CN220242496U

CN220242496U - Graphite calender with adjustable

Info

Publication number: CN220242496U
Application number: CN202321867509.7U
Authority: CN
Inventors: 吴超
Original assignee: Hangzhou Hot Flow New Material Co ltd
Current assignee: Hangzhou Hot Flow New Material Co ltd
Priority date: 2023-07-17
Filing date: 2023-07-17
Publication date: 2023-12-26
Anticipated expiration: 2033-07-17

Abstract

The utility model discloses an adjustable graphite calender, which relates to the field of calenders and comprises a calender, wherein two roller connecting plates are arranged on the calender, the same roller shaft is arranged on the two roller connecting plates, a winding roller is arranged on the roller shaft, two motor connecting blocks are fixedly arranged on the calender, the same adjusting structure is arranged on the two motor connecting blocks, a plurality of lifting rods are fixedly arranged on one side of each roller connecting plate, a lifting structure is arranged on each lifting rod, and three air cylinders are arranged on each lifting structure. According to the utility model, through the arrangement of the motor, the threaded screw rod, the regulating plates and other structures, the threaded screw rod is enabled to rotate by starting the motor, and under the action of the rotating threaded screw rod, the two regulating plates are driven to be far away from or close to each other, so that rolled graphite is rolled between the two regulating plates, disorder of rolled graphite sheets in the rolling process is avoided, and the rolling effect is improved.

Description

Graphite calender with adjustable

Technical Field

The utility model relates to the field of calenders, in particular to an adjustable graphite calender.

Background

The calender is composed of two or more rollers arranged in a heating mode, and can be divided into cold pressing and hot pressing, wherein the cold pressing is suitable for materials which do not need heating, such as graphite films, graphite sheets, wave absorbing materials, shielding materials, magnetic materials, nonferrous metal materials and the like.

In the prior art, when the calender rolls graphite, the rolled graphite can be rolled on the roller, but the roller is not provided with a proper guide structure, offset is easy to generate in the rolling process, so that graphite sheets are rolled more chaotic, the subsequent rolling effect is affected, and therefore, the demand of people is met by the adjustable graphite calender.

Disclosure of Invention

The utility model aims to provide an adjustable graphite calender, which aims to solve the problems that rolled graphite in the background technology can be rolled on a roller, the roller is not provided with a proper guide structure, offset is easy to generate in the rolling process, so that graphite sheets are rolled more confusedly, and the subsequent rolling effect is influenced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a graphite calender with adjustable, includes the calender, install two roller connecting plates on the calender, install same roller axle on two roller connecting plates, install the rolling roller on the roller axle, fixed mounting has two motor connecting blocks on the calender, installs same regulation structure on two motor connecting blocks, one side fixed mounting of roller connecting plate has a plurality of lifter, installs elevation structure on the lifter, installs three cylinder on the elevation structure, installs same structure of tailorring on the three cylinder.

Preferably, the adjusting structure comprises a motor, the motor is fixedly arranged on one side of one motor connecting block, a threaded screw rod is fixedly arranged at the output end of the motor, two sliding blocks are arranged on the threaded screw rod in a threaded manner, an adjusting plate is fixedly arranged on one side of each sliding block, and one sliding plate is fixedly arranged on one side, close to each other, of each motor connecting block.

Preferably, a limit groove is formed in the sliding plate, a limit block is slidably mounted in the limit groove, the limit block is fixedly mounted on one side of the sliding block, and the adjusting plate is in contact with the winding roller.

Preferably, the lifting structure comprises a lifting plate, the lifting plate is slidably mounted on a lifting rod, a push rod is fixedly mounted on one side of the lifting plate, a push block is fixedly mounted at one end of the push rod, a rotating wheel is rotatably mounted on the push block and is contacted with the winding roller, a limiting plate is fixedly mounted on the lifting rod, four sliding rods are slidably mounted on the limiting plate, the four sliding rods are fixedly mounted on one side of the lifting plate, and the same spring connecting block is fixedly mounted on two sliding rods located on the same side.

Preferably, the sliding rod is sleeved with a spring in a sliding manner, one end of the spring is fixedly arranged on the spring connecting block, and the other end of the spring is fixedly arranged on the limiting plate.

Preferably, the lifting plate is provided with a lifting groove, and the lifting rod is slidably arranged in the lifting groove.

Preferably, a sliding groove is formed in the limiting plate, and the sliding rod is slidably arranged in the sliding rod.

Preferably, the cutting structure comprises a blade connecting strip, the blade connecting strip is fixedly arranged at the output ends of the three cylinders, a cutting blade is fixedly arranged at one side of the blade connecting strip, a baffle is fixedly arranged at one side of the lifting plate, the cutting blade corresponds to the baffle, a conveying groove is formed in the baffle, a cylinder switch is fixedly arranged at one side of the limiting plate, the lifting plate corresponds to the cylinder switch, and the three cylinders are electrically arranged on the cylinder switch.

The beneficial effects of the utility model are as follows:

according to the utility model, through the arrangement of the motor, the threaded screw rod, the regulating plates and other structures, the threaded screw rod is enabled to rotate by starting the motor, and under the action of the rotating threaded screw rod, the two regulating plates are driven to be far away from or close to each other, so that rolled graphite is rolled between the two regulating plates, disorder of rolled graphite sheets in the rolling process is avoided, and the rolling effect is improved.

According to the utility model, through the arrangement of the structures such as the lifting plate, the spring, the cylinder switch and the like, the lifting plate can move upwards along with more and more graphite sheets on the winding roller, meanwhile, the rotating wheel is always in contact with the graphite sheets under the action of the spring, when the graphite sheets are wound to a certain degree, the lifting plate can be extruded to the cylinder switch, the cylinder is started, and the started cylinder drives the cutting blade to cut the graphite sheets, so that the cutting machine is convenient and quick.

Drawings

FIG. 1 is a schematic diagram of an adjustable graphite calender according to the present utility model;

FIG. 2 is a schematic view of the structure of an adjusting plate portion of an adjustable graphite calender according to the present utility model;

FIG. 3 is a schematic view of a cross-sectional portion of an adjustable graphite calender adjusting plate according to the present utility model;

FIG. 4 is a schematic view of the structure of the lifting plate portion of an adjustable graphite calender according to the present utility model;

fig. 5 is a schematic view of the structure of a baffle portion of an adjustable graphite calender according to the present utility model.

In the figure: 100. a calender; 101. a roller connecting plate; 102. a roller shaft; 103. a winding roller; 200. a motor connecting block; 201. a motor; 202. a threaded screw rod; 203. a slide block; 204. an adjusting plate; 205. a limiting block; 206. a slide plate; 207. a limit groove; 300. a lifting rod; 301. a lifting plate; 302. a push rod; 303. a pushing block; 304. a rotating wheel; 305. a limiting plate; 306. a slide bar; 307. a spring connecting block; 308. a spring; 309. a lifting groove; 310. a chute; 400. a baffle; 401. a cylinder; 402. a blade connecting bar; 403. a cutting blade; 404. a cylinder switch; 405. a conveying groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 5, an adjustable graphite calender comprises a calender 100, two roll connecting plates 101 are installed on the calender 100, the same roll shaft 102 is installed on the two roll connecting plates 101, a winding roll 103 is installed on the roll shaft 102, two motor connecting blocks 200 are fixedly installed on the calender 100, the same adjusting structure is installed on the two motor connecting blocks 200, a plurality of lifting rods 300 are fixedly installed on one side of the roll connecting plates 101, a lifting structure is installed on the lifting rod 300, three air cylinders 401 are installed on the lifting structure, the same cutting structure is installed on the three air cylinders 401, the started motor connecting blocks 200 drive a threaded screw 202 to rotate through starting a motor 201 on the motor connecting blocks 200, the rotating threaded screw 202 drives a sliding block 203 and the adjusting plate 204 to slide close to or far away from each other, the adjustment and fixation of graphite sheets with different sizes are realized, the graphite sheets can only be rolled between two adjusting plates 204, the rolling roller 103 is prevented from generating deflection in the process of rolling the graphite sheets, the rolling effect is improved, meanwhile, the moving sliding block 203 drives the limiting block 205 to slide in the limiting groove 207 formed on the sliding plate 206, the moving direction of the sliding block 203 and the adjusting plates 204 is limited, the sliding block 203 and the adjusting plates 204 can only move horizontally, then the calender 100 is started, graphite is rolled, then the rolled graphite sheets are conveyed to the rolling roller 103 through the conveying groove 405 formed on the baffle 400 for rolling, meanwhile, the rolled graphite contacts with the rotating wheel 304, when more graphite on the rolling roller 103 is extruded, the rotating wheel 304, the pushing block 303 and the pushing rod 302 move upwards, the moving push rod 302 is used for extruding the lifting plate 301 to slide on the lifting rod 300, the lifting plate 301 is horizontally moved under the action of the lifting groove 309, meanwhile, the moving lifting plate 301 can drive the slide rod 306 to move in the sliding groove 310, the slide rod 306 can only move horizontally, the moving slide rod 306 drives the spring connecting block 307 to move, the moving spring connecting block 307 stretches the spring 308, then the lifting plate 301 is pushed by the rebound of the spring 308, the rotating wheel 304 is always attached to the rolled graphite sheet to rotate, after the graphite sheet on the rolling roller 103 is rolled to a certain extent, the moving lifting plate 301 can be used for extruding the cylinder switch 404 on the limiting plate 305, the cylinder switch 404 is used for transmitting the started signals to the three cylinders 401, the three cylinders 401 are started simultaneously, the output end of the cylinder 401 drives the blade connecting bar 402 to move with the cutting blade 403, and the cutting blade 403 is contacted with the graphite sheet on the baffle 400, and the cutting of the graphite sheet is realized.

Further, the adjusting structure comprises a motor 201, the motor 201 is fixedly arranged on one side of one motor connecting block 200, a threaded screw rod 202 is fixedly arranged at the output end of the motor 201, two sliding blocks 203 are fixedly arranged on the threaded screw rod 202 in a threaded manner, an adjusting plate 204 is fixedly arranged on one side of each sliding block 203, one sliding plate 206 is fixedly arranged on one side, close to each other, of each two motor connecting blocks 200, the motor 201 on the motor connecting block 200 is started, the started motor connecting block 200 drives the threaded screw rod 202 to rotate, the rotating threaded screw rod 202 drives the sliding blocks 203 and the adjusting plate 204 to slide close to each other or away from each other, graphite sheets of different sizes are adjusted and fixed, the graphite sheets can only be rolled between the two adjusting plates 204, the rolling roller 103 is prevented from deviating in the process of rolling the graphite sheets, and the rolling effect is improved.

Further, a limiting groove 207 is formed in the sliding plate 206, a limiting block 205 is slidably mounted in the limiting groove 207, the limiting block 205 is fixedly mounted on one side of the sliding block 203, the adjusting plate 204 is in contact with the winding roller 103, the moving sliding block 203 drives the limiting block 205 to slide in the limiting groove 207 formed in the sliding plate 206, and the moving direction of the sliding block 203 and the adjusting plate 204 is limited, so that the sliding block 203 and the adjusting plate 204 can only move horizontally.

Further, the lifting structure comprises a lifting plate 301, the lifting plate 301 is slidably mounted on the lifting rod 300, a push rod 302 is fixedly mounted on one side of the lifting plate 301, a push block 303 is fixedly mounted at one end of the push rod 302, a rotating wheel 304 is rotatably mounted on the push block 303, the rotating wheel 304 is in contact with the winding roller 103, a limiting plate 305 is fixedly mounted on the lifting rod 300, four sliding rods 306 are slidably mounted on the limiting plate 305, the four sliding rods 306 are fixedly mounted on one side of the lifting plate 301, the same spring connecting block 307 is fixedly mounted on two sliding rods 306 on the same side, the calender 100 is started to enable graphite to be rolled, then a rolled graphite sheet is conveyed to the winding roller 103 through a conveying groove 405 formed in a baffle 400 to be wound, meanwhile, the rolled graphite is contacted with the rotating wheel 304, when the graphite on the winding roller 103 is more and more, the rotating wheel 304, the push block 303 and the push rod 302 are upwards moved, the moving pushing rod 302 is pushed to slide on the lifting plate 300, the lifting plate 301 is horizontally moved under the action of the lifting groove 309, the lifting plate 301 is horizontally moved, meanwhile, the sliding rod 306 is horizontally moved, the sliding rod 306 is moved, and the sliding rod 306 is only can be moved along the sliding rod 306, the sliding rod 306 is driven to move along the sliding rod, and the sliding rod 306 is horizontally, the sliding rod is moved, and the sliding rod is moved 308 is capable of moving along the sliding rod, and the sliding rod 307.

Further, the sliding rod 306 is slidably sleeved with the spring 308, one end of the spring 308 is fixedly installed on the spring connecting block 307, the other end of the spring 308 is fixedly installed on the limiting plate 305, the moving sliding rod 306 drives the spring connecting block 307 to move, the moving spring connecting block 307 stretches the spring 308, then the lifting plate 301 is pushed by the rebound of the spring 308, the rotating wheel 304 always rotates by being attached to the rolled graphite flake, and when the graphite flake on the rolling roller 103 is rolled to a certain degree, the moving lifting plate 301 presses the cylinder switch 404 on the limiting plate 305.

Further, the lifting plate 301 is provided with a lifting groove 309, the lifting rod 300 is slidably mounted in the lifting groove 309, and the moving push rod 302 presses the lifting plate 301 to slide on the lifting rod 300, so that the lifting plate 301 moves horizontally under the action of the lifting groove 309.

Further, a sliding slot 310 is formed on the limiting plate 305, the sliding rod 306 is slidably mounted in the sliding rod 306, and the moving lifting plate 301 drives the sliding rod 306 to move in the sliding slot 310, so that the sliding rod 306 can only move in the horizontal direction.

Further, the cutting structure comprises a blade connecting bar 402, the blade connecting bar 402 is fixedly arranged at the output ends of three air cylinders 401, a cutting blade 403 is fixedly arranged at one side of the blade connecting bar 402, a baffle 400 is fixedly arranged at one side of a lifting plate 301, the cutting blade 403 corresponds to the baffle 400, a conveying groove 405 is formed in the baffle 400, an air cylinder switch 404 is fixedly arranged at one side of a limiting plate 305, the lifting plate 301 corresponds to the air cylinder switch 404, the three air cylinders 401 are electrically arranged on the air cylinder switch 404, the moving lifting plate 301 can press the air cylinder switch 404 on the limiting plate 305, the air cylinder switch 404 transmits a starting signal to the three air cylinders 401, the three air cylinders 401 are simultaneously started, the output ends of the air cylinders 401 drive the blade connecting bar 402 and the cutting blade 403 to move, the cutting blade 403 is contacted with a graphite sheet on the baffle 400, and cutting of the graphite sheet is realized.

The working principle of the utility model is as follows:

by starting the motor 201 on the motor connecting block 200, the started motor connecting block 200 drives the threaded screw rod 202 to rotate, the rotating threaded screw rod 202 drives the sliding block 203 and the adjusting plate 204 to slide close to or far away from each other, the adjustment and fixation of graphite sheets with different sizes are realized, the graphite sheets can only be rolled between the two adjusting plates 204, the rolling roller 103 is prevented from deviating in the process of rolling the graphite sheets, the rolling effect is improved, meanwhile, the moving sliding block 203 drives the limiting block 205 to slide in the limiting groove 207 formed on the sliding plate 206, the moving direction of the sliding block 203 and the adjusting plate 204 is limited, the sliding block 203 and the adjusting plate 204 can only horizontally move, then the calender 100 is started, the graphite sheets are rolled, the rolled graphite sheets are conveyed to the rolling roller 103 through the conveying groove 405 formed on the baffle 400, simultaneously, the rolled graphite is contacted with the rotating wheel 304, when the graphite on the rolling roller 103 is more and more, the rotating wheel 304, the pushing block 303 and the pushing rod 302 are extruded to move upwards, the moving pushing rod 302 is extruded to slide the lifting plate 301 on the lifting rod 300, the lifting plate 301 is horizontally moved under the action of the lifting groove 309, meanwhile, the moving lifting plate 301 drives the sliding rod 306 to move in the sliding groove 310, the sliding rod 306 can only move horizontally, the moving sliding rod 306 drives the spring connecting block 307 to move, the spring connecting block 307 stretches the spring 308, then the lifting plate 301 is pushed by the rebound of the spring 308, the rotating wheel 304 is always attached to the rolled graphite sheet to rotate, and when the graphite sheet on the rolling roller 103 is rolled to a certain degree, the moving lifting plate 301 presses the cylinder switch 404 on the limiting plate 305, so that the cylinder switch 404 transmits a starting signal to the three cylinders 401, and the three cylinders 401 are started simultaneously, so that the output end of the cylinder 401 drives the blade connecting strip 402 to move with the cutting blade 403, and the cutting blade 403 is contacted with the graphite sheet on the baffle 400, thereby realizing cutting of the graphite sheet.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims

1. The utility model provides a graphite calender with adjustable, includes calender (100), install two roll connecting plates (101) on calender (100), install same roller axle (102) on two roll connecting plates (101), install rolling roller (103), its characterized in that on roller axle (102): two motor connecting blocks (200) are fixedly installed on the calender (100), the same adjusting structure is installed on the two motor connecting blocks (200), a plurality of lifting rods (300) are fixedly installed on one side of the roller connecting plate (101), lifting structures are installed on the lifting rods (300), three air cylinders (401) are installed on the lifting structures, and the same cutting structure is installed on the three air cylinders (401).

2. An adjustable graphite calender as defined in claim 1, wherein: the adjusting structure comprises a motor (201), wherein the motor (201) is fixedly arranged on one side of one motor connecting block (200), a threaded screw rod (202) is fixedly arranged at the output end of the motor (201), two sliding blocks (203) are arranged on the threaded screw rod (202) in a threaded mode, an adjusting plate (204) is fixedly arranged on one side of each sliding block (203), and one sliding plate (206) is fixedly arranged on one side, close to each other, of each motor connecting block (200).

3. An adjustable graphite calender as defined in claim 2, wherein: limiting grooves (207) are formed in the sliding plates (206), limiting blocks (205) are slidably mounted in the limiting grooves (207), the limiting blocks (205) are fixedly mounted on one sides of the sliding blocks (203), and the adjusting plates (204) are in contact with the winding rollers (103).

4. An adjustable graphite calender as defined in claim 1, wherein: the lifting structure comprises a lifting plate (301), the lifting plate (301) is slidably mounted on a lifting rod (300), a push rod (302) is fixedly mounted on one side of the lifting plate (301), a push block (303) is fixedly mounted on one end of the push rod (302), a rotating wheel (304) is rotatably mounted on the push block (303), the rotating wheel (304) is in contact with a winding roller (103), a limiting plate (305) is fixedly mounted on the lifting rod (300), four sliding rods (306) are slidably mounted on the limiting plate (305), four sliding rods (306) are fixedly mounted on one side of the lifting plate (301), and one spring connecting block (307) is fixedly mounted on two sliding rods (306) located on the same side.

5. An adjustable graphite calender as defined in claim 4, wherein: the sliding rod (306) is sleeved with a spring (308) in a sliding manner, one end of the spring (308) is fixedly arranged on the spring connecting block (307), and the other end of the spring (308) is fixedly arranged on the limiting plate (305).

6. An adjustable graphite calender as defined in claim 4, wherein: the lifting plate (301) is provided with a lifting groove (309), and the lifting rod (300) is slidably arranged in the lifting groove (309).

7. An adjustable graphite calender as defined in claim 4, wherein: a sliding groove (310) is formed in the limiting plate (305), and a sliding rod (306) is slidably arranged in the sliding rod (306).

8. An adjustable graphite calender as defined in claim 1, wherein: the cutting structure comprises a blade connecting strip (402), the blade connecting strip (402) is fixedly arranged at the output ends of three air cylinders (401), a cutting blade (403) is fixedly arranged at one side of the blade connecting strip (402), a baffle (400) is fixedly arranged at one side of a lifting plate (301), the cutting blade (403) corresponds to the baffle (400), a conveying groove (405) is formed in the baffle (400), an air cylinder switch (404) is fixedly arranged at one side of a limiting plate (305), the lifting plate (301) corresponds to the air cylinder switch (404), and the three air cylinders (401) are electrically arranged on the air cylinder switch (404).