CN215208943U - Desk type water purifier - Google Patents

Abstract

The utility model relates to a desk-top purifier, include: a water tank assembly; the water inlet of the first electromagnetic valve is communicated with a water outlet of the water tank assembly through a pipeline; the water outlet of the first electromagnetic valve is communicated with the water inlet of the water pump through a pipeline; the other water outlet of the first electromagnetic valve is communicated with a water inlet of the pure water heating pipeline assembly through a pipeline, the pure water heating pipeline assembly comprises a first connecting pipeline, and the pure water heating pipeline assembly is communicated with the water suction pump through the first connecting pipeline; the water outlet of the water pump is communicated with the water inlet of the heating mechanism, and the water outlet of the pure water heating pipeline assembly is communicated with the water inlet of the heating mechanism; the other water outlet of the pure water heating pipeline component and the water outlet of the heating mechanism are communicated with the water inlet of the water outlet nozzle. The utility model discloses can realize heating raw water and pure water respectively.

Description

Desk type water purifier

Technical Field

The utility model relates to a purifier technical field especially relates to a desk-top purifier.

Background

The water purifier is water treatment equipment for deeply filtering and purifying water according to the use requirement of the water. The water purifier is generally used as a small purifier for household use.

The water purifiers can be divided into two categories of gradually-tightening water purifiers and self-cleaning water purifiers according to the design grade of pipelines. The traditional water purifier is a gradually-tightened water purifier, and the inner pipeline of the traditional water purifier is provided with a filter element which is loose in front and tight in back; the other type is a more advanced self-cleaning water purifier, two channels are designed in the water purifier, a washing water passage is added, washing water used as common domestic water washes an in-machine filter element, particularly the raw water side of a membrane filter element when passing through the passage so as to achieve the self-cleaning effect, and the intercepted dirt is timely and quickly discharged by utilizing the water which flows from the head section to the tail section at the moment of opening and closing a washing faucet.

In the existing water purifier, the speed of normal-temperature concentrated water passing through a reverse osmosis membrane is low, so that the water outlet speed is low, for example, in the case of making tea in winter, the water outlet speed is low, and the water falling into a cup is lower than 100 ℃ due to heat dissipation in the falling process, so that the water purifier is not favorable for drinking tea;

meanwhile, the conventional water purifier usually heats the filtered pure water at the normal temperature, and when heating, the water needs to be heated to 100 ℃ from the normal temperature, and the power of the conventional water purifier is 2200W, so that only 400 plus 500ml of water can be discharged under normal conditions, and the speed of the 400 plus 500ml of water cannot be well met in cold seasons.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the current water purifier can not heat raw water and pure water respectively.

The utility model discloses a following technical means realizes solving above-mentioned technical problem:

a desktop water purifier, comprising:

a water tank assembly;

the water inlet of the first electromagnetic valve is communicated with a water outlet of the water tank assembly through a pipeline;

the water outlet of the first electromagnetic valve is communicated with the water inlet of the raw water heating pipeline through a pipeline, and the raw water heating pipeline is communicated with a water suction pump;

the other water outlet of the first electromagnetic valve is communicated with a water inlet of the pure water heating pipeline assembly through a pipeline, the pure water heating pipeline assembly comprises a first connecting pipeline, and the pure water heating pipeline assembly is communicated with a water suction pump through the first connecting pipeline and the raw water heating pipeline in a matching mode;

the water outlet of the water pump is communicated with the water inlet of the heating mechanism to heat the raw water and the pure water;

and the water outlet of the pure water heating pipeline assembly and the water outlet of the heating mechanism are communicated with the water inlet of the water outlet nozzle.

Raw water in the water tank assembly flows into the raw water heating pipeline and the pure water heating pipeline assembly through the first electromagnetic valve, flows into a water inlet of the heating mechanism through a water outlet of the water suction pump, so that the raw water and the pure water are heated, and the heated pure water or the raw water flows out through a water outlet nozzle;

and in the case of pure water without heating, the pure water can directly flow to the water outlet nozzle through the pure water heating pipeline component.

Raw water in the water tank set spare flows to the suction pump and the pure water heating pipeline subassembly through first solenoid valve in, the delivery port of suction pump is linked together with the water inlet of heating mechanism and is realized the raw water heating, and the delivery port of pure water heating pipeline subassembly is linked together with the water inlet of heating mechanism and realizes the pure water heating, flows through the faucet, and under the condition that does not need the heating to the pure water, can directly flow to faucet department through the pure water heating pipeline subassembly.

As a further aspect of the present invention: the water inlet of the second connecting pipeline is communicated with a water outlet of the heating mechanism, and the water outlet of the second connecting pipeline is communicated with the water inlet of the water tank assembly.

As a further aspect of the present invention: the water tank component comprises a raw water tank and a concentrated water tank, wherein the concentrated water tank is arranged at the bottom of the raw water tank, a water outlet is formed in the bottom of the raw water tank, and a water inlet is formed in the bottom of the concentrated water tank.

As a further aspect of the present invention: the raw water heating pipeline delivery port with first connecting pipeline is linked together, just the delivery port of first connecting pipeline is linked together with a water inlet of suction pump, the delivery port and the heating mechanism of suction pump are linked together.

As a further aspect of the present invention: the raw water heating pipeline delivery port is linked together with the water inlet of suction pump, the delivery port of suction pump is linked together with heating mechanism's water inlet, the delivery port and the raw water heating pipeline of first pipeline are linked together.

As a further aspect of the present invention: the pure water heating pipeline component further comprises a self-priming pump, a composite filter element device, a reverse osmosis membrane filter element device, a pure water box and a third electromagnetic valve, wherein the water inlet of the self-priming pump is communicated with another water outlet of the first electromagnetic valve through a pipeline, the water outlet of the self-priming pump is communicated with the composite filter element device through a pipeline, the composite filter element device and the reverse osmosis membrane filter element device are connected in series, a water outlet in the top of the reverse osmosis membrane filter element device is communicated with the top of the pure water box through a pipeline, the bottom of the pure water box is communicated with the water inlet of the first connecting pipeline, the top of the pure water box is also communicated with the third electromagnetic valve through a pipeline, and the water outlet and a water outlet nozzle of the third electromagnetic valve are communicated.

As a further aspect of the present invention: the water purification device is characterized in that a UV (ultraviolet) germicidal lamp is arranged on one side of the bottom of the water purification tank, the top of the water purification tank is fixedly connected with the upper end of the water level floating ball, and a first water temperature sensor and a second water temperature sensor are fixed on the inner wall and the top of the water purification tank in a bolt or screw mode.

As a further aspect of the present invention: the heating mechanism comprises a silicon controlled device, a heating box body and a second electromagnetic valve, wherein a water inlet of the heating box body is communicated with a water outlet of the water suction pump, the silicon controlled device is arranged on a pipeline communicated with the heating box body and the water suction pump, a water outlet of the heating box body is communicated with a water inlet of the second electromagnetic valve, and a water outlet of the second electromagnetic valve is communicated with a water outlet nozzle.

As a further aspect of the present invention: the combined flushing valve is characterized by further comprising a combined flushing valve, a water inlet of the combined flushing valve is communicated with the other water outlet of the second electromagnetic valve, a water outlet of the combined flushing valve is communicated with a water inlet of the concentrated water tank, and a one-way valve is arranged on the combined flushing valve to prevent water in the concentrated water tank from flowing back.

The utility model has the advantages that:

1. in the utility model, the raw water in the water tank component flows into the raw water heating pipeline and the pure water heating pipeline component through the first electromagnetic valve, flows into the water inlet of the heating mechanism through the water outlet of the water pump, so as to heat the raw water and the pure water, and the heated pure water or the raw water flows out through the water outlet nozzle;

and in the case of pure water without heating, the pure water can directly flow to the water outlet nozzle through the pure water heating pipeline component.

2. In the utility model, the raw water is heated, and the heated raw water returns to the concentrated water tank and then enters the composite filter element device and the reverse osmosis membrane filter element device through the first electromagnetic valve, because the temperature of the concentrated water passing through the reverse osmosis membrane filter element device is higher, the filtering speed is increased, and the pure water outlet speed of the water outlet nozzle is further improved;

the concentrated water after the while heating becomes the pure water through filtering, and the pure water temperature at this moment is higher than the normal atmospheric temperature, when heating the pure water that is higher than the normal atmospheric temperature once more, can heat to 100 ℃ (compare among the prior art from the normal atmospheric temperature state under the speed of heating to 100 degrees centigrade obviously promote), can improve out the hot water speed better.

3. The utility model discloses can realize preheating the pure water, the water after preheating reheating to 100 degrees centigrade speed can increase, like this under the cold season condition, the faucet also can go out water fast, better local person of facilitating the use drinking water.

Drawings

Fig. 1 is a schematic pipeline diagram of a desktop water purifier according to an embodiment of the present invention.

1. A water tank assembly; 101. a raw water tank; 102. a concentrated water tank;

2. a first solenoid valve;

3. a raw water heating pipeline;

301. a water pump;

4. a pure water heating pipeline assembly; 401. a self-priming pump; 402. a composite filter element device; 403. a reverse osmosis membrane filter element device; 404. a pure water tank; 4041. a UV germicidal lamp 4042 and a water level floating ball; 405. a first connecting pipe; 406. a third electromagnetic valve;

5. a heating mechanism; 501. a silicon controlled device; 502. a second solenoid valve; 503. a second solenoid valve;

6. a water outlet nozzle;

7. a second connecting pipe;

8. a combination flush valve.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1

Referring to fig. 1, fig. 1 is a schematic pipeline schematic diagram of a desktop water purifier according to an embodiment of the present invention, including:

a water tank assembly 1;

a water inlet of the first electromagnetic valve 2 is communicated with a water outlet of the water tank assembly 1 through a pipeline;

the water outlet of the first electromagnetic valve 2 is communicated with the water inlet of the raw water heating pipeline 3 through a pipeline, and the raw water heating pipeline 3 is communicated with the water pump 301;

the pure water heating pipeline assembly 4 is characterized in that the other water outlet of the first electromagnetic valve 2 is communicated with a water inlet of the pure water heating pipeline assembly 4 through a pipeline, the pure water heating pipeline assembly 4 comprises a first connecting pipeline 405, and the pure water heating pipeline assembly 4 is communicated with the water suction pump 301 through the first connecting pipeline 405 and the raw water heating pipeline 3 in a matching mode;

the water outlet of the water pump 301 is communicated with the water inlet of the heating mechanism 5 to heat pure water and raw water;

and the water outlet of the pure water heating pipeline component 4 and the water outlet of the heating mechanism 5 are communicated with the water inlet of the water outlet nozzle 6.

Raw water in the water tank set spare 1 flows to raw water heating pipeline 3 and pure water heating pipeline subassembly 4 through first solenoid valve 2 in, and the delivery port through suction pump 301 flows into the water inlet of heating mechanism 5, realizes raw water, pure water heating, and pure water or raw water after the heating flow out through faucet 6, and under the condition that does not need the heating to the pure water, can directly flow to faucet 6 department through pure water heating pipeline subassembly 4.

Further, the scheme of this embodiment still includes second connecting tube 7, the water inlet of second connecting tube 7 is linked together with another delivery port of heating mechanism 5, the delivery port of second connecting tube 7 is linked together with the water inlet of water tank set spare 1, realizes the recovery to dense water.

It can be understood that, in order to prevent the heated raw water from flowing into the water tank assembly 1, a check valve is disposed in the middle of the pipe connecting the second connecting pipe 7 and the water tank assembly 1 to prevent the heated raw water from flowing back to the heating mechanism 5.

As one scheme of the embodiment of the present disclosure, the water tank assembly 1 includes a raw water tank 101 and a thick water tank 102, wherein the thick water tank 102 is disposed at the bottom of the raw water tank 101, a water outlet is disposed at the bottom of the raw water tank 101, and a water inlet is disposed at the bottom of the thick water tank 102.

Raw water can flow to the first electromagnetic valve 2 through the water outlet, while concentrated water generated by filtering the pure water heating pipeline assembly 4 can flow to the concentrated water tank 102 through the water outlet nozzle 6, and the heated raw water can also flow back to the concentrated water tank 102.

As one solution disclosed in this embodiment, a water inlet of the raw water pipeline 3 is communicated with a water outlet of the first electromagnetic valve 2, a water outlet of the raw water pipeline 3 is communicated with the first connecting pipeline 405, a water outlet of the first connecting pipeline 405 is communicated with a water inlet of the water pump 301, a check valve is arranged on the first connecting pipeline 405 to prevent water from flowing back to the pure water heating pipeline assembly 4, and a check valve is also arranged on the raw water pipeline 3 to prevent raw water from flowing back to the first electromagnetic valve 2; raw water flows to the heating mechanism 5 through the first electromagnetic valve 2, the raw water pipeline 3 and the water pump 301 to realize heating of the raw water, and pure water flows to the heating mechanism 5 through the first connecting pipeline 405 and the water pump 301 to realize heating of the pure water.

As another scheme of the embodiment of the present disclosure, the water inlet of the raw water pipeline 3 is communicated with the water outlet of the first electromagnetic valve 2, the water outlet of the raw water pipeline 3 is communicated with the water inlet of the water pump 301, the water outlet of the water pump 301 is communicated with the water inlet of the heating mechanism 5, the water outlet of the first pipeline 405 is communicated with the raw water pipeline 3, and the raw water pipeline 3 and the first pipeline 405 are also respectively provided with a check valve to prevent backflow, so that heating of pure water and raw water can be realized at this time.

In the embodiment of the present disclosure, the pure water heating pipeline assembly 4 further includes a self-priming pump 401, a composite filter element device 402, a reverse osmosis membrane filter element device 403, a pure water tank 404 and a third electromagnetic valve 406, a water inlet of the self-priming pump 401 is communicated with another water outlet of the first electromagnetic valve 2 through a pipeline, a water outlet of the self-priming pump 401 is communicated with the composite filter element device 402 through a pipeline, the composite filter element device 402 and the reverse osmosis membrane filter element device 403 are connected in series, a water outlet at the top of the reverse osmosis membrane filter element device 403 is communicated with the top of the pure water tank 404 through a pipeline, the bottom of the pure water tank 404 is communicated with a water inlet of the first connecting pipeline 405, the top of the pure water tank 404 is further communicated with the third electromagnetic valve 406 through a pipeline, and a water outlet of the third electromagnetic valve 406 is communicated with the water outlet nozzle 6.

Further, an UV (Ultraviolet) germicidal lamp 4041 is installed at one side of the bottom of the pure water tank 404, the top of the pure water tank 404 is connected to the upper end of the water level float 4042 by means of bolts or screws, and a first water temperature sensor and a second water temperature sensor (not shown) are fixed to the inner wall and the top of the pure water tank 404 by means of bolts or screws.

The heating mechanism 5 comprises a silicon controlled device 501, a heating box body 502 and a second electromagnetic valve 503, wherein a water inlet of the heating box body 502 is communicated with a water outlet of the raw water heating pipeline 3, the silicon controlled device 501 is fixedly arranged on a pipeline communicated with the heating box body 502 and the raw water heating pipeline 3 through bolts or screws and the like, a water outlet of the heating box body 502 is communicated with a water inlet of the second electromagnetic valve 503, and a water outlet of the second electromagnetic valve 503 is communicated with a water outlet nozzle 6.

Heating resistance wires are arranged inside the heating box body 502, water is heated through the heating resistance wires, and temperature sensors are fixedly arranged on the inner walls of the bottom and the top of the heating box body 502 in a bolt or screw mode.

It should be noted that the utility model discloses do not improve heating box 502 inner structure, concrete settings such as heating box 502's internal heating resistance wire are not the utility model discloses an within the protection scope, and this heating box 502 can be the same with the heating structure of conventional water purifier on the market.

In addition, the embodiment of the present disclosure further includes a combined flushing valve 8, a water inlet of the combined flushing valve 8 is communicated with another water outlet of the second electromagnetic valve 503, a water outlet of the combined flushing valve 8 is communicated with a water inlet of the thick water tank 102, and a check valve is disposed on a pipeline connecting the combined flushing valve 8 and the thick water tank 102 to prevent water in the thick water tank 102 from flowing back to the combined flushing valve 8.

The working principle is as follows: raw water in the water tank assembly flows into the water suction pump and the pure water heating pipeline assembly through the first electromagnetic valve, a water outlet of the water suction pump is communicated with a water inlet of the heating mechanism to heat the raw water, a water outlet of the pure water heating pipeline assembly is communicated with a water inlet of the heating mechanism to heat the pure water, the pure water flows out through the water outlet nozzle, and the pure water can directly flow to the water outlet nozzle through the pure water heating pipeline assembly under the condition that the pure water is not required to be heated;

raw water can flow to the first electromagnetic valve through the water outlet, concentrated water generated by filtering the pure water heating pipeline assembly can flow into the concentrated water tank through the water outlet nozzle, the heated raw water can also flow back into the concentrated water tank, and the heated raw water and the concentrated water can be mixed and then recycled.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (9)

1. A desktop water purifier, comprising:

a water tank assembly (1);

the water inlet of the first electromagnetic valve (2) is communicated with a water outlet of the water tank assembly (1) through a pipeline;

the water outlet of the first electromagnetic valve (2) is communicated with the water inlet of the raw water heating pipeline (3) through a pipeline, and the raw water heating pipeline (3) is communicated with a water suction pump (301);

the water pump comprises a pure water heating pipeline assembly (4), wherein the other water outlet of the first electromagnetic valve (2) is communicated with a water inlet of the pure water heating pipeline assembly (4) through a pipeline, the pure water heating pipeline assembly (4) comprises a first connecting pipeline (405), and the pure water heating pipeline assembly (4) is communicated with a water suction pump (301) through the first connecting pipeline (405) and a raw water heating pipeline (3) in a matching mode;

the water outlet of the water pump (301) is communicated with the water inlet of the heating mechanism (5) to heat raw water and pure water;

and the water outlet of the pure water heating pipeline component (4) and the water outlet of the heating mechanism (5) are communicated with the water inlet of the water outlet nozzle (6).

2. The desktop water purifier according to claim 1, further comprising a second connecting pipe (7), wherein a water inlet of the second connecting pipe (7) is communicated with another water outlet of the heating mechanism (5), and a water outlet of the second connecting pipe (7) is communicated with a water inlet of the water tank assembly (1).

3. The desktop water purifier as claimed in claim 2, wherein the water tank assembly (1) comprises a raw water tank (101) and a concentrated water tank (102), wherein the concentrated water tank (102) is disposed at the bottom of the raw water tank (101), a water outlet is opened at the bottom of the raw water tank (101), and a water inlet is opened at the bottom of the concentrated water tank (102).

4. The desktop water purifier according to claim 1, wherein the outlet of the raw water heating pipeline (3) is communicated with the first connecting pipeline (405), the outlet of the first connecting pipeline (405) is communicated with an inlet of the water pump (301), and the outlet of the water pump (301) is communicated with the heating mechanism (5).

5. The desktop water purifier according to claim 1, wherein the outlet of the raw water heating pipeline (3) is communicated with the inlet of the water pump (301), the outlet of the water pump (301) is communicated with the inlet of the heating mechanism (5), and the outlet of the first pipeline (405) is communicated with the raw water heating pipeline (3).

6. The desktop water purifier as claimed in claim 1, wherein the pure water heating pipeline assembly (4) further comprises a self-priming pump (401), a composite filter element device (402), a reverse osmosis membrane filter element device (403), a pure water tank (404), and a third electromagnetic valve (406), wherein a water inlet of the self-priming pump (401) is communicated with another water outlet of the first electromagnetic valve (2) through a pipeline, a water outlet of the self-priming pump (401) is communicated with the composite filter element device (402) through a pipeline, the composite filter element device (402) and the reverse osmosis membrane filter element device (403) are connected in series, a water outlet at the top of the reverse osmosis membrane filter element device (403) is communicated with the top of the pure water tank (404) through a pipeline, the bottom of the pure water tank (404) is communicated with a water inlet of a first connecting pipeline (405), and the top of the pure water tank (404) is further communicated with the third electromagnetic valve (406) through a pipeline, the water outlet of the third electromagnetic valve (406) is communicated with the water outlet nozzle (6).

7. The desktop water purifier as claimed in claim 6, wherein a UV germicidal lamp (4041) is installed at one side of the bottom of the pure water tank (404), the top of the pure water tank (404) is fixedly connected to the upper end of the water level float ball (4042), and a first water temperature sensor and a second water temperature sensor are further fixed on the inner wall and the top of the pure water tank (404).

8. The desktop water purifier according to claim 3, wherein the heating mechanism (5) comprises a thyristor device (501), a heating box (502) and a second electromagnetic valve (503), a water inlet of the heating box (502) is communicated with a water outlet of the water pump (301), the thyristor device (501) is arranged on a pipeline communicated with the heating box (502) and the water pump (301), the water outlet of the heating box (502) is communicated with a water inlet of the second electromagnetic valve (503), and a water outlet of the second electromagnetic valve (503) is communicated with the water outlet nozzle (6).

9. The desktop water purifier as claimed in claim 8, further comprising a combined flushing valve (8), wherein the water inlet of the combined flushing valve (8) is communicated with the other water outlet of the second electromagnetic valve (503), the water outlet of the combined flushing valve (8) is communicated with the water inlet of the concentrated water tank (102), and a one-way valve is arranged on the pipeline connecting the combined flushing valve (8) and the concentrated water tank 102 to prevent the water in the concentrated water tank (102) from flowing back.

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