CN214862569U - Reverse osmosis off-line cleaning equipment - Google Patents

Abstract

The utility model discloses a reverse osmosis off-line cleaning equipment, which belongs to the technical field of reverse osmosis off-line cleaning equipment, the technical proposal main points are that the cleaning equipment comprises a cleaning cavity, the configured cleaning liquid enters a filter box through a liquid outlet pipe for filtration, a water pump extracts different cleaning liquids into a left water cleaning cavity and a concentrated water cavity respectively, the cleaning liquids in the water cleaning cavity and the concentrated water cavity are respectively conveyed into a cleaning device through a water inlet pipeline for cleaning a reverse osmosis membrane, the cleaned sewage can enter the right water cleaning cavity and the concentrated water cavity through the water outlet pipeline, the circulation is carried out until the reverse osmosis membrane in the cleaning device is cleaned, the sewage in the water cleaning cavity and the concentrated water cavity is respectively led into a clean water pipeline and a concentrated water pipeline, meanwhile, valves on the upper end surfaces of the clean water pipeline and the concentrated water pipeline are adjusted through numerical values measured by a second pressure meter and a flowmeter, and then the pressures of the liquid outlet pipe, the second connecting pipe, the clean water pipeline and the concentrated water pipeline are adjusted, thereby adjusting the cleaning effect of the reverse osmosis membrane off-line cleaning equipment.

Description

Reverse osmosis off-line cleaning equipment

Technical Field

The utility model relates to a reverse osmosis off-line cleaning equipment technical field, in particular to reverse osmosis off-line cleaning equipment.

Background

The reverse osmosis membrane component is a valuable component of a reverse osmosis system, the reverse osmosis membrane component can be used for years due to proper use and effective maintenance, a layer of pollutants can be deposited in the reverse osmosis membrane component after the reverse osmosis system operates for a certain time, the performance of the reverse osmosis system is influenced, and the reverse osmosis membrane component needs to be cleaned to recover the performance of the reverse osmosis system.

However, when the existing reverse osmosis off-line cleaning equipment is used for cleaning, the cleaning solution cleans the first reverse osmosis membrane module and then cleans the second reverse osmosis membrane module, and the cleaning efficiency is low due to the problem that the cleaning cannot be performed according to the pollution degree of the reverse osmosis membranes.

Disclosure of Invention

The utility model provides a reverse osmosis off-line cleaning equipment aims at solving and can not carry out abluent problem respectively according to reverse osmosis membrane's pollution degree simultaneously, leads to the problem that the cleaning efficiency is low.

The utility model discloses a realize like this, a reverse osmosis off-line cleaning equipment, comprising a base plate, two washing casees that distribute around being are installed to the up end of bottom plate, two right sides that wash the case all communicate there is the drain pipe, two right sides that wash the case all have two rose boxes through two drain pipe intercommunications, the right side of two rose boxes is provided with the washing chamber, the left and right sides that washs the chamber all is provided with the collection liquid chamber, two collection liquid chambers are equallyd divide into the dense water chamber that water purification chamber and lie in water purification chamber up end respectively, the right side that lies in right side water purification chamber and dense water chamber communicates respectively has water purification pipeline and dense water pipeline, the second manometer is installed to the outer wall of dense water pipeline, the flowmeter is installed to water purification pipeline's outer wall.

In order to dispose different washing liquids according to the different pollution degree of reverse osmosis membrane, and then improve the cleaning efficiency, the utility model discloses an it is preferred that reverse osmosis off-line cleaning equipment, the internally mounted who washs the chamber has a plurality of evenly distributed's purger, and the left and right sides of a plurality of purgers all communicates there is inlet channel and outlet conduit, a plurality of inlet channels respectively with be located left water purification chamber and dense water cavity intercommunication, a plurality of outlet conduit respectively with be located the right side water purification chamber and dense water cavity intercommunication.

In order to discharge the sewage after washing, the utility model discloses an it is preferred that reverse osmosis off-line cleaning equipment, the right side of water purification pipeline and dense water pipeline all communicates there is the circulating pipe, the other end of two circulating pipes respectively with two up end and the lower terminal surface intercommunication that wash the case.

For the convenience of wash reverse osmosis membrane, and measure the pressure of the interior water of second connecting pipe, so that make suitable flow control, the utility model discloses a reverse osmosis off-line cleaning equipment is preferred, the right side intercommunication of two rose boxes has two first connecting pipes, two rose boxes all communicate through two first connecting pipes has the water pump, two water pumps and the intercommunication that is located between the left collecting chamber have two second connecting pipes, the up end intercommunication that is located rear second connecting pipe has the connecting tube, the other end of connecting tube and the intercommunication that is located left dense water chamber, the other end and the water purification chamber intercommunication that are located the place ahead second connecting pipe, the outer wall that is located the place ahead second connecting pipe installs first manometer.

In order to wash reverse osmosis membrane's sewage discharge, the utility model discloses an off-line cleaning equipment of reverse osmosis is preferred, and two left sides of wasing the case all communicate there is the fluid-discharge tube, and two one ends of wasing the case mutually on the back of the body have all seted up the inlet.

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

1. the reverse osmosis off-line cleaning equipment can be used for configuring different cleaning liquids according to different pollution degrees of reverse osmosis membranes through two cleaning boxes, the reverse osmosis membranes according to different pollution degrees can be respectively placed in a plurality of cleaners, the configured cleaning liquids enter filter elements in matched filter boxes through two liquid outlet pipes for filtering, different cleaning liquids are respectively extracted into a left water purifying cavity and a left concentrated water cavity through a water pump after filtering, the cleaning liquids in the water purifying cavity and the concentrated water cavity are respectively conveyed into the matched cleaners through water inlet pipes for cleaning the reverse osmosis membranes, the cleaned sewage can enter the right water purifying cavity and the right concentrated water cavity through the water outlet pipes, and the circulation is carried out until the reverse osmosis membranes in the cleaners are cleaned, so that the sewage in the water purifying cavity and the concentrated water cavity respectively enters a water purifying pipeline and a concentrated water pipeline, and simultaneously passes through numerical values measured by a second pressure meter and a flow meter, the valves on the upper end surfaces of the clean water pipeline and the concentrated water pipeline are adjusted, so that the pressures of the liquid outlet pipe, the second connecting pipe, the clean water pipeline and the concentrated water pipeline are adjusted, the flow rates of the clean water pipeline and the concentrated water pipeline are adjusted, and the cleaning effect of the reverse osmosis membrane off-line cleaning equipment is adjusted;

2. this kind of reverse osmosis off-line cleaning equipment, can place different purgers respectively according to the pollution degree of reverse osmosis membrane difference in, extract the washing liquid of the different degree in left side water purification chamber and the dense water intracavity to the purger respectively through the inlet channel in, make the washing liquid in the dense water intracavity get into the purger of placing the pollution more serious reverse osmosis membrane, make the washing liquid in the water purification intracavity get into place the purger of placing the pollution lower reverse osmosis membrane in, wash respectively, sewage accessible outlet conduit after the washing discharges, and then realized can dispose different washing liquids according to the different pollution degree of reverse osmosis membrane, and then improved the cleaning efficiency.

To sum up, this kind of reverse osmosis off-line cleaning equipment has realized can be according to the abluent effect of reverse osmosis membrane different pollution degree difference simultaneously respectively, and then has improved the cleaning efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic view of the overall structure of a reverse osmosis off-line cleaning device of the present invention;

FIG. 2 is a schematic perspective view of the cleaning chamber and the liquid collecting chamber of the present invention;

fig. 3 is a left side view of the cleaning tank of the present invention.

The symbols in the figures indicate:

1. a base plate; 2. a cleaning tank; 201. a liquid outlet pipe; 202. a liquid discharge pipe; 3. a filter box; 301. a first connecting pipe; 4. a water pump; 401. a second connecting pipe; 402. a first pressure gauge; 5. a liquid collection cavity; 501. a water purifying cavity; 502. a concentrated water chamber; 503. a water inlet pipe; 6. a cleaning chamber; 601. a washer; 602. a water outlet pipeline; 603. a concentrate line; 604. a water purification pipeline; 605. a flow meter; 606. a second pressure gauge; 607. a circulation pipe.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a reverse osmosis off-line cleaning equipment, comprising a base plate 1, two washing casees 2 that distribute around being are installed to the up end of bottom plate 1, two right sides that wash case 2 all communicate there is drain pipe 201, two right sides that wash case 2 all have two rose boxes 3 through two drain pipe 201 intercommunications, the right side of two rose boxes 3 is provided with washs chamber 6, the left and right sides that washs chamber 6 all is provided with collecting liquid chamber 5, two collecting liquid chamber 5 are equallyd divide into water purification chamber 501 respectively and are located the dense water cavity 502 of water purification chamber 501 up end, the right side that is located right side water purification chamber 501 and dense water cavity 502 communicates respectively has water purification pipeline 604 and dense water pipeline 603, second manometer 606 is installed to the outer wall of dense water pipeline 603, flowmeter 605 is installed to the outer wall of water purification pipeline 604.

In this embodiment: different cleaning liquids can be configured according to different pollution degrees of the reverse osmosis membranes through the two cleaning tanks 2, the reverse osmosis membranes according to different pollution degrees can be respectively placed in the plurality of cleaning devices 601, the configured cleaning liquids respectively enter the filter elements in the two matched filtering tanks 3 through the two liquid outlet pipes 201 for filtering, different cleaning liquids are respectively pumped into the left clean water cavity 501 and the left concentrated water cavity 502 through the water pump 4 after filtering, the cleaning liquids in the clean water cavity 501 and the concentrated water cavity 502 are respectively conveyed into the matched cleaning devices 601 through the water inlet pipe 503 for cleaning the reverse osmosis membranes, the cleaned sewage can enter the right matched clean water cavity 501 and the right concentrated water cavity 502 through the water outlet pipe 602, and the circulation is carried out until the reverse osmosis membranes in the cleaning devices 601 are cleaned, so that the sewage in the clean water cavity 501 and the concentrated water cavity 502 can respectively enter the clean water pipeline 604 and the concentrated water pipeline 603, simultaneously through the numerical value of second manometer 606 and flowmeter 605 measurement, adjust the valve of clean water pipeline 604 and dense water pipeline 603 up end, and then adjust drain pipe 201 and second connecting pipe 401 and clean water pipeline 604 and dense water pipeline 603's pressure to adjust the flow of clean water pipeline 604 and dense water pipeline 603, thereby adjust reverse osmosis membrane off-line cleaning equipment's cleaning performance.

As a technical optimization scheme, the internally mounted that washs chamber 6 has a plurality of evenly distributed's purger 601, and the left and right sides of a plurality of purgers 601 all communicates has inlet channel 503 and outlet conduit 602, a plurality of inlet channels 503 respectively with be located left water purification chamber 501 and dense water cavity 502 intercommunication, a plurality of outlet conduit 602 respectively with be located the right side water purification chamber 501 and dense water cavity 502 intercommunication.

In this embodiment: different purgers 601 can be placed respectively according to the different pollution degree of reverse osmosis membrane in, the washing liquid of the different degree in with left side water purification chamber 501 and dense water cavity 502 is extracted respectively to purger 601 in through inlet channel 503, make the washing liquid in the dense water cavity 502 get into place the purger 601 of polluting more serious reverse osmosis membrane in, make the washing liquid in the water purification chamber 501 get into place the purger 601 of polluting lower reverse osmosis membrane in, wash respectively, sewage accessible outlet conduit 602 after the washing discharges, and then realized can dispose different washing liquids according to the different pollution degree of reverse osmosis membrane, and then improved the cleaning efficiency.

As a technical optimization scheme of the utility model, the right sides of the clear water pipeline 604 and the concentrated water pipeline 603 are all communicated with circulating pipes 607, and the other ends of the two circulating pipes 607 are respectively communicated with the upper end surface and the lower end surface of the two cleaning tanks 2.

In this embodiment: the cleaned sewage may be introduced into the cleaning tank 2 again through the circulation pipe 607 and discharged through the drain pipe 202.

As a technical optimization scheme, the right side intercommunication of two rose tanks 3 has two first connecting pipes 301, two rose tanks 3 all communicate through two first connecting pipes 301 have water pump 4, two water pumps 4 and be located between the left collecting chamber 5 intercommunication have two second connecting pipes 401, the up end intercommunication that is located rear second connecting pipe 401 has the connecting tube, the other end of connecting tube with be located left dense water chamber 502 intercommunication, the other end and the clean water chamber 501 intercommunication that are located place ahead second connecting pipe 401, first manometer 402 is installed to the outer wall that is located place ahead second connecting pipe 401.

In this embodiment: the cleaning liquid in the filter box 3 is filtered and then pumped into the second connecting pipe 401 through the water pump 4, and then respectively enters the liquid collecting cavity 5 so as to clean the reverse osmosis membrane, and the pressure of the water in the second connecting pipe 401 can be measured through the first pressure gauge 402 so as to conveniently adjust the flow rate.

As a technical optimization scheme of the utility model, two left sides of wasing case 2 all communicate there is fluid-discharge tube 202, and the inlet has all been seted up to two one ends of wasing case 2 mutually on the back of the body.

In this embodiment: through the drain pipe 202 so as to discharge the sewage for cleaning the reverse osmosis membrane, through the liquid inlet so as to add the cleaning liquid and the water into the cleaning tank 2 for subsequent cleaning work.

The utility model discloses a theory of operation: different cleaning liquids can be configured according to different pollution degrees of the reverse osmosis membranes through the two cleaning tanks 2, the reverse osmosis membranes according to different pollution degrees can be respectively placed in the plurality of cleaning devices 601, the configured cleaning liquids respectively enter the filter cores in the matched filtering tanks 3 through the two liquid outlet pipes 201 for filtering, different cleaning liquids are respectively pumped into the left clean water cavity 501 and the left concentrated water cavity 502 through the water pump 4 after filtering, the cleaning liquids in the clean water cavity 501 and the concentrated water cavity 502 are respectively conveyed into the matched cleaning devices 601 through the water inlet pipe 503 for cleaning the reverse osmosis membranes, the cleaned sewage can enter the right matched clean water cavity 501 and the right concentrated water cavity 502 through the water outlet pipe 602, the sewage in the clean water cavity 501 and the concentrated water cavity 502 is respectively led into the clean water pipeline 604 and the concentrated water pipeline 603, and the numerical values measured by the second pressure gauge 606 and the flow meter 605 are simultaneously passed through, the valves on the upper end surfaces of the clean water pipeline 604 and the concentrated water pipeline 603 are adjusted, so that the pressures of the liquid outlet pipe 201, the second connecting pipe 401, the clean water pipeline 604 and the concentrated water pipeline 603 are adjusted, the flow rates of the clean water pipeline 604 and the concentrated water pipeline 603 are adjusted, and finally, the cleaned sewage can enter the cleaning tank 2 again through the circulating pipe 607 and then is discharged through the liquid discharge pipe 202.

In the description of the present invention, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting of the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (5)

1. A reverse osmosis off-line cleaning equipment, includes bottom plate (1), its characterized in that: the upper end surface of the bottom plate (1) is provided with two cleaning boxes (2) which are distributed front and back, the right sides of the two cleaning boxes (2) are communicated with liquid outlet pipes (201), the right sides of the two cleaning boxes (2) are communicated with two filter boxes (3) through the two liquid outlet pipes (201), the right sides of the two filter boxes (3) are provided with cleaning cavities (6), the left side and the right side of the cleaning cavity (6) are respectively provided with a liquid collecting cavity (5), the two liquid collecting cavities (5) are respectively divided into a water purifying cavity (501) and a concentrated water cavity (502) positioned on the upper end surface of the water purifying cavity (501), the right sides of the water purifying cavity (501) and the concentrated water cavity (502) on the right side are respectively communicated with a water purifying pipeline (604) and a concentrated water pipeline (603), and a second pressure gauge (606) is installed on the outer wall of the concentrated water pipeline (603), and a flow meter (605) is installed on the outer wall of the purified water pipeline (604).

2. A reverse osmosis off-line cleaning apparatus according to claim 1, wherein: the internally mounted who washs chamber (6) has a plurality of evenly distributed's purger (601), and is a plurality of the left and right sides of purger (601) all communicates there are inlet channel (503) and outlet conduit (602), and is a plurality of inlet channel (503) communicate with water purification chamber (501) and dense water chamber (502) that are located left respectively, and is a plurality of outlet conduit (602) communicate with water purification chamber (501) and dense water chamber (502) that are located the right side respectively.

3. A reverse osmosis off-line cleaning apparatus according to claim 1, wherein: the right sides of the purified water pipeline (604) and the concentrated water pipeline (603) are communicated with circulating pipes (607), and the other ends of the two circulating pipes (607) are respectively communicated with the upper end surface and the lower end surface of the two cleaning tanks (2).

4. A reverse osmosis off-line cleaning apparatus according to claim 1, wherein: two the right side intercommunication of rose box (3) has two first connecting pipes (301), two rose box (3) all communicates through two first connecting pipes (301) have water pump (4), two water pump (4) and be located between left collecting chamber (5) the intercommunication have two second connecting pipes (401), and the up end intercommunication that is located rear second connecting pipe (401) has a connecting tube, the other end of connecting tube and being located left dense water chamber (502) intercommunication, the other end and the clear water chamber (501) intercommunication that are located place ahead second connecting pipe (401), the outer wall that is located place ahead second connecting pipe (401) installs first manometer (402).

5. A reverse osmosis off-line cleaning apparatus according to claim 1, wherein: two the left side of wasing case (2) all communicates there is fluid-discharge tube (202), two wash the one end that case (2) carried on the back mutually and all seted up the inlet.

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