CN204693779U

CN204693779U - Energy-conservation step-by-step movement cooling boiler

Info

Publication number: CN204693779U
Application number: CN201520320778.0U
Authority: CN
Inventors: 张惠宣
Original assignee: BEIJING CHUNYUFULONG TECHNOLOGY DEVELOPMENT Co Ltd
Current assignee: BEIJING CHUNYUFULONG TECHNOLOGY DEVELOPMENT Co Ltd
Priority date: 2015-05-19
Filing date: 2015-05-19
Publication date: 2015-10-07
Anticipated expiration: 2025-05-19

Abstract

The utility model discloses a kind of energy-conservation step-by-step movement cooling boiler, it comprises casing, heating component and heat exchanger tube, be provided with successively in described casing be connected hot boiling water chamber, warm water chamber and cold water chamber, described heat exchanger tube is positioned at the bottom in warm water chamber and cold water chamber, described heating component is arranged in hot boiling water chamber, and described cold water chamber is provided with cold water output; Smart structural design of the present utility model, rationally, adopt step-wise configuration, not only guarantee the quality of boiling water, ensure edible healthy, can also continue to provide cold water, warm water and hot boiling water, output is large, applied widely, meets different user demands; And unboiled water heats by the heat utilizing heat exchanger tube to reclaim boiling water, effectively reduces hot loss of energy, saves energy consumption, reduces costs, overall structure is simple in addition, is easy to realize, easy to operate, is beneficial to wide popularization and application.

Description

Energy-conservation step-by-step movement cooling boiler

Technical field

The utility model relates to boiler technical field, is specifically related to a kind of energy-conservation step-by-step movement cooling boiler.

Background technology

Modern society, people generally use boiler, and the boiler sold on the market is varied, and it has different design concepts separately, make every effort to the instructions for use that can reach different user.But although these boilers roughly can meet instructions for use, existing boiler, can only provide boiling water, can not provide warm boiling water simultaneously, can not meet the demand that people are eager to drink water often.For this reason, a kind of warm water dispenser that 2 ~ 9 kilowatts of 10 liters of heating tanks are housed is released in market, just heats by heating tank, and water guarantee of having no idea is boiling water alternating temperature boiling water.Generally be used in the public places such as school, park, station, hospital, because water consumption is very large, its heating tank is about 10 liters of capacity, smaller comparatively speaking, cannot ensure normal use.

Utility model content

For above-mentioned deficiency, the utility model object is, provide a kind of smart structural design, rationally, boiling water can be cooled, and output is large, saves the energy-conservation step-by-step movement cooling boiler of the energy simultaneously.

A kind of energy-conservation step-by-step movement cooling boiler, it is characterized in that, it comprises casing, heating component and heat exchanger tube, the hot boiling water chamber be connected is provided with successively in described casing, warm water chamber and cold water chamber, described heat exchanger tube is positioned at the bottom in warm water chamber and cold water chamber, wherein formation water inlet is stretched out in one end of this heat exchanger tube in described cold water chamber, the other end stretches out formation delivery port in described warm water chamber, this delivery port is connected with described hot boiling water chamber by water inlet pipe, described heating component is arranged in hot boiling water chamber, described cold water chamber is provided with cold water output.

Improve as one of the present utility model, the opening that described hot boiling water chamber is connected with warm water chamber is movably equipped with a turnover panel.The opening that described warm water chamber is connected with cold water chamber is movably equipped with a turnover panel.Adopt reverse turning bed structure, effectively can intercept backflowing of temperature transmission between each cavity and water.

Improve as one of the present utility model, it also comprises air cooling chamber, one side position of the corresponding cold water output in this air cooling chamber is arranged on casing, super heat-conductive pipe is provided with in this air cooling chamber, one end of this super heat-conductive pipe is connected with described cold water output, the other end stretches out air cooling chamber and forms cold water outlet, and described air cooling chamber is provided with towards the air intake vent of super heat-conductive pipe, promotes cooling down effect.

Improve as one of the present utility model, described air intake vent is provided with blower fan or is connected with air blast by air channel, accelerates the air circulation in air cooling chamber, promotes cooling down effect further.

Improve as one of the present utility model, described heat exchanger tube is red copper water pipe, can promote heat transfer effect.

Improve as one of the present utility model, described heating component is leveled heating assembly.

Improve as one of the present utility model, the top in described hot boiling water chamber is connected with the top in warm water chamber, and the top in described warm water chamber is connected with the top in cold water chamber.

Improve as one of the present utility model, the bottom in described hot boiling water chamber, warm water chamber and cold water chamber is equipped with drainage arrangement, regularly draining can clean, guarantees that water quality is fresh.

Improve as one of the present utility model, described hot boiling water chamber, warm water chamber and cold water chamber are provided with tap, can provide boiling water, warm water and hot boiling water simultaneously, meet different user demands.

The beneficial effects of the utility model are: smart structural design of the present utility model, rationally, adopt step-wise configuration, at any time water successively heated in hot boiling water chamber boiled after, and the height that rises turns over and flows to warm water chamber, under the heat exchange effect of heat exchanger tube, hot boiling water is cooled to warm water; Along with high corresponding the turning over of rising of warm water flows to cold water chamber, under the heat exchange effect of heat exchanger tube, warm water is but become cold water, not only guarantee the quality of boiling water, ensure edible healthy, can also continue to provide cold water, warm water and hot boiling water, output is large, meets different user demands; And unboiled water heats by the heat utilizing heat exchanger tube to reclaim boiling water, effectively reduces hot loss of energy, saves energy consumption, reduces costs, overall structure is simple in addition, is easy to realize, easy to operate, is beneficial to wide popularization and application.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

Embodiment: see Fig. 1, the utility model embodiment provides a kind of energy-conservation step-by-step movement cooling boiler, it comprises casing 1, heating component 2 and heat exchanger tube 3, the hot boiling water chamber 11 be connected is provided with successively in described casing 1, warm water chamber 12 and cold water chamber 13, described heat exchanger tube 3 is positioned at the bottom in warm water chamber 12 and cold water chamber 13, wherein one end of this heat exchanger tube 3 is stretched out and is formed water inlet 31 in described cold water chamber 13, the other end stretches out and forms delivery port 32 in described warm water chamber 12, this delivery port 32 is connected with described hot boiling water chamber 11 by water inlet pipe 33, described heating component 2 is arranged in hot boiling water chamber 11, described cold water chamber 13 is provided with cold water output.In addition, directly can be provided with tap on described hot boiling water chamber 11, warm water chamber 12 and cold water chamber 13, can provide boiling water, warm water and hot boiling water simultaneously, meet different user demands.

Preferably, on the opening that the opening be connected with warm water chamber 12 in described hot boiling water chamber 11 and warm water chamber 12 are connected with cold water chamber 13, activity is respectively provided with a turnover panel 7.Adopt reverse turning bed structure, effectively can intercept backflowing of temperature transmission between each cavity and water.

Preferably, for promoting cooling down effect, the utility model energy-conservation step-by-step movement cooling boiler also comprises air cooling chamber 14, one side position of the corresponding cold water output in this air cooling chamber 14 is arranged on casing 1, super heat-conductive pipe 4 is provided with in this air cooling chamber 14, one end of this super heat-conductive pipe 4 is connected with described cold water output, and the other end stretches out air cooling chamber 14 and forms cold water outlet 41, and described air cooling chamber 14 is provided with towards the air intake vent of super heat-conductive pipe 4.Preferably, also on described air intake vent, be provided with blower fan 5, to accelerate the air circulation in air cooling chamber 14, promote cooling down effect further.In other embodiment, by air channel, described air intake vent can be connected with air blast.

For promoting heat transfer effect, described heat exchanger tube 3 is preferably red copper water pipe.Described heating component 2 is preferably leveled heating assembly 2, heat up water effective, speed is fast.

Concrete, the top in described hot boiling water chamber 11 is connected with the top in warm water chamber 12, and the top in described warm water chamber 12 is connected with the top in cold water chamber 13.The top of the dividing plate namely between hot boiling water chamber 11 and warm water chamber 12 is provided with filling pipe end, and the top of the dividing plate between warm water chamber 12 and cold water chamber 13 is provided with filling pipe end.

Preferably, the bottom in described hot boiling water chamber 11, warm water chamber 12 and cold water chamber 13 is equipped with drainage arrangement 6, can regularly draining cleaning, guarantees that water quality is fresh.

During work, unboiled water successively heated in hot boiling water chamber 11 boiled after, the corresponding height that rises turns over and flows to warm water chamber 12, under the heat exchange effect of heat exchanger tube 3, hot boiling water is cooled to warm water; Along with high corresponding the turning over of rising of warm water flows to cold water chamber 13, under the heat exchange effect of heat exchanger tube 3, warm water is but become cold water, not only guarantee the quality of boiling water, ensure edible healthy, can also continue to provide cold water, warm water and hot boiling water, output is large, meets different user demands;

Meanwhile, unboiled water is through heat exchanger tube 3 and inputs hot boiling water chamber 11 again, because heat exchanger tube 3 is positioned at the bottom in cold water chamber 13 and warm water chamber 12, unboiled water heats by the ingenious heat utilizing heat exchanger tube 3 to reclaim boiling water, the hot loss of energy of effective minimizing, saves energy consumption, reduces costs.

Above-described embodiment is only the good embodiment of the utility model; the utility model can not enumerate out whole embodiments; the technical scheme of one of all employing above-described embodiments, or according to the equivalent variations that above-described embodiment does, all in the utility model protection domain.

The announcement of book and instruction according to the above description, the utility model those skilled in the art can also change above-mentioned embodiment and revise.In addition, although employ some specific terms in this description, these terms just for convenience of description, do not form any restriction to the utility model.As described in the utility model above-described embodiment, adopt structure same or similar with it and other boiler obtained, all in the utility model protection domain.

Claims

1. an energy-conservation step-by-step movement cooling boiler, it is characterized in that, it comprises casing, heating component and heat exchanger tube, the hot boiling water chamber be connected is provided with successively in described casing, warm water chamber and cold water chamber, described heat exchanger tube is positioned at the bottom in warm water chamber and cold water chamber, wherein formation water inlet is stretched out in one end of this heat exchanger tube in described cold water chamber, the other end stretches out formation delivery port in described warm water chamber, this delivery port is connected with described hot boiling water chamber by water inlet pipe, described heating component is arranged in hot boiling water chamber, described cold water chamber is provided with cold water output.

2. energy-conservation step-by-step movement cooling boiler according to claim 1, is characterized in that, the opening that described hot boiling water chamber is connected with warm water chamber is movably equipped with a turnover panel.

3. energy-conservation step-by-step movement cooling boiler according to claim 1, is characterized in that, the opening that described warm water chamber is connected with cold water chamber is movably equipped with a turnover panel.

4. energy-conservation step-by-step movement cooling boiler according to claim 1, it is characterized in that, it also comprises air cooling chamber, one side position of the corresponding cold water output in this air cooling chamber is arranged on casing, super heat-conductive pipe is provided with in this air cooling chamber, one end of this super heat-conductive pipe is connected with described cold water output, and the other end stretches out air cooling chamber and forms cold water outlet, and described air cooling chamber is provided with towards the air intake vent of super heat-conductive pipe.

5. energy-conservation step-by-step movement cooling boiler according to claim 4, it is characterized in that, described air intake vent is provided with blower fan or is connected with air blast by air channel.

6. energy-conservation step-by-step movement cooling boiler according to claim 1, it is characterized in that, described heat exchanger tube is red copper water pipe.

7. energy-conservation step-by-step movement cooling boiler according to claim 1, it is characterized in that, described heating component is leveled heating assembly.

8. energy-conservation step-by-step movement cooling boiler according to claim 1, it is characterized in that, the top in described hot boiling water chamber is connected with the top in warm water chamber, and the top in described warm water chamber is connected with the top in cold water chamber.

9. according to the energy-conservation step-by-step movement cooling boiler one of claim 1-8 Suo Shu, it is characterized in that, the bottom in described hot boiling water chamber, warm water chamber and cold water chamber is equipped with drainage arrangement.

10., according to the energy-conservation step-by-step movement cooling boiler one of claim 1-8 Suo Shu, it is characterized in that, described hot boiling water chamber, warm water chamber and cold water chamber are provided with tap.