CN212881344U

CN212881344U - Vacuum belt dehydrator applied to clean high-efficiency thermal power thermoelectric desulfurization

Info

Publication number: CN212881344U
Application number: CN202021021277.XU
Authority: CN
Inventors: 李林朋
Original assignee: Dongying Xishui Group Thermal Power Co ltd
Current assignee: Dongying Xishui Group Thermal Power Co ltd
Priority date: 2020-06-06
Filing date: 2020-06-06
Publication date: 2021-04-06
Anticipated expiration: 2030-06-06

Abstract

The utility model discloses a vacuum belt dehydrator applied to clean high-efficiency thermal electric desulfurization, wherein a first cylinder and a stirring frame mechanism are arranged above a dehydration belt mechanism through a vertical frame, a water storage tank is arranged below the dehydration belt mechanism, a scraper plate is arranged below one side of the dehydration belt mechanism through a support, a scrubbing mechanism is arranged behind the scraper plate, a second cylinder and a scraper plate are arranged at the other end of the support through a connecting plate, and a cleaning water recovery mechanism is arranged below the scrubbing mechanism; the utility model discloses a set up the stirring frame mechanism that the liftable was adjusted in dewatering belt mechanism and can stir the thick liquids of treating the dehydration in the dewatering belt mechanism, the speed of dehydration has avoided the not thorough condition of upper slurry dehydration simultaneously, the thorough cleaning of dewatering conveyer belt has been realized to washing water recovery mechanism through scrubbing mechanism cooperation below, the sewage that produces the washing simultaneously filters the recovery, and the water of scrubbing in the mechanism comes from the water that the thick liquids in the water storage tank deviate from, the cyclic utilization of water resource has been realized.

Description

Vacuum belt dehydrator applied to clean high-efficiency thermal power thermoelectric desulfurization

Technical Field

The utility model relates to a thermal power technical field especially relates to a be applied to vacuum belt hydroextractor that clean high-efficient firepower thermoelectric desulfurization was used.

Background

The vacuum belt dehydrator of the desulfurization system is used for pumping water out of the slurry through vacuum suction so as to achieve the purpose of dehydration, the separated gypsum is adhered to the filter cloth, then a large area of gypsum is scraped by a filter cloth scraper at one side of the vacuum belt dehydrator, and then the residual gypsum is flushed by filter cloth flushing water;

the existing equipment is only to wash the phenomenon that the existence is washed unclean with the water, and long-time accumulation can block up the filtration pore to can have certain influence to the filter cloth dewatering effect, and current vacuum belt hydroextractor top is because the filter cloth aperture is tiny, can lead to the unable clear of getting rid of moisture in the gypsum thick liquid on upper strata, causes the dehydration insufficient, consequently, the utility model provides a be applied to the vacuum belt hydroextractor of clean high-efficient firepower thermoelectric desulfurization usefulness in order to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model aims to provide a be applied to vacuum belt hydroextractor that clean high-efficient firepower thermoelectric desulfurization was used, this vacuum belt hydroextractor that is applied to clean high-efficient firepower thermoelectric desulfurization and uses can stir the thick liquids of treating the dehydration through the stirring frame mechanism that sets up liftable regulation in dehydration band mechanism, the speed of dehydration has been accelerated and has been avoided the not thorough condition of upper slurry dehydration simultaneously, the thorough washing of dehydration conveyer belt has been realized to the washing water recovery mechanism through scrubbing mechanism cooperation below, the sewage water to wasing the production simultaneously filters the recovery, and the water of brushing in the mechanism comes from the water that the thick liquids in the water storage tank deviate from, the cyclic utilization of water resource has been realized.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: a vacuum belt dehydrator applied to clean high-efficiency thermal electric desulfurization, which comprises a dehydration belt mechanism and a cleaning mechanism, the dewatering belt mechanism comprises a dewatering belt mechanism, a vertical frame, a first cylinder, a stirring frame mechanism and a water storage tank, a vertical frame is arranged above the dewatering belt mechanism, first air cylinders are symmetrically arranged below the vertical frame, a stirring frame mechanism is arranged below the first air cylinders, a water storage tank is arranged below the dewatering belt mechanism, the cleaning mechanism comprises a bracket, a scraping plate, a scrubbing mechanism, a connecting plate, a second cylinder, a scraping plate and a cleaning water recovery mechanism, a bracket is arranged below one side of the dewatering belt mechanism, a scraping plate is arranged at one end of the bracket, a brushing mechanism is arranged behind the scraping plate, the other end of the support is provided with a connecting plate, a water scraping plate is arranged on the connecting plate through a second air cylinder, and a cleaning water recycling mechanism is arranged below the brushing mechanism.

The further improvement lies in that: the dewatering belt mechanism comprises a conveying frame, a transmission roller, a dewatering conveying belt and a vacuum suction device, the conveying frame support is provided with the transmission roller, the dewatering conveying belt is arranged on the transmission roller, the vacuum suction device is arranged on the conveying frame between the dewatering conveying belts, and a pipeline below the vacuum suction device is connected with the water storage tank.

The further improvement lies in that: the stirring frame mechanism comprises a connecting plate, a first motor, a rotating shaft, a rotating disc and a stirring rod, wherein the connecting plate is arranged below the first air cylinder, the first motor is arranged on the connecting plate, the rotating disc is symmetrically arranged below the connecting plate through the rotating shaft, and the stirring rod is symmetrically arranged below the rotating disc.

The further improvement lies in that: the scrubbing mechanism comprises a booster pump, a water pipe, a water spraying head, a rotating brush and a second motor, the booster pump is arranged on one side of the water storage tank, the water spraying head is obliquely arranged between the supports below the scraper plates through the water pipe, the rotating brush is arranged on one side of the water pipe, the second motor driven by the rotating brush is arranged below the cleaning water recovery mechanism, and the booster pump is connected with the water pipe.

The further improvement lies in that: the washing water recovery mechanism comprises a water receiving tank, a filter screen frame, filter screen cloth and a return pipe, the water receiving tank is arranged under the scrubbing mechanism, the filter screen cloth is arranged in the water receiving tank through the filter screen frame, and the return pipe communicated with the water storage tank is arranged under the water receiving tank.

The further improvement lies in that: the first motor is in transmission with the rotating shaft belt, and the lower end of the stirring rod is provided with a rolling ball.

The utility model has the advantages that: the utility model discloses a set up the stirring frame mechanism that the liftable was adjusted in dewatering belt mechanism and can stir the thick liquids of treating the dehydration in the dewatering belt mechanism, the speed of dehydration has avoided the not thorough condition of upper slurry dehydration simultaneously, the thorough cleaning of dewatering conveyer belt has been realized to washing water recovery mechanism through scrubbing mechanism cooperation below, the sewage that produces the washing simultaneously filters the recovery, and the water of scrubbing in the mechanism comes from the water that the thick liquids in the water storage tank deviate from, the cyclic utilization of water resource has been realized.

Drawings

Fig. 1 is a front sectional view of the present invention.

Fig. 2 is an enlarged view of the position A of the present invention.

Fig. 3 is a side view of the stirring frame mechanism of the present invention.

Fig. 4 is a sectional view of the cleaning water recycling mechanism of the present invention.

Wherein: 1. erecting a frame; 2. a first cylinder; 3. a water storage tank; 4. a support; 5. a squeegee; 6. connecting plates; 7. a second cylinder; 8. a wiper blade; 9. a transfer frame; 10. a driving roller; 11. a dewatering conveyor belt; 12. a vacuum extractor; 13. a connecting plate; 14. a first motor; 15. a rotating shaft; 16. a turntable; 17. a stirring rod; 18. a booster pump; 19. a water pipe; 20. a sprinkler head; 21. rotating the brush; 22. a second motor; 23. a water receiving tank; 24. a screen frame; 25. filtering net cloth; 26. a return pipe; 27. a ball.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to fig. 1, 2, 3 and 4, the embodiment provides a vacuum belt dehydrator for cleaning high-efficiency thermal power thermoelectric desulfurization, which comprises a dehydration belt mechanism and a cleaning mechanism, wherein the dehydration belt mechanism comprises a dehydration belt mechanism, a vertical frame 1, a first air cylinder 2, a stirring frame mechanism and a water storage tank 3, the vertical frame 1 is arranged above the dehydration belt mechanism, the first air cylinder 2 is symmetrically arranged below the vertical frame 1, the stirring frame mechanism is arranged below the first air cylinder 2, the water storage tank 3 is arranged below the dehydration belt mechanism, the cleaning mechanism comprises a support 4, a scraper plate 5, a scrubbing mechanism, a connecting plate 6, a second air cylinder 7, a scraper plate 8 and a cleaning water recovery mechanism, the support 4 is arranged below one side of the dehydration belt mechanism, the scraper plate 5 is arranged at one end of the support 4, the scrubbing mechanism is arranged behind the scraper plate 5, the connecting plate 6 is arranged at the other end of the support 4, and a water scraping plate 8 is arranged on the connecting plate 6 through a second air cylinder 7, and a cleaning water recovery mechanism is arranged below the brushing mechanism.

The dewatering belt mechanism comprises a conveying frame 9, a transmission roller 10, a dewatering conveying belt 11 and a vacuum suction device 12, a support 4 of the conveying frame 9 is provided with the transmission roller 10, the dewatering conveying belt 11 is arranged on the transmission roller 10, the vacuum suction device 12 is arranged on the conveying frame 9 between the dewatering conveying belts 11, and a pipeline below the vacuum suction device 12 is connected with the water storage tank 3.

Stirring frame mechanism includes connecting plate 13, first motor 14, pivot 15, carousel 16 and

stirring rod

17, 2 below of first cylinder are equipped with connecting plate 13, be equipped with first motor 14 on the connecting plate 13, the symmetry is equipped with carousel 16 through pivot 15 below connecting plate 13, the symmetry is equipped with stirring rod 17 below the carousel 16.

The scrubbing mechanism comprises a booster pump 18, a water pipe 19, a sprinkler head 20, a rotary brush 21 and a second motor 22, the booster pump 18 is arranged on one side of the water storage tank 3, the sprinkler head 20 is obliquely arranged between the supports 4 below the scraper 5 through the water pipe 19, the rotary brush 21 is arranged on one side of the water pipe 19, the second motor 22 which is driven by the rotary brush 21 is arranged below the cleaning water recovery mechanism, and the booster pump 18 is connected with the water pipe 19 through a pipeline.

The cleaning water recovery mechanism comprises a water receiving tank 23, a filter screen frame 24, filter screen cloth 25 and a return pipe 26, the water receiving tank 23 is arranged right below the scrubbing mechanism, the filter screen cloth 25 is arranged in the water receiving tank 23 through the filter screen frame 24, and the return pipe 26 communicated with the water storage tank 3 is arranged below the water receiving tank 23.

The first motor 14 and the rotating shaft 15 are in belt transmission, the lower end of the stirring rod 17 is provided with the rolling ball 27, and abrasion of the surface of the dewatering conveyor belt 11 caused by sliding friction between the lower end of the stirring rod 17 and the dewatering conveyor belt 11 is avoided.

This be applied to vacuum belt hydroextractor that clean high-efficient firepower thermoelectric desulfurization was used can stir the thick liquids of treating the dehydration in the dehydration band mechanism through the stirring frame mechanism that sets up liftable regulation in the dehydration band mechanism, the dehydration rate has been accelerated and the not thorough condition of upper slurry dehydration has been avoided simultaneously, the thorough washing of dehydration conveyer belt 11 has been realized to the washing water recovery mechanism through scrubbing mechanism cooperation below, the sewage water to wasing the production simultaneously filters the recovery, and the water of scrubbing in the mechanism comes from the water that the thick liquids in storage water tank 3 deviate from, the cyclic utilization of water resource has been realized.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a be applied to vacuum belt hydroextractor that clean high-efficient firepower thermoelectric desulfurization was used which characterized in that: the device comprises a dewatering belt mechanism and a cleaning mechanism, wherein the dewatering belt mechanism comprises a dewatering belt mechanism, a vertical frame (1), a first air cylinder (2), a stirring frame mechanism and a water storage tank (3), the vertical frame (1) is arranged above the dewatering belt mechanism, the first air cylinder (2) is symmetrically arranged below the vertical frame (1), the stirring frame mechanism is arranged below the first air cylinder (2), the water storage tank (3) is arranged below the dewatering belt mechanism, the cleaning mechanism comprises a support (4), a scraper (5), a scrubbing mechanism, a connecting plate (6), a second air cylinder (7), a scraper plate (8) and a cleaning water recovery mechanism, the support (4) is arranged below one side of the dewatering belt mechanism, the scraper (5) is arranged at one end of the support (4), the scrubbing mechanism is arranged behind the scraper (5), the connecting plate (6) is arranged at the other end of the support (4), and the scraper plate (8) is arranged on the connecting plate (6) through the second air cylinder (7), and a cleaning water recycling mechanism is arranged below the brushing mechanism.

2. The vacuum belt dehydrator applied to clean high-efficiency thermal electric desulfurization of claim 1, wherein the vacuum belt dehydrator comprises: the dewatering belt mechanism comprises a conveying frame (9), a transmission roller (10), a dewatering conveying belt (11) and a vacuum suction device (12), the transmission roller (10) is arranged on a support (4) of the conveying frame (9), the dewatering conveying belt (11) is arranged on the transmission roller (10), the vacuum suction device (12) is arranged on the conveying frame (9) between the dewatering conveying belt (11), and a pipeline below the vacuum suction device (12) is connected with the water storage tank (3).

3. The vacuum belt dehydrator applied to clean high-efficiency thermal electric desulfurization of claim 1, wherein the vacuum belt dehydrator comprises: stirring frame mechanism includes connecting plate (13), first motor (14), pivot (15), carousel (16) and stirring rod (17), first cylinder (2) below is equipped with connecting plate (13), be equipped with first motor (14) on connecting plate (13), connecting plate (13) below symmetry is equipped with carousel (16) through pivot (15), carousel (16) below symmetry is equipped with stirring rod (17).

4. The vacuum belt dehydrator applied to clean high-efficiency thermal electric desulfurization of claim 1, wherein the vacuum belt dehydrator comprises: scrubbing mechanism includes booster pump (18), water pipe (19), sprinkler bead (20), rotates brush (21) and second motor (22), storage water tank (3) one side is equipped with booster pump (18), it is equipped with sprinkler bead (20) to lead to pipe (19) slope between support (4) of scraper blade (5) below, water pipe (19) one side is equipped with rotates brush (21), it is equipped with and rotates brush (21) driven second motor (22) to wash water recovery mechanism below, booster pump (18) and water pipe (19) pipe connection.

5. The vacuum belt dehydrator applied to clean high-efficiency thermal electric desulfurization of claim 1, wherein the vacuum belt dehydrator comprises: the washing water recovery mechanism comprises a water receiving tank (23), a filter screen frame (24), filter screen cloth (25) and a return pipe (26), the water receiving tank (23) is arranged under the scrubbing mechanism, the filter screen cloth (25) is arranged in the water receiving tank (23) through the filter screen frame (24), and the return pipe (26) communicated with the water storage tank (3) is arranged below the water receiving tank (23).

6. The vacuum belt dehydrator applied to clean high-efficiency thermal electric desulfurization of claim 3, wherein the vacuum belt dehydrator comprises: the first motor (14) and the rotating shaft (15) are in belt transmission, and the lower end of the stirring rod (17) is provided with a rolling ball (27).