CN211770706U - High salt effluent disposal system - Google Patents

Abstract

The utility model discloses a high salt effluent disposal system relates to effluent treatment plant technical field. The technical key points are as follows: including wastewater disposal basin, filter, adsorption tank, oxidation tank and mummification ware, the filter with the wastewater disposal basin is connected through the waste pipe way, the filter including filter housing and set up in filter screen in the filter housing, filter housing upper end is provided with the confession the mouth that slides that the filter screen slided, be provided with on the filter housing and be used for driving the drive arrangement that the filter screen reciprocated, the casing upper end just is located one side that the filter screen is close to the wastewater disposal basin is provided with the cleaning device who is used for wasing the filter screen, the one end of crossing the internal wastewater disposal basin of filter housing is provided with and is used for detecting the detection device whether the filter screen blocks up, the utility model has the advantages of the automatic.

Description

High salt effluent disposal system

Technical Field

The utility model relates to a waste water treatment device technical field, more specifically say, it relates to a high salt effluent disposal system.

Background

In recent years, with the increasing living standard and the development of industry, environmental pollution has attracted much attention. Pollutants in water bodies, especially pollutants discharged in the industrial production process, are various in types, high in concentration, difficult to degrade and large in harm. In industries such as seafood, dairy processing, printing and dyeing, paper making, pharmacy, chemical industry, pesticides, etc., a large amount of organic wastewater containing high concentrations of inorganic salts (mainly sodium chloride, sulfate, etc.) is discharged during the production process. Therefore, the treatment of high salinity wastewater is always a difficult point in the fields of chemical industry and environmental protection.

The Chinese utility model with publication number CN205528220U discloses a salt-containing wastewater treatment device, which comprises a wastewater tank, a filter, an adsorption tank, an oxidation tank and a drier; the waste water tank is connected with the filter through a waste water pipeline, the filter is connected with the adsorption tank through a waste water pipeline, the adsorption tank is connected with the oxidation tank through a waste water pipeline, the oxidation tank is connected with the drier through a waste water pipeline, the drier is connected with the adsorption tower through an air pipe, a first water pump is installed on the waste water pipeline between the waste water tank and the filter, and a suction fan is installed on the air pipe between the drier and the adsorption tower.

Similar to foretell salt effluent treatment plant among the prior art, when waste water gets into the filter from the wastewater disposal basin, waste water directly gets into in the adsorption tank after simple filtration, causes the filter jam after a period of time easily, and waste water just can't pass through the filter, therefore still remains to improve the space.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high salt effluent disposal system, it has the advantage of the automatic clearance of filter.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a high salt effluent disposal system, includes wastewater disposal basin, filter, adsorption tank, oxidation tank and mummification ware, the filter with the wastewater disposal basin is connected through the waste pipe, the filter including filter housing and set up in filter screen in the filter housing, filter housing upper end is provided with the confession the mouth that slides that the filter screen slided, be provided with the drive arrangement who is used for driving the filter screen and reciprocates on the filter housing, the housing upper end just is located one side that the filter screen is close to the wastewater disposal basin is provided with the cleaning device who is used for wasing the filter screen, the one end of crossing in the filter housing that is close to the wastewater disposal basin is provided with and is used for detecting the detection.

Through adopting above-mentioned technical scheme, when detection device detected the filter screen and has blockked up, stop earlier that the effluent disposal basin is to waste water pipe internal waste water, then drive arrangement drives the filter screen along the mouth rebound that slides, after the filter screen is located cleaning device to its position of clearing up, drive arrangement stop work, clear up the filter screen by cleaning device after that, at last when the filter screen clearance has been accomplished, drive the filter screen by drive arrangement and remove and will filter the inside seal of casing.

To sum up, for the filter that only has simple filtering action, the aforesaid can clear up the filter screen through cleaning device, can prevent to lead to the filter screen to block up because of using the filter for a long time, avoids the unable normal work of filter.

Furthermore, cleaning device is including setting up in no pole cylinder on filtering the casing and set up in on the slider of no pole cylinder and be used for clearing up the brush board of residue on the filter screen.

Through adopting above-mentioned technical scheme, when needs clear up the filter screen, start no pole cylinder, reciprocating motion is done to the slider on the no pole cylinder, and the slider through no pole cylinder drives the brush board motion, can realize the clearance to the filter screen.

Further, the brush board including set up in backup pad on the no pole cylinder slider and set up in brush in the backup pad, in the backup pad with all be provided with the joint groove on the lateral wall that the brush is adjacent, be provided with on the brush with the elasticity joint piece of joint groove looks gomphosis.

Through adopting above-mentioned technical scheme, the looks gomphosis in elasticity joint piece and joint groove can realize the fixed of brush and backup pad, and the convenience is to the change of brush.

Further, detection device including set up in filter the casing in and output shaft towards the waste water pipeline's water flow sensor, set up in the epaxial survey flow oar of water flow sensor output, set up in filter the casing outside and with water flow sensor electric connection's survey flow control module and with survey flow control module electric connection's alarm.

By adopting the technical scheme, when the wastewater in the wastewater pipeline flows and passes through the filter, the flow measuring paddle is driven by the wastewater to rotate, the output shaft of the water flow sensor is driven by the flow measuring paddle to rotate, and then the water flow sensor transmits information to the flow measuring control module; when the filter screen is blocked, the wastewater in the wastewater pipeline stops flowing, the flow measurement paddle stops rotating along with the wastewater, the water flow sensor stops transmitting information to the flow measurement control module, and the flow measurement control module can detect that the filter screen is blocked; when the water flow sensor stops rotating and the driving device does not drive the filter screen to move upwards in a certain time, the alarm gives an alarm prompt.

Furthermore, it is provided with the valve plate just to keep away from in the filter housing one side of wastewater disposal basin rotates, be provided with on the filter housing with the rotating electrical machines that the valve plate pivot is connected, rotating electrical machines with current surveying control module electric connection.

Through adopting above-mentioned technical scheme, when detection device detected the filter screen jam, control the module with signal transmission and make its rotation for rotating electrical machines by surveying the flow, rotating electrical machines drives the valve plate and rotates and will filter the passageway in the casing and seal up after that, can prevent that the interior remaining waste water of filter screen rebound's in-process waste water pipeline from entering into next processing procedure, and at the in-process of filter screen clearance, can take out the waste water in filtering the casing outward.

Furthermore, the driving device comprises a rack arranged on the side wall of the filter screen, a driving motor arranged on the filter shell and a gear arranged on a rotating shaft of the driving motor and meshed with the rack.

By adopting the technical scheme, when the filter screen needs to be cleaned, the driving motor is started firstly, the driving motor drives the rack to move upwards through the gear, the filter screen moves upwards along with the rack under the action of the rack, and when the filter screen moves to the position for cleaning the filter screen by the cleaning device, the driving motor stops rotating; after the filter screen is cleaned, the driving motor drives the rack to move downwards through the gear, and the filter screen stops moving after moving to the position where the interior of the filter shell is sealed.

Furthermore, the inside wall of the sliding opening is provided with a sealing gasket which is attached to the filter screen.

Through adopting above-mentioned technical scheme, sealed setting up of filling up can make the filter screen in the filter housing or when removing the clearance position, the mouth that slides is in airtight state all the time to effectively avoid debris to get into in the filter housing.

Furthermore, a plurality of spray heads for washing the filter screen are arranged on the filter shell and on one side of the filter screen, which is far away from the cleaning device.

Through adopting above-mentioned technical scheme, when cleaning device cleared up the filter screen, adopt the shower nozzle to wash to the filter screen, can improve the clearance effect to the filter screen.

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

(1) whether the filter screen is blocked is detected through the detection device, then the drive device drives the filter screen to move to the position where the cleaning device cleans the filter screen, and then the cleaning device cleans the filter screen, so that the filter screen can be prevented from being blocked due to long-time use of the filter, and the filter can be prevented from working normally;

(2) the information can be transmitted to the flow measurement control module by whether the flow measurement paddle drives the water flow sensor to rotate, so that whether the filter screen is blocked or not is detected, and then the alarm plays a role in alarming;

(3) through setting up valve plate and rotating electrical machines, can prevent that the interior residual waste water of in-process waste water pipeline of filter screen rebound from entering into next processing procedure, and at the in-process of filter screen clearance, can take out the waste water in the filter housing outward.

Drawings

FIG. 1 is a schematic view of the overall structure of a conventional high-salinity wastewater treatment plant;

FIG. 2 is a schematic view of the overall structure of the present embodiment;

FIG. 3 is a schematic view of the overall structure of the filter screen in this embodiment;

FIG. 4 is a partial cross-sectional view schematically illustrating the present embodiment;

FIG. 5 is an enlarged view of A in FIG. 4;

fig. 6 is an enlarged schematic view of B in fig. 3.

Reference numerals: 1. a wastewater tank; 2. a filter; 201. a filter housing; 202. a filter screen; 3. an adsorption tank; 4. an oxidation tank; 5. a dryer; 6. a waste water conduit; 7. mounting grooves; 8. mounting a bar; 9. a guide bar; 10. a guide groove; 11. a sliding port; 12. a drive device; 121. a rack; 122. a drive motor; 123. a gear; 13. a cleaning device; 131. a rodless cylinder; 132. brushing the board; 1321. a support plate; 1322. a brush; 14. a detection device; 141. a water flow sensor; 142. a flow measuring paddle; 143. a flow measurement control module; 144. an alarm; 15. a valve plate; 16. a rotating electric machine; 17. a clamping groove; 18. an elastic clamping block; 19. a spray head; 20. erecting a rod; 21. and a gasket.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

A high-salinity wastewater treatment system is shown in figure 1 and comprises a wastewater pool 1, a filter 2, an adsorption tank 3, an oxidation tank 4 and a dryer 5, wherein the filter 2 is connected with the wastewater pool 1 through a wastewater pipeline 6, the filter 2 is connected with the adsorption tank 3 through a wastewater pipeline 6, the adsorption tank 3 is connected with the oxidation tank 4 through a wastewater pipeline 6, and the oxidation tank 4 is connected with the dryer 5 through a wastewater pipeline 6.

As shown in fig. 2 and 4, the filter 2 includes a filter housing 201 and a filter screen 202 installed in the filter housing 201, the lower surface of the filter screen 202 is provided with an installation groove 7 with a triangular cross section, an installation bar 8 embedded with the installation groove 7 is installed in the filter 2, two guide rods 9 penetrating through the sliding opening 11 extend from the sliding block in the filter housing 201, and set up the guide way 10 that supplies to correspond guide bar 9 and pass on the filter screen 202, the mouth 11 that slides that supplies filter screen 202 to slide is seted up to filter casing 201 upper end, install the drive arrangement 12 that is used for driving filter screen 202 and reciprocates on the filter casing 201, filter casing 201 upper end and be located one side that filter screen 202 is close to wastewater disposal basin 1 and install the cleaning device 13 that is used for wasing filter screen 202, the detection device 14 that is used for detecting whether filter screen 202 blocks up is installed to the one end that is close to wastewater disposal basin 1 in the filter casing 201.

As shown in fig. 3 and 4, the detecting device 14 includes a water flow sensor 141 installed in the filtering housing 201 and having an output shaft facing the wastewater pipeline 6, a current measuring paddle 142 installed on the output shaft of the water flow sensor 141, a current measuring control module 143 installed outside the filtering housing 201 and electrically connected to the water flow sensor 141, and an alarm 144 electrically connected to the current measuring control module 143, in which the alarm 144 is a buzzer in this embodiment. Therefore, when the wastewater in the wastewater pipeline 6 flows and passes through the filter 2, the flow measuring paddle 142 is driven by the wastewater to rotate, the output shaft of the water flow sensor 141 is driven by the flow measuring paddle 142 to rotate, and then the water flow sensor 141 transmits information to the flow measuring control module 143; when the filter screen 202 is blocked, the wastewater in the wastewater pipeline 6 stops flowing, the flow measurement paddle 142 stops rotating along with the wastewater, the water flow sensor 141 stops transmitting information to the flow measurement control module 143, and the flow measurement control module 143 can check that the filter screen 202 is blocked; when the water flow sensor 141 stops rotating and the driving device 12 does not drive the filter screen 202 to move upwards for a certain time, the buzzer sends out a whistling alarm prompt.

Furthermore, in order to prevent the residual wastewater in the wastewater pipeline 6 from entering the next treatment process in the process of upward movement of the filter screen 202, and in the process of cleaning the filter screen 202, the wastewater in the filter housing 201 can be pumped out, in this embodiment, the valve plate 15 is rotatably mounted on one side of the filter housing 201 away from the wastewater tank 1, the rotary motor 16 connected with the rotating shaft of the valve plate 15 is mounted on the filter housing 201, and the rotary motor 16 is electrically connected with the current measurement control module 143.

As shown in fig. 4, several nozzles 19 for washing the filter screen 202 are disposed on the filter housing 201 and on a side of the filter screen 202 away from the cleaning device 13, and the nozzles 19 are fixed on the filter housing 201 by vertical rods 20. Therefore, when the cleaning device 13 cleans the filter screen 202, the nozzle 19 is used to wash the filter screen 202, and the cleaning effect of the filter screen 202 can be improved.

As shown in fig. 4 and 5, the cleaning device 13 includes a rodless cylinder 131 mounted on the filter housing 201, and a brush plate 132 mounted on a slide block of the rodless cylinder 131 and used for cleaning residues on the filter screen 202. Therefore, when the filter screen 202 needs to be cleaned, the rodless cylinder 131 is started, the sliding block on the rodless cylinder 131 makes reciprocating motion, the sliding block of the rodless cylinder 131 drives the brush plate 132 to move, and the filter screen 202 can be cleaned.

Further, the brush plate 132 includes a support plate 1321 installed on the slider of the rodless cylinder 131 and a brush 1322 installed on the support plate 1321, a clamping groove 17 is formed in the side wall of the support plate 1321 adjacent to the brush 1322, and an elastic clamping block 18 embedded with the clamping groove 17 is fixed on the brush 1322. The fixing of the brush 1322 and the supporting plate 1321 can be realized by the engagement of the elastic clamping block 18 and the clamping groove 17, which facilitates the replacement of the brush 1322.

As shown in fig. 5, the inner side wall of the sliding opening 11 is fixed with a sealing gasket 21 attached to the filter screen 202, so that the sliding opening 11 is always in a closed state when the filter screen 202 is in the filter housing 201 or is moved to a cleaning position, thereby effectively preventing impurities from entering the filter housing 201.

As shown in fig. 6, the driving device 12 includes a rack 121 mounted on a side wall of the filter screen 202, a driving motor 122 mounted on the filter housing 201, and a gear 123 mounted on a rotating shaft of the driving motor 122 and engaged with the rack 121. Therefore, when the filter screen 202 needs to be cleaned, the driving motor 122 is started first, the driving motor 122 drives the rack 121 to move upwards through the gear 123, the filter screen 202 moves upwards under the action of the rack 121, and when the filter screen 202 moves to the position where the cleaning device 13 cleans the filter screen, the driving motor 122 stops rotating; after the filter screen 202 is cleaned, the driving motor 122 drives the rack 121 to move downwards through the gear 123, and the filter screen 202 stops moving after moving to a position where the inside of the filter housing 201 is sealed.

The utility model discloses a working process and beneficial effect as follows: when the detection device 14 detects that the filter screen 202 is blocked, the wastewater discharge from the wastewater tank 1 to the wastewater pipeline 6 is stopped, then the driving device 12 drives the filter screen 202 to move upwards along the sliding opening 11, after the filter screen 202 is located at the position where the cleaning device 13 cleans the filter screen, the driving device 12 stops working, then the cleaning device 13 cleans the filter screen 202, and finally, after the filter screen 202 is cleaned, the driving device 12 drives the filter screen 202 to move and seals the interior of the filter shell 201.

In summary, compared with the filter 2 with simple filtering function, the cleaning device 13 can clean the filter screen 202, so as to prevent the filter screen 202 from being blocked due to long-term use of the filter 2 and prevent the filter 2 from being incapable of working normally.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a high salt effluent disposal system, includes wastewater disposal basin (1), filter (2), adsorption tank (3), oxidation tank (4) and mummification ware (5), filter (2) with wastewater disposal basin (1) is connected its characterized in that through waste water pipeline (6): filter (2) including filter housing (201) and set up in filter screen (202) in filter housing (201), filter housing (201) upper end is provided with the confession slide mouth (11) that filter screen (202) slided, be provided with drive arrangement (12) that are used for driving filter screen (202) and reciprocate on filter housing (201), the casing upper end just is located one side that filter screen (202) are close to wastewater disposal basin (1) is provided with cleaning device (13) that are used for wasing filter screen (202), the one end that is close to wastewater disposal basin (1) in filter housing (201) is provided with detection device (14) that are used for detecting whether filter screen (202) block up.

2. The high salinity wastewater treatment system of claim 1, characterized in that: the cleaning device (13) comprises a rodless cylinder (131) arranged on the filtering shell (201) and a brush plate (132) arranged on a sliding block of the rodless cylinder (131) and used for cleaning residues on the filtering net (202).

3. The high salinity wastewater treatment system of claim 2, characterized in that: the brush plate (132) comprises a support plate (1321) arranged on a slide block of the rodless cylinder (131) and a brush (1322) arranged on the support plate (1321), clamping grooves (17) are formed in the side wall, adjacent to the brush (1322), of the support plate (1321), and elastic clamping blocks (18) embedded with the clamping grooves (17) are arranged on the brush (1322).

4. The high salinity wastewater treatment system of claim 1, characterized in that: detection device (14) including set up in filter casing (201) in and output shaft towards water flow sensor (141) of waste water pipeline (6), set up in flow measurement oar (142) on water flow sensor (141) output shaft, set up in filter casing (201) outside and with water flow sensor (141) electric connection's current measurement control module (143) and with current measurement control module (143) electric connection's alarm (144).

5. The high salinity wastewater treatment system of claim 4, characterized in that: the novel water filter is characterized in that a valve plate (15) is arranged in the filter shell (201) in a rotating mode and far away from one side of the wastewater pond (1), a rotating motor (16) connected with a rotating shaft of the valve plate (15) is arranged on the filter shell (201), and the rotating motor (16) is electrically connected with the flow measurement control module (143).

6. The high salinity wastewater treatment system of claim 1, characterized in that: the driving device (12) comprises a rack (121) arranged on the side wall of the filter screen (202), a driving motor (122) arranged on the filter shell (201), and a gear (123) arranged on a rotating shaft of the driving motor (122) and meshed with the rack (121).

7. The high salinity wastewater treatment system of claim 1, characterized in that: the inner side wall of the sliding opening (11) is provided with a sealing gasket (21) which is attached to the filter screen (202).

8. The high salinity wastewater treatment system of claim 1, characterized in that: a plurality of spray heads (19) used for washing the filter screen (202) are arranged on the filter shell (201) and on one side of the filter screen (202) far away from the cleaning device (13).

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