CN219715861U - Turnover vacuum laminating machine - Google Patents

Abstract

The utility model discloses a turnover vacuum laminating machine, and particularly relates to the field of laminating machines. The utility model has the advantages of capability of overturning materials, convenience for bonding two sides, automatic feeding and discharging, strong automation, high processing efficiency and reduction of the use cost of workers.

Description

Turnover vacuum laminating machine

Technical Field

The utility model relates to the technical field of laminating machines, in particular to a reversible vacuum laminating machine.

Background

Laminating machine is a main equipment that is arranged in waiting to paste the membrane screen body with laminating membrane pressfitting in the processing of present electronic display device. Laminating film is pressed and placed on the screen body to be laminated in the moving process through a pressing roller in the laminating machine. The laminating machine has the advantages of high laminating efficiency, simplicity in operation and the like, and the laminating of the polaroids is required to be carried out on two sides in the process of manufacturing the liquid crystal display, so that the polaroids are required to be laminated by means of the laminating machine.

The utility model patent of patent publication number CN213675538U discloses a rigging machine, which comprises a machine body, the upper end surface fixedly connected with control panel of organism, the louvre has been seted up to one side of control panel, control panel's lower extreme is provided with the cylinder, one side of cylinder is provided with the seal cover, the front end surface of organism is provided with the gas collecting tank, the lower extreme of seal cover is provided with calibration panel, one side of calibration panel is provided with the start button, the gas collecting tank includes box, blast pipe, hinge and pulling handrail, the blast pipe is located one side surface of box, the hinge is located the surface of box, the pulling handrail is located one side surface of box. According to the laminating machine, people can calibrate materials while using the laminating machine through the device, gas can not be dispersed in the box through the gas collecting box, and the gas can be dispersed from the exhaust pipe, so that a better use prospect is brought.

But this structure is when in actual use, only can laminate the one side of material, can not realize automatic upset, laminate the face of material to when causing the material that needs laminate to two sides to laminate, need the manual work to overturn, thereby, reduced laminating efficiency, and artifical use cost, consequently, proposes a vacuum rigging machine that can overturn now.

Disclosure of Invention

The technical scheme of the utility model aims at solving the technical problem of overlarge singleness in the prior art and provides a solution which is obviously different from the prior art. In order to overcome the above-mentioned drawbacks of the prior art, the present utility model provides a reversible vacuum laminator, which solves the above-mentioned problems of the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a vacuum rigging machine that can overturn, includes workstation, landing leg, top case and pressing mechanism, and the landing leg is installed to the workstation bottom, and the top case is installed in the workstation top support, and pressing mechanism is installed to top case bottom, and landing leg one side welding has the backup pad, installs the support in the backup pad, installs slewing mechanism on the support, and slewing mechanism one side is provided with hydraulic lifting rod, and the quick-witted case is installed at hydraulic lifting rod top, and tilting mechanism is installed to the quick-witted incasement, and tilting mechanism one end is connected with pushing mechanism.

Preferably, an objective table is arranged on the workbench, and a through groove is formed on the objective table and the workbench at the bottom in a matched manner.

Preferably, a fluted disc is arranged at the bottom end of the hydraulic lifting rod, a bearing seat is arranged at the bottom end of the fluted disc, and one side of the fluted disc is meshed with the rotating mechanism.

Preferably, the rotating mechanism comprises a first motor, and the first motor is mounted on the bracket;

the top end of the first rotating rod is connected with the first motor;

the gear is arranged at the bottom end of the first rotating rod, and one side of the gear is connected with the fluted disc in a meshed manner.

Preferably, the turnover mechanism comprises a second motor, and the second motor is arranged in the case;

one end of the second rotating rod is connected with the second motor;

the mounting plate is mounted at the other end of the second rotating rod.

Preferably, the pushing mechanism comprises a cylinder, and the cylinder is mounted on the mounting plate;

one end of the push rod is connected with the cylinder;

the mounting disc is arranged at the other end of the push rod, and the width of the mounting disc is smaller than the groove width of the through groove;

the vacuum pump is arranged at the top of the mounting plate;

and the suckers are uniformly arranged at the bottom of the mounting disc and are connected with the vacuum pump.

The utility model has the technical effects and advantages that:

1. through the cooperation setting of tilting mechanism and pushing mechanism, compare with prior art, pushing mechanism can suitably adjust the position of sucking disc, and the sucking disc can adsorb the material under the effect of vacuum pump, simultaneously, tilting mechanism can make pushing mechanism wholly rotate, thereby can realize adjusting the adsorption direction of sucking disc, thereby make sucking disc absorptive material can overturn along with, with this, so as to laminate the processing to material two sides, avoid adopting the workman to overturn manually, with this, machining efficiency has been improved, the cost that the workman used has been reduced;

2. through the setting of slewing mechanism, hydraulic lifting rod, fluted disc, quick-witted case, tilting mechanism and pushing mechanism, compare with prior art, can cooperate the transport platform in the workshop, carry out laminating processing with the material automatic absorption on the objective table, and can adjust sucking disc's adsorption position and adsorption direction at will to make equipment can carry out automated operation, whole journey need not manual work and assists, has not only improved the degree of automation of production, has reduced the recruitment cost moreover.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic diagram of a bottom end connection structure of a hydraulic lifting rod according to the present utility model.

Fig. 3 is a schematic view of a partial enlarged structure at a of the present utility model.

Fig. 4 is a schematic structural view of the turnover mechanism of the present utility model.

Fig. 5 is a schematic structural view of the pushing mechanism of the present utility model.

The reference numerals are: 1. a work table; 2. a support leg; 3. a top box; 4. a pressing mechanism; 5. an objective table; 6. a support plate; 7. a bracket; 8. a rotating mechanism; 801. a first motor; 802. a first rotating lever; 803. a gear; 9. a hydraulic lifting rod; 10. a chassis; 11. a turnover mechanism; 1101. a second motor; 1102. a second rotating rod; 1103. a mounting plate; 12. a pushing mechanism; 1201. a cylinder; 1202. a push rod; 1203. a mounting plate; 1204. a vacuum pump; 1205. a suction cup; 13. fluted disc; 14. and a bearing seat.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The turnover vacuum laminating machine comprises a workbench 1, supporting legs 2, a top box 3 and a pressing mechanism 4, wherein the bottom of the workbench 1 is arranged on the supporting legs 2, the top end of the workbench 1 is supported and provided with the top box 3, the pressing mechanism 4 is arranged at the bottom of the top box 3, one side of the supporting legs 2 is welded with a supporting plate 6, a support 7 is arranged on the supporting plate 6, a rotating mechanism 8 is arranged on the support 7, a hydraulic lifting rod 9 is arranged on one side of the rotating mechanism 8, a machine box 10 is arranged at the top end of the hydraulic lifting rod 9, a turnover mechanism 11 is arranged in the machine box 10, and one end of the turnover mechanism 11 is connected with a pushing mechanism 12.

As shown in fig. 1, the table 1 is provided with an objective table 5, the table 1 at the bottom and the objective table 5 are provided with through grooves in a matched manner, so that the suction disc 1205 can adsorb materials on the objective table 5 from the bottom of the through grooves, and the materials are overturned.

As shown in fig. 2, the bottom end of the hydraulic lifting rod 9 is provided with a fluted disc 13, the bottom end of the fluted disc 13 is provided with a bearing seat 14, one side of the fluted disc 13 is meshed with the rotating mechanism 8 so that the fluted disc 13 can be meshed for rotation when the rotating mechanism 8 operates, and the bottom end of the hydraulic lifting rod 9 is supported by the bearing seat 14, so that the hydraulic lifting rod 9 can synchronously rotate along with the fluted disc 13.

As shown in fig. 3, the rotation mechanism 8 includes a first motor 801, and the first motor 801 is mounted on the bracket 7.

The first rotating rod 802, the top end of the first rotating rod 802 is connected with the first motor 801.

The gear 803, the gear 803 is installed in the bottom of the first bull stick 802, and one side is connected with the fluted disc 13 meshing.

When the adsorption position of the suction cup 1205 is adjusted, the first motor 801 operates to enable the first rotating rod 802 to rotate, so that the gear 803 at the bottom drives the fluted disc 13 to rotate, and the hydraulic lifting rod 9 rotates along with the rotation, so that the structure supported at the top end of the hydraulic lifting rod 9 rotates along with the rotation, and the adsorption position of the suction cup 1205 is adjusted.

As shown in fig. 4, the tilting mechanism 11 includes a second motor 1101, and the second motor 1101 is installed in the cabinet 10.

And a second rotating rod 1102, wherein one end of the second rotating rod 1102 is connected with the second motor 1101.

A mounting plate 1103, the mounting plate 1103 being mounted on the other end of the second rotating lever 1102.

When the suction direction of the suction cup 1205 is turned over, the second motor 1101 is operated, so that the second rotating lever 1102 rotates, and the mounting plate 1103 rotates with the second motor, and the pushing mechanism 12 mounted on the mounting plate 1103 rotates with the second motor, so that the suction direction of the suction cup 1205 is adjusted.

As shown in fig. 5, the pushing mechanism 12 includes a cylinder 1201, and the cylinder 1201 is mounted on a mounting plate 1103.

A push rod 1202, one end of the push rod 1202 is connected with a cylinder 1201.

The mounting plate 1203 is mounted on the other end of the push rod 1202, and the width of the mounting plate 1203 is smaller than the groove width of the through groove.

A vacuum pump 1204, the vacuum pump 1204 being mounted on top of the mounting plate 1203.

And a plurality of sucking discs 1205, wherein each sucking disc 1205 is uniformly arranged at the bottom of the mounting disc 1203 and is connected with the vacuum pump 1204.

In adjusting the position between the suction cup 1205 and the hydraulic lifter 9, the air cylinder 1201 operates to push and pull the push rod 1202, so that the position of the mounting plate 1203 is changed with the change, and thus the position of the suction cup 1205 at the bottom of the mounting plate 1203 is adjusted.

When the sucking disc 1205 adsorbs the material, the vacuum pump 1204 operates to make the inside of the sucking disc 1205 vacuum, so that the material is adsorbed on the sucking disc 1205 under the action of the external air pressure.

The working principle of the utility model is as follows: when the reversible vacuum laminating machine is used for producing a liquid crystal display, the laminating machine is placed in a workshop, and a polaroid conveying table, a liquid crystal sheet conveying table and a finished product material conveying table are arranged on one side in a matched manner, wherein the three conveying tables are the existing conveying belt assembly line technology in the workshop;

when the polaroid of the liquid crystal screen is bonded, the rotating mechanism 8 drives the hydraulic lifting rod 9 to rotate, so that the sucker 1205 at one end is positioned at the top of the liquid crystal sheet conveying table, the hydraulic lifting rod 9 contracts, the vacuum pump 1204 operates, so that the sucker 1205 adsorbs the liquid crystal sheet on the liquid crystal sheet conveying table and then transfers the liquid crystal sheet to the objective table 5, the polaroid on the polaroid conveying table is adsorbed, the top end of the liquid crystal sheet placed on the objective table 5 is reset to one side of the workbench 1, and the lamination mechanism 4 on the top box 3 laminates the polaroid, so that the polaroid is bonded on the top surface of the liquid crystal sheet;

after one surface of the liquid crystal sheet is attached with the polaroid, the turnover mechanism 11 operates, so that the sucking disc 1205 turns 180 degrees, the sucking disc 1205 faces upwards, the rotating mechanism 8 operates again, the hydraulic lifting rod 9 rotates, the pushing mechanism 12 is connected to the top of a through groove formed in the workbench 1, the hydraulic lifting rod 9 contracts, the pushing mechanism 12 descends to the bottom end of the through groove, namely the bottom of the workbench 1, the air cylinder 1201 in the pushing mechanism 12 operates, the push rod 1202 pushes the mounting disc 1203 to be positioned in the through groove at the bottom of the objective table 5, the hydraulic lifting rod 9 appropriately ascends, the sucking disc 1205 adsorbs the bottom of the liquid crystal sheet, after adsorbing the bottom of the liquid crystal sheet, the hydraulic lifting rod 9 ascends, the liquid crystal sheet is jacked, the turnover mechanism 11 overturns again, the sucking disc 1205 turns 180 degrees again, the sucking disc 1205 descends, the liquid crystal sheet adsorbed by the sucking disc 1205 is placed on the objective table 5, and the overturning is completed;

after the liquid crystal sheet attached to one polarizer is turned over, the sucker 1205 again adsorbs the polarizer from the polarizer conveying table to be placed on the liquid crystal sheet, and the liquid crystal sheet is pressed again through the pressing mechanism 4, so that the two sides of the liquid crystal sheet are attached to the polarizer, and the two sides of the liquid crystal sheet are attached to each other.

The utility model has the advantages of capability of overturning materials, convenience for bonding two sides, automatic feeding and discharging, strong automation, high processing efficiency and reduction of the use cost of workers.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (6)

1. The utility model provides a vacuum rigging machine that can overturn, includes workstation (1), landing leg (2), top case (3) and pressing mechanism (4), workstation (1) bottom is installed at landing leg (2), top case (3) are installed in workstation (1) top support, pressing mechanism (4) are installed to top case (3) bottom, its characterized in that: support plate (6) is welded on one side of landing leg (2), install support (7) on support plate (6), install slewing mechanism (8) on support (7), slewing mechanism (8) one side is provided with hydraulic lifting rod (9), quick-witted case (10) are installed on hydraulic lifting rod (9) top, tilting mechanism (11) are installed in quick-witted case (10), tilting mechanism (11) one end is connected with push mechanism (12).

2. The reversible vacuum laminator of claim 1, wherein: an objective table (5) is arranged on the workbench (1), and a through groove is formed in the objective table (5) and the workbench (1) at the bottom in a matched mode.

3. The reversible vacuum laminator of claim 1, wherein: the bottom end of the hydraulic lifting rod (9) is provided with a fluted disc (13), the bottom end of the fluted disc (13) is provided with a bearing seat (14), and one side of the fluted disc (13) is connected with the rotating mechanism (8) in a meshed manner.

4. The reversible vacuum laminator of claim 1, wherein: the rotating mechanism (8) comprises a first motor (801), and the first motor (801) is arranged on the bracket (7);

the top end of the first rotating rod (802) is connected with the first motor (801);

the gear (803) is arranged at the bottom end of the first rotating rod (802), and one side of the gear is connected with the fluted disc (13) in a meshed mode.

5. The reversible vacuum laminator of claim 1, wherein: the turnover mechanism (11) comprises a second motor (1101), and the second motor (1101) is installed in the case (10);

a second rotating rod (1102), wherein one end of the second rotating rod (1102) is connected with a second motor (1101);

and the mounting plate (1103) is arranged at the other end of the second rotating rod (1102).

6. The reversible vacuum laminator of claim 1, wherein: the pushing mechanism (12) comprises an air cylinder (1201), and the air cylinder (1201) is installed on the installation plate (1103);

a push rod (1202), one end of the push rod (1202) is connected with the air cylinder (1201);

the mounting plate (1203), the said mounting plate (1203) is mounted on another end of push rod (1202), and the width of the mounting plate (1203) is smaller than the slot width of the through slot;

a vacuum pump (1204), the vacuum pump (1204) being mounted on top of a mounting plate (1203);

and a plurality of suckers (1205), wherein each sucker (1205) is uniformly arranged at the bottom of the mounting plate (1203) and is connected with the vacuum pump (1204).