CN218435346U - Stirring filtration type recovery processing mechanism for water used by production machine - Google Patents

Abstract

The utility model aims at providing a stirring filtration formula recovery processing mechanism to production board water, its characterized in that: the device comprises a water storage pool, a water injection pipe, an overflow partition plate, a drainage valve, a water pumping pipe, a first filtering device, a flow guide pipe, a flow guide pump, a stirring and filtering tank, an adsorption layer, a liquid level meter, a blow-down valve, an output pump, an extraction pipe, an output pipe and a second filtering device, wherein the water injection pipe is provided with a check valve, and a plurality of screens are arranged inside the water storage pool; whole mechanism adopts multi-stage filterable structural design, can deposit the overflow to produced use waste water of production board and sewage and filter and refine the sieve and strain, cooperation stirring adsorption operation can carry out even stirring, utilize the inside active carbon bucket of agitator tank to come the adsorption treatment of accelerating production board water, guarantee the even purification of water, realize dynamic filtration, improve the purification quality of production board water through membrane filter at last, the whole operation is safe high-efficient more, the dismouting of being convenient for simultaneously is maintained.

Description

Stirring filtration type recovery processing mechanism for water used by production machine

Technical Field

The utility model relates to a water treatment facilities field especially relates to a stirring filtration formula recovery processing mechanism to production board water.

Background

The production workshops in the field of mechanical manufacturing industry use a large amount of water in the production and processing process, a large amount of wastewater and sewage are generated along with the operation of the production machines, most of the industrial sewage generated by the mechanical manufacturing workshops generally contains various heavy metal substances and harmful substances, and the wastewater generated by the production machines and the sewage are required to be filtered in the treatment process so as to achieve the purpose of purifying the water quality, so that the preparation is made for the subsequent treatment; at present, the filtration treatment of the used wastewater and the sewage generated by a production machine of an industrial workshop is basically performed by static filtration, and the gradual filtration is completed by utilizing the natural trend of water flow, so that the purification effect can be achieved, heavy metal substances and harmful substances in the sewage and the sewage cannot be uniformly purified, particularly, in the operation link of adsorbing the sewage and the sewage, the dynamic driving water flow is lacked, the maximum utilization value of the adsorption treatment cannot be exerted, so that the harmful substances in the sewage and the sewage cannot be adsorbed uniformly and sufficiently, the purification quality cannot be improved, the process speed of the static filtration is slow, the filtration period is long, and the purification efficiency cannot be improved; therefore, the existing facilities for treating and purifying processes need to be improved and perfected, so that the problems and defects encountered in the process of treating the water for the production machine can be solved, and the purification quality of the used wastewater and the sewage generated during the operation of the production machine can be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a subsequent processing link that is used for produced use waste water and sewage when moving to the production board, adopt multi-stage filterable structural design, can deposit overflow filtration and refine the sieve to produced use waste water and sewage of production board and strain, cooperation stirring adsorption operation, can carry out even stirring to produced use waste water of production board and sewage, and utilize the inside active carbon bucket of agitator tank to come the adsorption treatment of the production board water with higher speed, guarantee the even purification of water, realize dynamic filtration, realize the filtration of production board water through membrane filter at last, the purifying quality of production board water has been improved, the whole operation is safe more high-efficient, the stirring filtration formula recovery processing mechanism that the dismouting of being convenient for was maintained simultaneously.

The technical scheme of the utility model is that: the utility model provides a stirring filtration formula recovery processing mechanism to production board water, its characterized in that: by tank, water injection pipe, overflow baffle, drainage valve, drinking-water pipe, first filter equipment, honeycomb duct, guiding pump, stirring filter tank, adsorbed layer, level gauge, blowoff valve, delivery pump, extraction tube, output tube and second filter equipment constitute, the water injection pipe is located one side of tank, the water injection pipe is fixed connection with the tank, still be equipped with the check valve on the water injection pipe, the check valve is located the middle part of water injection pipe, check valve and water injection pipe are fixed connection, the overflow baffle is located the inside position department near the centre of tank, the overflow baffle is fixed connection with the tank, still be equipped with a plurality of screen cloth on the tank, the same distance in interval between a plurality of screen cloth is horizontal parallel structure evenly distributed between the inside overflow baffle of tank and the tank inside wall, a plurality of screen cloth all are connected for dismantling with tank, overflow baffle, the drainage valve is located the bottom one side of the tank outside near a plurality of screen cloth position departments, the drainage valve is fixed connection with the tank, the suction pipe is located the first filter tank, the drainage valve is connected with the first filter tank, the first filter tank is located the first filter tank, the drainage pipe is connected with the first filter tank, the guide pump is positioned on the upper part of the stirring and filtering tank, the guide pump is fixedly connected with the stirring and filtering tank, the stirring and filtering tank is positioned at the next stage of the first filtering device, the stirring and filtering tank utilizes the guide pipe and is connected with the first filtering device, the adsorption layer is positioned at the edge position inside the stirring and filtering tank, the adsorption layer is fixedly connected with the stirring and filtering tank, the liquid level meter is positioned at one side of the stirring and filtering tank, the liquid level meter is fixedly connected with the stirring and filtering tank, the blowoff valve is positioned at the bottom of the stirring and filtering tank, the blowoff valve is fixedly connected with the stirring and filtering tank, the output pump is positioned at the top of the stirring and filtering tank, the output pump is fixedly connected with the stirring and filtering tank, the extraction tube is located the inside of stirring filter tank, the one end of extraction tube is passed the stirring filter tank and is fixed connection with the delivery pump, the output tube is located between delivery pump and the second filter equipment, the one end and the delivery pump of output tube are fixed connection, the other end and the second filter equipment of output tube are fixed connection, the second filter equipment is located the next stage of stirring filter tank, the second filter equipment utilizes the output tube and is connected with the stirring filter tank, still be equipped with the output valve on the second filter equipment, the output valve is located the position department that second filter equipment one side is close to the bottom, the output valve is fixed connection with the second filter equipment.

Furthermore, the water injection pipe is a pipeline with a flange interface structure.

Further, the plurality of screens are all fiber nets or asbestos nets.

Furthermore, the drainage valve, the blowdown valve and the output valve are all screwed ball valves.

Furthermore, the water suction pump, the guide pump and the output pump are all centrifugal liquid pressure pumps.

Further, the first filtering device is a multi-layer fiber net filtering box.

Further, the bottom of the stirring and filtering tank is of an arc-shaped structure.

Further, the adsorption layer is an active carbon barreled structure.

Further, the second filtering device is a membrane filter.

The beneficial effects of the utility model reside in that: this stirring filtration formula recovery processing mechanism is used for the follow-up processing link to the produced use waste water of production board operation and sewage, adopt multi-stage filterable structural design, can deposit overflow filtration and refine the sieve to produced use waste water of production board and sewage and strain, cooperation stirring adsorption operation, can carry out even stirring to produced use waste water of production board and sewage, and utilize the inside active carbon bucket of agitator tank to come the adsorption treatment of the production board water of accelerating production, guarantee the even purification of water, realize dynamic filtration, realize the filtration of production board water through membrane filter at last, the purification quality of production board water has been improved, the whole operation is safe high-efficient more, the dismouting of being convenient for simultaneously is maintained.

Drawings

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

Fig. 2 is a schematic view of the cross-sectional structure of the adsorption layer of the present invention.

Fig. 3 is a schematic view of the three-dimensional structure of the adsorption layer of the present invention.

Wherein: 1. reservoir 2, water injection pipe 3, check valve

4. Overflow partition plate 5, screen 6 and drainage valve

7. Suction pipe 8, suction pump 9, first filter equipment

10. Draft tube 11, draft pump 12, stirring filter tank

13. Adsorption layer 14, liquid level meter 15 and blow-off valve

16. Output pump 17, extraction pipe 18 and output pipe

19. Second filter device 20, output valve

Detailed Description

The following provides a brief description of the embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, 2 and 3, the stirring and filtering type recovery processing mechanism for water used in a production machine is characterized in that: comprises a water storage tank 1, a water injection pipe 2, an overflow clapboard 4, a drainage valve 6, a water suction pipe 7, a first filtering device 9, a flow guide pipe 10, a flow guide pump 11, a stirring filter tank 12, an adsorption layer 13, a liquid level meter 14, a blow-off valve 15, an output pump 16, an extraction pipe 17, an output pipe 18 and a second filtering device 19, wherein the water injection pipe 2 is arranged on one side of the water storage tank 1, the water injection pipe 2 is fixedly connected with the water storage tank 1, a check valve 3 is also arranged on the water injection pipe 2, the check valve 3 is arranged in the middle of the water injection pipe 2, the check valve 3 is fixedly connected with the water injection pipe 2, the overflow clapboard 4 is arranged inside the water storage tank 1 and is close to the middle position, the overflow clapboard 4 is fixedly connected with the water storage tank 1, a plurality of screen meshes 5 are also arranged on the water storage tank 1, the distance among the plurality of screen meshes 5 is uniformly distributed in a horizontal parallel structure between the overflow clapboard 4 inside the water storage tank 1 and the inner side wall of the water storage tank 1, the plurality of screen meshes 5 are detachably connected with the water storage tank 1 and the overflow partition plate 4, the drainage valve 6 is positioned at one side of the bottom outside the water storage tank 1 close to the positions of the plurality of screen meshes 5, the drainage valve 6 is fixedly connected with the water storage tank 1, the water pumping pipe 7 is positioned between the water storage tank 1 and the first filtering device 9, one end of the water pumping pipe 7 is connected with the drainage valve 6 at the bottom position of one side of the water storage tank 1, the other end of the water pumping pipe 7 is connected with the first filtering device 9, the water pumping pipe 7 is further provided with a water pumping pump 8, the water pumping pump 8 is positioned in the middle of the water pumping pipe 7, the water pumping pump 8 is fixedly connected with the water pumping pipe 7, the first filtering device 9 is positioned at the next stage of the water storage tank 1, the first filtering device 9 utilizes the water pumping pipe 7 and is connected with the water storage tank 1, the honeycomb duct 10 is located between the first filtering device 9 and the stirring and filtering tank 12, one end of the honeycomb duct 10 is connected with the first filtering device 9, the other end of the honeycomb duct 10 is connected with the guide pump 11 on the upper portion of the stirring and filtering tank 12, the guide pump 11 is located on the upper portion of the stirring and filtering tank 12, the guide pump 11 is fixedly connected with the stirring and filtering tank 12, the stirring and filtering tank 12 is located at the next stage of the first filtering device 9, the stirring and filtering tank 12 utilizes the honeycomb duct 10 and is connected with the first filtering device 9, the adsorption layer 13 is located at the edge position inside the stirring and filtering tank 12, the adsorption layer 13 is fixedly connected with the stirring and filtering tank 12, the level gauge 14 is located at one side of the stirring and filtering tank 12, the level gauge 14 is fixedly connected with the stirring and filtering tank 12, the blowdown valve 15 is located at the bottom of the stirring and filtering tank 12, the blowdown valve 15 is fixedly connected with the stirring and filtering tank 12, the output pump 16 is located at the top of the stirring and filtering tank 12, the output pump 16 is fixedly connected with the stirring and filtering tank 12, the output pipe 17 is located at one end of the stirring and filtering tank 12, the output pipe 19 is located at the second filtering device 19, the output pipe 19 is located at the output pipe 19, the output pipe 19 is located at the second filtering tank 12, the output pipe 19 is located at the output pipe 19, the output pipe 19 and the output pipe 19, the output pipe 19 is located at the second filtering device 19, the output pipe 19 is located at the second filtering device 18 and the second filtering device 19, the output pipe 19, the output valve 20 is fixedly connected with the second filtering device 19. The water injection pipe 2 is a pipeline with a flange interface structure. The plurality of screens 5 are all fiber nets or asbestos nets. The drainage valve 6, the blow-down valve 15 and the output valve 20 are all screwed ball valves. The water suction pump 8, the guide pump 11 and the output pump 16 are all centrifugal liquid pressure pumps. The first filtering device 9 is a multi-layer fiber net filtering box. The bottom of the stirring and filtering tank 12 is of an arc-shaped structure. The adsorption layer 13 is an active carbon barreled structure. The second filter device 19 is a membrane filter.

The working mode is as follows: the stirring and filtering type recovery and treatment mechanism is used for the subsequent treatment link of the use wastewater and sewage generated when a production machine runs, and the whole set of facilities mainly comprises a water storage tank 1, a water injection pipe 2, an overflow partition plate 4, a drainage valve 6, a water pumping pipe 7, a first filtering device 9, a flow guide pipe 10, a flow guide pump 11, a stirring and filtering tank 12, an adsorption layer 13, a liquid level meter 14, a blow-down valve 15, an output pump 16, an extraction pipe 17, an output pipe 18 and a second filtering device 19; when the whole is in operation, firstly, the sewage and wastewater of the production machine to be treated enters the water storage tank 1 along the water injection pipe 2, the water injection pipe 2 adopts a pipeline with a flange interface structure, the flange interface of the port of the water injection pipe can be conveniently disassembled and assembled, the connection with any sewage and wastewater pipeline of the production machine is convenient, a check valve 3 is arranged in the middle of the water injection pipe 2, thus the backflow of the sewage and wastewater of the production machine in the water injection pipe 2 can be prevented, the backflow of the sewage and wastewater of the production machine entering the water storage tank 1 is also prevented, the adverse effect of the overflow on the pipeline of the production machine is avoided, the water storage tank 1 is divided into two parts by the overflow clapboard 4 in the water storage tank 1, the height of the overflow clapboard 4 is lower than the depth in the water storage tank 1, after the sewage and wastewater of the production machine is injected into the water storage tank 1 along the water injection pipe 2, the sewage and the wastewater can form accumulation in a vacant area at one side inside the water storage tank 1 after being separated by the overflow partition plate 4, the vacant area after being separated by the overflow partition plate 4 is used for precipitating the sewage and the wastewater, impurities and particles with larger mass are precipitated at the bottom of the water storage tank 1, the sewage and the wastewater at the vacant area at one side of the overflow partition plate 4 can overflow and overflow to the other side of the overflow partition plate 4 along with the continuous rising of the water level of the sewage and the wastewater, a plurality of screen meshes 5 are arranged at the other side of the overflow partition plate 4, the screen meshes 5 are uniformly distributed between the overflow partition plate 4 inside the water storage tank 1 and the inner side wall of the water storage tank 1 at the same interval and in a horizontal parallel structure, and each screen mesh 5 adopts a fiber mesh or a asbestos mesh, so that fine impurities and particles in the sewage and the wastewater overflowing to the other side of the overflow partition plate 4 can be filtered layer by layer, the sewage and the wastewater of the production machine after sedimentation, filtration and fine screening can form accumulation at the bottom of the water storage tank 1 at the other side of the overflow partition plate 4; then, opening a drainage valve 6, and starting a water suction pump 8, wherein the drainage valve 6 adopts a screwed ball valve, which is convenient for an operator to open and close and control the flow of the output sewage and wastewater, the water suction pump 8 adopts a centrifugal liquid pressure pump, which can maintain sufficient pressure to ensure the smoothness of sewage and wastewater delivery, under the action of the water suction pump 8, the sewage and wastewater of the production machine platform after sedimentation filtration and fine screening can be output from the drainage valve 6 and enter a first filtering device 9 along a water suction pipe 7, the first filtering device 9 adopts a multi-layer fiber net filtering box, and the multi-layer fiber nets in the first filtering device can filter the sewage and wastewater layer by layer in a deep level, so that the sewage and wastewater is clearer; then, a diversion pump 11 and a stirring filter tank 12 are started, the diversion pump 11 also adopts a centrifugal liquid pressure pump, enough pressure can be kept, smoothness of sewage and wastewater conveying is guaranteed, sewage and wastewater subjected to clarification filtering at the position of an output port of a first filtering device 9 can be extracted under the action of the diversion pump 11 and flows into the stirring filter tank 12 along a diversion pipe 10, a liquid level meter 14 is further installed on one side of the stirring filter tank 12 and used for conveniently observing the water level condition inside the stirring filter tank 12, when the water level reaches a critical point of the liquid level meter 14, the diversion pump 11 is immediately closed, the clarified sewage and wastewater is not allowed to enter the stirring filter tank 12, an adsorption layer 13 is installed inside the stirring filter tank 12, the adsorption layer 13 is installed at the edge position inside the stirring filter tank 12, the adsorption layer 13 adopts an activated carbon barrel structure, when the clarified sewage and wastewater enters the stirring filter tank 12, the adsorption layer 13 is firstly supported by the adsorption layer 13, toxic wastewater in the stirring filter tank 12 can be gradually adsorbed at the bottom of an arc-shaped adsorption layer 13, toxic wastewater adsorption layer 13 can be gradually adsorbed at the bottom of the stirring filter tank 12, toxic wastewater can be conveniently discharged, and toxic liquid can be conveniently discharged from the stirring filter tank 12, and toxic liquid can be conveniently discharged, and collected, and can be conveniently discharged, and collected at the bottom of a long-controlled by a stirring filter tank 12, and a stirring filter tank 12, toxic liquid filtering tank 12; then, the output pump 16 is started, the output pump 16 also adopts a centrifugal liquid pressure pump, sufficient pressure can be kept, smoothness of sewage and wastewater conveying is guaranteed, water after stirring and adsorption is extracted along the extraction pipe 17 under the action of the output pump 16 and conveyed into the second filtering device 19 along the output pipe 18, the second filtering device 19 adopts a membrane filter, water after stirring and adsorption can be filtered again to become recycled water which facilitates subsequent treatment, discharge of toxic and harmful substances is reduced, an output valve 20 is further installed at the position of an output port of the second filtering device 19, the output valve 20 also adopts a screwing type ball valve, and accordingly opening and closing of operators are facilitated, flow control is conducted on output of the recycled water, and the whole purification process is completed; the system architecture thinking of whole facility is clear, and easy operation is convenient, adopt multi-stage filterable structural design, can deposit the overflow to produced use waste water of production board and sewage and filter and refine the sieve, cooperation stirring adsorption operation, can evenly stir produced use waste water of production board and sewage, and utilize the inside active carbon bucket of agitator tank to come the adsorption treatment of production board water with higher speed, guarantee the even purification of water, realize dynamic filtration, realize the filtration of production board water through membrane filter at last, the purification quality of production board water has been improved, the whole operation is safe high-efficient more, the dismouting of being convenient for simultaneously is maintained.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", "end", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (9)

1. The utility model provides a stirring filtration formula recovery processing mechanism to production board water, its characterized in that: comprises a water storage pool, a water injection pipe, an overflow clapboard, a drainage valve, a water suction pipe, a first filtering device, a flow guide pipe, a flow guide pump, a stirring filter tank, an adsorption layer, a liquid level meter, a blow-down valve, an output pump, an extraction pipe, an output pipe and a second filtering device, wherein the water injection pipe is positioned on one side of the water storage pool, the water injection pipe is fixedly connected with the water storage pool, the water injection pipe is also provided with a check valve which is positioned in the middle of the water injection pipe, the check valve is fixedly connected with the water injection pipe, the overflow clapboard is positioned inside the water storage pool and close to the middle position, the overflow clapboard is fixedly connected with the water storage pool, the water storage pool is also provided with a plurality of screen meshes, the same distance among the screen meshes is a horizontal parallel structure and is uniformly distributed between the overflow clapboard and the inner side wall of the water storage pool inside the water storage pool, the screen meshes are all detachably connected with the water storage pool and the overflow clapboard, the drainage valve is positioned at one side of the bottom outside the water storage tank close to the positions of the plurality of screen meshes, the drainage valve is fixedly connected with the water storage tank, the water pumping pipe is positioned between the water storage tank and the first filtering device, one end of the water pumping pipe is connected with the drainage valve at the position of the bottom at one side of the water storage tank, the other end of the water pumping pipe is connected with the first filtering device, a water pumping pump is further arranged on the water pumping pipe, the water pumping pump is positioned in the middle of the water pumping pipe, the water pumping pump is fixedly connected with the water pumping pipe, the first filtering device is positioned at the next stage of the water storage tank, the first filtering device utilizes the water pumping pipe and is connected with the water storage tank, the guide pipe is positioned between the first filtering device and the stirring filter tank, one end of the guide pipe is connected with the first filtering device, and the other end of the guide pipe is connected with the guide pump at the upper part of the stirring filter tank, the utility model discloses a filter tank, including guiding pump, adsorption layer, extraction pipe, sewage valve, delivery pump, output pump, delivery pump, filtration device, filter tank, diversion pump, filtration tank, drainage pipe, first filter equipment, the guiding pump is located the upper portion of stirring filtration tank, the guiding pump is fixed connection with the stirring filtration tank, the stirring filtration tank is located first filter equipment's next grade, the stirring filtration tank utilizes the honeycomb duct and is connected with first filter equipment, the adsorption layer is located the inside border position department of stirring filtration tank, the adsorption layer is fixed connection with the stirring filtration tank, the level gauge is located one side of stirring filtration tank, the level gauge is fixed connection with the stirring filtration tank, the blowoff valve is located the bottom of stirring filtration tank, the blowoff valve is fixed connection with the stirring filtration tank, the delivery pump is located the top of stirring filtration tank, the delivery pump is fixed connection with the stirring filtration tank, the extraction pipe is located the stirring filtration tank's inside, the one end passes the stirring filtration tank and is fixed connection with the delivery pump, the output pipe is located between delivery pump and second filter equipment, the one end and the delivery pump of output pump is fixed connection, the other end of output pipe is fixed connection for the second filter equipment, the second filtration tank is located second filtration tank, the delivery valve is located second filtration tank one side, the delivery valve is located the filtration tank.

2. The stirring and filtering type recycling mechanism for water used in production machines according to claim 1, comprising: the water injection pipe is a pipeline with a flange connector structure.

3. The stirring and filtering type recycling mechanism for water used by a production machine according to claim 1, characterized in that: the plurality of screens are all fiber nets or asbestos nets.

4. The stirring and filtering type recycling mechanism for water used in production machines according to claim 1, comprising: the drainage valve, the blowdown valve and the output valve are all screwed ball valves.

5. The stirring and filtering type recycling mechanism for water used by a production machine according to claim 1, characterized in that: the water suction pump, the flow guide pump and the output pump are all centrifugal liquid pressurizing pumps.

6. The stirring and filtering type recycling mechanism for water used in production machines according to claim 1, comprising: the first filtering device is a multi-layer fiber net filtering box.

7. The stirring and filtering type recycling mechanism for water used by a production machine according to claim 1, characterized in that: the bottom of the stirring and filtering tank is of an arc-shaped structure.

8. The stirring and filtering type recycling mechanism for water used by a production machine according to claim 1, characterized in that: the adsorption layer is an active carbon barreled structure.

9. The stirring and filtering type recycling mechanism for water used by a production machine according to claim 1, characterized in that: the second filtering device is a membrane filter.

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