CN210012756U - Glass coating voltage-stabilizing vacuum equipment - Google Patents

Abstract

The utility model discloses a glass coating steady voltage vacuum apparatus, include: the vacuum pump comprises a vacuum pump body, a sealing box body, a glass hanging rack, a first conveying chain, a second conveying chain and a third conveying chain, wherein first movable sealing door plates are arranged at two ends of the sealing box body respectively, two second movable sealing door plates are arranged in the middle of the sealing box body at intervals, a coating area is formed between the two second movable sealing door plates, a vacuum buffer area is formed between the first movable sealing door plates and the second movable sealing door plates, an air inlet end of the vacuum pump is provided with an air inlet main pipe, air exhaust pipes which are communicated with the coating area and the vacuum buffer area one by one are arranged on the air inlet main pipe, and the glass hanging rack is arranged on the first conveying chain and conveyed through the matching of the first conveying chain, the second conveying chain and the third conveying chain. In this way, glass coating steady voltage vacuum apparatus, production efficiency is high, the vacuum buffer area is less moreover, the energy consumption that the vacuum resumes is low.

Description

Glass coating voltage-stabilizing vacuum equipment

Technical Field

The utility model relates to a glass coating technical field especially relates to a glass coating steady voltage vacuum apparatus.

Background

The raw material area of the mobile phone glass is large, and integral film coating is difficult to carry out, so that the glass needs to be cut before film coating, and is divided into small glass sheets so as to facilitate fixing and film coating processes.

The glass sheets need to be hung on the support, and the support is informed to be sent into the vacuum coating equipment, so that the high-efficiency vacuum coating processing of the plurality of glass sheets can be carried out. The requirement of the vacuum coating process on the vacuum degree is high, the door plate of the equipment can be opened in the process of conveying the support into and out, the change of the vacuum degree is caused, the implementation of the vacuum coating process is seriously influenced, the vacuum coating can be carried out after the pressure is stabilized, the production efficiency is low, and the energy consumption is high.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problem of providing a glass coating voltage stabilization vacuum equipment, stabilizes the vacuum degree of vacuum coating part, promotes production efficiency, reduces the energy consumption.

In order to solve the technical problem, the utility model discloses a technical scheme be: provided is a glass coating voltage stabilization vacuum apparatus, including: a vacuum pump, a sealed box body, a glass hanging rack, a first conveying chain, a second conveying chain and a third conveying chain, the two ends of the sealing box body are respectively provided with a first movable sealing door plate, the middle of the sealing box body is provided with two second movable sealing door plates at intervals, a coating area is formed between the two second movable sealing door plates, a vacuum buffer area is formed between the first movable sealing door plate and the second movable sealing door plate, the air inlet end of the vacuum pump is provided with an air inlet main pipe, the air inlet main pipe is provided with exhaust pipes communicated with the coating area and the vacuum buffer area one by one, the first conveying chains are arranged at the outer sides of the two ends of the sealed box body, the second conveying chains are arranged in the vacuum buffer area, the third conveying chain is arranged in the coating area, the glass hanging rack is arranged on the first conveying chain, and the glass hanging rack is conveyed through the cooperation of the first conveying chain, the second conveying chain and the third conveying chain.

In a preferred embodiment of the present invention, the air exhaust pipe is provided with a valve.

In a preferred embodiment of the present invention, the sealed box body is provided therein with a vacuum pressure transmitter respectively located in the coating region and the vacuum buffer region.

In a preferred embodiment of the present invention, the coating region and the vacuum buffer region are provided with guide plates at both sides of the top of the glass hanger.

In a preferred embodiment of the present invention, the top of the glass hanging rack is provided with rolling guide assemblies at intervals between the guide plates, and the rolling guide assemblies respectively comprise two symmetrical guide wheels.

In a preferred embodiment of the present invention, the first movable sealing door plate and the second movable sealing door plate are respectively electric sealing door plates.

The utility model discloses a preferred embodiment still includes the PLC controller, the valve is the solenoid valve, be provided with photoelectric sensor on the sealed box, the PLC controller is connected with photoelectric sensor, solenoid valve, vacuum pressure transmitter and electronic sealed door plant respectively and controls.

The utility model has the advantages that: the utility model provides a glass coating film steady voltage vacuum apparatus, the second movable sealing door plant has been designed very much, form relatively less vacuum buffer area at coating film district both ends, when the glass stores pylon sent in and sent out, all can stop in the vacuum buffer area, only under the condition that the vacuum in vacuum buffer area and coating film district is the same, just can open second movable sealing door plant, the vacuum influence to coating film district when having avoided the glass stores pylon to send in and sent out, realize glass's continuous coating film, high production efficiency, and the vacuum buffer area is less, the energy consumption that the vacuum resumes is low.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic structural diagram of a preferred embodiment of the glass coating voltage-stabilizing vacuum apparatus of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention includes:

the glass coating voltage-stabilizing vacuum apparatus shown in fig. 1 comprises: vacuum pump 12, sealed box 1, glass stores pylon 14, first conveying chain 4, second conveying chain 5 and third conveying chain 6, sealed box 1 both ends are provided with first movable sealing door plant 3 respectively, the interval is provided with two second movable sealing door plants 2 in the sealed box 1, first movable sealing door plant 3 and second movable sealing door plant 2 are the electronic sealing door plant respectively, control the facility.

A coating area 7 is formed between the two second movable sealing door panels 2, and the coating on the surface of the glass is realized by installing a coating device. A vacuum buffer area 15 is formed between the first movable sealing door plate 3 and the second movable sealing door plate 2, and the influence of the glass on the vacuum degree of the coating area 7 when the glass enters and exits is avoided.

The vacuum pump is characterized in that an air inlet main pipe 11 is arranged at the air inlet end of the vacuum pump 12, air exhaust pipes 10 communicated with the coating area 7 and the vacuum buffer area 15 one by one are arranged on the air inlet main pipe 11, valves 9 are arranged on the air exhaust pipes 10, and the valves 9 are electromagnetic valves and respectively used for controlling air exhaust of the coating area 7 and the vacuum buffer area 15.

The first conveying chains 4 are arranged on the outer sides of the two ends of the sealing box body 1, the second conveying chains 5 are arranged in the vacuum buffer area 15, and the third conveying chains 6 are arranged in the film coating area 7, so that a gap is reserved between the first movable sealing door panel 3 and the second movable sealing door panel 2, and the actions of the first movable sealing door panel and the second movable sealing door panel are facilitated. The glass hanging rack 14 is arranged on the first conveying chain 4 and is conveyed through the cooperation of the first conveying chain 4, the second conveying chain 5 and the third conveying chain 6. The glass sheet is fixed on the glass hanging rack 14 and is sequentially sent into the film coating area 7 and the vacuum buffer area 15 along with the glass hanging rack 14, and after the film coating is finished, the glass sheet continuously moves forwards and is sent out, so that the efficiency is high.

The vacuum pressure transmitters respectively positioned in the film coating area 7 and the vacuum buffer area 15 are arranged in the seal box body 1, pressure detection of the film coating area 7 and the vacuum buffer area 15 is carried out, stability of the film coating area 7 is ensured, and before the second movable seal door panel 2 is opened, the valve corresponding to the vacuum buffer area 15 is opened, so that the second movable seal door panel 2 can be opened only when the vacuum degrees of the vacuum buffer area 15 and the film coating area 7 are the same, and vacuum degree fluctuation of the film coating area 7 is avoided.

The coating area 7 and the vacuum buffer area 15 are internally provided with guide plates 8 positioned on two sides of the top of the glass hanging rack 13 for limiting two sides of the top of the glass hanging rack 13, so that the problem of inclination during conveying is avoided. The top of the glass hanging rack 13 is provided with rolling guide assemblies positioned between the guide plates 8 at intervals, the rolling guide assemblies respectively comprise two symmetrical guide wheels 13, the movement guide of the glass hanging rack 13 is carried out by utilizing the rolling of the guide wheels 13 on the inner side surfaces of the guide plates 8, and the resistance is small.

In order to realize the automatic conveying of the glass hanging rack 13, a PLC controller is also needed, a photoelectric sensor is arranged on the sealing box body 1, and the photoelectric sensor is positioned on two sides of the first movable sealing door plate 3 and the second movable sealing door plate 2 to monitor the glass hanging rack 13. The PLC is respectively connected with the photoelectric sensor, the electromagnetic valve, the vacuum pressure transmitter and the electric sealing door panel for control, and controls the first conveying chain 4, the second conveying chain 5, the third conveying chain 6, the first movable sealing door panel 3 and the second movable sealing door panel 2 according to the position of the glass hanging rack 13 and the pressure monitoring of the vacuum buffer area 15, so that automatic conveying is realized.

To sum up, the utility model discloses a glass coating steady voltage vacuum apparatus who points out forms coating area 7 and vacuum buffer area 15 through first movable sealing door plant 3 and second movable sealing door plant 2 to vacuum control through vacuum buffer area 15 has both made things convenient for glass's transport, has ensured the pressure stability of coating area 7 again, makes glass can stabilize coating film machining in coating area 7, promotes the coating film quality.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims (7)

1. A glass coating steady voltage vacuum apparatus is characterized by comprising: a vacuum pump, a sealed box body, a glass hanging rack, a first conveying chain, a second conveying chain and a third conveying chain, the two ends of the sealing box body are respectively provided with a first movable sealing door plate, the middle of the sealing box body is provided with two second movable sealing door plates at intervals, a coating area is formed between the two second movable sealing door plates, a vacuum buffer area is formed between the first movable sealing door plate and the second movable sealing door plate, the air inlet end of the vacuum pump is provided with an air inlet main pipe, the air inlet main pipe is provided with exhaust pipes communicated with the coating area and the vacuum buffer area one by one, the first conveying chains are arranged at the outer sides of the two ends of the sealed box body, the second conveying chains are arranged in the vacuum buffer area, the third conveying chain is arranged in the coating area, the glass hanging rack is arranged on the first conveying chain, and the glass hanging rack is conveyed through the cooperation of the first conveying chain, the second conveying chain and the third conveying chain.

2. The glass-coating voltage-stabilizing vacuum apparatus according to claim 1, wherein a valve is provided on the exhaust tube.

3. The glass-coating voltage-stabilizing vacuum device of claim 2, wherein the sealed box body is provided with vacuum pressure transducers respectively located in the coating region and the vacuum buffer region.

4. The glass-coating voltage-stabilizing vacuum apparatus according to claim 1, wherein guide plates are disposed on both sides of the top of the glass hanger in the coating region and the vacuum buffer region.

5. The glass coating voltage-stabilizing vacuum equipment according to claim 4, wherein the top of the glass hanger is provided with rolling guide assemblies at intervals between the guide plates, and the rolling guide assemblies respectively comprise two symmetrical guide wheels.

6. The glass-coating pressure-stabilizing vacuum equipment according to claim 3, wherein the first movable sealing door plate and the second movable sealing door plate are electric sealing door plates respectively.

7. The glass coating voltage-stabilizing vacuum equipment of claim 6, further comprising a PLC controller, wherein the valve is an electromagnetic valve, the sealed box body is provided with a photoelectric sensor, and the PLC controller is respectively connected with the photoelectric sensor, the electromagnetic valve, the vacuum pressure transmitter and the electric sealed door panel for control.