CN218755479U - Low-emissivity glass coating device - Google Patents

Abstract

The utility model relates to a low radiation glass coating device, the power distribution box comprises a box body, the relative both sides of box inside wall all are equipped with elevating gear, rigid coupling is equipped with the temperature control case on the lateral wall on the box inner chamber, air-out pipe, two are located to temperature control case below rigid coupling all be equipped with between the elevating gear and rotate clamping device, be equipped with the water tank on the lateral wall of box one side, be equipped with the water pump in the water tank, the one end of water pump is equipped with the pipe, the pipe stretches into the water tank bottom, the other end connection of water pump is equipped with the hose, the other end connection of hose is equipped with the shower nozzle, the shower nozzle is connected with rotation clamping device, the box openly is equipped with the door, be equipped with visual window and control panel on the door. Compared with the prior art, the utility model the advantage lies in: reasonable structure, convenient use and convenient clamping.

Description

Low-emissivity glass coating device

Technical Field

The utility model relates to the technical field of glass production, in particular to a low-emissivity glass coating device.

Background

Vacuum coating refers to the process of evaporating a target material and ionizing both evaporated substances and gas by using gas discharge under a vacuum condition and adopting a low-voltage and high-current arc discharge technology, and depositing the evaporated substances and reaction products thereof on a workpiece by using the acceleration action of an electric field, which is also called Physical Vapor Deposition (PVD). The current vacuum coating technology mainly comprises three methods of evaporation coating, sputtering coating and ion plating. Vacuum evaporation is an evaporation operation carried out under vacuum, in which the last secondary steam is usually condensed in a hybrid condenser, and is characterized by a lowering of the boiling point of the solution at low pressure and by evaporation of a large amount of water with less steam. Vacuum coating equipment among the prior art is great to the limitation of coating film product structure, and the unable automatic turn-over of product including placing leads to both sides coating film thickness inhomogeneous around, if will make its coating film even need take out and place again, product production efficiency is low like this.

SUMMERY OF THE UTILITY MODEL

To the above insufficiency in the prior art, the utility model provides a low radiation glass coating device, which has reasonable structure, convenient use and convenient clamping.

In order to achieve the above object, the utility model adopts the following technical scheme: a low-radiation glass coating device comprises a box body, wherein lifting devices are arranged on two opposite sides of the inner side wall of the box body, a temperature control box is fixedly connected onto the upper side wall of an inner cavity of the box body, a wind outlet pipe is fixedly connected to the lower side of the temperature control box, a rotary clamping device is arranged between the two lifting devices, a water tank is arranged on the side wall of one side of the box body, a water pump is arranged in the water tank, a guide pipe is arranged at one end of the water pump and extends into the bottom of the water tank, a hose is connected to the other end of the water pump, a spray head is connected to the other end of the hose and is connected with the rotary clamping device, a door is arranged on the front face of the box body, and a visual window and a control panel are arranged on the door.

As an improvement: two elevating gear all includes the U template, two the U template all with box inner wall rigid coupling, two rotate between the U template lateral wall to connect and be equipped with the lead screw, the upper end of lead screw all passes the box and its tip all pegs graft and is equipped with the gear, two it is equipped with drive arrangement to connect between the gear, two all be equipped with the movable block on the lead screw.

As an improvement: two it all includes the connecting block to rotate clamping device, it is equipped with the motor all to peg graft in the connecting block, the tip of motor all pegs graft and is equipped with electronic flexible post, the equal rigid coupling of tip of electronic flexible post is equipped with the U type and presss from both sides, the upper and lower both sides that the U type pressed from both sides all peg graft and are equipped with electronic flexible post two, two the equal rigid coupling of tip of electronic flexible post two is equipped with the fixed block, the homogeneous phase inlays on the U type presss from both sides the inside wall and is equipped with the detection head.

As an improvement: the driving device comprises two second gears, the two second gears are meshed with the two gears, and a rotating shaft is inserted between the two second gears. Two axis of rotation one side is equipped with the fixed plate, two the fixed plate is connected with box one side, two it is equipped with double-end motor to connect between the axis of rotation.

As an improvement: the connecting block is fixedly connected with the side wall of the moving block.

Compared with the prior art, the utility model the advantage lies in: at first this device is when using, and the glass of being convenient for utilize fixed block and electronic flexible post with different diameters carries out the centre gripping, and convenient fixed like this, secondly this device is when carrying out the tectorial membrane, utilizes the shower nozzle to spray the plating solution on glass, then utilizes hot-blast weathering, like this alright even with the coating film, and can realize monitoring the thickness of coating film in real time.

Drawings

FIG. 1 is a schematic structural view of a low emissivity glass coating apparatus of the present invention;

FIG. 2 is a schematic view of the external structure of a low emissivity glass coating apparatus of the present invention;

reference symbol comparison table:

1. a box body; 2. a lifting device; 201. a U-shaped plate; 202. a lead screw; 203. a gear; 204. a moving block; 3. a temperature control box; 4. an air outlet pipe; 5. rotating the clamping device; 501. connecting blocks; 502. a motor; 503. an electric telescopic column; 504. a U-shaped clamp; 505. a second electric telescopic column; 506. a fixed block; 507. a detection head; 6. a water tank; 7. a water pump; 8. a conduit; 9. a hose; 10. a spray head; 11. a drive device; 111. a second gear; 112. a rotating shaft; 113. a fixing plate; 114. a double-headed motor; 12. a door; 121. a visual window; 122. a control panel.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings.

As shown in fig. 1 and 2, the low-emissivity glass coating device comprises a box body 1, wherein lifting devices 2 are arranged on two opposite sides of the inner side wall of the box body 1, a temperature control box 3 is fixedly connected to the upper side wall of the inner cavity of the box body 1, a wind outlet pipe 4 is fixedly connected to the lower side of the temperature control box 3, a rotary clamping device 5 is arranged between the two lifting devices 2, a water tank 6 is arranged on the side wall of one side of the box body 1, a water pump 7 is arranged in the water tank 6, a guide pipe 8 is arranged at one end of the water pump 7, the guide pipe 8 extends into the bottom of the water tank 6, a hose 9 is connected to the other end of the water pump 7, a spray head 10 is connected to the other end of the hose 9, the spray head 10 is connected to the rotary clamping device 5, a door 12 is arranged on the front surface of the box body 1, and a window 121 and a control panel 122 are arranged on the door 12.

Two elevating gear 2 all includes U template 201, two U template 201 all with 1 inside wall rigid coupling of box, two rotate between the U template 201 lateral wall and connect and be equipped with lead screw 202, the upper end of lead screw 202 all passes box 1 and its tip all pegs graft and is equipped with gear 203, two connect between the gear 203 and be equipped with drive arrangement 11, two all be equipped with movable block 204 on the lead screw 202.

Two the rotation clamping device 5 all includes connecting block 501, all peg graft in the connecting block 501 and be equipped with motor 502, the tip of motor 502 all pegs graft and is equipped with electric telescopic column 503, the equal rigid coupling in tip of electric telescopic column 503 is equipped with the U type and presss from both sides 504, the upper and lower both sides of U type clamp 504 all peg graft and are equipped with two electric telescopic column 505, two the equal rigid coupling in tip of two electric telescopic column 505 is equipped with fixed block 506, the homogeneous phase inlays on the U type presss from both sides 504 inside wall and is equipped with detects head 507, connecting block 501 and movable block 204 lateral wall rigid coupling.

The driving device 11 comprises two second gears 111, the two second gears 111 are meshed with the two gears 203, and a rotating shaft 112 is inserted between the two second gears 111. Two rotation axis 112 one side is equipped with fixed plate 113, two fixed plate 113 is connected with box 1 one side, two rotation axis 112 is connected between and is equipped with double-end motor 114.

The utility model discloses when specifically implementing, this device is before the use, at first open the door 12 of box 1, put glass's both sides on fixed block 506, then utilize electronic flexible post two 202 with its centre gripping, then open water pump 7, spray coating liquid in the water tank 6 on glass through shower nozzle 10, then open double-end motor 114, double-end motor 114's rotation this moment, will drive the rotation of axis of rotation 112 rather than being connected, thereby make the two 111 rotations of gear of its tip, it rotates to drive gear 203, two lead screws 202 will rotate like this, it reciprocates to drive movable block 204, then will rotate the glass rebound on the clamping device 5, be close to temperature control box 3, utilize out tuber pipe 4 to blow the coating liquid on it levelly and smoothly, then utilize detection head 507 to carry out real-time thickness that detects the membrane, then rotate motor 502 and turn to glass's another side, then same process carries out the coating film.

The above description is only for the preferred embodiment of the present invention and should not be taken as limiting the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included within the scope of the present invention.

Claims (5)

1. The low-emissivity glass coating device comprises a box body (1), and is characterized in that: relative both sides of box (1) inside wall all are equipped with elevating gear (2), the rigid coupling is equipped with temperature control box (3) on the lateral wall on box (1) inner chamber, air-out pipe (4), two are located to temperature control box (3) below rigid coupling all be equipped with between elevating gear (2) and rotate clamping device (5), be equipped with water tank (6) on the lateral wall of box (1) one side, be equipped with water pump (7) in water tank (6), the one end of water pump (7) is equipped with pipe (8), pipe (8) stretch into water tank (6) bottom, the other end connection of water pump (7) is equipped with hose (9), the other end connection of hose (9) is equipped with shower nozzle (10), shower nozzle (10) are connected with rotation clamping device (5), box (1) openly is equipped with door (12), be equipped with visual window (121) and control panel (122) on door (12).

2. The low emissivity glass coating apparatus of claim 1, wherein: two elevating gear (2) all include U template (201), two U template (201) all with box (1) inside wall rigid coupling, two rotate between U template (201) the lateral wall to be connected and be equipped with lead screw (202), the upper end of lead screw (202) all passes box (1) and its tip and all pegs graft and be equipped with gear (203), two connect between gear (203) and be equipped with drive arrangement (11), two all be equipped with movable block (204) on lead screw (202).

3. The low emissivity glass coating apparatus of claim 2, wherein: two rotating clamping device (5) all include connecting block (501), all peg graft in connecting block (501) and be equipped with motor (502), the tip of motor (502) is all pegged graft and is equipped with electric telescopic column (503), the equal rigid coupling of tip of electric telescopic column (503) is equipped with the U type and presss from both sides (504), the upper and lower both sides that the U type pressed from both sides (504) are all pegged graft and are equipped with electric telescopic column two (505), two the equal rigid coupling of tip of electric telescopic column two (505) is equipped with fixed block (506), the homogeneous phase inlays on U type clamp (504) inside wall and is equipped with detection head (507).

4. The low emissivity glass coating apparatus of claim 2, wherein: drive arrangement (11) include two gear two (111), two gear two (111) and two gear (203) meshing, two it is equipped with axis of rotation (112), two to peg graft between gear two (111) axis of rotation (112) one side is equipped with fixed plate (113), two fixed plate (113) are connected with box (1) one side, two it is equipped with double-end motor (114) to connect between axis of rotation (112).

5. The low emissivity glass coating apparatus of claim 3, wherein: the connecting block (501) is fixedly connected with the side wall of the moving block (204).

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