CN203083402U - Waste heat energy-saving barrel - Google Patents

Abstract

The utility model discloses a waste heat energy-saving barrel which is formed by a barrel body, a barrel cover and a heat exchanger arranged in the barrel body, wherein the heat exchanger is mainly formed by metal coil pipes and a partition plate, the partition plate divides the barrel body into an upper part and a lower part, the metal coil pipes are arranged on the lower part inside the barrel body, the partition plate is provided with a waste hot water inflow port communicated with the lower part of the barrel body and is further provided with a through hole enabling waste hot water to flow into the upper part of the barrel body from the lower part of the barrel body, and a waste hot water discharge port is formed in the side wall of the upper part of the barrel body. The barrel cover is provided with a tap water inflow port connected with a water inlet of the metal coil pipes and a tap water outflow port connected with a water outlet of the metal coil pipes, and the barrel cover is further provided with a penetration hole of a waste hot water pipe. Because of the adoption of the structural mode, the waste heat energy-saving barrel is an energy-saving product which enables the temperature rise of cold water to be achieved without the need of electrical heating assisting. The waste heat energy-saving barrel has the advantages of being safe, efficient , durable, wide in application, and capable of being applied to hair salons, hotels, bath houses, foot baths, families and other occasions using a large amount of hot water.

Description

The afterheat energy-saving bucket

Technical field

The utility model relates to a kind of energy-conservation bucket, specifically is meant a kind of afterheat energy-saving bucket.

Background technology

The existing people needed life hot water of living, generally be to obtain by the mode of cold water being carried out electrical heating or combustion gas heating, in addition, the spent hot water's who is produced after using heat is not fully used, but be lost together with waste water, so deviate from mutually with the policy of the energy-conserving and environment-protective of being advocated.

Summary of the invention

In order to overcome above-mentioned deficiency, the purpose of this utility model is to provide a kind of energy-conserving and environment-protective and afterheat energy-saving bucket easy to use.

For solving the problems of the technologies described above, the technical scheme that the utility model adopted is:

The afterheat energy-saving bucket, it is to be made of staving, bung and the heat exchanger that is located in the staving, wherein, heat exchanger mainly is made of metal coil pipe and dividing plate, described dividing plate is separated into two parts up and down with staving, and described metal coil pipe is located at the lower part in the staving, and described dividing plate is provided with the spent hot water who communicates with the staving lower part and flows into interface, also be provided with the through hole of spent hot water by inflow staving top, staving lower part, the top sidewall of described staving is provided with spent hot water's outlet; Described bung is provided with the running water outflow interface that the running water that is connected with the water inlet of metal coil pipe flows into interface and is connected with the delivery port of metal coil pipe, also is provided with the hole that penetrates of used heat water pipe on the described bung.

Described through hole is provided with a plurality of, and all through holes distribute along the peripheral intervals of dividing plate.

Described dividing plate is provided with the spent hot water and flows into the guide shell that interface communicates, and described guide shell is located at the lower part in the staving.

Described staving is flat cylindrical structural.

Described staving, dividing plate and bung are to be made by PVC material or stainless steel material.

Described spent hot water flows into interface and is provided with screen pack.

Described metal coil pipe is that stainless steel material is made.

The beneficial effects of the utility model are: owing to adopt above-mentioned version, the afterheat energy-saving bucket is that money does not need electrical heating auxiliary and the energy-conserving product of temperature of cold water rises can be had safe, efficient, durable characteristics; Be widely used, applicable to the many places of hot water consumptions such as Hair Dressing Salon, hotel, bath hall, foot care, family.

Description of drawings

Below in conjunction with the drawings and specific embodiments the utility model is described in further detail:

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

Fig. 2 is shown in Figure 1 along A---the cutaway view of A line;

Fig. 3 is the structural representation of dividing plate shown in Figure 2.

Among the figure: 1, staving; 2, bung; 3, metal coil pipe; 4, dividing plate; 5, the spent hot water flows into interface; 6, through hole; 7, spent hot water's outlet; 8, running water flows into interface; 9, running water flows out interface; 10, the used heat water pipe penetrates the hole; 11, guide shell; 12, screen pack.

The specific embodiment

As shown in Figure 1, 2, 3, the afterheat energy-saving bucket, it is to be made of staving 1, bung 2 and the heat exchanger that is located in the staving 1, wherein, heat exchanger mainly is made of metal coil pipe 3 and dividing plate 4, and described staving 1 is flat cylindrical structural, and institute's metal coil pipe 3 is to be made by the SUS304 stainless steel material, do not have corrosion under the normal condition, can use 20 years.Dividing plate 4 is separated into two parts up and down with staving 1, described metal coil pipe 3 is located at the lower part in the staving 1, described dividing plate 4 is provided with the spent hot water who communicates with the staving lower part and flows into interface 5, also be provided with the spent hot water is flowed into staving top by the staving lower part through hole 6, described through hole 6 is provided with a plurality of, all through holes 6 distribute along the peripheral intervals of dividing plate 4, and the top sidewall of described staving 1 is provided with spent hot water's outlet 7; Described bung 2 is provided with that the running water that is connected with the water inlet of metal coil pipe 3 flows into interface 8 and the running water that is connected with the delivery port of metal coil pipe 3 flows out interface 9, and what also be provided with the used heat water pipe on the described bung 2 penetrates hole 10.

Described dividing plate 4 is provided with the spent hot water and flows into the guide shell 11 that interface 5 communicates, described guide shell 11 is located at the lower part in the staving 1, the effect of guide shell, it is the flow direction that changes the spent hot water, guarantee that the spent hot water fully contacts with the long of metal coil pipe, to improve the heat exchange efficiency of the running water (domestic water) in spent hot water and the coil pipe, its waste heat is fully utilized, during work, the spent hot water flows into interface 5 by the spent hot water and flows in the lower part cavity of staving, and flow downward along diversing bucket, upwards flow along space between guide shell and the bucket wall again after flowing to the bucket bottom,, discharge through spent hot water's outlet 7 after the through hole 6 of dividing plate periphery flows into the top of stavings.

Described staving 1, bung 2, spent hot water's outlet 7, dividing plate 4 are to be made by PVC material or stainless steel material.When the spent hot water who flows into energy-conservation bucket is lower than 55 ℃, select the PVC material for use; When being higher than 55 ℃, select stainless steel for use.

More as the spent hot water's fouling products that flows into, flow into interface 5 places the spent hot water and set up screen pack 12, and periodic cleaning or replacing screen pack, in case producing, stops up fouling products, influence draining.

Afterheat energy-saving bucket principle: be will to absorb rapidly with the heat among the spent hot water who crosses by heat exchanger, the cold water of heating process heat exchanger, thereby with temperature of cold water rises, reduce the use amount of boiler high-temperature-hot-water, reduce the energy resource consumption of heating cold water indirectly, save the heating expense, save economic spending.

Maintenance: after long-time the use, heat exchanger surface can produce incrustation scale, and the heat exchange effect can descend 2-3 ℃, as wants to recover desirable heat exchange effect, needs the incrustation scale of cleaning heat exchanger surface to get final product.Clean method: 1, with giant flushing heat exchanging device 2, gently brush heat exchanger with hairbrush.

In a word,, should illustrate that those skilled in the art can carry out various variations and remodeling to the afterheat energy-saving bucket according to actual operating position though the utility model has been enumerated above-mentioned preferred implementation.Departed from this newly with novel scope but change and must not retrofit, otherwise all should be included in the protection domain of the present utility model.

Claims (7)

1. afterheat energy-saving bucket, it is characterized in that: it is to be made of staving, bung and the heat exchanger that is located in the staving, wherein, heat exchanger mainly is made of metal coil pipe and dividing plate, described dividing plate is separated into two parts up and down with staving, described metal coil pipe is located at the lower part in the staving, described dividing plate is provided with the spent hot water who communicates with the staving lower part and flows into interface, also be provided with the through hole of spent hot water by inflow staving top, staving lower part, the top sidewall of described staving is provided with spent hot water's outlet; Described bung is provided with the running water outflow interface that the running water that is connected with the water inlet of metal coil pipe flows into interface and is connected with the delivery port of metal coil pipe, also is provided with the hole that penetrates of used heat water pipe on the described bung.

2. afterheat energy-saving bucket according to claim 1 is characterized in that: described through hole is provided with a plurality of, and all through holes distribute along the peripheral intervals of dividing plate.

3. afterheat energy-saving bucket according to claim 1 and 2 is characterized in that: described dividing plate is provided with the spent hot water and flows into the guide shell that interface communicates, and described guide shell is located at the lower part in the staving.

4. afterheat energy-saving bucket according to claim 3 is characterized in that: described staving, dividing plate and bung are to be made by PVC material or stainless steel material.

5. afterheat energy-saving bucket according to claim 4 is characterized in that: described spent hot water flows into interface and is provided with screen pack.

6. afterheat energy-saving bucket according to claim 5 is characterized in that: described staving is flat cylindrical structural.

7. afterheat energy-saving bucket according to claim 5 is characterized in that: described metal coil pipe is to be made by stainless steel material.

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