CN211609275U - Intelligent non-pressure heat exchange boiled water drinking equipment - Google Patents

Abstract

The utility model relates to an intelligence non-pressure heat exchange boiling water drinking water equipment. The water heater comprises a water inlet pipeline, a heating water tank, a heat exchange water tank, a warm boiled water outlet pipeline, a boiled water outlet valve and a boiled water outlet pipeline, wherein a heating device is arranged in the heating water tank, a heat exchange coil, a water pump and the warm boiled water outlet valve are sequentially arranged on the warm boiled water outlet pipeline according to the warm boiled water outlet direction, the heat exchange coil is arranged in the heat exchange water tank, and a first water inlet and a first water outlet on the heat exchange water tank are connected in series on the water inlet pipeline. The utility model discloses an in the boiling water of heating water tank entered the heat exchange coil, meanwhile, the running water entered into the heat exchange water tank in, consequently, the boiling water carried out the heat transfer with the running water in the heat exchange water tank through the heat exchange coil to the realization preheats the running water, improves heating efficiency, and the temperature decline of the boiling water of heat exchange coil simultaneously becomes warm boiled water. Therefore, the utility model discloses can provide boiling water and warm boiled water, the utility model discloses can satisfy the user to hydrothermal multiple demand.

Description

Intelligent non-pressure heat exchange boiled water drinking equipment

Technical Field

The utility model relates to a drinking water equipment's technical field, in particular to intelligence non-pressure heat exchange boiling water drinking water equipment.

Background

The water dispenser is widely applied to the life of people, but when in use, the following problems can be encountered: the existing drinking equipment can only provide tap water or boiled water, the tap water is not boiled and is unhealthy, while the boiled water is drunk, some people choose to place the boiled water for gradual cooling when wanting to drink warm water, but the method is time-consuming, and people can drink the tap water with hot water, although the people with poor physical quality can drink the warm water quickly, the people are easy to get ill. Therefore, the existing water dispenser can not provide warm water and can not meet different requirements of users on hot water.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can improve heating efficiency and provide warm boiled water's intelligent non-pressure heat exchange boiling water drinking water equipment.

The purpose of the utility model is realized like this:

the utility model provides an intelligence non-pressure heat exchange boiling water drinking equipment, includes water intake pipe, heating water tank, heat exchange water tank, warm boiled water outlet pipe way, boiling water outlet valve and boiling water outlet pipe way, be equipped with heating device in the heating water tank, heating water tank and water intake pipe intercommunication, heating water tank and boiling water outlet pipe way intercommunication, warm boiled water outlet pipe way and heating water tank intercommunication, warm boiled water outlet pipe is provided with heat exchange coil, water pump and warm boiled water outlet valve according to warm boiled water play water direction on the road, heat exchange coil locates in the heat exchange water tank, be provided with first water inlet and first delivery port on the heat exchange water tank, first water inlet and first delivery port on the heat exchange water tank establish ties on the water intake pipe way, first water inlet on the heat exchange water tank is connected with the inlet tube, be equipped with. The utility model discloses a boiling water that heating water tank heating is good enters into in the heat exchange coil, meanwhile, the running water enters into in the heat exchange water tank through the inlet tube, consequently, the boiling water carries out the heat transfer with the running water in the heat exchange water tank through the heat exchange coil to the realization preheats the running water, improves heating efficiency, saves the electric energy, after the boiling water heat transfer in the heat exchange coil simultaneously, the temperature drop becomes the warm boiled water that can directly drink. Therefore, the utility model discloses can provide boiling water and warm boiled water, the utility model discloses can satisfy the user to hydrothermal multiple demand.

The utility model can be further improved as follows.

The top of the heating water tank is provided with an exhaust port, the heating water tank is provided with a vent pipe, the top end of the vent pipe is communicated with the top of the heating water tank, and the bottom end of the vent pipe is communicated with the heat exchange coil. The gas vent can be discharged the steam that produces in the heating water tank, and the permeability cell can be with the steam discharge to the heating water tank in the heat transfer coil to reduced heating water tank and heat transfer coil's pressure, the heat transfer coil of also being convenient for simultaneously intakes.

The water inlet control valve is a water inlet electromagnetic valve and/or a throttle valve. The water inlet electromagnetic valve and the throttle valve are used for controlling the water inlet pipe to enter water or stopping water inlet, and the throttle valve is used for controlling the water pressure of the heat exchange water tank.

The heating water tank is provided with a second water inlet and a second water outlet, the second water inlet of the heating water tank is communicated with the water inlet pipeline, the second water outlet of the heating water tank is communicated with the boiled water outlet pipeline, and the warm boiled water outlet pipeline is communicated with the boiled water outlet pipeline. Therefore, the heating water tank of the utility model only needs to be provided with a second water outlet, the boiled water outlet pipeline is communicated with the warm boiled water outlet pipeline, partial pipelines are omitted, the structure is simple, the production cost is low, and the production is easy.

The tail end of the boiled water outlet pipeline is connected with the tail end of the warm boiled water outlet pipeline in parallel, and a water outlet is arranged. The utility model discloses only need set up a water export, the water export is linked together with boiling water outlet pipe way, warm boiled water outlet pipe way, and the water export can export boiling water or warm boiled water, consequently the utility model discloses left out partial pipeline, simple structure, low in production cost, production are easy.

The tail end of the boiled water outlet pipeline is correspondingly provided with a boiled water outlet valve which is provided with a boiled water outlet, and the tail end of the boiled water outlet pipeline is correspondingly provided with a warm boiled water outlet valve which is provided with a warm boiled water outlet.

The heat exchange coil is connected in series on a warm boiled water outlet pipeline.

And the first water outlet of the heat exchange water tank is communicated with the second water inlet of the heating water tank through a water inlet pipeline.

The warm boiled water outlet valve and the boiled water outlet valve are electromagnetic valves or manual valves.

The heat exchange coil is in a snake shape or a spiral shape, so that the heat exchange area of the heat exchange coil is increased, and the heat exchange efficiency is effectively improved.

The water heater is characterized in that a high water level electrode, a low water level electrode and a temperature probe are arranged in the heating water tank, the temperature probe is used for detecting the water temperature in the heating water tank, and the high water level electrode and the low water level electrode are used for detecting the water level in the heating water tank.

The heating water tank is characterized in that the top and the bottom of the heating water tank are respectively provided with an air outlet and a sewage draining outlet, steam generated in the heating water tank is drained through the air outlet, so that the pressure of the heating water tank is reduced, and the sewage draining outlet is used for draining away dirt at the bottom of the heating water tank.

The top of heating water tank is located to heating water tank's second water inlet, be equipped with the extension pipe on the second water inlet, the upper end and the water intake pipe intercommunication of extension pipe, the lower extreme of extension pipe extends to heating water tank's bottom, the extension pipe guides the running water to heating water tank bottom to avoid boiling water and running water to mix.

The utility model has the advantages as follows:

the utility model discloses an utilize heat exchange water tank to make running water and boiling water carry out the heat exchange to the realization preheats the running water, improves heating efficiency, saves the electric energy, and the boiling water after the boiling simultaneously is handled through heat exchange water tank and is become the warm water that can directly drink. Therefore, the utility model discloses can provide boiling water and warm boiled water, the utility model discloses can satisfy the user to hydrothermal multiple demand. The utility model solves the defect that the traditional water dispenser can not provide warm boiled water, and the warm boiled water of the utility model can be drunk when being boiled and is convenient to use.

(two) in addition, the utility model discloses a permeability cell can be discharged the steam in the heat exchange coil pipe to reduced heat exchange coil pipe's pressure, the heat exchange coil pipe of also being convenient for simultaneously intakes.

And (III) the water pump of the utility model rapidly conveys warm boiled water in the heat exchange water tank to the warm boiled water electromagnetic valve, thereby effectively improving the heat exchange efficiency of the heat exchange water tank.

Drawings

Fig. 1 is a schematic structural view of an intelligent non-pressure heat exchange water boiling and drinking device in an embodiment of the present invention. (the solid arrows in FIG. 1 indicate the direction of water flow).

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

In the first embodiment, as shown in fig. 1, an intelligent non-pressure heat exchange boiled water drinking device includes an electronic control module 25, a water inlet pipeline 3, a heating water tank 1, a heat exchange water tank 2, a boiled water outlet valve 5, a boiled water outlet pipeline 4, and a warm boiled water outlet pipeline 40, a heating device 7 is disposed in the heating water tank 1, the heating water tank 1 is communicated with the water inlet pipeline 3, the heating water tank 1 is communicated with the boiled water outlet pipeline 4, the warm boiled water outlet pipeline 40 is communicated with the heating water tank 1, a heat exchange coil 20, a water pump 23, and a warm boiled water outlet valve 6 are sequentially disposed on the warm boiled water outlet pipeline 40 in a warm boiled water outlet direction, and the heat exchange coil 20 is disposed in the heat exchange water tank. The heat exchange water tank 2 is provided with a first water inlet 21 and a first water outlet 22, and the first water inlet 21 and the first water outlet 22 on the heat exchange water tank 2 are connected in series on the water inlet pipeline 3. The first water inlet 21 on the heat exchange water tank 2 is connected with a water inlet pipe 8, and a water inlet control valve 91 is arranged on the water inlet pipe 8.

As a more specific technical solution of the present invention.

The top of the heating water tank 1 is provided with an exhaust port 13, the heating water tank 1 is provided with a vent pipe 14, the top end of the vent pipe 14 is communicated with the top of the heating water tank 1, and the bottom end of the vent pipe 14 is communicated with the heat exchange coil 20.

The water inlet control valve 91 is a water inlet solenoid valve 9 and/or a throttle valve 10.

The heat exchange coil 20 is connected in series to the warm boiled water outlet pipeline 40.

The heating water tank 1 is provided with a second water inlet 11 and a second water outlet 12, the second water inlet 11 of the heating water tank is communicated with the water inlet pipeline 3, the second water outlet 12 of the heating water tank 1 is communicated with the boiled water outlet pipeline 4, and the warm boiled water outlet pipeline 40 is communicated with the boiled water outlet pipeline 4.

The first water outlet 22 of the heat exchange water tank 2 is communicated with the second water inlet 11 of the heating water tank 1 through the water inlet pipeline 3.

A third water inlet 27 is arranged at one end of the heat exchange water tank 2 corresponding to the heat exchange coil 20, and a third water outlet 26 is arranged at the other end of the heat exchange water tank 2 corresponding to the heat exchange coil 20. The third water inlet 27 of the heat exchange water tank 2 is communicated with the boiled water outlet pipeline 4, and the third water outlet 26 of the heat exchange water tank 2 is communicated with the warm boiled water outlet valve 6.

The end of the boiled water outlet pipeline 4 is connected with the end of the warm water outlet pipeline 40 in parallel, and is provided with a water outlet 24. Certainly, the utility model can also be designed such that the end of the boiled water outlet pipeline 4 is correspondingly provided with a boiled water outlet valve 5 and a boiled water outlet (not shown in the figure), and the end of the boiled water outlet pipeline 4 is correspondingly provided with a warm boiled water outlet valve 6 and a warm boiled water outlet (not shown in the figure).

The heat exchange water tank 2 is positioned below the second water outlet 12 on the heating water tank 1.

The warm boiled water outlet valve 6 and the boiled water outlet valve 5 are electromagnetic valves or manual valves.

The heat exchange coil 20 is serpentine or helical in shape.

A high water level electrode 15, a low water level electrode 16 and a temperature probe 17 are arranged in the heating water tank 1.

The top and the bottom of the heating water tank 1 are respectively provided with an exhaust port 13 and a sewage outlet 18.

The top of heating water tank 1 is located to second water inlet 11, be equipped with extension pipe 19 on the second water inlet 11, the upper end and the inlet channel 3 intercommunication of extension pipe 19, the lower extreme of extension pipe 19 extends to the bottom of heating water tank 1.

The electric control module 25 is used for controlling the operation of the whole drinking water equipment, and the electric control module 25 is respectively electrically connected with the high water level electrode 15, the low water level electrode 16, the temperature probe 17, the warm boiled water outlet valve 6, the water pump 23 and the boiled water outlet valve 5.

The utility model discloses a theory of operation is:

the utility model discloses the during operation, the running water passes through in the inlet channel gets into heat exchange water tank, meanwhile, water in the heating device heating water tank, the running water in the heating water tank is heated to the boiling, become the boiling water, and the water level in the heating water tank rises, the boiling water of heating water tank spills over the second delivery port of heating water tank, the boiling water of heating water tank divides water outlet pipe way 4 and the two way outputs of warm boiled water outlet pipe way 40, the boiling water of boiling water outlet pipe way 4 is carried toward boiling water outlet valve 5, electronic control module 25 controls boiling water outlet valve 5 and opens (perhaps the user is manual to be opened), 24 output boiling waters of water export.

Boiled water in the warm boiled water outlet pipeline 40 is conveyed to a heat exchange coil in the heat exchange water tank, the boiled water exchanges heat with tap water in the heat exchange water tank, after heat exchange, the temperature of the tap water in the heat exchange water tank rises, the temperature of the boiled water in the heat exchange coil drops to become warm boiled water, then the water pump pumps water, the warm boiled water continuously flows to the warm boiled water outlet valve 6, the electric control module 25 controls the warm boiled water outlet valve 6 to be opened (or manually opened by a user), and the water outlet 24 outputs the warm boiled water.

Therefore, the utility model discloses can realize preheating the running water, improve heating efficiency, save the electric energy, can make the boiling water cooling become warm boiling water again, satisfy user's water demand.

Claims (10)

1. An intelligent non-pressure heat exchange boiled water drinking device comprises a water inlet pipeline, a heating water tank, a boiled water outlet valve and a boiled water outlet pipeline, a heating device is arranged in the heating water tank, the heating water tank is communicated with the water inlet pipeline, the heating water tank is communicated with the boiled water outlet pipeline, it is characterized by also comprising a warm boiled water outlet pipeline and a heat exchange water tank, wherein the warm boiled water outlet pipeline is communicated with the heating water tank, the warm boiled water outlet pipeline is successively provided with a heat exchange coil, a water pump and a warm boiled water outlet valve according to the warm boiled water outlet direction, the heat exchange coil is arranged in the heat exchange water tank, the heat exchange water tank is provided with a first water inlet and a first water outlet, the first water inlet and the first water outlet on the heat exchange water tank are connected in series on the water inlet pipeline, a first water inlet on the heat exchange water tank is connected with a water inlet pipe, and a water inlet control valve is arranged on the water inlet pipe.

2. The intelligent non-pressure heat exchange water boiling and drinking device as claimed in claim 1, wherein an air outlet is arranged at the top of the heating water tank, a vent pipe is arranged on the heating water tank, the top end of the vent pipe is communicated with the top of the heating water tank, and the bottom end of the vent pipe is communicated with the heat exchange coil pipe.

3. The intelligent pressureless heat exchange water boiling and drinking device according to claim 2, wherein the water inlet control valve is a water inlet solenoid valve and/or a throttle valve.

4. The intelligent non-pressure heat exchange boiling water drinking device as claimed in claim 2, wherein the heating water tank is provided with a second water inlet and a second water outlet, the second water inlet of the heating water tank is communicated with the water inlet pipeline, the second water outlet of the heating water tank is communicated with the boiling water outlet pipeline, and the warm boiling water outlet pipeline is communicated with the boiling water outlet pipeline.

5. The intelligent pressureless heat exchange boiled water drinking equipment as claimed in claim 1, wherein the heat exchange coil is connected in series with a boiled water outlet pipeline.

6. The intelligent non-pressure heat exchange boiled water drinking device as claimed in claim 2, wherein the boiled water outlet pipeline has a boiled water outlet valve at its end, and a warm boiled water outlet valve at its end.

7. The intelligent pressureless heat exchange boiled water drinking device as claimed in claim 2, wherein the end of the boiled water outlet pipeline and the end of the warm boiled water outlet pipeline are connected in parallel and are provided with a water outlet.

8. The intelligent pressureless heat exchange water boiling and drinking device as claimed in claim 4, wherein the second water inlet is provided at the top of the heating water tank, the second water inlet is provided with an extension pipe, the upper end of the extension pipe is communicated with the water inlet pipeline, and the lower end of the extension pipe extends to the bottom of the heating water tank.

9. The intelligent non-pressure heat exchange boiled water drinking device as claimed in claim 8, wherein the warm boiled water outlet valve and the boiled water outlet valve are solenoid valves or manual valves.

10. The intelligent pressureless heat exchange water boiling and drinking device as claimed in claim 9, wherein a high water level electrode, a low water level electrode and a temperature probe are arranged in the heating water tank.

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