CN115320236A

CN115320236A - Thick film of duplex position dish lithography apparatus that generates heat

Info

Publication number: CN115320236A
Application number: CN202210808484.7A
Authority: CN
Inventors: 陈仁凯; 孙宗林; 李一健; 汪凯文; 吴江森; 张关森; 卫子文; 刘华琴; 许刚; 钱继琴
Original assignee: Jingxian Xinda Industry And Trade Co ltd
Current assignee: Jingxian Xinda Industry And Trade Co ltd
Priority date: 2022-07-11
Filing date: 2022-07-11
Publication date: 2022-11-11

Abstract

The invention discloses double-station thick film heating disc printing equipment, and relates to the technical field of printing equipment. The utility model provides a thick film heating plate lithography apparatus of duplex position, including the electric cabinet, a machine bod, including a motor, an end cap, a controller, and a cover plate, a motor, the stock, a bearing, lead to the groove, the gangbar, the link gear, a slewing mechanism, slide mechanism, base and cushion cap, the electric cabinet is being connected to one side of organism, the inside support that is equipped with of organism, one side of support is equipped with the motor, be equipped with the gangbar on the output stock of motor, one side end of stock passes through the bearing and connects on the organism, one side end of gangbar is equipped with slewing mechanism, slewing mechanism's output is equipped with link gear, link gear slides and sets up on the gangbar, the top of link gear is equipped with interactive mechanism, slide mechanism slides and sets up at logical inslot, slide mechanism's top is equipped with the base, be equipped with the cushion cap on the base, the top of cushion cap is equipped with the print head. According to the invention, double-station printing can be realized by arranging equipment, so that the production efficiency is improved.

Description

Thick film of duplex position dish lithography apparatus that generates heat

Technical Field

The invention belongs to the technical field of printing equipment, and particularly relates to double-station thick film heating disc printing equipment.

Background

The thick film heating technology is a technology for realizing heating by adopting a thick film heating device, the thick film heating device is generally manufactured by mixing superconductive ceramic material micro powder and an organic bonding solvent into pasty slurry, printing the slurry on a substrate material in a circuit wiring or pattern form by a silk screen printing technology, and sintering through a strict heat treatment procedure to prepare a superconductive thick film, wherein the thickness can be 15-80 mu m. The thick film heating plate is a thick film heating device, and in the production and manufacturing process of the thick film heating plate, a printing process is required to be carried out so as to print characters or patterns designed on the surface of the thick film heating plate, and the characters and patterns can indicate the type of a connecting interface, the type of a component and the like, so that the operation of subsequent processes is facilitated.

However, such a printing apparatus has the following problems in practical use:

1. the existing printing equipment can only print one thick film heating disc at a time, the printing mode is low in efficiency, and the production speed is reduced.

Therefore, it is necessary to provide a double-station thick film heating plate printing device to solve the above technical problems.

Disclosure of Invention

The invention aims to solve the technical problem of providing double-station thick film heating plate printing equipment aiming at the defects in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: the thick film heating plate printing equipment with double stations comprises an electric cabinet, an engine body, a motor, a long rod, a bearing, a through groove, a linkage rod, a linkage frame, a linkage mechanism, a rotating mechanism, a sliding mechanism, a base and a bearing platform, wherein the electric cabinet is connected to one side of the engine body, a support is arranged inside the engine body, the motor is arranged on one side of the support, the linkage rod is arranged on an output end long rod of the motor, one side end of the long rod is connected to the engine body through the bearing, one side end of the linkage rod is provided with the rotating mechanism, the output end of the rotating mechanism is provided with the linkage mechanism, the linkage mechanism slides and is arranged on the linkage rod, the top end of the linkage frame is provided with the interaction mechanism, the sliding mechanism slides and is arranged in the through groove, the top end of the sliding mechanism is provided with the base, the bearing platform is arranged on the base, the top of the bearing platform is provided with a printing head, and double stations can be printed through the equipment, so that the production efficiency is improved.

In the double-station thick film heating disc printing equipment provided by the invention, two linkage rods are arranged on the long rod and are arranged in an L shape, each linkage rod is connected with a corresponding linkage frame, each linkage frame is arranged in a through groove in a sliding mode through a sliding mechanism, a sliding rod is arranged on a base connected with each sliding structure, and the sliding rods are connected in sliding grooves in a machine body in a sliding mode to realize the movement of two bearing platforms.

In the double-station thick film heating disc printing equipment provided by the invention, the linkage mechanism comprises pulleys, transverse rods, vertical rods, rotating plates and rotating drums, wherein the rotating plates are hinged to the end of each linkage rod, the vertical rods are arranged at one ends of the rotating plates, the rotating drums are rotatably arranged on the vertical rods and are slidably arranged in the linkage frame, the transverse rods are arranged at the ends of the vertical rods at the other sides of the linkage frame, the pulleys are rotatably arranged on the transverse rods, and the pulleys are attached to the corresponding end surfaces of the linkage frame, so that the vertical rods and the transverse rods can move up and down in the linkage frame.

In the double-station thick film heating disc printing equipment provided by the invention, the rotating mechanism comprises the slot and the supporting rod, the slot is formed in the plate body of the rotating plate, the vertical rod is inserted into the slot, and the vertical rod is hinged in the slot through the supporting rod, so that the rotation of the rotating plate is not influenced when the linkage rod rotates.

In the double-station thick film heating disc printing equipment provided by the invention, the sliding mechanism comprises a guide opening, a guide rod and a sliding seat, the guide rod is arranged in the through groove of the machine body, the sliding seat is provided with the guide opening, and the sliding seat is meshed on the guide rod through the guide opening, so that the sliding seat is moved by the movement of the linkage frame.

In the double-station thick film heating disc printing equipment provided by the invention, one side of the machine body is provided with the cover plate, the cover plate is provided with the machine base, and the motor is fixed in the machine base to realize sealing.

In the double-station thick film heating disc printing equipment provided by the invention, the telescopic frame is arranged above the through groove of the machine body and is connected with the printing head through the fixing mechanism, and one end of the machine body is provided with the knob and the display screen, so that the control of the equipment is realized.

In the double-station thick film heating disc printing equipment provided by the invention, the fixing mechanism comprises a pull rod, a press plate, a fixing frame and a clamping rod, the fixing frame is fixed on an expansion frame, the clamping rod is arranged on one side of the printing head, the press plate is hinged on the fixing frame, the pull rod is arranged on the press plate, the pull rod is clamped at the end head of one side of the clamping rod, and one side of the printing head is hinged on the expansion frame, so that the adjustment of the printing head is realized.

Compared with the prior art, the double-station thick film heating plate printing equipment provided by the invention has the following beneficial effects:

the invention provides double-station thick film heating disc printing equipment, which is provided with a linkage frame, a linkage rod and other components, wherein the traditional thick film heating disc printing equipment adopts a single-group printing mode, the efficiency is lower, and the scheme is characterized in that two linkage rods are arranged to drive respective bearing platforms to move, so that the multi-station printing is realized, and the efficiency is improved; the linkage rods are arranged on the long rod in an L shape, when the long rod rotates clockwise and counterclockwise, the linkage rod on one side can be horizontal, and the other side can be vertical, so that the linkage frame on one side can be driven to move outwards, and the other side can move towards the position of the printing head; the linkage frame is connected with the sliding seat, the bearing platform is arranged on the sliding seat, the bearing platform can be driven to move when the linkage frame moves, so that products placed on the bearing platform can be driven to move, one side of the linkage frame is printed by moving inwards along with the rotation of the long rod during machining, finished products can be conveyed out from the other side of the linkage frame, the bearing platforms on the two sides can repeatedly enter or be far away from when the long rod rotates clockwise and anticlockwise, and therefore double-station machining is achieved.

The invention provides double-station thick film heating plate printing equipment, which is provided with a pulley, a rotary drum and other components, when a long rod rotates, a linkage rod can drive the rotary drum and the pulley to move on a linkage frame while rotating, so that the damage of components caused by fixed connection is prevented; the vertical rod is hinged on the linkage rod through the rotating plate, the rotating drum arranged on the vertical rod is connected in the linkage frame in a sliding mode, the other side of the linkage frame is provided with a cross rod, and the cross rod is provided with a pulley which is tightly attached to the linkage frame; when the linkage rod rotates, the vertical rod and the horizontal rod can be driven to move in the vertical direction of the linkage frame, and therefore the linkage frame is driven to move.

Drawings

Fig. 1 is a first structural schematic diagram of a double-station thick film heating plate printing device provided by the invention;

fig. 2 is a second structural schematic diagram of a double-station thick film heating plate printing device provided by the invention;

FIG. 3 is a schematic view of an internal structure of a double-station thick film heating plate printing device provided by the invention;

FIG. 4 is a schematic connection diagram of a pulley in a double-station thick film heating plate printing device provided by the invention;

FIG. 5 is a schematic connection diagram of a support rod in a double-station thick film heating plate printing device provided by the invention;

FIG. 6 is a schematic connection diagram of a sliding base in a double-station thick film heating plate printing device provided by the invention;

FIG. 7 is a schematic connection diagram of a slide bar in a double-station thick film heating plate printing device provided by the invention;

fig. 8 is a schematic connection diagram of a pull rod in the double-station thick film heating plate printing device provided by the invention.

Reference numbers in the figures: 1. an electric cabinet; 2. a body; 3. a telescopic frame; 4. a print head; 5. a through groove; 6. a chute; 7. a knob; 8. a display screen; 9. a support; 10. a motor; 11. a long rod; 12. a bearing; 13. a linkage rod; 14. a linkage frame; 15. a cover plate; 16. a machine base; 17. a linkage mechanism; 171. a pulley; 172. a cross bar; 173. a vertical rod; 174. rotating the plate; 175. a rotating drum; 18. a rotating mechanism; 181. grooving; 182. a strut; 19. a sliding mechanism; 191. a guide port; 192. a guide bar; 193. a slide base; 20. a bearing platform; 21. a slide bar; 22. a base; 23. a fixing mechanism; 231. a pull rod; 232. pressing a plate; 233. a fixed mount; 234. and (5) clamping the rod.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Exemplary embodiments of the invention are shown in the drawings.

The first embodiment is as follows:

as shown in fig. 1-8, the double-station thick film heating disc printing device of the present invention includes an electric cabinet 1, a machine body 2, a motor 10, a long rod 11, a bearing 12, a through slot 5, a linkage rod 13, a linkage frame 14, a linkage mechanism 17, a rotation mechanism 18, a sliding mechanism 19, a base 22 and a bearing platform 20, wherein one side of the machine body 2 is connected to the electric cabinet 1, a support 9 is disposed inside the machine body 2, the motor 10 is disposed on one side of the support 9, the linkage rod 13 is disposed on the long rod 11 at the output end of the motor 10, one end of the long rod 11 is connected to the machine body 2 through the bearing 12, the rotation mechanism 18 is disposed on one end of the linkage rod 13, the output end of the rotation mechanism 18 is disposed with the linkage mechanism 17, the linkage mechanism 17 is slidably disposed on the linkage rod 13, the top end of the linkage frame 14 is disposed with an interaction mechanism, the sliding mechanism 19 is slidably disposed in the through slot 5, the base 22 is disposed on the top end of the sliding mechanism 19, the base 22 is disposed with the bearing platform 20, and a printing head 4 is disposed above the platform 20.

As shown in fig. 1-8, two link rods 13 are arranged on a long rod 11, the link rods 13 are arranged in an L shape, each link rod 13 is connected with a corresponding link frame 14, each link frame 14 is slidably arranged in a through groove 5 through a sliding mechanism 19, a sliding rod 21 is arranged on a base 22 connected by each sliding structure, and the sliding rods 21 are slidably connected in sliding grooves 6 on a machine body 2 to realize the movement of two bearing platforms 20.

Further, in an embodiment of the present invention, as shown in fig. 1 to 8, the sliding mechanism 19 includes a guide opening 191, a guide rod 192 and a sliding seat 193, the guide rod 192 is disposed in the through slot 5 of the machine body 2, the sliding seat 193 is provided with the guide opening 191, the sliding seat 193 is engaged with the guide rod 192 through the guide opening 191, so that the sliding seat 193 is moved by the movement of the linkage frame 14; the traditional printing equipment for the thick film heating plate adopts single-group printing, the efficiency is low, and the scheme is characterized in that two linkage rods 13 are arranged to drive respective bearing platforms 20 to move, so that multi-station printing is realized, and the efficiency is improved; the linkage rod 13 is arranged on the long rod 11 in an L shape, when the long rod 11 rotates clockwise and anticlockwise, the linkage rod 13 on one side can be horizontal, and the other side can be vertical, so that the linkage frame 14 on one side can be driven to move outwards, and the other side can move towards the position of the printing head 4; the linkage frame 14 is connected with a sliding seat 193, a bearing platform 20 is arranged on the sliding seat 193, the linkage frame 14 can drive the bearing platform 20 to move when moving, so that a product placed on the bearing platform 20 can be driven to move, one side of the linkage frame is printed by moving inwards along with the rotation of the long rod 11 during processing, the other side of the linkage frame can convey a finished product out, and the bearing platforms 20 on two sides can repeatedly enter or leave when the long rod 11 rotates clockwise and anticlockwise, so that double-station processing is realized.

Example two:

as shown in fig. 1 to 8, on the basis of the first embodiment, the present invention provides a technical solution: the rotating mechanism 18 comprises a slot 181 and a supporting rod 182, the slot 181 is arranged on the plate body of the rotating plate 174, a vertical rod 173 is inserted into the slot 181, and the vertical rod 173 is hinged in the slot 181 through the supporting rod 182, so that the rotation of the rotating plate 174 is not influenced when the linkage rod 13 rotates; a cover plate 15 is arranged on one side of the machine body 2, a machine base 16 is arranged on the cover plate 15, and the motor 10 is fixed in the machine base 16 to realize sealing; an expansion bracket 3 is arranged above the through groove 5 of the machine body 2, the expansion bracket 3 is connected with the printing head 4 through a fixing mechanism 23, and one end of the machine body 2 is provided with a knob 7 and a display screen 8 to realize the control of the equipment; the fixing mechanism 23 comprises a pull rod 231, a pressing plate 232, a fixing frame 233 and a clamping rod 234, the fixing frame 233 is fixed on the telescopic frame 3, the clamping rod 234 is arranged on one side of the printing head 4, the pressing plate 232 is hinged on the fixing frame 233, the pull rod 231 is arranged on the pressing plate 232, the pull rod 231 is connected to the end head of one side of the clamping rod 234 in a clamping mode, one side of the printing head 4 is hinged on the telescopic frame 3, and the printing head 4 is adjusted.

Further, in the present embodiment, as shown in fig. 1 to 8, the linkage mechanism 17 includes a pulley 171, a cross bar 172, a vertical bar 173, a rotating plate 174 and a rotating drum 175, the rotating plate 174 is hinged at an end of each linkage rod 13, one end of the rotating plate 174 is provided with the vertical bar 173, the vertical bar 173 is rotatably provided with the rotating drum 175, the rotating drum 175 is slidably provided in the linkage frame 14, the end of the vertical bar 173 at the other side of the linkage frame 14 is provided with the cross bar 172, the cross bar 172 is rotatably provided with the pulley 171, the pulley 171 is attached to a corresponding end surface of the linkage frame 14, so that the vertical bar 173 and the cross bar 172 can move up and down in the linkage frame 14; when the long rod 11 rotates, the linkage rod 13 can rotate and drive the rotary drum 175 and the pulley 171 to move on the linkage frame 14, so that the damage of components caused by fixed connection is prevented; the vertical rod 173 is hinged on the linkage rod 13 through the rotating plate 174, the rotating drum 175 arranged on the vertical rod 173 is connected in the linkage frame 14 in a sliding manner, the other side of the linkage frame 14 is provided with a cross rod 172, the cross rod 172 is provided with a pulley 171, and the pulley 171 is tightly attached to the linkage frame 14; when the linkage rod 13 rotates, the vertical rod 173 and the horizontal rod 172 can be driven to move in the up-and-down direction of the linkage frame 14, so that the linkage frame 14 is driven to move.

The working principle of the double-station thick film heating plate printing equipment provided by the invention is as follows:

the first innovation point implementation step:

the first step is as follows: the traditional printing equipment for the thick film heating plate adopts single-group printing, the efficiency is low, and the scheme is characterized in that two linkage rods 13 are arranged to drive respective bearing platforms 20 to move, so that multi-station printing is realized, and the efficiency is improved;

the second step is that: the linkage rod 13 is arranged on the long rod 11 in an L shape, when the long rod 11 rotates clockwise and anticlockwise, the linkage rod 13 on one side can be horizontal, and the other side can be vertical, so that the linkage frame 14 on one side can be driven to move outwards, and the other side can move towards the position of the printing head 4;

the third step: the linkage frame 14 is connected with a sliding seat 193, a bearing platform 20 is arranged on the sliding seat 193, the linkage frame 14 can drive the bearing platform 20 to move when moving, so that a product placed on the bearing platform 20 can be driven to move, one side of the linkage frame is printed by moving inwards along with the rotation of the long rod 11 during processing, the other side of the linkage frame can convey a finished product out, and the bearing platforms 20 on two sides can repeatedly enter or leave when the long rod 11 rotates clockwise and anticlockwise, so that double-station processing is realized.

The implementation step of the second innovation point:

the first step is as follows: when the long rod 11 rotates, the linkage rod 13 can rotate and drive the rotary drum 175 and the pulley 171 to move on the linkage frame 14, so that the damage of components caused by fixed connection is prevented;

the second step is that: the vertical rod 173 is hinged on the linkage rod 13 through the rotating plate 174, the rotating drum 175 arranged on the vertical rod 173 is connected in the linkage frame 14 in a sliding manner, the other side of the linkage frame 14 is provided with a cross rod 172, the cross rod 172 is provided with a pulley 171, and the pulley 171 is tightly attached to the linkage frame 14;

the third step: when the linkage rod 13 rotates, the vertical rod 173 and the horizontal rod 172 can be driven to move in the up-and-down direction of the linkage frame 14, so that the linkage frame 14 is driven to move.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a thick film heating plate lithography apparatus of duplex position, includes electric cabinet (1), organism (2), motor (10), stock (11), bearing (12), leads to groove (5), gangbar (13), link gear (14), link gear (17), slewing mechanism (18), slide mechanism (19), base (22) and cushion cap (20), its characterized in that: electric cabinet (1) is being connected to one side of organism (2), organism (2) inside is equipped with support (9), one side of support (9) is equipped with motor (10), be equipped with gangbar (13) on output stock (11) of motor (10), one side end of stock (11) is passed through bearing (12) and is connected on organism (2), one side end of gangbar (13) is equipped with slewing mechanism (18), the output of slewing mechanism (18) is equipped with link gear (17), link gear (17) slide and set up on gangbar (13), the top of link gear (14) is equipped with interactive mechanism, sliding mechanism (19) slide and set up in logical groove (5), the top of sliding mechanism (19) is equipped with base (22), be equipped with cushion cap (20) on base (22), the top of cushion cap (20) is equipped with print head (4).

2. The double-station thick film heating plate printing equipment according to claim 1, wherein two linkage rods (13) are arranged on the long rod (11), the linkage rods (13) are arranged in an L shape, each linkage rod (13) is connected with a corresponding linkage frame (14), each linkage frame (14) is slidably arranged in the through groove (5) through a sliding mechanism (19), a sliding rod (21) is arranged on a base (22) connected with each sliding structure, and the sliding rods (21) are slidably connected in the sliding grooves (6) on the machine body (2).

3. The double-station thick film heating disc printing equipment according to claim 1, wherein the linkage mechanism (17) comprises pulleys (171), cross rods (172), vertical rods (173), a rotating plate (174) and a rotating drum (175), the rotating plate (174) is hinged to the end of each linkage rod (13), the vertical rods (173) are arranged at one end of the rotating plate (174), the rotating drum (175) is arranged on the vertical rods (173) in a rotating mode, the rotating drum (175) is arranged in the linkage frame (14) in a sliding mode, the cross rods (172) are arranged at the ends of the vertical rods (173) on the other side of the linkage frame (14), the pulleys (171) are arranged on the cross rods (172) in a rotating mode, and the pulleys (171) are attached to the corresponding end faces of the linkage frame (14).

4. The double-station thick film heating disc printing device according to claim 1, wherein the rotating mechanism (18) comprises a slot (181) and a support rod (182), the slot (181) is formed in the plate body of the rotating plate (174), a vertical rod (173) is inserted into the slot (181), and the vertical rod (173) is hinged in the slot (181) through the support rod (182).

5. The double-station thick film heating plate printing equipment according to claim 1, wherein the sliding mechanism (19) comprises a guide opening (191), a guide rod (192) and a sliding seat (193), the guide rod (192) is arranged in the through groove (5) of the machine body (2), the sliding seat (193) is provided with the guide opening (191), and the sliding seat (193) is engaged on the guide rod (192) through the guide opening (191).

6. The double-station thick film hot plate printing equipment according to claim 1, wherein a cover plate (15) is arranged on one side of the machine body (2), a machine base (16) is arranged on the cover plate (15), and the motor (10) is fixed in the machine base (16).

7. The double-station thick film heating plate printing equipment according to claim 1, wherein an expansion bracket (3) is arranged above the through groove (5) of the machine body (2), the expansion bracket (3) is connected with the printing head (4) through a fixing mechanism (23), and one end of the machine body (2) is provided with a knob (7) and a display screen (8).

8. The double-station thick film heating plate printing equipment according to claim 7, wherein the fixing mechanism (23) comprises a pull rod (231), a pressing plate (232), a fixing frame (233) and a clamping rod (234), the fixing frame (233) is fixed on the telescopic frame (3), the clamping rod (234) is arranged on one side of the printing head (4), the pressing plate (232) is hinged to the fixing frame (233), the pull rod (231) is arranged on the pressing plate (232), the pull rod (231) is clamped at one end of the clamping rod (234), and one side of the printing head (4) is hinged to the telescopic frame (3).