CN107670505B - Integrated water route board, integrated water route board subassembly and purifier - Google Patents

Abstract

The invention discloses an integrated waterway plate and a water purifier. This integrated water route board sets up in water purification unit, water purification unit includes the filter core, the filter core includes the water inlet, purifies the mouth of a river and dense mouth of a river, integrated water route board includes the body, this internal many water route runners separated each other that are provided with, many water route runners include dense water backward flow runner, be used for with the dense water runner that the dense mouth of a river of filter core is connected and be used for with the water inlet runner that the water inlet of filter core is connected, dense water backward flow runner be used for with dense water in the dense water runner is drawn back to in the water inlet runner. The integrated waterway plate provided by the invention is internally provided with the concentrated water backflow flow channel and the concentrated water flow channel which are separated from each other, the independent concentrated water backflow flow channel is utilized to realize the backflow of the concentrated water flow channel, the structure is simple, the processing is easy, and the connection of pipelines is convenient.

Description

Integrated water route board, integrated water route board subassembly and purifier

Technical Field

The invention relates to the technical field of water purification equipment, in particular to an integrated water circuit board, an integrated water circuit board assembly and a water purifier.

Background

In order to reduce the hidden trouble of water leakage, the waterway system of the water purifier industry tends to develop in an integrated manner, and various integrated waterway plates are produced. In order to improve the recovery rate of a water purification system, part of concentrated water discharged by a filter element generally needs to be refluxed and reused, and accordingly, an integrated water channel plate and a connecting pipeline thereof also need to be changed so as to adapt to the change of a water channel.

Disclosure of Invention

In view of the above, an object of the present invention is to provide an integrated waterway plate, an integrated waterway plate assembly and a water purifier having a simple structure and a function of returning concentrated water.

In order to achieve the above purpose, on one hand, the invention adopts the following technical scheme:

the utility model provides an integrated water route board, sets up in water purification unit, water purification unit includes the filter core, the filter core includes the water inlet, purifies the mouth of a river and dense mouth of a river, integrated water route board includes the body, this internal many water route runners separated each other that are provided with, many water route runners include dense water backward flow runner, be used for with the dense water runner that the dense mouth of a river of filter core is connected and be used for with the water inlet runner that the water inlet of filter core is connected, dense water backward flow runner be used for with dense water in the dense water runner is drawn back to in the water inlet runner.

Preferably, the body is provided with a concentrated water outlet, the plurality of waterway channels further comprise a concentrated water discharge channel communicated with the concentrated water outlet, and the concentrated water reflux channel is further used for introducing concentrated water in the concentrated water channel into the concentrated water discharge channel for concentrated water discharge.

Preferably, a plurality of interfaces for connecting a pipeline, a detection element and/or a waterway control device are arranged on the body, the plurality of interfaces comprise a first interface and a second interface communicated with the concentrated water return flow channel, a third interface communicated with the concentrated water flow channel and a fourth interface communicated with the water inlet flow channel, the first interface is used for being communicated with the third interface, and the second interface is used for being communicated with the fourth interface; and/or the presence of a gas in the gas,

the plurality of interfaces comprise a fifth interface communicated with the concentrated water backflow flow channel and a sixth interface communicated with the concentrated water discharge flow channel, and the fifth interface is used for being communicated with the sixth interface.

Preferably, the body comprises a side wall and a side wall;

the second port and the fourth port are arranged on the side wall of the body; and/or the presence of a gas in the gas,

the third interface, the first interface, the fifth interface and the sixth interface are sequentially arranged on the side wall of the body side by side.

Preferably, the plurality of ports further include a seventh port communicating with the concentrate return flow passage and an eighth port communicating with the concentrate flow passage, and the seventh port is configured to communicate with the eighth port.

Preferably, the seventh port and the sixth port are respectively arranged at two sides of the concentrated water outlet; and/or the presence of a gas in the gas,

the seventh interface and the eighth interface are disposed adjacent to each other.

Preferably, a joint structure is arranged on the interface and is used for forming plug-in connection with the detection element and/or the waterway control device.

Preferably, the integrated water route board further comprises a connecting pipe, and two ends of the connecting pipe are respectively connected with the second interface and the fourth interface.

Preferably, a check valve or a switch valve is disposed on the connection pipe, and the check valve is configured to allow only the liquid in the connection pipe to flow from the concentrate return flow passage to the water inlet flow passage.

Preferably, the plurality of interfaces further comprise a ninth interface and a tenth interface for connecting the flowmeter, an eleventh interface for connecting the water quality detection device, and/or a twelfth interface and a thirteenth interface for connecting the water pump.

On the other hand, the invention adopts the following technical scheme:

an integrated waterway plate component comprises the integrated waterway plate, and further comprises a first control valve, a second control valve and/or a third control valve, wherein the water inlet and the water outlet of the first control valve are respectively connected with the third interface and the first interface, the water inlet and the water outlet of the second control valve are respectively connected with the fifth interface and the sixth interface, and the water inlet and the water outlet of the third control valve are respectively connected with the eighth interface and the seventh interface.

On the other hand, the invention adopts the following technical scheme:

a water purifier comprises the integrated waterway plate assembly, or the water purifier comprises the integrated waterway plate assembly.

The integrated water channel plate provided by the invention is internally provided with the concentrated water backflow channel and the concentrated water channel which are separated from each other, the backflow of the concentrated water channel is realized by utilizing the independent concentrated water backflow channel, the structure is simple, the processing is easy, and the connection of pipelines is convenient.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of embodiments of the present invention with reference to the accompanying drawings, in which:

fig. 1 is a perspective view illustrating an integrated waterway plate assembly provided in an embodiment of the present invention;

fig. 2 illustrates a cross-sectional view of an integrated waterway plate assembly provided in an embodiment of the present invention.

In the figure, 1, an integrated waterway plate; 11. a body; 110. a waterway plate seat; 1111. a side plate; 1112. a partition plate; 1101. a waterway plate cover; 101. a concentrated water flow passage; 102. a concentrated water reflux runner; 103. a concentrated water discharge flow passage; 104. a raw water flow passage; 105. a first water inlet channel; 106. a second water inlet channel; 107. a third water inlet channel; 108. a first pure water flow passage; 109. a second pure water flow passage; 111. a first interface; 112. a second interface; 113. a third interface; 114. a fourth interface; 115. a fifth interface; 116. a sixth interface; 117. a seventh interface; 118. an eighth interface; 119. a ninth interface; 120. a tenth interface; 121. an eleventh interface; 122. a twelfth interface; 123. a raw water inlet; 126. a concentrated water outlet; 124. a pure water outlet; 125. a thirteenth interface; 131. a first hole; 132. a second hole; 133. a third hole; 136. a sixth hole; 137. a seventh hole; 138. eighth hole; 139. nine holes; 130. ten holes; 12. a connecting pipe; 13. a check valve; 2. a first wastewater ratio solenoid valve; 3. a second wastewater ratio solenoid valve; 4. a flow meter; 5. flushing the electromagnetic valve; 6. a TDS probe.

Detailed Description

The present invention will be described below based on examples, but the present invention is not limited to only these examples. In the following detailed description of the present invention, certain specific details are set forth. It will be apparent to one skilled in the art that the present invention may be practiced without these specific details. Well-known methods, procedures, and components have not been described in detail so as not to obscure the present invention.

Further, those of ordinary skill in the art will appreciate that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including, but not limited to".

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

The application provides an integrated water route board and have its subassembly, it is applicable to during purifier, clean drink machine etc. need purify the water purification unit of water through the filter core.

As shown in fig. 1 and 2, the integrated waterway plate 1 is connected with detection elements (e.g., a flow meter 4, a TDS probe 6), a waterway control device (e.g., a control valve, a water pump), and the like in the water purification system. The integrated waterway plate 1 comprises a body 11, wherein the body 11 comprises a waterway plate seat 110 and a waterway plate cover 1101 which are butted together, so that a waterway flow channel is formed between the waterway plate seat 110 and the waterway plate cover 1101, and the waterway flow channel is designed according to a system of the water purifier. The waterway plate base 110 and the waterway plate cover 1101 are hermetically connected to avoid water leakage, and for example, a sealing structure such as a sealing ring may be provided therebetween, or the waterway plate base and the waterway plate cover may be connected to each other by welding, for example, a thermal welding or an ultrasonic welding.

As shown in fig. 2, waterway channels are separated from each other by partition 1112 disposed on waterway plate holder 110, that is, waterway plate holder 110 includes side plate 1111 and a plurality of partitions 1112 disposed on side plate 1111, and waterway plate cover 1101 is covered on partitions 1112, so that waterway channels are formed between partitions 1112 and waterway plate cover 1101, and preferably, ports (for example, holes one to ten as shown in fig. 2) for connecting with a filter cartridge are disposed on side plate 1111. The water inlet, the purified water outlet and the concentrated water outlet of the filter element in the water purifying equipment are respectively communicated with the corresponding waterway flow passages, so that the connection of the filter element, the detection element and the waterway control device is realized.

The specific type of the filter element can be set according to the requirement of the water purification system, and the specific structure of the integrated water circuit board is described below by taking a reverse osmosis membrane filter element as an example. The body 11 is provided with a raw water inlet 123, a concentrated water outlet 126 and a purified water outlet, and there may be one or more purified water outlets, for example, only one purified water outlet 124 may be provided, or a purified water outlet 124 and a purified water outlet may be provided. The reverse osmosis membrane filter element is provided with a water inlet, a purification water port and a concentrated water port, the body 11 of the integrated water path plate 1 is internally provided with a concentrated water backflow flow channel 102, a concentrated water flow channel 101 used for being connected with the concentrated water port of the filter element and a water inlet flow channel used for being connected with the water inlet of the filter element, and concentrated water in the concentrated water flow channel 101 is guided back to the water inlet flow channel through the concentrated water backflow flow channel 102.

Further, a concentrated water discharge channel 103 is also arranged in the body 11 and is communicated with a concentrated water outlet 126 on the body 11, and the concentrated water backflow channel 102 can lead the concentrated water in the concentrated water channel 101 into the concentrated water discharge channel 103 for concentrated water discharge.

So, regard as a transfer space with dense water backward flow runner 102, realize the backward flow and the emission of dense water through dense water backward flow runner 102, simple structure, easily processing just makes things convenient for the connection of pipeline.

In order to avoid that the water quality of the water entering the reverse osmosis membrane filter element is too poor to affect the service life of the reverse osmosis membrane filter element, preferably, a front filter element, such as PP cotton, activated carbon and the like, is further arranged at the upstream of the reverse osmosis membrane filter element, and thus, a corresponding waterway flow channel is arranged in the integrated waterway plate 1 to realize the connection between the reverse osmosis membrane filter element and the front filter element. Specifically, as shown in fig. 2, a raw water flow channel 104 is disposed in the body 11 of the integrated water channel plate 1, one end of the raw water flow channel 104 is communicated with the raw water inlet 123, the other end of the raw water flow channel is communicated with a second hole 132 disposed on the side plate 1111, the second hole 132 is connected with a water inlet of the pre-filter, a water outlet of the pre-filter may be directly connected to a purified water outlet pipe, or may be connected to a third hole 133 and a first hole 131 of the side plate, and the integrated water channel plate 1 is led out of the water purification system through the third hole 133 for a user to use, that is, the third hole 133 serves as a purified water outlet. Because the upstream of the reverse osmosis membrane filter element is provided with the preposed filter element, and in order to ensure the water inlet pressure of the reverse osmosis membrane filter element, a water pump (not shown in the figure) is further arranged between the reverse osmosis membrane filter element and the preposed filter element, in order to obtain the water flow in the system and judge whether the reverse osmosis membrane filter element needs to be washed according to the water flow, a flow meter 4 is arranged between the water pump and the preposed filter element, and correspondingly, in the embodiment shown in fig. 2, the water inlet channel arranged in the body 11 of the integrated water channel plate 1 comprises a first water inlet channel 105, a second water inlet channel 106 and a third water inlet channel 107, wherein a first hole 131 is communicated with the first water inlet channel 105. The body 11 is further provided with a ninth port 119 and a tenth port 120 for connecting the flowmeter 4, and a twelfth port 122 and a thirteenth port 125 for connecting the water pump, the first water inlet flow channel 105 is communicated with the ninth port 119, the tenth port 120 is communicated with the twelfth port 122 through the second water inlet flow channel 106, the thirteenth port 125 is communicated with the eighth hole 138 in the side plate 1111 through the third water inlet flow channel 107, and the eighth hole 138 is connected with the water inlet of the reverse osmosis membrane filter element. Preferably, the concentrate return flow passage 102 leads the concentrate in the concentrate flow passage 101 back to the second water feed flow passage 106, i.e., to the upstream side of the water pump.

In order to facilitate connection with components, preferably, as shown in fig. 2, a plurality of interfaces are provided on the body 11, and the integrated water circuit board 1 is connected with each detection element, the water circuit control device and the pipeline through the interfaces. Further preferably, in order to facilitate the installation of the detection element and the water path control device, a joint structure is provided on the interface, and the joint structure may be, for example, a pipe joint, and is connected to the detection element and the water path control device by means of a plug-in connection. Specifically, as shown in fig. 2, the ports include a first port 111 and a second port 112 communicating with the concentrate return channel 102, a third port 113 communicating with the concentrate channel 101, and a fourth port 114 communicating with the second water inlet channel 106, a fifth port 115 communicating with the concentrate return channel 102, and a sixth port 113 communicating with the concentrate discharge channel 103 (as well as the above-mentioned ninth, tenth, twelfth, and thirteenth ports), and an eleventh port 121 for connecting a water quality detection device, and the eleventh port 121 may communicate with any channel in which water quality information is desired, for example, in the embodiment shown in fig. 2, the eleventh port 121 communicates with the concentrate channel 101, and a water quality detection device such as a TDS probe 6 is inserted into the eleventh port 121. The first interface 111 is used for communicating with the third interface 113 to introduce the concentrated water in the concentrated water flow channel 101 into the concentrated water return flow channel 102, the second interface 112 is used for communicating with the fourth interface 114 to introduce the concentrated water in the concentrated water return flow channel 102 into the second water inlet flow channel 106, and the fifth interface 115 is used for communicating with the sixth interface 116 to introduce the concentrated water in the concentrated water return flow channel 102 into the concentrated water discharge flow channel 103 for concentrated water discharge. In order to realize the flushing of the reverse osmosis membrane filter element, a seventh interface 117 communicated with the concentrated water discharge channel 103 and an eighth interface 118 communicated with the concentrated water channel 101 are further arranged on the body 11, and the seventh interface 117 is used for being communicated with the eighth interface 118 so as to introduce the concentrated water in the concentrated water channel 101 into the concentrated water discharge channel 103 for concentrated water discharge, so as to realize the flushing of the reverse osmosis membrane filter element.

Further, a hole nine 139 which is communicated with the concentrate flow channel 101 is further arranged on the side plate 1111, and the hole nine 139 is used for connecting a concentrate port of the reverse osmosis membrane filter element so as to introduce the concentrate flowing out of the reverse osmosis membrane filter element into the concentrate flow channel 101.

A first pure water flow channel 108 and a second pure water flow channel 109 are further arranged in the body 11, wherein a hole ten 130 and a hole seven 137 which are communicated with the first pure water flow channel 108 are formed in the side plate 1111, the hole ten 130 is communicated with a purification water port of the reverse osmosis membrane filter element and is used for introducing pure water flowing out of the reverse osmosis membrane filter element into the first pure water flow channel 108, the hole seven 137 is communicated with a water inlet of the composite filter element, a hole six 136 which is communicated with the second pure water flow channel 109 is formed in the side plate 1111, the hole six 136 is communicated with a water outlet of the composite filter element, and the second pure water flow channel 109 is communicated with a pure water outlet 124 in the body 11.

Further, as shown in fig. 1 and 2, the first control valve, for example, the first waste water proportional valve 2, has its inlet pipe and outlet pipe facing the same side and plugged to the third port 113 and the first port 111, respectively, the second control valve, for example, the second waste water proportional valve 3, has its inlet pipe and outlet pipe facing the same side and plugged to the fifth port 115 and the sixth port 116, respectively, and the third control valve, for example, the flushing solenoid valve 5, has its inlet pipe and outlet pipe facing the same side and plugged to the eighth port 118 and the seventh port 117, respectively.

The second port 112 and the fourth port 114 are preferably provided on the waterway plate cover 1101, the integrated waterway plate 1 further includes a connection pipe 12, both ends of the connection pipe 12 are connected to the second port 112 and the fourth port 114, respectively, a check valve 13 or a switch valve is provided on the connection pipe 12 for preventing water in the second water inlet channel 106 from flowing backward into the concentrate return channel 102, for example, the check valve 13 is configured to allow only liquid in the connection pipe 12 to flow from the concentrate return channel 102 to the second water inlet channel 106, or to control the switch valve, the switch valve is opened when the concentrate return is required, and the switch valve is closed when the concentrate return is not required. Thus, when the water purification system needs to set the concentrated water backflow function, the connection pipe 12 is connected to the body 11, and when the concentrated water backflow function does not need to be set, the second connector 112 and the fourth connector 114 only need to be plugged by plugs.

The body has a side wall and a side wall, in the embodiment shown in fig. 2, the side plate 1111 forms the side wall, the partition 1112 located at the bottom and the side wall, the second port 112 and the fourth port 114 are disposed on the side wall, and the eleventh port 121, the eighth port 118, the seventh port 117, the concentrated water outlet 126, the sixth port 116, the fifth port 115, the first port 111, the third port 113, the thirteenth port 125, the pure water outlet 124, the twelfth port 122, the tenth port 120, the ninth port 119, and the raw water inlet 123 are sequentially disposed on the side wall in parallel. Through the arrangement, the connection of each component and the pipeline can be more convenient, and the structure is further simplified.

In the process of purifying water in the water purifying system, when the concentrated water flows back, the concentrated water in the concentrated water flow channel 101 enters the concentrated water backflow flow channel 102 through the first wastewater ratio electromagnetic valve 2, a part of the concentrated water in the concentrated water backflow flow channel 102 enters the concentrated water discharge flow channel 103 through the second wastewater ratio electromagnetic valve 3 for discharge, and the other part of the concentrated water flows back to the second water inlet flow channel 106 through the connecting pipe 12 for reuse. The size of the wastewater backflow amount can be adjusted by adjusting the on-off time and the frequency of the second wastewater ratio electromagnetic valve 3, so that the wastewater ratio is adjusted. When the reverse osmosis membrane filter element needs to be washed, the washing electromagnetic valve 5 is opened.

So, the integrated water route board that this application provided has integrateed multiple functions, has realized the universalization.

Further, this application still provides a purifier, adopts foretell integrated water route plate structure, reaches the effect of simplifying the structure, return water high-usage.

Those skilled in the art will readily appreciate that the above-described preferred embodiments may be freely combined, superimposed, without conflict.

It will be understood that the embodiments described above are illustrative only and not restrictive, and that various obvious and equivalent modifications and substitutions for details described herein may be made by those skilled in the art without departing from the basic principles of the invention.

Claims (11)

1. An integrated waterway plate is arranged in water purifying equipment, the water purifying equipment comprises a prepositive filter element and a reverse osmosis membrane filter element, the prepositive filter element comprises a water inlet of the prepositive filter element and a water outlet of the prepositive filter element, and the reverse osmosis membrane filter element comprises a water inlet, a purification water outlet and a concentrated water outlet;

the body is provided with a concentrated water outlet, the water channels further comprise concentrated water discharge channels communicated with the concentrated water outlet, the concentrated water backflow channels are further used for introducing concentrated water in the concentrated water channels into the concentrated water discharge channels for concentrated water discharge, and the concentrated water channels are further directly communicated with the concentrated water discharge channels so as to directly introduce concentrated water in the concentrated water channels into the concentrated water discharge channels for concentrated water discharge.

2. The integrated waterway plate of claim 1, wherein the body is provided with a plurality of ports for connecting a pipeline, a detection element and/or a waterway control device, the plurality of ports comprises a first port and a second port communicated with the concentrated water return channel, a third port communicated with the concentrated water channel and a fourth port communicated with the water inlet channel, the first port is used for being communicated with the third port, and the second port is used for being communicated with the fourth port; and/or the presence of a gas in the gas,

the plurality of interfaces comprise a fifth interface communicated with the concentrated water backflow channel and a sixth interface communicated with the concentrated water discharge channel, and the fifth interface is used for being communicated with the sixth interface.

3. The integrated waterway plate of claim 2, wherein the body includes a side wall and a rim wall;

the second interface and the fourth interface are arranged on the side wall of the body; and/or the presence of a gas in the gas,

the third interface, the first interface, the fifth interface and the sixth interface are sequentially arranged on the side wall of the body side by side.

4. The integrated waterway plate of claim 2, wherein the plurality of ports further includes a seventh port in communication with the concentrate discharge channel and an eighth port in communication with the concentrate channel, the seventh port for communication with the eighth port.

5. The integrated water circuit board of claim 4, wherein the seventh port and the sixth port are respectively provided on both sides of the concentrate outlet; and/or the presence of a gas in the atmosphere,

the seventh interface and the eighth interface are disposed adjacent to each other.

6. The integrated water circuit board of one of claims 2 to 5, wherein the interface is provided with a connector structure for forming a plug connection with the detection element and/or the water circuit control device.

7. The integrated water circuit board according to any one of claims 2 to 5, further comprising a connecting pipe, both ends of which are connected to the second interface and the fourth interface, respectively.

8. The integrated water route plate of claim 7, wherein the connection pipe is provided with a check valve or a switch valve, and the check valve is configured to allow only the liquid in the connection pipe to flow from the concentrate return flow passage to the water inlet flow passage.

9. The integrated circuit board of any of claims 2-5, wherein the plurality of ports further comprises a ninth port and a tenth port for connecting a flow meter, an eleventh port for connecting a water quality detection device, and/or a twelfth port and a thirteenth port for connecting a water pump.

10. An integrated waterway plate assembly, comprising the integrated waterway plate of claim 4 or 5, and further comprising a first control valve, a second control valve, and/or a third control valve, wherein the water inlet and the water outlet of the first control valve are connected to the third port and the first port, respectively, the water inlet and the water outlet of the second control valve are connected to the fifth port and the sixth port, respectively, and the water inlet and the water outlet of the third control valve are connected to the eighth port and the seventh port, respectively.

11. A water purification machine comprising an integrated waterway plate of any one of claims 1-9, or an integrated waterway plate assembly of claim 10.

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