CN110318029A - Vertical vacuum coating film on glass line - Google Patents

Abstract

The invention discloses a kind of vertical vacuum coating film on glass lines, the input port for passing in and out frame room is equipped with gate valve, it is additionally provided on disengaging frame room and vacuumizes unit, it passes in and out and is connected between frame room and coating chamber by isolating valve, it passes in and out frame interior and is equipped with Discharge Cleaning component, the disengaging frame interior has the first position of corresponding Discharge Cleaning component, correspond to the second position of isolating valve and the third place for spare bits, further include: first movement device, it is indoor that the first movement device is set to the disengaging frame, first movement device includes: the first movement holder assembly along the longitudinal movement of disengaging frame room；The first transport mechanism being set on mobile holder assembly；The second transport mechanism being set on mobile holder assembly；When first movement holder assembly works, first transport mechanism switches between the first position and the second position, and second transport mechanism switches between the second position and the third place.The present invention has the advantages that improve production efficiency.

Description

Vertical vacuum coating film on glass line

Technical field

The present invention relates to a kind of vertical vacuum coating film on glass lines.

Background technique

Coated glass is divided into normal-temperature vacuum coated glass and high-temperature vacuum coating glass, and in the prior art, vacuum coating is raw Producing line is divided into horizontal vacuum coating film production line and vertical vacuum coating film production line.

Existing vertical vacuum coating film production line includes download area on glass, passes in and out frame room, isolating valve and coating chamber, into The input port of frame room is equipped with gate valve out, passes in and out and is connected between frame room and coating chamber by isolating valve, this coating film production line is to glass The process that glass carries out plated film is as follows:

1) original sheet glass being loaded on the first glass frame, plated film is carried out in coating chamber；

2) after the original sheet glass loaded on the first glass frame completes plated film, isolating valve is opened；

3) after the first glass frame is transferred to disengaging frame room from coating chamber by isolating valve, isolating valve is closed, disengaging frame room is put Atmosphere；

4) gate valve is opened, and the first glass frame is transferred to download area on glass by gate valve, and staff is from the first glass frame After the glass of film has been plated in upper downloading, original sheet glass to be coated is uploaded on the first glass frame, the first glass frame passes through gate valve and passes It is defeated indoor to disengaging frame；

5) gate valve on disengaging frame room is closed, disengaging frame room vacuumizes, and when disengaging frame room vacuum degree reaches setting value, opens Discharge Cleaning power supply, original sheet glass starts Discharge Cleaning on the first glass frame, and the Discharge Cleaning time reaches setting value, Discharge Cleaning Stop；

6) isolating valve is opened, the first glass frame is transferred to coating chamber by isolating valve from disengaging frame room；

7) isolating valve is closed, original sheet glass is loaded on the first glass frame and carries out coating process process, a wheel in coating chamber Load " glass frame " end of transmission of glass.

When the original sheet glass loaded on the first glass frame is in coating chamber it can be seen from the process of above-mentioned steps 1 to step 7 When middle progress plated film, disengaging frame interior is in idle condition, and when original sheet glass is cleaned in disengaging frame interior, coating chamber Interior and be in idle condition, therefore, (original sheet glass enters plated film line vacuum system to coating film production line plated film beat in the prior art System completes coating process process, then is transferred to the time in atmosphere, referred to as plated film pitch time from vacuum system) it is longer, cause The production efficiency of plated film is low.

Summary of the invention

The present invention is intended to provide a kind of vertical vacuum coating film on glass line for improving production efficiency.

Vertical vacuum coating film on glass line, including download area, disengaging frame room, isolating valve and coating chamber on glass, pass in and out frame The input port of room is equipped with gate valve, is additionally provided on disengaging frame room and vacuumizes unit, passes in and out and passes through isolating valve between frame room and coating chamber Connection, disengaging frame interior are equipped with Discharge Cleaning component, the disengaging frame interior have corresponding Discharge Cleaning component first position, Correspond to the second position of isolating valve and the third place for spare bits, further includes:

At least part is set to disengaging frame interior first movement device, and first movement device includes:

Along the first movement holder assembly of disengaging frame room longitudinal movement；

The first transport mechanism being set on mobile holder assembly；

The second transport mechanism being set on mobile holder assembly；

When first movement holder assembly works, first transport mechanism switches between the first position and the second position, institute The second transport mechanism is stated to switch between the second position and the third place.

After the present invention is provided with first movement device in disengaging frame room, when original sheet glass carries out plated film in coating chamber When, the glass frame for being mounted with original sheet glass to be coated can be accepted by first movement device in disengaging frame room, and to glass Former piece electric discharge is cleaned, and original sheet glass is made to get out plated film.It is completed in the indoor original sheet glass plated film of plated film and is transported to It, can be by the original sheet glass washed positioned at the first transport mechanism supernatant immediately by first movement device after in two transport mechanisms It is sent in coating chamber and carries out plated film.Therefore, after the present invention is provided with first movement device in disengaging frame room, first is avoided When the original sheet glass loaded on glass frame carries out plated film in coating chamber, disengaging frame interior is in idle condition, and in disengaging frame When original sheet glass is cleaned in interior, the problem of being in idle condition in coating chamber again, the invention enables disengaging frame room and platings Film room is in working condition.Obviously, after the present invention is provided with first movement device in disengaging frame room, plated film beat is shortened Time, compared with the vertical vacuum coating film production line in background technique, plated film pitch time reduces 50% or so, thus plated film is raw It produces efficiency and improves 100% or so.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of vertical vacuum coating film on glass line of the invention；

Fig. 2 is the top view of disengaging the frame interior and first movement device in the present invention；

Fig. 3 is the top view of the second mobile device in the present invention

Fig. 4 is the schematic diagram of the gate valve in the present invention；

Label in attached drawing:

A is download area on glass, and A1 is the 4th position, and A2 is the 5th position, and A3 is the 6th position, and B is disengaging frame room, B1 For first position, B2 is the second position, and B3 is the third place, and C is isolating valve, and D is coating chamber, and E is gate valve, and F is evacuator Group, G are Discharge Cleaning component, and 100 be the first glass frame, and 200 be the second glass frame, and 300 be third glass frame；

1 is hermatic door, and 2 be connecting plate, and 3 be rotation axis, and 4 be gear, and 5 be rack gear, and 6 be linear actuator, and 7 be support Plate, 8 be axis, and 9 be pinch roller；

10 be the first guide rail, and 11 be first movement seat, and 12 be the first driver, and 13 be first axle, and 14 be the first transmission wheel, 15 be first motor, and 15a is the first transmission shaft, and 16 be the first belt, and 17 be the second axis, and 18 be the second transmission wheel, and 19 be second Motor, 19a second driving shaft, 20 be the second belt, and 21 be the first frame body, and 22 be the first mounting plate, and 23 be the first magnetic part, 24 be the first guide channel, and 25 be the second frame body, and 26 be the second mounting plate, and 27 be the second magnetic part, and 28 is logical for the second guiding Road, 29 be first bearing holder assembly；

30 be the second guide rail, and 31 be the second Mobile base, and 32 be the second driver, and 33 be third axis, and 34 be third transmission wheel, 35 be third motor, and 36 be third belt, and 37 be the 4th axis, and 38 be the 4th transmission wheel, and 39 be the 4th motor, and 40 be the 4th skin Band, 41 be third frame body, and 42 be third mounting plate, and 43 be third magnetic part, and 44 be third guide channel, and 45 be the 4th frame Body, 46 be the 4th mounting plate, and 47 be the 4th magnetic part, and 48 be the 4th guide channel, and 49 be second bearing holder assembly.

Specific embodiment

As shown in Figure 1, vertical vacuum coating film on glass line of the invention, including download area A, disengaging frame room B, isolation on glass Valve C and coating chamber D, first movement device, the relationship to every part and between them is described in detail below:

As depicted in figs. 1 and 2, the input port for passing in and out frame room B is equipped with gate valve E, and the gate valve E includes: hermatic door 1, connection Plate 2, rotation axis 3, gear 4, rack gear 5, linear actuator 6, one end of hermatic door 1 and disengaging frame room B are hinged, hermatic door 1 around with When passing in and out the rotation of the frame room hinged place B, the input port of disengaging frame room B is opened or closed, one end of connecting plate 2 and hermatic door 1 Be fixedly connected, the other end of connecting plate 2 is fixedly connected with rotation axis 3, rotation axis 3 by bearing assembly support, bearing assembly with Disengaging frame room B is fixed, and the gear 4 and one end of rotation axis 3 are fixed, and rack gear 5 and gear 4 are intermeshed, and rack gear 5 and straight line drive The output end connection of dynamic device 6.

As depicted in figs. 1 and 2, linear actuator 6 is fixed on the top of disengaging frame room B, and linear actuator 6 makes tooth when working Item 5 is mobile, and rack gear 5 drives gear 4 to rotate, and gear 4 drives to be rotated with the fixed rotation axis 3 of the gear 4, and rotation axis 3, which drives, to be connected Fishplate bar 2 is swung, so that hermatic door 1 be driven to rotate around with the disengaging frame room hinged place B, hermatic door 1 opens or closes disengaging frame room B's Input port.

As depicted in figs. 1 and 2, the gate valve E further includes the holding component for engaging acquisition and keeping for making rack gear 5 with gear 4, Rack gear 5, which is located at, to be kept between component and gear 4.Keeping component includes support plate 7, axis 8 and pinch roller 9, one end of support plate 7 with Disengaging frame room B is fixedly connected, and one end of axis 8 is fixedly connected with support plate 7, and pinch roller 9 is arranged on axis 8, it is preferable that pinch roller 9 can It is rotatably mounted on axis 8, i.e., pinch roller 9 is rotated using the axle center of axis 8 as the centre of gyration.The circumferential surface of pinch roller 9 is equipped with annular Groove, the height of the groove is equal with the height of rack gear 5, and the groove gap on rack gear 5 and pinch roller 9 cooperates.

As shown in figures 1 and 3, it passes in and out to be additionally provided on the B of frame room and vacuumizes unit F, pass in and out and lead between frame room B and coating chamber D Isolating valve C connection is crossed, Discharge Cleaning component G is equipped in disengaging frame room B, there is corresponding Discharge Cleaning group in the disengaging frame room B The first position B1 of part, the second position B2 of corresponding isolating valve C and the third place B3 for spare bits, the first movement dress At least part set is set in the disengaging frame room B.

As shown in figures 1 and 3, first movement device includes: the first movement seat group along disengaging frame room B longitudinal movement Part, the first transport mechanism being set on mobile holder assembly, the second transport mechanism being set on mobile holder assembly, first movement When holder assembly works, first transport mechanism switches between first position B1 and second position B2, second conveyer Structure switches between second position B2 and the third place B3.

As shown in figures 1 and 3, after being provided with first movement device in the disengaging frame room B on coating wire, the coating wire The course of work are as follows:

Step 1, when the original sheet glass on the first glass frame 100 carries out plated film work in coating chamber D, the first transport mechanism On loaded the second glass frame 200 equipped with original sheet glass, at this moment isolating valve C is in close state.First transport mechanism follows Mobile holder assembly is moved to first position B1 and is located at after the second transmission mechanism follows mobile holder assembly to be moved to second position B2 The original sheet glass on the second glass frame 200 in first transport mechanism carries out Discharge Cleaning, i.e. Discharge Cleaning in disengaging frame room B The original sheet glass on the second glass frame 200 is cleaned in component G work.Second transport mechanism is light condition, i.e., second passes Mechanism is sent to be in the free time.

Step 2, after the completion of the coating film on glass on the first glass frame 100, the Discharge Cleaning component G passed in and out in the B of frame room stops Discharge Cleaning.Isolating valve C is opened, the first glass frame 100 is sent in the second transport mechanism.First transport mechanism follows movement Holder assembly is moved to second position B1, and the second transport mechanism follows mobile holder assembly to be moved to the third place B3, the first conveyer The second glass frame 200 on structure is transmitted in coating chamber D by the first transport mechanism, closing isolating valve C, on the second glass frame 200 The original sheet glass of loading carries out plated film in coating chamber D.

Step 3, open gate valve E, on glass download area A and be mounted with original sheet glass third glass frame 300 it is defeated It is sent in the first transport mechanism.First transport mechanism follows mobile holder assembly to be moved to first position B1, the second transport mechanism with It is moved to second position B2 with mobile holder assembly, the first glass frame 100 is output to download area A on glass by the second transport mechanism.

Step 4, gate valve E is closed, disengaging frame room B is vacuumized, the original sheet glass on third glass frame 300 is passing in and out Discharge Cleaning is carried out in the B of frame room.So recycled between step 1 to 4.

When carrying out when original sheet glass plated film in coating chamber D it can be seen from the above-mentioned course of work, in disengaging frame room B The glass frame for being mounted with original sheet glass to be coated can be accepted by first movement device, and original sheet glass electric discharge is carried out clear It washes, original sheet glass is made to get out plated film.It completes and is transported in the second transport mechanism in the original sheet glass plated film in coating chamber D Afterwards, the original sheet glass that the first transport mechanism supernatant washes can will be located at by first movement device and is immediately fed into coating chamber Middle carry out plated film.Therefore, it after the present invention is provided with first movement device in disengaging frame room, avoids and is loaded on the first glass frame Original sheet glass when carrying out plated film in coating chamber, disengaging frame interior is in idle condition, and in disengaging frame interior to glass original When piece is cleaned, the problem of being in idle condition in coating chamber again, i.e., disengaging frame room and coating chamber are in working condition, show So, after the present invention is provided with first movement device in disengaging frame room, plated film pitch time is shortened.

As shown in figures 1 and 3, the first movement holder assembly includes: the first guide rail 10, the drive of first movement seat 11, first Dynamic device 12, the first guide rail 10 are fixed on the bottom in disengaging frame room B, and 10 both ends of the first guide rail are prolonged along the longitudinal direction of disengaging frame room B It stretches, first movement seat 11 is slidably fitted on the first guide rail 10.First driver 12 drives first movement seat 11 along described first Guide rail 10 is mobile, and the first driver 12 is connect with first movement seat 11.First driver 12 is cylinder, straight-line electric is mechanical, electrical One of dynamic screw body.First driver 12 can also use oil cylinder, straight line cylinder isoline driving mechanism.

As shown in figures 1 and 3, first transport mechanism includes first axle 13, the first transmission wheel 14, the first driver Structure, one end of first axle 13 are installed in rotation on first movement holder assembly, and one end of first axle 13 is installed in rotation on On first movement seat 11, first axle 13 is supported by first bearing holder assembly 29；First transmission wheel 14 is fixed on first axle 13 The other end.

As shown in figures 1 and 3, the first transmission mechanism driving first axle 13 rotates, first transmission mechanism and first axle 13 Connection, driving mechanism include first motor 15 and the first belt 16, first axle 13 at least there are two, the output of first motor 15 End is connect with one of first axle 13, and the first belt 16 cooperates with first axle 13, and driving connects therewith when first motor 15 works The first axle 13 connect rotates, and transmits power by the first belt 16, makes remaining first axle 13 also synchronous rotary.First Outside disengaging frame room B, first motor 15 is connect by the first transmission shaft 15a with first axle 13 setting of motor 15, and described first Axis 13 is hollow shaft, and the end of the first transmission shaft 15a extend into the inner hole of first axle 13, the first transmission shaft 15a and the One axis 13 is equipped with sealing ring by spline fitted, the first transmission shaft 15a and disengaging frame room B.

As shown in figures 1 and 3, second transport mechanism includes the second axis 17, the second transmission wheel 18, the second driver One end of structure, the second axis 17 is installed in rotation on first movement holder assembly, and one end of the second axis 17 is installed in rotation on On first movement seat 11, the second axis 17 is supported by first bearing holder assembly 29；Second transmission wheel 18 is fixed on the second axis 17 The other end.

As shown in figures 1 and 3, the second transmission mechanism drives the rotation of the second axis 17, second transmission mechanism and the second axis 17 Connection, driving mechanism include the second motor 19 and the second belt 20, the second axis 17 at least there are two, the output of the second motor 19 End is connect with one of them second axis 17, and the second belt 20 and the second axis 17 cooperate, and driving connects therewith when the second motor 20 works The second axis 17 rotation connect, power is transmitted, make remaining second axis 17 also synchronous rotary by the second belt 20.

Outside disengaging frame room B, the second motor 19 is connected the setting of second motor 19 by second driving shaft 19a and the second axis 17 It connects, second axis 17 is hollow shaft, and the end of the second driving shaft 19a is extend into the inner hole of the second axis 17, and second passes Moving axis 19a and the second axis 17 are equipped with sealing ring in the first transmission shaft 15a and disengaging frame room B by spline fitted.

Above-mentioned first transmission mechanism and the second transmission mechanism can also be made of motor, sprocket wheel and chain, or by electricity Machine, synchronizing wheel and synchronous belt composition.

First movement device further include: the first leading truck and the second leading truck, the first leading truck and the second leading truck difference The end of glass frame is oriented to.

As shown in figures 1 and 3, one end of the first leading truck is fixed with first movement holder assembly, the first leading truck it is another End is located at the top of the first transport mechanism.First leading truck include the first frame body 21, the first guidance set, the one of the first frame body 21 End position is fixedly connected with first movement seat 11, and the first guidance set is fixed on the other end of the first frame body 21.First guidance set Including two spaced apart first mounting plates 22 and the first magnetic part 23, on the opposite end face of two the first mounting plates 22 It is respectively and fixedly provided with the first magnetic part 23, the magnetism of the opposite one end of two the first magnetic parts 23 is identical, in two first magnetism The first guide channel 24 is formed between component 23, when the upper end of glass frame enters in the first guide channel 24, passes through two The repulsion force that first magnetic part 23 generates, makes the upper end of glass frame be located at the middle position of the first guide channel 24.

As shown in figures 1 and 3, one end of the second leading truck is fixed with first movement holder assembly, the second leading truck it is another End is located at the top of the second transport mechanism.Second leading truck include the second frame body 25, the second guidance set, the one of the second frame body 25 End position is fixedly connected with first movement seat 11, and the second guidance set is fixed on the other end of the second frame body 25.Second guidance set Including two spaced apart second mounting plates 26 and the second magnetic part 27, on the opposite end face of two the second mounting plates 26 It is respectively and fixedly provided with the second magnetic part 27, the magnetism of the opposite one end of two the second magnetic parts 27 is identical, in two second magnetism The second guide channel 28 is formed between component 27, when the upper end of glass frame enters in the second guide channel 28, passes through two The repulsion force that second magnetic part 27 generates, makes the upper end of glass frame be located at the middle position of the second guide channel 28.

As shown in Figure 1 and Figure 4, download area A includes: to move along be parallel to disengaging frame room B longitudinal movement second on glass Dynamic device, the 4th position A1 for spare bits, the 5th position A2 corresponding to disengaging frame room gate valve E and be the 6th of spare bits Position A3.Second mobile device includes: to move holder assembly along the second of the longitudinal movement of disengaging frame room, be set to and move holder assembly On third transport mechanism, the 4th transport mechanism that is set on mobile holder assembly.When the second Mobile base component operation, described Three transport mechanisms switch between the 4th position and the 5th position, the 4th transport mechanism the 5th position and the 6th position it Between switch.

As shown in Figure 1 and Figure 4, the described second mobile holder assembly includes: the second guide rail 30, the drive of the second Mobile base 31, second Dynamic device 32,30 both ends of the second guide rail extend along the longitudinal of disengaging frame room B is parallel to, and the second Mobile base 31 is slidably fitted in second On guide rail 30；Second driver 32 drives the second Mobile base 31 to move along second guide rail 30, the second driver 32 and second Mobile base 31 connects.Second driver 32 is one of cylinder, linear motor, electronic screw body.Second driver 32 can also use oil cylinder, straight line cylinder isoline driving mechanism.

As shown in Figure 1 and Figure 4, the third transport mechanism includes third axis 33, third transmission wheel 34, third driver Structure, one end of third axis 33 are installed in rotation on the second mobile holder assembly, and one end of third axis 33 is installed in rotation on On second Mobile base 31, third axis 33 is supported by second bearing holder assembly 49；Third transmission wheel 34 is fixed on third axis 33 The other end.

As shown in Figure 1 and Figure 4, third transmission mechanism driving third axis 33 rotates, the third transmission mechanism and third axis 33 Connection, driving mechanism include third motor 35 and third belt 36, third axis 33 at least there are two, the output of third motor 35 End is connect with one of third axis 33, and third belt 36 and third axis 33 cooperate, and driving connects therewith when third motor 35 works The third axis 33 connect rotates, and transmits power by third belt 36, makes remaining third axis 33 also synchronous rotary.

As shown in Figure 1 and Figure 4, the 4th transport mechanism includes the 4th axis 37, the 4th transmission wheel 38, the 4th driver Structure, one end of the 4th axis 37 are installed in rotation on the second mobile holder assembly, and one end of the 4th axis 37 is installed in rotation on On second Mobile base 31, the 4th axis 37 is supported by second bearing holder assembly 49；4th transmission wheel 38 is fixed on the 4th axis 37 The other end.

As shown in Figure 1 and Figure 4, the 4th transmission mechanism drives the rotation of the 4th axis 37, the 4th transmission mechanism and the 4th axis 37 Connection, driving mechanism include the 4th motor 39 and the 4th belt 40, the 4th axis 37 at least there are two, the output of the 4th motor 39 End is connect with one of them the 4th axis 37, and the 4th belt 40 and the 4th axis 37 cooperate, and driving connects therewith when the second motor 20 works The 4th axis 37 rotation connect, power is transmitted, make remaining the 4th axis 37 also synchronous rotary by the 4th belt 40.

Above-mentioned third transmission mechanism and the 4th transmission mechanism can also be made of motor, sprocket wheel and chain, or by electricity Machine, synchronizing wheel and synchronous belt composition.

Second mobile device further include: third leading truck and the 4th leading truck, third leading truck and the 4th leading truck difference The end of glass frame is oriented to.

As shown in Figure 1 and Figure 4, one end of third leading truck is fixed with the second mobile holder assembly, third leading truck it is another End is located at the top of third transport mechanism.Third leading truck includes third frame body 41, third guidance set, and the one of third frame body 41 End position is fixedly connected with the second Mobile base 31, and third guidance set is fixed on the other end of third frame body 41.Third guidance set Including two spaced apart third mounting plates 42 and third magnetic part 43, on the opposite end face of two third mounting plates 42 It is respectively and fixedly provided with third magnetic part 43, the magnetism of the opposite one end of two third magnetic parts 43 is identical, in two third magnetism Third guide channel 44 is formed between component 43 passes through two when the upper end of glass frame enters in third guide channel 44 The repulsion force that third magnetic part 43 generates, makes the upper end of glass frame be located at the middle position of third guide channel 44.

As shown in Figure 1 and Figure 4, one end of the 4th leading truck is fixed with the second mobile holder assembly, the 4th leading truck it is another End is located at the top of the 4th transport mechanism.4th leading truck include the 4th frame body 45, the 4th guidance set, the one of the 4th frame body 45 End position is fixedly connected with the second Mobile base 31, and the 4th guidance set is fixed on the other end of the 4th frame body 45.4th guidance set Including two spaced apart 4th mounting plates 46 and the 4th magnetic part 47, on the opposite end face of two the 4th mounting plates 46 It is respectively and fixedly provided with the 4th magnetic part 47, the magnetism of the opposite one end of two the 4th magnetic parts 47 is identical, in two the 4th magnetism The 4th guide channel 48 is formed between component 47 passes through two when the upper end of glass frame enters in the 4th guide channel 48 The repulsion force that 4th magnetic part 47 generates, makes the upper end of glass frame be located at the middle position of the 4th guide channel 48.

As shown in Figure 1 and Figure 4, download area A further includes glass stand 50 on glass, and glass stand 50 is located at the second mobile dress The glass frame for being mounted with original sheet glass is transported in the second mobile device by the upstream set, glass stand 50, or is received and come from In the glass frame for being mounted with coated glass in the second mobile device.

The course of work of download area A on glass are as follows:

The first glass frame 100 for loading coated glass is transported to the 4th biography from the second transport mechanism in disengaging frame room B After sending in mechanism, the first glass frame 100 is transmitted on glass stand 50 by the 4th transport mechanism.Third transport mechanism follows second Mobile holder assembly is moved to the 5th position A2, and the 4th transport mechanism follows the second mobile holder assembly to be moved to the 6th position A3, position It is transmitted in disengaging frame room B in the third glass frame 300 in third transport mechanism by third transport mechanism, third glass frame 300 are transported in the first transport mechanism.The glass frame for being mounted with sheet glass is transmitted to third transmission by glass stand 50 In mechanism, third transport mechanism follows the second mobile holder assembly to be moved to the 4th position A1, and the 4th transport mechanism follows the second shifting Dynamic holder assembly is moved to the 5th position A2.It is so recycled according to the above process.

The present invention is not limited to the above embodiments, for example, first motor 15 is replaced using the first rotary cylinder, the second motor 19 are replaced using the second rotary cylinder, and the first rotary cylinder and the second rotary cylinder are located at the inside for passing in and out frame room B, the first rotation Cylinder is connect with first axle 13, and the second rotary cylinder is connect with the second axis 17.

Claims (10)

1. vertical vacuum coating film on glass line, including download area, disengaging frame room, isolating valve and coating chamber on glass, pass in and out frame room Input port be equipped with gate valve, pass in and out and be additionally provided on frame room and vacuumize unit, pass in and out between frame room and coating chamber through isolating valve company It connects, disengaging frame interior is equipped with Discharge Cleaning component, which is characterized in that the disengaging frame interior has corresponding Discharge Cleaning component First position, the second position of corresponding isolating valve and the third place for spare bits, further includes:

At least part is set to disengaging frame interior first movement device, and first movement device includes:

Along the first movement holder assembly of disengaging frame room longitudinal movement；

The first transport mechanism being set on mobile holder assembly；

The second transport mechanism being set on mobile holder assembly；

When first movement holder assembly works, first transport mechanism switches between the first position and the second position, and described the Two transport mechanisms switch between the second position and the third place.

2. vertical vacuum coating film on glass line according to claim 1, which is characterized in that the first movement holder assembly packet It includes:

It is fixed on the first guide rail of disengaging frame interior bottom, the first guideway both ends extend along the longitudinal of disengaging frame room；

First movement seat, first movement seat are slidably fitted on the first guide rail；

The first driver that driving first movement seat is moved along first guide rail, the first driver are connect with first movement seat.

3. vertical vacuum coating film on glass line according to claim 1, which is characterized in that first transport mechanism includes:

First axle, one end of the first axle are installed in rotation on first movement holder assembly；

First transmission wheel, the first transmission wheel are fixed on the other end of first axle；

Drive the first transmission mechanism of first axle rotation, first transmission mechanism and the first axis connection.

4. vertical vacuum coating film on glass line according to claim 1, which is characterized in that second transport mechanism includes:

Second axis, one end of second axis are installed in rotation on first movement holder assembly；

Second transmission wheel, the second transmission wheel are fixed on the other end of the second axis；

The second transmission mechanism for driving the second axis to rotate, second transmission mechanism and the first axis connection.

5. according to claim 1 to vertical vacuum coating film on glass line described in one of 4, which is characterized in that first movement device is also It include: the first leading truck, one end and the first movement holder assembly of the first leading truck are fixed, and the other end of the first leading truck is located at the The top of one transport mechanism；

Second leading truck, one end and the first movement holder assembly of the second leading truck are fixed, and the other end of the second leading truck is located at the The top of two transport mechanisms.

6. according to claim 1 to vertical vacuum coating film on glass line described in one of 4, which is characterized in that download area is wrapped on glass Include: along be parallel to disengaging frame room longitudinal movement the second mobile device, for spare bits the 4th position, correspond to disengaging frame room 5th position of gate valve and the 6th position for spare bits；Second mobile device includes:

Holder assembly is moved along the second of the longitudinal movement of disengaging frame room；

The third transport mechanism being set on mobile holder assembly；

The 4th transport mechanism being set on mobile holder assembly；

When the second Mobile base component operation, the third transport mechanism switches between the 4th position and the 5th position, and described Four transport mechanisms switch between the 5th position and the 6th position.

7. vertical vacuum coating film on glass line according to claim 6, which is characterized in that the described second mobile holder assembly packet It includes:

Second guide rail, the second guideway both ends extend along the longitudinal of disengaging frame room is parallel to；

Second Mobile base, the second Mobile base are slidably fitted on the second guide rail；

The second driver for driving the second Mobile base to move along second guide rail, the second driver are connect with the second Mobile base.

8. vertical vacuum coating film on glass line according to claim 6, which is characterized in that the third transport mechanism includes:

Third axis, one end of the third axis are installed in rotation on the second mobile holder assembly；

Third transmission wheel, third transmission wheel are fixed on the other end of third axis；

Drive the third transmission mechanism of third axis rotation, the third transmission mechanism and third axis connection.

9. vertical vacuum coating film on glass line according to claim 6, which is characterized in that the 4th transport mechanism includes:

4th axis, one end of the 4th axis are installed in rotation on the second mobile holder assembly；

4th transmission wheel, the 4th transmission wheel are fixed on the other end of the 4th axis；

The 4th transmission mechanism for driving the 4th axis to rotate, the 4th transmission mechanism and the 4th axis connection.

10. vertical vacuum coating film on glass line according to claim 6, which is characterized in that the second mobile device further include:

Third leading truck, one end of third leading truck are fixed with the second mobile holder assembly, and the other end of third leading truck is located at the The top of three transport mechanisms；

4th leading truck, one end of the 4th leading truck are fixed with the second mobile holder assembly, and the other end of the 4th leading truck is located at the The top of four transport mechanisms.