CN212580206U - Double-pressure rubber coating machine - Google Patents

Abstract

The utility model discloses a double-pressure rubber coating machine, which comprises a display screen, a table board, a control circuit board, a displacement cutting and pasting winding motor, a displacement cutting and pasting winding and rubber belt conveying adjustable mechanism, a double-pressure mechanism, a power supply, a left fan, a right fan, an air passage and a foot switch, wherein the display screen displays, adjusts and operates, the table board bears rubber coating machine components, the control circuit board components work, the displacement, cutting and pasting, winding control displacement, cutting and pasting, the rubber belt conveying provides rubber belts for transformers to be coated, the double-pressure mechanism presses the transformers to be coated under the action of the moving mechanism, the power supply provides voltage, the left fan and the right fan radiate heat, the air passage and the double-pressure mechanism are controlled by the double-pressure mechanism, the start is stopped under the control of the foot switch, the rubber coating machine achieves the effects that the problems that the transformers to be coated fall off from a winding jig, incline and laminate are solved, the problem that the speed of the, The traditional glue dispenser system has the problems of non-visual parameter adjustment and few display parameters.

Description

Double-pressure rubber coating machine

Technical Field

The utility model relates to a rubber coating machine technical field.

Background

The encapsulation machine is a machine device for coating the products to be encapsulated and the transformer with the required adhesive tape.

The rubber coating machine in the prior art generally adopts an asynchronous alternating current motor, the speed is not adjustable, the adjusting mode of the rubber belt conveying mechanism is single, and a pressure structure is not used, so that the defects exist.

Particularly, the speed of the asynchronous motor is not adjustable, so that the asynchronous motor cannot be adapted to more products; products needing encapsulation and transformers with different shapes and sizes and different operation proficiency levels need to be adjusted at different speeds, and ordinary encapsulating machines in the market cannot adjust the required speed; the rubber belt conveying mechanism needs to adjust different tightness, the distance between the conveying mechanism and a rubber-coated product, the upper part and the lower part of a rubber belt according to different characteristics of the product, and common equipment in the market cannot be adjusted; the rubber coating device is limited by the winding and paying jig head, and some products can fall off from the winding and paying jig head in the rubber coating process; the product can swing in the encapsulating process under the high influence of the encapsulated product, and common equipment in the market does not have a pressing structure to solve the problems; because of the high variability of the encapsulated product, the typical equipment in the market presses in a manner that does not have a compressor built into the press to be ineffective.

In light of the above, there is a need in the art for improvements.

Disclosure of Invention

An object of the utility model is to solve above problem, design a two pressure rubber coating machine.

The motor refers to a stepping motor, a hybrid servo motor, a servo motor and a closed-loop motor.

A shifting mechanism:

a round hole is formed in the left rear portion of the fixed motor plate and used for fixing the shifting motor at the position of the round hole, and a shifting motor connecting rod is fixed on the shifting motor rod and then penetrates through the bearing to extend to the table top.

A shifting induction ring is arranged on the shifting motor rod, and an induction sheet of the shifting induction ring horizontally faces a notch of the shifting induction switch; the starting point of the shift motor is adjusted by controlling the circuit board software.

The shift induction switch fixing block, the shift induction switch and the shift induction ring form a shift starting point position adjusting structure.

A small shifting wheel is fixed on the shifting motor rod.

A round hole is arranged on the table top to fix the shifting bearing, and the shifting bearing fixes the upper shifting bull wheel.

The large shifting wheel and the small shifting wheel are provided with shifting belts.

The shifting motor rotates to drive the small shifting wheel to rotate, and the small shifting wheel drives the large shifting wheel to rotate through the shifting belt.

Double-pressure mechanism:

the shifting motor connecting rod extending out of the table top part is connected with a pressing ring, and a round hole is formed in the middle of the pressing ring to fix the shifting motor connecting rod.

Two round holes are symmetrically arranged at the center of the pressing ring and used for installing two pressing movable small rods.

The upper surfaces of the two small press movable rods are connected with a press upper ring, the center of the press upper ring is symmetrically provided with two round holes, two bearings are arranged in the symmetrical round holes on the two sides of the press upper ring, and the press upper ring are concentric.

The symmetrical round holes of the pressing ring and the pressing ring are provided with a mechanism which is movable up and down and consists of a movable pressing small rod.

The upper ring is provided with a small pressing wheel rod, and a small pressing wheel is arranged above the small pressing wheel rod.

An upper cylinder fixing plate and a lower cylinder fixing plate are arranged on the table top in a splayed shape, an upper cylinder and a lower cylinder are vertically arranged on the upper cylinder fixing plate and the lower cylinder fixing plate, and the upper cylinder fixing plate and the lower cylinder fixing plate and a transformer to be encapsulated form a triangular structure; the triangular structure makes the pressing mechanism more stable.

A rectangular pressing support plate is installed on the upper and lower cylinder fixing plates, two pressing fixing vertical plates are installed on the pressing support plate, a pressing positioning block is horizontally installed above the pressing fixing vertical plates, a circular hole is formed in the pressing support plate, a circular hole is formed in the pressing positioning block, a pressing upper movable rod and a pressing lower movable rod are concentrically installed on the pressing upper movable rod and the pressing lower movable rod, and a pressing large wheel is installed on the pressing upper movable rod and.

The small pressing wheel and the large pressing wheel are provided with pressing wheel belts in parallel.

The upper and lower movable rods are provided with upper and lower adjusting rings which can adjust the positions of the upper and lower movable rods.

A left and right pressure adjusting plate is arranged at the lower end of the small pressure wheel rod, two pressure adjusting blocks are arranged below the left and right pressure adjusting plate, a pressure spring is arranged below the pressure adjusting blocks, the pressure spring is connected with a pressure column, and a pressure transformer rod is arranged on the pressure column; the spring is used, the pressing effect has better adaptability, and the height difference of the transformer to be encapsulated is better adapted to pressing.

The small wheel pressing rod is driven by a shifting motor.

Cutting and pasting the mechanism:

the cutting and pasting motor is arranged at the right side position of the fixed motor plate, the cutting and pasting motor is provided with a cutting and pasting induction switch fixed block, a cutting and pasting induction switch and a cutting and pasting induction ring; the cutting induction switch fixing block is used for cutting the induction switch, and the cutting induction ring is used for adjusting the position of the starting point of the cutting mechanism through the control circuit board.

The cutting motor rod is connected with a cutting connecting motor rod, and a bearing is arranged on the cutting connecting motor rod.

A cutting and pasting slide rail fixing plate is arranged on the table top and is parallel to the front of the table top, a cutting and pasting slide rail is arranged above the cutting and pasting slide rail, a cutting and pasting slide block is arranged above the cutting and pasting slide block, a cutting and pasting front and rear moving block is arranged above the cutting and pasting slide rail fixing plate, a cutting and pasting cutter front and rear upper and lower adjusting block is arranged above the cutting and pasting front and rear moving block, a cutting and pasting fixed cutter block is arranged on the right of the cutting and pasting cutter front and rear upper and lower adjusting block, a cutting and pasting fixed cutter block is arranged in front of the cutting and pasting fixed cutter block, a cutting and pasting cutter is arranged on the.

A winding mechanism:

the left side of the winding motor fixing adjusting plate is provided with a round hole, the winding motor is fixed on the winding motor fixing adjusting plate, and the winding motor fixing adjusting plate is fixed on the fixing motor plate.

The fixed adjusting plate of the winding motor can be adjusted back and forth.

A square groove is arranged on the left side of the fixed motor plate, and the winding motor fixed adjusting plate is fixed in the square groove.

The fixed motor plate is provided with a winding fixed ring, a winding inductive switch fixed block and a winding inductive switch.

The winding and paying motor rod is fixed with a winding and paying rotating head which is provided with a groove.

Two winding fixed bearing blocks are arranged on a shifting big wheel, a winding fixed bearing block is arranged on the shifting big wheel, a hole is formed in the winding fixed bearing block, bearings are arranged above and below the hole, a winding connecting motor rod is arranged in the hole, a winding fixed movable block is arranged below the fixed bearing block, a winding tension spring column is further arranged below the winding fixed bearing block, a winding tension spring column 1 is fixed on the winding fixed movable block, a winding tension spring column is arranged on the fixed bearing block, and a winding fixed ring is arranged below the winding connecting motor rod.

The coiling pair connecting motor rod is provided with a coiling pair jig head.

The reel-to-reel fixed carrier block can be adjusted back and forth.

The motion of the winding motor drives the winding jig head to rotate, and the winding jig head is provided with a transformer to realize rubber coating.

Adjustable mechanism is carried to sticky tape:

the left side of the table top is fixed with an adhesive tape fixing support block, the left side of the adhesive tape fixing support block is provided with a hole, a bearing is arranged in the hole up and down, an adhesive tape up-and-down adjusting screw rod is arranged in the middle of the bearing, an adhesive tape tightness adjusting column is arranged below the adhesive tape up-and-down adjusting screw rod, and an adhesive tape support plate is arranged above the adhesive tape up-and-down adjusting screw rod.

The rubber belt tightness adjusting column is provided with two holes.

The adhesive tape carrier plate is provided with three adhesive tape fixing columns.

The front of the adhesive tape self-adaptive bottom block is provided with an adhesive tape self-adaptive bottom block, the adhesive tape self-adaptive bottom block is provided with an adhesive tape self-adaptive tension spring block 2, and the adhesive tape self-adaptive tension spring block 1.

The adhesive tape self-adaptive tension spring block 1 and the adhesive tape self-adaptive tension spring block 2 are provided with tension springs.

The right end of the adhesive tape fixing support block is provided with a hole, an adhesive tape roller fixing column is installed in the hole, bearings are installed above and below the adhesive tape roller fixing column, an adhesive tape roller is sleeved outside the fixing column, and two adhesive tape up-and-down adjusting rings are sleeved outside the roller.

Panel:

the left panel is provided with a hole for installing a fan, the right panel is provided with a hole for installing a fan, the front panel is provided with a display screen, and the rear panel is provided with a block.

The lower panel is one piece.

The lower panel is provided with a foot pad.

The lower panel is provided with heat dissipation holes.

The fixed motor board is provided with a circuit protection board.

A protective cover:

the protective cover is arranged on the panel and protects the lower cover from being fixed on the panel, so that people are prevented from being injured due to mechanical movement.

The control system comprises:

the rear panel is provided with a power switch, a filter, an electromagnetic valve, a control circuit board, a switching power supply, a motor driver and a foot switch; the system also includes a connecting air tube.

Drawings

Fig. 1 is a schematic view of the overall structure of a double-pressure rubber coating machine of the present invention;

fig. 2 is a first structural view of the double-pressure rubber coating machine of the present invention with the protective cover, the left panel and the front panel removed;

fig. 3 is a structural diagram ii of the double-pressure rubber coating machine of the present invention with the protective cover, the left panel and the front panel removed;

FIG. 4 is a structural schematic of the double-pressure rubber coating machine of the present invention, with the protective cover removed, as seen from the rear;

fig. 5 is a schematic diagram showing the internal structure of the double-pressure rubber coating machine of the present invention with the protective cover, the left panel, the front panel, the right panel, the bottom panel and the rear panel removed;

fig. 6 is a schematic diagram of the internal structure of the double-pressure rubber coating machine of the present invention with the protective cover, the left panel, the front panel, the right panel, the bottom panel and the rear panel removed;

100: a protective cover; 101: the lower cover is protected.

200: cutting and sticking the fixed cutter block; 201: a front and back upper and lower adjusting block of the cutting and pasting knife; 202: cutting and pasting the rotating block 1; 203: cutting and pasting the rotating block 2; 204: cutting and attaching the motor rod; 205: cutting and attaching the front and rear moving blocks; 206: cutting and pasting the sliding block; 207: cutting and pasting the sliding rail; 208: cutting and pasting a slide rail fixing plate; 209: a cutting and pasting knife; 210, sticking left and right adjusting columns of the pressing sheet; 211: cutting, sticking and tabletting; 212: cutting and pasting the induction switch fixing block; 213: cutting and pasting an inductive switch; 214: cutting and pasting the induction ring; 215: cutting and pasting the motor; 216: and cutting and pasting the bearing.

300: a table top; 301: a left panel; 302: a front panel; 303: a display screen; 304: a right panel; 305: a bottom panel; 306: fixing a motor plate; 307: a foot pad; 308: a rear panel; 309: panel fixing post.

400: a rubber belt tightness adjusting column; 401: fixing the branch block by using an adhesive tape; 402: adjusting a screw rod up and down by the adhesive tape; 403: a tape carrier plate; 404 adhesive tape fixing posts; 405: adjusting nuts up and down the adhesive tape; 406: an adhesive tape; 407: the adhesive tape self-adapting bottom block; 408: the adhesive tape self-adaptive tension spring block 1; 409: a tension spring; 410: the adhesive tape self-adaptive tension spring block 2; 411: an adhesive tape up and down adjusting ring; 412: a tape roll; 413: a fixing column of the adhesive tape roller.

500: a shifting motor connecting rod; 501: a displacement induction switch fixing block; 502: a displacement induction switch; 503: a displacement induction ring; 504: a displacement bearing; 505: a shifting bull wheel; 506: a small shifting wheel; 507: a shifting belt; 508: and a displacement motor.

601: a winding and paying jig; 602: the winding pair is connected with the motor rod; 603: winding and paying the fixed carrier block; 604: the winding motor fixes the adjusting plate; 605: a winding motor; 606: a winding fixed movable block; 607: a tension spring column 1 is wound; 608: a tension spring column 2 is wound; 609: a winding fixing ring; 610: winding and paying the inductive switch fixed block; 611: a rolling and paying inductive switch; 612: a wrap-pay rotating head; 613: winding and paying the induction ring; 614: a winding jig head.

700: pressing a positioning block; 701: pressing the support plate; 702: pressing a lower movable rod; 703: a pinch roller belt; 704: pressing a small wheel rod; 705: pressing a small wheel; 706: pressing and fixing the vertical plate; 707: pressing the large wheel; 708, pressing the adjusting ring up and down; 709: pressing the left and right adjusting plates; 710: pressing an adjusting block; 711: pressing a spring; 712: pressing the column; 713: a pressure transformer bar; 714: pressing the transformer to be encapsulated; 715: a cylinder pressing inductive switch; 716: pressing the upper cylinder and the lower cylinder; 717: pressing the movable small rod; 718: pressing the upper ring; 719 press down the ring; 720: and an upper cylinder fixing plate and a lower cylinder fixing plate.

800: a fan; 801: a motor driver; 802: a protection plate; 803: a control circuit board; 804: a filter; 805: a power switch; 806: an electromagnetic valve; 807: a switching power supply; 808: a foot switch.

Detailed Description

A shifting mechanism:

a round hole is formed in the left rear of the fixed motor plate 306 and used for fixing the shifting motor 508 at the round position, and a shifting motor connecting rod 500 is fixed on the shifting motor 508 rod and then penetrates through the bearing to extend to the table top 301; the table board and the motor fixing plate are provided with holes, so that the fixing is firmer.

A shifting induction ring 504 is arranged on the rod of the shifting motor 508, and an induction sheet of the shifting induction ring 504 horizontally faces to a notch of the shifting induction switch 502; the starting point of the shift motor is adjusted by the software of the control circuit board 803; the shift start point adjustment is used when the position is shifted.

A displacement induction switch fixing block 501, a displacement induction switch 502 and a displacement induction ring 503 form a displacement starting point position adjusting structure; the starting point of the shifting mechanism is adjusted by adopting the inductive position switch, so that the problems of production debugging and inaccurate adjusting position are greatly simplified.

A small shifting wheel 506 is fixed on the rod of the shifting motor 508.

The table top 300 is provided with a circular hole for fixing the displacement bearing 504, and the displacement bearing 504 is fixed with the displacement bull wheel 505.

The large shift wheel 505 and the small shift wheel 506 are provided with a shift belt 507; the use of a displacement belt ensures that the displacement mechanism is quieter during displacement.

The shift motor 508 rotates to drive the shift small wheel 506 to rotate, and the shift small wheel 506 drives the shift big wheel 505 to rotate through the shift belt 507.

The shifting adopts a mode of big wheels and small wheels, thereby greatly saving the structural space.

Double-pressure mechanism:

the shifting motor connecting rod 500 extending out of the table 300 is connected with a pressing ring 719, and a round hole is formed in the middle of the pressing ring 719 to fix the shifting motor connecting rod 500.

The pressing ring 719 is provided with two circular holes symmetrically at the center for mounting two pressing movable rods 717.

The two small pressing rods 717 are connected with an upper pressing ring 718, the center of the upper pressing ring 718 is symmetrically provided with two round holes, the center of the upper pressing ring 718 is symmetrically provided with two bearings, and the symmetrical round holes of the lower pressing ring 719 and the upper pressing ring 718 are concentric.

The mode that the pressing ring and the pressing ring are symmetrically and concentrically perforated realizes that the double-pressing structure can move up and down and can also rotate under the rotation of the displacement motor.

The symmetrical round holes of the pressing ring 719 and the pressing ring 718 are provided with a pressing movable small rod 717 to form a mechanism capable of moving up and down.

The pinch-ring 718 is provided with a pinch-roller bar 704, and a pinch roller 705 is provided above the pinch-roller bar 704.

An upper cylinder fixing plate 720 and a lower cylinder fixing plate 720 are arranged on the table-board 300 in a splayed shape, an upper cylinder 716 and a lower cylinder 716 are vertically arranged on the upper cylinder fixing plate 720 and the lower cylinder fixing plate 720 are arranged on the table-board 300 in a splayed shape, and the upper cylinder and the lower cylinder and the transformer 714 to be encapsulated form a triangular structure; the triangular structure makes the pressing mechanism more stable.

A rectangular press-loading plate 701 is installed on the upper and lower cylinder fixing plates 720, two press-fixing vertical plates 706 are installed on the press-loading plate 701, upper positioning blocks 700 are pressed on the press-fixing vertical plates 706, circular holes are formed in the press-loading plate 701, circular holes are formed in the upper positioning blocks 700, upper and lower movable rods 702 are concentrically installed on the upper and lower movable rods 702, and a pressure wheel 707 is installed on the upper and lower movable rods 702.

The 705 pinch roller and the 707 pinch roller are provided with a pinch roller belt 703 in parallel.

The upper and lower movable rods 702 are provided with upper and lower adjustment rings 708 on the upper and lower sides, and the upper and lower adjustment rings 708 are used for adjusting the positions of the upper and lower movable rods.

The lower end of the upper and lower movable rods 702 is provided with a left and right pressing adjusting plate 709, two pressing adjusting blocks 710 are arranged below the left and right pressing adjusting plate 709, a pressing spring 711 is arranged below the pressing adjusting block 710, the pressing spring 711 is connected with a pressing column 712, and the pressing column 712 is provided with a pressing transformer rod 713; the spring is used, and the pressing effect has better adaptability.

The pinch roller bar 704 is driven using a shift motor 508.

The whole pressing structure is driven by the shifting motor, so that the complete synchronization of the shifting structure and the pressing mechanism is ensured, and the pressing effect is better.

The upper and lower movable rods can adjust the upper and lower positions through the upper and lower adjusting rings, so that the rubber coating production of more products can be adapted.

The compression spring solves the problems of uneven height and height difference of the compression product, and the whole compression effect is better.

Cutting and pasting the mechanism:

the cutting motor 215 is arranged at the right side of the fixed motor plate 306, the cutting induction switch fixing block 212, the cutting induction switch 213 and the cutting induction ring 214 are arranged at the cutting motor 215; the position of the starting point of the cutting mechanism is adjusted by the cutting induction switch fixing block 212, the cutting induction switch 213 and the cutting induction ring 214 through the control circuit board 804.

The rod of the cutting motor 215 is connected with the cutting connecting motor rod 204, and the cutting connecting motor rod 204 is provided with a bearing.

A cutting and pasting sliding rail fixing plate 208 is arranged on the table board 300 and is parallel to the front of the table board 300, a cutting and pasting sliding rail 207 is arranged above the cutting and pasting sliding rail fixing plate 208, a cutting and pasting sliding block 206 is arranged above the cutting and pasting sliding block 206, a cutting and pasting front and rear moving block 205 is arranged above the cutting and pasting front and rear moving block 205, a cutting and pasting knife front and rear upper and lower adjusting block 201 is arranged above the cutting and pasting front and rear moving block 205, a cutting and pasting fixed knife block 200 is arranged on the edge of the cutting and pasting knife front and rear upper and lower adjusting block 201, a cutting and pasting fixed knife block 200 is arranged in front of the cutting and pasting fixed knife block 200, a cutting and pasting knife 209 is arranged on the cutting and.

Through the speed adjustable technology of surely pasting the motor, solved and cut the sticky tape and cause the rubber coating layering, the rubber coating is too fast to cause the damage to press and treat rubber coating transformer problem.

The cutting and pasting speed can be adjusted, the upper and lower positions of the cutting and pasting can be adjusted, the front and back trimming of the cutting and pasting can be adjusted, and the cutting and pasting processes can be synchronously completed through the design of the cutting and pasting structure.

A winding mechanism:

a round hole is opened on the winding motor fixing and adjusting plate 614, the winding motor 606 is fixed on the left side of the winding motor fixing and adjusting plate 614, and the winding motor fixing and adjusting plate 614 is fixed on the fixed motor plate 306.

The winding motor fixing adjusting plate 614 can be adjusted back and forth.

The left side of the fixed motor plate 306 is provided with a square groove, and the rolling motor fixed adjusting plate 614 is fixed in the square groove.

The fixed motor board 306 is provided with a winding fixed ring 609, a winding inductive switch fixed block 610 and a winding inductive switch 611.

The winding and paying motor 606 is fixed with a winding and paying rotating head 612, and the winding and paying rotating head 612 is provided with a groove.

Two winding fixed carrying blocks 603 are arranged on a shifting bull wheel 505, the winding fixed carrying blocks 603 are arranged on the shifting bull wheel 505, a hole is formed in each winding fixed carrying block 603, bearings are arranged above and below the hole, a winding connection motor rod 602 is arranged in each hole, a winding fixed movable block 606 is arranged below each winding fixed carrying block 603, a winding tension spring column 2608 is arranged below each winding fixed carrying block 603, a winding tension spring column 1607 is fixed on each winding fixed movable block 606, and a winding fixing ring 609 is arranged below each winding connection motor rod 602.

The winding and paying connecting motor rod 602 is provided with a winding and paying jig head 615.

The roll-load fixing carrier 603 can be adjusted back and forth. The adaptation of pressing to treat the encapsulated transformer in different sizes is realized.

The motion of the winding motor 605 drives the winding jig head 614 to rotate, and the winding jig head 614 is provided with a transformer to realize encapsulation.

Send sticky tape mechanism:

an adhesive tape fixing support block 401 is fixed on the left side of the table top 300, a hole is formed in the left side of the adhesive tape fixing support block 401, a bearing is arranged in the hole vertically, an adhesive tape up-and-down adjusting screw rod 402 is arranged in the middle of the bearing, an adhesive tape tightness adjusting column 400 is arranged below the adhesive tape up-and-down adjusting screw rod 402, and an adhesive tape support plate 403 is arranged above the adhesive tape up-and-down adjusting screw rod 402.

The tape tightness adjusting column 400 is provided with two holes.

The tape carrier plate 403 has three tape fixing posts 404.

The front of the adhesive tape fixing support block 401 is provided with an adhesive tape self-adaptive bottom block 407, the adhesive tape self-adaptive bottom block 407 is provided with an adhesive tape self-adaptive tension spring block 2410, and the adhesive tape self-adaptive tension spring block 1408 is also provided.

The tape adaptive tension spring block 1408 and the tape adaptive tension spring block 2410 are provided with tension springs.

The right end of the adhesive tape fixing support block 401 is provided with a hole, an adhesive tape roller fixing column 413 is installed in the hole, bearings are installed on the upper portion and the lower portion of the adhesive tape roller fixing column 413, an adhesive tape roller 412 is sleeved outside the fixing column, and two adhesive tape up-down adjusting rings 411 are sleeved outside the roller.

The difficulty that the speed of rubber coating and the speed of a rubber tape feeding mechanism are not matched is solved through the design of a self-adaptive structure.

Panel:

the left panel 301 is provided with a hole for installing the fan 800, the right panel 304 is provided with a hole for installing the fan 800, the front panel 302 is provided with the display screen 303, and the rear panel is a block 308.

The left fan and the right fan enable heat generated by the rubber coating machine to be discharged out more easily, so that the service life of parts is longer, and the rubber coating machine is more stable.

The bottom panel 305 is one piece.

The bottom panel 305 is fitted with a foot pad 307. The callus on the sole ensures that equipment can better place, also can better dispel the heat.

The bottom panel 305 is provided with heat dissipation holes. The design of the heat dissipation holes enables the equipment to work more stably.

The stationary motor plate 306 is fitted with a power protection plate 802. The use of the protection board ensures that the circuit is safer.

A protective cover:

the protective cover 100 is arranged above the table top 300, the protective lower cover 101 is fixed above the table top 300, and the protective cover protects machinery which may hurt people; the protective cover 100 is detachable, and debugging and maintenance of the equipment are facilitated.

The control system comprises:

the rear panel 308 is provided with a power switch 805, a filter 804, an electromagnetic valve 806, a control circuit board 803, a motor driver 801, a switching power supply 807 and a foot switch 808; the system also includes a connecting air tube. The use of a switching power supply ensures that the device can accommodate a wider power supply input, such as ac 110 to ac 240 voltages, for example, to function properly.

The design of the foot switch enables users to be more convenient and faster.

Since the innovation points are many, the specific implementation points are many, and the description is not given here.

According to the implementation above, the utility model has the advantages of simple overall structure, easy implementation, easy operation, easy production and strong practicability. Because use the structure kinetic energy of mobile motor as pressing, need not increase too much cost, do not increase the motor with traditional rubber coating machine and compare, can increase substantially the operating efficiency, surely can obtain effective popularization, market spreading value is big.

Other relevant technical fields directly or indirectly utilize this novel technique, all the same reason is included the utility model discloses a protection scope.

Claims (9)

1. The utility model provides a two bale presses machine for carry out the rubber coating to transformer, magnetic element and the product that needs the rubber coating, its characterized in that:

a control circuit board mounted on the rear panel;

the upper and lower cylinders and the electromagnetic valve are pressed and are arranged on the rear panel;

a power switch mounted on the rear panel;

a filter mounted on the rear panel;

the table top is arranged above the plane formed by the front panel, the rear panel, the left panel and the right panel;

the rubber belt conveying adjustable mechanism is arranged on the left side of the table top;

the shifting mechanism is arranged between the table top and the fixed motor plate;

the cutting and pasting mechanism is arranged on the right side of the table top;

the winding mechanism is arranged between the table board and the fixed motor board;

the displacement inductive switch, the cutting inductive switch and the winding inductive switch are arranged above the fixed motor plate;

the shifting motor, the cutting and pasting motor and the winding motor are arranged on the fixed motor plate;

the two pressing upper and lower cylinders are arranged on the table top in a splayed shape;

the protective cover and the protective lower cover are arranged above the table top;

the double-pressure mechanism is arranged on the table top.

2. The double-pressure rubber coating machine according to claim 1, characterized in that:

a round hole is formed in the left rear part of the shifting mechanism fixing motor plate, the shifting motor is fixed in the round hole, and a shifting motor connecting rod is fixed on a shifting motor rod and then penetrates through the bearing to extend onto the table top;

a shifting induction ring is arranged on the shifting motor rod, and an induction sheet of the shifting induction ring horizontally faces to a notch of the shifting induction switch;

the displacement induction switch fixing block, the displacement induction switch and the displacement induction ring form a displacement starting point position adjusting structure;

a small shifting wheel is fixed on the shifting motor rod;

a round hole is arranged on the table top to fix the displacement bearing, and the displacement bearing is assembled with a displacement bull wheel;

the large shifting wheel and the small shifting wheel are provided with shifting belts;

the displacement mechanism uses a displacement motor as kinetic energy.

3. The double-pressure rubber coating machine according to claim 1, characterized in that:

a connecting rod of a displacement motor of the part of the double pressing mechanism extending out of the table top is connected with a pressing ring, and a round hole is formed in the middle of the pressing ring;

two round holes are symmetrically formed in the center of the pressing ring, and the pressing ring is provided with two small pressing movable rods;

the upper surfaces of the two small pressing movable rods are connected with a pressing ring, the center of the pressing ring is symmetrically provided with two round holes, the central symmetrical round holes of the pressing ring are provided with two bearings, and the pressing ring and the symmetrical round holes of the pressing ring are concentric;

the upper ring is provided with a small pressing wheel rod, and a small pressing wheel is arranged above the small pressing wheel rod;

an upper cylinder fixing plate and a lower cylinder fixing plate are arranged on the table top in a splayed shape, an upper cylinder and a lower cylinder are vertically arranged on the upper cylinder fixing plate and the lower cylinder fixing plate, and the upper cylinder fixing plate and the lower cylinder fixing plate and a transformer to be encapsulated form a triangular structure;

a rectangular pressing support plate is mounted on the upper and lower cylinder fixing plates, two pressing fixed vertical plates are mounted on the pressing support plate, a pressing positioning block is horizontally mounted on the pressing fixed vertical plates, the pressing support plate is provided with a circular hole, the pressing positioning block is provided with a circular hole, an upper movable rod and a lower movable rod are concentrically mounted on the pressing positioning block, and the upper movable rod and the lower movable rod are provided with pressing large wheels;

the small pressing wheel and the large pressing wheel are provided with pressing wheel belts in parallel;

upper and lower adjusting rings are arranged on the upper and lower parts of the upper and lower movable rods;

the lower ends of the upper and lower movable rods are provided with a left and right pressure adjusting plate, two pressure adjusting blocks are arranged below the left and right pressure adjusting plate, pressure springs are arranged below the pressure adjusting blocks, the pressure springs are connected with pressure columns, and pressure transformer rods are arranged on the pressure columns;

the double-pressure mechanism is positioned above the table top;

the pinch roller bar uses a displacement motor as kinetic energy.

4. The double-pressure rubber coating machine according to claim 1, characterized in that:

a round hole is formed in the right side of the motor plate fixed by the cutting and pasting mechanism;

the cutting and pasting motor is arranged at the right side position of the fixed motor plate, the cutting and pasting motor is provided with a cutting and pasting induction switch fixed block, a cutting and pasting induction switch and a cutting and pasting induction ring;

the cutting and pasting motor rod is connected with a cutting and pasting connecting motor rod, and a bearing is arranged on the cutting and pasting connecting motor rod;

a cutting and pasting slide rail fixing plate is arranged on the table top and is parallel to the front of the table top, a cutting and pasting slide rail is arranged above the cutting and pasting slide rail, a cutting and pasting slide block is arranged above the cutting and pasting slide block, a cutting and pasting front and rear moving block is arranged above the cutting and pasting slide rail fixing plate, a cutting and pasting cutter front and rear upper and lower adjusting block is arranged above the cutting and pasting front and rear moving block, a cutting and pasting fixed cutter block is arranged on the edge of the cutting and pasting cutter front and rear upper and lower adjusting block, a cutting and pasting fixed cutter block is arranged in front of the cutting and pasting fixed cutter block, a cutting and pasting cutter is arranged on the cutting.

5. The double-pressure rubber coating machine according to claim 1, characterized in that:

a round hole is formed in a winding motor fixing and adjusting plate of the winding mechanism, the winding motor is fixed on the winding motor fixing and adjusting plate, and the winding motor fixing and adjusting plate is fixed on a fixed motor plate;

the fixed adjusting plate of the winding motor can be adjusted back and forth;

a square groove is formed in the left side of the fixed motor plate, and the winding motor fixed adjusting plate is fixed in the square groove;

the fixed motor plate is provided with a winding pair fixing ring, a winding pair inductive switch fixing block and a winding pair inductive switch;

two winding fixed carrying blocks are arranged on the shifting big wheel, a hole is formed in each winding fixed carrying block, a bearing is arranged above and below each hole, a winding connection motor rod is arranged in each hole, a winding fixed movable block is arranged below each winding fixed carrying block, a winding tension spring column 2 is arranged below each winding fixed carrying block, a winding tension spring column 1 is fixed on each winding fixed movable block, and a winding fixed ring is arranged below each winding connection motor rod;

the winding pair connecting motor rod is provided with a winding pair jig head;

the reel-to-reel fixed carrier block can be adjusted back and forth.

6. The double-pressure rubber coating machine according to claim 1, characterized in that:

a tape fixing support block is fixed on the left side of the table board of the tape feeding mechanism, a hole is formed in the left side of the tape fixing support block, a bearing is arranged in the hole vertically, a tape up-down adjusting screw rod is arranged in the middle of the bearing, a tape tightness adjusting column is arranged below the tape up-down adjusting screw rod, and a tape support plate is arranged above the tape up-down adjusting screw rod;

the rubber belt tightness adjusting column is provided with two holes;

the adhesive tape carrier plate is provided with three adhesive tape fixing columns;

the front surface of the adhesive tape fixing support block is provided with an adhesive tape self-adaptive bottom block, the adhesive tape self-adaptive bottom block is provided with an adhesive tape self-adaptive tension spring block 2 and an adhesive tape self-adaptive tension spring block 1;

the adhesive tape self-adaptive tension spring block 1 and the adhesive tape self-adaptive tension spring block 2 are provided with tension springs;

the right end of the adhesive tape self-adaptive bottom block is provided with a hole, an adhesive tape roller fixing column is installed in the hole, bearings are installed above and below the adhesive tape roller fixing column, an adhesive tape roller is sleeved outside the fixing column, and two adhesive tape up-and-down adjusting rings are sleeved outside the roller.

7. The double-pressure rubber coating machine according to claim 1, characterized in that:

the left panel of the panel is provided with a hole for installing a fan, and the right panel is provided with a hole for installing a fan;

the front panel is provided with a display screen;

one rear panel;

one lower panel;

the lower panel is provided with a foot pad;

the lower panel is provided with heat dissipation holes;

the fixed motor board is provided with a circuit protection board.

8. The double-pressure rubber coating machine according to claim 1, characterized in that:

the protective cover is arranged above the table board, the protective lower cover is fixed above the table board, and the protective cover protects machinery from possibly hurting people.

9. The double-pressure rubber coating machine according to claim 1, characterized in that:

the back panel of the control system is provided with a power switch, a filter, an electromagnetic valve, a control circuit board, a switching power supply, a motor driver and a foot switch, and the system also comprises a connecting air pipe.

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