CN204743764U - Energy -saving water dispenser - Google Patents

Abstract

The utility model relates to a water dispenser, especially, energy -saving water dispenser. Distinguish, go out water installation, warm water export, hot water export, basin, support, warm water switch, hot water switch, boss, the hot tubular heat exchanger of gravity type, the hot tubular heat exchanger of level, cross discharge orifice, warm water pipe, heat exchange tube, hot -water line including cold water district, heat transfer district, the zone of heating, hot water district, warm water. The support place in the top in cold water district, the sub -unit connection in cold water district have heat transfer district, the zone of heating, hot water district and warm water district, heat transfer district be connected with the zone of heating through the heat exchange tube, the zone of heating pass through hot -water line and hot water district and be connected, heat transfer district distinguish with warm water through the warm water pipe and be connected. The beneficial effect of the utility model: simple structure, convenient to use, heat utilization rate is high, is convenient for maintain, is fit for local use bigger to the warm water demand such as school, hospital and train, and energy -conserving effect has effectively reduced energy dissipation about 30%.

Description

A kind of Energy-Efficient Drinking Machine

Technical field

The utility model relates to a kind of water dispenser, especially a kind of Energy-Efficient Drinking Machine.

Background technology

The kind of the Warm water drinking machine existed in the market is a lot, these water dispensers normally provide hot water by cold water being directly heated to boiling, hot water obtains warm water through directly naturally cooling, partial heat energy is had to lose in vain in the process, and the heat energy that steam carries in boiling process also wastes, particularly serious to the waste of heat energy to the place that warm water demand is larger in school and hospital etc.

Utility model content

The utility model is intended to solve the problem, provide a kind of Energy-Efficient Drinking Machine, which overcome the drawback that general Warm water drinking machine heat-energy losses is larger, the place being adapted at school, hospital and train etc. larger to warm water demand uses, and its technical scheme adopted is as follows:

A kind of Energy-Efficient Drinking Machine, comprises cold water area, heat transfer zone, the thermal treatment zone, hydrothermal area, warm water district, discharging device, warm water exports, hot water outlet, tank, bearing, warm water switch, hot-water switch, boss, gravity-type heat pipe formula heat exchanger, horizontal hot tube type heat exchanger, flowing hole, warm water tube, heat exchanger tube, hot-water line, described bearing is positioned over the top of cold water area, and the bottom of described cold water area is connected with heat transfer zone, the thermal treatment zone, hydrothermal area and warm water district, described heat transfer zone is connected with the thermal treatment zone by heat exchanger tube, the described thermal treatment zone is connected with hydrothermal area by hot-water line, described heat transfer zone is connected with warm water district by warm water tube, described gravity-type heat pipe formula heat exchanger one end is connected with cold water area, the other end is connected with heat transfer zone, described horizontal hot tube type heat exchanger is embedded in the intersection of cold water area and the thermal treatment zone and the intersection of cold water area and hydrothermal area, described warm water switch and described hot-water switch are all arranged on discharging device, described warm water outlet is arranged on immediately below warm water switch, described hot water outlet is arranged on immediately below hot-water switch, described tank is stuck in the rectangular channel below discharging device, described heat transfer zone, the thermal treatment zone, the bottom in hydrothermal area and warm water district is connected to a boss, and the top of bottom described cold water area and the thermal treatment zone is respectively equipped with a flowing hole.

Totally 16, described gravity-type heat pipe formula heat exchanger, and be evenly arranged in the surrounding of heat transfer zone, totally 8, described horizontal hot tube type heat exchanger, be divided into two groups, often organize 4, and the horizontal hot tube type heat exchanger in each group equidistantly distributes.

Described hydrothermal area and warm water district place the hot water of 100 DEG C and the warm water of 50 DEG C respectively, and wrap up with insulation material.

Be provided with an electric heater bottom the described thermal treatment zone, top is provided with horizontal hot tube type heat exchanger.

Being provided with one in described warm water tube only allows warm water to flow to the check valve in warm water district from heat transfer zone, being provided with one in described heat exchanger tube only allows hot water to flow to the check valve of heat transfer zone from the thermal treatment zone, is provided with one and only allows hot water to flow to the check valve of hydrothermal area from the thermal treatment zone in described hot-water line.

The utility model tool has the following advantages: structure is simple, easy to use, and heat utilization rate is high, is convenient to safeguard, the place being adapted at school, hospital and train etc. larger to warm water demand uses, and energy-saving effect, about 30%, effectively reduces energy dissipation.

Accompanying drawing explanation

Fig. 1: the overall structure schematic diagram of a kind of Energy-Efficient Drinking Machine of the utility model;

Fig. 2: the front view of a kind of Energy-Efficient Drinking Machine of the utility model;

Fig. 3: the A-A sectional view of a kind of Energy-Efficient Drinking Machine of the utility model;

Fig. 4: the B-B sectional view of a kind of Energy-Efficient Drinking Machine of the utility model;

Fig. 5: the upward view of a kind of Energy-Efficient Drinking Machine of the utility model;

Symbol description:

1. cold water area, 2. heat transfer zone, the 3. thermal treatment zone, 4. hydrothermal area, 5. warm water district, 6. discharging device, 7. warm water outlet, 8. hot water outlet, 9. tank, 10. bearing, 11. warm water switches, 12. hot-water switch, 13. boss, 14. gravity-type heat pipe formula heat exchangers, 15. horizontal hot tube type heat exchangers, 16. flowing holes, 17. warm water tubes, 18. heat exchanger tubes, 19. hot-water lines.

Detailed description of the invention

Below in conjunction with accompanying drawing and example, the utility model is described in further detail:

As Figure 1-5, a kind of Energy-Efficient Drinking Machine of the utility model, comprises cold water area (1), heat transfer zone (2), the thermal treatment zone (3), hydrothermal area (4), warm water district (5), discharging device (6), warm water outlet (7), hot water outlet (8), tank (9), bearing (10), warm water switch (11), hot-water switch (12), boss (13), gravity-type heat pipe formula heat exchanger (14), horizontal hot tube type heat exchanger (15), flowing hole (16), warm water tube (17), heat exchanger tube (18), hot-water line (19), described bearing (10) is positioned over the top of cold water area (1), and the bottom of described cold water area (1) is connected with heat transfer zone (2), the thermal treatment zone (3), hydrothermal area (4) and warm water district (5), described heat transfer zone (2) is connected with the thermal treatment zone (3) by heat exchanger tube (18), the described thermal treatment zone (3) is connected with hydrothermal area (4) by hot-water line (19), described heat transfer zone (2) is connected with warm water district (5) by warm water tube (17), described gravity-type heat pipe formula heat exchanger (14) one end is connected with cold water area (1), the other end is connected with heat transfer zone (2), described horizontal hot tube type heat exchanger (15) is embedded in the intersection of cold water area (1) and the thermal treatment zone (3) and the intersection of cold water area (1) and hydrothermal area (4), described warm water switch (11) and described hot-water switch (12) are all arranged on discharging device (6), described warm water outlet (7) is arranged on immediately below warm water switch (11), described hot water outlet (8) is arranged on immediately below hot-water switch (12), described tank (9) is stuck in the rectangular channel of discharging device (6) below, described heat transfer zone (2), the thermal treatment zone (3), the bottom of hydrothermal area (4) and warm water district (5) is connected to a boss (13), and described bottom, cold water area (1) and the top of the thermal treatment zone (3) are respectively equipped with a flowing hole (16).

Totally 16, described gravity-type heat pipe formula heat exchanger (14), and be evenly arranged in the surrounding of heat transfer zone (2), totally 8, described horizontal hot tube type heat exchanger (15), be divided into two groups, often organize 4, and the horizontal hot tube type heat exchanger (15) in each group equidistantly distributes.

Described hydrothermal area (4) and warm water district (5) place the hot water of 100 DEG C and the warm water of 50 DEG C respectively, and wrap up with insulation material.

Described bottom, the thermal treatment zone (3) is provided with an electric heater, and top is provided with horizontal hot tube type heat exchanger (15).

Being provided with one in described warm water tube (17) only allows warm water to flow to the check valve of warm water district (5) from heat transfer zone (2), being provided with one in described heat exchanger tube (18) only allows hot water to flow to the check valve of heat transfer zone (2) from the thermal treatment zone (3), is provided with one and only allows hot water to flow to the check valve of hydrothermal area (4) from the thermal treatment zone (3) in described hot-water line (19).

When the utility model uses, cold water flows into the thermal treatment zone (3) by the flowing hole (16) on cold water area (1), by electrically heated method by cool water heating to boiling, in boiling process produce water vapour, on the surface of horizontal hot tube type heat exchanger (15), condensation heat release can occur, and the cold water transferred heat to by horizontal hot tube type heat exchanger (15) in cold water area (1), thus reduce the consumption of electric energy; After a heating process completes, stop heating, now a part of hot water enters hydrothermal area (4) and deposits, remainder enters heat transfer zone (2), high-temperature-hot-water in heat transfer zone (2) transfers heat to the cold water in cold water area (1) by gravity-type heat pipe formula heat exchanger (14), reduce the consumption of electric energy further; A small amount of heat energy that hydrothermal area (4) scatters and disappears in insulating process passes to the cold water in cold water area (1) by horizontal hot tube type heat exchanger (15), when hot water in heat transfer zone (2) is reduced to 50 DEG C by 100 DEG C, enter warm water district (5) by warm water tube (17) to deposit, so far complete whole circulation.

Be illustrated the utility model by way of example above, but the utility model is not limited to above-mentioned specific embodiment, all any changes of doing based on the utility model or modification all belong to the claimed scope of the utility model.

Claims (5)

1. an Energy-Efficient Drinking Machine, is characterized in that: comprise cold water area (1), heat transfer zone (2), the thermal treatment zone (3), hydrothermal area (4), warm water district (5), discharging device (6), warm water outlet (7), hot water outlet (8), tank (9), bearing (10), warm water switch (11), hot-water switch (12), boss (13), gravity-type heat pipe formula heat exchanger (14), horizontal hot tube type heat exchanger (15), flowing hole (16), warm water tube (17), heat exchanger tube (18), hot-water line (19), described bearing (10) is positioned over the top of cold water area (1), and the bottom of described cold water area (1) is connected with heat transfer zone (2), the thermal treatment zone (3), hydrothermal area (4) and warm water district (5), described heat transfer zone (2) is connected with the thermal treatment zone (3) by heat exchanger tube (18), the described thermal treatment zone (3) is connected with hydrothermal area (4) by hot-water line (19), described heat transfer zone (2) is connected with warm water district (5) by warm water tube (17), described gravity-type heat pipe formula heat exchanger (14) one end is connected with cold water area (1), the other end is connected with heat transfer zone (2), described horizontal hot tube type heat exchanger (15) is embedded in the intersection of cold water area (1) and the thermal treatment zone (3) and the intersection of cold water area (1) and hydrothermal area (4), described warm water switch (11) and described hot-water switch (12) are all arranged on discharging device (6), described warm water outlet (7) is arranged on immediately below warm water switch (11), described hot water outlet (8) is arranged on immediately below hot-water switch (12), described tank (9) is stuck in the rectangular channel of discharging device (6) below, described heat transfer zone (2), the thermal treatment zone (3), the bottom of hydrothermal area (4) and warm water district (5) is connected to a boss (13), and described bottom, cold water area (1) and the top of the thermal treatment zone (3) are respectively equipped with a flowing hole (16).

2. a kind of Energy-Efficient Drinking Machine according to claim 1, it is characterized in that: totally 16, described gravity-type heat pipe formula heat exchanger (14), and be evenly arranged in the surrounding of heat transfer zone (2), totally 8, described horizontal hot tube type heat exchanger (15), be divided into two groups, often organize 4, and the horizontal hot tube type heat exchanger (15) in each group equidistantly distributes.

3. a kind of Energy-Efficient Drinking Machine according to claim 1, is characterized in that: described hydrothermal area (4) and warm water district (5) place the hot water of 100 DEG C and the warm water of 50 DEG C respectively, and wrap up with insulation material.

4. a kind of Energy-Efficient Drinking Machine according to claim 1, is characterized in that: described bottom, the thermal treatment zone (3) is provided with an electric heater, and top is provided with horizontal hot tube type heat exchanger (15).

5. a kind of Energy-Efficient Drinking Machine according to claim 1, it is characterized in that: be provided with one in described warm water tube (17) and only allow warm water to flow to the check valve of warm water district (5) from heat transfer zone (2), being provided with one in described heat exchanger tube (18) only allows hot water to flow to the check valve of heat transfer zone (2) from the thermal treatment zone (3), is provided with one and only allows hot water to flow to the check valve of hydrothermal area (4) from the thermal treatment zone (3) in described hot-water line (19).