CN108031290B - Water purifier - Google Patents

Abstract

The embodiment of the invention discloses a water purifier, which comprises an integrated waterway board, wherein waterways are integrated in the integrated waterway board, and an installation area of the integrated waterway board comprises a front installation area and a back installation area which are oppositely arranged at two sides of the integrated waterway board; the water making module is arranged in the front mounting area of the integrated waterway plate and comprises at least one filter element, and the filter element is communicated with the waterway of the integrated waterway plate; the electric control module is arranged in the back installation area of the integrated waterway plate and comprises an electric control plate and an electric element electrically connected with the electric control plate, and the electric element is communicated with the waterway of the integrated waterway plate. Through the technical scheme of the invention, the area where the water making module is positioned and the area where the electric control module is positioned are mutually independent, so that water and electricity separation is effectively realized, the connection point of a pipeline is reduced, the tightness of the pipeline in the water purifier is improved, and the water leakage risk of the water purifier is reduced.

Description

Water purifier

Technical Field

The embodiment of the invention relates to the technical field of water purifying equipment, in particular to a water purifier.

Background

The internal elements of the water purifying equipment can be generally divided into a water making module and an electric control module according to functions, and PE hoses and connectors are generally arranged in the traditional water purifying equipment and are used for connecting water flow channels, and the water flow channels are connected by the connectors.

Along with the development of the water purification equipment, the water purification equipment has more and more functions, parts for realizing corresponding functions inside the water purification equipment are scattered, and connecting pipelines are more, so that the manufacturing and processing technology of the water purification equipment is complex, the pipeline connecting points are more, the sealing performance of the pipeline connection in the water purification equipment is not strict, and the water purification equipment is further caused to have larger hidden danger and risk of water leakage.

Disclosure of Invention

In view of the above, the embodiment of the invention provides a water purifier, by arranging the water making module in the front mounting area of the integrated waterway board and arranging the electric control module in the back mounting area of the integrated waterway board opposite to the front mounting area, the area where the water making module is located and the area where the electric control module is located are mutually independent, so that water-electricity separation is effectively realized, pipeline connection points are reduced, the sealing performance of pipelines in the water purifier is improved, and the water leakage risk of the water purifier is reduced.

In a first aspect, an embodiment of the present invention provides a water purifier, including:

the integrated waterway board is internally integrated with waterways, and the installation area of the integrated waterway board comprises a front installation area and a back installation area which are arranged at two sides of the integrated waterway board in an opposite mode;

the water making module is arranged in the front installation area of the integrated waterway plate and comprises at least one filter element which is communicated with the waterway of the integrated waterway plate;

the electric control module is arranged in the back installation area of the integrated waterway board, and comprises an electric control board and an electric element electrically connected with the electric control board, and the electric element is communicated with the waterway of the integrated waterway board.

Further, the water purifier further includes:

the valve group is arranged in the front installation area of the integrated waterway plate and is communicated with the waterway of the integrated waterway plate;

the valve group is arranged in a first area in a concentrated mode, the water making module is arranged in a second area, and the first area and the second area are mutually independent and belong to the front installation area.

Further, the valve group comprises a water inlet electromagnetic valve, a flushing electromagnetic valve and a check valve, and the water inlet electromagnetic valve is electrically connected with the flushing electromagnetic valve and the electric control board.

Further, the electrical components are arranged in a third area in a concentrated manner, the electric control board is arranged in a fourth area, and the third area and the fourth area are mutually independent and belong to the back surface mounting area.

Further, the water purifier further includes:

the power adapter is arranged in a fifth area, the fifth area and the third area are mutually independent, the fifth area belongs to the back mounting area, and a waterproof part is arranged on the power adapter.

Further, the electrical components include booster pump, pressure switch, flowmeter and TDS probe, the booster pump with the automatically controlled board set up in the both ends of the back installation district of integrated water route board.

Further, the filter element is fixed with the filter element machine head in a clamping and rotating mode, and the filter element machine head is fixed on the integrated waterway plate through a hinge.

Further, the hinge and the inside rivers passageway that all is provided with of filter core aircraft nose, integrated water route board with the hinge with the filter core aircraft nose, the filter core aircraft nose with all be provided with sealing member between the corresponding interface of filter core.

Further, a waterproof component is arranged on the electric control board.

Further, a sealing component is arranged between an interface of the electrical element corresponding to the mounting hole on the integrated waterway board and the corresponding mounting hole.

The embodiment of the invention provides a water purifier, wherein the installation area of an integrated waterway board of the water purifier comprises a front installation area and a back installation area which are oppositely arranged at two sides of the integrated waterway board, a water making module is arranged at the front installation area of the integrated waterway board, and an electric control module is arranged at the back installation area of the integrated waterway board, namely, the water making module and the electric control module are respectively arranged in the two installation areas which are oppositely arranged at two sides of the integrated waterway board, so that water and electricity separation is realized, and compared with the staggered arrangement of the water making module and the electric control module in the prior art, the pipeline connection point is greatly reduced, the sealing performance of a pipeline in the water purifier is further improved, and the water leakage risk of the water purifier is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, a brief description will be given below of the drawings required for the embodiments or the prior art descriptions, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a front mounting area of a water purifier according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of a back mounting area of a water purifier according to a first embodiment of the present invention;

fig. 3 is a schematic structural diagram of a front mounting area of a water purifier with a housing according to a third embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings.

Example 1

Fig. 1 is a schematic structural diagram of a front mounting area of a water purifier according to a first embodiment of the present invention, and fig. 2 is a schematic structural diagram of a back mounting area of a water purifier according to a first embodiment of the present invention. Referring to fig. 1 and 2, the water purifier includes an integrated waterway board 1, a water making module 2 and an electric control module, a waterway is integrated in the integrated waterway board 1, an installation area of the integrated waterway board 1 includes a front installation area a and a back installation area B which are opposite to each other and are positioned at two sides of the integrated waterway board 1, the water making module 2 is arranged in the front installation area a of the integrated waterway board 1, the water making module 2 includes at least one filter element 21, the filter element 21 is communicated with the waterway of the integrated waterway board 1, and the water making module 2 of the water purifier is exemplarily provided with three filter elements 21. The electric control module is arranged in the back mounting area B of the integrated waterway board 1 and comprises an electric control board 31 and an electric element electrically connected with the electric control board 31, and the electric element is communicated with the integrated waterway board 1.

It should be noted that, the front mounting area a and the back mounting area B are opposite concepts, and the front mounting area a and the back mounting area B are two mounting areas located at two opposite sides of the integrated waterway board 1.

Specifically, the filter element 21 in the water making module 2 is communicated with the integrated waterway board 1, and an RO (Reverse Osmosis) membrane is arranged in the filter element 21, so that sediment, microorganisms, heavy metal ions and other impurities in water can be intercepted, and raw water flowing in a water flow channel of the integrated waterway board 1 is filtered by the filter element 21, so that the purpose of purifying water is achieved. The electric control board 31 in the electric control module may be, for example, a printed circuit board, and the electric components electrically connected with the electric control board 31 realize corresponding functions under the action of the control signals output by the electric control board 31. The water making module and the electric control module are respectively arranged in two installation areas which are oppositely arranged on two sides of the integrated waterway board, and the water making module and the electric control module are installed in the installation areas on the same side of the integrated waterway board, so that water and electricity separation can be effectively realized, the occupied area of the water purifier can be reduced, and meanwhile, independent maintenance of the water making module or the electric control module is facilitated.

Alternatively, referring to fig. 1 and 2, the electrical components may include a booster pump 32, a pressure switch 33, a flowmeter 34, and a TDS probe 35, where the electrical components electrically connected to the electrical board 31 may be centrally disposed in the third area B3 of the back-side mounting area B, and the electrical board 31 may be disposed in the fourth area B4 of the back-side mounting area B, so that the third area B3 and the fourth area B4 are disposed independently of each other, that is, the electrical board 31 disposed in the back-side mounting area B of the integrated waterway board 1 and the electrical components electrically connected thereto are disposed independently.

Alternatively, in combination with fig. 1 and 2, the booster pump 32 and the electric control board 31 may be disposed at both ends of the back mounting area B of the integrated waterway board 1. Specifically, the booster pump 32 is used to pressurize tap water to meet the demands of the RO membranes in the cartridge 21 for water pressure and flow rate. The pressure switch 33 can automatically control the water purifier to work, for example, when the water pressure of the pure water reaches 0.25MPa, the power supply of the water purifier is cut off, so that the water purifier is stopped; when the pure water is discharged by the pure water discharging system, such as a water tap, the water pressure of the pure water is reduced, and when the water pressure of the pure water is reduced to 0.15MPa, the pressure switch 33 controls the water purifier to automatically turn on the power supply, and the water purifier enters a normal water producing state. The flow meter 34 is capable of registering the flow of water through it and feeding back the registered data to the electronic control board 31 for estimating the life of the filter cartridge 21. The TDS (Total Dissolved Solid, total dissolved solids) probe 35 can then detect impurities in the water.

Because the booster pump 32, the pressure switch 33, the flowmeter 34 and the TDS probe 35 are all provided with water flow channels, the electric control board 31 positioned in the back installation area B of the integrated waterway board 1 and the electric components such as the booster pump 32, the pressure switch 33, the flowmeter 34 and the TDS probe 35 which are electrically connected with the electric control board are mutually independent, so that the influence of water leakage in the electric components on the normal operation of the electric control board 31 and even the burning of the electric control board 31 are avoided. As shown in fig. 2, the layout space of the electrical components in the water purifier can be comprehensively considered, the booster pump 32, the pressure switch 33, the flowmeter 34 and the TDS probe 35 are arranged far away from the electric control board 31, especially for the booster pump 32, the water flow channels therein are more, and the pipeline connectors are more, so that the booster pump 32 is arranged far away from the electric control board 31, the booster pump 32 and the electric control board 31 can be arranged at two ends of the back installation area B of the integrated waterway board 1, as shown in fig. 2, the booster pump 32 is exemplarily arranged at the left side area of the back installation area B, and the electric control board 31 is arranged at the right side area of the back installation area B.

Alternatively, a waterproof member may be provided on the electronic control board. The waterproof component can be a waterproof cover, and the waterproof cover is arranged to buckle the electric control plate, so that water is further prevented from flowing into the electric control plate to influence the normal operation of the electric control plate, and even the electric control plate is burnt.

Optionally, as shown in fig. 2, the water purifier may further include a power adapter 36, where the power adapter 36 may be disposed in a fifth area B5 of the back mounting area B of the integrated waterway board 1, and the fifth area B5 and the third area B3 may be disposed independently of each other, that is, the power adapter 36 disposed in the back mounting area B of the integrated waterway board 1 and electrical components such as the booster pump 32, the pressure switch 33, the flowmeter 34, and the TDS probe 35 electrically connected to the electronic control board 31 are disposed independently of each other, for example, the booster pump 32, the pressure switch 33, the flowmeter 34, and the TDS probe 35 are disposed far from the power adapter 36, so that water entering the power adapter 36 may be prevented from affecting the normal operation of the power adapter 36, or even burning the power adapter 36.

Alternatively, a waterproof member may be provided on the power adapter as well. The waterproof component may be a waterproof cover, and the waterproof cover is provided to buckle the power adapter, so that water is further prevented from flowing into the power adapter to influence the normal operation of the power adapter, and even burn the power adapter.

According to the technical scheme, the installation area of the integrated waterway board of the water purifier comprises the front installation area and the back installation area which are oppositely arranged at the two sides of the integrated waterway board, the water making module is arranged in the front installation area of the integrated waterway board, the electric control module is arranged in the back installation area of the integrated waterway board, namely, the water making module and the electric control module are respectively arranged in the two installation areas which are oppositely arranged at the two sides of the integrated waterway board, so that water and electricity separation is realized, and compared with the staggered arrangement of the water making module and the electric control module in the prior art, the pipeline connection points are greatly reduced, the sealing performance of a pipeline in the water purifier is further improved, and the water leakage risk of the water purifier is reduced.

Example two

On the basis of the above embodiment, referring to fig. 1 and 2, the water purifier may further include a valve group 4, where the valve group 4 is disposed in the front mounting area a of the integrated waterway board 1, and the valve group 4 is in waterway communication with the integrated waterway board 1. Specifically, the electric control board 31 in the electric control module 3 is arranged in the back mounting area B of the integrated waterway board 1, the valve group 4 is arranged in the front mounting area a of the integrated waterway board 1, so that the valve group 4 and the electric control board 31 are respectively positioned in the mounting areas oppositely arranged on two sides of the integrated waterway board 1, and the heat dissipation of the valve group 4 and the electric control board 31 is facilitated relative to the mounting areas of the valve group 4 and the electric control board 31 arranged on one side of the integrated waterway board 1, and the influence of overhigh temperature on the normal work of the valve group 4 or the electric control board 31 is avoided.

The valve group 4 can be arranged in the first area A1 of the front installation area A of the integrated waterway plate 1 in a centralized manner, the water making module 2 can be arranged in the second area A2 of the front installation area A of the integrated waterway plate 1, the first area A1 and the second area A2 are independent, namely, the valve group 4 and the water making module 2 which are positioned in the front installation area A of the integrated waterway plate 1 are independent of each other, waterway separation is realized, pipeline connection points are reduced, the tightness of pipelines in the water purifier is improved, and the water leakage risk of the water purifier is reduced.

Alternatively, in combination with fig. 1 and 2, the valve group 4 may include a water inlet solenoid valve 41, a flushing solenoid valve 42, and a check valve 43, wherein the water inlet solenoid valve 41 and the flushing solenoid valve 42 are electrically connected with the electronic control board 31. Specifically, after the water inlet electromagnetic valve 41 is electrified, the water inlet electromagnetic valve 41 enables tap water to pass through the water inlet electromagnetic valve 41 under the control of the electric control board 31 so as to realize the normal water making function of the water purifier, and when the water purifier stops working, the water inlet electromagnetic valve 41 can prevent water from passing through under the control of the electric control board 31. The flushing solenoid valve 42 is also controlled by the electric control board 31, for example, when the water purifier works for 6 hours in an accumulated mode, the power of the flushing solenoid valve 42 is turned on once, the flushing solenoid valve 42 performs high-pressure high-flow flushing on the RO membrane of the filter core 21, and meanwhile, the flushing solenoid valve 42 can control the flushing time under the control of the electric control board 31. The check valve 43 is a one-way valve, and when pure water is full, the check valve 43 can effectively prevent high-pressure pure water from flowing backwards and being discharged together with waste water.

According to the technical scheme, the valve group in the water purifier is arranged in the front installation area of the integrated waterway plate, so that the valve group and the electric control plate are positioned in the installation areas on two sides of the integrated waterway plate, and heat dissipation of the valve group and the electric control plate is facilitated. Meanwhile, the valve group is arranged in the first area of the front installation area of the integrated waterway plate in a concentrated mode, the water making module is arranged in the second area of the front installation area of the integrated waterway plate, and the first area and the second area are mutually independent, so that the valve group and the water making module in the front installation area of the integrated waterway plate are mutually independent, pipeline connection points are reduced, the sealing performance of pipelines in the water purifier is improved, and the water leakage risk of the water purifier is reduced.

Example III

On the basis of the above embodiments, fig. 3 is a schematic structural diagram of a front mounting area of a water purifier with a casing according to a third embodiment of the present invention. Referring to fig. 1 and 3, a filter element 21 is fixed to a filter element head 22 by a clamping rotation manner, and the filter element head 22 is fixed to the integrated waterway board 1 by a hinge 23. Specifically, the setting of hinge 23 makes filter core 21 can outwards overturn for integrated water route board 1, is favorable to the dismouting of filter core 21, if filter core 21 can not outwards overturn, then the space is inseparabler between the filter core 21, has increased the degree of difficulty that carries out the dismouting operation to filter core 21, sets up filter core 21 and can overturn certain angle, has increased the operating space to filter core 21 in order to conveniently change or install filter core 21.

Optionally, the hinge 23 and the filter core handpiece 22 are both internally provided with water flow channels, and sealing components are arranged between the integrated waterway board 1 and the hinge 23, between the hinge 23 and the filter core handpiece 22, and between the filter core handpiece 22 and the corresponding interface of the filter core 21. By means of the sealing component, the water leakage probability of the filter element 21 is reduced, and the water leakage probability of the water purifier is further reduced. For example, in connection with fig. 1 and 3, a housing 5 of the water purifier may be provided to seal the valve group 4.

Optionally, a sealing component is arranged between an interface of the electrical element corresponding to the mounting hole on the integrated waterway board and the mounting hole corresponding to the integrated waterway board. In addition, sealing components can be arranged between the interfaces of the water inlet electromagnetic valve, the flushing electromagnetic valve and the check valve in the valve group corresponding to the mounting holes on the integrated waterway plate and the mounting holes on the corresponding integrated waterway plate. By means of the arrangement of the sealing component, the water leakage probability of the electric elements and the valve group is reduced, and the water leakage probability of the water purifier is further reduced.

According to the technical scheme, the filter element is fixed with the filter element head in a clamping and rotating mode, and the filter element head is fixed on the integrated waterway plate through the hinge, so that the filter element is convenient to disassemble and assemble, the difficulty of disassembling and assembling operation of the filter element is reduced, and the operation space of the filter element is increased so as to facilitate replacement or installation of the filter element. In addition, through the arrangement of the sealing component, the water leakage probability of the electric elements and the valve group is reduced, and the water leakage probability of the water purifier is further reduced.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, while the invention has been described in connection with the above embodiments, the invention is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the invention, which is set forth in the following claims.

Claims (8)

1. A water purifier, comprising:

the integrated waterway board is internally integrated with waterways, and the installation area of the integrated waterway board comprises a front installation area and a back installation area which are arranged at two sides of the integrated waterway board in an opposite mode;

the water making module is arranged in the front installation area of the integrated waterway plate and comprises at least one filter element which is communicated with the waterway of the integrated waterway plate;

the electronic control module is arranged in the back installation area of the integrated waterway board and comprises an electronic control board and an electric element electrically connected with the electronic control board, and the electric element is communicated with the waterway of the integrated waterway board;

the valve group is arranged in the front installation area of the integrated waterway plate and is communicated with the waterway of the integrated waterway plate; the valve group is arranged in a first area in a concentrated manner, the water making module is arranged in a second area, and the first area and the second area are mutually independent and belong to the front installation area;

the electric element comprises a booster pump, a pressure switch, a flowmeter and a TDS probe, wherein the booster pump and the electric control plate are arranged at two ends of a back installation area of the integrated waterway plate, and the booster pump is far away from the electric control plate.

2. The water purifier of claim 1, wherein the valve assembly comprises a water inlet solenoid valve, a flush solenoid valve, and a check valve, the water inlet solenoid valve and the flush solenoid valve being electrically connected to the electronic control board.

3. The water purifier of claim 1, wherein the electrical components are disposed in a third area, the electrical control board is disposed in a fourth area, and the third area and the fourth area are independent of each other and belong to the back mounting area.

4. The water purifier of claim 3, further comprising:

the power adapter is arranged in a fifth area, the fifth area and the third area are mutually independent, the fifth area belongs to the back mounting area, and a waterproof part is arranged on the power adapter.

5. The water purifier of claim 1, wherein the filter element is fixed to a filter element head by a clamping rotation manner, and the filter element head is fixed to the integrated waterway board by a hinge.

6. The water purifier of claim 5, wherein the hinge and the filter core handpiece are each provided with a water flow channel, and the integrated waterway plate and the hinge, the hinge and the filter core handpiece, and the filter core handpiece and the filter core are each provided with a sealing member between their corresponding interfaces.

7. The water purifier of claim 1, wherein the electric control board is provided with a waterproof member.

8. The water purifier of claim 1, wherein a sealing member is disposed between an interface of the electrical component corresponding to the mounting hole on the integrated waterway board and the corresponding mounting hole.

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