CN212041383U - Glass covers brilliant raw materials screening plant - Google Patents

Abstract

The utility model discloses a glass coated raw material screening device, belonging to the technical field of glass screening and recovery, comprising a feeding groove, a feeding conveyor belt is arranged right below the feeding trough, a funnel is arranged at one side of the lower end of the feeding conveyor belt, the two sides of the top of the funnel are symmetrically connected with supporting columns, a sieve bed is arranged between the supporting columns, the vibrating motors are arranged on both sides of the sieve bed, the cart is arranged under the funnel, the utility model utilizes the crusher body to crush the cleaned glass by arranging the crushing and drying component, meanwhile, the heating pipe in the inner wall of the crushing and drying box dries the crushed glass to perform crushing and drying at the same time, the crushed and dried glass is sent into the cavity of the barrel through the first discharge hole, under the drive of the driving motor, the rotating shaft drives the helical blade to convey the crushed and dried glass to the crushing conveyor belt through the second discharge hole.

Description

Glass covers brilliant raw materials screening plant

Technical Field

The utility model belongs to the technical field of the glass screening is retrieved, concretely relates to glass covers crystal raw materials screening plant.

Background

The recycling of waste materials is also a sustainable development mode, and a lot of waste materials can also generate unexpected value through recycling; in the field of deep processing of hollow glass, a lot of waste glass exists, and the waste glass fragments are pushed in a workshop, so that the workshop is occupied in a large space, and the cleaning management of the workshop is not utilized, therefore, a screening and recycling device for the waste glass is produced.

The prior art has the following problems: some existing waste glass screening and recycling devices have some defects, for example, water used for cleaning waste glass cannot be recycled, so that a large amount of water resources are wasted; the broken limit of accomplishing is dried when carrying out the breakage to useless glass, and there is moisture on the glass surface after the breakage to appear, and this machine fault probably appears when carrying on the conveyer belt.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a glass covers crystal raw materials screening plant has cyclic utilization, the characteristics of broken limit stoving in limit.

In order to achieve the above object, the utility model provides a following technical scheme: a glass coated raw material screening device comprises a feeding trough, a feeding conveyor belt is installed under the feeding trough, a funnel is arranged on one side of the lower end of the feeding conveyor belt, support columns are symmetrically connected to two sides of the top of the funnel, a screen bed is arranged between the support columns, vibrating motors are installed on two sides of the screen bed, a cart is arranged under the funnel, a cleaning base is arranged on one side, away from the feeding trough, of the funnel, a cleaning roller is arranged on the top of the cleaning base, a water tank is installed on one side of the top of the cleaning roller, a cleaning motor is installed on the other side of the top of the cleaning roller, a first water pump is installed on one side, close to the cleaning motor, of the water tank, a sewage filtering component is installed at the bottom of the cleaning base, a second water pump is installed on the top of the sewage filtering component, and a crushing and drying, install broken conveyer belt under broken stoving subassembly, install the receipts material conveyer belt under the one end that washing base was kept away from to broken conveyer belt, the surface of receiving the material conveyer belt is connected with the baffle.

Preferably, broken stoving subassembly includes feed inlet, cracker body, heating pipe, first discharge gate, driving motor, pivot, helical blade, second discharge gate, cask cavity, broken stoving case and rotation motor, wherein, the top of broken stoving case is provided with the feed inlet, the internally mounted of broken stoving case has the cracker body, the rotation motor is installed in the outside of broken stoving case, the heating pipe is installed in the both sides inner wall embedding of broken stoving case, the lower extreme of broken stoving case is provided with the cask cavity, the top of cask cavity is provided with first discharge gate, the pivot is installed in the inside embedding of cask cavity, the one end of pivot is connected with driving motor, the surface mounting of pivot has helical blade, bottom one side of broken stoving case is provided with the second discharge gate.

Preferably, the sewage filtering component comprises a sewage tank, a liquid inlet pipe, a first filtering barrel, an activated carbon filtering screen, a communicating pipeline, a deslagging port, a supporting seat, a second filtering barrel, a clamping groove, a fiber ball filtering screen, a purifying cotton filtering layer and a quartz sand filtering screen, wherein the liquid inlet pipe is arranged on one side of the bottom of the sewage tank, the first filtering barrel is connected to one end, away from the sewage tank, of the liquid inlet pipe, the activated carbon filtering screen is arranged in the first filtering barrel, the communicating pipeline is connected to one side, away from the sewage tank, of the first filtering barrel, the second filtering barrel is connected to one end, away from the first filtering barrel, of the communicating pipeline, the supporting seat is installed at the lower end of the second filtering barrel, the deslagging port is arranged at the bottom of the second filtering barrel, the purifying cotton filtering layer is arranged in the middle position in the second filtering barrel, and the fiber ball filtering screen is arranged on one, the other side of purifying the soft filter layer is provided with the quartz sand filter screen, the both ends of fibre ball filter screen, purifying soft filter layer and quartz sand filter screen all are provided with the draw-in groove.

Preferably, the support column is connected to the top of the funnel through a fixing bolt, the support column is connected with the sieve bed through a spring, and sieve holes are formed in a bottom plate in the sieve bed.

Preferably, the crushing and drying box is connected with the crusher body through a coupling, the rotating motor is fixed on the outer side of the crushing and drying box through bolts, the inner wall of the crushing and drying box is provided with round holes, and heating pipes are embedded into the round holes in the inner wall of the crushing and drying box.

Preferably, the driving motor and the rotating shaft are of an integrated structure, and the helical blade is fixed on the outer surface of the rotating shaft in a brazing mode.

Preferably, the active carbon filter screen passes through fixing bolt and connects on the inner wall of first filter vat, all through threaded connection between intercommunication pipeline and first filter vat and the second filter vat, fibre ball filter screen, purification cotton filter layer and quartzy husky filter screen pass through the inboard that the sealing rubber strip was fixed at the draw-in groove.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up broken stoving subassembly, utilize the cracker body to carry out the breakage to the glass after wasing, meanwhile, heating pipe in the broken stoving incasement wall carries out drying process to broken glass, plays the effect of broken limit stoving in the limit, and the glass of broken stoving is sent into the cask cavity by first discharge gate again, under driving motor's drive, makes the pivot drive helical blade send broken glass of drying to broken conveyer belt through the second discharge gate.

2. The utility model discloses a set up sewage filtering component, utilize first filter vat to carry the sewage of coming in and carry out the first filtration, the sewage after the filtration passes through the intercommunication pipeline and carries the second filter vat in, passes through the triple filtration of fibre ball filter screen, purification cotton filter layer, quartz sand filter screen again, and all filtration fall the waste residue of falling all from the row's cinder notch discharge, make sewage obtain more perfect purification treatment, realized that the water resource can recycle.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the crushing and drying assembly of the present invention;

FIG. 3 is a schematic structural view of the sewage filtering assembly of the present invention;

fig. 4 is a top cross-sectional view of a second lauter tun according to the present invention;

in the figure: 1. a receiving conveyor belt; 2. a baffle plate; 3. a crushing and drying component; 301. a feed inlet; 302. a shredder body; 303. heating a tube; 304. a first discharge port; 305. a drive motor; 306. a rotating shaft; 307. a helical blade; 308. a second discharge port; 309. a barrel cavity; 310. a crushing and drying box; 311. rotating the motor; 4. crushing the conveyor belt; 5. cleaning the base; 6. a sewage filtration assembly; 601. a sewage tank; 602. a liquid inlet pipe; 603. a first filter vat; 604. an active carbon filter screen; 605. a communicating pipe; 606. a slag discharge port; 607. a supporting seat; 608. a second filter vat; 609. a card slot; 610. a fiber ball filter screen; 611. purifying a cotton filter layer; 612. a quartz sand filter screen; 7. cleaning the roller; 8. a second water pump; 9. pushing a cart; 10. a funnel; 11. a sieve bed; 12. a feeding conveyor belt; 13. a feeding trough; 14. a vibration motor; 15. a support pillar; 16. cleaning the motor; 17. a first water pump; 18. a water tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: a glass coated crystal raw material screening device comprises a feeding trough 13, a feeding conveyor belt 12 is installed right below the feeding trough 13, a funnel 10 is arranged on one side of the lower end of the feeding conveyor belt 12, support columns 15 are symmetrically connected to two sides of the top of the funnel 10, a screening bed 11 is arranged between the support columns 15, in order to screen impurities for the first time on waste glass, fine impurities doped in the waste glass are screened out, the support columns 15 are connected to the top of the funnel 10 through fixing bolts, the support columns 15 are connected with the screening bed 11 through springs, and a bottom plate in the screening bed 11 is provided with screen holes; vibrating motor 14 is all installed to sieve bed 11's both sides, be provided with shallow 9 under funnel 10, one side that silo 13 was kept away from to funnel 10 is provided with washing base 5, the top of washing base 5 is provided with cleaning roller 7, water tank 18 is installed to top one side of cleaning roller 7, cleaning motor 16 is installed to cleaning roller 7's top opposite side, water tank 18 is close to one side of cleaning motor 16 and installs first water pump 17, wash base 5's bottom and install sewage filter assembly 6, second water pump 8 is installed on sewage filter assembly 6's top, one side that funnel 10 was kept away from to washing base 5 is provided with broken drying assembly 3, broken conveyer belt 4 is installed under broken drying assembly 3, broken conveyer belt 4 is kept away from under the one end of washing base 5 and is installed and is received material conveyer belt 1, the surface connection of conveyer belt 1 has baffle 2.

The crushing and drying assembly 3 comprises a feed inlet 301, a crusher body 302, a heating pipe 303, a first discharge port 304, a driving motor 305, a rotating shaft 306, a helical blade 307, a second discharge port 308, a barrel cavity 309, a crushing and drying box 310 and a rotating motor 311, wherein, the top of the crushing and drying box 310 is provided with a feed inlet 301, the crushing and drying box 310 is internally provided with a crusher body 302, the outer side of the crushing and drying box 310 is provided with a rotating motor 311, the inner walls at two sides of the crushing and drying box 310 are embedded and provided with heating pipes 303, in order to crush and dry the cleaned glass, the subsequent process is facilitated, the crushing and drying box 310 is connected with the crusher body 302 through a coupling, the rotating motor 311 is fixed on the outer side of the crushing and drying box 310 through bolts, a circular hole is formed in the inner wall of the crushing and drying box 310, and a heating pipe 303 is embedded in the circular hole in the inner wall of the crushing and drying box 310; a barrel cavity 309 is formed in the lower end of the crushing and drying box 310, a first discharge hole 304 is formed in the top of the barrel cavity 309, a rotating shaft 306 is embedded in the barrel cavity 309, a driving motor 305 is connected to one end of the rotating shaft 306, a helical blade 307 is installed on the outer surface of the rotating shaft 306, in order to stir and push the crushed and dried glass to a second discharge hole 308, the driving motor 305 and the rotating shaft 306 are of an integrated structure, and the helical blade 307 is fixed on the outer surface of the rotating shaft 306 in a brazing mode; a second discharge hole 308 is arranged at one side of the bottom of the crushing and drying box 310.

The sewage filtering component 6 comprises a sewage tank 601, a liquid inlet pipe 602, a first filtering barrel 603, an activated carbon filtering net 604, a communicating pipeline 605, a slag discharge port 606, a supporting seat 607, a second filtering barrel 608, a clamping groove 609, a fiber ball filtering net 610, a purifying cotton filtering layer 611 and a quartz sand filtering net 612, wherein one side of the bottom of the sewage tank 601 is provided with the liquid inlet pipe 602, one end of the liquid inlet pipe 602 away from the sewage tank 601 is connected with the first filtering barrel 603, the inside of the first filtering barrel 603 is provided with the activated carbon filtering net 604, one side of the first filtering barrel 603 away from the sewage tank 601 is connected with the communicating pipeline 605, one end of the communicating pipeline 605 away from the first filtering barrel 603 is connected with the second filtering barrel 608, the lower end of the second filtering barrel 608 is provided with the supporting seat 607, the bottom of the second filtering barrel 608 is provided with the slag discharge port 606, the middle position inside the second filtering barrel 608 is provided with the purifying cotton filtering layer 611, one side, the other side of the purification cotton filter layer 611 is provided with a quartz sand filter screen 612, both ends of the fiber ball filter screen 610, the purification cotton filter layer 611 and the quartz sand filter screen 612 are provided with clamp slots 609, in order to perform filtration and purification treatment on sewage in the sewage tank 601 and realize recycling of water resources, the activated carbon filter screen 604 is connected to the inner wall of the first filter barrel 603 through fixing bolts, the communicating pipeline 605 is connected with the first filter barrel 603 and the second filter barrel 608 through threads, and the fiber ball filter screen 610, the purification cotton filter layer 611 and the quartz sand filter screen 612 are fixed to the inner side of the clamp slots 609 through sealing rubber strips.

The utility model discloses a theory of operation and use flow: when the device is used, firstly, waste glass is poured into the feeding groove 13, the waste glass falling from the feeding groove 13 is conveyed to the sieve bed 11 through the feeding conveyor belt 12, then the vibration motor 14 is started, the sieve bed 11 is vibrated under the driving of the vibration motor 14, impurities in the waste glass fall into the funnel 10 through sieve holes on the sieve bed 11 and then fall into the trolley 9, after the trolley 9 is fully piled up, the trolley 9 is pushed away by a worker to be treated, the sieved waste glass is conveyed into the cleaning roller 7, the cleaning motor 16 and the first water pump 17 are started, the cleaning roller 7 is driven by the cleaning motor 16 to stir the waste glass and simultaneously push the waste glass to move forward, the first water pump 17 leads water in the water tank 18 into the cleaning roller 7 to clean the waste glass, the cleaned water falls into the sewage pool 601 through a water outlet on the cleaning roller 7, and the sewage in the sewage pool 601 is primarily filtered and purified through the activated carbon filter screen 604 in the first filter barrel 603 in the sewage filter assembly 6, the sewage after primary filtration is conveyed into a second filter barrel 608 through a communication pipeline 605, the sewage is purified into water which can be recycled through triple filtration of a fiber ball filter screen 610, a purification cotton filter layer 611 and a quartz sand filter screen 612, the filtered waste slag is discharged through a slag discharge port 606 in the whole process, the purified water is conveyed into a water tank 18 again through a second water pump 8, the recycling of water resources is realized, the environment is protected, and the cost is saved, the cleaned glass enters a crushing and drying box 310 from a feed inlet 301, a rotating motor 311 is started, a crusher body 302 is driven to rotate by the rotating motor 311, a heating pipe 303 is started at the same time, the drying treatment of the cleaned glass while crushing is realized, the drying of the glass is accelerated, the drying efficiency is improved, then the glass is conveyed into a barrel cavity 309 through a first discharge port 304, the crushed and dried glass is conveyed and stirred while pushed into a second discharge port 308 through a spiral blade 307 indirectly rotating the rotating motor 311, and then the materials are conveyed to the material receiving conveyor belt 1 by the crushing conveyor belt 4 to be subjected to the next process.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a glass covers crystal raw materials screening plant, includes silo (13) of going up, its characterized in that: a feeding conveyor belt (12) is installed under the feeding trough (13), a funnel (10) is arranged on one side of the lower end of the feeding conveyor belt (12), support columns (15) are symmetrically connected to two sides of the top of the funnel (10), a sieve bed (11) is arranged between the support columns (15), vibrating motors (14) are installed on two sides of the sieve bed (11), a cart (9) is arranged under the funnel (10), a cleaning base (5) is arranged on one side, away from the feeding trough (13), of the funnel (10), a cleaning roller (7) is arranged on the top of the cleaning base (5), a water tank (18) is installed on one side of the top of the cleaning roller (7), a cleaning motor (16) is installed on the other side of the top of the cleaning roller (7), and a first water pump (17) is installed on one side, close to the cleaning motor (16), of the water tank (18), wash the bottom of base (5) and install sewage filtering component (6), second water pump (8) are installed on the top of sewage filtering component (6), the one side of keeping away from funnel (10) in washing base (5) is provided with broken stoving subassembly (3), install broken conveyer belt (4) under broken stoving subassembly (3), broken conveyer belt (4) are kept away from under the one end of washing base (5) and are installed and receive material conveyer belt (1), the surface connection who receives material conveyer belt (1) has baffle (2).

2. The device for screening raw materials for chip on glass as claimed in claim 1, wherein: the crushing and drying component (3) comprises a feed inlet (301), a crusher body (302), a heating pipe (303), a first discharge hole (304), a driving motor (305), a rotating shaft (306), a helical blade (307), a second discharge hole (308), a barrel cavity (309), a crushing and drying box (310) and a rotating motor (311), wherein the feed inlet (301) is arranged at the top of the crushing and drying box (310), the crusher body (302) is arranged inside the crushing and drying box (310), the rotating motor (311) is arranged outside the crushing and drying box (310), the heating pipe (303) is embedded and installed on the inner walls of two sides of the crushing and drying box (310), the lower end of the crushing and drying box (310) is provided with the barrel cavity (309), the first discharge hole (304) is arranged at the top of the barrel cavity (309), the rotating shaft (306) is embedded and installed inside the barrel cavity (309), one end of the rotating shaft (306) is connected with a driving motor (305), the outer surface of the rotating shaft (306) is provided with a helical blade (307), and one side of the bottom of the crushing and drying box (310) is provided with a second discharge hole (308).

3. The device for screening raw materials for chip on glass as claimed in claim 1, wherein: the sewage filtering component (6) comprises a sewage tank (601), a liquid inlet pipe (602), a first filtering barrel (603), an activated carbon filtering net (604), a communicating pipeline (605), a slag discharge port (606), a supporting seat (607), a second filtering barrel (608), a clamping groove (609), a fiber ball filtering net (610), a purifying cotton filtering layer (611) and a quartz sand filtering net (612), wherein the liquid inlet pipe (602) is arranged on one side of the bottom of the sewage tank (601), one end, far away from the sewage tank (601), of the liquid inlet pipe (602) is connected with the first filtering barrel (603), the activated carbon filtering net (604) is installed inside the first filtering barrel (603), the communicating pipeline (605) is connected on one side, far away from the sewage tank (601), of the communicating pipeline (605), one end, far away from the first filtering barrel (603), is connected with the second filtering barrel (608), supporting seat (607) are installed to the lower extreme of second filter vat (608), the bottom of second filter vat (608) is provided with row cinder notch (606), the inside intermediate position of second filter vat (608) is provided with and purifies cotton filter layer (611), the one side of purifying cotton filter layer (611) is provided with fibre ball filter screen (610), the opposite side of purifying cotton filter layer (611) is provided with quartz sand filter screen (612), the both ends of fibre ball filter screen (610), purification cotton filter layer (611) and quartz sand filter screen (612) all are provided with draw-in groove (609).

4. The device for screening raw materials for chip on glass as claimed in claim 1, wherein: the support column (15) is connected to the top of the funnel (10) through a fixing bolt, the support column (15) is connected with the sieve bed (11) through a spring, and sieve holes are formed in a bottom plate in the sieve bed (11).

5. The device for screening raw materials for chip on glass as claimed in claim 2, wherein: the crushing and drying box (310) is connected with the crusher body (302) through a coupler, the rotating motor (311) is fixed on the outer side of the crushing and drying box (310) through bolts, round holes are formed in the inner wall of the crushing and drying box (310), and heating pipes (303) are embedded in the round holes in the inner wall of the crushing and drying box (310).

6. The device for screening raw materials for chip on glass as claimed in claim 2, wherein: the driving motor (305) and the rotating shaft (306) are of an integrated structure, and the helical blade (307) is fixed on the outer surface of the rotating shaft (306) in a brazing mode.

7. The device for screening raw materials for chip on glass as claimed in claim 3, wherein: the activated carbon filter screen (604) is connected to the inner wall of the first filter barrel (603) through a fixing bolt, the communicating pipeline (605) is connected with the first filter barrel (603) and the second filter barrel (608) through threads, and the fiber ball filter screen (610), the purification cotton filter layer (611) and the quartz sand filter screen (612) are fixed to the inner side of the clamping groove (609) through a sealing rubber strip.

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