-shaped plate; the second translation sliding plate is in sliding connection with the T-shaped sliding rail frame; the second translation sliding plate is fixedly connected with the second wedge-shaped plate; two sides of the second bidirectional screw rod are respectively connected with the first translation sliding plate and the second translation sliding plate in a rotating mode; the second bidirectional screw rod is rotatably connected with the T-shaped slide rail frame through a connecting block; a first translation sliding plate, a first wedge-shaped plate, a second translation sliding plate, a second wedge-shaped plate and a second bidirectional screw rod are symmetrically arranged on two sides of the second pressing plate; the third translation sliding plate is in sliding connection with the T-shaped sliding rail frame; the third translation sliding plate is fixedly connected with the third wedge-shaped plate; one side of the third bidirectional screw rod is in rotary connection with the third translation sliding plate; the other side of the third bidirectional screw rod is in screwed connection with the fourth translation sliding plate; the third bidirectional screw rod is rotatably connected with the T-shaped slide rail frame through a connecting block; the fourth translational sliding plate is in sliding connection with the T-shaped sliding rail frame; the fourth translational sliding plate is fixedly connected with the fourth wedge-shaped plate; two sides of the first sliding rod are respectively connected with the third translational sliding plate and the fourth translational sliding plate in a sliding manner; two sides of the first spring are fixedly connected with the third translational sliding plate and the fourth translational sliding plate respectively; two sides of the second sliding rod are respectively connected with the first translation sliding plate and the second translation sliding plate in a sliding manner; two sides of the second spring are fixedly connected with the first translation sliding plate and the second translation sliding plate respectively; a combination of a second sliding rod and a second spring is symmetrically arranged on two sides of the second pressure plate; the fifth wedge-shaped block is fixedly connected with the second wedge-shaped plate; the fifth wedge-shaped block is in transmission connection with the sixth wedge-shaped block; the sixth wedge-shaped block is fixedly connected with the fourth wedge-shaped plate; and the fifth wedge block and the sixth wedge block are symmetrically arranged on two sides of the fourth wedge plate.

Optionally, the baffle is provided in a stepped configuration.

Optionally, a sliding groove matched with the first translation sliding block and the second translation sliding block is arranged in the copper sheet box.

Optionally, a convex rectangular plate is arranged on the bearing plate, and a space is arranged between two sides of the rectangular plate and the surface of the bearing plate.

The invention has the beneficial effects that: 1. in order to solve the problems in the prior art, when a quartz glass and graphene coating heating body is prepared, three quartz glass blocks are used as base materials, grooves are ground at two ends of one quartz glass block to place copper sheets as electrodes, the copper sheets are fixed by conductive silver adhesive, the surfaces of the electrodes and the surfaces of the glass blocks are smooth, and after the electrodes are made, graphene slurry is coated on the surfaces of the quartz glass blocks; the copper sheet is small and thin, and is inconvenient to take when being manually operated, the copper sheet is difficult to ensure to be placed in the groove in a horizontal state during placement, the pressing force degree is difficult to control after the copper sheet is placed in the groove, and further the requirements of electrode surface and glass surface smoothness cannot be met, the copper sheet can be placed at one end of quartz glass only once, the treatment efficiency is low, in order to ensure that the electrode surface and the glass surface are smooth, the conductive silver adhesive in the groove needs to be coated more, after the copper sheet is placed, the conductive silver adhesive overflows due to extrusion, the product performance can be influenced due to the fact that graphene slurry is directly coated on the quartz glass surface, the manual scraping efficiency is low, the copper sheet is easy to move and shift during scraping, and the problem that rework treatment is seriously caused is solved;

2. the turnover component, the copper sheet placing component and the scraping component are designed, when the turnover component is ready for work, the equipment is placed on a horizontal plane, a power supply is switched on, quartz glass with grooves milled at two ends is placed in the turnover component which is connected with a third support frame and is supported by a support column and a cushion plate to be clamped and fixed, a preset amount of conductive silver adhesive is manually coated in the quartz glass groove, the copper sheet placing component fixedly connected with a connecting frame is controlled by a controller to operate in the grooves at two ends of the quartz glass to place a copper sheet, then the copper sheet placing component enables the scraping component connected with a first support frame and a second support frame to be at a preset position, then the scraping component operates to scrape redundant conductive silver adhesive around the copper sheet, and then the scraping component drives the turnover component to turn over the quartz glass and then performs the same treatment on the other surface;

3. when the copper sheet processing device is used, the copper sheets are automatically and simultaneously placed at two ends of the quartz glass, and are pressed to be in order with the surface of the quartz glass, so that the copper sheets are pressed and fixed, and redundant conductive silver adhesive around the two copper sheets is scraped, the processing efficiency is improved, the processing quality is ensured, and rework caused by problems in manual operation is avoided.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a schematic view of a first perspective structure of the turn-over assembly of the present invention;

FIG. 4 is a second perspective view of the turn-over assembly of the present invention;

FIG. 5 is a top view of the turn-over assembly of the present invention;

FIG. 6 is a schematic view of a first three-dimensional structure of the copper sheet placement assembly of the present invention;

FIG. 7 is a schematic diagram of a second perspective structure of the copper sheet placing assembly of the present invention;

FIG. 8 is a side view of the copper sheet placement assembly of the present invention;

fig. 9 is a schematic view of a first perspective structure of the scraping assembly of the present invention;

fig. 10 is a second perspective view of the scraping assembly of the present invention;

FIG. 11 is a schematic diagram of a first three-dimensional structure of a first copper sheet placing unit according to the present invention;

FIG. 12 is a second perspective view of the first copper sheet placing unit according to the present invention;

FIG. 13 is a schematic view of a first partial perspective structure of a first copper sheet placing unit according to the present invention;

FIG. 14 is a schematic view of a second partial perspective structure of the first copper sheet placing unit according to the present invention;

fig. 15 is a schematic perspective view of a first scraping unit according to the present invention;

fig. 16 is a schematic view of a first partial perspective structure of the first scraping unit of the present invention;

fig. 17 is a schematic perspective view of a second partial structure of the first scraping unit of the present invention;

fig. 18 is a third partial perspective view of the first scraping unit according to the present invention.

Reference numbers in the drawings: 1: chassis, 2: support column, 3: backing plate, 4: first support frame, 5: second support frame, 6: third support frame, 7: connecting frame, 8: controller, 401: first bevel gear, 402: first drive lever, 403: second bevel gear, 404: third bevel gear, 405: second transmission lever, 406: flat gear, 407: ring gear, 408: fixing ring, 409: first electric putter, 410: first fixing plate, 411: electric suction cup, 412: first mount, 501: electric slide rail, 502: first electric slider, 503: second electric slider, 504: first copper sheet placing unit, 505: second copper sheet placing unit, 601: main motor, 602: third transmission rod, 603: shaft sleeve, 604: fourth bevel gear, 605: fifth bevel gear, 606: second fixing frame, 607: second electric putter, 608: sixth bevel gear, 609: first scraping unit, 610: second scraping unit, 50401: second fixing plate, 50402: third electric putter, 50403: copper box, 50404: baffle, 50405: convex plate, 50406: third briquette, 50407: first elastic member, 50408: first wedge, 50409: second wedge, 50410: first separator plate, 50411: first translation slider, 50412: second elastic member, 50413: second separation plate, 50414: third wedge, 50415: fourth wedge, 50416: second translation slide, 50417: third elastic member, 50418: fourth elastic member, 60901: drive wheel, 60902: first bidirectional screw, 60903: third translation slider, 60904: translation slide rail, 60905: link, 60906: push block, 60907: fourth electric push rod, 60908: receiving plate, 60909: third fixing plate, 60910: fifth electric putter, 60911: first presser plate, 60912: sixth electric putter, 60913: t-shaped rail mount, 60914: second presser plate, 60915: first translational slide, 60916: first wedge plate, 60917: second translation sled, 60918: second wedge plate, 60919: second bidirectional screw, 60920: third translational slide plate, 60921: third wedge plate, 60922: third bidirectional screw, 60923: fourth pan sled, 60924: fourth wedge plate, 60925: first slide bar, 60926: first spring, 60927: second slide bar, 60928: second spring, 60929: fifth wedge block, 60930: and a sixth wedge block.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Examples

A quartz glass and graphene coating heating body preparation treatment device is shown in a figure 1-2 and comprises a bottom frame 1, support columns 2, a base plate 3, a first support frame 4, a second support frame 5, a third support frame 6, a connecting frame 7, a controller 8, a copper sheet placing assembly and a scraping assembly; four corners of the bottom surface of the underframe 1 are fixedly connected with a group of support columns 2 respectively; the four groups of support columns 2 are respectively fixedly connected with a group of backing plates 3; the underframe 1 is fixedly connected with a first support frame 4, a second support frame 5, a third support frame 6, a connecting frame 7 and a controller 8; a copper sheet placing component is arranged in the middle of the upper part of the underframe 1; the copper sheet placing component is fixedly connected with the connecting frame 7; the copper sheet placing assembly is fixedly connected with the scraping assembly; the copper sheet placing component places copper sheets in grooves at two ends of the quartz glass; scraping components are arranged at the middle part and the left side above the underframe 1; the scraping component is connected with the first support frame 4 and the second support frame 5; the scraping component scrapes off the excessive conductive silver adhesive extruded around the copper sheet.

When the device is ready to work, the device is placed on a horizontal plane, a power supply is switched on, quartz glass with grooves milled at two ends is placed into a turnover component which is supported on a bottom frame 1 through a support column 2 and a base plate 3 and connected with a third support frame 6 to be clamped and fixed, a preset amount of conductive silver adhesive is manually coated in the quartz glass grooves, a copper sheet placing component fixedly connected with a connecting frame 7 is controlled by a controller 8 to operate in the grooves at two ends of the quartz glass to place copper sheets, then the copper sheet placing component enables scraping components connected with a first support frame 4 and a second support frame 5 to be at a preset position, then the scraping component operates to scrape redundant conductive silver adhesive around the copper sheets, and then the scraping component drives the turnover component to turn over the quartz glass and then performs the same treatment on the other surface; when the copper sheet processing device is used, the copper sheets are automatically and simultaneously placed at two ends of the quartz glass, and are pressed to be in order with the surface of the quartz glass, so that the copper sheets are pressed and fixed, and redundant conductive silver adhesive around the two copper sheets is scraped, the processing efficiency is improved, the processing quality is ensured, and rework caused by problems in manual operation is avoided.

Referring to fig. 3-5, the turning device further comprises a turning assembly, wherein the turning assembly comprises a first bevel gear 401, a first transmission rod 402, a second bevel gear 403, a third bevel gear 404, a second transmission rod 405, a flat gear 406, a gear ring 407, a fixing ring 408, a first electric push rod 409, a first fixing plate 410, an electric suction cup 411 and a first fixing frame 412; the first bevel gear 401 is engaged with the scraping assembly; the first bevel gear 401 is fixedly connected with the first transmission rod 402; the first transmission rod 402 is rotatably connected with the third support frame 6; the first transmission rod 402 is fixedly connected with the second bevel gear 403; the second bevel gear 403 is meshed with the third bevel gear 404; the third bevel gear 404 is fixedly connected with a second transmission rod 405; the second transmission rod 405 is rotatably connected with the underframe 1; the second transmission rod 405 is fixedly connected with the flat gear 406; the flat gear 406 is meshed with the gear ring 407; the gear ring 407 is fixedly connected with the fixed ring 408; the fixing ring 408 is rotatably connected with the first fixing frame 412; one side of each of the two groups of first electric push rods 409 is fixedly connected with the fixed ring 408; the other sides of the two groups of first electric push rods 409 are fixedly connected with the first fixing plate 410; the first fixing plate 410 is fixedly connected with the two groups of electric suction cups 411; the upper side and the lower side of the hole of the fixing ring 408 are symmetrically provided with a combination of a first electric push rod 409, a first fixing plate 410 and an electric suction cup 411; a combination of a flat gear 406, a gear ring 407, a fixing ring 408, a first electric push rod 409, a first fixing plate 410, an electric suction cup 411 and a first fixing frame 412 is symmetrically arranged by taking the central axis of the second transmission rod 405 as a symmetry axis.

The quartz glass with grooves milled at both ends is put into two sets of fixing rings 408, a plurality of first electric push rods 409 are simultaneously extended to make four sets of first fixing plates 410 drive a plurality of electric suction cups 411 to be attached to the surface of the quartz glass, and then the quartz glass is fixed in the two sets of fixing rings 408, after a copper sheet is placed on one side of quartz glass to scrape off redundant conductive silver adhesive, the scraping component transmits power to drive a first bevel gear 401 to drive a first transmission rod 402 to rotate, the first transmission rod 402 drives a second bevel gear 403 to drive a third bevel gear 404 to rotate, the third bevel gear 404 drives a second transmission rod 405 to rotate, the second transmission rod 405 simultaneously drives two groups of flat gears 406 to drive two groups of toothed rings 407 to rotate, thereby turning the two sets of fixing rings 408 over one hundred and eighty degrees in the two sets of first fixing frames 412, then the quartz glass is turned over by one hundred eighty degrees, so that the copper sheet placing assembly and the scraping assembly can process the other surface of the quartz glass conveniently; this subassembly carries out the centre gripping to quartz glass fixed, can make quartz glass carry out the turn-over so that the copper sheet is placed the subassembly and is scraped the subassembly and handle.

Referring to fig. 6-8, the copper sheet placing assembly comprises an electric slide rail 501, a first electric slide block 502, a second electric slide block 503, a first copper sheet placing unit 504 and a second copper sheet placing unit 505; the electric sliding rail 501 is fixedly connected with the connecting frame 7; the electric slide rail 501 is respectively connected with the first electric slide block 502 and the second electric slide block 503 in a sliding manner; the first electric slider 502 is fixedly connected with the first copper sheet placing unit 504; the first copper sheet placing unit 504 is fixedly connected with the first scraping unit 609; the second electric sliding block 503 is fixedly connected with the second copper sheet placing unit 505; the second copper sheet placing unit 505 is fixedly connected with the second scraping unit 610.

After the quartz glass is clamped and fixed, the first electric sliding block 502 and the second electric sliding block 503 simultaneously slide in the electric sliding rail 501, so that the first copper sheet placing unit 504 and the second copper sheet placing unit 505 are driven to move to preset positions, then the scraping component operates to assist the first copper sheet placing unit 504 and the second copper sheet placing unit 505 to place copper sheets in grooves at two ends of the quartz glass, and then the first copper sheet placing unit 504 and the second copper sheet placing unit 505 move to enable the first scraping unit 609 and the second scraping unit 610 to be in preset positions so as to facilitate the scraping component to process; a copper sheet is placed in grooves at two ends of quartz glass at the same time.

Referring to fig. 9-10, the scraping assembly includes a main motor 601, a third transmission rod 602, a bushing 603, a fourth bevel gear 604, a fifth bevel gear 605, a second fixing frame 606, a second electric push rod 607, a sixth bevel gear 608, a first scraping unit 609, and a second scraping unit 610; the main motor 601 is fixedly connected with the underframe 1; the output shaft of the main motor 601 is fixedly connected with the third transmission rod 602; the third transmission rod 602 is in transmission connection with the shaft sleeve 603; two sides of the shaft sleeve 603 are fixedly connected with a fourth bevel gear 604 and a fifth bevel gear 605 respectively; the second fixing frame 606 is rotatably connected with the shaft sleeve 603; the second fixing frame 606 is fixedly connected with a second electric push rod 607; the second electric push rod 607 is fixedly connected with the underframe 1; a sixth bevel gear 608 is arranged on the side surface of the fourth bevel gear 604; when the sixth bevel gear 608 is engaged with the fourth bevel gear 604, the sixth bevel gear 608 rotates; when the sixth bevel gear 608 is not meshed with the fourth bevel gear 604, the sixth bevel gear 608 does not rotate; a sixth bevel gear 608 is fixedly connected with the first scraping unit 609; the first scraping unit 609 is connected with the second supporting frame 5; the first scraping unit 609 is in transmission connection with the second scraping unit 610 through a belt; the second scraping unit 610 is connected with the first support frame 4.

After the first scraping unit 609 and the second scraping unit 610 are at preset positions, the main motor 601 is started, the output shaft of the main motor 601 drives the third transmission rod 602 to drive the shaft sleeve 603 to rotate, the shaft sleeve 603 simultaneously drives the fourth bevel gear 604 and the fifth bevel gear 605 to rotate, the second electric push rod 607 extends to push the second fixing frame 606, so that the shaft sleeve 603 slides on the third transmission rod 602, the fifth bevel gear 605 is meshed with the first bevel gear 401, and power can be transmitted to the turnover assembly, the second electric push rod 607 contracts to enable the fourth bevel gear 604 to be meshed with the sixth bevel gear 608, the sixth bevel gear 608 rotates to transmit power to the first scraping unit 609, the first scraping unit 609 operates to transmit power to the second scraping unit 610, and the first scraping unit 609 and the second scraping unit 610 operate simultaneously to scrape redundant conductive silver adhesive around a copper sheet; the assembly can simultaneously scrape redundant conductive silver adhesive around the two copper sheets.

Referring to fig. 11 to 14, the first copper sheet placing unit 504 includes a second fixing plate 50401, a third electric push rod 50402, a copper sheet box 50403, a blocking plate 50404, a convex plate 50405, a third pressing block 50406, a first elastic member 50407, a first wedge 50408, a second wedge 50409, a first separating plate 50410, a first translational slider 50411, a second elastic member 50412, a second separating plate 50413, a third wedge 50414, a fourth wedge 50415, a second translational slider 50416, a third elastic member 50417 and a fourth elastic member 50418; the second fixing plate 50401 is fixedly connected to the first electric slider 502; the second fixing plate 50401 is fixedly connected with one side of the two groups of third electric push rods 50402; the other sides of the two groups of third electric push rods 50402 are fixedly connected with the copper sheet boxes 50403; the copper sheet box 50403 is fixedly connected with the first scraping unit 609; two sides of the bottom surface of the copper sheet box 50403 are fixedly connected with a group of baffle plates 50404; the convex plate 50405 and the third pressing block 50406 are both in sliding connection with the copper sheet box 50403; the convex plate 50405 is fixedly connected with one side of the first elastic member 50407; the other side of the first elastic piece 50407 is fixedly connected with the copper sheet box 50403; the first wedge block 50408 is fixedly connected with the convex plate 50405; the first wedge block 50408 is in transmission connection with the second wedge block 50409; the second wedge block 50409 is fixedly connected with the first translation sliding block 50411; the first separating plate 50410 is fixedly connected with the first translation slider 50411; the first translation slider 50411 is in sliding connection with the copper sheet box 50403; the first translational sliding block 50411 is fixedly connected with one side of the second elastic piece 50412; the other side of the second elastic piece 50412 is fixedly connected with the copper sheet box 50403; the third pressing block 50406 is provided with a second separating plate 50413 at the side; the second separating plate 50413 is fixedly connected with the second translation slider 50416; the third wedge 50414 is fixedly connected with a third pressing block 50406; the third wedge 50414 is in driving connection with the fourth wedge 50415; the fourth wedge block 50415 is fixedly connected with the second translation slider 50416; the second translation slider 50416 is slidably connected with the copper sheet box 50403; the second translation slider 50416 is fixedly connected with one side of the third elastic piece 50417; the other side of the third elastic piece 50417 is fixedly connected with the copper sheet box 50403; one side of the fourth elastic piece 50418 is fixedly connected with the third pressing block 50406; the other side of the fourth elastic member 50418 is fixedly connected with the copper sheet box 50403.

After the first copper sheet placing unit 504 moves to the preset position, the fourth electric push rod 60907 extends to push the bearing plate 60908 to rise, so that the surface of the middle protruding part of the bearing plate is flush with the bottom surface of the quartz glass groove, then the two sets of third electric push rods 50402 on the bottom surface of the second fixing plate 50401 extend to push the copper sheet box 50403 to move downwards at the same time, so that the convex plate 50405 is in contact with and pressed by the quartz glass surface, and the bottom surfaces of the two sets of baffles 50404 are attached to the surface of the bearing plate 60908, so that the third pressing block 50406 is in contact with and pressed by the rectangular plate protruding from the bearing plate 60908, and at the same time, the copper sheet at the lowest position of the bottom surface of the copper sheet box 50403 is adhered to the conductive silver adhesive in the quartz glass groove, the convex plate 50405 is pressed to slide upwards in the copper sheet box 50403, so that the first elastic member 50407 is compressed, so that the first wedge 50408 presses the second wedge 50409 to push the first translation slider 50411 to slide in the copper sheet box 50403, at the same time, the second elastic member 50412 is compressed, the first separating plate 50410 is inserted between the lowest copper sheet and the penultimate copper sheet, the third pressing block 50406 is slid upward in the copper sheet box 50403, the fourth elastic member 50418 is compressed, the third wedge 50414 presses the fourth wedge 50415 to push the second sliding block 50416 to slide in the copper sheet box 50403, the third elastic member 50417 is compressed, the second separating plate 50413 is inserted between the lowest copper sheet and the penultimate copper sheet, and the two copper sheets are separated, then the first electric sliding block 502 drives the second fixing plate 50401 to move away from the quartz glass, and further the convex plate 50405 and the third pressing block 50406 move away from the quartz glass, at this time, the lowest copper sheet on the bottom surface of the copper sheet box 50403 is in a bonding state with the conductive silver adhesive and is not driven to move, the convex plate 50405 is pushed downward by the first elastic member 50407, the convex plate 50405 moves and scrapes and presses the surface of the copper sheet to flatten the surface of the copper sheet and the surface of the quartz glass, the copper sheet is slowly drawn out from the bottom surface of the copper sheet box 50403, the two groups of baffles 50404 slide through the bearing plate 60908 until the copper sheet is completely separated from the bottom surface of the copper sheet box 50403, then the two groups of third electric push rods 50402 contract and reset, then the copper sheet box 50403 drives the third fixing plate 60909 to move to a preset position so as to facilitate the treatment of the first scraping unit 609, and the working principle of the second copper sheet placing unit 505 is the same as that of the first copper sheet placing unit 504; the unit places the copper sheet in the groove of quartz glass and flattens it at the same time.

Referring to fig. 15-18, the first scraping unit 609 includes a transmission wheel 60901, a first bidirectional screw 60902, a third sliding block 60903, a sliding rail 60904, a connecting rod 60905, a pushing block 60906, a fourth electric push rod 60907, a bearing plate 60908, a third fixing plate 60909, a fifth electric push rod 60910, a first pressing plate 60911, a sixth electric push rod 60912, a T-shaped sliding rail frame 60913, a second pressing plate 60914, a first sliding plate 60915, a first wedge plate 60916, a second sliding plate 60917, a second wedge plate 60918, a second bidirectional screw 60919, a third sliding plate 60920, a third wedge plate 60921, a third bidirectional screw 60922, a fourth sliding plate 60923, a fourth wedge plate 60924, a first sliding rod 60925, a first spring 60926, a second sliding rod 60927, a second spring 60928, a fifth wedge block 60929, and a sixth wedge block 60930; the driving wheel 60901 is fixedly connected with a first bidirectional screw 60902; the transmission wheel 60901 is in transmission connection with the second scraping unit 610 through a belt; the first bidirectional screw 60902 is fixedly connected with the sixth bevel gear 608; the first bidirectional screw 60902 is rotatably connected with the second support frame 5; the first bidirectional screw 60902 is connected with the third translation slider 60903; the third translation slider 60903 is in sliding connection with the translation slide rail 60904; the translation sliding rail 60904 is fixedly connected with the second support frame 5; the connecting rod 60905 is fixedly connected with the third translation sliding block 60903; the connecting rod 60905 is fixedly connected with the pushing block 60906; the two sides of the translation slide rail 60904 are symmetrically provided with a combination of a third translation slide block 60903, a connecting rod 60905 and a push block 60906; a fourth electric push rod 60907 is arranged on the side surface of the middle part of the translation slide rail 60904; the fourth electric push rod 60907 is fixedly connected with the bearing plate 60908; a third fixing plate 60909 is arranged above the side surface of the bearing plate 60908; the third fixing plate 60909 is fixedly connected with a fifth electric push rod 60910; the third fixing plate 60909 is fixedly connected with the copper sheet box 50403; the fifth electric push rod 60910 is fixedly connected with the first pressure plate 60911; the sixth electric push rod 60912 is fixedly connected with a T-shaped slide rail frame 60913; the sixth electric push rod 60912 is fixedly connected with the second pressing plate 60914; the first translational sliding plate 60915 is in sliding connection with the T-shaped sliding rail frame 60913; the first translational sliding plate 60915 is fixedly connected with the first wedge-shaped plate 60916; the second translation sliding plate 60917 is connected with a T-shaped sliding rail frame 60913 in a sliding manner; the second translational sliding plate 60917 is fixedly connected with the second wedge-shaped plate 60918; two sides of the second bidirectional screw 60919 are respectively screwed with the first translational sliding plate 60915 and the second translational sliding plate 60917; the second bidirectional screw 60919 is rotationally connected with the T-shaped slide rail frame 60913 through a connecting block; the two sides of the second pressing plate 60914 are symmetrically provided with a combination of a first translational sliding plate 60915, a first wedge-shaped plate 60916, a second translational sliding plate 60917, a second wedge-shaped plate 60918 and a second bidirectional screw rod 60919; the third translation sliding plate 60920 is in sliding connection with the T-shaped sliding rail frame 60913; the third translational sliding plate 60920 is fixedly connected with the third wedge-shaped plate 60921; one side of the third bidirectional screw 60922 is rotatably connected with the third translational sliding plate 60920; the other side of the third bidirectional screw 60922 is in screwed connection with a fourth translational sliding plate 60923; the third bidirectional screw 60922 is rotationally connected with the T-shaped slide rail frame 60913 through a connecting block; the fourth translation slide 60923 is slidably connected to a T-shaped slide rail frame 60913; the fourth translational sliding plate 60923 is fixedly connected with the fourth wedge-shaped plate 60924; two sides of the first slide bar 60925 are slidably connected to the third translational slide plate 60920 and the fourth translational slide plate 60923 respectively; two sides of the first spring 60926 are respectively fixedly connected with the third translational sliding plate 60920 and the fourth translational sliding plate 60923; two sides of the second slide bar 60927 are respectively connected with the first translational slide plate 60915 and the second translational slide plate 60917 in a sliding manner; two sides of the second spring 60928 are respectively fixedly connected with the first translational sliding plate 60915 and the second translational sliding plate 60917; a second sliding bar 60927 and a second spring 60928 are symmetrically arranged on two sides of the second pressing plate 60914; the fifth wedge block 60929 is fixedly connected with the second wedge plate 60918; the fifth wedge block 60929 is in transmission connection with the sixth wedge block 60930; the sixth wedge block 60930 is fixedly connected with the fourth wedge plate 60924; the fourth wedge plate 60924 is provided with a combination of a fifth wedge 60929 and a sixth wedge 60930 symmetrically on both sides.

After the copper sheet box 50403 drives the third fixing plate 60909 to move to a preset position, the fifth electric push rod 60910 extends to push the first pressing plate 60911 to press the copper sheet downwards on the bearing plate 60908, meanwhile, the sixth electric push rod 60912 extends to push the second pressing plate 60914 to press the copper sheet in the groove of the quartz glass, at the same time, the T-shaped slide rail frame 60913 drives the parts connected with the T-shaped slide rail frame to move downwards, so that the two groups of second wedge-shaped plates 60918 are attached to the surface of the copper sheet, the first wedge-shaped plate 60916 and the third wedge-shaped plate 60921 are attached to the surface of the quartz glass, then the sixth bevel gear 608 rotates to drive the first bidirectional screw rod 60902 to drive the driving wheel 60901 to rotate, the driving wheel 60901 rotates to convey power to the second scraping unit 610, the first bidirectional screw rod 60902 rotates to drive the two groups of third sliding blocks 60903 rotationally connected with the first bidirectional screw rod 6083 to slide in the translation slide rail 60904 to approach each other, so that the two groups of connecting rods 60905 drive the pushing blocks 60906 to approach each other, the pushing block 60906 pushes the first translational sliding plate 60915 to slide in the T-shaped sliding rail frame 60913, so that the second bidirectional screw rod 60919 rotates, so that the second translational sliding plate 60917 slides in the T-shaped sliding rail frame 60913 to be close to the first translational sliding plate 60915, so that the first wedge-shaped plate 60916 and the second wedge-shaped plate 60918 approach each other to scrape off excess conductive silver paste at the edge of the copper sheet, and at the same time, the first translational sliding plate 60915 and the second translational sliding plate 60917 slide on the second sliding rod 60927 to compress the second spring 60928, so that the second wedge-shaped plate 60918 moves to drive the fifth wedge-shaped block 60929 to move to press the sixth wedge-shaped block 60930, so that the fourth wedge-shaped plate 60924 drives the fourth translational sliding plate 60923 to slide in the T-shaped sliding rail frame 60913, and at the same time, the third bidirectional screw rod 60922 rotates, so that the third translational sliding plate 60920 slides in the T-shaped sliding rail frame 6042, and at the third translational sliding plate 36 60920 and the fourth translational sliding plate 60923 approach each other 60925, the first spring 60926 is compressed, so that the third wedge-shaped plate 60921 and the fourth wedge-shaped plate 60924 approach each other to scrape the excess conductive silver adhesive on the edge of the copper sheet, and the first scraping unit 609 works in the same way as the second scraping unit 610; the unit scrapes off redundant conductive silver adhesive around the copper sheet after pressing the copper sheet.

The baffle 50404 is provided in a stepped configuration.

So that the copper sheet is drawn out from the bottom surface of the copper sheet box 50403.

The copper sheet box 50403 is provided with a sliding groove which is matched with the first translation sliding block 50411 and the second translation sliding block 50416.

So that the first translation slider 50411 and the second translation slider 50416 slide within the copper cassette 50403.

The bearing plate 60908 is provided with a protruding rectangular plate, and a space is provided between the two sides of the rectangular plate and the surface of the bearing plate 60908.

Facilitating the sliding passage of the baffle 50404 therethrough.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.