CN216236487U - Kitchen following formula purifier - Google Patents

Abstract

The utility model provides a kitchen-below water purifier which comprises a first filter element assembly and a water storage device, wherein the first filter element assembly is provided with a water inlet, a pure water port and a waste water port, the water inlet is communicated with external raw water, the pure water port is communicated with a water inlet end of the water storage device, and the waste water port is connected with a waste water pipe; the water storage device is characterized by also comprising a water faucet, wherein a first water outlet channel and a second water outlet channel which are mutually independent are arranged between the water faucet and the water storage device; the first water outlet path is provided with a first water suction pump; the second water outlet path is provided with a second water suction pump and a heating component in sequence from the water storage device to the direction of the faucet. The utility model is provided with the waste water pipe, the water storage device and the first water outlet channel and the second water outlet channel which are mutually independent, and solves the problems of simplified drinking water selection, small water outlet flow and water resource utilization rate.

Description

Kitchen following formula purifier

Technical Field

The utility model relates to the technical field of water purifiers, in particular to a kitchen-under type water purifier.

Background

Along with the improvement of people's standard of living, more and more family's installation uses the following formula of kitchen purifier, purifier lug connection water pipe, water need pass through the filtration of filter core before the user obtains the pure water, then the user just can acquire filterable pure water, along with user's increase, some weak points of purifier also show, wait for filterable time, can not large-traffic play water, when making the user need quick a large amount of water, can not large-traffic swift play water, greatly reduced water intaking efficiency and influenced the user experience of water purifier.

On the other hand, the existing under-kitchen water purifier can only simply provide normal-temperature purified water for drinking, and has the advantages of simplification of drinking water selection and incapability of meeting more drinking water requirements of users. The hot water with different water temperatures is required to be drunk, and the hot water can only be blended through cold water and hot water, the filtering effects of the pre-filter and the reverse osmosis membrane cannot be reflected in real time, and a user cannot know whether the filter needs to be replaced in time, so that the healthy drinking water of the user is influenced. And the existing kitchen following formula purifier does not have the waste water passageway, and the utilization ratio of water resource is not high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a kitchen-under type water purifier, which solves the problems of simplification of drinking water selection, small water outlet flow and water resource utilization rate.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a kitchen-below water purifier comprises a first filter element assembly and a water storage device, wherein the first filter element assembly is provided with a water inlet, a pure water port and a waste water port, the water inlet is communicated with external raw water, the pure water port is communicated with a water inlet end of the water storage device, and the waste water port is connected with a waste water pipe; the water storage device is characterized by also comprising a water faucet, wherein a first water outlet channel and a second water outlet channel which are mutually independent are arranged between the water faucet and the water storage device; the first water outlet path is provided with a first water suction pump; the second water outlet path is provided with a second water suction pump and a heating component in sequence from the water storage device to the direction of the faucet.

The water purifier is provided with the waste water pipe, the water storage device and the first water outlet channel and the second water outlet channel which are mutually independent, wherein the first water outlet channel is normal-temperature water, the second water outlet channel is heating water, hot water with different water temperatures is provided to meet the requirements of different functions of a user, the traditional cold and hot water blending mode is avoided, the normal-temperature water outlet channel is additionally arranged, normal-temperature purified water does not flow out through only one pipeline, the temperature channeling effect is avoided, and the drinking experience of the water purifier is enhanced. And the first water outlet channel pumps the water of the water storage device into the first water outlet channel through the first water suction pump respectively, and the second water outlet channel pumps the water of the water storage device into the second water outlet channel through the second water suction pump respectively, so that the water outlet flow of the faucet is increased. The waste water pipe is additionally arranged, so that water resources are fully utilized.

The water storage device comprises a water storage tank, the water storage tank is arranged to provide a storage space for pure water, water level change of water stored in the water storage tank is monitored in real time, and a water level detection assembly used for detecting water level of stored water is arranged in the water storage tank.

Furthermore, the water level detection assembly comprises a mechanical floating ball, a high water level switch and a low water level switch, the mechanical floating ball is arranged at the upper end of the inner wall of the water storage tank, the low water level switch is arranged relative to the lower part in the water storage tank, and the high water level switch is arranged relative to the upper part of the low water level switch. The low water level switch and the high water level switch arranged in the water storage tank control the lowest water level and the highest water level of water, so that the water in the water tank is kept in a water state, and the overflow of water is prevented. Still be provided with mechanical floater simultaneously, the setting of mechanical floater can prevent to lead to water to spill over when high water level switch inefficacy.

Further, a sterilization component is arranged in the water storage device. The sterilizing device is a UV sterilizing lamp, and can perform timed sterilization treatment on the purified water in the water storage device, so that the safety of drinking water is improved more effectively.

Further, the second water outlet path further comprises a first temperature sensor for detecting the temperature of water entering the second water outlet path, and the first temperature sensor is arranged between the second water suction pump and the water storage device. Through first temperature sensor's setting, the temperature of intaking in real time detection second play water route to it is long when subsequent heating element comes timely adjustment heating according to the temperature of intaking, further improves heating efficiency.

Furthermore, a second temperature sensor used for sensing the water temperature of the second water outlet path is arranged on the heating assembly. The second temperature sensor can detect the temperature of water in real time, and hot water coming out of the water faucet is ensured to be within a range set by a user.

Further, the water inlet valve further comprises a three-way ball valve, a second filter element assembly, a water inlet valve and a booster pump which are sequentially communicated, wherein the three-way ball valve is communicated with external raw water, and the booster pump is communicated with the water inlet.

Further, the first filter element assembly and the water storage device are communicated with each other to form a third filter element assembly, and a TDS probe is arranged between the first filter element assembly and the third filter element assembly. The TDS probe can monitor how many milligrams of soluble solids are dissolved in every 1 liter of water, and ensure the quality of the water.

Furthermore, the water in the second water outlet channel can generate steam after being heated, the existence of the steam can influence the speed and the flow of the hot water discharged from the water outlet end of the second water outlet channel, therefore, the water storage device is provided with an exhaust inlet for discharging the steam, the water outlet end of the second water outlet channel is provided with an exhaust outlet for discharging the steam, an exhaust pipe for flowing the steam is communicated between the exhaust inlet and the exhaust outlet, the steam can be timely discharged to the water storage device through the exhaust pipe, and the hot water in the second water outlet channel can be discharged more smoothly.

Furthermore, a flushing electromagnetic valve is arranged on the waste water pipe.

The working principle of the utility model is as follows:

external raw water enters the three-way ball valve, is filtered by the second filter element assembly, flows through the water inlet valve, is pumped into the water inlet of the first filter element assembly by the booster pump, flows into the third filter element assembly after flowing out of the pure water port through the pure water filtered by the first filter element assembly, and flows into the water storage device after being filtered by the third filter element assembly.

The water storage device is provided with a high water level switch and a low water level switch, the high water level switch and the low water level switch are both electrically connected with the electric control device, when the water level in the water storage tank is lower than the high water level, a signal is transmitted to the electric control device, and the water inlet valve and the booster pump are both started to work; when the water level in the water storage tank reaches a high level, a signal is transmitted to the electric control device, and the water inlet valve and the booster pump are both closed. When the electric control device detects that the water level in the water storage tank is lower than the low water level liquid level, the heating assembly and the second water pump do not work, and when the electric control device detects that the water storage tank is higher than the low water level liquid level, the heating assembly and the second water pump can work. In order to prevent the high water level switch from losing efficacy, a mechanical floating ball is further arranged, and the arrangement of the mechanical floating ball can prevent the high water level switch from losing efficacy and causing water overflow.

The pure water is divided into a first water outlet path and a second water outlet path after coming out of the water storage device, the first water outlet path and the second water outlet path are in a parallel mode and operate independently, wherein the first water outlet path is a normal-temperature water path, and the pure water is directly conveyed to a faucet through a first water suction pump after coming out of the water storage tank to start water outlet, so that normal-temperature water is discharged;

the second water outlet channel is a heating water channel, and pure water is delivered to the faucet to start water outlet after passing through the first temperature sensor, the second water suction pump, the heating assembly and the second temperature sensor in sequence after coming out of the water storage tank, so that hot water with different temperatures can be discharged.

The kitchen under type water purifier is provided with an electric control device, and all electric components of the kitchen under type water purifier are electrically connected with the electric control device. The faucet is provided with a control valve, a first water outlet channel and a second water outlet channel are arranged in the control valve, the first water outlet channel is communicated with the first water outlet channel, and the second water outlet channel is communicated with the second water outlet channel. In order to further improve the water using experience of a user, the water faucet is further provided with a control panel, and the user can select the functions of water outlet type, mode, flow and the like by controlling the control panel.

The utility model has the following beneficial effects:

1. be provided with the first water route of each other and the second water route of going out, wherein first water route is normal atmospheric temperature water, and the second water route is for heating water, and the hot water that provides different temperatures satisfies the demand of the different functions of user, avoids traditional hot and cold water to blend the mode, adds normal atmospheric temperature water and goes out the water route, makes normal atmospheric temperature water purification no longer only go out water through a pipeline, has avoided "scurrying the appearance of temperature" effect, and the drinking water of reinforcing purifier is experienced and is felt.

2. The first water outlet channel pumps the water of the water storage device into the first water outlet channel through the first water suction pump, and the second water outlet channel pumps the water of the water storage device into the second water outlet channel through the second water suction pump, so that the water outlet flow of the faucet is increased.

3. The waste water pipe is additionally arranged, so that water resources are fully utilized.

4. The exhaust pipe is additionally arranged, so that hot water in the second water outlet channel can be discharged more smoothly.

Drawings

Fig. 1 is a schematic structural diagram of a kitchen-under type water purifier according to an embodiment of the present invention.

Description of reference numerals:

three-way ball valve 1, second filter element assembly 2, water inlet valve 3, booster pump 4, first filter element assembly 5, TDS probe 6, third filter element assembly 7,

A water storage device 8, a water storage tank 81, a mechanical floating ball 82, a high water level switch 83, a low water level switch 84, a sterilizing device 85,

A first water outlet channel 9, a first water pump 91,

A second water outlet channel 10, a first temperature sensor 101, a second water pump 102, a heating component 103, a second temperature sensor 104,

Waste 11, flushing solenoid valve 12, tap 13, exhaust pipe 14, exhaust inlet 15, exhaust outlet 16.

Detailed Description

In order to make the technical solution, the purpose and the advantages of the present invention more apparent, the present invention will be further explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1, the under-kitchen water purifier comprises a first filter element assembly 5 and a water storage device 8, wherein the first filter element assembly 5 is provided with a water inlet, a pure water inlet and a waste water port, the water inlet is communicated with external raw water, the pure water inlet is communicated with a water inlet end of the water storage device 8, and the waste water port is connected with a waste water pipe 11; the water storage device also comprises a water tap 13, and a first water outlet channel 9 and a second water outlet channel 10 which are independent are arranged between the water tap 13 and the water storage device 8; the first water outlet channel 9 is provided with a first water suction pump 91; the second water outlet passage 10 is sequentially provided with a second water pump 102 and a heating element 103 from the water storage device 8 to the water tap 13.

The water purifier is provided with a waste water pipe 11, a water storage device 8, a first water outlet channel 9 and a second water outlet channel 10 which are mutually independent, wherein the first water outlet channel 9 is normal-temperature water, the second water outlet channel 10 is heating water, hot water with different water temperatures is provided to meet the requirements of different functions of users, the traditional cold and hot water blending mode is avoided, the normal-temperature water outlet channel is additionally arranged, normal-temperature purified water does not flow out through only one pipeline, the temperature channeling effect is avoided, and the drinking experience of the water purifier is enhanced. The first water outlet channel 9 pumps water in the water storage device 8 into the first water outlet channel 9 through the first water pump 91, and the second water outlet channel 10 pumps water in the water storage device 8 into the second water outlet channel 10 through the second water pump 102, so that the water outlet flow of the faucet 13 is increased. The waste water pipe 11 is additionally arranged, so that water resources are fully utilized.

The water storage device 8 comprises a water storage tank 81, the water storage tank 81 is set to be pure water to provide a storage space, water level change of water stored in the water storage tank 81 is monitored in real time, and a water level detection assembly used for detecting water level of stored water is arranged in the water storage tank 81. The water level detection assembly comprises a mechanical floating ball 82, a high water level switch 83 and a low water level switch 84, wherein the mechanical floating ball 82 is arranged at the upper end of the inner wall of the water storage tank 81, the low water level switch 84 is arranged at the lower part in the water storage tank 81, and the high water level switch 83 is arranged above the low water level switch 84. The low level switch 84 and the high level switch 83 provided inside the water storage tank 81 control the lowest and highest water levels of water, maintain the water state of the water storage tank and prevent the water from overflowing. Meanwhile, a mechanical floating ball 82 is arranged, and the arrangement of the mechanical floating ball 82 can prevent water from overflowing when the high water level switch 83 fails. And a sterilization component is arranged in the water storage device 8. This sterilizing equipment 85 is the UV bactericidal lamp, carries out regularly sterilization to the water purification in the water storage device 8, improves the safety of drinking water more effectively.

The second water outlet path 10 further comprises a first temperature sensor 101 for detecting the water inlet temperature of the second water outlet path 10, wherein the first temperature sensor 101 is arranged between the second suction pump 102 and the water storage device 8. Through the setting of first temperature sensor 101, the temperature of intaking in real time detection second play water route 10 to it is long that subsequent heating element 103 comes timely adjustment heating according to the temperature of intaking, further improves heating efficiency. The heating assembly 103 is provided with a second temperature sensor 104 for sensing the water temperature of the outlet water of the second water outlet channel 10. The second temperature sensor 104 can detect the temperature of water in real time, and ensure that the hot water coming out of the water tap 13 is within the range set by the user.

On the other hand, the water in the second water outlet channel 10 is heated to generate steam, and the existence of steam affects the speed and flow rate of the hot water discharged from the water outlet end of the second water outlet channel 10, for this reason, the water storage device 8 is provided with an exhaust inlet 15 for discharging steam, the water outlet end of the second water outlet channel 10 is provided with an exhaust outlet 16 for discharging steam, an exhaust pipe 14 for steam flowing is communicated between the exhaust inlet 15 and the exhaust outlet 16, the steam can be timely discharged to the water storage device through the exhaust pipe 14, and the hot water discharged from the second water outlet channel 10 is smoother.

Still including tee bend ball valve 1, second filter element group spare 2, water intaking valve 3 and the booster pump 4 that communicate in proper order, tee bend ball valve 1 and external raw water intercommunication, booster pump 4 and water inlet intercommunication. And a third filter element assembly 7 is communicated between the first filter element assembly 5 and the water storage device 8. A TDS probe 6 is arranged between the first filter element assembly 5 and the third filter element assembly 7. The TDS probe 6 can monitor how many milligrams of dissolved solids are dissolved in every 1 liter of water to ensure the quality of the water. And a flushing electromagnetic valve 12 is arranged on the waste water pipe 11.

Above-mentioned first filter element group spare 5 is the RO filter core, and second filter element group spare 2 is composite filter core, and third filter element group spare 7 is rearmounted filter core.

The working principle of the utility model is as follows:

external raw water enters the three-way ball valve 1, is filtered by the second filter element assembly 2 and then flows through the water inlet valve 3, and then is pumped into the water inlet of the first filter element assembly 5 by the booster pump 4, pure water filtered by the first filter element assembly 5 flows into the third filter element assembly 7 after flowing out from the pure water port, and the pure water flows into the water storage device 8 after being filtered by the third filter element assembly 7.

The water storage device 8 is provided with a high water level switch 83 and a low water level switch 84, the high water level switch 83 and the low water level switch 84 are both electrically connected with the electric control device, when the water level in the water storage tank 81 is lower than the high water level, a signal is transmitted to the electric control device, and the three-way ball valve 1, the water inlet valve 3 and the booster pump 4 are all started to work; when the water level in the water storage tank 81 reaches a high level, a signal is transmitted to the electric control device, and the three-way ball valve 1, the water inlet valve 3 and the booster pump 4 are all closed. When the electric control device detects that the water level in the water storage tank 81 is lower than the low water level, the heating assembly 103 and the second water pump 102 do not work, and when the electric control device detects that the water storage tank 81 is higher than the low water level, both the heating assembly 103 and the second water pump 102 can work. In order to prevent the high water level switch 83 from failing, a mechanical floating ball 82 is further arranged, and the arrangement of the mechanical floating ball 82 can prevent the water from overflowing when the high water level switch 83 fails.

The pure water is divided into a first water outlet channel 9 and a second water outlet channel 10 after coming out of the water storage device 8, the first water outlet channel 9 and the second water outlet channel 10 are in a parallel mode and operate independently, wherein the first water outlet channel 9 is a normal-temperature water channel, the pure water is directly conveyed to a faucet 13 through a first water suction pump 91 after coming out of the water storage tank 81, water outlet is started, and normal-temperature water is discharged;

the second water outlet channel 10 is a heating water channel, and pure water is delivered to the faucet 13 to start water outlet after passing through the first temperature sensor 101, the second water pump 102, the heating assembly 103 and the second temperature sensor 104 in sequence after coming out of the water storage tank 81, so that hot water with different temperatures can be discharged.

The kitchen under type water purifier is provided with an electric control device, and all electric components of the kitchen under type water purifier are electrically connected with the electric control device. The faucet 13 is provided with a control valve, a first water outlet channel and a second water outlet channel are arranged in the control valve, the first water outlet channel is communicated with the first water outlet channel 9, and the second water outlet channel is communicated with the second water outlet channel 10. In order to further improve the water consumption experience of the user, the water faucet 13 is further provided with a control panel, and the user can select the functions of water outlet type, mode, flow and the like by controlling the control panel.

The above description is only a preferred embodiment of the present invention, and those skilled in the art may still modify the described embodiment without departing from the implementation principle of the present invention, and the corresponding modifications should also be regarded as the protection scope of the present invention.

Claims (10)

1. A kitchen following formula purifier which characterized in that: the filter comprises a first filter element assembly (5) and a water storage device (8), wherein the first filter element assembly (5) is provided with a water inlet, a pure water port and a wastewater port, the water inlet is communicated with external raw water, the pure water port is communicated with a water inlet end of the water storage device (8), and the wastewater port is connected with a wastewater pipe (11); the water storage device is characterized by further comprising a water faucet (13), wherein a first water outlet channel (9) and a second water outlet channel (10) which are independent of each other are arranged between the water faucet (13) and the water storage device (8); the first water outlet channel (9) is provided with a first water suction pump (91); the second water outlet channel (10) is sequentially provided with a second water suction pump (102) and a heating component (103) from the water storage device (8) to the water faucet (13).

2. The under-kitchen water purifier of claim 1, wherein the water reservoir (8) comprises a water reservoir (81), and a water level detection element is disposed in the water reservoir (81) for detecting a water level of the stored water.

3. The under-kitchen water purifier of claim 2, wherein the water level detecting assembly comprises a mechanical float (82), a high level switch (83) and a low level switch (84), the mechanical float (82) is disposed at an upper end of an inner wall of the water storage tank (81), the low level switch (84) is disposed at a lower portion of the water storage tank (81), and the high level switch (83) is disposed above the low level switch (84).

4. The under-kitchen water purifier according to claim 1, wherein a sterilizing device (85) is disposed in the water storage device (8).

5. The under-kitchen water purifier according to claim 1, wherein the second water outlet circuit (10) further comprises a first temperature sensor (101) for detecting a temperature of inlet water of the second water outlet circuit (10), the first temperature sensor (101) being arranged between the second water pump (102) and the water storage device (8).

6. The under-kitchen water purifier of claim 1, wherein the heating element (103) is provided with a second temperature sensor (104) for sensing the temperature of the outlet water of the second water outlet channel (10).

7. The under-kitchen water purifier according to claim 1, further comprising a three-way ball valve (1), a second filter element assembly (2), a water inlet valve (3) and a booster pump (4) which are sequentially communicated, wherein the three-way ball valve (1) is communicated with external raw water, and the booster pump (4) is communicated with a water inlet.

8. The under-kitchen water purifier according to claim 1, wherein a third filter element assembly (7) is arranged in communication between the first filter element assembly (5) and the water storage device (8), and a TDS probe (6) is arranged between the third filter element assembly (7) and the first filter element assembly (5).

9. The under-kitchen water purifier according to claim 1, wherein the water storage device (8) is provided with an exhaust inlet (15) for discharging water vapor, the water outlet end of the second water outlet channel (10) is provided with an exhaust outlet (16) for discharging water vapor, and an exhaust pipe (14) for flowing water vapor is arranged between the exhaust inlet (15) and the exhaust outlet (16).

10. The under-kitchen water purifier according to claim 1, wherein the waste pipe (11) is provided with a flushing solenoid valve (12).

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