CN201719064U - Semi-conductor water dispenser - Google Patents

Abstract

A semi-conductor water dispenser comprises a shell, wherein the shell is internally provided with a cooling device, a heating device and a normal temperature device; the upper end of the shell is provided with a sink connected with a bucket; the sink is connected with the cooling device, the heating device and the normal temperature device respectively; the bottom of the cooling device is connected with the bottom inside the shell through the support of a spring; the shell is provided with a cold water outlet and a hot water outlet respectively; the cold water outlet and the hot water outlet are respectively connected with the cooling device and the heating device through pipelines; a cooling fin of the cooling device is made of semi-conductors; the spring is used for the support at the bottom of the cooling device; the flowing force generated when the water in the bucket flowing into a cold water tank can enable the cold water tank to generate vibration; the elasticity of the spring enables the water tank to generate slight vibration which can continue for a period of time, the water in the cold water tank generates countless of flowing, thus accelerating the energy transmission between water of different temperatures, not only enabling the water temperature in the cold water tank to be even rapidly, but also improving the cooling speed of the semi-conductor cooling fin.

Description

Semiconductor water dispenser

Technical field

The utility model relates to a kind of water dispenser, particularly a kind of semiconductor water dispenser that adopts semiconductor refrigerating.

Background technology

Water dispenser is risen the nineties in last century, is the water source with pure water or through the running water after filtering, sanitation and hygiene, and easy to use, modal in the market is the cold and hot type water dispenser.The heating method of existing water dispenser is basic identical, but that its refrigerating method just has is a variety of, such as using semiconductor refrigerating or cold-producing medium refrigeration etc.Use the water dispenser power consumption of semiconductor chilling plate smaller, do not use cold-producing medium etc. can cause the material of environmental pollution, promptly energy-conservation environmental protection again.But the cold water storage cistern of conventional semiconductors refrigerating drinker all is fixed, water in the cold water storage cistern all is to flow positive energy exchange naturally by what temperature difference produced, the energy transmission speed is slow, so just makes that the refrigerating speed of semiconductor chilling plate is slow, and refrigerating capacity is low.

Also there is the high semiconductor chilling plate of the power of employing to improve refrigerating speed, increase refrigerating capacity, but use the high semiconductor chilling plate of power, the high-power radiator that will change the outfit mates it, and high more its volume of radiator power is just big more, so just can't be installed on the less water dispenser, and increased the cost of water dispenser, these are difficult problems to manufacturer, so the refrigeration of semiconductor water dispenser can't promote effectively always, can't better be people's service.

As the Chinese patent publication number is that the patent document of CN2588903 discloses a kind of cold-instantly type semiconductor water dispenser, refrigerating plant has used the large-power semiconductor cooling piece in this technology, be equipped with powerful radiator, and designed devices such as EGR, suction pump and power supply more in the whole water dispenser, though refrigeration has increased much, but complex structure, power consumption is big, has consumed many materials, and it is more that cost increases, so just be unfavorable for promoting, can't come into huge numbers of families.

Because the above-mentioned defective that existing water dispenser exists needs a kind of semiconductor water dispenser to remedy the existing existing defective of water dispenser especially.

The utility model content

The purpose of this utility model is to provide a kind of semiconductor water dispenser, overcome above-mentioned shortcoming of the prior art, can not only make that water temperature is tending towards evenly fast in the cold water storage cistern, also improve the refrigerating speed of semiconductor chilling plate simultaneously, overall structure is simple, dependable performance, low, the energy-conserving and environment-protective of cost.

The technical problem that the utility model solved can realize by the following technical solutions:

A kind of semiconductor water dispenser, comprise housing, it is characterized in that, in described housing, be respectively arranged with refrigerating plant, heating combined equipment and normal temperature device, described housing upper end is provided with the tank that links to each other with bucket, described tank respectively with described refrigerating plant, heating combined equipment is connected with the normal temperature device, pass through the spring support and connection between the bottom of described refrigerating plant and the bottom of described enclosure interior, be respectively arranged with cooling water outlet and hot water outlet on the described housing, described cooling water outlet is connected with heating combined equipment with described refrigerating plant by pipeline respectively with hot water outlet, and the cooling piece of described refrigerating plant is a semiconductor chilling plate.

In an embodiment of the present utility model, described refrigerating plant comprises cold water storage cistern, cooling piece and radiator, link to each other by pipeline between described cold water storage cistern and the described tank, link to each other by pipeline between described cold water storage cistern and the cooling water outlet, described cooling piece links to each other with radiator with described cold water storage cistern respectively.

In an embodiment of the present utility model, described cooling piece comprises chill surface and radiating surface, and described chill surface and radiating surface are oppositely arranged on the described cooling piece, and described chill surface links to each other with cold water storage cistern, and described radiating surface links to each other with radiator.

In an embodiment of the present utility model, described spring is a plurality of, the weight of the elastic force of described spring and the cold water storage cistern of described refrigerating plant and the pass between the number of springs are: N*G＞M*g, wherein, G is the elastic force of spring, M is the weight of cold water storage cistern, and N is the quantity of spring, and g is an acceleration of gravity.

Further, the triangular in shape or quadrangle shape of described spring is distributed in the bottom of described refrigerating plant.

Further, the quantity of described spring is 3-4.

In an embodiment of the present utility model, described heating combined equipment comprises boiler and heater circuit, described heater circuit is arranged in the described boiler, links to each other by pipeline between described boiler and the tank, links to each other by pipeline between described boiler and the described hot water outlet.

In an embodiment of the present utility model, described normal temperature device is normal-temperature water outlet, and described normal-temperature water outlet directly links to each other with described tank by pipeline.

Semiconductor water dispenser of the present utility model has following advantage compared to existing technology:

1, can provide cold water, normal-temperature water and hot water at any time;

2, be used as the support of refrigerating plant bottom with spring, the impulse force of water in the bucket when flowing into cold water storage cistern can make cold water storage cistern produce vibrations, because the elastic force of spring slightly shakes the cold water storage cistern generation and continues for some time, water produces countless flowing in the cold water storage cistern in vibrations, accelerated the energy transmission speed between the water of different temperatures, can not only make like this that water temperature is tending towards evenly fast in the cold water storage cistern, also improve the refrigerating speed of semiconductor chilling plate simultaneously;

3, simple, the dependable performance of overall structure, low, the energy-conserving and environment-protective of cost.

Semiconductor water dispenser of the present utility model, be used as the support of refrigerating plant bottom with spring, the impulse force of water in the bucket when flowing into cold water storage cistern can make cold water storage cistern produce vibrations, because the elastic force of spring slightly shakes the cold water storage cistern generation and continues for some time, water produces countless flowing in the cold water storage cistern in vibrations, accelerated the energy transmission speed between the water of different temperatures, can not only make that water temperature is tending towards even fast in the cold water storage cistern, also improved simultaneously the refrigerating speed of semiconductor chilling plate, overall structure is simple, dependable performance, cost is low, energy-conserving and environment-protective realize the purpose of this utility model.

Characteristics of the present utility model can be consulted the detailed description of the graphic and following better embodiment of this case and be obtained to be well understood to.

Description of drawings

Fig. 1 is the structural representation of semiconductor water dispenser of the present utility model;

Fig. 2 is the front view of semiconductor water dispenser of the present utility model.

The specific embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

Embodiment

As Fig. 1, shown in Figure 2, semiconductor water dispenser of the present utility model, comprisehousing 100, inhousing 100, be respectively arranged with refrigeratingplant 200, heating combinedequipment 300 andnormal temperature device 400,housing 100 upper ends are provided with thetank 110 that links to each other withbucket 500,tank 110 respectively with refrigeratingplant 200, heating combinedequipment 300 is connected withnormal temperature device 400, pass throughspring 600 support and connection between the bottom of the bottom of refrigeratingplant 200 andhousing 100 inside, be respectively arranged withcooling water outlet 210 andhot water outlet 310 on thehousing 100,cooling water outlet 210 is connected with heating combinedequipment 300 with refrigeratingplant 200 by pipeline respectively withhot water outlet 310, and thecooling piece 220 of refrigeratingplant 200 is a semiconductor chilling plate.

Refrigeratingplant 200 comprises coldwater storage cistern 230,cooling piece 220 andradiator 240, link to each other by pipeline between coldwater storage cistern 230 and thetank 110, link to each other by pipeline between coldwater storage cistern 230 and thecooling water outlet 210,cooling piece 220 links to each other withradiator 240 with coldwater storage cistern 230 respectively.Whole refrigeratingplant 200 integrated being bundled together, refrigeratingplant 200 bottoms are supported byspring 600.

Cooling piece 220 comprises chill surface and radiating surface, and thechill surface 221 and theradiating surface 222 ofcooling piece 220 are oppositely arranged on thecooling piece 220, and thechill surface 221 ofcooling piece 220 links to each other with coldwater storage cistern 230, and theradiating surface 222 ofcooling piece 220 links to each other with radiator.

Heating combinedequipment 300 comprisesboiler 320 andheater circuit 330, andheater circuit 330 is arranged in theboiler 320, links to each other by pipeline betweenboiler 320 and thetank 110, links to each other by pipeline betweenboiler 320 and thehot water outlet 310.

Normal temperature device 400 is normal-temperature water outlet, and described normal-temperature water outlet directly links to each other withtank 110 by pipeline.

In the utility model,spring 600 is a plurality of, and the pass between the weight of the coldwater storage cistern 230 of the elastic force ofspring 600 and refrigeratingplant 200 andspring 600 quantity is: N*G＞M*g, wherein, G is the elastic force of spring, and M is the weight of cold water storage cistern, N is the quantity of spring, and g is an acceleration of gravity; Triangular in shape or the quadrangle shape ofspring 600 is distributed in the bottom of refrigeratingplant 200.

In the present embodiment, the quantity ofspring 600 is 3-4.

After water dispenser connects power supply, open the normal-temperature water outlet and can obtain normal-temperature water; Open hot-water switch and start heating combinedequipment 300, water in theheater circuit 330 heathot water tanks 320 stops heating automatically after setting high-temperature, heating automatically again when the water in theboiler 320 drops to the setting low temperature, behind design temperature, stop automatically, water temperature remains on to be set between the high and low temperature, openshot water outlet 310 and just can obtain hot water.

Open cold water switch and start refrigeratingplant 200,cooling piece 220 work, thechill surface 221 that connects coldwater storage cistern 230 freezes the water for cooling in the coldwater storage cistern 230, radiatingsurface 222 is passed toradiator 240 withchill surface 221 from the heat that coldwater storage cistern 230 absorbs, andradiator 240 is dispersed into the part heat in the air.Water in thebucket 500 flows into coldwater storage cistern 230 bytank 110, its impulse force makes coldwater storage cistern 230 produce vibrations, because the elastic force ofspring 600 slightly shakes coldwater storage cistern 230 generations and continues for some time, water produces countless flowing in the coldwater storage cistern 230 in vibrations, accelerated the energy transmission between the water of different temperatures, can not only make like this that water temperature is tending towards even fast in the coldwater storage cistern 230, also improved simultaneously the refrigerating speed ofcooling piece 220, the continuous cooling of the water in the coldwater storage cistern 230 like this, opencooling water outlet 210 and just can obtain cold water, the water ofbucket 500 can flow into coldwater storage cistern 230 again and produce vibrations simultaneously, vibrations are able to last much longer, make the energy between the water of coldwater storage cistern 230 continue to transmit mutually fast, so just improved the refrigerating speed ofcooling piece 220.

More than show and described basic principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that describes in the foregoing description and the specification just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications; these changes and improvements all fall in claimed the utility model scope, and the claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (8)

1. semiconductor water dispenser, comprise housing, it is characterized in that, in described housing, be respectively arranged with refrigerating plant, heating combined equipment and normal temperature device, described housing upper end is provided with the tank that links to each other with bucket, described tank respectively with described refrigerating plant, heating combined equipment is connected with the normal temperature device, pass through the spring support and connection between the bottom of described refrigerating plant and the bottom of described enclosure interior, be respectively arranged with cooling water outlet and hot water outlet on the described housing, described cooling water outlet is connected with heating combined equipment with described refrigerating plant by pipeline respectively with hot water outlet, and the cooling piece of described refrigerating plant is a semiconductor chilling plate.

2. semiconductor water dispenser as claimed in claim 1, it is characterized in that, described refrigerating plant comprises cold water storage cistern, cooling piece and radiator, link to each other by pipeline between described cold water storage cistern and the described tank, link to each other by pipeline between described cold water storage cistern and the cooling water outlet, described cooling piece links to each other with radiator with described cold water storage cistern respectively.

3. semiconductor water dispenser as claimed in claim 1, it is characterized in that described cooling piece comprises chill surface and radiating surface, described chill surface and radiating surface are oppositely arranged on the described cooling piece, described chill surface links to each other with cold water storage cistern, and described radiating surface links to each other with radiator.

4. semiconductor water dispenser as claimed in claim 1, it is characterized in that, described spring is a plurality of, the weight of the elastic force of described spring and the cold water storage cistern of described refrigerating plant and the pass between the number of springs are: N*G＞M*g, wherein, G is the elastic force of spring, and M is the weight of cold water storage cistern, N is the quantity of spring, and g is an acceleration of gravity.

5. semiconductor water dispenser as claimed in claim 4 is characterized in that, the triangular in shape or quadrangle shape of described spring is distributed in the bottom of described refrigerating plant.

6. semiconductor water dispenser as claimed in claim 4 is characterized in that, the quantity of described spring is 3-4.

7. semiconductor water dispenser as claimed in claim 1, it is characterized in that, described heating combined equipment comprises boiler and heater circuit, described heater circuit is arranged in the described boiler, link to each other by pipeline between described boiler and the tank, link to each other by pipeline between described boiler and the described hot water outlet.

8. semiconductor water dispenser as claimed in claim 1 is characterized in that, described normal temperature device is normal-temperature water outlet, and described normal-temperature water outlet directly links to each other with described tank by pipeline.

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