CN212197518U - Efficient continuous coating film conveying device - Google Patents
Efficient continuous coating film conveying device Download PDFInfo
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- CN212197518U CN212197518U CN202020490213.8U CN202020490213U CN212197518U CN 212197518 U CN212197518 U CN 212197518U CN 202020490213 U CN202020490213 U CN 202020490213U CN 212197518 U CN212197518 U CN 212197518U
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Abstract
The utility model belongs to the technical field of continuous coating film conveyer and specifically relates to high-efficient type continuous coating film conveyer. The continuous coating conveying device comprises a coating chamber, a workpiece decontamination mechanism, a workpiece upper surface coating conveying mechanism, a workpiece lower surface coating conveying mechanism, a lifting mechanism, a workpiece feeding mechanism, a workpiece discharging mechanism and a height adjusting mechanism, wherein the workpiece feeding mechanism, the workpiece upper surface coating conveying mechanism and the workpiece discharging mechanism are sequentially arranged in the coating chamber, the lifting mechanism is fixed on a top plate in the coating chamber, and the workpiece lower surface coating conveying mechanism is fixed at the lifting end of the lifting mechanism. The utility model discloses a work piece feed mechanism and work piece discharge mechanism realize the business turn over of work piece in the coating chamber. The workpiece cleaning mechanism is used for cleaning dirt on the surface of the workpiece. And the workpiece upper surface coating conveying mechanism conveys the workpiece upper surface outwards for coating. And coating and conveying the lower surface of the workpiece outwards through the coating and conveying mechanism on the lower surface of the workpiece. This application has improved the efficiency of work piece coating film.
Description
Technical Field
The utility model belongs to the technical field of continuous coating film conveyer and specifically relates to high-efficient type continuous coating film conveyer.
Background
When the workpiece is coated, the workpiece needs to be moved forwards and horizontally by using the conveying device, and the workpiece is coated in the moving process. But the prior continuous coating transmission device has lower working efficiency for the double-sided coating.
SUMMERY OF THE UTILITY MODEL
In order to overcome the defect that the efficiency of the existing conveying device is low, the utility model provides a high-efficiency continuous coating conveying device.
The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a continuous coating film conveyer of high-efficient type, includes coating film room, work piece trash cleaning mechanism, work piece upper surface coating film conveying mechanism, work piece lower surface coating film conveying mechanism, elevating system, work piece feed mechanism, work piece discharge mechanism and height adjusting mechanism, be equipped with in proper order in the coating film room, work piece feed mechanism, work piece upper surface coating film conveying mechanism, work piece discharge mechanism, be fixed with elevating system on the indoor roof of coating film, elevating system's lift end is fixed with work piece lower surface coating film conveying mechanism, and height adjusting mechanism is installed to work piece discharge mechanism bottom, installs work piece trash cleaning mechanism on the work piece upper surface coating film conveying mechanism.
According to the utility model discloses a further embodiment, further include work piece upper surface coating film conveying mechanism comprises band conveyer one and negative pressure adsorption tank one, and it inhales the hole to distribute the several on the belt of band conveyer one, and negative pressure adsorption tank one is fixed in band conveyer's board, and it inhales the hole to distribute on the terminal surface of negative pressure adsorption tank one, and negative pressure adsorption tank one is equipped with the terminal surface laminating of inhaling the hole on the belt, and negative pressure adsorption tank one links to each other with vacuum generator.
According to the utility model discloses a further embodiment, further include work piece lower surface coating film conveying mechanism comprises two band conveyer and negative pressure adsorption tank two, and it inhales the hole to distribute the several on the belt of two band conveyer, and negative pressure adsorption tank two is fixed in the board of two band conveyer, and it inhales the hole to distribute on the terminal surface of negative pressure adsorption tank two, and negative pressure adsorption tank two is equipped with the terminal surface laminating of inhaling the hole on the belt, and negative pressure adsorption tank two links to each other with vacuum generator.
According to the utility model discloses a further embodiment, further include work piece mechanism of decontaminating comprises support, support lift cylinder, roller, nylon hair and roller driving motor, and the cylinder body of support lift cylinder is fixed on work piece feed mechanism's board, and the piston rod of support lift cylinder is fixed on the support, and roller driving motor's organism is fixed on the support, and the roller rotates to be connected on the support, and the axle head of roller is fixed on roller driving motor's output shaft, and it has the nylon hair to distribute on the roller.
According to the utility model discloses a further embodiment, further include elevating system and height adjustment mechanism are the cylinder.
According to the utility model discloses a further embodiment, further include work piece feed mechanism and work piece discharge mechanism are band conveyer.
The beneficial effects of the utility model are that, this utility model realizes the business turn over of work piece at the coating chamber through work piece feed mechanism and work piece discharge mechanism. And cleaning dirt on the surface of the workpiece by the workpiece cleaning mechanism. And the upper surface of the workpiece is outwards coated and conveyed by the coating conveying mechanism on the upper surface of the workpiece. And coating and conveying the lower surface of the workpiece outwards through the coating and conveying mechanism on the lower surface of the workpiece. This application has improved the efficiency of work piece coating film.
Drawings
The present invention will be further explained with reference to the drawings and examples.
Fig. 1 is a schematic structural diagram of the present invention;
fig. 2 is a schematic structural view of a first negative pressure adsorption tank of the present invention;
fig. 3 is a schematic structural view of a belt of the first belt conveyor of the present invention;
in the figure, 1 is a coating chamber, 2 is a workpiece cleaning mechanism, 3 is a workpiece upper surface coating conveying mechanism, 4 is a workpiece lower surface coating conveying mechanism, 5 is a lifting mechanism, 6 is a workpiece feeding mechanism, 7 is a workpiece discharging mechanism, 8 is a height adjusting mechanism, 22 is a support, 23 is a support lifting cylinder, 24 is a roller, 25 is nylon wool, 31 is a belt conveyor I, 32 is a negative pressure adsorption box I, 41 is a belt conveyor II, and 42 is a negative pressure adsorption box II.
Detailed Description
As shown in figure 1, the structure of the utility model is schematically illustrated, figure 2 is a structure of a first negative pressure adsorption tank of the utility model, FIG. 3 is a schematic structural diagram of a belt of a first belt conveyor of the present invention, which is a high-efficiency continuous coating film conveyer, comprising a coating chamber 1, a workpiece cleaning mechanism 2, a workpiece upper surface coating film conveying mechanism 3, a workpiece lower surface coating film conveying mechanism 4, a lifting mechanism 5, a workpiece feeding mechanism 6, a workpiece discharging mechanism 7 and a height adjusting mechanism 8, the coating machine is characterized in that a workpiece feeding mechanism 6, a workpiece upper surface coating conveying mechanism 3 and a workpiece discharging mechanism 7 are sequentially arranged in the coating chamber 1, a lifting mechanism 5 is fixed on a top plate in the coating chamber 1, a workpiece lower surface coating conveying mechanism 4 is fixed at the lifting end of the lifting mechanism 5, a height adjusting mechanism 8 is installed at the bottom of the workpiece discharging mechanism 7, and a workpiece cleaning mechanism 2 is installed on the workpiece upper surface coating conveying mechanism 3. The workpiece upper surface coating conveying mechanism 3 is composed of a first belt conveyor 31 and a first negative pressure adsorption box 32, a plurality of suction holes are distributed in a belt of the first belt conveyor 31, the first negative pressure adsorption box 32 is fixed in a machine table of the first belt conveyor 31, a plurality of suction holes are distributed in the end face of the first negative pressure adsorption box 32, the end face of the first negative pressure adsorption box 32 provided with the suction holes is attached to the belt, and the first negative pressure adsorption box 32 is connected with a vacuum generator. The lower surface coating film conveying mechanism 4 of the workpiece is composed of a second belt conveyor 41 and a second negative pressure adsorption box 42, a plurality of suction holes are distributed on a belt of the second belt conveyor 41, the second negative pressure adsorption box 42 is fixed in a machine table of the second belt conveyor 41, a plurality of suction holes are distributed on the end surface of the second negative pressure adsorption box 42, the end surface of the second negative pressure adsorption box 42 provided with the suction holes is attached to the belt, and the second negative pressure adsorption box 42 is connected with a vacuum generator. The workpiece cleaning mechanism 2 is composed of a support 22, a support lifting cylinder 23, a roller 24, nylon bristles 25 and a roller driving motor, wherein a cylinder body of the support lifting cylinder 23 is fixed on a machine table of the workpiece feeding mechanism 6, a piston rod of the support lifting cylinder 23 is fixed on the support 22, a machine body of the roller driving motor is fixed on the support 22, the roller 24 is rotatably connected on the support 22, a shaft end of the roller 24 is fixed on an output shaft of the roller driving motor, and the nylon bristles 25 are distributed on the roller 24. The lifting mechanism 5 and the height adjusting mechanism 8 are both cylinders. And the workpiece feeding mechanism 6 and the workpiece discharging mechanism 7 are both belt conveyors.
Referring to fig. 1, 2 and 3, the work piece upper surface coating film conveying mechanism 3 works in such a way that the vacuum generator is started to enable the suction holes in the first negative pressure adsorption tank 32 to generate suction force. When the belt of the first belt conveyor 31 is used for transmission, part of suction holes in the belt are overlapped with the suction holes in the first negative pressure adsorption box 32, suction force is generated by the overlapped suction holes in the belt, and therefore the workpiece can be conveyed forwards while being adsorbed by the belt.
The working mode of the workpiece lower surface coating conveying mechanism 4 is that the vacuum generator is started, so that the suction holes in the second negative pressure adsorption box 42 generate suction. When the belt of the second belt conveyor 41 is used for transmission, part of suction holes in the belt are overlapped with the suction holes in the second negative pressure adsorption box 42, and the overlapped suction holes in the belt generate suction force, so that the workpiece can be conveyed forwards while being adsorbed by the belt.
When a workpiece is to be coated, the workpiece is first placed on the workpiece feed mechanism 6 in the coating chamber 1 to be horizontally conveyed. After the workpiece is conveyed below the workpiece cleaning mechanism 2, the piston rod of the support lifting cylinder 23 extends and retracts and drives the roller 24 to move up and down until the nylon bristles 25 on the roller 24 are attached to the upper surface of the workpiece. The output shaft of the roller driving motor drives the roller 24 to rotate, so that the nylon wool 25 can be driven to scrape off dirt on the workpiece. A dust suction device is arranged beside the workpiece feeding mechanism 6. The dust suction device sucks the dirt scraped from the workpiece into the dust collection box through the suction force generated by the rotation of the fan blades, so that the dirt is prevented from polluting the surrounding environment.
Then the workpiece is conveyed to the first belt conveyor 31, and when the workpiece is conveyed on a belt of the first belt conveyor 31, the upper surface of the workpiece is coated by the coating mechanism. After the film coating on the upper surface of the workpiece is finished, the workpiece continues to move forwards to a discharging position of the first belt conveyor 31, and the vacuum generator on the workpiece upper surface film coating conveying mechanism 3 stops working.
And then the piston rod of the lifting mechanism 5 drives the workpiece lower surface coating conveying mechanism 4 to move downwards until the workpiece lower surface coating conveying mechanism 4 adsorbs the workpiece on the workpiece upper surface coating conveying mechanism 3. At this time, the workpiece lower surface coating conveying mechanism 4 carries the sucked workpiece to move upwards. Then the workpiece on the lower surface coating conveying mechanism 4 is driven to move horizontally, so that the lower surface of the workpiece can be coated. After the lower surface coating of work piece is finished, work piece lower surface coating conveying mechanism 4 moves the work piece to work piece discharge mechanism 7 down on to release the work piece, the work piece just can be in the work piece discharge mechanism 7 drive down the level shift out coating chamber 1 like this, get into next process.
The piston rod of the height adjusting mechanism 8 can stretch and retract to drive the workpiece discharging mechanism 7 to move up and down, so that the height of the workpiece during discharging can be adjusted, and the workpiece for discharging can be aligned to the inlet height of the device of the next procedure.
The negative pressure suction force generated by the workpiece upper surface coating conveying mechanism 3 and the workpiece lower surface coating conveying mechanism 4 is 0.001 Pa.
Claims (6)
1. A high-efficiency continuous coating conveying device is characterized by comprising a coating chamber (1), a workpiece cleaning mechanism (2), a workpiece upper surface coating conveying mechanism (3), a workpiece lower surface coating conveying mechanism (4), a lifting mechanism (5), a workpiece feeding mechanism (6), a workpiece discharging mechanism (7) and a height adjusting mechanism (8), the coating machine is characterized in that a coating chamber (1), a workpiece feeding mechanism (6), a workpiece upper surface coating conveying mechanism (3) and a workpiece discharging mechanism (7) are sequentially arranged in the coating chamber (1), a lifting mechanism (5) is fixed on a top plate in the coating chamber (1), a workpiece lower surface coating conveying mechanism (4) is fixed at the lifting end of the lifting mechanism (5), a height adjusting mechanism (8) is installed at the bottom of the workpiece discharging mechanism (7), and a workpiece decontamination mechanism (2) is installed on the workpiece upper surface coating conveying mechanism (3).
2. The high-efficiency continuous coating conveying device according to claim 1, wherein the workpiece upper surface coating conveying mechanism (3) comprises a first belt conveyor (31) and a first negative pressure adsorption tank (32), a plurality of suction holes are distributed on a belt of the first belt conveyor (31), the first negative pressure adsorption tank (32) is fixed in a machine table of the first belt conveyor (31), a plurality of suction holes are distributed on an end surface of the first negative pressure adsorption tank (32), the end surface of the first negative pressure adsorption tank (32) provided with the suction holes is attached to the belt, and the first negative pressure adsorption tank (32) is connected with a vacuum generator.
3. The high-efficiency continuous coating conveying device according to claim 1, wherein the workpiece lower surface coating conveying mechanism (4) comprises a second belt conveyor (41) and a second negative pressure adsorption tank (42), a plurality of suction holes are distributed on a belt of the second belt conveyor (41), the second negative pressure adsorption tank (42) is fixed in a machine table of the second belt conveyor (41), a plurality of suction holes are distributed on an end surface of the second negative pressure adsorption tank (42), the end surface of the second negative pressure adsorption tank (42) provided with the suction holes is attached to the belt, and the second negative pressure adsorption tank (42) is connected with a vacuum generator.
4. The high-efficiency continuous coating conveying device according to claim 1, wherein the workpiece cleaning mechanism (2) comprises a support (22), a support lifting cylinder (23), a roller (24), nylon bristles (25) and a roller driving motor, wherein a cylinder body of the support lifting cylinder (23) is fixed on a machine table of the workpiece feeding mechanism (6), a piston rod of the support lifting cylinder (23) is fixed on the support (22), a machine body of the roller driving motor is fixed on the support (22), the roller (24) is rotatably connected on the support (22), a shaft end of the roller (24) is fixed on an output shaft of the roller driving motor, and the nylon bristles (25) are distributed on the roller (24).
5. The efficient continuous coating film transfer device according to claim 1, wherein the lifting mechanism (5) and the height adjusting mechanism (8) are both air cylinders.
6. A high-efficiency continuous coating film transfer apparatus according to claim 1, wherein said workpiece feed means (6) and said workpiece discharge means (7) are belt conveyors.
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CN202020490213.8U CN212197518U (en) | 2020-04-07 | 2020-04-07 | Efficient continuous coating film conveying device |
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CN202020490213.8U CN212197518U (en) | 2020-04-07 | 2020-04-07 | Efficient continuous coating film conveying device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114955398A (en) * | 2022-07-31 | 2022-08-30 | 常州翊迈新材料科技有限公司 | Efficient continuous coating film conveying device |
CN115889331A (en) * | 2023-03-08 | 2023-04-04 | 常州九天新能源科技股份有限公司 | Photovoltaic module cleaning equipment and process |
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2020
- 2020-04-07 CN CN202020490213.8U patent/CN212197518U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114955398A (en) * | 2022-07-31 | 2022-08-30 | 常州翊迈新材料科技有限公司 | Efficient continuous coating film conveying device |
CN115889331A (en) * | 2023-03-08 | 2023-04-04 | 常州九天新能源科技股份有限公司 | Photovoltaic module cleaning equipment and process |
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