CN211488969U - Water-saving glass substrate belt cleaning device - Google Patents

Abstract

The application provides a water-saving glass substrate belt cleaning device, including the support body, set up the horizontal transport device in support body lower part the place ahead, set up in the support body lower part and be located the slope conveyor rear, set up the corner device on support body upper portion, set up the belt cleaning device in slope conveyor upper and lower both sides, set up the circulating device in support body below and set up the water supply installation in circulating device below. The glass cleaning device is provided with the corner device and the inclined conveying device, the corner device enables the glass to be obliquely placed on the inclined conveying device for conveying, and water flows downwards along the glass surface during cleaning, so that the using amount of water during washing is reduced; the cleaning device is provided with an upper cleaning assembly and a lower cleaning assembly, and the upper surface and the lower surface of the glass are cleaned simultaneously, so that the cleaning efficiency and the cleaning effect of the glass are greatly improved; the circulating device is arranged, the glass-cleaned sewage is recycled after multi-stage treatment, the water utilization amount is greatly reduced, and the water utilization rate is greatly improved.

Description

Water-saving glass substrate belt cleaning device

Technical Field

The application relates to the field of glass production equipment, in particular to a water-saving glass substrate cleaning device.

Background

Glass course of working needs a plurality of process flows, wherein wash as its important process flow, adopt the cleaning machine to wash usually, current cleaning machine mostly is through conveyer, with glass with the horizontal state of placing transport cleaning machine down wash, abluent in-process, the spot can spread other positions of glass, want the sanitization to need more water to wash, glass both sides face all needs the washing simultaneously, and current device can only wash one side, the cleaning performance is also not ideal.

Disclosure of Invention

The present application provides a water-saving glass substrate cleaning apparatus for solving the above-mentioned technical problems.

The technical scheme adopted by the application is as follows: a water-saving glass substrate cleaning device is characterized by comprising a frame body, a horizontal conveying device arranged in front of the lower part of the frame body, an inclined conveying device arranged at the lower part of the frame body and positioned behind the horizontal conveying device, a corner device arranged at the upper part of the frame body, cleaning devices arranged at the upper side and the lower side of the inclined conveying device, a circulating device arranged below the frame body and a water supply device arranged below the circulating device;

the horizontal conveying device comprises a plurality of parallel horizontal rotating shafts arranged on the frame body and a plurality of horizontal conveying wheels arranged on the horizontal rotating shafts; the inclined conveying device comprises an inclined support frame, a plurality of parallel inclined rotating shafts and a plurality of inclined conveying wheels, wherein the inclined support frame is arranged below the frame body and is arranged in a left-low-right-high manner; the cleaning device comprises an upper cleaning assembly arranged at the upper part of the inclined support frame and a lower cleaning assembly arranged at the lower part of the inclined support frame, the upper cleaning assembly comprises an upper washing assembly arranged at the upper part of the inclined support frame and a plurality of upper cleaning assemblies arranged at the upper part of the inclined support frame, and the lower cleaning assembly comprises a lower washing assembly arranged at the lower part of the inclined support frame and a plurality of lower cleaning assemblies arranged below the inclined support frame; the upper washing assembly and the lower washing assembly respectively comprise a main water pipe parallel to a horizontal cross beam of the inclined support frame and a plurality of branch water pipes parallel to the inclined rotating shaft and vertically communicated with the main water pipe, and a plurality of nozzles facing the inclined conveying device are arranged on the branch water pipes; the upper cleaning assembly and the lower cleaning assembly respectively comprise brackets which are arranged on horizontal cross beams on the left side and the right side of the inclined support frame and are vertical to the inclined support frame and cleaning rollers arranged on the brackets, and the cleaning rollers and the branch water pipes are arranged at intervals;

the circulating device is arranged below the inclined support frame and comprises a collecting box, a filter screen arranged on the upper part of the collecting box, a cleaning device arranged on the filter screen and an active carbon filter layer arranged below the filter screen; the water supply device comprises a water storage tank, a water supply pipe and a water pump, wherein the water supply pipe is arranged below the water storage tank and is connected with the upper flushing assembly and the lower flushing assembly, the water pump is arranged on the water supply pipe, and the side wall of the lower part of the collection tank is provided with a connecting pipe and is communicated with the upper part of the water storage tank through the connecting pipe.

Furthermore, the inclined support frame comprises an inclined support frame body and a plurality of sliding guide pieces arranged on the inclined support frame body and positioned on the horizontal cross beam on the left side, and each sliding guide piece comprises a sliding guide shaft perpendicular to the inclined support frame body and a sliding guide wheel arranged on the sliding guide shaft.

Further, horizontal transfer wheel and slope transfer wheel all include the transfer wheel body and overlap the annular rubber pad of establishing on the transfer wheel body.

Further, the corner device includes that the first actuating cylinder that drives that sets up on support body upper portion, slide to set up on support body upper portion and with the first actuating cylinder output articulated removal frame that drives, articulate at the connecting rod that removes frame middle part below, one end articulate at the second that removes frame below one end and articulate in the connecting rod below and drive actuating cylinder, set up the bottom plate in the connecting rod below, set up a plurality of third that drive actuating cylinder and the sucking disc of setting in third drive actuating cylinder output below in the bottom plate below.

Furthermore, the filter screen is the filter screen of several font, cleaning device sets up on several font filter screen upper portions, and including setting up the cleaning brush on filter screen upper portion, set up in the outside lateral wall of collecting box and the output passes the fourth drive cylinder that the lateral wall links to each other with the cleaning brush middle part and sets up a plurality of slide bars of leading between the two relative lateral walls in the collecting box, lead the slide bar and pass cleaning brush upper portion perpendicularly.

The application has the advantages and positive effects that: the water-saving glass substrate cleaning device is provided with the corner device, the inclined conveying device and the cleaning device, the corner device can rotate the glass conveyed by the horizontal conveying device by a certain angle and place the glass on the inclined conveying device for conveying, the glass is inclined with the horizontal plane when being arranged on the inclined conveying device, and water flow can flow along the surface of the glass during cleaning, so that stains, dust and the like on the surface of the glass can be conveniently taken away, the stains, the dust and the like are prevented from being diffused to other parts of the glass, the glass cleaning effect is greatly improved, and the utilization amount of water during washing is reduced; the cleaning device is provided with the upper cleaning assembly and the lower cleaning assembly, so that the upper surface and the lower surface of the glass can be cleaned simultaneously, and the cleaning efficiency and the cleaning effect of the glass are greatly improved; the circulating device is arranged, the glass-cleaned sewage is recycled after multi-stage treatment, the water utilization amount is greatly reduced, and the water utilization rate is greatly improved.

In addition to the technical problems addressed by the present application, the technical features constituting the technical solutions, and the advantages brought by the technical features of the technical solutions described above, other technical problems solved by the present application, other technical features included in the technical solutions, and advantages brought by the technical features will be further described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic view of a water-saving glass substrate cleaning apparatus according to the background art of the present application;

FIG. 2 is a schematic structural diagram of a horizontal conveying device, an inclined conveying device and a cleaning device provided by an embodiment of the application;

FIG. 3 is a schematic structural diagram of an upper cleaning assembly and a lower cleaning assembly provided by an embodiment of the present application;

FIG. 4 is a schematic structural diagram of an upper flushing assembly and a lower flushing assembly provided by an embodiment of the application;

FIG. 5 is a schematic structural diagram of an upper cleaning assembly and a lower cleaning assembly provided by an embodiment of the present application;

FIG. 6 is a schematic structural diagram of a circulation device and a water supply device provided by an embodiment of the present application;

FIG. 7 is a schematic view of an embodiment of the present application showing a tilt support structure;

FIG. 8 is a schematic view of the structure of a horizontal transfer wheel and an inclined transfer wheel provided in the embodiments of the present application;

fig. 9 is a schematic structural diagram of a corner device provided in an embodiment of the present application;

fig. 10 is a schematic structural diagram of a cleaning apparatus according to an embodiment of the present application.

In the figure: 1, a frame body; 2a horizontal conveying device; 210 a horizontal rotation axis; 220 a horizontal transfer wheel; 3, inclining the conveying device; 310 inclining the support frame; 311 inclining the support frame body; 312a slide guide; 312a guide slide shaft; 312b a guide pulley; 320 tilting the rotation axis; 330 an inclined transfer wheel; 4, a corner turning device; 410 a first drive cylinder; 420 a mobile rack; 430 a connecting rod; 440 a second drive cylinder; 450 a base plate; 460 third driving cylinder; 470 suction cup; 5, cleaning the device; 510 cleaning the component; 511 washing the component; 512 upper cleaning assembly; a lower cleaning assembly 520; 521 lower flushing component; 522 lower cleaning assembly; 6, a circulating device; 610 a collection box; 620, a filter screen; 630 a cleaning device; 631 a cleaning brush; 632 a fourth drive cylinder; 633 a slide bar; 640 an activated carbon filter layer; 7 a water supply device; 710 a water reservoir; 720 water supply pipes; 730 water pump; 8, a main water pipe; 9 water pipes; 910, a nozzle; 10, a bracket; 11 cleaning the roller; 12a connecting pipe; 13 a transfer wheel body; 14 ring rubber pad

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1, 2, 3, 4, 5 and 6, a water-saving glass substrate cleaning device 5 is characterized by comprising a frame body 1, a horizontal conveying device 2 arranged in front of the lower part of the frame body 1, an inclined conveying device 3 arranged at the lower part of the frame body 1 and positioned behind the horizontal conveying device 2, a corner device 4 arranged at the upper part of the frame body 1, cleaning devices 5 arranged at the upper and lower sides of the inclined conveying device 3, a circulating device 6 arranged below the frame body 1 and a water supply device 7 arranged below the circulating device 6;

the horizontal conveying device 2 comprises a plurality of horizontal rotating shafts 210 arranged on the frame body 1 and parallel to each other, and a plurality of horizontal conveying wheels 220 arranged on the horizontal rotating shafts 210; the inclined conveying device 3 comprises an inclined support frame 310 which is arranged below the frame body 1 and is arranged in a left-low-right-high manner, a plurality of inclined rotating shafts 320 which are arranged on the inclined support frame 310 and are parallel to each other, and a plurality of inclined conveying wheels 330 which are arranged on the inclined rotating shafts 320; the cleaning device 5 comprises an upper cleaning assembly 510 arranged at the upper part of the inclined support frame 310 and a lower cleaning assembly 520 arranged at the lower part of the inclined support frame 310, wherein the upper cleaning assembly 510 comprises an upper flushing assembly 511 arranged at the upper part of the inclined support frame 310 and a plurality of upper cleaning assemblies 512 arranged at the upper part of the inclined support frame 310, and the lower cleaning assembly 520 comprises a lower flushing assembly 521 arranged at the lower part of the inclined support frame 310 and a plurality of lower cleaning assemblies 522 arranged below the inclined support frame 310; the upper washing assembly 511 and the lower washing assembly 521 both comprise a main water pipe 8 parallel to a horizontal beam of the inclined support frame 310 and a plurality of branch water pipes 9 parallel to the inclined rotating shaft 320 and vertically communicated with the main water pipe 8, and a plurality of nozzles 910 facing the inclined conveying device 3 are arranged on the branch water pipes 9; the upper cleaning assembly 512 and the lower cleaning assembly 522 both comprise a bracket 10 which is arranged on horizontal beams on the left side and the right side of the inclined support frame 310 and is vertical to the inclined support frame 310 and a cleaning roller 11 arranged on the bracket 10, and the cleaning roller 11 and the branch water pipe 9 are arranged at intervals;

the circulating device 6 is arranged below the inclined support frame 310, and the circulating device 6 comprises a collecting box 610, a filter screen 620 arranged on the upper part of the collecting box 610, a cleaning device 630 arranged on the filter screen 620 and an activated carbon filter layer 640 arranged below the filter screen 620; the water supply device 7 includes a water tank 710, a water supply pipe 720 disposed below the water tank 710 and connected to the upper and lower washing assemblies 511 and 521, and a water pump 730 disposed on the water supply pipe 720, and the collection tank 610 has a connection pipe 12 on a lower sidewall thereof and communicates with an upper portion of the water tank 710 through the connection pipe 12.

In this embodiment, the frame body 1 is a basic component of the glass substrate cleaning device 5, the horizontal conveying device 2 is disposed at the front portion of the frame body 1, in this embodiment, the horizontal conveying device 2 is provided with a plurality of horizontal rotating shafts 210 and a plurality of horizontal conveying wheels 220, the horizontal rotating shafts 210 are disposed at the lower portion of the frame body 1 in parallel, the horizontal rotating shafts 210 are provided with a plurality of horizontal conveying wheels 220, in this embodiment, the horizontal conveying device 2 is driven by a horizontal driving device, the horizontal driving device comprises a horizontal driving motor and a plurality of belt pulleys, the right end of the horizontal rotating shaft 210 penetrates through the right cross beam of the frame body 1, the output end of the horizontal driving motor is connected with the right end of the horizontal rotating shaft 210 at the front portion of the frame body 1, two adjacent horizontal rotating shafts 210 are connected by belt pulley transmission, during operation, the horizontal driving motor drives the plurality of horizontal, thereby driving the glass arranged on the horizontal transfer wheel 220 to move towards the inclined conveyor 3.

In this embodiment, the rotating device 4 is disposed on the upper portion of the frame 1, and is an adapter of the glass substrate cleaning device 5, which can place the glass on the horizontal conveying device 2 on the inclined conveying device 3 in an inclined manner, in this embodiment, the inclined conveying device 3 is provided with an inclined support frame 310, a plurality of inclined rotating shafts 320 and a plurality of inclined conveying wheels 330, the inclined support frame 310 is rectangular and disposed below the frame 1 in a manner of being lower on the left and higher on the right, in this embodiment, the angle of inclination between the inclined support frame 310 and the horizontal plane is less than 30 degrees, the inclined rotating shafts 320 are disposed between two horizontal beams of the inclined support frame 310 and perpendicular to the two horizontal beams, each inclined rotating shaft 320 is provided with a plurality of inclined conveying wheels 330, in this embodiment, the inclined conveying device 3 is driven by an inclined driving device, the inclined driving device includes an inclined driving motor and a plurality of, the right ends of the inclined rotating shafts 320 penetrate through a beam on the right side of the inclined support frame 310 in a rotating mode, the inclined driving motors are connected with the inclined rotating shafts 320 located in the front portion of the inclined support frame 310, every two adjacent inclined rotating shafts 320 are connected through belt pulleys in a transmission mode, when the inclined glass conveying device works, the glass conveyed by the horizontal conveying device 2 is rotated by a certain angle through the corner device 4 and placed on the inclined conveying device 3 to be conveyed, the glass is inclined with the horizontal plane when on the inclined conveying device 3, dust on the surface of the glass can be washed away conveniently, and meanwhile the use amount of water in the washing;

in this embodiment, the cleaning apparatus 5 is a key component of the glass substrate cleaning apparatus 5, and is provided with an upper cleaning assembly 510 and a lower cleaning assembly 520, the upper cleaning assembly 510 and the lower cleaning assembly 520 are disposed at the upper and lower sides of the inclined support frame 310, in this embodiment, the upper cleaning assembly 510 includes an upper rinsing assembly 511 disposed at the upper portion of the inclined support frame 310 and a plurality of upper cleaning assemblies 512 disposed at the upper portion of the inclined support frame 310, the lower cleaning assembly 520 includes a lower rinsing assembly 521 disposed at the lower portion of the inclined support frame 310 and a plurality of lower cleaning assemblies 522 disposed below the inclined support frame 310, each of the upper rinsing assembly 511 and the lower rinsing assembly 521 includes a main water pipe 8 parallel to a horizontal beam of the inclined support frame 310 and a plurality of branch water pipes 9 parallel to the inclined rotating shaft 320 and vertically communicating with the main water pipe 8, the branch water pipes 9 are provided with a plurality of nozzles 910 facing the inclined conveying apparatus 3, in this embodiment, an included angle between the nozzle 910 and the inclined conveying device 3 is an acute angle, which is convenient for water flow to flow downwards along the glass, and further helps dirt, dust and the like on the surface of the glass to leave the glass downwards along with the flow of water, thereby greatly improving the cleaning effect of the glass; in this embodiment, the upper cleaning assembly 512 and the lower cleaning assembly 522 each include a bracket 10 disposed on the horizontal beams on the left and right sides of the inclined supporting frame 310 and perpendicular to the inclined supporting frame 310, and a cleaning roller 11 disposed on the bracket 10, the cleaning roller 11 is rotatably disposed on the bracket 10, in this embodiment, the cleaning roller 11 includes a cleaning roller 11 body and cleaning brushes 631 arranged on the cleaning roller 11 body, a cleaning driving device is disposed on the right side of the bracket 10, the cleaning driving device can drive the cleaning roller 11 to rotate, further cleaning the glass surface, in this embodiment, the upper and lower sides of the inclined conveyor 3 are respectively provided with a plurality of upper cleaning assemblies 512 and a plurality of lower cleaning assemblies 522, namely, the upper side and the lower side of the inclined conveying device 3 are provided with a plurality of cleaning rollers 11, the cleaning effect on the upper side and the lower side of the glass is greatly improved, simultaneously, the cleaning roller 11 and the branch water pipe 9 are arranged at intervals, so that the cleaning effect of the glass is further improved.

In this embodiment, the circulating device 6 is disposed below the inclined support frame 310 to facilitate collection of the sewage after cleaning the glass, in this embodiment, the circulating device 6 is provided with a collection box 610, a filter screen 620, a cleaning device 630 and an activated carbon filter layer 640, the collection box 610 is disposed below the inclined support frame 310, the filter screen 620 is disposed on the upper portion of the collection box 610, the activated carbon filter layer 640 is disposed below the filter screen 620, the sewage after cleaning the glass can be filtered through the filter screen 620 and the activated carbon filter layer 640 in multiple stages, recycling of the filtered sewage is facilitated, environmental pollution caused by sewage discharge is greatly reduced, and meanwhile, the utilization rate of water is greatly improved, in this embodiment, the cleaning device 630 is disposed on the filter screen 620 to clean the impurities filtered by the filter screen 620, so as to prevent the impurities from blocking the filter screen 620, and improve the filtering efficiency of the filter screen 620, thereby improving the recycling efficiency of water. In this embodiment, the water supply device 7 is disposed below the circulation device 6, the water supply device 7 is provided with a water storage tank 710, a water supply pipe 720 and a water pump 730, the water storage tank 710 is disposed below the collection tank 610, the lower end of the water supply pipe 720 is disposed below the sidewall of the water storage tank 710 and is communicated with the water storage tank 710, the upper end of the water supply pipe 720 is communicated with the upper flushing assembly 511 and the main water pipe 8 of the lower flushing assembly 521, and the water pump 730 is disposed on the water supply pipe 720; when the water pump 730 works, the water storage tank 710 supplies water for the main water pipe 8 of the upper washing component 511 and the lower washing component 521 through the water supply pipe 720, and then the branch water pipe 9 connected with the main water pipe 8 washes the upper surface and the lower surface of the glass, so that the utilization amount of the washing glass water is greatly reduced through the circulating device 6, and the water utilization rate is greatly improved.

As shown in fig. 7, in a preferred embodiment, the inclined support frame 310 includes an inclined support frame body 311 and a plurality of sliding guides 312 disposed on the inclined support frame body 311 and located on the left horizontal beam, and the sliding guides 312 include sliding guide shafts 312a perpendicular to the inclined support frame body 311 and sliding guide wheels 312b disposed on the sliding guide shafts 312 a.

In this embodiment, the inclined support frame 310 includes an inclined support frame body 311 and a plurality of slide guides 312, the inclined support frame body 311 is rectangular, the inclined support frame body 311 is disposed in a high position from left to right, and the slide guides 312 are disposed on a horizontal beam on the left side of the inclined support frame 310.

In a preferred embodiment, as shown in fig. 8, the horizontal transfer wheel 220 and the inclined transfer wheel 330 each include a transfer wheel body 13 and an annular rubber pad 14 fitted over the transfer wheel body 13.

In this embodiment, each of the horizontal transfer wheel 220 and the inclined transfer wheel 330 includes a transfer wheel body 13 and an annular rubber pad 14 sleeved on the transfer wheel, and the annular rubber pad 14 contacts with the glass, so that the horizontal transfer wheel 220 and the inclined transfer wheel 330 can transfer the glass quickly, and the glass can be cleaned quickly.

As shown in fig. 9, in a preferred embodiment, the corner device 4 includes a first driving cylinder 410 disposed at an upper portion of the frame body 1, a moving frame 420 slidably disposed at an upper portion of the frame body 1 and hinged to an output end of the first driving cylinder 410, a connecting rod 430 hinged below a middle portion of the moving frame 420, a second driving cylinder 440 hinged below the moving frame 420 at one end and hinged below the connecting rod 430 at one end, a base plate 450 disposed below the connecting rod 430, a plurality of third driving cylinders 460 disposed below the base plate 450, and a suction cup 470 disposed below an output end of the third driving cylinders 460.

In this embodiment, the corner device 4 is provided with a first driving cylinder 410, a moving frame 420, a connecting rod 430, a second driving cylinder 440, a bottom plate 450, a plurality of third driving cylinders 460 and a suction cup 470, in this embodiment, the frame body 1 is a cuboid structure, a fixing frame is arranged above the inclined conveying device 3, the body of the first driving cylinder 410 is hinged on the fixing frame, two ends of the moving frame 420 are slidably arranged between the left and right horizontal beams at the upper part of the frame body 1, the output end of the first driving cylinder 410 is hinged with the moving frame 420, the first driving cylinder 410 can push the moving frame 420 to move left and right along the frame body 1, the connecting rod 430 is hinged at the lower end of the moving frame 420 and can swing left and right along the moving frame 420, the body of the second driving cylinder 440 is hinged on the moving frame 420, the output end is hinged at the lower end of the connecting, in this embodiment, a bottom plate 450 is arranged below the connecting rod 430, the connecting rod 430 is perpendicular to the bottom plate 450, a plurality of third driving cylinders 460 are arranged below the bottom plate 450, in this embodiment, the third driving cylinders 460 are fixedly arranged below the bottom plate 450 in an annular array, a suction cup 470 is arranged below the output end of each third driving cylinder 460, the suction cup 470 is connected with an external air source, when the horizontal conveying device 2 conveys the cleaned glass to one side of the inclined conveying device 3, the first driving cylinder 410 pushes the moving frame 420 to move towards the horizontal conveying device 2, when the third driving cylinders 460 arranged in the annular array move to the vicinity of the center of the glass, the first driving cylinder 410 is stopped, at this time, the third driving cylinders 460 drive the suction cups 470 to be close to the glass, when the suction cups 470 are in contact with the surface of the glass, the external air source supplies negative air pressure to the suction cups 470, so that the glass, then the third driving cylinder 460 drives the glass to be far away from the horizontal conveying device 2, meanwhile, the second driving cylinder 440 pushes the connecting rod 430 to rotate so that the glass is parallel to the inclined conveying device 3, then the glass is placed on the inclined conveying device 3 through the third driving cylinder 460, air is supplied into the suction cup 470 through an external air source, so that the suction cup 470 is separated from the glass, and the inclined conveying device 3 conveys the glass to be cleaned through the cleaning device 5.

As shown in fig. 10, in a preferred embodiment, the filter screen 620 is a zigzag filter screen 620, the cleaning device 630 is disposed on the zigzag filter screen 620, and includes a cleaning brush 631 disposed on the filter screen 620, a fourth driving cylinder 632 disposed on the outer side wall of the collection box 610 and having an output end passing through the side wall and connected to the middle of the cleaning brush 631, and a plurality of guide bars 633 disposed between the two opposite side walls in the collection box 610, wherein the guide bars 633 vertically pass through the upper portion of the cleaning brush 631.

In this embodiment, the filter screen 620 is a filter screen 620 with a shape like a Chinese character 'ji', which greatly increases the contact area between the sewage and the filter screen 620, and further greatly increases the filtering efficiency of the sewage, and meanwhile, the filter screen 620 and the sidewall of the collection box 610 form a left and a right elongated receiving cavities for collecting the large granular impurities filtered by the filter screen 620, in this embodiment, the cleaning device 630 is provided with a cleaning brush 631, a fourth driving cylinder 632, and a plurality of guide bars 633, the cleaning brush 631 is disposed on the upper portion of the filter screen 620, the cleaning brush 631 is parallel to the elongated receiving cavities, the fourth driving cylinder 632 is disposed outside the sidewall of the collection box 610, the output end of the fourth driving cylinder 632 passes through the sidewall of the collection box 610 to be connected with the middle portion of the cleaning brush 631, the cleaning brush 631 can move left and right under the effect of the fourth driving cylinder 632, the large granular impurities on the filter screen 620 are cleaned into the left and right elongated receiving, improve filter screen 620's filtration efficiency greatly, be equipped with a plurality of guide slide bars 633 between the collecting box 610 left and right sides wall, guide slide bar 633 and slide and pass clearance brush 631 upper portion, guide slide bar 633 and improved the stability when clearance brush 631 clears up filter screen 620 greatly.

The embodiments of the present application have been described in detail, but the description is only for the preferred embodiments of the present application and should not be construed as limiting the scope of the application. All equivalent changes and modifications made within the scope of the present application shall fall within the scope of the present application.

Claims (5)

1. A water-saving glass substrate cleaning device is characterized by comprising a frame body (1), a horizontal conveying device (2) arranged in front of the lower part of the frame body (1), an inclined conveying device (3) arranged at the lower part of the frame body (1) and positioned behind the horizontal conveying device (2), a corner device (4) arranged at the upper part of the frame body (1), cleaning devices (5) arranged at the upper side and the lower side of the inclined conveying device (3), a circulating device (6) arranged below the frame body (1) and a water supply device (7) arranged below the circulating device (6);

the horizontal conveying device (2) comprises a plurality of parallel horizontal rotating shafts (210) arranged on the frame body (1) and a plurality of horizontal conveying wheels (220) arranged on the horizontal rotating shafts (210); the inclined conveying device (3) comprises an inclined support frame (310) which is arranged below the frame body (1) and is arranged in a left-low-right-high mode, a plurality of inclined rotating shafts (320) which are arranged on the inclined support frame (310) and are parallel to each other, and a plurality of inclined conveying wheels (330) which are arranged on the inclined rotating shafts (320); the cleaning device (5) comprises an upper cleaning component (510) arranged at the upper part of the inclined support frame (310) and a lower cleaning component (520) arranged at the lower part of the inclined support frame (310), the upper cleaning component (510) comprises an upper washing component (511) arranged at the upper part of the inclined support frame (310) and a plurality of upper cleaning components (512) arranged at the upper part of the inclined support frame (310), and the lower cleaning component (520) comprises a lower washing component (521) arranged at the lower part of the inclined support frame (310) and a plurality of lower cleaning components (522) arranged below the inclined support frame (310); the upper washing assembly (511) and the lower washing assembly (521) both comprise a main water pipe (8) parallel to a horizontal beam of the inclined support frame (310) and a plurality of branch water pipes (9) parallel to the inclined rotating shaft (320) and vertically communicated with the main water pipe (8), and a plurality of nozzles (910) facing the inclined conveying device (3) are arranged on the branch water pipes (9); the upper cleaning assembly (512) and the lower cleaning assembly (522) respectively comprise a bracket (10) which is arranged on horizontal cross beams on the left side and the right side of the inclined support frame (310) and is vertical to the inclined support frame (310) and a cleaning roller (11) which is arranged on the bracket (10), and the cleaning roller (11) and the branch water pipe (9) are arranged at intervals;

the circulating device (6) is arranged below the inclined support frame (310), and the circulating device (6) comprises a collecting box (610), a filter screen (620) arranged on the upper part of the collecting box (610), a cleaning device (630) arranged on the filter screen (620) and an activated carbon filter layer (640) arranged below the filter screen (620); the water supply device (7) comprises a water storage tank (710), a water supply pipe (720) arranged below the water storage tank (710) and connected with an upper flushing component (511) and a lower flushing component (521), and a water pump (730) arranged on the water supply pipe (720), wherein a connecting pipe (12) is arranged on the side wall of the lower part of the collecting tank (610), and is communicated with the upper part of the water storage tank (710) through the connecting pipe (12).

2. A water-saving glass substrate cleaning device according to claim 1, wherein the inclined support frame (310) comprises an inclined support frame body (311) and a plurality of slide guides (312) disposed on the inclined support frame body (311) and located on the left horizontal cross beam, and the slide guides (312) comprise a slide guide shaft (312a) perpendicular to the inclined support frame body (311) and a slide guide wheel (312b) disposed on the slide guide shaft (312 a).

3. A water-saving glass substrate cleaning apparatus according to claim 2, wherein the horizontal transfer wheel (220) and the inclined transfer wheel (330) each comprise a transfer wheel body (13) and an annular rubber pad (14) fitted over the transfer wheel body (13).

4. A water-saving glass substrate cleaning apparatus according to claim 3, wherein the corner device (4) comprises a first driving cylinder (410) disposed at an upper portion of the frame body (1), a moving frame (420) slidably disposed at the upper portion of the frame body (1) and hinged to an output end of the first driving cylinder (410), a connecting rod (430) hinged below a middle portion of the moving frame (420), a second driving cylinder (440) having one end hinged below the moving frame (420) and one end hinged below the connecting rod (430), a base plate (450) disposed below the connecting rod (430), a plurality of third driving cylinders (460) disposed below the base plate (450), and a suction cup (470) disposed below an output end of the third driving cylinders (460).

5. A water-saving glass substrate cleaning device according to claim 4, wherein the filter screen (620) is a filter screen in a shape of Chinese character 'ji', the cleaning device (630) is disposed on the upper portion of the filter screen (620) and comprises a cleaning brush (631) disposed on the upper portion of the filter screen (620), a fourth driving cylinder (632) disposed on the outer side wall of the collection box (610) and having an output end passing through the side wall and connected to the middle portion of the cleaning brush (631), and a plurality of guide bars (633) disposed between the two opposite side walls in the collection box (610), and the guide bars (633) vertically pass through the upper portion of the cleaning brush (631).

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