CN217323473U - Low-pressure multi-channel filtering membrane separation combined equipment - Google Patents

Abstract

The application provides a low-pressure multi-channel filtering membrane separation combined device, which belongs to the field of filtering membrane separation devices and comprises an adjusting mechanism and a cleaning mechanism, wherein the adjusting mechanism comprises a water inlet pipe, a filter cylinder, an adjusting seat, a connecting rod, a sealing plate, a cleaning cylinder, an electric push rod and a filtering membrane, the water inlet pipe is provided with two water inlet pipes, the two water inlet pipes are respectively fixed on two sides of the filter cylinder, the cleaning mechanism comprises a water storage box, a spray head and a photoelectric switch, a water pump is arranged in the water storage box, the output end of the water pump is communicated with the spray head, the photoelectric switch comprises a transmitting part and a receiving part, the transmitting part and the receiving part are respectively fixed on the inner wall of the cleaning cylinder and on the same straight line, the photoelectric switch is electrically connected with the water pump, and the low-pressure multi-channel filtering membrane separation combined device can automatically replace the filtering membrane and clean the filtering membrane, good filtering effect and convenient use.

Description

Low-pressure multi-channel filtering membrane separation combined equipment

Technical Field

The application relates to the field of filtering membrane separation devices, in particular to low-pressure multi-channel filtering membrane separation combined equipment.

Background

The water treatment of filtering membrane is a solid-liquid separation technique, it filters water with the membrane pore, intercept impurity in water, but there is no chemical change, the simple and easy technique of treatment, the filtering membrane is classified by the size of intercepting raw water particle, the membrane pore is divided into microfiltration membrane, hyperfiltration membrane, Nano filtering membrane and reverse osmosis membrane from coarse to fine, and also ion exchange membrane and gas permeable membrane, microfiltration membrane, hyperfiltration membrane, Nano filtering membrane and reverse osmosis membrane drive with the pressure to make the solid-liquid separation, the ion exchange membrane drives the separation of salt molecule with the electric power, promote the desalination of sea water, etc., the gas permeable membrane is the new membrane studied out to pass gas, can make ethanol concentrate and sea water desalt.

When utilizing filtration membrane to filter sewage, filtration membrane surface can gather a large amount of impurity after using a period, need jack-up change and wash, need to strain a section of thick bamboo and take out inside filtration membrane from dismantling in the pipeline and change and wash, and the process is more loaded down with trivial details.

SUMMERY OF THE UTILITY MODEL

In order to make up for the above deficiencies, the application provides a low-pressure multi-channel filtering membrane separation combination device, which solves the above mentioned problems.

The application is realized as follows:

the application provides a low pressure multichannel filtration membrane separation combination equipment, including adjustment mechanism and wiper mechanism.

The adjusting mechanism comprises a water inlet pipe, a filter cartridge, an adjusting seat, a connecting rod, a sealing plate, a cleaning cylinder, an electric push rod and a filtering membrane, wherein the water inlet pipe is provided with two water inlet pipes which are fixed on two sides of the filter cartridge respectively, the adjusting seat is connected to the inner wall of the filter cartridge in a sliding manner, the connecting rod is provided with two water inlet pipes which are fixed on two ends of the adjusting seat respectively, the sealing plate is fixed at one end of the connecting rod and attached to the inner wall of the filter cartridge, the cleaning cylinder is fixed at two ends of the filter cartridge, a through groove is formed in the surface of the cleaning cylinder, the electric push rod is fixed on the surface of the cleaning cylinder, the output end of the electric push rod is fixed on the surface of the sealing plate, and the filtering membrane is arranged between the sealing plate and the adjusting seat.

The wiper mechanism includes water storage box, shower nozzle and photoelectric switch, the water storage box is fixed the cartridge filter outside, the shower nozzle is fixed the wash bowl is inside and the orientation lead to groove department, be equipped with the water pump in the water storage box, the water pump output with the shower nozzle intercommunication, photoelectric switch includes transmitting part and receiving part, and transmitting part and receiving part are fixed respectively on the wash bowl inner wall and on same straight line, photoelectric switch with water pump electric connection.

In the implementation process, the water inlet pipe is connected with a sewage pipeline, sewage enters the filter cylinder and is filtered by the filtering membrane and then is discharged from the other water inlet pipe, after the low-pressure multi-channel filtering membrane separation combination device is used for a period of time, the timing switch controls the electric push rod to pull the sealing plate on one side of the adjusting seat to move, when one end of the sealing plate shields the photoelectric switch, the photoelectric switch controls the water pump to start supplying water to the spray head to spray so as to wash the filtering membrane between the adjusting seat and the sealing plate, when the other end of the sealing plate leaves the photoelectric switch, the washing waste water flows out from the through groove below, meanwhile, the filtering membrane on the other side of the adjusting seat is moved between the two water inlet pipes to replace the filtering membrane on the left side to carry out filtering, and after a period of time, the timing switch controls the electric push rod again to push the sealing plate to push the other side to carry out alternative use, and the low-pressure multi-channel filtering membrane separation combination device can automatically replace the filtering membrane and carry out cleaning, good filtering effect and convenient use.

In a specific embodiment, one end of the water inlet pipe is provided with a flange.

In the above implementation, the flange is used for connecting the water inlet pipe and the pipeline.

In a specific embodiment, the adjusting seat and the sealing plate are provided with sealing rings on the outer sides, and the sealing rings are attached to the inner wall of the filter cylinder.

In the implementation process, the sealing ring improves the tightness of the device.

In a particular embodiment, the seal plate length is greater than the length of the connecting rod.

In the implementation process, the spray head can completely flush the filtering membrane between the sealing plate and the adjusting seat.

In a specific embodiment, a support plate is installed between the adjusting seat and the sealing plate, and the filter membrane is placed on the surface of the support plate.

In the implementation process, the surface of the supporting plate is provided with a plurality of through holes, and the supporting plate is used for supporting the filtering membrane and preventing the filtering membrane from being washed away from the through groove.

In a specific embodiment, the surface of the cleaning barrel is provided with a pipe joint, and the spray head is connected to one end of the pipe joint.

In a specific embodiment, a hose is connected to the output end of the water pump, and one end of the hose is connected with one end, away from the spray head, of the pipe joint.

In a specific embodiment, a groove is formed in the inner wall of the cleaning cylinder, and the photoelectric switch is installed in the groove.

In a specific embodiment, the surface of the cleaning cylinder is provided with an access hole, and a cover plate is arranged on the access hole.

In the implementation process, the access hole is used for being opened to replace the filtering membrane.

In a specific embodiment, a timing switch is installed on the outer side of the cleaning cylinder and is electrically connected with the electric push rod.

In the implementation process, the timing switch is used for controlling the electric push rod to stretch and retract in a timing mode so as to enable the filtering membranes to be used alternately.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic view of a first perspective structure of a low-pressure multi-channel filtering membrane separation combination device provided by an embodiment of the application;

FIG. 2 is a schematic structural diagram of a cleaning cylinder provided in an embodiment of the present application;

FIG. 3 is a second view structural schematic diagram of a low-pressure multi-channel filtering membrane separation combination device provided by the embodiment of the application;

FIG. 4 is a third view structural schematic diagram of a low-pressure multi-channel filtering membrane separation combination device provided by the embodiment of the application.

In the figure: 100-an adjustment mechanism; 110-a water inlet pipe; 111-a flange; 120-a filter cartridge; 130-an adjusting seat; 140-a connecting rod; 150-a sealing plate; 160-a cleaning cylinder; 161-through groove; 162-a pipe joint; 163-grooves; 164-a cover plate; 170-electric push rod; 180-a filtration membrane; 190-a support plate; 200-a cleaning mechanism; 210-a reservoir; 211-a water pump; 220-a spray head; 230-photoelectric switch.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Examples

Referring to fig. 1, the present application provides a technical solution: the low-pressure multi-channel filtering membrane separation combined equipment comprises an adjusting mechanism 100 and a cleaning mechanism 200, wherein the cleaning mechanism 200 is fixed at two ends of the adjusting mechanism 100.

Referring to fig. 1, 2, 3 and 4, the adjusting mechanism 100 includes two water inlet pipes 110, two filter cartridges 120, an adjusting seat 130, a connecting rod 140, a sealing plate 150, a cleaning cylinder 160, an electric push rod 170 and a filter membrane 180, the two water inlet pipes 110 are respectively fixed on two sides of the filter cartridges 120, a flange 111 is installed at one end of each water inlet pipe 110, the adjusting seat 130 is slidably connected to the inner wall of the filter cartridges 120, the two connecting rods 140 are respectively fixed on two ends of the adjusting seat 130, the sealing plate 150 is fixed at one end of each connecting rod 140 and is attached to the inner wall of each filter cartridge 120, sealing rings are installed on the outer sides of the adjusting seat 130 and the sealing plate 150 and are attached to the inner wall of each filter cartridge 120, the length of each sealing plate 150 is greater than that of the connecting rods 140, the cleaning cylinder 160 is fixed at two ends of the filter cartridges 120, a through groove 161 is formed in the surface of the cleaning cylinder 160, a pipe joint 162 is installed on the surface of the cleaning cylinder 160, a nozzle 220 is connected to one end of a pipe joint 162, the inner wall of the cleaning barrel 160 is provided with a groove 163, the photoelectric switch 230 is installed in the groove 163, the surface of the cleaning barrel 160 is provided with an access hole, the access hole is provided with a cover plate 164, the cover plate 164 is used for being opened to replace the filtering membrane 180, the outer side of the cleaning barrel 160 is provided with a timing switch, the timing switch is electrically connected with the electric push rod 170, the timing switch is used for controlling the electric push rod 170 to stretch out and draw back in a timing mode, so as to alternately use the filtering membrane 180, the electric push rod 170 is fixed on the surface of the cleaning barrel 160, the output end of the electric push rod 170 is fixed on the surface of the sealing plate 150, the filtering membrane 180 is arranged between the sealing plate 150 and the adjusting seat 130, the adjusting seat 130 and the sealing plate 150 are provided with a supporting plate 190, the filtering membrane 180 is arranged on the surface of the supporting plate 190, the supporting plate 190 is provided with a plurality of through holes, and is used for supporting the filtering membrane 180, and preventing the filtering membrane from being washed away from the through groove 161.

Referring to fig. 1 and 2, the cleaning mechanism 200 includes a water tank 210, a nozzle 220 and a photoelectric switch 230, the water tank 210 is fixed outside the filter cartridge 120, the nozzle 220 is fixed inside the cleaning cylinder 160 and faces the through slot 161, a water pump 211 is disposed in the water tank 210, an output end of the water pump 211 is communicated with the nozzle 220, an output end of the water pump 211 is connected with a hose, one end of the hose is connected with one end of the pipe joint 162 away from the nozzle 220, the photoelectric switch 230 includes an emitting portion and a receiving portion, the emitting portion and the receiving portion are respectively fixed on an inner wall of the cleaning cylinder 160 and are on the same straight line, and the photoelectric switch 230 is electrically connected with the water pump 211.

Specifically, this low pressure multichannel filtration membrane separation combination equipment's theory of operation: when in work, the water inlet pipe 110 is connected with a sewage pipeline, sewage enters the filter cylinder 120, is filtered by the filter membrane 180 and then is discharged from the other water inlet pipe 110, after a period of time, the timing switch controls the electric push rod 170 to pull the sealing plate 150 at one side of the adjusting base 130 to move, when one end of the sealing plate 150 shields the photoelectric switch 230, the photoelectric switch 230 controls the water pump 211 to start supplying water to the spray head 220 for spraying so as to wash the filtering membrane 180 between the adjusting seat 130 and the sealing plate 150, when the other end of the sealing plate 150 is separated from the photoelectric switch 230, the flushed waste water flows out from the through groove 161 below, meanwhile, the filtering membrane 180 on the other side of the adjusting seat 130 is moved between the two water inlet pipes 110 to replace the filtering membrane 180 on the left side for filtering, and after a while, the timing switch controls the electric push rod 170 again to push the sealing plate 150 to the other side for alternate use.

It should be noted that the model specifications of the electric putter 170 and the water pump 211 need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art in the field, so detailed description is omitted.

The power supply and the principle of the power supply of the electric putter 170 and the water pump 211 will be clear to those skilled in the art and will not be described in detail herein.

The above embodiments are merely examples of the present application and are not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A low-pressure multi-channel filtering membrane separation combination device is characterized by comprising

The adjusting mechanism (100) comprises a water inlet pipe (110), a filter cylinder (120), two adjusting seats (130), connecting rods (140), sealing plates (150), two cleaning cylinders (160), electric push rods (170) and a filter membrane (180), wherein the number of the water inlet pipes (110) is two, the two water inlet pipes (110) are respectively fixed on two sides of the filter cylinder (120), the adjusting seats (130) are connected to the inner wall of the filter cylinder (120) in a sliding manner, the number of the connecting rods (140) is two, the two connecting rods (140) are respectively fixed at two ends of the adjusting seats (130), the sealing plates (150) are fixed at one ends of the connecting rods (140) and are attached to the inner wall of the filter cylinder (120), the cleaning cylinders (160) are fixed at two ends of the filter cylinder (120), through grooves (161) are formed in the surface of the cleaning cylinder (160), and the electric push rods (170) are fixed on the surface of the cleaning cylinder (160), the output end of the electric push rod (170) is fixed on the surface of the sealing plate (150), and the filter membrane (180) is arranged between the sealing plate (150) and the adjusting seat (130);

wiper mechanism (200), wiper mechanism (200) includes water storage box (210), shower nozzle (220) and photoelectric switch (230), water storage box (210) are fixed the cartridge filter (120) outside, shower nozzle (220) are fixed inside and the orientation of wash bowl (160) lead to groove (161) department, be equipped with water pump (211) in water storage box (210), water pump (211) output with shower nozzle (220) intercommunication, photoelectric switch (230) include transmitting part and receiving part, and transmitting part and receiving part are fixed respectively on wash bowl (160) inner wall and on same straight line, photoelectric switch (230) with water pump (211) electric connection.

2. A low pressure multi-channel membrane filtration and separation combination according to claim 1, wherein a flange (111) is mounted at one end of the water inlet pipe (110).

3. The low pressure multi-channel filtering membrane separation assembly according to claim 1, wherein sealing rings are installed on the outer sides of the adjusting seat (130) and the sealing plate (150), and the sealing rings are attached to the inner wall of the filtering cylinder (120).

4. A low pressure multi-channel membrane filtration separation assembly according to claim 1, wherein the sealing plate (150) has a length greater than the length of the connecting rod (140).

5. A low pressure multi-channel filtering membrane separation assembly according to claim 1, wherein a support plate (190) is installed between the adjusting seat (130) and the sealing plate (150), and the filtering membrane (180) is placed on the surface of the support plate (190).

6. The low pressure multi-channel filtering membrane separation assembly according to claim 1, wherein a pipe connector (162) is installed on the surface of the cleaning cylinder (160), and the spray head (220) is connected to one end of the pipe connector (162).

7. The low-pressure multichannel filtering membrane separation combination device according to claim 6, characterized in that a hose (2111) is connected to the output end of the water pump (211), and one end of the hose (2111) is connected to the end of the pipe joint (162) far away from the spray head (220).

8. A low pressure multi-channel filtering membrane separation assembly according to claim 1, wherein the inner wall of the cleaning cylinder (160) is provided with a groove (163), and the photoelectric switch (230) is installed in the groove (163).

9. The low-pressure multi-channel filtering membrane separation combination device as claimed in claim 1, wherein a service hole is formed in the surface of the cleaning cylinder (160), and a cover plate (164) is installed on the service hole.

10. The low-pressure multi-channel filtering membrane separation combination device according to claim 1, wherein a timing switch is mounted on the outer side of the cleaning cylinder (160), and the timing switch is electrically connected with the electric push rod (170).

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