CN209047910U - A kind of drinking equipment that can produce different temperatures boiled water simultaneously - Google Patents

Abstract

The utility model discloses a kind of drinking equipments that can produce different temperatures boiled water simultaneously, it includes water tank, heat exchanger, tube-in-tube condenser, bushing type evaporator, compressor and throttling set, heating tube is equipped with inside water tank, for heating pure water, the water outlet of water tank is connected with the first port of boiled water water outlet, the second port of boiled water water outlet is connected through heat exchanger with warm water water outlet, cooling chamber of the third port of boiled water water outlet through bushing type evaporator is connected with cold boiling water water outlet, the vaporization chamber outlet of bushing type evaporator is connected through compressor with the entrance of tube-in-tube condenser, the outlet of tube-in-tube condenser is connected through throttling set with the evaporation chamber inlet of bushing type evaporator.The utility model can produce boiled water, warm water and cold boiling water simultaneously, better meet demand of the people to drinking-water, after high temperature sterilization, drink safer.And heat utilization rate can be effectively improved, electric energy is saved.

Description

A kind of drinking equipment that can produce different temperatures boiled water simultaneously

Technical field

The utility model relates to drinking equipment technical field more particularly to a kind of drinks that can produce different temperatures boiled water simultaneously Wetting system.

Background technique

In existing market, purifier is to produce room temperature pure water, boiled water as mainstream, however room temperature pure water breeds bacterium Risk it is larger, if low temperature boiled water is made by the way that boiled water is cooling, there are the risks of bacterium after high temperature sterilization, in water very It is small, it is directly drunk for people safer.And room temperature pure water absorbs waste heat and obtains through over-heat-exchanger and tube-in-tube condenser Preheating, shortening is boiled the time, while can effectively improve heat utilization rate, saves electric energy.

Utility model content

The technical issues of in the presence of the utility model mainly solution prior art, more pacify to provide one kind and drink Entirely, energy-saving effect is good, can produce the drinking equipment of different temperatures boiled water simultaneously.

Above technical problems of the utility model are mainly solved by the following technical scheme:

The drinking equipment provided by the utility model that different temperatures boiled water can be produced simultaneously comprising water tank, heat exchange Device and refrigeration system, the refrigeration system include tube-in-tube condenser, bushing type evaporator, compressor and throttling set, described Heating tube is equipped with inside water tank, for heating pure water, the water outlet of the water tank and the first port of boiled water water outlet It is connected, the second port of the boiled water water outlet is connected through heat exchanger with warm water water outlet, the boiled water water outlet Cooling chamber of the third port through bushing type evaporator be connected with cold boiling water water outlet, the vaporization chamber of described sleeve pipe formula evaporator Outlet is connected through the compressor with the entrance of described sleeve pipe formula condenser, and the outlet of described sleeve pipe formula condenser is through the section Stream device is connected with the evaporation chamber inlet of described sleeve pipe formula evaporator, and municipal tap water successively passes through after purifier purifies Enter heating in the water tank after described sleeve pipe formula condenser and heat exchanger.

Further, described sleeve pipe formula condenser and bushing type evaporator include outer layer stainless steel tube twist And inner layer stainless steel tube, the outer layer stainless steel tube are set in the outside of the inner layer stainless steel tube, described sleeve pipe formula condenser Inner layer stainless steel tube and outer layer stainless steel tube between have pure water flowing, there are refrigerant flowing, institute in the inside of inner layer stainless steel tube Stating has refrigerant flowing between the inner layer stainless steel tube of bushing type evaporator and outer layer stainless steel tube, the inside of inner layer stainless steel tube has Boiled water flowing, and the refrigerant and the pure water or boiled water is in reverse flow.

It further, further include temperature sensor interconnected and control module, the temperature sensor is arranged in institute It states on the pipeline of refrigeration system different location and on water tank, the control module is used to control refrigeration system, water manufacturing system Normal operation and refrigerating capacity size.

The utility model has the beneficial effects that: by by the second port of boiled water water outlet through heat exchanger and warm water Water outlet is connected, and carries out cooling to boiled water using heat exchanger and produces warm water, and the third port of boiled water water outlet is through casing The cooling chamber of formula evaporator is connected with cold boiling water water outlet, carries out cooling system to boiled water using bushing type evaporator low temperature environment Cold boiling water is taken, so that the utility model be enable to produce boiled water, warm water and cold boiling water simultaneously, better meets people to drinking-water Demand is drunk safer after high temperature sterilization.And room temperature pure water is through over-heat-exchanger and casing tube-in-tube condenser, It absorbs waste heat to be preheated, shortening is boiled the time, while can effectively improve heat utilization rate, saves electric energy.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the schematic illustration of the drinking equipment that can produce different temperatures boiled water simultaneously of the utility model；

Fig. 2 is the structure of the double pipe heat exchanger of the drinking equipment that can produce different temperatures boiled water simultaneously of the utility model Schematic diagram.

Specific embodiment

The preferred embodiment of the utility model is described in detail with reference to the accompanying drawing, so that the advantages of the utility model It can be easier to be readily appreciated by one skilled in the art with feature, to make the protection scope of the utility model apparent clear Define.

Refering to fig. 1 shown in -2, the drinking equipment that different temperatures boiled water can be produced simultaneously of the utility model comprising water storage Tank 1, heat exchanger 3 and refrigeration system, refrigeration system include tube-in-tube condenser 4, bushing type evaporator 5, compressor 6 and throttling Device 11 (in the utility model be throttle valve) is equipped with heating tube 2 inside water tank 1, for heating pure water, in the present embodiment Heating tube 2 it is wavy, and be arranged at the lower water inlet of water tank 1, when there is pure water to enter in water tank 1, Heating tube 2 can directly heat it, can guarantee that the boiled water on top is not cooled in this way, guarantee that user at every moment can It is connected to the boiled water boiled.The water outlet of water tank 1 is connected with the first port of boiled water water outlet 7, and the second of boiled water water outlet 7 Port is connected through heat exchanger 3 with warm water water outlet 8, and the third port of boiled water water outlet 7 is through the cold of bushing type evaporator 5 But room is connected with cold boiling water water outlet 9, and the vaporization chamber outlet of bushing type evaporator 5 is through compressor 6 and tube-in-tube condenser 4 Entrance is connected, and the outlet of tube-in-tube condenser 4 is connected through throttling set 11 with the evaporation chamber inlet of bushing type evaporator 5, Municipal tap water successively enters in water tank after tube-in-tube condenser and heat exchanger after the purification of purifier 10 heats.

The utility model is by the way that the second port of boiled water water outlet 7 to be connected through heat exchanger 3 with warm water water outlet 8 It connects, cooling is carried out to boiled water using heat exchanger 3 and produces warm water, and the third port of boiled water water outlet is through bushing type evaporator 5 Cooling chamber be connected with cold boiling water water outlet 9, using bushing type evaporator 5 low temperature environment to boiled water carry out it is cooling produce it is cold Boiled water better meets people to the need of drinking-water so that the utility model be enable to produce boiled water, warm water and cold boiling water simultaneously It asks, after high temperature sterilization, drinks safer.And room temperature pure water is through over-heat-exchanger 3 and casing tube-in-tube condenser 4, It absorbs waste heat to be preheated, shortening is boiled the time, while can effectively improve heat utilization rate, saves electric energy.

Specifically, tube-in-tube condenser 4 and bushing type evaporator 5 include 41 He of outer layer stainless steel tube twist Inner layer stainless steel tube 42, outer layer stainless steel tube 41 are set in the outside of inner layer stainless steel tube 42, and the internal layer of tube-in-tube condenser 4 is not There is pure water flowing between rust steel pipe 41 and outer layer stainless steel tube 42, there are refrigerant flowing, casing in the inside of inner layer stainless steel tube 42 There are refrigerant flowing, the inside of inner layer stainless steel tube 42 between the inner layer stainless steel tube 41 and outer layer stainless steel tube 42 of formula evaporator 4 There is a boiled water flowing, and refrigerant and pure water or boiled water is in reverse flow.

In the utility model, double-pipe condenser generates high-pressure high-temperature environment in refrigeration systems, can with room temperature pure water into Row heat exchange reaches heating pure water purpose；Throttling set allows refrigerant to become low-temp low-pressure state, low temperature refrigerant in refrigeration systems Low temperature environment is formed through casing tube evaporator, exchanges heat with the boiled water of high temperature, water temperature can be reduced to very low temperature.

Specifically, the cold water equipment of the utility model further includes temperature sensor 12 interconnected and control module 13, Temperature sensor 12 is arranged on the pipeline of the refrigeration system different location and on water tank, and control module 13 is for controlling system Cooling system, the normal operation of water manufacturing system and refrigerating capacity size.The water temperature that refrigerating capacity size directly affects low temperature boiled water mouth 9 is high It is low.The control module 13, while controlling the normal operation of entire water manufacturing system and refrigeration system.

Specific use process is as follows for the utility model:

When the water in water tank 1 is heated to 99 DEG C,

1) boiled water water outlet 7, is individually opened, out boiled water.Meanwhile 10 side of purifier intakes, refrigeration system does not start.

2) warm water water outlet 8, is individually opened, out warm water.10 side of purifier water inlet simultaneously, pure water are handed over through heat Parallel operation 3 and boiled water exchange heat, and pure coolant-temperature gage increases, and heat into water tank 1, and refrigeration system does not start.

3) cold boiling water water outlet 9, refrigeration system starting, are individually opened, cold boiling water water outlet 9 goes out cold boiling water.Water purification simultaneously The water inlet of 10 side of device, pure water and the refrigerant of high temperature and pressure in tube-in-tube condenser 4 exchange heat, and pure water absorbs bushing type condensation The heat of 4 side of device, temperature increase, and heat into water tank 1, and the refrigerant of low-temp low-pressure exchanges heat in boiled water and bushing type evaporator 5, Temperature reduces to obtain cold boiling water.

4) boiled water water outlet 7 and warm water water outlet 8, the water inlet of 10 side of purifier, are opened simultaneously, pure water is handed over through heat Parallel operation 3 and boiled water exchange heat, and pure coolant-temperature gage increases, and heat into water tank 1, and water temperature reduces, and water outlet 8 obtains temperature and opens Water, water outlet 7 obtain boiled water, and refrigeration system does not start.

5), open simultaneously boiled water water outlet 7 and cold boiling water water outlet 9, refrigeration system starting, 10 side of purifier into The refrigerant of high temperature and pressure exchanges heat in water, pure water and tube-in-tube condenser 4, and pure water absorbs the heat of 4 side of tube-in-tube condenser, Temperature increases, and heats into water tank 1, and the refrigerant of low-temp low-pressure exchanges heat in boiled water and bushing type evaporator 5, and temperature reduces, out The mouth of a river 9 obtains cold boiling water, and water outlet 7 obtains boiled water.

6) warm water water outlet 8 and cold boiling water water outlet 9 or boiled water water outlet 7, warm water water outlet 8, are opened simultaneously It is opened simultaneously with cold boiling water water outlet 9, refrigeration system starting, the water inlet of 10 side of purifier, pure water is first condensed with bushing type The refrigerant heat exchange of high temperature and pressure, absorbs the heat of 4 side of tube-in-tube condenser in device 4, and temperature increases, then through heat exchanger 3, and opens Water heat exchange, temperature further increase, and finally enter the heating of water tank 1, boiled water divides two-way, low in bushing type evaporator 5 all the way The refrigerant of warm low pressure exchanges heat, and temperature is reduced to demand temperature, and cold boiling water is made, in addition all the way boiled water through heat exchanger 3 with it is pure Water heat exchange, temperature reduce, and warm water is made, capable of direct drinking.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, any change or replacement expected without creative work be should be covered within the scope of the utility model. Therefore, the protection scope of the utility model should be determined by the scope of protection defined in the claims.

Claims (3)

1. a kind of drinking equipment that can produce different temperatures boiled water simultaneously, which is characterized in that including water tank, heat exchanger and system Cooling system, the refrigeration system include tube-in-tube condenser, bushing type evaporator, compressor and throttling set, the water tank Inside is equipped with heating tube, and for heating pure water, the water outlet of the water tank is connected with the first port of boiled water water outlet, The second port of the boiled water water outlet is connected through heat exchanger with warm water water outlet, the third end of the boiled water water outlet Cooling chamber of the mouth through bushing type evaporator is connected with cold boiling water water outlet, and the vaporization chamber of described sleeve pipe formula evaporator is exported through institute Compressor is stated to be connected with the entrance of described sleeve pipe formula condenser, the outlet of described sleeve pipe formula condenser through the throttling set with The evaporation chamber inlet of described sleeve pipe formula evaporator is connected, and municipal tap water is after purifier purifies, successively through described sleeve pipe Enter heating in the water tank after formula condenser and heat exchanger.

2. the drinking equipment of different temperatures boiled water can be produced simultaneously as described in claim 1, which is characterized in that described sleeve pipe formula Condenser and bushing type evaporator include outer layer stainless steel tube and inner layer stainless steel tube twist, and the outer layer is stainless Steel pipe is set in the outside of the inner layer stainless steel tube, the inner layer stainless steel tube and outer layer stainless steel tube of described sleeve pipe formula condenser Between have pure water flowing, there are refrigerant flowing, the inner layer stainless steel tube of described sleeve pipe formula evaporator in the inside of inner layer stainless steel tube There is refrigerant flowing between outer layer stainless steel tube, there is a boiled water flowing in the inside of inner layer stainless steel tube, and the refrigerant and described pure Water purification or boiled water are in reverse flow.

3. the drinking equipment of different temperatures boiled water can be produced simultaneously as claimed in claim 2, which is characterized in that further include mutual The temperature sensor and control module of connection, the temperature sensor be arranged on the pipeline of the refrigeration system different location and On water tank, the control module is for controlling refrigeration system, the normal operation of water manufacturing system and refrigerating capacity size.