TWI656087B - Dedicated to the water pressure bucket type reverse osmosis water purifier faucet and its large water output method - Google Patents

Abstract

The invention relates to a reverse osmosis water purifier faucet dedicated to a water pressure bucket type and a large water discharge method thereof, which is an osmosis water faucet connected to a reverse osmosis water purifier and a water storage cylinder, thereby forming a pure a water supply flow channel and a waste water flow channel, wherein the enlarged water supply faucet is provided with a switching valve core group, according to which the pure water supply water flow channel is closed, the second wastewater flow channel is turned on, and the wastewater is discharged When the enlarged water faucet conducts the pure water supply flow passage through the switching valve core group, the waste water flow passage is closed, so that the waste water generated by the reverse osmosis water purifier flows into a waste water provided in the water storage cylinder A storage pressure (P) is accumulated in the storage area, and the pressure (P) applies a force to the pure water storage area of the water storage tank to accelerate the water supply of the pure water supply flow passage.

Description

Dedicated to the water pressure bucket type reverse osmosis water purifier faucet and its large water output method

The invention relates to a water purification technology, in particular to a technical scope of a reverse osmosis water purifier faucet and a large water discharge method dedicated to a water pressure bucket type.

According to the industrialized countries, the water source is often polluted. Therefore, the water plant will make necessary disposal of the water source and put it into disinfection water to improve the drinking safety of the tap water. In contrast, it will affect the taste of drinking. Therefore, the general household users will install a water purifier, which will further process the impurities of natural water and disinfectant water to enhance the taste and safety of drinking.

Referring to FIG. 8, the configuration diagram of the conventional reverse osmosis water purifier 9 is generally filtered into pure water and waste water through a filter 91 and a RO membrane filter 92, wherein the pure water: The ratio of the waste water is 1:3, so about 1/4 of the pure water is stored in the water storage pressure cylinder 93, and the remaining 3/4 of the waste water is discharged, wherein the water storage pressure cylinder 93 is provided with an elastic film. When the water storage pressure cylinder 93 is filled with pure water, the elastic film applies an elastic force to the pure water to form a water pressure. When the water switch 94 is opened, pure water is discharged from the water outlet switch 94. However, such an elastic film of the water storage pressure cylinder 93 serves as a power source for the water discharge, and the water discharge amount of the water discharge switch 94 is usually small, and it is necessary to improve it.

Therefore, in view of the above problems of the conventional reverse osmosis water purifier 9 and its water outlet switch 94, a reverse osmosis water purifier faucet dedicated to the water pressure bucket type of the present invention and a large amount of water effluent are developed. The main purpose of the present invention is to provide a faucet dedicated to a reverse osmosis water purifier that can discharge large amounts of water; the secondary object of the present invention is to provide a single-axis multi-channel switching waterway device capable of large Reverse osmosis water purifier faucet for water supply.

In order to achieve the above object, the present invention utilizes the following technical means, which comprises: a large-scale water discharge method of a water pressure bucket type reverse osmosis water purifier faucet, which comprises the following steps: an enlarged water outlet faucet flow passage The establishing step is to establish a pure water supply flow channel and a waste water flow channel in an enlarged water tap, wherein the waste water flow channel further comprises a first waste water flow channel and a second waste water flow channel; and a reverse osmosis water purifier In the establishing step, a reverse osmosis water purifier is established, and the first wastewater flow channel is respectively established between a water storage cylinder and an enlarged water volume faucet of the reverse osmosis water purifier; The utility model is provided with a pure water storage area and a waste water storage area inside the water storage cylinder, and an elastic diaphragm is arranged between the pure water storage area and the waste water storage area, wherein the pure water storage of the water storage tube The pure water supply water flow channel is established between the discharge zone, the reverse osmosis water purifier, and the enlarged water volume faucet, and the first wastewater flow channel is established between the wastewater storage area of the water storage tank and the water faucet, and the profit is established. The pressure generated by the wastewater storage area will exert a force on the pure water storage area; Check valve establishing step, based on the increased water faucet, water flow path between the water supply tube is provided with a check valve to prevent backflow of the water supply flow channel.

The water faucet of the reverse osmosis water purifier of the present invention is the water faucet of the above-mentioned claim 1, which comprises: a faucet body, a accommodating space and a a water outlet channel, and a first interface, a second interface, a third interface, and a fourth interface are disposed at the bottom of the accommodating space, wherein the fourth interface 接 is connected to connect the water outlet channel, and the first interface The second port is connected to the second water supply channel, and the third port is connected to the first wastewater channel; and a switching valve The heart group is installed in the accommodating space of the faucet body, and can be switched on and off to close the pure water supply flow channel and the waste water channel.

The switching valve core system further includes a fixed valve piece and a movable valve piece, and the movable valve piece has to be located on the top surface of the fixed valve piece, the two can be relatively rotated, and the fixed valve piece is respectively provided with a first a through hole, a second through hole, a third through hole, and a fourth through hole, and the first, second, third, and fourth through holes must be respectively disposed in the first, second, and third portions of the accommodating space. a fourth interface, and a first communication groove and a second communication groove are disposed on the bottom surface of the movable valve piece, wherein the first communication groove 俾 is connected to the first and fourth through holes of the fixed valve piece. The second communication groove 俾 is connected to the second and third through holes of the fixed valve piece.

The fourth interface of the accommodating space is disposed at a center of the accommodating space, and the first, second, and third interfaces respectively surround the fourth interface.

The first communication groove provided in the movable valve piece of the switching valve core group is formed in an elongated shape, and the second communication groove is provided in a moon shape.

The present invention can achieve the following effects by the above technical means:

1. The present invention turns on the second wastewater flow channel by discharging the pure water supply flow path through the switching valve core group, and discharges the waste water; and the increased water volume faucet passes through the switching valve When the heart group conducts the pure water supply channel for water supply, the waste water channel is closed, and the wastewater flows into the wastewater storage area of the water storage tank to accumulate a pressure (P), and the pressure (P) will be pure The water storage area is applied to accelerate the water supply of the pure water supply passage.

2. The invention saves the installation cost of the water purifier by eliminating the need to additionally add a pump or a hand-cranked motor and using the existing water pressure to increase the water supply amount of the water purifier.

[this invention]

A‧‧‧Water-pressure bucket type reverse osmosis water purifier faucet

(a), (b), (c), (d) ‧ ‧ steps

B‧‧‧Enlarge water faucet

C‧‧‧pure water supply channel

D‧‧‧ Wastewater channel

D1‧‧‧First Wastewater Runner

D2‧‧‧Second wastewater channel

E‧‧‧Reverse Osmosis Water Purifier

F‧‧‧Water storage

F1‧‧‧ pure water storage area

F2‧‧‧ Wastewater storage area

F3‧‧‧elastic diaphragm

G‧‧‧ check valve

P‧‧‧ pressure

1‧‧‧ Leading body

10‧‧‧ accommodating space

11‧‧‧ first interface

12‧‧‧second interface

13‧‧‧ third interface

14‧‧‧fourth interface

15‧‧‧Water outlet

2‧‧‧Switching valve core group

21‧‧‧Fixed valve

211‧‧‧ first through hole

212‧‧‧Second through hole

213‧‧‧ third through hole

214‧‧‧fourth through hole

22‧‧‧Active valve

221‧‧‧First connecting groove

222‧‧‧second connecting groove

[Literature]

9‧‧‧Chinese reverse osmosis water purifier

91‧‧‧ filter heart

92‧‧‧RO membrane filter

93‧‧‧Water storage pressure cylinder

94‧‧‧Water switch

Figure 1: The configuration diagram of the water faucet and the reverse osmosis water purifier of the present invention.

Figure 2 is a flow chart showing the steps of the large-water effluent method of the reverse osmosis water purifier faucet of the present invention.

Figure 3: The three-dimensional appearance of the water faucet of the present invention.

Figure 4: An exploded perspective view of the water faucet of the present invention.

Figure 5: A plan view of the combination of the enlarged water faucet of the present invention.

Fig. 6 is an exploded perspective view showing the switching valve core group of the water faucet of the present invention.

Fig. 7 is a schematic view showing the operation of the switching valve core group of the water faucet according to the present invention.

Figure 8: Configuration diagram of the conventional reverse osmosis water purifier.

First, referring to FIG. 1 to FIG. 4, the present invention relates to a large-scale water discharge method A for a water-pressure bucket type reverse osmosis water purifier faucet, which comprises the following steps: The road establishing step (a) is to establish a pure water supply channel C and a wastewater channel D in an enlarged water tap B, wherein the wastewater channel D further comprises a first wastewater channel D1 and a second wastewater. The flow channel D2; a reverse osmosis water purifier establishing step (b), is to establish a reverse osmosis water purifier E, and between the water storage cylinder F and the enlarged water volume hopper B of the reverse osmosis water purifier E The first wastewater flow channel D1 is separately established; a water storage tube pressurization step (c) is provided with a pure water storage area F1 and a waste water storage area F2 inside the water storage tank F, and the pure water storage An elastic diaphragm F3 is disposed between the discharge zone F1 and the waste water storage zone F2, wherein the pure water storage zone F1, the reverse osmosis water purifier E, and the enlarged water volume faucet B of the water storage cylinder F establish the pure water. The water supply channel C, and the first wastewater channel D1 is established between the wastewater storage area F2 of the water storage tank F and the enlarged water volume faucet B, and the pressure formed by the wastewater storage area F2 is formed. Will apply a force to the pure water storage area F1; and a check valve establishing step (d), the pure water supply flow channel C between the enlarged water volume tap B and the water storage tank F is provided with a check valve G, in case the pure water supply channel C is countercurrent; The above-mentioned steps constitute a large-water discharge method A of the reverse osmosis water purifier faucet of the hydraulic bucket type of the present invention, and when the enlarged water faucet B closes the pure water supply passage C via the switching valve core group 2, Turning on the second wastewater flow channel D2 of the wastewater flow channel D, and discharging the wastewater; when the enlarged water volume tap B conducts the pure water supply flow channel C via the switching valve core group 2, the wastewater channel D is closed, and the The wastewater flows into the wastewater storage area F2 provided in the water storage tank F and accumulates a pressure P, so that the pressure P forces the pure water storage area F1 to accelerate the water supply of the pure water supply flow path C with a large amount of water.

Referring to FIG. 3 to FIG. 7 , the present invention relates to a water faucet B for a reverse osmosis water purifier E, which is a large water effluent method A using the above-mentioned water pressure bucket type reverse osmosis water purifier faucet. Among them, the increased water volume faucet B contains: A faucet body 1 , as shown in FIG. 4 and FIG. 5 , is provided with a receiving space 10 and a water outlet channel 15 , and a first interface 11 and a second interface 12 are disposed at the bottom of the accommodating space 10 . a third interface 13 and a fourth interface 14 are disposed at the center of the bottom of the accommodating space 10 and must communicate with the water outlet channel 15, and the first interface 11 is connected to the connection The second water supply channel C, the second port 12 is connected to the second wastewater channel D2, and the third port 13 is connected to the first wastewater channel D1; A switching valve core group 2 is installed in the accommodating space 10 of the faucet body 1, and can be switched on and off to close the pure water supply water channel C and the wastewater flow channel D, thereby facilitating water supply and the water storage tube The accumulating pressure is as shown in FIG. 7; further, the switching valve core group 2 further includes a fixed valve piece 21 and a movable valve piece 22, and the movable valve piece 22 is located on the top surface of the fixed valve piece 21, The two sides of the fixed valve plate 21 are respectively provided with a first through hole 211, a second through hole 212, a third through hole 213, and a fourth through hole 214, as shown in FIG. 6 and FIG. As shown, the first, second, third, and fourth through holes must respectively correspond to the first, second, third, and fourth interfaces of the accommodating space 10, and the bottom surface of the movable valve plate 22 is provided. There is a first communication groove 221 and a second communication groove 222, wherein the movable valve piece 22 is rotated by a handle, so that the first communication groove 221 of the movable valve piece 22 is connected to the fixed valve. The first and fourth through holes of the sheet 21 and the second communication grooves 222 are connected to the second and third through holes of the fixed valve piece 21.

Further, as shown in FIG. 6 and FIG. 7 , the fourth interface 14 of the accommodating space 10 is disposed at a center of the accommodating space 10 , and the first, second, and third interfaces are respectively disposed around the fourth interface. 14 periphery, and the first, second, third, and fourth through holes also correspond to the arrangement of the first, second, and third interfaces; and the first communication groove 221 of the movable valve piece 22 is formed into a strip shape, and The second communication groove 222 is set to have a moon shape to facilitate communication with the switching related interface.

Referring to FIG. 1 , FIG. 3 and FIG. 4 , when the enlarged water faucet B is connected to the switching valve core group 2 via its handle to close the pure water supply flow channel C, the wastewater flow channel D is turned on, that is, The switching valve core group 2 communicates with the first wastewater flow channel D1 and the first wastewater flow channel D2 to discharge the waste water; the enlarged water volume tap B is connected to the switching valve core group 2 via the handle thereof to conduct the pure water supply. When the water supply channel C performs water supply, the wastewater passage D is closed, and the waste water flows into the waste water storage area F2 of the water storage tank F to accumulate a pressure P, so that the pressure P exerts a force on the pure water storage area. In order to accelerate the pure water supply passage C, a large amount of water flows into the outlet passage 15 of the enlarged water amount tap B to supply water with a large amount of water.

In view of the above embodiments, the present invention relates to a reverse osmosis water purifier faucet dedicated to a hydraulic bucket type and a large water discharge method thereof, and the constitution of each embodiment has not been seen in various books or publicly used. In accordance with the requirements of the patent application, I would like to ask the Bureau to give an examination and grant the patent as soon as possible. It is to be understood that the above is a specific embodiment of the present application and the technical principles applied thereto. If the changes made according to the concept of the present application, the functional effects produced by the present application are still beyond the scope of the specification and the drawings. In the spirit of this application, it shall be given to Chen Ming within the scope of this application.

Claims (4)

The utility model relates to a water-pressure bucket type reverse osmosis water purifier faucet, which comprises the following steps: a step of establishing a water outlet faucet flow passage is established, and a pure water supply water flow channel is established in an enlarged water faucet and a wastewater flow channel, wherein the wastewater flow channel further comprises a first wastewater flow channel and a second wastewater flow channel, and a switching valve core group is further provided for switching conduction to close the pure water supply water flow channel and the wastewater flow channel The switching valve core system further includes a fixed valve piece and a movable valve piece, and the movable valve piece has to be located on the top surface of the fixed valve piece, and the two can be relatively rotated, and the fixed valve piece is respectively provided with a through hole. a first through hole, a second through hole, a third through hole, and a fourth through hole, and the first, second, third, and fourth through holes respectively have a first interface corresponding to the water faucet, a second interface, a third interface, and a fourth interface, and a first communication groove and a second communication groove on the bottom surface of the movable valve piece, wherein the first communication groove is provided Connecting the first and fourth through holes of the fixed valve piece, and the second communication groove a second and three through holes for connecting the fixed valve piece; a reverse osmosis water purifier establishing step, establishing a reverse osmosis water purifier, and providing a water storage tube and increasing the water volume in the reverse osmosis water purifier The first waste water flow channel is respectively established between the faucets; a water storage tank pressurization step is provided with a pure water storage area and a waste water storage area inside the water storage tank, and the pure water storage area and the waste water An elastic diaphragm is disposed between the storage areas, wherein the pure water storage area, the reverse osmosis water purifier, and the enlarged water quantity faucet of the water storage tube establish the pure water supply water flow channel, and the wastewater of the water storage tube The first waste water flow channel is established between the storage area and the enlarged water volume faucet, and the pressure formed by the waste water storage area will exert a force on the pure water storage area; a check valve establishing step is performed at the large The pure water supply flow passage between the water faucet and the water storage cylinder is provided with a check valve to prevent the pure water supply flow passage from flowing backward; When the water faucet closes the pure water supply flow passage through the switching valve core group, the second wastewater flow passage is turned on, and the waste water is discharged; and the enlarged water faucet is turned on via the switching valve core group. When the pure water supply channel is supplied with water, the waste water channel is closed, so that the waste water produced by the reverse osmosis water purifier flows into a wastewater storage area of the water storage tank and accumulates a pressure (P). (P) Applying force to the pure water storage area to accelerate the supply of water in the pure water supply passage. The utility model relates to a water-pressure bucket type reverse osmosis water purifier, which is characterized in that: the method for using the large water quantity and water outlet according to claim 1 comprises: a faucet body, wherein the system is provided with an accommodating space and a water outlet channel. A first interface, a second interface, a third interface, and a fourth interface are disposed at the bottom of the accommodating space, wherein the fourth interface is connected to the water outlet, and the first interface is connected Connecting the pure water supply water passage, the second port is connected to the second waste water channel, and the third port is connected to the first waste water channel; and a switching valve core group is The utility model is disposed in the accommodating space of the faucet body, and can be switched on and off to close the pure water supply water flow channel and the waste water flow channel, wherein the switching valve core system further comprises a fixed valve piece and a movable valve piece, and The movable valve piece is located on the top surface of the fixed valve piece, and the two can be relatively rotated. The fixed valve piece is respectively provided with a first through hole, a second through hole, a third through hole and a fourth through hole. Hole, and the first, second, third, and fourth through holes must be respectively The first, second, third and fourth interfaces provided in the space should be accommodated, and a first communication groove and a second communication groove are arranged on the bottom surface of the movable valve piece, wherein the first communication groove is provided for Connecting the first and fourth through holes of the fixed valve piece, and the second communication groove 俾 is connected to the second and third through holes of the fixed valve piece; and the enlarged water faucet is closed by the switching valve core group When the pure water supply channel is opened, the second wastewater channel is turned on and the wastewater is discharged; the enlarged water tap is turned on via the switching valve core group When the pure water supply flow channel is supplied with water through the water outlet passage, the waste water flow passage is closed, so that the waste water produced by the reverse osmosis water purifier flows into a waste water storage area of the water storage tank and accumulates a pressure. (P), the pressure (P) applies a force to the pure water storage area to accelerate the supply of water in the pure water supply passage. The water-receiving faucet of the reverse-pressure water purifier of the hydraulic bucket type according to claim 2, wherein the fourth interface of the accommodating space is disposed at the center of the accommodating space, and the first, second, and third interfaces are Surrounded by the fourth interface respectively. The water faucet of the reverse osmosis water purifier of the water pressure bucket type according to claim 3, wherein the first communication groove of the movable valve piece of the switching valve core group is set to be long, and the first The two connected grooves are set to a moon shape.