CN215197786U - Automatic AG spraying machine - Google Patents

Abstract

The utility model discloses an automatic AG spraying machine, which comprises a supporting base, wherein a supporting platform is arranged on the supporting base, a conveying unit, a spraying unit and a preheating unit positioned at the input end part of the conveying unit are arranged on the supporting platform, a film coating supply unit is arranged at the input side of the conveying unit on the supporting base, and a film coating recovery unit is arranged at the output side of the conveying unit on the supporting base; the spraying unit comprises a spraying support frame arranged on a support platform, a spraying multi-shaft driving assembly is arranged on the spraying support frame, the output end of the spraying multi-shaft driving assembly is connected with a spraying mounting frame, and a plurality of spray heads are arranged on the spraying mounting frame. The utility model discloses a preheating unit, spraying unit and conveying unit's setting can carry out high quality and stable spraying to glass and handle. The spray head can be moved in multiple dimensions by arranging the spraying multi-axis driving assembly, so that the uniform and complete spraying effect is achieved.

Description

Automatic AG spraying machine

Technical Field

The utility model belongs to the technical field of the glass surface treatment technique and specifically relates to an automatic AG flush coater is related to.

Background

An AG spraying machine is an anti-glare spraying machine, and is used for spraying liquid (AG liquid medicine) on the surface of glass, so that the mirror reflection of the surface of the glass is changed into diffuse reflection, the effects of preventing glare and dazzling can be achieved, and better visual enjoyment is created.

The existing AG spraying machine is provided with a conveying structure and a spraying structure, wherein the conveying structure is used for conveying glass, and a conveying belt is mostly adopted as a transmission structure; the spraying structure is used for spraying treatment, and through the matching of the spraying structure and the conveying structure, the glass can be uniformly and completely sprayed. But has the following problems: 1. in the spraying process, AG liquid medicine will be sprayed on the conveying belt, so that the conveying belt is polluted by the coating, and subsequent glass spraying treatment is influenced. 2. In the spraying process, more waste gas is generated, and air pollution is easily caused due to the lack of a special gas collecting device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the problems in the prior art and provide an automatic AG spraying machine, which can perform high-quality and stable spraying treatment on glass by the arrangement of a preheating unit, a spraying unit and a conveying unit; by arranging the film coating supply unit and the film coating recovery unit, the film coating treatment can be carried out on the conveying belt so as to protect the conveying belt from being polluted by AG liquid medicine; and the used film can be recycled and rolled.

The purpose of the utility model is mainly realized through the following technical scheme:

an automatic AG spraying machine comprises a supporting base, wherein a supporting platform is arranged on the supporting base, a conveying unit, a spraying unit and a preheating unit positioned at the input end part of the conveying unit are arranged on the supporting platform, a coating supply unit is arranged at the input side of the conveying unit of the supporting base, and a coating recovery unit is arranged at the output side of the conveying unit of the supporting base;

the conveying unit comprises a conveying frame arranged on the supporting platform, and a conveying belt and a belt conveying driving assembly used for driving the conveying belt to drive are arranged on the conveying frame in a transmission manner;

the preheating unit comprises a preheater arranged on the supporting platform, and the preheater is provided with a preheater through hole through which the conveying frame can pass;

the spraying unit comprises a spraying support frame arranged on the support platform, a spraying multi-shaft driving assembly is arranged on the spraying support frame, the output end of the spraying multi-shaft driving assembly is connected with a spraying mounting frame, and a plurality of spray heads are arranged on the spraying mounting frame;

tectorial membrane supply unit and tectorial membrane recovery unit all include tectorial membrane supporting component, tectorial membrane supporting component is including supporting the slide, be provided with on the support slide can with support base complex slide gyro wheel, install tectorial membrane fixed bolster on the support slide, rotationally install the tectorial membrane back shaft on the tectorial membrane fixed bolster, it still detachably installs the terminal tectorial membrane activity support frame that is used for supporting the tectorial membrane back shaft to support the slide, slide positioning hole has been seted up on the support slide, set up the location fixed orifices that can correspond with slide positioning hole on the support base, tectorial membrane supporting component still includes can run through slide positioning hole and base location fixed orifices complex locating lever slide, install on the tectorial membrane fixed bolster of tectorial membrane recovery unit and be used for driving tectorial membrane back shaft pivoted back shaft drive assembly.

Furthermore, a supporting protection frame is arranged on the supporting platform;

a plurality of groups of fan filter units are arranged on the supporting and protecting frame;

the support platform is provided with two platform gaps which are respectively positioned at the left side and the right side of the conveying frame, the support base is provided with two gas collecting boxes which are respectively positioned at the gaps of the two platforms, a sieve plate is arranged in each gas collecting box, and the sieve plate is provided with a plurality of gas collecting through holes communicated with the inner cavity of each gas collecting box.

Further, spraying multiaxis drive assembly includes Z axle arm, and the output of Z axle arm is connected with X axle arm, and the output of X axle arm is connected with Y axle alignment jig, is connected with rotationally Y axle adjusting screw on the Y axle alignment jig, and the cooperation has Y axle adjusting nut on the Y axle adjusting screw, and Y axle adjusting nut connects on the spraying mounting bracket.

Furthermore, the film supply unit and the film recovery unit are both provided with two oppositely arranged limiting guide rails on the support base, the area between the two limiting guide rails is an embedding area, and the support sliding plate can slide in the embedding area;

the support sliding plate is provided with a limit convex strip which can be matched with the limit guide rail.

Furthermore, both sides of the supporting sliding plate are provided with guide rail rollers which can be matched with the limiting guide rails.

Furthermore, the top end of the limiting guide rail is provided with a guide rail limiting strip which can be matched with the sliding plate roller.

Further, a magnetic powder brake is further arranged on the film covering supporting shaft.

Furthermore, the tectorial membrane activity support frame is last to install can with tectorial membrane back shaft complex supporting roller.

Furthermore, still detachably be connected with two spacing dishes of axle on the tectorial membrane back shaft.

Furthermore, the supporting shaft driving assembly comprises a supporting shaft driving device, a supporting shaft driving wheel connected to the output end of the supporting shaft driving device and a supporting shaft driven wheel connected to the film covering supporting shaft;

the supporting shaft driving assembly further comprises a supporting shaft transmission belt sleeved on the supporting shaft driving wheel and the supporting shaft driven wheel.

The utility model discloses following beneficial effect has:

1. the utility model discloses a preheating unit, spraying unit and conveying unit's setting can carry out high quality and stable spraying to glass and handle. The spray head can be moved in multiple dimensions by arranging the spraying multi-axis driving assembly, so that the uniform and complete spraying effect is achieved.

2. The utility model can carry out film coating treatment on the conveying belt through the arrangement of the film coating supply unit and the film coating recovery unit, so as to protect the conveying belt from being polluted by AG liquid medicine; and the used film can be recycled and rolled.

3. The utility model discloses a fan filter unit and the setting of collection gas tank can carry out the efficient to waste gas and collect the processing, avoid appearing air pollution's problem.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings required for describing the embodiments of the present invention will be briefly described below. It is obvious that the drawings in the following description are only some of the embodiments described in the present application, and that other drawings can be derived from the following drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an embodiment of an automatic AG spraying machine according to the present invention;

fig. 2 is a schematic structural diagram of a specific embodiment of a spraying unit, a conveying unit and a preheating unit in an automatic AG spraying machine according to the present invention;

fig. 3 is a schematic structural diagram of an embodiment of a conveying unit in an automatic AG spraying machine according to the present invention;

fig. 4 is a schematic structural diagram of a specific embodiment of a film supply unit in an automatic AG spraying machine according to the present invention;

fig. 5 is a schematic structural diagram of a specific embodiment of a film supply unit in an automatic AG spraying machine according to the present invention;

fig. 6 is a schematic structural diagram of a specific embodiment of a film recovery unit in an automatic AG spraying machine according to the present invention;

fig. 7 is a schematic structural diagram of a specific embodiment of a film recovery unit in an automatic AG spraying machine according to the present invention;

fig. 8 is a schematic structural diagram of a specific embodiment of a slide positioning rod in an automatic AG spraying machine according to the present invention;

fig. 9 is a schematic structural view of an embodiment of a gas collecting box and a conveying frame in an automatic AG spraying machine according to the present invention;

fig. 10 is a schematic structural view of an embodiment of a gas collecting box and a conveying frame in an automatic AG spraying machine according to the present invention;

fig. 11 is a schematic structural diagram of a specific embodiment of a conveying frame in an automatic AG spraying machine according to the present invention.

Wherein, the part names corresponding to the reference numbers are as follows: 1. a supporting base, 2, a limiting guide rail, 3, a supporting sliding plate, 4, a sliding plate roller, 5, a film-covering fixed supporting frame, 6, a film-covering supporting shaft, 7, a film-covering movable supporting frame, 8, a base positioning fixing hole, 9, a sliding plate positioning through hole, 10, a sliding plate positioning rod, 11, a guide rail roller, 12, a guide rail limiting strip, 13, a magnetic powder brake, 14, a supporting roller, 15, a shaft limiting disc, 16, a supporting shaft driving device, 17, a supporting shaft driving wheel, 18, a supporting shaft driven wheel, 19, a supporting shaft transmission belt, 20, a limiting disc hollow out, 21, a sliding plate handle, 22, a supporting frame locking rod, 23, a locking rod handle, 24, a positioning rod handle, 25, a supporting platform, 26, a transmission frame, 27, a transmission belt, 28, a preheater, 29, a preheater through hole, 30, a spraying supporting frame, 31, a spraying mounting frame, 32, a nozzle, 33 and a supporting protection frame, 34. fan filter unit, 35, platform gap, 36, gas collection box, 37, gas collection through hole, 38, Z-axis mechanical arm, 39, X-axis mechanical arm, 40, Y-axis adjusting frame, 41, Y-axis adjusting screw, 42, transfer joint, 43, operation screen, 44, partition plate, 45, protective door, 46, partition plate clearance port, 47, Y-axis guide rod, 48, spray head connecting piece, 49, main transmission shaft, 50, auxiliary transmission shaft, 51, belt driving motor, 52, driving wheel, 53, driving driven wheel, 54, driving transmission belt, 55, adjusting handle, 56, tension supporting frame, 57, film tension roller, 58, limit convex strip, 59, belt supporting plate, 60, sieve plate, 61, unused film roll, 62, used waste film roll, 63, glass to be processed, 64, film, 65, synchronizing rod, 66, Z-axis, mounting frame 67, Z-axis transmission belt, 68. and a Z-axis driving device.

Detailed Description

In order to make those skilled in the art better understand the present invention, the technical solutions in the embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be apparent that the embodiments described below are only some, but not all embodiments of the present invention. Based on the embodiments recorded in the present invention, all other embodiments obtained by those skilled in the art without creative efforts are all within the scope of the present invention.

Example 1

As shown in fig. 1 to 11, an automatic AG spraying machine includes a supporting base 1, a supporting platform 25 is installed on the supporting base 1, a conveying unit, a spraying unit and a preheating unit located at an input end of the conveying unit are arranged on the supporting platform 25, a coating film supply unit is arranged at an input side of the conveying unit on the supporting base 1, and a coating film recovery unit is arranged at an output side of the conveying unit on the supporting base 1;

the conveying unit comprises a conveying frame 26 arranged on the supporting platform 25, a conveying belt 27 and a belt conveying driving assembly for driving the conveying belt 27 to drive are arranged on the conveying frame 26 in a transmission manner;

the preheating unit comprises a preheater 28 mounted on the support platform 25, the preheater 28 having preheater openings 29 through which the conveyor 26 can pass;

the spraying unit comprises a spraying support frame 30 arranged on the support platform 25, a spraying multi-axis driving assembly is arranged on the spraying support frame 30, the output end of the spraying multi-axis driving assembly is connected with a spraying mounting frame 31, and a plurality of spray heads 32 are arranged on the spraying mounting frame 31;

tectorial membrane supply unit and tectorial membrane recovery unit all include tectorial membrane supporting component, tectorial membrane supporting component is including supporting slide 3, be provided with on the supporting slide 3 can with support 1 complex slide gyro wheel 4 of base, install tectorial membrane fixed bolster 5 on the supporting slide 3, rotationally install tectorial membrane back shaft 6 on the tectorial membrane fixed bolster 5, supporting slide 3 still detachably installs and is used for supporting the terminal tectorial membrane movable support frame 7 of tectorial membrane back shaft 6, slide positioning hole 9 has been seted up on the supporting slide 3, set up the location fixed orifices 8 that can correspond with slide positioning hole 9 on the supporting base 1, tectorial membrane supporting component still includes can run through slide positioning hole 9 and 8 complex slide locating lever 10 of base location fixed orifices, install on tectorial membrane fixed bolster 5 of tectorial membrane recovery unit and be used for driving 6 pivoted back shaft drive assembly of tectorial membrane back shaft.

In this embodiment, should still be equipped with the feed unit (not shown) that can supply for the spraying unit, the feed unit is including main jar and the vice jar that communicates with main jar, has AG liquid medicine in the main jar, and vice jar intercommunication has a plurality of communicating pipe that communicates with a plurality of shower nozzle 32 respectively, can be provided with the flowmeter on the communicating pipe so that monitor flow. The film supply unit is used for placing unused film rolls, and the film recovery unit is used for recovering used waste films and forming rolls.

When the film covering supply unit is used for feeding, the film covering movable support frame 7 is firstly dismounted, an unused film roll is placed on the film covering support shaft 6, and then the movable support frame 7 is reassembled; and then the supporting sliding plate 3 is slid into the supporting base 1, and when the supporting sliding plate reaches a specific position, namely the sliding plate positioning through hole 9 is over against the base positioning fixing hole 8, the position of the supporting sliding plate 3 is fixed through the sliding plate positioning rod 10. The free end of the film roll is pulled to cover it on the conveyor belt 27 and then wound on the film supporting shaft 6 of the film recovery unit. In order to provide sufficient tension to the film, a tension support frame 56 is further provided on the support platform 25, and a film tension roller 57 is rotatably connected to the tension support frame 56. The free end of the film roll is covered on the conveyor belt 27 by a film tension roller 57. The tension support frame 56 can be provided with a plurality of film tension rollers 57 arranged at intervals, so that the positions of the matched film tension rollers 57 can be selected conveniently according to requirements.

During spraying operation, the glass to be processed is placed on the conveying belt 27 covered with the protective film (thin film), the belt conveying driving assembly is started to drive the conveying belt 27 to drive the glass to pass through the preheater 28, the preheater 28 is started to preheat the glass, spraying quality can be improved, the glass enters an area covered by the spraying unit, and the spraying multi-shaft driving assembly moves the spray head 32 to uniformly and comprehensively spray the glass. In this process, the supporting shaft driving assembly is started to drive the film to follow the running speed of the conveying belt for transmission, and the used film can be wound on the film supporting shaft 6 and formed into a roll.

When the film covering recovery unit is used for blanking, the film covering support shaft 6 is wound with a waste film roll, the support sliding plate 3 is dragged to be separated from the support base 1, the film covering movable support frame 7 is dismounted, the waste film roll is taken out, and the film covering movable support frame 7 is mounted.

Wherein, the arrangement of the sliding plate roller 4 can reduce the friction force between the supporting sliding plate 3 and the supporting base 1, so as to move the supporting sliding plate 3. To facilitate the movement of the support sled 3, a sled handle 21 may be provided on the support sled 3.

In order to save workload, the film covering movable support 7 can be fixed on the support sliding plate 3 through a support locking rod 22. The terminal of support frame locking lever 22 can run through tectorial membrane activity support frame 7 and support slide 3 threaded connection, so, when going on going up unloading, the accessible is not hard up support frame locking lever 22, rotates tectorial membrane activity support frame 7 to reach the effect of stepping down.

To facilitate rotation of the support bracket locking lever 22, a locking lever handle 23 may be provided on the support bracket locking lever 22.

In order to facilitate the rotation of the slide positioning rod 10, a positioning rod handle 24 may be provided on the slide positioning rod 10.

To facilitate rotation of the support bracket locking lever 22, a locking lever handle 23 may be provided on the support bracket locking lever 22.

In order to facilitate the rotation of the slide positioning rod 10, a positioning rod handle 24 may be provided on the slide positioning rod 10.

The preheater 28 may be selected from known technologies and will not be described in detail herein.

To facilitate adjustment of the position of the spray head 32, the spray head 32 may be removably attached to the spray mounting frame 31 by a spray head attachment 48.

In order to realize the transmission of the belt transmission driving assembly to the transmission belt 27, the belt transmission driving assembly comprises a main transmission shaft 49 and a driven transmission shaft 50, and the transmission belt 27 is sleeved on the main transmission shaft 49 and the driven transmission shaft 50; the belt transmission driving assembly further comprises a belt driving motor 51, the output end of the belt driving motor 51 is connected with a driving wheel 52, the end part of the main transmission shaft 49 is sleeved with a driving driven wheel 53, and the driving wheel 52 and the driving driven wheel 53 are sleeved with a driving transmission belt 54.

The transfer rack 26 is also provided with a belt supporting plate 59 for supporting the transfer belt 27 in order to provide a supporting force to the transfer belt 27.

The film covering supporting shaft 6 can be arranged on the film covering fixed supporting frame 5 through a bearing.

Example 2

This example is further defined on the basis of example 1 as follows: a supporting protection frame 33 is arranged on the supporting platform 25;

a plurality of groups of fan filter units 34 are arranged on the supporting and protecting frame 33;

the support platform 25 is provided with two platform notches 35 respectively located at the left side and the right side of the conveying frame 26, the support base 1 is provided with two gas collection boxes 36 respectively located at the two platform notches 35, a sieve plate 60 is arranged in each gas collection box 36, and the sieve plate 60 is provided with a plurality of gas collection through holes 37 communicated with the inner cavity of each gas collection box 36.

In this embodiment, the fan filter assembly 34 may be implemented by the prior art, and will not be described herein. The fan filter assembly 34 is activated to provide a top-to-bottom airflow to the spray unit, and the exhaust gas can enter the gas collection box 36 through the gas collection through-holes 37. The two gas collection tanks 36 may be connected to an exhaust gas treatment device via a transfer joint 42.

Wherein, the arrangement of the sieve plate 60 can avoid the problem that the impurities enter the inner cavity of the gas collecting box 36 to cause blockage.

In this embodiment, the supporting and protecting frame 33 may further be installed with an operation screen 43, and the supporting base 1 may further be installed with a control host (not shown) connected with the operation screen 43.

In order to further improve the gas collection and pollution prevention effects, a partition plate 44 and a switchable protective door 45 which are used for independent spraying units can be further installed on the supporting and protecting frame 33, the partition plate 44 is arranged at the front end and the rear end of the spraying unit (the conveying direction of the conveying belt 27 is used as the front direction and the rear direction), and a partition plate yielding port 46 capable of passing through glass is formed in the bottom end of the partition plate 44. The protective doors 45 are positioned at the left and right sides of the spraying unit, and the protective doors 45 can be made of transparent materials.

Example 3

This example is further defined on the basis of example 1 as follows: the spraying multi-axis driving assembly comprises a Z-axis mechanical arm 38, the output end of the Z-axis mechanical arm is connected with an X-axis mechanical arm 39, the output end of the X-axis mechanical arm 39 is connected with a Y-axis adjusting frame 40, a rotatable Y-axis adjusting lead screw 41 is connected onto the Y-axis adjusting frame 40, a Y-axis adjusting nut is matched onto the Y-axis adjusting lead screw 41, and the Y-axis adjusting nut is connected onto the spraying mounting frame 31.

In this embodiment, the direction in which the conveyor belt 27 is conveyed is the front-rear direction, the driving direction of the Z-axis robot 38 is the front-rear direction, and the driving direction of the X-axis robot 39 is the left-right direction.

In order to improve the stability of the left-right movement of the spraying installation frame 31, the spraying multi-axis driving assembly may include two Z-axis mechanical arms 38, and two ends of the X-axis mechanical arm 39 are respectively connected to output ends of the two Z-axis mechanical arms 38. The X-axis mechanical arm 39 and the Z-axis mechanical arm 38 can select a sliding table module and a cylinder.

The Z-axis mechanical arm further comprises a Z-axis mounting rack 66, a Z-axis driving gear (not shown) and a Z-axis driven gear (not shown) are rotatably mounted on the Z-axis mounting rack 66, a Z-axis transmission belt 67 is sleeved on the Z-axis driving gear and the Z-axis driven gear, a Z-axis driving device 68 used for driving the Z-axis driving gear to rotate is further mounted on the Z-axis mounting rack 66, and a motor is selected for the Z-axis driving device 68. The X-axis mechanical arm 39 is connected to a Z-axis transmission belt 67, and the X-axis mechanical arm 39 can be driven to move by starting a Z-axis driving device 68. Likewise, the X-axis robot arm 39 may be so disposed.

To ensure that the two Z-axis robots 38 are driven synchronously, the two Z-axis robots 38 can be synchronized by a synchronization rod 65. Specifically, two end portions of the synchronization lever 65 are linked to Z-axis drive gears of the two Z-axis robot arms, respectively, and the Z-axis drive device 68 acts on the synchronization lever 65 to rotate.

The height position of the spraying installation frame 31 can be adjusted by rotating the Y-axis adjusting screw 41, and a plurality of Y-axis guide rods 47 penetrating through the Y-axis adjusting frame 30 can be arranged on the spraying installation frame 31 to improve the up-and-down movement stability of the spraying installation frame 31.

In order to facilitate the rotation of the Y-axis adjusting screw 41, an adjusting handle 55 may be further provided at the top end of the Y-axis adjusting screw 41.

Example 4

This example is further defined on the basis of example 1 as follows: the film covering supply unit and the film covering recovery unit are both provided with two oppositely arranged limiting guide rails 2 on the support base 1, the area between the two limiting guide rails 2 is an embedding area, and the support sliding plate 3 can slide in the embedding area;

the supporting sliding plate 3 is provided with a limiting convex strip 58 which can be matched with the limiting guide rail 2.

Through the cooperation of spacing guide rail 2 and spacing sand grip 58, can fix a position the position of supporting slide 3 fast, and can spacing support slide 3, avoid supporting slide 3 and take place the offset.

Example 5

This example is further defined on the basis of example 4 as follows: and guide rail rollers 11 capable of being matched with the limiting guide rails 2 are arranged on two sides of the supporting sliding plate 3.

In this embodiment, the arrangement of the guide rail roller 11 can reduce the friction between the support sliding plate 3 and the position-limiting guide rail 2.

Example 6

This example is further defined on the basis of example 4 as follows: the top end of the limiting guide rail 2 is provided with a guide rail limiting strip 12 which can be matched with the sliding plate roller 4.

In this embodiment, through the setting of guide rail spacing strip 12, can improve the stability that supports 3 removals of slide, avoid tectorial membrane supporting component to appear beating, the problem of rocking.

Example 7

This example is further defined on the basis of example 1 as follows: and a magnetic powder brake 13 is also arranged on the film covering supporting shaft 6.

In this embodiment, the magnetic powder brake 13 is provided to brake the rotation of the film support shaft 6, thereby preventing the film support shaft 6 from excessively rotating.

Example 8

This example is further defined on the basis of example 1 as follows: and a supporting roller 14 which can be matched with the film covering supporting shaft 6 is arranged on the film covering movable supporting frame 7.

In the embodiment, the friction force between the film supporting shaft 6 and the film movable supporting frame 7 can be reduced by arranging the supporting rollers 14. Two supporting rollers 14 can be arranged on the film covering movable supporting frame 7.

Example 9

This example is further defined on the basis of example 1 as follows: the film covering supporting shaft 6 is also detachably connected with two shaft limiting discs 15.

In this embodiment, the area between the two axis-limiting discs 15 is an area for placing an unused film roll or a used waste film roll. The shaft stopper disk 15 may be detachably attached to the film support shaft 6 by screws. Through the setting of the spacing dish 15 of axle, can restrict the axial position of film book, avoid the film book to take place the offset.

In order to reduce the weight, preferably, a hollow-out shaft limiting disc 20 is disposed on the shaft limiting disc 15.

Example 10

This example is further defined on the basis of example 1 as follows: the supporting shaft driving assembly comprises a supporting shaft driving device 16, a supporting shaft driving wheel 17 connected to the output end of the supporting shaft driving device 16 and a supporting shaft driven wheel 18 connected to the film covering supporting shaft 6;

the support shaft driving assembly further comprises a support shaft transmission belt 19 sleeved on the support shaft driving wheel 17 and the support shaft driven wheel 18.

In this embodiment, the supporting shaft driving device 16 may be a motor. The support shaft driving device 16 is activated, and the coating support shaft 6 is driven to wind the waste film in the coating film recovery unit and pull the new film in the coating film supply unit.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments thereof. To the utility model belongs to the technical field of the ordinary skilled person say, do not deviate from the utility model discloses a other embodiments that reach under the technical scheme all should be contained the utility model discloses a within the scope of protection.

Claims (10)

1. An automatic AG flush coater which characterized in that: the coating film spraying device comprises a supporting base (1), wherein a supporting platform (25) is installed on the supporting base (1), a conveying unit, a spraying unit and a preheating unit positioned at the input end part of the conveying unit are arranged on the supporting platform (25), a coating film supply unit is arranged on the input side of the conveying unit of the supporting base (1), and a coating film recovery unit is arranged on the output side of the conveying unit of the supporting base (1);

the conveying unit comprises a conveying frame (26) arranged on a supporting platform (25), a conveying belt (27) and a belt conveying driving assembly for driving the conveying belt (27) to drive are arranged on the conveying frame (26) in a transmission mode;

the preheating unit comprises a preheater (28) mounted on the support platform (25), the preheater (28) having preheater through openings (29) through which the conveyor frame (26) can pass;

the spraying unit comprises a spraying support frame (30) arranged on a support platform (25), a spraying multi-axis driving assembly is arranged on the spraying support frame (30), the output end of the spraying multi-axis driving assembly is connected with a spraying mounting frame (31), and a plurality of spray heads (32) are arranged on the spraying mounting frame (31); the film covering supply unit and the film covering recovery unit both comprise film covering support assemblies, each film covering support assembly comprises a support sliding plate (3), each support sliding plate (3) is provided with a sliding plate roller (4) capable of being matched with a support base (1), each support sliding plate (3) is provided with a film covering fixed support frame (5), each film covering fixed support frame (5) is rotatably provided with a film covering support shaft (6), each support sliding plate (3) is also detachably provided with a film covering movable support frame (7) for supporting the tail end of each film covering support shaft (6), each support sliding plate (3) is provided with a sliding plate positioning through hole (9), each support base (1) is provided with a positioning fixing hole (8) capable of corresponding to each sliding plate positioning through hole (9), each film covering support assembly further comprises a sliding plate positioning rod (10) capable of penetrating through the sliding plate positioning through holes (9) and the base positioning fixing holes (8), a supporting shaft driving assembly for driving the film covering supporting shaft (6) to rotate is mounted on a film covering fixing supporting frame (5) of the film covering recovery unit.

2. An automatic AG spraying machine according to claim 1, characterized in that: a supporting and protecting frame (33) is arranged on the supporting platform (25);

a plurality of groups of fan filter units (34) are arranged on the supporting and protecting frame (33);

the supporting platform (25) is provided with two platform notches (35) which are respectively positioned at the left side and the right side of the conveying frame (26), the supporting base (1) is provided with two gas collecting boxes (36) which are respectively positioned at the two platform notches (35), the gas collecting boxes (36) are internally provided with sieve plates (60), and the sieve plates (60) are provided with a plurality of gas collecting through holes (37) communicated with the inner cavities of the gas collecting boxes (36).

3. An automatic AG spraying machine according to claim 1, characterized in that: the spraying multi-axis driving assembly comprises a Z-axis mechanical arm (38), the output end of the Z-axis mechanical arm is connected with an X-axis mechanical arm (39), the output end of the X-axis mechanical arm (39) is connected with a Y-axis adjusting frame (40), a rotatable Y-axis adjusting lead screw (41) is connected onto the Y-axis adjusting frame (40), a Y-axis adjusting nut is matched onto the Y-axis adjusting lead screw (41), and the Y-axis adjusting nut is connected onto the spraying mounting frame (31).

4. An automatic AG spraying machine according to claim 1, characterized in that: the film covering supply unit and the film covering recovery unit are both provided with two oppositely arranged limiting guide rails (2) on the support base (1), the area between the two limiting guide rails (2) is an embedding area, and the support sliding plate (3) can slide in the embedding area;

the support sliding plate (3) is provided with a limit convex strip (58) which can be matched with the limit guide rail (2).

5. An automatic AG spraying machine as claimed in claim 4, wherein: and guide rail rollers (11) capable of being matched with the limiting guide rails (2) are arranged on two sides of the supporting sliding plate (3).

6. An automatic AG spraying machine as claimed in claim 4, wherein: the top end of the limiting guide rail (2) is provided with a guide rail limiting strip (12) which can be matched with the sliding plate roller (4).

7. An automatic AG spraying machine according to claim 1, characterized in that: and a magnetic powder brake (13) is also arranged on the film covering supporting shaft (6).

8. An automatic AG spraying machine according to claim 1, characterized in that: and a supporting roller (14) which can be matched with the film covering supporting shaft (6) is arranged on the film covering movable supporting frame (7).

9. An automatic AG spraying machine according to claim 1, characterized in that: and the film covering support shaft (6) is also detachably connected with two shaft limiting discs (15).

10. An automatic AG spraying machine according to claim 1, characterized in that: the supporting shaft driving assembly comprises a supporting shaft driving device (16), a supporting shaft driving wheel (17) connected to the output end of the supporting shaft driving device (16) and a supporting shaft driven wheel (18) connected to the film coating supporting shaft (6);

the supporting shaft driving component also comprises a supporting shaft transmission belt (19) sleeved on the supporting shaft driving wheel (17) and the supporting shaft driven wheel (18).

Images