CN112390311A - Multi-tank series control valve and water treatment system thereof - Google Patents

Multi-tank series control valve and water treatment system thereof Download PDF

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Publication number
CN112390311A
CN112390311A CN202011395865.4A CN202011395865A CN112390311A CN 112390311 A CN112390311 A CN 112390311A CN 202011395865 A CN202011395865 A CN 202011395865A CN 112390311 A CN112390311 A CN 112390311A
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China
Prior art keywords
tank
water distribution
filter material
control valve
communicated
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Pending
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CN202011395865.4A
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Chinese (zh)
Inventor
原海林
伍孝荣
伍先水
林景洁
谢珊珊
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Wenzhou Runxin Manufacturing Machine Co ltd
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Wenzhou Runxin Manufacturing Machine Co ltd
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Priority to CN202011395865.4A priority Critical patent/CN112390311A/en
Publication of CN112390311A publication Critical patent/CN112390311A/en
Pending legal-status Critical Current

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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/001Processes for the treatment of water whereby the filtration technique is of importance
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2201/00Apparatus for treatment of water, waste water or sewage
    • C02F2201/002Construction details of the apparatus
    • C02F2201/005Valves

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  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Multiple-Way Valves (AREA)

Abstract

The invention relates to a multi-tank series control valve and a water treatment system thereof, which comprise a valve body, wherein the valve body is provided with an upper water distribution channel and a lower water distribution channel, the upper water distribution channel is communicated with the upper part of a filter tank, and the lower water distribution channel is communicated with the lower part of the filter tank; the upper water distribution runner of the valve body is divided into a first upper water distribution runner and a second upper water distribution runner, and the second upper water distribution runner is communicated with the upper part of the filter material tank; the improved valve body is provided with a port a and a port b, the port a is communicated with the first upper water distribution channel, and the port b is communicated with the second upper water distribution channel. The control valve formed by assembling the valve body of the control valve designed by the invention and other parts of the technology has the function of controlling a plurality of tanks to be connected in series and synchronously realizing the water treatment process of the technology.

Description

Multi-tank series control valve and water treatment system thereof
Technical Field
The invention relates to a multi-tank series control valve based on a water treatment control valve technology and a water treatment system comprising the same.
Background
Chinese patent numbers ZL201620532576.7, ZL201720650460.8, ZL201210086397.1, ZL201420428495.3 and other patent documents describe integrated water treatment control valve technology for filtering, purifying or softening water treatment, and the integrated water treatment control valve technology brings the beneficial effects of convenience, rapidness and low cost for the installation and control of a water treatment system.
In the water treatment field, purify + soften two jar series connection water treatment system and be used for getting rid of aquatic impurity, pollutant and calcium magnesium ion in order to reach purification and softening purpose, purify + purify two jar series connection water treatment system and be used for multistage multi-media filtration purification of water quality, soften + soften two jar series connection water treatment system and often be used for softening the quality of water of handling high rigidity. The purification + softening or purification + purification or softening + softening series water treatment system controlled by the integrated water treatment control valve in the prior art usually needs to be provided with two independent integrated water treatment control valves and connecting pipelines to control the water treatment system.
Disclosure of Invention
The invention aims to solve the technical problem of providing a multi-tank series control valve based on a water treatment control valve technology, and the control valve formed by assembling the valve body designed by the invention and other parts of the technology based on any water treatment control valve technology has the function of controlling a plurality of tanks to be connected in series and synchronously realizing the water treatment process of the technology, and saves the cost of more than one control valve compared with the traditional series water treatment system.
The invention solves the technical problems through the following technical scheme:
a multi-tank series control valve comprises a valve body; the valve body is provided with an upper water distribution flow passage and a lower water distribution flow passage, the upper water distribution flow passage is communicated with the upper part of the filter material tank, and the lower water distribution flow passage is communicated with the lower part of the filter material tank. The invention improves and designs the valve body of the control valve of the raw water treatment control valve technology: the upper water distribution channel of the original valve body is divided into a first upper water distribution channel and a second upper water distribution channel, and the second upper water distribution channel is communicated with the upper part of the filter material tank; the valve body is additionally provided with an interface a and an interface b, the interface a is communicated with the first upper water distribution channel, and the interface b is communicated with the second upper water distribution channel.
A double-tank series water treatment system comprising a multi-tank series control valve comprises a multi-tank series control valve based on a water treatment control valve technology, an A filter tank, a B filter tank, a water distribution joint, an A tank filter material, a B tank filter material, an A tank central pipe assembly and a B tank central pipe assembly. The multi-tank series control valve is connected to the filter material tank A, a valve body of the multi-tank series control valve is provided with a first upper water distribution channel, a second upper water distribution channel, a lower water distribution channel, a connector a and a connector b, the second upper water distribution channel is communicated with the upper part of the filter material tank A, the connector a is communicated with the first upper water distribution channel, the connector b is communicated with the second upper water distribution channel, and the lower water distribution channel is communicated with the lower part of the filter material tank A; the water distribution joint is connected to the filter tank B and is provided with an upper water distribution flow passage and a lower water distribution flow passage, the upper water distribution flow passage is communicated with the upper part of the filter tank B, the lower water distribution flow passage is communicated with the lower part of the filter tank B, the upper water distribution flow passage of the water distribution joint is communicated with an interface a of the control valve through a connecting pipe, and the lower water distribution flow passage is communicated with an interface B of the control valve through a connecting pipe; the tank A filter material and the tank A central pipe assembly are arranged in the tank A filter material tank; the tank B filter material and the tank B central pipe assembly are arranged in the tank B filter material.
Through the connection and the flow passage communication of the parts, the series connection of the B filter material tank and the A filter material tank is realized. This scheme has realized that the water treatment function of the two series connection's of a multi-tank series connection control valve control B filter material jar and A filter material jar.
A three-tank series water treatment system comprising a multi-tank series control valve based on a water treatment control valve technology comprises a multi-tank series control valve based on the water treatment control valve technology, an A filter tank, a B filter tank, a C filter tank, a bridge joint, a water distribution joint, an A tank filter material, a B tank filter material, a C tank filter material, an A tank central pipe assembly, a B tank central pipe assembly and a C tank central pipe assembly. The multi-tank series control valve is connected to the filter material tank A, a valve body of the multi-tank series control valve is provided with a first upper water distribution channel, a second upper water distribution channel, a lower water distribution channel, a connector a and a connector b, the second upper water distribution channel is communicated with the upper part of the filter material tank A, the connector a is communicated with the first upper water distribution channel, the connector b is communicated with the second upper water distribution channel, and the lower water distribution channel is communicated with the lower part of the filter material tank A; the bridge joint is connected to the C filter material tank and provided with a straight-through flow channel, an upper water distribution flow channel and a lower water distribution flow channel, the upper water distribution flow channel is communicated with the upper part of the C filter material tank, and the lower water distribution flow channel is communicated with the lower part of the C filter material tank; the water distribution joint is connected to the filter material tank B and is provided with an upper water distribution channel and a lower water distribution channel, the upper water distribution channel is communicated with the upper part of the filter material tank B, and the lower water distribution channel is communicated with the lower part of the filter material tank B; the straight-through channel of the gap bridge joint is communicated with the interface a of the control valve and the upper water distribution channel of the water distribution joint through a connecting pipe; the upper water distribution channel of the gap bridge joint is communicated with the lower water distribution channel of the water distribution joint through a connecting pipe; the lower water distribution flow passage of the gap bridge joint is communicated with an interface b of the control valve through a connecting pipe; the tank A filter material and the tank A central pipe assembly are arranged in the tank A filter material tank; the tank B filter material and the tank B central pipe assembly are arranged in the tank B filter material; the tank C filter material and the tank C center pipe assembly are arranged in the tank C filter material tank.
Through the connection and the flow passage communication of the parts, the sequential series connection of the filter material tank B, the filter material tank C and the filter material tank A is realized. This scheme has realized that the water treatment function of three filter material jar order series connection of many jars series control valve one valve control B filter material jar, C filter material jar and A filter material jar.
By increasing the number of gap bridge joints, a multi-tank series water treatment system with more than three tanks can be realized.
The invention has the beneficial effects that: the invention provides a multi-tank series control valve based on a water treatment control valve technology, and the control valve is formed by assembling a valve body of the control valve designed by the invention and other parts of the technology based on any water treatment control valve technology, has the function of controlling a plurality of tanks to be connected in series and synchronously realizing the water treatment process of the technology, and saves the cost of more than one control valve compared with the traditional series water treatment system.
Drawings
FIG. 1 is a schematic diagram of a conventional water treatment control valve and the operation of a water treatment system including the same;
FIG. 2 is a schematic view of a conventional water treatment control valve;
fig. 3 is a schematic structural diagram of a multi-tank series control valve based on water treatment control valve technology.
FIG. 4 is a schematic diagram of the operational state of a dual-tank series water treatment system incorporating a multi-tank series control valve based on water treatment control valve technology in accordance with an embodiment of the present invention;
FIG. 5 is a schematic structural diagram of a gap bridge joint for realizing more than three tanks connected in series according to an embodiment of the invention;
FIG. 6 is a schematic diagram of the operational state of a three-tank series water treatment system incorporating a multi-tank series control valve based on water treatment control valve technology in accordance with an embodiment of the present invention;
Detailed Description
The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.
As shown in fig. 1, the water treatment system generally comprises an integrated water treatment control valve 100, a filter tank 40a, a filter material 44a, a central pipe assembly 42a, etc., wherein the valve body 30 of the integrated water treatment control valve 100 is provided with an upper water distribution flow passage 38a communicated with an upper portion 41a of the filter material tank 40a, and a lower water distribution flow passage 39a communicated with a lower portion 43a of the filter material tank 40 a. The water treatment system is usually operated in such a way that the inlet water enters the upper part 41a of the filter material tank 40a through the upper water distribution channel 38a of the valve body 30, passes through the filter material layer 44a to the lower part 43a of the filter material tank 40a, and then flows out after flowing to the lower water distribution channel 39a of the valve body 30 along the central tube assembly 42 a.
As shown in fig. 2 and 3, the multi-tank series control valve 100a based on the water treatment control valve technology includes a valve body 30a and other components. The valve body 30a is improved and designed based on the valve body 30 of the prior art control valve 100: the upper water distribution channel 38a of the original valve body 30 is divided into a first upper water distribution channel 38a1 and a second upper water distribution channel 38a2, and the second upper water distribution channel 38a2 is communicated with the upper part of the filter material tank; the valve body 30a is provided with a port a101 and a port b102, the port a101 is communicated with the first upper water distribution channel 38a1, and the port b102 is communicated with the second upper water distribution channel 38a 2.
The first embodiment is as follows: as shown in fig. 4, the dual-tank series water treatment system including the multi-tank series control valve based on the water treatment control valve technology includes a multi-tank series control valve 100a based on the water treatment control valve technology, an a filter material tank 40a, a B filter material tank 40B, a water distribution connector 200, an a filter material tank, a B filter material tank, an a tank center pipe assembly, and a B tank center pipe assembly. The multi-tank series control valve 100a is connected to the filter material tank A40 a, a valve body 30a of the multi-tank series control valve 100a is provided with a first upper water distribution channel 38a1, a second upper water distribution channel 38a2, a lower water distribution channel 39a, a connector a101 and a connector b102, the second upper water distribution channel 38a2 is communicated with the upper part 41a of the filter material tank A40 a, the connector a101 is communicated with the first upper water distribution channel 38a1, the connector b102 is communicated with the second upper water distribution channel 38a2, and the lower water distribution channel 39a is communicated with the lower part of the filter material tank A40 a; the water distribution connector 200 is connected to the B filter tank 40B, the water distribution connector 200 is provided with an upper water distribution channel 38B and a lower water distribution channel 39B, the upper water distribution channel 38B is communicated with the upper part of the filter tank 40B, the lower water distribution channel 39B is communicated with the lower part of the filter tank 40B, the upper water distribution channel 38B is communicated with a connector a101 of the control valve 100a through a connecting pipe, and the lower water distribution channel 39B is communicated with a connector B102 of the control valve 100a through a connecting pipe; the tank A filter material 44a and the tank A central pipe component 42a are arranged in the tank A filter material; tank B filter material 44B, tank B center tube assembly 42B is disposed within the tank B filter material.
The connection of the components and the communication of the flow channels realize the series connection of the material filtering tank B40B and the material filtering tank A40 a. The function of controlling the filter material tank B and the filter material tank A to operate in series by the multi-tank series control valve is described below by taking the operation state of the water treatment system as an example, and other water treatment functions are not described in detail.
The two-tank series operation state of the B filter material tank and the A filter material tank is as follows: the inlet water flows through the first upper water distribution flow passage 38a1 of the valve body 30a, the interface a101, the connecting pipe, and the upper water distribution flow passage 38B of the water distribution joint 200 in sequence, enters the upper part 41B of the B filter material tank 40B, passes through the B filter material layer 44B, flows to the lower part 43B of the B filter material tank 40B, and then flows to the lower water distribution flow passage 39B of the water distribution joint 200 along the B tank central pipe assembly 42B, because the lower water distribution flow passage 39B is communicated with the interface B102 of the valve body 30a, the interface B102 is also communicated with the second upper water distribution flow passage 38a2 of the valve body 30a, so that the water flows through the second upper water distribution flow passage 38a2 of the valve body 30a, enters the upper part 41a of the A filter material tank 40a, passes through the A filter material layer 44a, flows to the lower part 43a of the A filter material tank 40a, and then flows to the lower water distribution flow passage 39a of the valve.
Example two: as shown in fig. 5 and 6, the three-tank serial water treatment system including the multi-tank serial control valve based on the water treatment control valve technology includes a multi-tank serial control valve 100a based on the water treatment control valve technology, an a filter material tank 40a, a B filter material tank 40B, a C filter material tank 40C, a bridge joint 300, a water distribution joint 200, an a tank filter material 44a, a B tank filter material 44B, a C tank filter material 44C, an a tank center pipe assembly 42a, a B tank center pipe assembly 42B, and a C tank center pipe assembly 42C. The multi-tank series control valve 100a is connected to the filter material tank A40 a, a valve body 30a of the multi-tank series control valve 100a is provided with a first upper water distribution channel 38a1, a second upper water distribution channel 38a2, a lower water distribution channel 39a, a connector a101 and a connector b102, the second upper water distribution channel 38a2 is communicated with the upper part 41a of the filter material tank A40 a, the connector a101 is communicated with the first upper water distribution channel 38a1, the connector b102 is communicated with the second upper water distribution channel 38a2, and the lower water distribution channel 39a is communicated with the lower part of the filter material tank A40 a; the bridge joint 300 is connected to the filter material tank C40C, the bridge joint 300 is provided with a straight-through channel 38C1, an upper water distribution channel 38C2 and a lower water distribution channel 39C, the upper water distribution channel 38C2 is communicated with the upper part 41C of the filter material tank C40C, and the lower water distribution channel 39C is communicated with the lower part 43C of the filter material tank C; the water distribution joint 200 is connected to the B filter tank 40B, the water distribution joint 200 is provided with an upper water distribution channel 38B and a lower water distribution channel 39B, the upper water distribution channel 38B is communicated with the upper part 41B of the B filter tank, and the lower water distribution channel 39B is communicated with the lower part 43B of the B filter tank; the straight-through channel 38c1 of the bridge joint 300 is communicated with the interface a101 of the control valve 100a and the upper water distribution channel 38b of the water distribution joint 200 through a connecting pipe; the upper water distribution channel 38c2 of the gap bridge joint 300 is communicated with the lower water distribution channel 39b of the water distribution joint 200 through a connecting pipe; the lower water distribution channel 39c of the gap bridge joint 300 is communicated with the interface b102 of the control valve 100a through a connecting pipe; the tank A filter material 44a and the tank A central tube component 42a are arranged in the tank A filter material 40 a; the tank B filter material 44B and the tank B central pipe assembly 42B are arranged in the tank B filter material 40B; the C tank filter 44C, the C tank centertube assembly 42C is disposed within the C filter tank 40C.
Through the connection of the above parts and the communication of the flow channels, the sequential series connection of the three filter material tanks of the filter material tank B, the filter material tank C and the filter material tank A is realized. The function of controlling the three filter material tanks B, C and A by the multi-tank series control valve to operate water treatment in series is described below by taking the operation state of the water treatment system as an example, and other water treatment functions are not described in detail.
The three-tank series operation state of the B filter material tank, the C filter material tank and the A filter material tank is as follows: the inlet water flows through the first upper water distribution flow passage 38a1 of the valve body 30a, the interface a101, the connecting pipe, the straight-through flow passage 38C1 of the bridge joint 300, the connecting pipe, the upper water distribution flow passage 38B of the water distribution joint 200, the upper part 41B of the B filter material tank 40B, the B filter material layer 44B to the lower part 43B of the B filter material tank 40B, and then flows to the lower water distribution flow passage 39B of the water distribution joint 200 along the central pipe assembly 42B of the B tank, because the lower water distribution flow passage 39B is communicated with the upper water distribution flow passage 38C2 of the bridge joint 300, the upper water distribution flow passage 38C2 is communicated with the upper part 41C of the C filter material tank 40C, the water flows into the upper part 41C of the C filter material tank 40C, the C filter material layer 44C to the lower part 43C of the C filter material tank 40C along the central pipe assembly 42C of the C tank, and flows to the lower water distribution flow passage 39C of the bridge joint 300, because the lower water distribution flow passage 39C of the bridge joint, the connection b102 is also connected to the second upper water distribution channel 38a2 of the valve body 30a, so that water flows through the second upper water distribution channel 38a2 of the valve body 30a into the upper part 41a of the a filter material tank 40a, through the a filter material layer 44a to the lower part 43a of the a filter material tank 40a, and then flows out to the lower water distribution channel 39a of the valve body 30a along the a tank center tube assembly 42 a.
The foregoing is merely illustrative of the present invention, and it should be noted that, for those skilled in the art, various modifications and improvements can be made without departing from the technical principle of the present invention, and these modifications and improvements should also be considered as the protection scope of the present invention.

Claims (3)

1. A multi-tank series control valve comprises a valve body, wherein the valve body is provided with an upper water distribution channel and a lower water distribution channel, the upper water distribution channel is communicated with the upper part of a filter material tank, and the lower water distribution channel is communicated with the lower part of the filter material tank; the filter material tank is characterized in that an upper water distribution runner of the valve body is divided into a first upper water distribution runner and a second upper water distribution runner, and the second upper water distribution runner is communicated with the upper part of the filter material tank; the improved valve body is provided with a port a and a port b, the port a is communicated with the first upper water distribution channel, and the port b is communicated with the second upper water distribution channel.
2. A water treatment system comprising the multi-tank series control valve of claim 1, comprising a multi-tank series control valve based on water treatment control valve technology, a filter tank a, a filter tank B, a water distribution connector, a filter material in tank a, a filter material in tank B, a central pipe assembly in tank a, and a central pipe assembly in tank B. The multi-tank series control valve is connected to the A filter tank; the water distribution joint is connected to the filter material tank B; the tank A filter material and the tank A central pipe assembly are arranged in the tank A filter material tank; the tank B filter material and the tank B central pipe assembly are arranged in the tank B filter material.
3. The in-line water treatment system of claim 2, wherein the water distribution connector is provided with an upper water distribution channel and a lower water distribution channel, the upper water distribution channel is communicated with the upper part of the filter material tank B, the lower water distribution channel is communicated with the lower part of the filter material tank B, the upper water distribution channel is communicated with the interface a of the control valve through a connecting pipe, and the lower water distribution channel is communicated with the interface B of the control valve through a connecting pipe.
CN202011395865.4A 2020-12-03 2020-12-03 Multi-tank series control valve and water treatment system thereof Pending CN112390311A (en)

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Application Number Priority Date Filing Date Title
CN202011395865.4A CN112390311A (en) 2020-12-03 2020-12-03 Multi-tank series control valve and water treatment system thereof

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Application Number Priority Date Filing Date Title
CN202011395865.4A CN112390311A (en) 2020-12-03 2020-12-03 Multi-tank series control valve and water treatment system thereof

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CN112390311A true CN112390311A (en) 2021-02-23

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN200955610Y (en) * 2006-10-20 2007-10-03 温州市润新机械制造有限公司 Multifunction control valve for continuously supplying water
CN102635708A (en) * 2012-04-26 2012-08-15 余姚市亚东塑业有限公司 Multifunctional control valve
CN104633181A (en) * 2014-01-20 2015-05-20 温州市润新机械制造有限公司 Multifunctional softening valve and water treatment device comprising same
CN110862166A (en) * 2018-05-30 2020-03-06 宁波市科漫环保科技有限公司 Multifunctional water treatment machine

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN200955610Y (en) * 2006-10-20 2007-10-03 温州市润新机械制造有限公司 Multifunction control valve for continuously supplying water
CN102635708A (en) * 2012-04-26 2012-08-15 余姚市亚东塑业有限公司 Multifunctional control valve
CN104633181A (en) * 2014-01-20 2015-05-20 温州市润新机械制造有限公司 Multifunctional softening valve and water treatment device comprising same
CN110862166A (en) * 2018-05-30 2020-03-06 宁波市科漫环保科技有限公司 Multifunctional water treatment machine

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Application publication date: 20210223