CN203231523U - Novel energy-efficient water heating device - Google Patents

Abstract

The utility model relates to a novel energy-efficient water heating device comprising a shell and a hot air passage. The hot air passage allows hot air to flow and exchange heat with water in the shell. The novel energy-efficient water heating device is characterized in that the novel energy-efficient water heating device further comprises a water tank provided with a water inlet and a water outlet; a heat exchange passage is arranged in the water tank; one end of the heat exchange passage is communicated with an air discharging end of the hot air passage, and the other end of the heat exchange passage is communicated with an air discharging passage; a fan is mounted at an air discharging port of the air discharging passage; the water outlet of the water tank is communicated with the shell. Compared with the prior art, the novel energy-efficient water heating device has the advantages that the water tank communicated with the shell is added, so that waste heat in the air discharged from the hot air passage can be reused; since the heat exchange passage is arranged in the water tank, heat exchanging can be more complete, and heat loss is less; especially the heat exchange passage is in a wave-shaped structure, heat exchanging effect is improved significantly since hot air flow changes continuously, and heat exchanging efficiency can be further improved.

Description

A kind of hot-water heating system of novel energy-conserving

Technical field

The utility model relates to a kind of hot-water heating system, specifically refers to a kind of energy-conservation hot-water heating system.

Background technology

Existing hot-water heating system mainly contains hot-water boiler, water heater, wall hanging stove, steam engine, mode of heating is common electrical heating and hot-air heat exchange mode, hot-air heat exchange mode wherein, the hot flue gas that can utilize burnings such as faggot or rubbish to produce obtains, therefore, cost is relatively low and be widely used.

The general passage that in the housing of hot-water heating system, is provided with hot-air, hot-air enters from the import of this passage, after water heat exchange in the housing of hot-water heating system, discharges from the outlet of passage; Perhaps directly the flow through outer surface of housing of hot-water heating system of hot-air carries out heat exchange.Adopt the heat exchange mode of said structure, though also can reach the purpose that adds hot water, heat exchange efficiency is low, the hot-air of draining in channel outlet simultaneously still has higher temperature, cause the loss of heat, therefore for such hot-water heating system, still await further improvement.

The utility model content

Technical problem to be solved in the utility model is the present situation at prior art, and the hot-water heating system of the novel energy-conserving that a kind of thermal loss is little, heat exchange efficiency is high is provided.

The utility model solves the problems of the technologies described above the technical scheme that adopts: a kind of hot-water heating system of novel energy-conserving, include that housing and heat supply air flow and can with housing in the water hot-air channel that carries out heat exchange, it is characterized in that: also comprise having into, the water tank of delivery port, in this water tank, be provided with heat exchanger channels, one end of this heat exchanger channels is communicated with the exhaust end of above-mentioned hot-air channel, the other end of this heat exchanger channels is communicated with the exhaust passage, exhaust ports in this exhaust passage is equipped with exhaust blower, and the delivery port of described water tank is connected with described housing.

As preferred version of the present utility model, described body is designed to the wavy shaped configuration that linked up smoothly mutually by crest and trough, by the flow direction of forcibly changing hot-air, can improve heat exchange efficiency significantly.

In above-mentioned each scheme, described water tank and housing can be made integral piece, and described hot-air channel stretches in the described housing and is connected with an end of described heat exchanger channels, makes overall structure more compact.

Be preferably, at least part of section of described hot-air channel also is designed to the wavy shaped configuration that linked up smoothly mutually by crest and trough, with further raising heat exchange efficiency.

Compared with prior art, because the utility model has been set up the water tank that is connected with housing, therefore can the waste heat in the gas of hot-air channel outlet be utilized again, and because heat exchanger channels is arranged in water tank, can make heat exchange more abundant, the loss of heat is littler.When especially heat exchanger channels was made wavy shaped configuration, because thermal air current constantly is changed, heat exchange effect was significantly improved, and can further improve heat exchange efficiency.

Description of drawings

Fig. 1 is the structural representation of the utility model first embodiment;

Fig. 2 is the structural representation of the utility model second embodiment;

Fig. 3 is the structural representation of the utility model the 3rd embodiment.

The specific embodiment

Describe in further detail below in conjunction with the utility model of accompanying drawing embodiment.

Embodiment 1, as shown in Figure 1, the hot-water heating system of this novel energy-conserving is a kind of power economized boiler, it includes housing 1 and the water tank 2 that appearance is wrapped up with thermal insulator 3, the upper end of its middle shell is provided with venthole 11 or hot water outlet, and water tank 2 is positioned at the lower left of housing 1, is formed with the hot-air channel 4 of termination hot-air down between water tank 2 and housing 1, this hot-air can be obtained by the hot flue gas that burnings such as faggot or rubbish produce, and the upper end of hot-air channel is then as exhaust end.

The upper and lower position of above-mentioned water tank 2 has delivery port 21 and water inlet 22, and wherein delivery port 21 is connected with above-mentioned housing 1 by pipeline 5.In this water tank 2, be provided with the heat exchanger channels 6 that two ends are exposed to water tank, this heat exchanger channels can be one, also can be set up in parallel into many as required, the upper end of heat exchanger channels is communicated with the exhaust end of above-mentioned hot-air channel 4, the lower end of this heat exchanger channels 6 is communicated with exhaust passage 7, and the exhaust ports in this exhaust passage is equipped with exhaust blower 8.

In order to improve heat exchange efficiency, above-mentioned heat exchanger channels 6 is made as the wavy shaped configuration that is linked up smoothly mutually by crest and trough.

During use, start exhaust blower 8, under the effect of exhaust blower, hot-air enters from the lower end of hot-air channel, carry out heat exchange with the water in the housing 1, then, enter in the heat exchanger channels 6 from the exhaust end of hot-air channel, do further heat exchange by the water in waveform heat exchanger channels and the water tank 2, the refrigerating gas after the heat exchange is discharged from the oral area of passing away.

Embodiment 2, as shown in Figure 2, itself and above-mentioned the 1st embodiment difference are: water tank and housing are made integral piece, this moment, hot-air channel stretched in the housing, namely also be positioned at housing, and it is made of interconnective vertical section 41 and horizontal segment 42, vertical section 41 is also made wavy shaped configuration, the lower port of vertical section 41 is as the air inlet of hot-air, and the right output port of horizontal segment 42 is connected with the upper end of heat exchanger channels 6.Such structure can be used as water heater and uses, at this moment, and the heat exchange better effects if.Its operation principle is identical with above-mentioned the 1st embodiment, does not repeat them here.

Embodiment 3, and as shown in Figure 3, itself and above-mentioned the 2nd embodiment difference are: vertical section 41 ' and the horizontal segment 42 ' of hot-air channel all are designed to straight tube-like, can be used as steam engine and use.

Claims (4)

1. the hot-water heating system of a novel energy-conserving, include that housing (1) and heat supply air flow and can with housing in the water hot-air channel (4) that carries out heat exchange, it is characterized in that: also comprise having into, the water tank of delivery port (2), in this water tank, be provided with heat exchanger channels (6), one end of this heat exchanger channels (6) is communicated with the exhaust end of above-mentioned hot-air channel (4), the other end of this heat exchanger channels (6) is communicated with exhaust passage (7), exhaust ports in this exhaust passage (7) is equipped with exhaust blower (8), and the delivery port of described water tank (21) is connected with described housing (1).

2. the hot-water heating system of novel energy-conserving according to claim 1 is characterized in that: described heat exchanger channels (6) is designed to the wavy shaped configuration that linked up smoothly mutually by crest and trough.

3. the hot-water heating system of novel energy-conserving according to claim 1 and 2, it is characterized in that: described water tank (2) and housing (1) are made integral piece, and described hot-air channel (4) stretches in the described housing (1) and is connected with an end of described heat exchanger channels (6).

4. the hot-water heating system of novel energy-conserving according to claim 3 is characterized in that: at least part of section of described hot-air channel (4) also is designed to the wavy shaped configuration that linked up smoothly mutually by crest and trough.

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