阅读说明：本技术 一种水路板管路结构 (Water route board pipeline structure ) 是由 王鹏翱 于 2021-08-11 设计创作，主要内容包括：本发明公开了一种水路板管路结构,包括水路板主体和水路板流道模块,水路板主体上设有多个水路板连接孔,水路板流道模块上设置有与多个水路板连接孔一一对应连通的水路板管路,至少一个水路板管路以可拆卸方式连接有控制元器件,连接有控制元器件的水路板管路内以可拆卸方式连接有将水路板管路的管腔分隔为前流道和后流道的堵塞件,前流道、控制元器件和后流道依次连通构成水路。本发明结构紧凑,通过堵塞件在同一管路上形成互不相通的两条流道,配合控制元器件实现对水流通道的控制,减少管道数量。(The invention discloses a waterway plate pipeline structure which comprises a waterway plate main body and a waterway plate runner module, wherein a plurality of waterway plate connecting holes are formed in the waterway plate main body, waterway plate pipelines which are communicated with the waterway plate connecting holes in a one-to-one correspondence mode are arranged on the waterway plate runner module, at least one waterway plate pipeline is detachably connected with a control component, a blocking component which divides a pipe cavity of the waterway plate pipeline into a front runner and a rear runner is detachably connected in the waterway plate pipeline connected with the control component, and the front runner, the control component and the rear runner are sequentially communicated to form a waterway. The invention has compact structure, forms two flow passages which are not communicated with each other on the same pipeline through the plugging piece, and realizes the control of the water flow passage by matching with the control component, thereby reducing the number of pipelines.)

1. The utility model provides a water route board pipeline structure, includes water route board main part (1) and water route board runner module (2), be equipped with a plurality of water route board connecting holes on water route board main part (1), be provided with water route board pipeline (201) that communicate with a plurality of water route board connecting hole one-to-ones on water route board runner module (2), its characterized in that, at least one water route board pipeline (201) are connected with control components and parts (3) with the mode of dismantling, are connected with in water route board pipeline (201) that are connected with control components and parts (3) with the mode of dismantling and separate the lumen of water route board pipeline (201) for stifled plug spare (4) of preceding runner (202) and back runner (203), preceding runner (202), control components and parts (3) and back runner (203) communicate in proper order and constitute the water route.

2. The waterway plate pipeline structure of claim 1, wherein the waterway plate pipeline (201) is provided with a component input portion (301) and a component output portion (302), the control component (3) is detachably connected to the component input portion (301) and the component output portion (302), the component input portion (301) is provided with a first overflowing hole (3011) for communicating the control component (3) with the front runner (202), and the component output portion (302) is provided with a second overflowing hole (3021) for communicating the control component (3) with the rear runner (203).

3. The waterway plate pipeline structure of claim 2, wherein a positioning mechanism for positioning the depth of the blocking piece (4) extending into the waterway plate pipeline (201) so that the blocking piece (4) can only be positioned between the first overflowing hole (3011) and the second overflowing hole (3021) is arranged in the waterway plate pipeline (201).

4. The waterway plate conduit structure of claim 3, wherein the positioning mechanism is a positioning step (5) disposed in the waterway plate conduit (201).

5. The waterway plate pipeline structure of claim 3, wherein the positioning mechanism is one or more positioning protrusions or annular positioning members disposed on the inner wall of the waterway plate pipeline (201).

6. The waterway plate conduit structure of claim 3, wherein the waterway plate conduit (201) is detachably connected with a fixing component (6) for limiting the blocking member (4) to move in the waterway plate conduit (201).

7. The waterway plate pipeline structure of claim 6, wherein the fixing component (6) comprises a blocking cover connecting hole (601) which is arranged on the waterway plate pipeline (201) and is communicated with the pipe cavity of the waterway plate pipeline (201) and a blocking cover (602) which is detachably connected in the blocking cover connecting hole (601), and the end part of the blocking cover (602) extends into the pipe cavity of the waterway plate pipeline (201) and is pressed and fixed with the blocking piece (4).

8. The waterway plate and pipeline structure of claim 7, wherein a first sealing ring (8) is installed between the inner wall of the cover connecting hole (601) and the cover (602).

9. The waterway plate pipeline structure of claim 2, wherein the blocking member (4) is provided with a flow passing portion (403) which is matched with the cavity of the waterway plate pipeline (201) in a sliding manner, the flow passing portion (403) comprises a transverse blade (4031) and a longitudinal blade (4032) which are arranged in a cross shape, a column (4033) is arranged on the longitudinal blade (4032), the end surface of the column (4033) is lower than the end surface of the longitudinal blade (4032) to form a concave portion, and the concave portion and the second flow passing hole (3021) are positioned on the same radial section of the waterway plate pipeline (201).

10. The waterway plate pipeline structure of claim 2, wherein the component input portion (301) and the component output portion (302) are respectively provided with a socket (701), the control component (3) is respectively provided with a socket (702) corresponding to the component input portion (301) and the component output portion (302), and the socket (702) is connected with the corresponding socket (701) in a plugging manner.

11. The waterway plate pipeline structure of claim 10, wherein a third sealing ring (10) for preventing water leakage is arranged between the insertion part (702) and the corresponding insertion seat (701).

12. The waterway plate pipeline structure of claim 1, wherein the blocking member (4) is provided with a second sealing ring (9) for preventing water from leaking from the front flow channel (202) to the rear flow channel (203), the blocking member (4) is provided with a first positioning part (401) and a second positioning part (402), the first positioning part (401) and the second positioning part (402) are arranged at intervals to form a groove, and the second sealing ring (9) is installed in the groove.

13. The waterway plate pipeline structure of claim 1, wherein the waterway plate pipeline (201) is provided with a component mounting part (303), and the control component (3) is detachably connected to the component mounting part (303) through a fastener.

14. The waterway plate pipeline structure of any one of claims 1-13, wherein the control component (3) is a solenoid valve or a one-way valve.

Technical Field

The invention relates to the technical field of filter elements, in particular to a waterway plate pipeline structure.

Background

The interior of traditional purifier is usually by PE pipe and various articulate, relies on between each filter core to connect and PE union coupling to install various control components and parts on water flow channel, like solenoid valve and high-voltage switch etc. thereby reach water flow channel closed control. The water inlet electromagnetic valve, the waste water electromagnetic valve, the one-way valve and other control components need two runners to realize closed control of the water flow channel, so that the number of integrated water flow pipelines on the water path plate is correspondingly increased, the water path plate flow pipe network is more and more complex, the processing difficulty of the injection mold is higher, and the processing cost is correspondingly increased.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the defects in the prior art and provides a waterway plate pipeline structure which is compact in structure, two flow channels which are not communicated with each other are formed on the same pipeline through a blocking piece, and the waterway plate pipeline structure is matched with a control component to realize the control of a water flow channel and reduce the number of pipelines.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a water route board pipeline structure, includes water route board main part and water route board runner module, be equipped with a plurality of water route board connecting holes in the water route board main part, be provided with the water route board pipeline that communicates with a plurality of water route board connecting hole one-to-ones in the water route board runner module, at least one water route board pipeline is connected with control components and parts with the mode of dismantling, is connected with the plug member that separates the lumen of water route board pipeline for preceding runner and back runner in order to the mode of dismantling in the water route board pipeline that is connected with control components and parts, preceding runner, control components and parts and back runner communicate in proper order and constitute the water route.

As a further improvement of the above technical solution:

be equipped with components and parts input unit and components and parts output on the water route board pipeline, control components and parts in order can dismantle the mode connect in on components and parts input unit and the components and parts output, components and parts input unit is equipped with the intercommunication control components and parts with the first discharge orifice of preceding runner, components and parts output is equipped with the intercommunication control components and parts with the second discharge orifice of back runner.

The pipeline of the water circuit board is internally provided with a positioning mechanism for positioning the depth of the blocking piece extending into the pipeline of the water circuit board so that the blocking piece can only be positioned between the first overflowing hole and the second overflowing hole.

The positioning mechanism is a positioning step arranged in the pipeline of the water circuit board.

The positioning mechanism is more than one positioning bulge or annular positioning piece arranged on the inner wall of the pipeline of the water circuit board.

The waterway plate pipeline is detachably connected with a fixing component used for limiting the blocking piece to move in the waterway plate pipeline.

Fixed subassembly including set up in on the water route board pipeline and with the blanking cover connecting hole of water route board pipeline pipe chamber intercommunication with in order can dismantle the mode connect in blanking cover in the blanking cover connecting hole, the blanking cover tip stretch into extremely water route board pipeline pipe intracavity and compress tightly fixedly the jam piece.

The inner wall of the plug cover connecting hole and the plug cover are provided with a first sealing ring.

Be equipped with on the jam with water route board pipeline lumen sliding fit's portion of overflowing, the portion of overflowing is including the horizontal blade and the vertical blade that are the cross setting, be equipped with the column spare on the vertical blade, the terminal surface of column spare is less than the terminal surface of vertical blade forms the depressed part, the same radial cross section that depressed part and second overflowing hole are located the water route board pipeline.

The control device is characterized in that the device input part and the device output part are respectively provided with a plug socket, the control device is respectively provided with a plug part corresponding to the device input part and the device output part, and the plug parts are connected with the corresponding plug sockets in a plug manner.

And a third sealing ring for preventing water flow leakage is arranged between the inserting part and the corresponding inserting seat.

The blocking piece is provided with a second sealing ring for preventing water flow from leaking into the rear flow channel from the front flow channel, the blocking piece is provided with a first positioning portion and a second positioning portion, the first positioning portion and the second positioning portion are arranged at intervals to form a groove, and the second sealing ring is installed in the groove.

Be equipped with the components and parts installation department on the water route board pipeline, control components and parts pass through the fastener with can dismantle the mode connect in on the components and parts installation department.

The control component is an electromagnetic valve or a one-way valve.

Compared with the prior art, the invention has the advantages that:

the waterway plate pipeline structure comprises a waterway plate main body and a waterway plate pipeline arranged on a waterway plate runner module, wherein a control component is detachably connected on the waterway plate pipeline, and a blocking piece is detachably connected in the waterway plate pipeline and divides the waterway plate pipeline into a front runner and a rear runner, so that two runners which are not communicated with each other are formed on the same pipeline, the arrangement of one integrated water pipeline is reduced, the number of the integrated water pipelines on the waterway plate runner module is reduced, a waterway plate flow pipe network is simplified, the space volume occupied by the waterway plate runner module is reduced, the processing difficulty of an injection mold is greatly reduced, and the processing cost is correspondingly reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a perspective view of the component shown in fig. 1 with the parts hidden.

FIG. 3 is a schematic view of a half-section structure of the present invention.

Fig. 4 is a half-sectional view of the present invention.

Fig. 5 is an enlarged view of a portion of the structure of fig. 4.

Fig. 6 is a schematic perspective view of the blocking member according to the present invention.

Illustration of the drawings:

1. a waterway plate main body; 2. a waterway plate runner module; 201. a water circuit board pipeline; 202. a front flow passage; 203. a rear flow channel; 3. controlling the components; 301. a component input section; 3011. a first overflow aperture; 302. a component output section; 3021. a second overflowing hole; 303. a component mounting section; 4. a blocking member; 401. a first positioning portion; 402. a second positioning portion; 403. an overcurrent section; 4031. a transverse blade; 4032. a longitudinal blade; 4033. a columnar member; 5. positioning a step; 6. a fixing assembly; 601. plugging the cover connecting hole; 602. blocking the cover; 701. a socket; 702. a plug-in part; 8. a first seal ring; 9. a second seal ring; 10. and a third sealing ring.

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples.

As shown in fig. 1 to 4, the waterway plate pipeline structure of this embodiment includes a waterway plate main body 1 and a waterway plate runner module 2, a plurality of waterway plate connecting holes are provided on the waterway plate main body 1, a waterway plate pipeline 201 communicated with a plurality of waterway plate connecting holes in a one-to-one correspondence is provided on the waterway plate runner module 2, a control component 3 is detachably connected to at least one waterway plate pipeline 201, a blocking member 4 for separating a lumen of the waterway plate pipeline 201 into a front runner 202 and a rear runner 203 is detachably connected in the waterway plate pipeline 201 connected with the control component 3, the front runner 202, the control component 3 and the rear runner 203 are sequentially communicated to form a waterway. This water route board pipeline structure includes water route board main part 1 and sets up the water route board pipeline 201 on water route board runner module 2, can dismantle on the water route board pipeline 201 and be connected with control components and parts 3, can dismantle through can dismantle in water route board pipeline 201 and be connected with blocking part 4, blocking part 4 separates water route board pipeline 201 for preceding runner 202 and back runner 203, two runners that form each other not communicating on same pipeline have been realized, the setting of an integrated water pipeline has been reduced, not only reduce the integrated water pipeline quantity on water route board runner module 2, the water route board flow pipe network has been simplified, reduce the shared space volume of water route board runner module 2, and the injection mold processing degree of difficulty has been greatly reduced, also the corresponding processing cost that has reduced.

As shown in fig. 2 to 4, it is preferable that the water channel plate pipe 201 is provided with a component input portion 301 and a component output portion 302, the control component 3 is detachably connected to the component input portion 301 and the component output portion 302, the component input portion 301 is provided with a first overflow hole 3011 for communicating the control component 3 with the front flow channel 202, and the component output portion 302 is provided with a second overflow hole 3021 for communicating the control component 3 with the rear flow channel 203. In this embodiment, the water channel plate pipe 201 is provided with the component input portion 301 and the component output portion 302, and the control component 3 is detachably connected to the component input portion 301 and the component output portion 302, so that the water in the front flow channel 202 can flow to the control component 3 through the first overflowing hole 3011 and flow to the rear flow channel 203 through the second overflowing hole 3021.

As shown in fig. 5, it is preferable that a positioning mechanism for positioning the plug 4 to extend into the circuit board 201 so that the plug 4 can be positioned only between the first overflowing hole 3011 and the second overflowing hole 3021 is provided in the circuit board 201. In this embodiment, a positioning mechanism is disposed in the waterway plate pipeline 201, during the process of assembling the waterway plate, the blocking member 4 extends into the waterway plate pipeline 201 from the nozzle of the waterway plate pipeline 201, the positioning mechanism can abut against the blocking member 4 and prevent the blocking member 4 from further extending, and the depth of the blocking member 4 extending into the waterway plate pipeline 201 is positioned so that the blocking member 4 can only be located between the first overflowing hole 3011 and the second overflowing hole 3021.

Preferably, the positioning mechanism is a positioning step 5 provided in the water channel plate 201. In this embodiment, the positioning mechanism is in the form of a positioning step 5 formed by matching the inner walls of the front flow channel 202 and the rear flow channel 203, which have different inner diameters, and only by designing the inner walls of the front flow channel 202 and the rear flow channel 203 to have different inner diameters on the mold, the blocking member 4 can be located only between the first overflowing hole 3011 and the second overflowing hole 3021, which has the advantages of simple structure and low production cost.

Preferably, in other embodiments, the positioning mechanism may also be more than one positioning protrusion or annular positioning member disposed on the inner wall of the pipeline 201 of the water route board. The positioning mechanism is in the form of a positioning bulge or an annular positioning piece arranged on the inner wall of the waterway plate pipeline 201, is suitable for the waterway plate pipeline 201 with the same inner diameter of the inner walls of the front runner 202 and the rear runner 203, can be subjected to injection molding only by designing a corresponding positioning bulge forming position or an annular positioning piece forming position on a mold, and also has the advantages of simple structure and low production cost.

As shown in fig. 2, 3 and 5, the waterway plate tube 201 is preferably detachably connected with a fixing assembly 6 for limiting the movement of the blocking member 4 in the waterway plate tube 201. In this embodiment, the fixing component 6 is connected to the waterway plate pipeline 201, and in the process of assembling the waterway plate, after the blocking piece 4 is positioned at a depth in the waterway plate pipeline 201 (i.e. after being abutted against the positioning mechanism), the fixing component 6 is connected to the waterway plate pipeline 201 to limit the movement of the blocking piece 4, so as to prevent the blocking piece 4 from blocking the circulation of the rear flow channel 203 or dropping off the waterway plate pipeline 201.

Preferably, the fixing assembly 6 comprises a plug connecting hole 601 which is arranged on the waterway plate pipeline 201 and is communicated with the pipe cavity of the waterway plate pipeline 201, and a plug 602 which is detachably connected in the plug connecting hole 601, wherein the end part of the plug 602 extends into the pipe cavity of the waterway plate pipeline 201 and compresses the fixed plug 4. In this embodiment, fixed subassembly 6 includes blanking cover connecting hole 601 and blanking cover 602, wherein blanking cover connecting hole 601 only need through the corresponding blanking cover connecting hole 601 shaping position of design on the mould can injection moulding, and blanking cover 602 chooses for use is to exempt from to weld the blanking cover, can follow the advantage that blanking cover connecting hole 601 is dismantled out at any time, has simple structure, the processing degree of difficulty is low, dismouting process convenient and fast.

As shown in fig. 5, a first sealing ring 8 is preferably installed between the inner wall of the cap coupling hole 601 and the cap 602. In this embodiment, the first sealing ring 8 is disposed between the inner wall of the cap connection hole 601 and the cap 602, so that water leakage from the cap connection hole 601 can be avoided, and the sealing performance of the circuit board 201 can be improved.

As shown in fig. 6, preferably, the blocking member 4 is provided with a flow-passing portion 403 which is slidably fitted with the pipe cavity of the waterway plate pipe 201, the flow-passing portion 403 includes a cross-shaped transverse blade 4031 and a cross-shaped longitudinal blade 4032, the longitudinal blade 4032 is provided with a column 4033, the end surface of the column 4033 is lower than the end surface of the longitudinal blade 4032 to form a recessed portion, and the recessed portion and the second flow-passing hole 3021 are located on the same radial section of the waterway plate pipe 201. In the embodiment, the flow passing part 403 which is in sliding fit with the pipe cavity of the waterway plate pipeline 201 is arranged on the blocking piece 4, so that in the process of assembling the waterway plate, the position of the blocking piece 4 can be observed from the second flow passing hole 3021, the state of the blocking piece 4 in the waterway plate pipeline 201 is determined, and on the other hand, the concave part and the second flow passing hole 3021 are positioned on the same radial section of the waterway plate pipeline 201, which is beneficial to improving the water flow performance at the second flow passing hole 3021.

As shown in fig. 5, preferably, sockets 701 are provided on both the component input unit 301 and the component output unit 302, and each of the control component 3 corresponding to the component input unit 301 and the component output unit 302 is provided with a socket 702, and the socket 702 is connected to the corresponding socket 701 in a plugging manner. In this embodiment, the component input unit 301 and the component output unit 302 are both provided with the socket 701, the control component 3 is provided with the socket 702 corresponding to the component input unit 301 and the component output unit 302, and the socket 701 is connected to the socket 702 in a plugging manner, so that the electronic component has the advantages of simple structure and low cost.

As shown in fig. 5, a third sealing ring 10 for preventing water leakage is preferably provided between the plug part 702 and the corresponding plug seat 701. In this embodiment, the third seal ring 10 is provided between the socket 702 and the socket 701, so that water leakage from the connection between the control component 3 and the component input and output sections 301 and 302 can be avoided, and the sealing performance of the circuit board duct 201 can be improved.

As shown in fig. 6, preferably, the blocking member 4 is provided with a second sealing ring 9 for preventing water from leaking from the front flow passage 202 to the rear flow passage 203, the blocking member 4 is provided with a first positioning portion 401 and a second positioning portion 402, the first positioning portion 401 and the second positioning portion 402 are arranged at intervals to form a groove, and the second sealing ring 9 is installed in the groove. In this embodiment, the second sealing ring 9 is disposed on the blocking member 4, so as to prevent water from leaking from the front flow channel 202 to the rear flow channel 203, thereby improving the sealing performance of the water channel plate pipe 201, meanwhile, the blocking member 4 is provided with the first positioning portion 401 and the second positioning portion 402, the second sealing ring 9 is installed in the groove formed by the interval arrangement of the first positioning portion 401 and the second positioning portion 402, the fixing effect on the second sealing ring 9 is good, and the water channel plate has the advantages of simple structure, convenience and rapidness in assembly, and low cost.

As shown in fig. 2, the water channel plate 201 is preferably provided with a component mounting portion 303, and the control component 3 is detachably connected to the component mounting portion 303 by a fastener. In this embodiment, the component mounting portion 303 is disposed on the waterway plate pipe 201, so that the component 3 can be conveniently positioned and mounted, and the waterway plate pipe has the advantages of simple structure, improved mounting efficiency and low cost.

Preferably, the control component 3 is an electromagnetic valve or a one-way valve, wherein the electromagnetic valve can be used for controlling on-off, and the one-way valve can be used for limiting the flow direction of the waterway. In this embodiment, the control component 3 can be selected as an electromagnetic valve or a one-way valve, so as to ensure stable water flow state in the pipeline 201 of the water circuit board and good operation stability.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-described embodiments. Modifications and variations that may occur to those skilled in the art without departing from the spirit and scope of the invention are to be considered as within the scope of the invention.