CN214921387U - Screen laser cutting smoke and dust and waste material cleaning assembly and cleaning device - Google Patents

Abstract

The utility model discloses a screen body laser cutting smoke and dust and waste material clearance subassembly and cleaning device belongs to and shows technical field. The cleaning assembly comprises a dust suction cavity and a receiving hopper arranged below the dust suction cavity, the dust suction cavity is communicated with the receiving hopper, a smoke dust vacuum conveyor used for sucking away smoke dust is arranged on the dust suction cavity, a waste material vacuum conveyor used for sucking away waste materials is arranged below the receiving hopper, and a filtering partition plate capable of filtering smoke dust is arranged in the dust suction cavity. Cleaning device includes the frame, sets up lift module and clearance subassembly in the frame, sets up brace table, the slope of setting on lift module and sets up the air knife in brace table top. The utility model discloses can be with the effectual clearance of smoke and dust and waste material that screen body laser cutting in-process produced to the effectual influence that reduces smoke and dust and waste material to production environment and process flow.

Description

Screen laser cutting smoke and dust and waste material cleaning assembly and cleaning device

Technical Field

The utility model belongs to the technical field of show, concretely relates to screen body laser cutting smoke and dust and waste material clearance subassembly and cleaning device.

Background

The OLED flexible display screen is a new display technology, and compared with the existing liquid crystal display, the OLED flexible display screen has the most important characteristic that the OLED flexible display screen not only can be used for plane display, but also can be bent and deformed to realize curved surface display. Compared with the common flat-panel liquid crystal display, the production process flow is greatly simplified, the energy consumption is lower, the service life is longer, and the method is the mainstream direction of the development of the future display technology.

In order to reduce the production cost of the OLED display screen and improve the production efficiency, the size of the screen body in the process of the front-end screen body is generally large, and in order to obtain the size of the screen body required by the equipment in the rear-end screen body, the large-size screen body obtained by the front-end process needs to be cut into small-size screen bodies by means of laser. Laser cutting is a technique that uses a laser to cut a material, where the laser beam is focused and directed at the material, where it then melts, burns, evaporates, or is blown away by a gas jet, leaving an edge with a high quality surface finish. Smoke dust generated in the melting and burning processes of the materials and cut waste materials also need to be cleaned, great influence is generated on the working environment and the production flow, and the processing precision and the yield of products are seriously influenced.

SUMMERY OF THE UTILITY MODEL

The technical problem is as follows: the utility model provides a can clear up smoke and dust and waste material clearance subassembly of smoke and dust and waste material effectively when shielding body laser cutting to a screen body laser cutting smoke and dust and waste material cleaning device is provided, thereby clear up smoke and dust and waste material effectively, reduce the influence of smoke and dust and waste material to environment and process flow.

The technical scheme is as follows: the utility model discloses a screen body laser cutting smoke and dust and waste material clearance subassembly, be in including dust absorption chamber and setting the dust absorption chamber below connects the hopper, the dust absorption chamber with connect the hopper intercommunication, be provided with the smoke and dust vacuum conveyer who is used for siphoning away the smoke and dust on the dust absorption chamber, it is provided with the waste material vacuum conveyer who is used for siphoning away the waste material to connect the hopper below, be provided with the filtration baffle that can filter the smoke and dust in the dust absorption chamber.

Furthermore, the filtering clapboard inclines towards one side of the inlet of the dust suction cavity.

Furthermore, a back-blowing connector is arranged on the dust suction cavity, and waste adsorbed on the filtering partition plate can be blown off by air flow blown out from the back-blowing connector.

Further, the width of the inlet of the receiving hopper is larger than that of the dust suction cavity, so that waste materials can conveniently enter the receiving hopper.

Furthermore, the smoke dust vacuum conveyor and the waste vacuum conveyor are siphon vacuum conveyors, each siphon vacuum conveyor comprises a siphon cavity, a siphon air supply connector is arranged on each siphon cavity, and when the siphon air supply connectors are used for ventilating, a siphon effect can be generated in the siphon cavities to suck smoke dust or waste.

Further, the smoke vacuum conveyor is connected with a smoke pipeline.

Further, the waste vacuum conveyor is connected with a waste collecting box through a waste pipeline.

The utility model discloses a screen body laser cutting dust removal and waste material cleaning device, including the frame, set up in lift module in the frame and smoke and dust and waste material cleaning assembly, set up in a supporting bench, the slope on the lift module sets up the air knife above the supporting bench, the lift module can drive a supporting bench up-and-down motion;

the inlet of the dust suction cavity of the smoke and dust and waste cleaning assembly is close to the supporting table, the receiving hopper of the smoke and dust and waste cleaning assembly is connected below the supporting table, and smoke and waste can be blown into the smoke and dust and waste cleaning assembly by airflow blown by the air knife.

Furthermore, the supporting table comprises a lifting rod connected with the lifting module and a supporting table main body arranged on the lifting rod, a plurality of air holes are formed in the supporting table main body, and the air holes can generate vacuum to suck the screen body.

Furthermore, a notch is formed in the edge of the inlet of the material receiving hopper, and the lifting rod correspondingly penetrates through the notch.

Has the advantages that: compared with the prior art, the utility model, have following advantage:

(1) the utility model discloses a smoke and dust and waste material clearance subassembly is at the during operation, and smoke and dust and waste material can get into the suction chamber, and smoke and dust vacuum conveyer siphons away the smoke and dust, and the waste material can not be siphoned away by smoke and dust vacuum conveyer because filtering baffle's blockking, but falls into under the action of gravity and connects the hopper in, siphons away the waste material through waste material vacuum conveyer. By adopting the cleaning component of the utility model, the smoke dust and the waste material are cleaned away in time in the laser cutting process of the screen body, thereby solving the influence of the smoke dust and the waste material on the working environment and the production flow in the laser cutting; meanwhile, because the influence of smoke dust and waste materials is avoided, the processing precision and the yield of products are improved; in addition, the smoke dust and the waste materials are sucked away by different conveyors, so that the classification treatment of the smoke dust and the waste materials can be realized.

(2) The utility model discloses a be provided with the blowback gas on the suction chamber and connect and to communicate outside air supply, after smoke and dust vacuum conveyer, waste material vacuum conveyer end work of breathing out absolutely, connect for the blowback gas and ventilate to the waste material that will adsorb on filtering baffle surface blows off, falls into and connects in the hopper, thereby at next waste material vacuum conveyer during operation, takes away the waste material, has guaranteed that the waste material is by high-efficient clean up.

(3) The utility model discloses a smoke and dust vacuum conveyer and waste material vacuum conveyer all adopt siphon effect work, improve the cleaning efficiency of smoke and dust and waste material effectively.

(4) In the embodiment of the utility model, the smoke vacuum conveyor is connected with a smoke pipeline and enters into a dust collecting device or a factory dust collecting pipeline through the smoke pipeline; waste material vacuum conveyor has the garbage collection box through waste material pipe connection, can be with in the garbage collection box of garbage collection to separately smoke and dust and waste material, the later stage classification of being convenient for, high-efficient environmental protection.

(5) By utilizing the smoke and dust and waste material cleaning device, in the process of carrying out laser cutting on the screen body, the smoke and dust and waste material are blown to the cleaning assembly by the airflow blown out from the air knife, so that the smoke and dust and waste material are cleaned away in time in the laser cutting process of the screen body, and the influence of the smoke and dust and waste material on the working environment and the production flow in the laser cutting process is solved; meanwhile, because the influence of smoke dust and waste materials is avoided, the processing precision and the yield of products are improved; moreover, the smoke dust and the waste are respectively conveyed, so that the classification management of the smoke dust and the waste is convenient to realize, and the method is efficient and environment-friendly.

Drawings

FIG. 1 is a perspective view of the smoke and dust and waste cleaning assembly of the present invention;

FIG. 2 is a perspective view of the smoke and dust and waste cleaning assembly of the present invention;

FIG. 3 is a perspective view of the siphon vacuum conveyor of the present invention;

FIG. 4 is a three-dimensional structure view of the device for cleaning smoke and dust and waste of the present invention;

FIG. 5 is a perspective view of a partial structure of the present invention (excluding the fume and waste cleaning assembly);

fig. 6 is a three-dimensional structure view of the support table of the present invention;

fig. 7 is a three-dimensional structure view of the support table of the present invention when adsorbing the screen.

In the figure: 100. a frame; 200. a lifting module;

300. a soot and waste cleaning assembly; 310. a dust suction chamber; 311. a back-blowing joint; 320. a receiving hopper; 330. a smoke vacuum conveyor; 340. a waste vacuum conveyor; 341. a siphon chamber; 342. a siphon gas supply joint; 350. a filtering partition plate 360 and a waste pipeline; 370. a waste collection box; 380. a smoke duct; 390. opening the gap;

400. a support table; 410. a lifting rod; 420. a support table main body; 430. air holes; 440. an air inlet pipe;

500. an air knife;

600. a load-bearing platform;

700. and (4) a Cell unit.

Detailed Description

The invention is further described with reference to the following examples and the accompanying drawings.

With reference to fig. 1 and 2, the utility model provides a smoke and dust and waste material clearance subassembly 300, including dust absorption chamber 310 and the hopper 320 that connects of setting in dust absorption chamber 310 below, be provided with the smoke and dust vacuum conveyor 330 that is used for sucking away the smoke and dust on the dust absorption chamber 310, connect hopper 320 below to be provided with the waste material vacuum conveyor 340 that is used for sucking away the waste material, be provided with the filtration baffle 350 that can filter the smoke and dust in the dust absorption chamber 310, dust absorption chamber 310 with connect hopper 320 intercommunication, connect hopper 320 to accept in dust absorption chamber 310 below for the waste material can all fall into in connecing the hopper 320.

This smoke and dust and waste material clearance subassembly 300 can be used to the smoke and dust and the waste material clearance in flexible screen body laser cutting process, at Cell unit 700 (being the screen body) laser cutting in-process, can produce a large amount of smoke and dust and waste material, utilizes the utility model discloses a smoke and dust and waste material clearance subassembly 300, when Cell unit 700 cuts, smoke and dust and waste material can get into dust absorption chamber 310, and smoke and dust vacuum conveyor 330 siphons away the smoke and dust, and the waste material is filtered because blockking of filtering baffle 350, can not be siphoned away by smoke and dust vacuum conveyor 330, but falls into under the action of gravity and connects the hopper 320 in, siphons away all waste materials that fall into in connecing the hopper 320 through waste material vacuum conveyor 340. By adopting the smoke and waste cleaning assembly 300 of the utility model, the smoke and waste can be cleaned away in time in the laser cutting process of the Cell unit 700, thereby solving the influence of the smoke and waste on the working environment and the production flow in the laser cutting process; meanwhile, because the influence of smoke dust and waste materials is avoided, the processing precision and the yield of products are improved; in addition, the smoke dust and the waste materials are sucked away by different conveyors, so that the classification treatment of the smoke dust and the waste materials can be realized.

In order to enable the filtering partition 350 to better filter the smoke dust, the filtering partition 350 is inclined, as shown in fig. 1, and inclined toward the inlet side of the dust suction chamber 310, so that the waste material entering the dust suction chamber 310 is not easily adsorbed on the filtering partition 350 due to gravity after contacting the filtering partition 350, and is more easily dropped into the receiving hopper 320.

In the laser cutting process, there may be a small amount of waste materials adsorbed on the surface of the filtering partition 350 by the smoke vacuum conveyor 330, or adsorbed on the surface of the filtering partition 350 due to static electricity, therefore, in the embodiment of the present invention, as shown in fig. 2, the dust suction cavity 310 is provided with the back-blowing joint 311, and the back-blowing joint 311 is connected to an external air source. After the Cell unit 700 is cut, the blowback connector 311 is ventilated, so that the waste attached to the surface of the filtering partition 350 is blown off and falls into the receiving hopper 320, and the waste is pumped away when the waste vacuum conveyor 340 works next time.

And for the waste material be convenient for get into connect the hopper 320 in, in the embodiment of the utility model, connect the width of the import of hopper 320 to be greater than the width of dust absorption chamber 310 for the waste material is convenient for get into connect the hopper 320, wherein, it is said, the width refers to the size that extends the X axle direction in fig. 1.

In the embodiment of the utility model, as shown in fig. 3, smoke and dust vacuum conveyer 330 and waste material vacuum conveyer 340 all adopt hydrocone type vacuum conveyer, including siphon chamber 341, be provided with siphon air feed joint 342 on siphon chamber 341, siphon air feed joint 342 is connected with external air source, and after ventilating, because the effect of air current produces siphonage in siphon chamber 341 to can siphon away smoke and dust and waste material, utilize the siphon effect, can improve the cleaning efficiency of smoke and dust and waste material effectively.

In the embodiment of the present invention, in order to facilitate the classification management of the smoke and the waste, as shown in fig. 1 and 2, the smoke vacuum conveyor 330 is connected to a smoke pipeline 380, and enters a dust collecting device or a factory dust collecting pipeline through the smoke pipeline 380; and, waste vacuum conveyor 340 is connected with garbage collection box 370 through waste pipe 360 to in collecting the garbage box 370 with the waste material, thereby separate smoke and dust and waste material, the later stage classification of being convenient for is high-efficient environmental protection.

Further, the utility model also provides a screen body laser cutting removes dust and waste material cleaning device, as shown in fig. 4, the device includes frame 100, the lifting module 200 of setting in frame 100 and foretell smoke and dust and waste material cleaning assembly 300, the supporting bench 400 of setting on lifting module 200, the wind sword 500 of slope setting above supporting bench 400, lifting module 200 can drive supporting bench 400 up-and-down motion. When assembled, the inlet of the dust collection chamber 310 of the fume and waste cleaning assembly 300 is adjacent the support platform 400, the receiving hopper 320 of the fume and waste cleaning assembly 300 is received beneath the support platform 400, and the airflow from the air knife 500 is capable of blowing the fume and waste into the fume and waste cleaning assembly 300.

It is noted that, for the lifting module 200, the present invention can adopt the lifting module in the prior art, such as the commercially available motor lifting module, and can also adopt the cylinder, the oil cylinder, etc., in the embodiment of the present invention, as shown in fig. 4 and 5, the motor lifting module is adopted.

Further, in the embodiment of the present invention, as shown in fig. 6 and 7, the support table 400 includes the lifting rod 410 connected with the lifting module 200 and the support table main body 420 provided on the lifting rod 410, and the air hole 430 is provided on the support table main body 420, and after ventilating the support table 400 through the air inlet pipe 440, vacuum can be generated at the air hole 430, and when laser cutting of the Cell unit 700 is performed, the Cell unit 700 can be adsorbed on the support table main body 420, so that in the cutting process, the Cell unit 700 does not move in position, and the laser cutting precision is ensured.

Further, in order to make the structure of the device more compact and make the receiving hopper 320 capable of receiving all the waste materials, in the embodiment of the present invention, as shown in fig. 1, a notch 390 is opened at the inlet edge of the receiving hopper 320, and when installing the smoke and waste cleaning assembly 300, the lifting rod 410 correspondingly passes through the notch 390. At this time, the lifting rod 410 is moved to pass through the notch 390 of the receiving hopper 320, so that the receiving hopper 320 can receive all the cut scraps.

When laser cutting needs to be performed on the Cell unit 700 (i.e., the screen body), a manipulator in the production line conveys the Cell unit 700 to the loading platform 600 stopped at the loading position, and the loading platform 600 adsorbs the Cell unit 700 and moves to the working position, which is above the supporting platform 400 and below the air knife 500. The support base 400 is moved upward by the driving of the lift module 200, and then the support base 400 and the air knife 500 are ventilated, so that the Cell unit 700 is sucked and supported by the support base main body 420, and the front end of the Cell unit 700 can be pressed against the support base 400 by the air current blown by the air knife 500, thereby further fixing the Cell unit 700. The fume vacuum conveyor 330 and the waste vacuum conveyor 340 are then vented. When laser cutting is performed on the Cell unit 700, the airflow blown out from the air knife 500 blows the fumes and waste toward the fume and waste cleaning assembly 300. Under the action of the air flow, the smoke and the waste are blown into the dust suction chamber 310, the smoke vacuum conveyor 330 directly sucks away the smoke, and the waste is not sucked away by the smoke vacuum conveyor 330 due to the filtering blockage of the filtering partition 350, but falls into the receiving hopper 320 under the action of gravity and is sucked away by the waste vacuum conveyor 340. Air knife 500 is blowing into smoke and dust and waste material clearance subassembly 300 with smoke and dust and waste material, under the air current effect, the waste material can be raised, because some waste materials of reasons such as static are adsorbed on the surface of filtering partition plate 350, consequently after laser cutting process, supporting bench 400, air knife 500, smoke and dust vacuum conveyor 330 and waste material vacuum conveyor 340 stop ventilating, then blowback gas connects 311 to ventilate, will adsorb the waste material on filtering partition plate 350 surface and blow off, fall into and connect in the hopper 320, wait for waste material vacuum conveyor 340 to be siphoned away when working next time, thereby make all waste materials all by the clean up.

By adopting the device of the utility model, the smoke dust and the waste material are cleaned away in time in the laser cutting process of the Cell unit 700, thereby solving the influence of the smoke dust and the waste material on the working environment and the production flow in the laser cutting process; simultaneously, because the influence of smoke and dust and waste material has not been had, the machining precision and the yields of product have been improved to, smoke and dust and waste material are carried respectively, are convenient for realize the classification management of smoke and dust and waste material, high-efficient environmental protection.

The above-described embodiments are only preferred embodiments of the present invention, and it should be noted that: for those skilled in the art, without departing from the principle of the present invention, several modifications and equivalent substitutions can be made, and these modifications and equivalent substitutions do not depart from the technical scope of the present invention.

Claims (10)

1. The utility model provides a screen body laser cutting smoke and dust and waste material clearance subassembly, its characterized in that, includes dust absorption chamber (310) and sets up connect hopper (320) below dust absorption chamber (310), dust absorption chamber (310) with connect hopper (320) intercommunication, be provided with on dust absorption chamber (310) and be used for siphoning away smoke and dust vacuum conveyor (330) of smoke and dust, it is provided with waste material vacuum conveyor (340) that are used for siphoning away the waste material to connect hopper (320) below, be provided with in dust absorption chamber (310) and filter baffle (350) that can filter the smoke and dust.

2. The soot and waste cleaning assembly of claim 1, wherein said filtering baffle (350) is inclined towards the inlet side of the dust suction chamber (310).

3. The soot and waste cleaning assembly according to claim 1, characterized in that the dust suction chamber (310) is provided with a blowback connector (311), and the waste adsorbed on the filtering partition (350) can be blown off by the air flow blown from the blowback connector (311).

4. The fume and waste cleaning assembly according to claim 1, wherein the receiving hopper (320) has an inlet width greater than the width of the dust suction chamber (310) such that waste material is facilitated to enter the receiving hopper (320).

5. The soot and waste cleaning assembly according to any one of claims 1-4, characterized in that the soot vacuum conveyor (330) and the waste vacuum conveyor (340) are each a siphon vacuum conveyor comprising a siphon chamber (341), and the siphon chamber (341) is provided with a siphon air supply connection (342), and when the siphon air supply connection (342) is vented, a siphon effect can be generated in the siphon chamber (341) to suck the soot or waste away.

6. The fume and waste cleaning assembly according to claim 5, characterized in that a fume duct (350) is connected to said fume vacuum conveyor (330).

7. The fume and waste cleaning assembly according to claim 5, characterized in that the waste vacuum conveyor (340) is connected to a waste collection cassette (370) by a waste conduit (360).

8. A screen laser cutting dedusting and waste cleaning device is characterized by comprising a rack (100), a lifting module (200) arranged on the rack (100), a smoke and waste cleaning assembly (300) as set forth in any one of claims 1-7, a supporting table (400) arranged on the lifting module (200), and an air knife (500) obliquely arranged above the supporting table (400), wherein the lifting module (200) can drive the supporting table (400) to move up and down;

the inlet of the dust suction cavity (310) of the smoke and waste cleaning assembly (300) is close to the supporting platform (400), the receiving hopper (320) of the smoke and waste cleaning assembly (300) is received below the supporting platform (400), and the smoke and waste can be blown into the smoke and waste cleaning assembly (300) by the airflow blown by the air knife (500).

9. The screen laser cutting, dedusting and waste cleaning device of claim 8, wherein the support table (400) comprises a lifting rod (410) connected with the lifting module (200) and a support table main body (420) arranged on the lifting rod (410), the support table main body (420) is provided with a plurality of air holes (430), and vacuum can be generated at the air holes (430) to suck the screen.

10. The laser cutting dust removal and waste cleaning device for the screen body according to claim 9, wherein a notch (390) is formed in an inlet edge of the receiving hopper (320), and the lifting rod (410) correspondingly penetrates through the notch (390).

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