CN214389179U - Waterway device and water purifier - Google Patents
Waterway device and water purifier Download PDFInfo
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- CN214389179U CN214389179U CN202022482317.7U CN202022482317U CN214389179U CN 214389179 U CN214389179 U CN 214389179U CN 202022482317 U CN202022482317 U CN 202022482317U CN 214389179 U CN214389179 U CN 214389179U
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Abstract
The utility model provides a water route device and purifier. The waterway device comprises a waterway board, the waterway board is provided with a flow channel and a plurality of mounting seat interfaces, the mounting seat interfaces are communicated with the flow channel, the mounting seat interfaces are arranged at the top of the waterway board and are arranged on a preset straight line, and an included angle formed by the preset straight line and the axis of the flow channel is an acute angle. No matter for horizontal runner or vertical runner on the water route board, a plurality of mount pad interfaces all stagger, can set up horizontal runner and vertical runner simultaneously on the water route board, and the water purification spare part interface and the external connection mouth of a river of purifier can set up horizontal side and the vertical side at the water route board as required. Both the lateral side and the longitudinal side of the waterway plate can be fully utilized, so that the space utilization rate is improved, and even if the waterway plate tends to be miniaturized and the number of interfaces for connecting valves, detectors and the like which may be provided in the water purifier is increased, sufficient space can be provided for arrangement.
Description
Technical Field
The utility model relates to a technical field of aqueous cleaning specifically, relates to a water route device and purifier that has it.
Background
Along with the improvement of living standard, people also have higher and higher demands on the water purifier. There are various purifiers in the existing market, and the purifier is installed on the water supply runner, carries out filtration purification to the running water.
Reverse osmosis water purifiers are becoming more popular because of their fresher, more sanitary and safer purified water produced. However, reverse osmosis water purification machines include a large number of components, such as filter elements, booster pumps, various valves and detectors, etc. In order to increase the integration of the water purifier and reduce the water leakage point, the prior art proposes an integrated water circuit board, and these components may be mounted or connected to the integrated water circuit board. The integrated water channel plate usually adopts a core pulling mode to form a plurality of straight flow channels inside the integrated water channel plate. Meanwhile, a plurality of mounting seat interfaces are further arranged on the integrated water circuit board, and the mounting seat interfaces are communicated with the plurality of runners in a complex mode according to the water path design of the water purifier. When the filter core is installed on the integrated water route board, a plurality of mount pad interfaces can communicate with a plurality of base interfaces of filter core one by one. The plurality of mounting block interfaces on the integrated circuit board are typically arranged substantially in a predetermined line. In order to conveniently communicate the flow channel with the mounting seat interfaces, the predetermined straight line where the plurality of mounting seat interfaces are located is generally perpendicular to the flow channel of the water circuit board.
Although the integrated water circuit board is convenient to design and manufacture, various valves and detectors are connected to the integrated water circuit board, and external water ports are communicated with the integrated water circuit board, and the external water ports can convey raw water to the integrated water circuit board and discharge purified pure water and concentrated water. Thus, one end of the flow channel is connected to the mount interface and the other end is connected to the valves and detectors and the interface of the outer ports. Since the flow channels of the integrated water channel plate are all perpendicular to the predetermined straight line where the interfaces of the plurality of mounting seats are located, the interfaces of the valves and the detectors and the external water ports can be basically only arranged on two sides of the water channel plate, which are also two sides of the predetermined straight line. This results in very limited space for the valves and detectors and the interface to the outer ports, and greatly increases the design and manufacturing difficulties, especially with the trend towards miniaturization of integrated waterway plates.
SUMMERY OF THE UTILITY MODEL
In order to at least partially solve the problems of the prior art, according to one aspect of the present invention, a waterway device is provided. The waterway device comprises a waterway board, the waterway board is provided with a flow channel and a plurality of mounting seat interfaces, the mounting seat interfaces are communicated with the flow channel, the mounting seat interfaces are arranged at the top of the waterway board and are arranged on a preset straight line, and an included angle formed by the preset straight line and the axis of the flow channel is an acute angle.
Because the included angle formed by the preset straight line and the axis of the flow channel is an acute angle, the plurality of mounting seat interfaces are staggered relative to the transverse flow channel or the longitudinal flow channel on the water circuit board, namely, the plurality of mounting seat interfaces can be conveniently communicated with the transverse flow channel and the longitudinal flow channel. Like this, can set up horizontal runner and longitudinal flow way simultaneously on the water route board, based on this, the water purification spare part interface and the external connection mouth of a river of purifier can set up horizontal side and longitudinal side at the water route board as required. Compared with the prior art, the utility model provides a water route board provides probably for the space of make full use of water route board side. That is, both the lateral side and the longitudinal side of the waterway plate can be sufficiently utilized, thus improving space utilization, and even though the waterway plate tends to be miniaturized and the number of interfaces for connecting valves, detectors, and the like, which may be provided in the water purifier, is increased, it is possible to have a sufficient space for arrangement.
Exemplarily, the waterway plate further has a water purifying part interface and an external connection water gap, the water purifying part interface and the external connection water gap are communicated with the flow channel, and the water purifying part interface and the external connection water gap are arranged on the side surface of the waterway plate. The side may include a lateral side and a longitudinal side. Thereby making full use of the space on the side of the circuit board.
Exemplarily, the water purification spare part interface includes solenoid valve interface, check valve interface, high pressure switch interface and booster pump interface, and the solenoid valve interface sets up the first horizontal side at the water route board, and check valve interface and high pressure switch interface set up the second horizontal side at the water route board, and first horizontal side is relative along the horizontal direction with the second horizontal side, and the booster pump interface sets up the bottom at the water route board, and the external connection mouth of a river sets up the longitudinal side at the water route board. Like this, waterway device's function is diversified more and intelligent, and user's use experience is better.
Illustratively, the external connection water gap comprises a raw water gap, a pure water gap and a concentrated water gap, the plurality of mounting seat interfaces comprise a first raw water inlet, a first raw water outlet, a second raw water inlet, a second pure water outlet and a second concentrated water outlet, the solenoid valve interfaces comprise a water inlet solenoid valve water inlet interface, a water inlet solenoid valve water outlet interface, a concentrated water solenoid valve water inlet interface and a concentrated water solenoid valve water outlet interface, the booster pump interfaces comprise a booster pump water inlet interface and a booster pump water outlet interface, and the raw water gap is communicated to the first raw water inlet through a longitudinal flow channel; the first raw water outlet is communicated to a water inlet interface of the water inlet electromagnetic valve through a transverse flow passage, a water outlet interface of the water inlet electromagnetic valve is communicated to a water inlet interface of the booster pump through the transverse flow passage, and a water outlet interface of the booster pump is directly communicated to the second raw water inlet; the second pure water outlet is communicated to a check valve interface through a transverse flow passage, the check valve interface is communicated to a high-pressure switch interface, and the high-pressure switch interface is communicated to a pure water port; and the second concentrated water outlet is communicated to a water inlet interface of the concentrated water electromagnetic valve through a transverse flow passage, and a water outlet interface of the concentrated water electromagnetic valve is communicated to a concentrated water port through the transverse flow passage. Through the arrangement, a waterway suitable for the preposed filter element and the reverse osmosis filter element can be formed in the waterway device.
Illustratively, the second raw water inlet, the first raw water outlet, the second pure water outlet, and the second concentrated water outlet are sequentially arranged along a predetermined straight line. Therefore, the filter element can be conveniently installed, and the use experience is better.
The waterway device also comprises a sub waterway plate, the sub waterway plate is arranged on the side surface of the waterway plate, the sub waterway plate is provided with a first transverse flow channel and a second transverse flow channel, and the check valve interface comprises a check valve water inlet interface and a check valve water outlet interface, wherein one end of the first transverse flow channel is communicated to the second pure water outlet through the transverse flow channel on the waterway plate, and the other end of the first transverse flow channel is communicated to the check valve water inlet interface; one end of the second transverse flow passage is communicated to a water outlet port of the check valve, and the other end of the second transverse flow passage is communicated to the pure water port; the high-voltage switch interface is directly communicated to the pure water port. The size of the whole waterway device can be reduced by arranging the sub waterway plate and arranging the sub waterway plate on the side surface of the waterway plate.
Exemplarily, the water purification part interface further comprises a detector interface, and the detector interface is arranged on the second transverse side. Through setting up the detector interface, can detect the quality of water in the waterway device.
Illustratively, the detector interface communicates directly to the clean water port. Therefore, the water channel device can also detect the quality of the pure water.
Illustratively, the angle between the predetermined line and the flow channel is in the range of 40 degrees to 50 degrees. In this way, the plurality of mount interfaces can be sufficiently offset with respect to the lateral flow passage and the longitudinal flow passage, and thus the degree of freedom in design is greater.
Exemplarily, the waterway device further comprises a filter element base, the filter element base is provided with a plurality of base interfaces, the filter element base is connected to the waterway plate, the plurality of mounting base interfaces are consistent with the plurality of base interfaces in number, and the plurality of mounting base interfaces are connected with the plurality of base interfaces in a one-to-one correspondence manner. Through setting up the filter core base, can be convenient for install the filter core. And according to the filter core difference of installation, can also change the filter core base that matches with it to make the commonality of water route board stronger.
According to another aspect of the present invention, there is provided a water purifier, comprising any one of the above waterway devices.
A series of concepts in a simplified form are introduced in the disclosure, which will be described in further detail in the detailed description section. The summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
The advantages and features of the present invention are described in detail below with reference to the accompanying drawings.
Drawings
The following drawings of the present invention are used herein as part of the present invention for understanding the present invention. There are shown in the drawings, embodiments and descriptions thereof, which are used to explain the principles of the invention. In the drawings, there is shown in the drawings,
fig. 1 is a perspective view of a waterway device in accordance with an exemplary embodiment of the present invention;
FIG. 2 is an exploded view of the waterway assembly shown in FIG. 1;
FIG. 3 is a top view of the water routing plate shown in FIG. 1;
FIG. 4 is an angled perspective view of the water circuit board shown in FIG. 3;
FIG. 5 is a perspective view of another angle of the water board shown in FIG. 3; and
fig. 6 is a perspective view of a water purifier according to an exemplary embodiment of the present invention.
Wherein the figures include the following reference numerals:
100. a water circuit board; 110. a filter element; 120. a booster pump; 200. a flow channel; 210. a longitudinal flow passage; 220. a transverse flow passage; 300. a mounting seat interface; 310. a first raw water inlet; 320. a first raw water outlet; 330. a second raw water inlet; 340. a second pure water outlet; 350. a second concentrated water outlet; 400. a water purification part interface; 410. a water inlet interface of the water inlet electromagnetic valve; 420. a water inlet electromagnetic valve water outlet interface; 430. a water inlet interface of the concentrated water electromagnetic valve; 440. a water outlet interface of the concentrated water electromagnetic valve; 450. a check valve water inlet interface; 460. a check valve water outlet interface; 470. a high voltage switch interface; 480. a booster pump water inlet interface; 490. a water outlet interface of the booster pump; 500. a detector interface; 600. the outside is connected with a water gap; 610. a raw water port; 620. a pure water port; 630. a dense water port; 700. a sub-waterway board; 710. a first transverse flow channel; 720. a second transverse flow channel; 810. a water inlet electromagnetic valve; 820. a concentrated water electromagnetic valve; 830. a check valve; 840. a high voltage switch; 850. a detector; 900. a filter element base; 910. a base interface.
Detailed Description
In the following description, numerous details are provided to provide a thorough understanding of the present invention. One skilled in the art, however, will understand that the following description illustrates only a preferred embodiment of the invention and that the invention may be practiced without one or more of these details. In addition, some technical features that are well known in the art are not described in detail in order to avoid obscuring the present invention.
According to an aspect of the utility model, a water route device is provided. The waterway device is mainly used in the water purifier, is used for integrating the waterway of each component in the water purifier, forms water flow passage connection among all elements, and can also be used for connecting components such as a filter element, a booster pump and the like of the water purifier. Therefore, according to another aspect of the present invention, there is also provided a water purifier. The purifier includes any kind of water route device of the utility model. The water purifiers may include reverse osmosis water purifiers, central water purifiers, water softeners, and the like. If necessary, the waterway device can also be used for other water-requiring equipment. A water purifier and a water path device thereof according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 5.
For example, as shown in fig. 1-5, the waterway device may include a waterway plate 100. The water circuit board 100 may have a flow channel 200 and a plurality of mount interfaces 300. A plurality of mount interfaces 300 may communicate with the flow channels 200 to combine to form a waterway within the water board 100. The plurality of mount interfaces 300 can be used to connect components of a water purifier, such as one of a cartridge and a booster pump. The component may be coupled to the waterway plate 100 via a plurality of mount interfaces 300, thereby allowing water to flow between the component and the waterway plate 100.
Preferably, as shown in fig. 1-2, the waterway device can further include a cartridge base 900. The cartridge base 900 can have a plurality of base interfaces 910. The cartridge base 900 can be connected to the water circuit board 100. The number of mount interfaces 300 corresponds to the number of base interfaces 910. The plurality of mount interfaces 300 may be connected with the plurality of base interfaces 910 in a one-to-one correspondence. Referring collectively to fig. 6, a cartridge base 900 can be used to mount the cartridge 110. The filter cartridge 110 can have a plurality of cartridge ports (not shown) thereon. The number of the filter cartridge interfaces is the same as the number of the mounting seat interfaces 300, and the filter cartridge interfaces correspond to the mounting seat interfaces one to one. When the cartridge 100 is installed in the water purifier through the cartridge base 900, the cartridge interface is connected with the mounting base interface 300 through the base interface 910 in a one-to-one correspondence. When cartridge base 900 is not provided, cartridge 100 can remain physically connected through other mechanical structures in the water purifier. At this point, the cartridge interface may be directly connected to the mount interface 300.
The filter element 110 may include any one of a front filter element (for example, a PP cotton filter element, a front activated carbon filter element, and the like), a rear filter element (for example, an activated carbon filter element, and the like), a reverse osmosis filter element, an ultrafiltration membrane filter element, and the like, or a composite filter element in which a plurality of these elements are combined. The water passage plate 100 may be in water path communication with the filter element 110 sequentially through the plurality of mount ports 300 and the plurality of mount ports 910, thereby allowing water to flow between the filter element 110 and the water path plate 100. By providing the cartridge base 900, installation of the cartridge 110 can be facilitated. And according to the difference of the installed filter element 110, the matched filter element base 900 can be replaced, thereby the universality of the waterway plate 100 is stronger.
Referring to fig. 3, a plurality of mount interfaces 300 may be disposed on the top of the waterway plate 100 and arranged on a predetermined line P-P. The predetermined line P-P is a line where the centers of the plurality of mount interfaces 300 are located. The angle formed by the predetermined line P-P and the axis of the flow channel 200 may be an acute angle. That is, the predetermined straight line P-P is not perpendicular to the flow channel 200 and is not parallel to the flow channel 200.
Since the included angle formed by the predetermined straight line P-P and the axis of the flow channel 200 is an acute angle, the plurality of mount interfaces 300 are staggered with respect to the transverse flow channel or the longitudinal flow channel on the water circuit board 100, that is, the plurality of mount interfaces 300 can be conveniently communicated with the transverse flow channel and the longitudinal flow channel. In this way, the waterway plate 100 may be simultaneously provided with the transverse flow passage and the longitudinal flow passage, and based on this, the water purifying component interface 400 and the external connection water gap 600 of the water purifier may be disposed on the transverse side and the longitudinal side of the waterway plate 100 as required. Compared with the prior art, the utility model provides a water route board 100 provides probably for the space of make full use of circuit board side. That is, both lateral and longitudinal sides of the waterway plate 100 can be sufficiently utilized, thereby improving space utilization, and even though the waterway plate 100 tends to be miniaturized and the number of interfaces for connecting valves, detectors, and the like, which may be provided in the water purifier, is increased, it is possible to have a sufficient space for arrangement.
Preferably, the angle between the predetermined straight line and the flow channel is in the range of 40 degrees to 50 degrees. In this way, the plurality of mount interfaces 300 can be sufficiently offset with respect to both the lateral flow passage and the longitudinal flow passage, and thus the degree of freedom in design is greater.
Preferably, as shown in fig. 3 to 5, the water purifying part interface 400 may be used to connect water purifying parts, such as a water inlet solenoid valve 810, a concentrate solenoid valve 820, a check valve 830, a high pressure switch 840, a detector 850, etc., so as to allow water to flow between the water purifying parts and the waterway plate 100. The external connection port 600 may be used to connect other components than the waterway device, for example, other waterway devices, so that water flows between the other components and the waterway plate 100. The water purifying part interface 400 and the external connection port 600 may communicate with the flow passage 200. The water purifying part interface 400 and the external connection port 600 may be provided at a side of the waterway plate 100. The side may include a lateral side and a longitudinal side. Thereby making full use of the space on the side of the water passage plate 100.
Further, as shown in fig. 3-5, the water purifying part interface 400 may include a solenoid valve interface, a check valve interface, a high pressure switch interface 470, and a booster pump interface. The waterway device may further include a water inlet solenoid valve 810, a concentrate solenoid valve 820, a check valve 830, and a high pressure switch 840. The water inlet solenoid valve 810, the concentrate solenoid valve 820, the check valve 830 and the high pressure switch 840 may employ various types of solenoid valves, check valves and high pressure switches known in the art or that may occur in the future. Like this, waterway device's function is diversified more and intelligent, and user's use experience is better.
The solenoid valve interfaces may include a water inlet solenoid valve water inlet interface 410, a water inlet solenoid valve water outlet interface 420, a concentrate solenoid valve water inlet interface 430, and a concentrate solenoid valve water outlet interface 440. The inlet solenoid valve inlet port 410 and the inlet solenoid valve outlet port 420 may be used to communicate with the inlet solenoid valve 810 to allow water to flow between the inlet solenoid valve 810 and the waterway plate 100. The concentrate solenoid valve water inlet port 430 and the concentrate solenoid valve water outlet port 440 may be used to communicate the concentrate solenoid valve 820, thereby allowing water to flow between the concentrate solenoid valve 820 and the waterway plate 100. The solenoid valve interface may be disposed at a first lateral side of the waterway plate 100.
In the illustrated embodiment, the extending direction of the flow passage communicating with the solenoid valve port is defined as a lateral direction X. Thus, both sides of the waterway plate 100 in the transverse direction X may be referred to as a first transverse side and a second transverse side. The first lateral side is opposite to the second lateral side along the lateral direction X. Accordingly, a direction perpendicular to the transverse direction X on the plane on which the waterway plate is located is defined as a longitudinal direction Y. Thus, both sides of the waterway plate 100 in the longitudinal direction Y may be referred to as longitudinal sides.
The check valve interfaces may include a check valve inlet interface 450 and a check valve outlet interface 460. Check inlet port 450 and check outlet port 460 may be used to communicate with check 830 to allow water to flow between check 830 and waterway plate 100. The high pressure switch interface 470 may be used to communicate with the high pressure switch 840 to allow water to flow between the high pressure switch 840 and the waterway plate 100. A check valve port and a high pressure switch port 470 may be provided at a second lateral side of the waterway plate 100.
The booster pump interface may include a booster pump water inlet interface 480 and a booster pump water outlet interface 490. The booster pump water inlet interface 480 and the booster pump water outlet interface 490 may be used to communicate with the booster pump 120, see fig. 6 in combination, to enable water to flow between the booster pump 120 and the waterway plate 100. The booster pump 120 may be provided at a side of the filter element 110. A booster pump interface may be provided at the bottom of the waterway plate 100. The external connection water gap 600 may be provided at a longitudinal side of the water passage plate. Preferably, the outer connecting nozzle 600 may be provided at the same longitudinal side. Of course, the outer connecting nozzle 600 may be provided on two opposite longitudinal sides, if desired. With this arrangement, it is possible to sufficiently utilize the respective side surfaces and the bottom surface of the waterway plate 100, ensure that the waterway plate 100 is small in size, and further reduce the overall size of the waterway apparatus, thereby facilitating transportation, and the waterway apparatus is particularly suitable for a limited space.
The external connection water port 600 may include a raw water port 610, a pure water port 620, and a concentrate water port 630. The plurality of mount interfaces 300 may include a first raw water inlet 310, a first raw water outlet 320, a second raw water inlet 330, a second pure water outlet 340, and a second concentrated water outlet 350.
The raw water port 610 may communicate with the first raw water inlet 310 through the longitudinal flow passage 210. The first raw water outlet 320 may be communicated to the water inlet port 410 of the water inlet solenoid valve through the lateral flow passage 220. The water inlet solenoid valve outlet port 420 may be connected to the booster pump inlet port 480 through the lateral flow passage 220. The booster pump water outlet 490 may be directly connected to the second raw water inlet 330. The second pure water outlet 340 may be connected to a check valve port through the lateral flow passage 220. The check valve interface may be communicated to the high pressure switch interface 470. The high pressure switch interface 470 may be connected to the clean water port 620. The second concentrate outlet 350 can be communicated to the concentrate solenoid valve water inlet port 430 through the transverse flow passage 220. The outlet port 440 of the concentrate solenoid valve can be communicated to the concentrate port 630 through the transverse flow passage 220.
Illustratively, as shown in fig. 6, the filter element 110 coupled to the water circuit board 100 may be a composite filter element of a front filter element and a reverse osmosis filter element. In the using process of the waterway device, raw water can enter the preposed filter element for filtration through the raw water port 610, the longitudinal flow passage 210 and the first raw water inlet 310 in sequence. The primary filtered water filtered by the pre-filter element can sequentially pass through the first raw water outlet 320, the transverse flow passage 220 and the water inlet interface 410 of the water inlet solenoid valve and enter the water inlet solenoid valve 810. After the primary filtered water passes through the water inlet electromagnetic valve 810, the primary filtered water can sequentially pass through the water outlet interface 420 of the water inlet electromagnetic valve, the transverse flow passage 220 and the water inlet interface 480 of the booster pump to enter the booster pump for boosting. The pressurized water pressurized by the booster pump 120 may sequentially enter the reverse osmosis filter element through the booster pump water outlet 490 and the second raw water inlet 330 for filtration. Pure water generated by filtration of the reverse osmosis filter element can enter the check valve 830 through the second pure water outlet 340, the transverse flow channel 220 and the check valve interface in sequence. After passing through the check valve 830, the pure water can flow out of the waterway device through the check valve interface, the high-pressure switch interface 470 and the pure water port 620 in sequence for use by a user. The concentrated water generated by the filtration of the reverse osmosis filter element can sequentially pass through the second concentrated water outlet 350, the transverse flow passage 220 and the water inlet interface 430 of the concentrated water solenoid valve and enter the concentrated water solenoid valve 820. After passing through the concentrated water solenoid valve 820, the concentrated water can sequentially pass through the concentrated water solenoid valve water outlet interface 440, the transverse flow passage 220 and the concentrated water outlet 630 and then flow out of the waterway device. Through the arrangement, a waterway suitable for the preposed filter element and the reverse osmosis filter element can be formed in the waterway device.
Further, as shown in fig. 3 to 4, the second raw water inlet 330, the first raw water inlet 310, the first raw water outlet 320, the second pure water outlet 340, and the second concentrated water outlet 350 may be sequentially arranged along a predetermined line P-P. Therefore, the filter element can be conveniently installed, and the use experience is better.
Preferably, the waterway device may further include a sub waterway plate 700. The sub waterway plate 700 is provided at a side of the waterway plate 100. Preferably, the sub waterway plate 700 and the waterway plate 100 may be integrally molded. The sub circuit board 700 may have a first lateral flow passage 710 and a second lateral flow passage 720. One end of the first lateral flow passage 710 may be communicated to the second pure water outlet 340 through the lateral flow passage 220 of the water path plate 100. The other end of the first transverse channel 710 may be connected to the check valve inlet port 450. One end of the second transverse flow passage 720 may be connected to the check valve outlet 460. The other end of the second transverse flow passage 720 may communicate to the pure water port 620. The high pressure switch interface 470 may communicate directly to the clean water port 620.
Illustratively, as shown in fig. 6, the filter element 110 coupled to the water circuit board 100 may be a composite filter element of a front filter element and a reverse osmosis filter element. Referring back to fig. 3 to 5, in the use of the waterway device, pure water filtered by the reverse osmosis filter element may sequentially pass through the second pure water outlet 340, the transverse flow passage 220 and the first transverse flow passage 710 to enter the sub-waterway plate 700. And then enters the check valve 830 through the check valve water inlet 450. After passing through the check valve 830, pure water can flow out of the waterway device through the check valve outlet port 460, the second transverse flow channel 720, the high-pressure switch port 470 and the pure water port 620 in sequence, so as to be used by a user.
The overall waterway apparatus can be reduced in size by providing the sub waterway plate 700 and disposing the sub waterway plate 700 at the side of the waterway plate 100.
Further, as shown in fig. 3-5, the water purification component interface 400 may further include a detector interface 500. The waterway device may further include a detector 850. The detector 850 may employ various types of detectors known in the art or that may occur in the future. Wherein the detector 850 may include a TDS (total dissolved solids) probe or the like. The detector interface 500 may be used to communicate the detector 850, thereby allowing water to flow between the detector 850 and the waterway plate 100. The detector interface 500 may be disposed at the second lateral side. By providing the detector interface 500, the quality of the water in the waterway device can be detected.
Further, as shown in fig. 3-4, the detector interface 500 may communicate directly to the clean water port 620. Therefore, the water channel device can also detect the quality of the pure water.
In the description of the present invention, it is to be understood that the orientation or positional relationship indicated by the orientation words such as "front", "rear", "upper", "lower", "left", "right", "horizontal", "vertical", "horizontal" and "top", "bottom", etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner" and "outer" refer to the interior and exterior relative to the contours of the components themselves.
Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe the spatial relationship of one or more components or features shown in the figures to other components or features. It is to be understood that the spatially relative terms are intended to encompass not only the orientation of the component as depicted in the figures, but also different orientations of the component in use or operation. For example, if an element in the drawings is turned over in its entirety, the articles "over" or "on" other elements or features will include the articles "under" or "beneath" the other elements or features. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". Further, these components or features may also be positioned at various other angles (e.g., rotated 90 degrees or other angles), all of which are intended to be encompassed herein.
It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, elements, components, and/or combinations thereof, unless the context clearly indicates otherwise.
It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.
The present invention has been described in terms of the above embodiments, but it is to be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the invention to the described embodiments. Furthermore, it will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that many more modifications and variations are possible in light of the teaching of the present invention and are within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (11)
1. The waterway device is characterized by comprising a waterway board, wherein the waterway board is provided with a flow channel and a plurality of mounting seat interfaces, the mounting seat interfaces are communicated with the flow channel, the mounting seat interfaces are arranged at the top of the waterway board and are arranged on a preset straight line, and an included angle formed by the preset straight line and the axis of the flow channel is an acute angle.
2. The waterway device of claim 1, wherein the waterway plate further has a water purifying component interface and an external connection water port, the water purifying component interface and the external connection water port are communicated with the flow passage, and the water purifying component interface and the external connection water port are disposed at a side surface of the waterway plate.
3. The waterway device of claim 2, wherein the water purifying component interfaces comprise a solenoid valve interface, a check valve interface, a high-pressure switch interface and a booster pump interface, the solenoid valve interface is disposed on a first transverse side of the waterway plate, the check valve interface and the high-pressure switch interface are disposed on a second transverse side of the waterway plate, the first transverse side is opposite to the second transverse side along a transverse direction, the booster pump interface is disposed at the bottom of the waterway plate, and the external connection water gap is disposed on a longitudinal side of the waterway plate.
4. The waterway device of claim 3, wherein the external connection ports comprise a raw water port, a pure water port, and a concentrated water port, the plurality of mount interfaces comprise a first raw water inlet, a first raw water outlet, a second raw water inlet, a second pure water outlet, and a second concentrated water outlet, the solenoid valve interfaces comprise a water inlet solenoid valve water inlet interface, a water inlet solenoid valve water outlet interface, a concentrated water solenoid valve water inlet interface, and a concentrated water solenoid valve water outlet interface, the booster pump interface comprises a booster pump water inlet interface and a booster pump water outlet interface,
the raw water port is communicated to the first raw water inlet through a longitudinal flow passage;
the first raw water outlet is communicated to the water inlet interface of the water inlet electromagnetic valve through a transverse flow passage, the water outlet interface of the water inlet electromagnetic valve is communicated to the water inlet interface of the booster pump through the transverse flow passage, and the water outlet interface of the booster pump is directly communicated to the second raw water inlet;
the second pure water outlet is communicated to the check valve interface through a transverse flow passage, the check valve interface is communicated to the high-pressure switch interface, and the high-pressure switch interface is communicated to the pure water port; and is
The second concentrated water outlet is communicated to the water inlet interface of the concentrated water electromagnetic valve through a transverse flow passage, and the water outlet interface of the concentrated water electromagnetic valve is communicated to the concentrated water port through the transverse flow passage.
5. The waterway device of claim 4, wherein the second raw water inlet, the first raw water outlet, the second pure water outlet, and the second concentrated water outlet are sequentially arranged along the predetermined line.
6. The waterway device of claim 4, further comprising a sub waterway plate disposed at a side of the waterway plate, the sub waterway plate having a first transverse channel and a second transverse channel, the check valve interface comprising a check valve inlet interface and a check valve outlet interface,
one end of the first transverse flow passage is communicated to the second pure water outlet through the transverse flow passage on the water path plate, and the other end of the first transverse flow passage is communicated to the water inlet interface of the check valve; one end of the second transverse flow passage is communicated to the water outlet port of the check valve, and the other end of the second transverse flow passage is communicated to the pure water port;
the high-voltage switch interface is directly communicated to the pure water port.
7. The waterway device of claim 6, wherein the water purification component interface further comprises a detector interface disposed on the second lateral side.
8. The waterway device of claim 7, wherein the detector interface communicates directly to the pure water port.
9. The waterway device of any of claims 1-8, wherein the predetermined line is at an angle in the range of 40 degrees to 50 degrees with respect to the flow passage.
10. The waterway device of claim 1, further comprising a filter cartridge base having a plurality of base ports for connection to a filter cartridge, the filter cartridge base being connected to the waterway plate, the plurality of mount ports being equal in number to the plurality of base ports, the plurality of mount ports being connected in one-to-one correspondence with the plurality of base ports.
11. A water purifier, comprising:
the filter element is provided with a plurality of filter element interfaces; and
the waterway device of any of claims 1-10, wherein the plurality of cartridge interfaces corresponds in number to the plurality of mount interfaces, the plurality of cartridge interfaces being coupled to the plurality of mount interfaces in a one-to-one correspondence.
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CN202022482317.7U CN214389179U (en) | 2020-10-30 | 2020-10-30 | Waterway device and water purifier |
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CN202022482317.7U CN214389179U (en) | 2020-10-30 | 2020-10-30 | Waterway device and water purifier |
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