CN216127772U - Automatic film sticking equipment for nixie tube - Google Patents

Abstract

The utility model provides automatic film sticking equipment for a nixie tube, belonging to the field of nixie tube manufacturing; the device comprises a film pressing mechanism, a film tearing mechanism, a feeding and discharging sliding table mechanism, a film pressing mechanism, a manipulator and a rack body; the film tearing bottom plate of the film tearing mechanism is fixedly mounted to the rack body, the film pressing workbench of the film pressing mechanism is fixedly connected with the first film tearing mounting plate and the second film tearing mounting plate of the film tearing mechanism, the scroll mounting rack is also mounted to the rack body, and the film pressing mechanism, the film tearing mechanism and the scroll mounting rack are mounted to one side of the rack body; the automatic film laminating machine comprises a frame body, a feeding sliding table mechanism, a film laminating mechanism, a film pressing supporting frame, a manipulator and automatic equipment, wherein the feeding sliding table mechanism and the film laminating mechanism are arranged on the other side of the frame body, the sliding table mounting frame of the feeding sliding table mechanism is fixedly mounted on the frame body, a laminating bottom plate of the film laminating mechanism is fixedly connected to the laminating supporting frame of the feeding sliding table mechanism, and the manipulator is also fixedly mounted on the frame body.

Description

Automatic film sticking equipment for nixie tube

Technical Field

The utility model belongs to the field of production of nixie tubes, and particularly relates to automatic film sticking equipment for a nixie tube.

Background

A nixie tube, also known as a glow tube, is an electronic device that can display numeric and other information. The glass tube includes an anode made of a wire mesh and a plurality of cathodes. Most nixie tube cathodes are shaped as numbers. The tube is filled with a low pressure gas, typically neon plus some mercury and/or argon for the most part. When a cathode is charged, the nixie tube emits colored light, which is generally orange or green depending on the gas in the tube. The diaphragm just can form the product to the surface of charactron needs to paste, pastes the work of diaphragm to the charactron in the present stage and is accomplished through artifical manual by the workman, has wasted a large amount of manpowers to at the pad pasting in-process, also can often appear pasting useless condition, extravagant diaphragm, and then increased cost and inefficiency.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims to provide an automatic film laminating device for a nixie tube, which completes the processes of film pressing, film tearing, film laminating, material changing and pressing through automatic equipment, greatly improves the working efficiency, improves the product quality and saves the labor cost.

In order to achieve the purpose, the technical scheme of the utility model is realized as follows:

an automatic film sticking device for a nixie tube comprises a film pressing mechanism, a film tearing mechanism, an upper feeding sliding table mechanism, a lower feeding sliding table mechanism, a film pressing mechanism, a mechanical arm and a rack body; the film tearing bottom plate of the film tearing mechanism is fixedly mounted to the rack body, the film pressing workbench of the film pressing mechanism is fixedly connected with the first film tearing mounting plate and the second film tearing mounting plate of the film tearing mechanism, the film pressing mechanism and the film tearing mechanism are matched, the scroll mounting rack is also mounted to the rack body, the scroll mounting rack is arranged on one side of the film pressing mechanism, and the film pressing mechanism, the film tearing mechanism and the scroll mounting rack are mounted to one side of the rack body; the feeding and discharging sliding table mechanism and the membrane pressing mechanism are mounted on the other side of the rack body, a sliding table mounting frame of the feeding and discharging sliding table mechanism is fixedly mounted on the rack body, so that the feeding and discharging sliding table mechanism is fixedly connected with the rack body, a pressing bottom plate of the membrane pressing mechanism is fixedly connected to a pressing support frame of the feeding and discharging sliding table mechanism, and the membrane pressing mechanism is fixedly connected with the feeding and discharging sliding table mechanism; the manipulator is also fixedly arranged on the frame body and is arranged in the middle of the membrane tearing mechanism and the feeding and discharging sliding table mechanism.

Further, film pressing mechanism includes the film pressing workstation, a film pressing mounting panel, No. two film pressing mounting panels, elevating system and rubber roll body, a film pressing mounting panel and No. two film pressing mounting panels fixed mounting of being parallel to each other are to film pressing workstation one side, be equipped with elevating system and No. two elevating system between a film pressing mounting panel and No. two film pressing mounting panels, and an elevating system and No. two elevating system set up the both ends at a film pressing mounting panel respectively, elevating system's a lift seat is installed to rubber roll body one end, the other end is installed to No. two elevating system's a lift seat.

Furthermore, the first lifting mechanism and the second lifting mechanism are identical in structure, the first lifting mechanism comprises a first lifting connecting plate, a first left guide post, a first right guide seat, a first lifting seat and a first lifting cylinder, the first left guide post is fixedly mounted at the first end of the lower surface of the first lifting connecting plate, the second left guide post is fixedly mounted at the second end of the lower surface of the first lifting connecting plate, the first lifting seat is integrally T-shaped, one end of the first lifting seat is sleeved with the first left guide post, and the other end of the first lifting seat is sleeved with the first right guide post, so that the first lifting seat can move up and down; the first lifting cylinder is arranged in the middle of the lower surface of the first lifting connecting plate, and the output end of the first lifting cylinder is connected to the first lifting seat to drive the first lifting seat to vertically move; one side of the film pressing workbench is provided with a fixed limiting strip, and the other side of the film pressing workbench is provided with a movable limiting strip; one side that the film pressing workstation is close to removing spacing is equipped with two spouts, and the bolt passes in proper order and removes spacing and two spouts, realizes removing the fixed connection of spacing and film pressing workstation.

Furthermore, the film tearing mechanism comprises a film tearing base plate, a film tearing workbench, a tension roller assembly, a driving roller assembly and a lifting roller assembly, the film tearing workbench is fixedly mounted at the first end of the film tearing base plate, the middle of the film tearing base plate is provided with the film tearing tension roller assembly, the second end of the film tearing base plate is provided with the film tearing driving roller assembly, and one side of the film tearing tension roller assembly, which is close to the film tearing driving roller assembly, is also provided with the film tearing lifting roller assembly; the tension roller assembly comprises two tension roller mounting plates, a film tearing tension roller and a first transition plate; two tension roller mounting panels are installed respectively to the both sides of dyestripping bottom plate, and the dyestripping tension roller is installed to between two tension roller mounting panels, and a cab apron also is installed to between two tension roller mounting panels, and sets up the below at the dyestripping tension roller.

Further, the driving roller assembly comprises a film tearing motor, a film tearing driving roller, a first film tearing mounting plate and a second film tearing mounting plate, the bottoms of the first film tearing mounting plate and the second film tearing mounting plate are fixedly mounted on two sides of the film tearing bottom plate respectively, and the tops of the first film tearing mounting plate and the second film tearing mounting plate are fixedly mounted on two sides of the film pressing workbench respectively to form mounting areas; the film tearing motor is installed to the second film tearing installation plate, the film tearing driving roller is installed between the first film tearing installation plate and the second film tearing installation plate, and the output end of the film tearing motor is connected to the film tearing driving roller through a transmission belt to drive the film tearing driving roller; a second transition plate is arranged between the first film tearing mounting plate and the second film tearing mounting plate, the second transition plate is arranged between the film tearing tension roller and the film tearing driving roller, and the first transition plate and the second transition plate are matched for use and are used for enabling the base film to pass below the film tearing driving roller; lifting roller subassembly includes elevating system No. three, elevating system No. four and tears membrane lift roller, and elevating system No. three and elevating system No. four install respectively to the both sides of tearing the membrane bottom plate, and the one end of tearing membrane lift roller is installed to elevating system No. three lift seat, and the other end is installed to elevating system No. four lift seats of No. four, realizes tearing the lift of membrane lift roller.

Furthermore, the third lifting mechanism and the fourth lifting mechanism are identical in structure, the third lifting mechanism comprises a third left guide post, a third right guide seat, a third lifting seat and a third lifting cylinder, the third left guide post is fixedly mounted on one side of the upper surface of the film tearing bottom plate, the third right guide post is fixedly mounted on the other side of the upper surface of the film tearing bottom plate, the third lifting seat is integrally T-shaped, one end of the third lifting seat is sleeved with the third left guide post, and the other end of the third lifting seat is sleeved with the third right guide post, so that the third lifting seat can move up and down; the third lifting cylinder is mounted on the upper surface of the film tearing bottom plate, and the output end of the third lifting cylinder is connected to the middle of the third lifting seat, so that the third lifting seat is driven to move in the vertical direction; the film tearing bottom plate is provided with a base film passing groove, a third transition plate and a fourth transition plate are arranged on two sides of the base film passing groove, and the third transition plate and the fourth transition plate are matched for use, so that the base film passes through the groove from the position between the film tearing driving roller and the film tearing lifting roller in sequence; the height of the film tearing workbench is equal to the height of the film pressing workbench, and a workbench gap is arranged between the film tearing workbench and the film pressing workbench.

Furthermore, the feeding and discharging sliding table mechanism comprises a first upper guide beam, a second upper guide beam, a first lower guide beam, a second lower guide beam, a sliding table mounting frame, a first rodless cylinder, a second rodless cylinder, a first sliding table assembly and a second sliding table assembly, wherein first ends of the first upper guide beam and the second upper guide beam are fixedly connected to the upper side of a first main mounting plate of the sliding table mounting frame, and second ends of the first upper guide beam and the second upper guide beam are fixedly connected to the upper side of a second main mounting plate of the sliding table mounting frame; the first ends of the first lower guide beam and the second lower guide beam are fixedly connected to the lower side of the first main mounting plate, the second ends of the first lower guide beam and the second lower guide beam are fixedly connected to the lower side of the second main mounting plate, the first rodless cylinder and the second rodless cylinder are mounted to the first side mounting plate of the sliding table mounting frame, the first sliding table plate of the first sliding table assembly is sleeved to the first upper guide beam and the second upper guide beam, and the first sliding table plate is connected to the output end of the first rodless cylinder; a second sliding table plate of the second sliding table assembly is sleeved on the first lower guide beam and the second lower guide beam, and the second sliding table plate is connected to the output end of the second rodless cylinder; the slip table installation frame includes a main mounting panel, No. two main mounting panels, a side-mounting panel, No. two side-mounting panels and top connection frame, and a main mounting panel, a side-mounting panel, No. two main mounting panels and No. two side-mounting panels are end to end in proper order and are formed the closed structure, and the top connection frame is installed to the top of closed structure, makes the slip table installation frame form wholly, and slip table installation frame fixed mounting is to the frame body, realizes the fixed connection between last unloading slip table mechanism and the frame body.

Furthermore, the first sliding table assembly comprises a first sliding table plate and a first product seat, four corners of the lower surface of the first sliding table seat are respectively provided with a sleeve, the sleeves are respectively sleeved with the first upper guide beam and the second upper guide beam to realize sliding of the first sliding table assembly, and the first product seat is fixedly arranged on the upper surface of the first sliding table plate and is used for fixedly accommodating a plate of the nixie tube; the second sliding table assembly comprises a second sliding table plate, a second sliding table lifting cylinder and a second product seat, four corners of the lower surface of the second sliding table plate are respectively provided with a sleeve, and the sleeves are respectively sleeved on the first lower guide beam and the second lower guide beam to realize the sliding of the second sliding table plate; no. two slip table surfaces are equipped with four guiding holes, No. two upper surfaces of product seat installation to No. two slip table lifter plates, No. two slip table lifter plate bottoms are equipped with four slip table guide posts, the slip table guide post cup joints to four guiding holes, realize reciprocating of No. two slip table liftplates relatively No. two slip table boards, be equipped with the cylinder hole in the middle of No. two slip table boards, No. two slip table lift cylinder fixed mounting to No. two slip table board bottoms, cylinder hole connection is passed to No. two slip table lifter plates to the output of No. two slip table lift cylinders, realize the drive to No. two slip table lifter plate vertical direction removal, No. two slip table boards are connected to No. two No. pole cylinders through the connecting piece, realize the drive to No. two slip table boards at the horizontal direction removal.

Furthermore, the diaphragm pressing mechanism comprises a pressing bottom plate, a pressing support frame, a pressing lifting cylinder, a pressing lifting plate and a disc body support assembly, wherein the pressing lower plate of the pressing support frame is fixedly mounted on the upper surface of the pressing bottom plate, four corners of the pressing lifting plate are respectively sleeved on four pressing guide columns of the pressing support frame, so that the pressing lifting plate can move up and down relative to the pressing support frame, the pressing lifting cylinder is fixedly mounted at the bottom of the pressing bottom plate, the output end of the pressing lifting cylinder sequentially penetrates through the pressing bottom plate and the pressing lower plate and is connected to the pressing lifting plate to drive the pressing lifting plate, and the disc body support assembly is arranged on the upper surface of the pressing lifting plate; the pressing support frame comprises a pressing upper plate, a pressing lower plate and four pressing guide columns, and the pressing upper plate is connected to the pressing lower plate through the four pressing guide columns; two sides of the lower surface of the press-fit lower plate are respectively provided with a press-fit feeding plate, the cross sections of the two press-fit feeding plates are both L-shaped, the two press-fit feeding plates are symmetrically arranged, and a feeding slideway is formed between the two press-fit feeding plates and is used for placing a disc body provided with a nixie tube into the feeding slideway; the lower surface of the pressing lower plate is also provided with a rubber pad for pressing the diaphragm of the nixie tube to play a role in buffering.

Further, the tray body supporting assembly comprises a tray body supporting plate, a tray body supporting plate and an adjusting supporting assembly, the tray body supporting plate is fixedly installed on one side of the upper surface of the pressing lifting plate, the tray body supporting plate is fixedly installed on the other side of the upper surface of the pressing lifting plate, and the adjusting supporting assembly is fixedly installed in the middle of the pressing lifting plate; the adjusting support component comprises an adjusting support plate, an adjusting slide rail, an adjusting slide plate and an adjusting slide plate, wherein the adjusting slide rail is parallel to each other, the adjusting slide rail is installed on the pressing lifting plate, the adjusting slide plate is arranged between the adjusting slide rail and the adjusting slide rail, the adjusting slide plate is moved, the adjusting support plate is vertically installed on the adjusting slide plate, the adjusting support plate is arranged on the adjusting support plate, the adjusting support plate is parallel to the disc body support plate, the disc body support plate is parallel to the disc body support plate, and the highest points of the adjusting support plate and the disc body support plate are on the same horizontal line.

Compared with the prior art, the automatic film sticking equipment for the nixie tube has the following advantages that:

(1) the film pressing mechanism can adjust the pressure of the film of the rubber roll body by adjusting the height of the rubber roll body, and can be properly adjusted according to the working condition; through adjustable removal spacing, can change the distance of removing between spacing and the fixed spacing, make it agree with the width of diaphragm basement membrane, reduce spaciousness, improve work efficiency. Through the design of the tension roller assembly, the base film is smoother in the recycling process.

(2) According to the film tearing mechanism, the film tearing driving roller and the film tearing lifting roller are arranged, so that the distance between the film tearing driving roller and the film tearing lifting roller can be automatically adjusted, and the traction force can be adjusted according to the working requirement; through having set up a plurality of cab apron of crossing, can let the base film after the use can advance along the route of setting for, until finally being collected, avoid the base film to retrieve and block up and cause equipment trouble.

(3) The utility model realizes the transposition work of the two sliding table assemblies in a smaller space, and improves the working efficiency of film pasting; the purpose of saving space is achieved by using the rodless cylinder.

(4) The tray body for placing the nixie tubes is fixed by the first product seat and the second product seat, and the nixie tubes are more stably moved in the working process.

(5) The digital tube pressing device is simple in structure and convenient to operate, and the process of pressing the digital tube is smoother by arranging the rubber pad, so that the digital tube is prevented from being damaged.

(6) The adjustable support assembly is arranged on the tray body, the adjustable support assembly can be adjusted according to the arrangement condition of the nixie tubes, the structure is simple, the operation is convenient, and the cost is saved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic view of an apparatus for automatically attaching a film to a nixie tube according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a diaphragm hold-down separation system according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a lamination mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic view of a first lifting mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic view of a film tearing mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic view of a film tearing mechanism according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a film tearing mechanism hiding a film tearing workbench, a film pressing workbench and a first film tearing mounting plate according to an embodiment of the present invention;

FIG. 8 is a schematic view of a third embodiment of the lifting mechanism of the present invention;

FIG. 9 is a schematic view of a film collection and lamination system according to an embodiment of the present invention;

FIG. 10 is a schematic view of a loading and unloading sliding table mechanism according to an embodiment of the present invention;

fig. 11 is a schematic view of a feeding and discharging sliding table mechanism of a hidden sliding table mounting frame according to an embodiment of the present invention;

FIG. 12 is a schematic diagram of a film laminating mechanism according to an embodiment of the present invention;

FIG. 13 is a schematic view of an adjustable support assembly according to an embodiment of the present invention.

Description of reference numerals:

1. a film pressing mechanism; 11. a film pressing workbench; 111. fixing a limiting strip; 112. moving the limiting strip; 113. a movable guide groove; 12. a first film pressing mounting plate; 13. a second film pressing mounting plate; 14. a first lifting mechanism; 141. a first lifting connecting plate; 142. a first left guide post; 143. a first right guide post; 144. a first lifting seat; 145. a first lifting cylinder; 146. a T-shaped connecting block; 15. a second lifting mechanism; 16. a rubber roller body; 2. a membrane tearing mechanism; 21. a film tearing bottom plate; 22. a film tearing workbench; 23. a tension roller assembly; 231. a tension roller mounting plate; 232. a film tearing tension roller; 233. a first transition plate; 24. a drive roll assembly; 241. a film tearing motor; 242. a film tearing driving roller; 243. a first film tearing mounting plate; 244. a second film tearing mounting plate; 245. a second transition plate; 25. a lifting roller assembly; 251. a third lifting mechanism; 2511. a third lifting connecting plate; 2512. a third left guide post; 2513. a third right guide post; 2514. a third lifting seat; 2515. a third lifting cylinder; 252. a fourth lifting mechanism; 253. a film tearing lifting roller; 254. a third transition plate; 255. the base film passes through the groove; 3. a feeding and discharging sliding table mechanism; 31. the first upper guide beam; 32. a second upper guide beam; 33. a first lower guide beam; 34. a second lower guide beam; 35. a sliding table mounting frame; 351. a first main mounting plate; 352. a second side mounting plate; 353. a top connection frame; 36. a rodless cylinder; 37. a second rodless cylinder; 38. a first sliding table assembly; 381. a first sliding table plate; 382. a first product seat; 39. a second sliding table assembly; 391. a second sliding table plate; 392. a second sliding table lifting plate; 393. a second sliding table lifting cylinder; 394. a second product seat; 395. a sliding table guide post; 4. a membrane pressing mechanism; 41. pressing the bottom plate; 42. pressing the supporting frame; 421. pressing the upper plate; 422. pressing the lower plate; 423. pressing the guide columns; 424. pressing the feeding plate; 425. a rubber pad; 43. pressing a lifting cylinder; 44. pressing the lifting plate; 45. a tray body support assembly; 451. a first disk support plate; 452. a second disk body supporting plate; 453. adjusting the support assembly; 4531. a first adjusting support plate; 4532. a second adjusting support plate; 4533. a first adjusting slideway; 4534. a second adjusting slideway; 4535. a first adjusting sliding plate; 4536. a second adjusting sliding plate; 5. a robotic arm.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

An automatic diaphragm pasting device for a nixie tube is shown in figures 1-13 and comprises a diaphragm pressing mechanism 1, a diaphragm tearing mechanism 2, a feeding and discharging sliding table mechanism 3, a diaphragm pressing mechanism 4, a manipulator and a rack body; the film tearing bottom plate 21 of the film tearing mechanism 2 is fixedly mounted to the frame body, the film pressing workbench 11 of the film pressing mechanism 1 is fixedly connected with the first film tearing mounting plate 243 and the second film tearing mounting plate 244 of the film tearing mechanism 2, so that the film pressing mechanism 1 is matched with the film tearing mechanism 2, the scroll mounting frame is also mounted to the frame body and is arranged on one side of the film pressing mechanism 1, and the film pressing mechanism 1, the film tearing mechanism 2 and the scroll mounting frame are mounted to one side of the frame body; the feeding and discharging sliding table mechanism 3 and the membrane pressing mechanism 4 are installed on the other side of the rack body, the sliding table installation frame 35 of the feeding and discharging sliding table mechanism 3 is fixedly installed on the rack body, so that the feeding and discharging sliding table mechanism 3 is fixedly connected with the rack body, the pressing bottom plate 41 of the membrane pressing mechanism 4 is fixedly connected to the pressing support frame 42 of the feeding and discharging sliding table mechanism 3, and the membrane pressing mechanism 4 is fixedly connected with the feeding and discharging sliding table mechanism 3; the manipulator is also fixed mounting to the frame body on, and sets up in the middle of tearing diaphragm mechanism 2 and last unloading slip table mechanism 3, and arm 5 is used for taking away the diaphragm from the base film, then pastes on the charactron in last unloading slip table mechanism 3.

Diaphragm pushes down piece-rate system, including pressed diaphragm mechanism 1, tear diaphragm mechanism 2, the spool mounting bracket, tear diaphragm mechanism 2's dyestripping bottom plate 21 fixed mounting to frame body, pressed diaphragm mechanism 1's pressed diaphragm workstation 11 and tear diaphragm mechanism 2's dyestripping mounting panel 243, No. two dyestripping mounting panel 244 fixed connection, realize pressed diaphragm mechanism 1 and tear the cooperation between diaphragm mechanism 2, the spool mounting bracket is also installed to the frame body, and the spool mounting bracket sets up the one side at pressed diaphragm mechanism 1.

Preferably, film pressing sheet mechanism 1, including film pressing workstation 11, a film pressing mounting panel 12, No. two film pressing mounting panels 13, elevating system 14, No. two elevating system 15 and rubber roll body 16, a film pressing mounting panel 12 and No. two film pressing mounting panels 13 fixed mounting that are parallel to each other are to film pressing workstation 11 one side, be equipped with elevating system 14 and No. two elevating system 15 between a film pressing mounting panel 12 and No. two film pressing mounting panels 13, and elevating system 14 and No. two elevating system 15 set up the both ends at a film pressing mounting panel 12 respectively, rubber roll body 16 one end is installed to elevating system 14's a lift seat 144, the other end is installed to No. two lift seats of No. two elevating system 15.

Preferably, No. 12 and No. 13 structures of press mold mounting panel of a press mold, for the L template, set up the L template and be in order to let a press mold mounting panel 12 and No. two inferior membrane mounting panels below have sufficient space of working, and can provide the supporting role to an elevating system 14 and No. two elevating system 15.

Preferably, the first lifting mechanism 14 and the second lifting mechanism 15 have the same structure, the first lifting mechanism 14 comprises a first lifting connecting plate 141, a first left guide column 142, a first right guide seat, a first lifting seat 144 and a first lifting cylinder 145, the first left guide column 142 is fixedly mounted at the first end of the lower surface of the first lifting connecting plate 141, the second left guide column is fixedly mounted at the second end of the lower surface of the first lifting connecting plate 141, the first lifting seat 144 is integrally in a T shape, one end of the first lifting seat 144 is sleeved on the first left guide column 142, the other end of the first lifting seat 144 is sleeved on the first right guide column 143, and the first lifting seat 144 is moved up and down; a lifting cylinder 145 is installed in the middle of the lower surface of a lifting connecting plate 141, the output end of the lifting cylinder 145 is connected to a lifting seat 144, the lifting seat 144 is driven to move vertically, and the lifting cylinder 145 works to drive the lifting seat 144 to move linearly in the vertical direction under the action of a left guide column 142 and a right guide column 143.

Preferably, the middle part of the first lifting seat 144 is provided with a first bearing seat, the middle part of the second lifting seat is provided with a second bearing seat, one end of the rubber roller body 16 is connected to the first bearing seat through a bearing, the other end of the rubber roller body 16 is connected to the second bearing seat through a bearing, and the rubber roller body 16 rolls more smoothly through the bearing.

Preferably, the output end of the first lifting cylinder 145 is provided with a T-shaped connecting block 146, the middle of the first lifting base 144 is provided with a T-shaped connecting groove corresponding to the T-shaped connecting block 146, the T-shaped connecting block 146 is inserted into the T-shaped connecting groove, so that the first lifting cylinder 145 is connected with the first lifting base 144, due to the design, the first lifting cylinder 145 and the first lifting base 144 form an inserted connection relationship, and when parts are overhauled or replaced, the connection mode is more convenient to detach.

Preferably, one side of the film pressing workbench 11 is provided with a fixed limiting strip 111, and the other side of the film pressing workbench 11 is provided with a movable limiting strip 112; one side that press mold workstation 11 is close to removing spacing 112 is equipped with two spouts, the bolt passes in proper order and removes spacing 112 and two spouts, realize removing the fixed connection of spacing 112 and press mold workstation 11, fixed spacing 111 and the setting of removing spacing 112 are for spacing to the diaphragm of whole book, the diaphragm of pasting on the base film is through press mold workstation 11, can the surface dislocation, be convenient for going on of work on next step, can fix removing spacing 112 through setting up the bolt simply effectually.

Preferably, remove spacing 112 bottom and be equipped with the removal guide block, press mold workstation 11 is equipped with the removal guide way 113 corresponding with the removal guide block, makes the removal guide block can rectilinear movement, provides the direction function, and is more convenient during the regulation.

Preferably, the film tearing mechanism 2 comprises a film tearing base plate 21, a film tearing workbench 22, a tension roller assembly 23, a driving roller assembly 24 and a lifting roller assembly 25, the film tearing workbench 22 is fixedly mounted at a first end of the film tearing base plate 21, the film tearing tension roller assembly 232 is arranged at the middle of the film tearing base plate 21, the film tearing driving roller 242 assembly 24 is arranged at a second end of the film tearing base plate 21, and the film tearing lifting roller 253 assembly 25 is further arranged at one side of the film tearing tension roller 232 assembly 23 close to the film tearing driving roller 242 assembly 24.

Preferably, the tension roller assembly 23 comprises two tension roller mounting plates 231, a tearing tension roller 232 and a first transition plate 233; two tension roller mounting panels 231 install respectively to the both sides of tearing film bottom plate 21, tear film tension roller 232 installs between two tension roller mounting panels 231, it also installs between two tension roller mounting panels 231 to cross cab apron 233 for one number, and set up in the below of tearing film tension roller 232, tear film tension roller 232 is used for increasing tension to the used base film, make the recovery of base film more smooth, it is used for realizing that the base film passes through smoothly from tear film tension roller 232 and enters into tear film initiative roller 242 below to cross cab apron 233 for one number.

Preferably, the driving roller assembly 24 includes a film tearing motor 241, a film tearing driving roller 242, a first film tearing mounting plate 243 and a second film tearing mounting plate 244, bottoms of the first film tearing mounting plate 243 and the second film tearing mounting plate 244 are respectively and fixedly mounted on two sides of the film tearing bottom plate 21, tops of the first film tearing mounting plate 243 and the second film tearing mounting plate 244 are respectively and fixedly mounted on two sides of the film pressing workbench 11, so as to form mounting areas; dyestripping motor 241 installs to No. two dyestripping mounting panels 244, and dyestripping drive roll 242 installs to between a dyestripping mounting panel 243 and No. two dyestripping mounting panels 244, and the output of dyestripping motor 241 is connected to dyestripping drive roll 242 through the drive belt, realizes the drive to the dyestripping initiative is rolled. The lamination worktable 11 is a component in the lamination mechanism 1, and plays a role in supporting and fixing.

Preferably, the height of tear drive roller 242 is less than the height of tear tension roller 232.

Preferably, a second transition plate 245 is further arranged between the first tearing film mounting plate 243 and the second tearing film mounting plate 244, the second transition plate 245 is arranged between the tearing film tension roller 232 and the tearing film driving roller 242, and the first transition plate 233 and the second transition plate 245 are matched for use, so that the base film passes below the tearing film driving roller 242.

Preferably, the lifting roller assembly 25 includes a third lifting mechanism 251, a fourth lifting mechanism 252 and a film tearing lifting roller 253, the third lifting mechanism 251 and the fourth lifting mechanism 252 are respectively installed at two sides of the film tearing bottom plate 21, one end of the film tearing lifting roller 253 is installed on a third lifting seat 2514 of the third lifting mechanism 251, and the other end of the film tearing lifting roller 253 is installed on a fourth lifting seat of the fourth lifting mechanism 252, so as to realize the lifting of the film tearing lifting roller 253. By automatically controlling the lifting of the film tearing lifting roller 253, the running and the stopping of the base film can be automated.

Preferably, the film tearing driving roller 242 and the film tearing lifting roller 253 are rubber rollers, so that friction force can be increased, and the base film can smoothly advance.

Preferably, the third lifting mechanism 251 and the fourth lifting mechanism 252 have the same structure, the third lifting mechanism 251 comprises a third left guide column 2512, a third right guide seat, a third lifting seat 2514 and a third lifting cylinder 2515, the third left guide column 2512 is fixedly mounted on one side of the upper surface of the film tearing bottom plate 21, the third right guide column 2513 is fixedly mounted on the other side of the upper surface of the film tearing bottom plate 21, the third lifting seat 2514 is integrally in a T shape, one end of the third lifting seat 2514 is sleeved on the third left guide column 2512, the other end of the third lifting seat 2514 is sleeved on the third right guide column 2513, and the third lifting seat 2514 moves up and down; no. three lift cylinders 2515 install to the upper surface of dyestripping bottom plate 21, and the output of No. three lift cylinders 2515 is connected to No. three lift seat 2514 middle part, realizes the drive to the removal of No. three lift seat 2514 vertical direction.

Preferably, the central points of the film tearing lifting roller 253 and the film tearing driving roller 242 are in the same straight line in the vertical direction, and the sizes of the film tearing lifting roller 253 and the film tearing driving roller 242 are the same, so that the spatial layout of the equipment is optimized, and smooth and efficient operation is ensured.

Preferably, the film tearing base plate 21 is provided with a base film passing groove 255, two sides of the base film passing groove 255 are provided with a third transition plate 254 and a fourth transition plate 254, the third transition plate 254 and the fourth transition plate are matched for use, the base film sequentially passes through the groove 255 from between the film tearing driving roller 242 and the film tearing lifting roller 253, and the used base film is finally collected through the base film passing groove 255 under the common traction of the film tearing driving roller and the film tearing lifting roller 253.

Preferably, the height of dyestripping workstation 22 and the 11 height of press mold workstation equal, and be equipped with the workstation clearance between dyestripping workstation 22 and the press mold workstation 11, the diaphragm of laminating on the base film separates in workstation clearance department, and the diaphragm is taken away and is pasted at the charactron, and the base film is collected through carrying out below the workstation clearance.

Preferably, the membrane collecting and pressing system comprises a feeding and discharging sliding table mechanism 3 and a membrane pressing mechanism 4; the slide table mounting frame 35 of the feeding and discharging slide table mechanism 3 is fixedly mounted to the frame body, so that the feeding and discharging slide table mechanism 3 is fixedly connected with the frame body, the press-fit bottom plate 41 of the membrane press-fit mechanism 4 is fixedly connected to the press-fit supporting frame 42 of the feeding and discharging slide table mechanism 3, and the membrane press-fit mechanism 4 is fixedly connected with the feeding and discharging slide table mechanism 3.

Preferably, the loading and unloading sliding table mechanism 3 comprises a first upper guide beam 31, a second upper guide beam 32, a first lower guide beam 33, a second lower guide beam 34, a sliding table mounting frame 35, a first rodless cylinder 36, a second rodless cylinder 37, a first sliding table assembly 38 and a second sliding table assembly 39, wherein first ends of the first upper guide beam 31 and the second upper guide beam 32 are fixedly connected to the upper side of a first main mounting plate 351 of the sliding table mounting frame 35, and second ends of the first upper guide beam 31 and the second upper guide beam 32 are fixedly connected to the upper side of a second main mounting plate of the sliding table mounting frame 35; first ends of a first lower guide beam 33 and a second lower guide beam 34 are fixedly connected to the lower side of a first main mounting plate 351, second ends of the first lower guide beam 33 and the second lower guide beam 34 are fixedly connected to the lower side of a second main mounting plate, a first rodless cylinder 36 and a second rodless cylinder 37 are mounted to a first side mounting plate of a sliding table mounting frame 35, a first sliding table plate 381 of a first sliding table assembly 38 is sleeved to a first upper guide beam 31 and a second upper guide beam 32, and the first sliding table plate 381 is connected to the output end of the first rodless cylinder 36; no. two sliding table plates 391 of No. two sliding table assemblies 39 are sleeved on the first lower guide beam 33 and the second lower guide beam 34, and the second sliding table plates 391 are connected to the output end of the second rodless cylinder 37.

Preferably, slip table installation frame 35 includes a main mounting panel 351, No. two main mounting panels, a side-mounting panel, No. two side-mounting panels 352 and top connection frame 353, a main mounting panel 351, a side-mounting panel, No. two main mounting panels and No. two side-mounting panels 352 are end to end in proper order and form the closed structure, top connection frame 353 installs the top to the closed structure, it is whole to make slip table installation frame 35 form, slip table installation frame 35 fixed mounting to the frame body, realize the fixed connection between last unloading slip table mechanism 3 and the frame body, slip table installation frame 35 is used for protecting inside spare part, play the effect of erection bracing simultaneously.

The slide table mounts a position where a worker performs an operation on one side of the frame 35.

Preferably, a slip table subassembly 38 includes a slip table board 381 and a product seat 382, and a slip table pedestal lower surface four corners is equipped with a sleeve respectively, and the sleeve cup joints with a guiding beam 31, No. two guiding beams 32 respectively, realizes the slip of a sliding sleeve subassembly, and a product seat 382 fixed mounting is to the upper surface of a slip table board 381 for the fixed disk body of accomodating the charactron.

Preferably, the first sliding table plate 381 is connected to the output end of the first rodless cylinder 36 through a sliding table connecting piece, so that the first rodless cylinder 36 drives the first sliding table.

Preferably, the second sliding table assembly 39 comprises a second sliding table plate 391, a second sliding table lifting plate 392, a second sliding table lifting cylinder 393 and a second product seat 394, four corners of the lower surface of the second sliding table plate 391 are respectively provided with a sleeve, and the sleeves are respectively sleeved on the first lower guide beam 33 and the second lower guide beam 34 to realize the sliding of the second sliding table plate 391; no. two slip table 391 surfaces are equipped with four guiding holes, No. two product holders 394 installs the upper surface to No. two slip table lifter plate 392, No. two slip table lifter plate 392 bottoms are equipped with four slip table guide posts 395, slip table guide post 395 cup joints to four guiding holes, realize No. two slip table lifter plate 392 relatively No. two reciprocating of slip table plate, be equipped with the cylinder hole in the middle of No. two slip table plate 391, No. two slip table lifter cylinder 393 fixed mounting to No. two slip table plate 391 bottoms, the output of No. two slip table lifter cylinder 393 passes the cylinder hole and is connected to No. two slip table lifter plate 392, realize the drive to No. two slip table lifter plate 392 vertical direction removal, No. two slip table plate 391 is connected to No. two rodless cylinders 37 through the connecting piece, realize the drive to No. two slip table plate 391 at the horizontal direction removal.

Preferably, the inboard of main mounting panel 351, the inboard of No. two main mounting panels all are equipped with and are used for carrying on spacing gag lever post to slip table subassembly 38 and No. two slip table subassemblies 39.

The membrane pressing mechanism 4 comprises a pressing bottom plate 41, a pressing support frame 42, a pressing lifting cylinder 43, a pressing lifting plate 44 and a disc body support assembly 45, wherein a pressing lower plate 422 of the pressing support frame 42 is fixedly mounted on the upper surface of the pressing bottom plate 41, four corners of the pressing lifting plate 44 are respectively sleeved on four pressing guide columns 423 of the pressing support frame 42, so that the pressing lifting plate 44 moves up and down relative to the pressing support frame 42, the pressing lifting cylinder 43 is fixedly mounted at the bottom of the pressing bottom plate 41, the output end of the pressing lifting cylinder 43 sequentially penetrates through the pressing bottom plate 41 and the pressing lower plate 422 and is connected to the pressing lifting plate 44, so that the pressing lifting plate 44 is driven, and the disc body support assembly 45 is arranged on the upper surface of the pressing lifting plate 44.

Preferably, the press-fit support frame 42 includes a press-fit upper plate 421, a press-fit lower plate 422, and four press-fit guide pillars 423, and the press-fit upper plate 421 is connected to the press-fit lower plate 422 through the four press-fit guide pillars 423.

Preferably, the lower surface both sides of pressfitting hypoplastron 422 are equipped with a pressfitting feed plate 424 respectively, and two pressfitting feed plate 424 cross sections all are the L type, and two pressfitting feed plates 424 are the symmetry and set up, form the feeding slide between two pressfitting feed plates 424 for in placing the feeding slide with the disk body of putting the charactron, this design can be convenient place the disk body in the feeding slide, put into and take out all very conveniently, and be convenient for disk body supporting component 45 directly contacts with the disk body.

Preferably, the lower surface of the press-fit lower plate 422 is further provided with a rubber pad 425, the press-fit of the diaphragm for the nixie tube has a buffering effect, the nixie tube directly contacts with the rubber pad 425 in the press-fit process, the buffering effect is achieved, and the nixie tube is protected.

Preferably, the tray body supporting assembly 45 includes a tray body supporting plate 451, a tray body supporting plate 452 and an adjusting supporting assembly 453, the tray body supporting plate 451 is fixedly installed on one side of the upper surface of the pressing lifting plate 44, the tray body supporting plate 452 is fixedly installed on the other side of the upper surface of the pressing lifting plate 44, the adjusting supporting assembly 453 is fixedly installed in the middle of the pressing lifting plate 44, the adjusting supporting assembly 453 can be adjusted according to the distribution of the nixie tubes in the tray body, the adjusting supporting assembly 453 is directly contacted with the tray body, and damage caused by contacting the nixie tubes is avoided.

Preferably, the adjusting support assembly 453 comprises a first adjusting support plate 4531, a second adjusting support plate 4532, a first adjusting slide 4533, a second adjusting slide 4534, a first adjusting slide 4535 and a second adjusting slide 4536, the first adjusting slide 4533 and the second adjusting slide 4534 which are parallel to each other are mounted to the pressing lifting plate 44, the first adjusting slide 4535 and the second adjusting slide 4536 are arranged between the first adjusting slide 4533 and the second adjusting slide 4534 to realize the movement of the first adjusting slide 4535 and the second adjusting slide 4536, the first adjusting support plate 4531 is vertically mounted to the first adjusting slide 4535, the second adjusting support plate 4532 is vertically mounted to the second adjusting slide 4536 to realize the first adjusting support plate 4531, the second adjusting support plate 4532, the first plate support plate 451 and the second plate support plate 452 are parallel to each other, and the highest points of the four are at the same horizontal line.

Because the big or small size diverse of charactron, and the size of disk body is the same, so will cause the charactron of different sizes to distribute differently at the disk body, for the convenience disk body supporting component 45 can directly with disk body jack-up, avoid the charactron, will adjust disk body supporting component 45, agree with the distribution situation of charactron, let the pressfitting work go on smoothly to save the cost.

A digital tube automatic film pasting device has the working principle that a whole roll of film is arranged on one side of a film pressing mechanism 1, the end part of the whole roll of film enters between a rubber roll body 16 and a film pressing workbench 11, the film and a base film are pre-tightened under the action of the rubber roll body 16, the height of the rubber roll body 16 and the gap between the rubber roll body 16 and the film pressing workbench 11 can be controlled through the adjustment of a first lifting mechanism 14 and a second lifting mechanism 15, and further the acting force between the rubber roll body 16 and the film pressing workbench 11 is controlled; the film pressing of the film pressing finished film is carried out by the next working procedures such as a film pressing workbench 11; the diaphragm adhered on the base film advances to the film tearing workbench 22 through the film pressing workbench 11 and moves to the gap of the workbench, the diaphragm is separated from the base film, the diaphragm is taken away by a manipulator and adhered to the nixie tube, the used base film passes through the lower part of the gap of the workbench and sequentially passes through the upper part of the film tearing tension roller 232, the film tearing driving roller 242 and the film tearing lifting roller 253, the third lifting mechanism 251 and the fourth lifting mechanism 252 are adjusted, so that the film tearing driving roller 242 and the film tearing lifting roller 253 generate friction force on the base film, the film tearing driving roller 242 rotates under the driving of the film tearing motor 241 and further drives the base film to advance, and the base film enters the base film passing groove 255 to be recovered;

placing the two disc bodies with the nixie tubes on a first product seat 382 and a second product seat 394 respectively, wherein the initial position of the first product seat 382 is a position A, and the initial position of the second product seat 394 is a position B; the mechanical arm 5 takes out the membrane on the base membrane, then the membrane is sequentially pasted on the nixie tubes of the first product seat 382 according to the arrangement sequence of the nixie tubes, after all the nixie tubes of the first product seat 382 are pasted, the second sliding table assembly 39 works, the second sliding table lifting cylinder 393 controls the second sliding sleeve lifting plate to descend, then the second rodless cylinder 37 controls the second sliding table 391 to move forwards, the first rodless cylinder 36 controls the first product seat 382 to move from the A position to the B position, the first sliding table plate 381 moves to the B position, the second sliding table lifting cylinder 393 controls the second product seat 394 to ascend to the A position, and then the mechanical arm 5 continues to paste the membrane on the nixie tubes of the second product seat 394, so that the operation is circulated until the pasting is completed;

the nixie tube with the adhered membrane is taken out of the feeding and discharging sliding table mechanism 3 and placed into the membrane pressing mechanism 4 through the feeding slide way, after the placement is finished, the pressing lifting cylinder 43 is controlled to work to jack the pressing lifting plate 44, the disk body is jacked up by the disk body supporting component 45 on the pressing lifting plate 44, the disk body is separated from the two pressing feeding plates 424, the nixie tube is in contact pressing with the rubber pad 425 at the top, after the pressing is finished, the pressing lifting cylinder 43 returns, the disk body returns to the feeding slide way formed by the pressing feeding plates 424, the disk body is taken out, and the film pasting work of the whole nixie tube is finished.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides an automatic pad pasting equipment of charactron which characterized in that: the device comprises a film pressing mechanism, a film tearing mechanism, a feeding and discharging sliding table mechanism, a film pressing mechanism, a manipulator and a rack body; the film tearing bottom plate of the film tearing mechanism is fixedly mounted to the rack body, the film pressing workbench of the film pressing mechanism is fixedly connected with the first film tearing mounting plate and the second film tearing mounting plate of the film tearing mechanism, the film pressing mechanism and the film tearing mechanism are matched, the scroll mounting rack is also mounted to the rack body, the scroll mounting rack is arranged on one side of the film pressing mechanism, and the film pressing mechanism, the film tearing mechanism and the scroll mounting rack are mounted to one side of the rack body; the feeding and discharging sliding table mechanism and the membrane pressing mechanism are mounted on the other side of the rack body, a sliding table mounting frame of the feeding and discharging sliding table mechanism is fixedly mounted on the rack body, so that the feeding and discharging sliding table mechanism is fixedly connected with the rack body, a pressing bottom plate of the membrane pressing mechanism is fixedly connected to a pressing support frame of the feeding and discharging sliding table mechanism, and the membrane pressing mechanism is fixedly connected with the feeding and discharging sliding table mechanism; the manipulator is also fixedly arranged on the frame body and is arranged in the middle of the membrane tearing mechanism and the feeding and discharging sliding table mechanism.

2. The automatic film sticking device for nixie tubes according to claim 1, wherein: film pressing piece mechanism includes the film pressing workstation, a film pressing mounting panel, No. two film pressing mounting panels, elevating system and rubber roll body, a film pressing mounting panel and No. two film pressing mounting panels fixed mounting of being parallel to each other are to film pressing workstation one side, be equipped with elevating system and No. two elevating system between a film pressing mounting panel and No. two film pressing mounting panels, and elevating system and No. two elevating system set up the both ends at a film pressing mounting panel respectively, rubber roll body one end is installed to elevating system's a lift seat, the other end is installed to elevating system's No. two lift seats.

3. The automatic film laminating device for the nixie tube according to claim 2, wherein: the first lifting mechanism and the second lifting mechanism are identical in structure, the first lifting mechanism comprises a first lifting connecting plate, a first left guide column, a first right guide seat, a first lifting seat and a first lifting cylinder, the first left guide column is fixedly mounted at the first end of the lower surface of the first lifting connecting plate, the second left guide column is fixedly mounted at the second end of the lower surface of the first lifting connecting plate, the first lifting seat is integrally T-shaped, one end of the first lifting seat is sleeved with the first left guide column, and the other end of the first lifting seat is sleeved with the first right guide column, so that the first lifting seat can move up and down; the first lifting cylinder is arranged in the middle of the lower surface of the first lifting connecting plate, and the output end of the first lifting cylinder is connected to the first lifting seat to drive the first lifting seat to vertically move; one side of the film pressing workbench is provided with a fixed limiting strip, and the other side of the film pressing workbench is provided with a movable limiting strip; one side that the film pressing workstation is close to removing spacing is equipped with two spouts, and the bolt passes in proper order and removes spacing and two spouts, realizes removing the fixed connection of spacing and film pressing workstation.

4. The automatic film laminating device for the nixie tube according to claim 3, wherein: the film tearing mechanism comprises a film tearing bottom plate, a film tearing workbench, a tension roller assembly, a driving roller assembly and a lifting roller assembly, the film tearing workbench is fixedly mounted at the first end of the film tearing bottom plate, the film tearing tension roller assembly is arranged in the middle of the film tearing bottom plate, the film tearing driving roller assembly is arranged at the second end of the film tearing bottom plate, and the film tearing lifting roller assembly is further arranged on one side, close to the film tearing driving roller assembly, of the film tearing tension roller assembly; the tension roller assembly comprises two tension roller mounting plates, a film tearing tension roller and a first transition plate; two tension roller mounting panels are installed respectively to the both sides of dyestripping bottom plate, and the dyestripping tension roller is installed to between two tension roller mounting panels, and a cab apron also is installed to between two tension roller mounting panels, and sets up the below at the dyestripping tension roller.

5. The automatic film laminating device for the nixie tube according to claim 4, wherein: the driving roller assembly comprises a film tearing motor, a film tearing driving roller, a first film tearing mounting plate and a second film tearing mounting plate, the bottoms of the first film tearing mounting plate and the second film tearing mounting plate are respectively and fixedly mounted on the two sides of the film tearing bottom plate, and the tops of the first film tearing mounting plate and the second film tearing mounting plate are respectively and fixedly mounted on the two sides of the film pressing workbench to form mounting areas; the film tearing motor is installed to the second film tearing installation plate, the film tearing driving roller is installed between the first film tearing installation plate and the second film tearing installation plate, and the output end of the film tearing motor is connected to the film tearing driving roller through a transmission belt to drive the film tearing driving roller; a second transition plate is arranged between the first film tearing mounting plate and the second film tearing mounting plate, the second transition plate is arranged between the film tearing tension roller and the film tearing driving roller, and the first transition plate and the second transition plate are matched for use and are used for enabling the base film to pass below the film tearing driving roller; lifting roller subassembly includes elevating system No. three, elevating system No. four and tears membrane lift roller, and elevating system No. three and elevating system No. four install respectively to the both sides of tearing the membrane bottom plate, and the one end of tearing membrane lift roller is installed to elevating system No. three lift seat, and the other end is installed to elevating system No. four lift seats of No. four, realizes tearing the lift of membrane lift roller.

6. The automatic film laminating device for the nixie tube according to claim 5, wherein: the third lifting mechanism and the fourth lifting mechanism are identical in structure, the third lifting mechanism comprises a third left guide column, a third right guide seat, a third lifting seat and a third lifting cylinder, the third left guide column is fixedly mounted on one side of the upper surface of the tear film base plate, the third right guide column is fixedly mounted on the other side of the upper surface of the tear film base plate, the third lifting seat is integrally T-shaped, one end of the third lifting seat is sleeved on the third left guide column, and the other end of the third lifting seat is sleeved on the third right guide column, so that the third lifting seat can move up and down; the third lifting cylinder is mounted on the upper surface of the film tearing bottom plate, and the output end of the third lifting cylinder is connected to the middle of the third lifting seat, so that the third lifting seat is driven to move in the vertical direction; the film tearing bottom plate is provided with a base film passing groove, a third transition plate and a fourth transition plate are arranged on two sides of the base film passing groove, and the third transition plate and the fourth transition plate are matched for use, so that the base film passes through the groove from the position between the film tearing driving roller and the film tearing lifting roller in sequence; the height of the film tearing workbench is equal to the height of the film pressing workbench, and a workbench gap is arranged between the film tearing workbench and the film pressing workbench.

7. The automatic film sticking device for nixie tubes according to claim 1, wherein: the feeding and discharging sliding table mechanism comprises a first upper guide beam, a second upper guide beam, a first lower guide beam, a second lower guide beam, a sliding table mounting frame, a first rodless cylinder, a second rodless cylinder, a first sliding table assembly and a second sliding table assembly, wherein first ends of the first upper guide beam and the second upper guide beam are fixedly connected to the upper side of a first main mounting plate of the sliding table mounting frame, and second ends of the first upper guide beam and the second upper guide beam are fixedly connected to the upper side of a second main mounting plate of the sliding table mounting frame; the first ends of the first lower guide beam and the second lower guide beam are fixedly connected to the lower side of the first main mounting plate, the second ends of the first lower guide beam and the second lower guide beam are fixedly connected to the lower side of the second main mounting plate, the first rodless cylinder and the second rodless cylinder are mounted to the first side mounting plate of the sliding table mounting frame, the first sliding table plate of the first sliding table assembly is sleeved to the first upper guide beam and the second upper guide beam, and the first sliding table plate is connected to the output end of the first rodless cylinder; a second sliding table plate of the second sliding table assembly is sleeved on the first lower guide beam and the second lower guide beam, and the second sliding table plate is connected to the output end of the second rodless cylinder; the slip table installation frame includes a main mounting panel, No. two main mounting panels, a side-mounting panel, No. two side-mounting panels and top connection frame, and a main mounting panel, a side-mounting panel, No. two main mounting panels and No. two side-mounting panels are end to end in proper order and are formed the closed structure, and the top connection frame is installed to the top of closed structure, makes the slip table installation frame form wholly, and slip table installation frame fixed mounting is to the frame body, realizes the fixed connection between last unloading slip table mechanism and the frame body.

8. The automatic film laminating device for nixie tubes according to claim 7, wherein: the first sliding table assembly comprises a first sliding table plate and a first product seat, four corners of the lower surface of the first sliding table seat are respectively provided with a sleeve, the sleeves are respectively sleeved with a first upper guide beam and a second upper guide beam to realize the sliding of the first sliding table assembly, and the first product seat is fixedly arranged on the upper surface of the first sliding table plate and is used for fixedly accommodating a plate of a nixie tube; the second sliding table assembly comprises a second sliding table plate, a second sliding table lifting cylinder and a second product seat, four corners of the lower surface of the second sliding table plate are respectively provided with a sleeve, and the sleeves are respectively sleeved on the first lower guide beam and the second lower guide beam to realize the sliding of the second sliding table plate; no. two slip table surfaces are equipped with four guiding holes, No. two upper surfaces of product seat installation to No. two slip table lifter plates, No. two slip table lifter plate bottoms are equipped with four slip table guide posts, the slip table guide post cup joints to four guiding holes, realize reciprocating of No. two slip table liftplates relatively No. two slip table boards, be equipped with the cylinder hole in the middle of No. two slip table boards, No. two slip table lift cylinder fixed mounting to No. two slip table board bottoms, cylinder hole connection is passed to No. two slip table lifter plates to the output of No. two slip table lift cylinders, realize the drive to No. two slip table lifter plate vertical direction removal, No. two slip table boards are connected to No. two No. pole cylinders through the connecting piece, realize the drive to No. two slip table boards at the horizontal direction removal.

9. The automatic film laminating device for nixie tubes according to claim 8, wherein: the diaphragm pressing mechanism comprises a pressing bottom plate, a pressing support frame, a pressing lifting cylinder, a pressing lifting plate and a disc body support assembly, wherein the pressing lower plate of the pressing support frame is fixedly installed on the upper surface of the pressing bottom plate, four corners of the pressing lifting plate are respectively sleeved on four pressing guide columns of the pressing support frame, so that the pressing lifting plate can move up and down relative to the pressing support frame, the pressing lifting cylinder is fixedly installed at the bottom of the pressing bottom plate, the output end of the pressing lifting cylinder sequentially penetrates through the pressing bottom plate and the pressing lower plate and is connected to the pressing lifting plate to drive the pressing lifting plate, and the disc body support assembly is arranged on the upper surface of the pressing lifting plate; the pressing support frame comprises a pressing upper plate, a pressing lower plate and four pressing guide columns, and the pressing upper plate is connected to the pressing lower plate through the four pressing guide columns; two sides of the lower surface of the press-fit lower plate are respectively provided with a press-fit feeding plate, the cross sections of the two press-fit feeding plates are both L-shaped, the two press-fit feeding plates are symmetrically arranged, and a feeding slideway is formed between the two press-fit feeding plates and is used for placing a disc body provided with a nixie tube into the feeding slideway; the lower surface of the pressing lower plate is also provided with a rubber pad for pressing the diaphragm of the nixie tube to play a role in buffering.

10. The automatic film laminating device for the nixie tube according to claim 9, wherein: the disc body supporting assembly comprises a first disc body supporting plate, a second disc body supporting plate and an adjusting supporting assembly, the first disc body supporting plate is fixedly installed on one side of the upper surface of the pressing lifting plate, the second disc body supporting plate is fixedly installed on the other side of the upper surface of the pressing lifting plate, and the adjusting supporting assembly is fixedly installed in the middle of the pressing lifting plate; the adjusting support component comprises an adjusting support plate, an adjusting slide rail, an adjusting slide plate and an adjusting slide plate, wherein the adjusting slide rail is parallel to each other, the adjusting slide rail is installed on the pressing lifting plate, the adjusting slide plate is arranged between the adjusting slide rail and the adjusting slide rail, the adjusting slide plate is moved, the adjusting support plate is vertically installed on the adjusting slide plate, the adjusting support plate is arranged on the adjusting support plate, the adjusting support plate is parallel to the disc body support plate, the disc body support plate is parallel to the disc body support plate, and the highest points of the adjusting support plate and the disc body support plate are on the same horizontal line.

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