CN209397130U - Coated with glass system - Google Patents

Abstract

The utility model relates to a kind of coated with glass systems.The coated with glass system includes wiper mechanism, water removal body, coating mechanism and transfer device, and wiper mechanism is with can clean glass；Water removal body can dry the glass after cleaning, wherein the glass after cleaned mechanism cleaning can be transmitted on water removal body automatically；The surface that coating mechanism is capable of glass after the drying forms film layer；And the glass after water removal body is dry can be transferred in coating mechanism by transfer device.The production efficiency of above-mentioned coated with glass system is higher.

Description

Coated with glass system

Technical field

The utility model relates to coated with glass technology fields, more particularly to a kind of coated with glass system.

Background technique

In the manufacturing process of thin film transistor liquid crystal display screen, color membrane substrates glass or array substrate glass are required to defeated It send and coats alignment films into apparatus for coating.However, the unreasonable structure of traditional apparatus for coating, causes the production of apparatus for coating to be imitated Rate is lower.

Utility model content

Based on this, it is necessary to provide a kind of higher coated with glass system of production efficiency.

A kind of coated with glass system, comprising:

Wiper mechanism can clean glass；

Water removal body, the glass after cleaning can be dried, wherein the glass after wiper mechanism cleaning It can be transmitted to automatically on the water removal body；

Coating mechanism, the surface for capableing of the glass after the drying form film layer；And

The glass after the water removal body is dry can be transferred in the coating mechanism by transfer device.

In above-mentioned coated with glass system, by the way that water removal body is arranged, and the glass after wiper mechanism cleaning can pass automatically It transports on water removal body, and the glass after water removal body is dry can be transferred in coating mechanism by transfer device, be made it possible to For the enough glass after one piece dry during coating, another block of glass to be cleaned being capable of successively cleaned mechanism and water removal Mechanism and cleaned and dried, after the completion of waiting one piece of coated with glass, the transferred mechanism transfer again of glass after another piece of drying It is coated into coating mechanism, makes it possible to be carried out continuously painting work, guarantee the production time of single sheet, improve production Efficiency, meanwhile, the water residual of the glass after drying is smaller, in favor of improving the effect of subsequent operation, guarantees the quality of product.

It in one of the embodiments, further include conveying mechanism, the conveying mechanism is located at the wiper mechanism and described Between water removal body, and the glass after wiper mechanism cleaning can be delivered in the water removal body.

The water removal body includes shell and the storage rack for accommodating the glass, institute in one of the embodiments, It states shell and has spaced feed inlet and discharge port, the storage rack is contained in the shell and connects with the housing into rotation It connects, the storage rack at least two, and is spaced setting, the part storage rack is arranged close to the feed inlet and can rotate To the discharge port, the part storage rack is arranged close to the discharge port and can turn to the feed inlet, the conveying The glass after wiper mechanism cleaning can be delivered in the storage rack by mechanism through the feed inlet, and described turn Institute's glass after the water removal body is dry can be transferred in the coating mechanism by telephone-moving structure through the discharge port.

The shell has opposite top and bottom, the feed inlet and the discharging in one of the embodiments, Mouth is close to the top setting, and each storage rack is connect with the lower rotation, and each storage rack includes being used for Place the support plate of the glass, the support plate be it is multiple, multiple support plates are from the bottom close to the top The setting of direction interval, so that each storage rack is in layer structure, each storage rack can be to close to or far from described The direction at top moves back and forth, so that each support plate can be close to the feed inlet or the discharge port.

The water removal body further includes lifter in one of the embodiments, the lifter at least two, each The lifter is affixed with each storage rack respectively, so that each storage rack can be in each lifter Driving under to close to or far from the top direction reciprocating motion.

The water removal body further includes turntable in one of the embodiments, the turntable be contained in the shell and with The housing into rotation connection, at least two storage racks are arranged at intervals on the turntable, and can be in the turntable Drive lower rotation.

The storage rack is four in one of the embodiments, and four storage racks are around the turntable and interval Setting.

The transfer device is mechanical arm in one of the embodiments,.

The water removal body further includes heating component in one of the embodiments, the heating component and the shell Affixed, the heating component can dry the glass；And/or

The water removal body further includes infrared ray component, and the infrared ray component is contained in the shell, described infrared Line component can dry the glass.

A kind of coated with glass system, comprising:

Wiper mechanism can clean glass；

Water removal body can dry the glass, and the glass after wiper mechanism cleaning can be transmitted to institute It states on water removal body, the water removal body includes shell, turntable, storage rack and heating component for accommodating the glass, institute It states the spaced feed inlet of shell tool and discharge port, the turntable is contained in the shell and connect with the housing into rotation, The storage rack at least two, the part storage rack are contained in the shell and are arranged at intervals on the turntable, The part storage rack is arranged close to the feed inlet, and the discharge port, portion can be turned under the drive of the turntable Divide the storage rack to be arranged close to the discharge port, and the feed inlet can be turned under the drive of the turntable, it is described Heating component is heating tube, the heating component be contained in it is in the shell and affixed with the shell, it is described can dry Glass；

Coating mechanism can form film layer on the surface of the glass；

Transfer device is arranged, with energy between the water removal body and the coating mechanism, and close to the discharge port The enough glass by after the water removal body is dry is transferred in the coating mechanism；And

Conveying mechanism, between the wiper mechanism and the water removal body, and can will be through the wiper mechanism The glass after cleaning is delivered in the water removal body.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the coated with glass system of an embodiment；

Fig. 2 is that coated with glass system shown in FIG. 1 omits the structural schematic diagram after wiper mechanism；

Fig. 3 is the structural schematic diagram of the water removal body of coated with glass system shown in FIG. 1；

Fig. 4 is the turntable of water removal body shown in Fig. 3 and the structural schematic diagram of storage rack.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms It realizes, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes to the utility model The understanding of disclosure is more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.

As depicted in figs. 1 and 2, the coated with glass system 10 of an embodiment include wiper mechanism 100, water removal body 200, Coating mechanism 300 and transfer device 400.

Wiper mechanism 100 can clean glass 20.It should be noted that wiper mechanism 100 passes through immersion or the side of spray Formula cleans glass 20.

Glass 20 is colored filter or array substrate glass in one of the embodiments,.It should be noted that glass 20 are not limited to the above-mentioned glass pointed out, can also be other glass.

Further, wiper mechanism 100 has discharging station (not shown).Glass 20 after cleaning can be delivered to automatically Discharge station.

Water removal body 200 can dry the glass 20 after cleaning.Water removal body 200 includes shell 210 and storage rack 220.

Shell 210 is the shell of water removal body 200.In the illustrated embodiment, shell 210 is cube shaped.It needs to illustrate , shell 210 is not limited to above-mentioned point out shape, or and other shapes, such as can be cylindrical.

Also referring to Fig. 3, shell 210 has spaced feed inlet 212 and discharge port 214.Further, feed inlet 212 close to wiper mechanism 100 discharging station be arranged.Further, shell 210 has opposite top 216 and bottom 218.Feed inlet 212 and discharge port 214 are close to top 216 and are arranged.In the illustrated embodiment, feed inlet 212 and discharge port 214 It is opened in the side wall of shell 210, and is oppositely arranged.

Storage rack 220 is contained in shell 210, and is rotatablely connected with shell 210.Storage rack 220 is for accommodating glass 20. Storage rack 220 at least two.Part storage rack 220 is arranged close to feed inlet 212 and can turn to discharge port 214, part Storage rack 220 is arranged close to discharge port 214 and can turn to feed inlet 212.Further, each storage rack 220 can Discharge port 214 is turned to from feed inlet 212, and feed inlet 212 can be turned to from discharge port 214.

Further, storage rack 220 and bottom 218 are rotatablely connected.Storage rack 220 includes the support for placing glass 20 Plate 222.Support plate 222 is multiple.Multiple support plates 222 are arranged from bottom 218 close to the direction interval at top 216, so as to deposit Storing up frame 220 is in layer structure.Further, storage rack 220 further includes at least two support rods 224.At least two support rods 224 interval settings, and extend towards bottom 218 close to the direction at top 216.Multiple support plates 222 are from bottom 218 close to top 216 direction interval setting, and it is affixed at least two support rods 224, so that storage rack 220 is in layer structure.

In the illustrated embodiment, support rod 224 is four.Each support plate 222 is square plate.Each support plate 222 Four apex angles are affixed with four support rods 224 respectively, so that storage rack 220 is in cube shaped layer structure.

Water removal body 200 further includes turntable 230.Turntable 230 is contained in shell 210 and is rotatablely connected with shell 210.At least Two storage racks 220 are arranged at intervals on turntable 230, and can be rotated under the drive of turntable 230.Further, turntable 230 are arranged close to bottom 218.Further, water removal body 200 further includes driver (not shown).Driver is close to bottom 218 settings, and it is affixed with shell 210.Driver is connect with turntable 230, to drive turntable 230 to rotate.In the illustrated embodiment, Driver is motor.

Also referring to Fig. 3, further, storage rack 220 is four.Four storage racks 220 are around turntable 230 and are spaced Setting.In the illustrated embodiment, two of them storage rack 220 is oppositely arranged, other two storage rack 220 is also oppositely arranged.

Each storage rack 220 can be moved back and forth to the direction close to or far from top 216, so that each support plate 222 It can be close to feed inlet 212 or discharge port 214.Further, water removal body 200 further includes at least two lifters 240.Often A lifter 240 is connect with each storage rack 220 respectively, so that each storage rack 220 can be in each lifter 240 To the direction reciprocating motion close to or far from top 216 under driving.

In the illustrated embodiment, lifter 240 is screw rod.One end of lifter 240 and the support plate near bottom 218 222 is affixed, and the other end and turntable 230 are affixed, to drive storage rack 220 to the direction reciprocating motion close to or far from top 216. Further, lifter 240 is four.Four lifters 240 respectively with the branch in four storage racks 220 near bottom 218 Fagging 222 is affixed, so that each lifter 240 drives each storage rack 220 back and forth to transport to the direction close to or far from top 216 It is dynamic.

Water removal body 200 further includes heating component (not shown).Heating component and shell 210 are affixed, and heating component can Dry glass 20.In the illustrated embodiment, heating component is heating tube.Heating component is multiple.Multiple heating components accommodate In shell 210.Multiple heating component interval settings, and it is affixed with the inner wall of shell 210.Further, water removal body 200 It further include infrared ray component (not shown).Infrared ray component is contained in shell 210, and infrared ray component being capable of dry glass 20.

Further, coated with glass system 10 further includes conveying mechanism 500.Conveying mechanism 500 be located at wiper mechanism 100 with Between water removal body 200.Glass 20 after conveying mechanism 500 can clean cleaned mechanism 100 is delivered to water removal body 200 In.Further, conveying mechanism 500 is connect with shell 210, and is arranged close to feed inlet 212, the glass 20 after cleaning It is delivered in storage rack 220 through feed inlet 212.

In the illustrated embodiment, conveying mechanism 500 is conveyer belt.One end of conveying mechanism 500 is set to wiper mechanism 100 Discharging station, the other end is arranged in feed inlet 212 and can abut with support plate 222.Glass 20 after cleaning can be direct Conveying mechanism 500 is placed in be delivered in support plate 222 on one end of discharging station, then through conveying mechanism 500.

The surface that coating mechanism 300 is capable of glass 20 after the drying forms film layer.Film layer in one of the embodiments, For alignment films.It should be noted that film layer is not limited to the above-mentioned film pointed out, or other films, such as can be protective film. In the illustrated embodiment, coating mechanism 300 is located at side of the water removal body 200 far from wiper mechanism 100, and close to discharge port 214 settings.

Glass 20 after water removal body 200 is dry can be transferred in coating mechanism 300 by transfer device 400.Into one Step ground, transfer device 400 are arranged between water removal body 200 and coating mechanism 300, and close to discharge port 214, will dry Glass 20 afterwards is transferred in coating mechanism 300 through discharge port 214.In the illustrated embodiment, transfer device 400 is mechanical arm.

The operating process of the coated with glass system 10 of above embodiment is as follows:

Opening driver rotates turntable 230, so that the support plate 222 of one of storage rack 220 is close to feed inlet 212 And it is abutted with conveying mechanism 500.Lifter 240 is adjusted, so that the support plate 222 in the storage rack 220 near bottom 218 is leaned on Nearly feed inlet 212 is arranged.Heating component and infrared ray component are opened, so as to which heating and infrared ray photograph can be carried out to glass 20 It penetrates.

Glass 20 to be cleaned is delivered in wiper mechanism 100 by modes such as mechanical arm or conveyer belts to be cleaned.Clearly Glass 20 after washing is transferred to conveying mechanism 500 and is delivered to support on one end of discharging station, then through conveying mechanism 500 On plate 222.Lifter 240 is adjusted so that support plate 222 is moved to the direction far from top 216.At this point, glass 20 to be cleaned It is fed continuously to wiper mechanism 100, the glass 20 after cleaning is persistently transferred to conveying mechanism 500 close to the one of discharging station On end, then gradually it is delivered in each layer support plate 222 of the storage rack 220.

When each layer support plate 222 of the storage rack 220 has glass 20, the lifter 240 of the storage rack 220 is closed. Turntable 230 is rotated, next storage rack 220 is made to move to feed inlet 212 and to carry the glass after cleaning in the same fashion Glass 20.The storage rack 220 of glass 20 is filled to close to the movement of the direction of discharge port 214.Glass 20 after cleaning is in water removal body In 200 during transfer, heated and infrared radiation and dry, obtain filling it is dry after glass 20 storage rack 220.

After the storage rack 220 of glass 20 after filling drying moves to discharge port 214, transfer device 400 will be near top Glass 20 in the support plate 222 in portion 216, which moves on coating mechanism 300, to be coated.Lifter 240 is opened, so that storage rack 220 is mobile to the direction close to top 216, so that every block of glass 20 after dry can be transferred to coating by transfer device 400 In mechanism 300.After glass 20 after drying all shifts, turntable 230 is rotated, so that the storage rack 220 continues feed inlet Glass 20 after 212 carrying cleanings.The adjacent storage rack 220 for filling glass 20 turns to discharge port 214, with to coating mechanism 300 feed.

Furthermore, it is possible to by the storage rack 220 that makes to be loaded with glass 20 cycle rotation in shell 210 always, to make glass Remaining water evaporation on glass 20.At this point it is possible to heating component and infrared ray component be closed, to save energy consumption.

The coated with glass system 10 of above embodiment at least has the advantages that

(1) in above-mentioned coated with glass system 10, by the way that water removal body 200, and the glass after the cleaning of wiper mechanism 100 is arranged 20 can be transmitted to automatically on water removal body 200, and transfer device 400 can be by the glass 20 after water removal body 200 is dry It is transferred in coating mechanism 300, makes it possible to the glass 20 after one piece dry during coating film, another piece to be cleaned Glass 20 can successively cleaned mechanism 100 and water removal body 200 and cleaned and dried, wait one block of glass 20 to be coated with Cheng Hou, transferred mechanism 400 is transferred in coating mechanism 300 and is coated again for glass 20 after another piece of drying, makes it possible to Be carried out continuously painting work, guarantee the production time of single sheet 20, improve production efficiency, meanwhile, it is dry after glass 20 Water residual is smaller, in favor of improving the effect of subsequent operation, guarantees the quality of product.

(2) water removal body 200 of above-mentioned coated with glass system 10 is provided with shell 210 and storage rack 220, and shell 210 has Spaced feed inlet 212 and discharge port 214, storage rack 220 are contained in shell 210 and are rotatablely connected with shell 210, each Storage rack 220 can turn to discharge port 214 from feed inlet 212, and feed inlet 212 can be turned to from discharge port 214, conveying Mechanism 500 connect with shell 210 and is arranged close to feed inlet 212, and the glass 20 after cleaning is delivered to through feed inlet 212 and is deposited It stores up on frame 220, transfer device 400 is arranged close to discharge port 214, and the glass 20 after drying is transferred to painting through discharge port 214 In cloth mechanism 300, it is evaporated during being transferred to discharge port 214 from feed inlet 212 so that the residual water energy of glass 20 is enough, Both realize it is dry after glass 20 be continuously conveyed, be also conducive to improve the effect of subsequent operation, for example, CF (color filter, Colored filter) yield, guarantee the quality of product.

(3) water removal body 200 of above-mentioned coated with glass system 10 further includes heating component and infrared ray component, so that can Heating and infrared radiation are carried out to glass 20, further increase the water removal effect of glass 20.

(4) storage rack 220 of above-mentioned coated with glass system 10 includes the support plate 222 for placing glass 20, support plate 222 is multiple, and multiple support plates 222 are arranged from bottom 218 close to the direction interval at top 216, so that storage rack 220 is in stratiform Structure, each storage rack 220 can be moved back and forth to the direction close to or far from top 216, so that the equal energy of each support plate 222 Enough close feed inlet 212 or discharge port 214, the lasting supply of the glass 20 after further realizing drying；It can be by making to be loaded with The storage rack 220 of glass 20 cycle rotation in shell 210 always, thus make remaining water evaporation on glass 20, at this point it is possible to Heating component and infrared ray component are closed, to save energy consumption.

It is appreciated that support plate 222 is not limited to abut with conveying mechanism 500, support plate 222 can also be with conveying mechanism 500 interval settings.When support plate 222 and the interval of conveying mechanism 500 are arranged, support plate 222 and the gap of conveying mechanism 500 are small In the width or length of glass 20, can be delivered in support plate 222 through conveying mechanism 500 with glass 20.

It is appreciated that heating component is not limited to heating tube, or other heating components, such as can be heating folder Set.When heating component is heating jacket, heating component is sheathed on shell 210, is removed water with being heated to shell 210 Glass afterwards.

It is appreciated that heating component can be omitted at least one in infrared ray component.It, can be with when heating component is omitted By infrared ray component to 20 infrared radiation of glass.It, can be by heating component to glass 20 when infrared ray component omits It is heated.It, can be by rotation turntable 230 so that glass 20 is in water removing machine when heating component and infrared ray component omit It is persistently rotated in structure 200 and the steam for the glass 20 that volatilizees.

It is appreciated that lifter 240 is not limited to screw rod, or other lifters, such as can be telescopic rod.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of coated with glass system characterized by comprising

Wiper mechanism can clean glass；

Water removal body, the glass after cleaning can be dried, wherein the glass after wiper mechanism cleaning can Automatically it is transmitted on the water removal body；

Coating mechanism, the surface for capableing of the glass after the drying form film layer；And

The glass after the water removal body is dry can be transferred in the coating mechanism by transfer device.

2. coated with glass system according to claim 1, which is characterized in that it further include conveying mechanism, the conveying mechanism Between the wiper mechanism and the water removal body, and can be defeated by the glass after wiper mechanism cleaning It send into the water removal body.

3. coated with glass system according to claim 2, which is characterized in that the water removal body includes shell and for holding The storage rack of the glass is set, the shell has spaced feed inlet and discharge port, the storage rack are contained in the shell In and connect with the housing into rotation, the storage rack at least two, and be spaced setting, the part storage rack is close to described Feed inlet is arranged and can turn to the discharge port, and the part storage rack is arranged close to the discharge port and can turn to The glass after wiper mechanism cleaning can be delivered to by the feed inlet, the conveying mechanism through the feed inlet In the storage rack, institute's glass after the water removal body is dry can be transferred to by the transfer device through the discharge port In the coating mechanism.

4. coated with glass system according to claim 3, which is characterized in that the shell has opposite top and bottom Portion, the feed inlet and the discharge port are close to the top and are arranged, and each storage rack is connect with the lower rotation, Each storage rack includes the support plate for placing the glass, the support plate be it is multiple, multiple support plates from The bottom is arranged close to the direction interval at the top, so that each storage rack is in layer structure, each storage Frame can be moved back and forth to the direction close to or far from the top, so that each support plate can be close to the charging Mouth or the discharge port.

5. coated with glass system according to claim 4, which is characterized in that the water removal body further includes lifter, institute Lifter at least two is stated, each lifter is affixed with each storage rack respectively, so that each storage Frame can be under the driving of each lifter to the direction reciprocating motion close to or far from the top.

6. coated with glass system according to claim 3, which is characterized in that the water removal body further includes turntable, described Turntable is contained in the shell and connect with the housing into rotation, and at least two storage racks are arranged at intervals at the turntable On, and can be rotated under the drive of the turntable.

7. coated with glass system according to claim 6, which is characterized in that the storage rack is four, is deposited described in four Mounting ring is stored up around the turntable and interval setting.

8. coated with glass system according to claim 1, which is characterized in that the transfer device is mechanical arm.

9. coated with glass system according to claim 3, which is characterized in that the water removal body further includes heating component, The heating component and the shell are affixed, and the heating component can dry the glass；And/or

The water removal body further includes infrared ray component, and the infrared ray component is contained in the shell, the infrared ray group Part can dry the glass.

10. a kind of coated with glass system characterized by comprising

Wiper mechanism can clean glass；

Water removal body can dry the glass, and the glass after wiper mechanism cleaning can be transmitted to described remove On water dispenser structure, the water removal body includes shell, turntable, storage rack and heating component for accommodating the glass, the shell Body has spaced feed inlet and discharge port, and the turntable is contained in the shell and connect with the housing into rotation, described Storage rack at least two, the part storage rack are contained in the shell and are arranged at intervals on the turntable, part The storage rack is arranged close to the feed inlet, and the discharge port can be turned under the drive of the turntable, part institute It states storage rack to be arranged close to the discharge port, and the feed inlet, the heating can be turned under the drive of the turntable Component is heating tube, the heating component be contained in it is in the shell and affixed with the shell, the glass can be dried；

Coating mechanism can form film layer on the surface of the glass；

Transfer device is arranged between the water removal body and the coating mechanism, and close to the discharge port, can incite somebody to action The glass after the water removal body is dry is transferred in the coating mechanism；And

Conveying mechanism between the wiper mechanism and the water removal body, and can will be cleaned through the wiper mechanism The glass afterwards is delivered in the water removal body.