CN103196175B - Heat accumulation type heating installation - Google Patents

Abstract

The invention discloses a kind of heat accumulation type heating installation; Belong to heating system technical field; Its technical essential comprises energy storage water tank, be provided with delivery port on energy storage water tank top, be provided with water return outlet in energy storage water tank bottom, wherein said energy storage water tank is connected with heater, described energy storage water tank side is provided with bearing, and bearing is provided with finned heat exchanger along short transverse; Described finned heat exchanger top and bottom are connected with the delivery port of energy storage water tank and water return outlet pipeline respectively; The bearing of described finned heat exchanger wherein side is provided with the blower fan to finned heat exchanger blowing, and the bearing of finned heat exchanger opposite side is provided with wind deflector; The present invention aims to provide a kind of compact conformation, easy to use and respond well heat accumulation type heating installation; For heating of house.

Description

Heat accumulation type heating installation

Technical field

The present invention relates to a kind of heating installation, more particularly, particularly relate to a kind of heat accumulation type heating installation.

Background technology

Heating is generally the mode by floor heating pipe mode or fan coil mode or radiator, utilize water pump to promote aqueous medium and carry out heating, but when water temperature is higher, tubing pump is easily because incrusted reason causes the water pump mouth of pipe to block or water pump bearing damages, and virtually increases the possibility of maintenance.For some flow of personnel, region is as beauty parlour frequently in addition, and long-term heating easily causes waste, is unfavorable for the theory of energy-conserving and environment-protective.

Summary of the invention

The object of the invention is to for above-mentioned the deficiencies in the prior art, a kind of compact conformation, easy to use and respond well heat accumulation type heating installation are provided.

Technical scheme of the present invention is achieved in that a kind of heat accumulation type heating installation, comprise energy storage water tank, delivery port is provided with on energy storage water tank top, water return outlet is provided with in energy storage water tank bottom, wherein said energy storage water tank is connected with heater, described energy storage water tank side is provided with bearing, and bearing is provided with finned heat exchanger along short transverse; Described finned heat exchanger top and bottom are connected with the delivery port of energy storage water tank and water return outlet pipeline respectively; The bearing of described finned heat exchanger wherein side is provided with the blower fan to finned heat exchanger blowing, and the bearing of finned heat exchanger opposite side is provided with wind deflector.

In above-mentioned heat accumulation type heating installation, described finned heat exchanger by some copper pipes arranged in parallel, the fixed charge method end plate being arranged on copper pipe two ends close end, be located between two fixed charge method end plates copper pipe outer wall on some horizontal radiating fin form, described each horizontal radiating fin is spaced; Described two pieces of fixed charge method end plates are separately fixed on bearing; Described copper pipe two ends are connected with the delivery port of energy storage water tank and water return outlet pipeline respectively.

In above-mentioned heat accumulation type heating installation, water knockout drum is provided with between each copper pipe upper end of described finned heat exchanger and the delivery port of energy storage water tank, described water knockout drum forms by water inlet pipe with along some distributive pipes that water inlet pipe length direction distributes, described water inlet pipe is connected with the delivery port of energy storage water tank, and described each distributive pipe connects one to one with each copper pipe upper end respectively.

In above-mentioned heat accumulation type heating installation, water collector is provided with between each copper pipe lower end of described finned heat exchanger and the water return outlet of energy storage water tank, described water collector forms by return pipe with along some collector pipes that return pipe length direction distributes, described return pipe is connected with the water return outlet of energy storage water tank, and described each collector pipe connects one to one with each copper pipe lower end respectively.

In above-mentioned heat accumulation type heating installation, described energy storage water tank is provided with water supplement port.

In above-mentioned heat accumulation type heating installation, be connected by the first water route connection moving joint between described water inlet pipe with energy storage water tank delivery port.

In above-mentioned heat accumulation type heating installation, be connected by the second water route connection moving joint between described return pipe with energy storage water tank water return outlet.

After the present invention adopts said structure, coordinated with radiating fin by blower fan, the convective principles that utilization is expanded with heat and contract with cold and Action of Gravity Field promote current and circulate between energy storage water tank and finned heat exchanger.Meanwhile, the hot blast after heat exchange is used for heating by wind deflector blowout.The present invention does not have water circulating pump, fault rate and energy consumption lower, flexible operation, can movement arbitrarily, low cost of manufacture, does not need to install, and moisturizing can directly use, and can realize heating object, and stable and reliable operation.

Accompanying drawing explanation

Below in conjunction with the embodiment in accompanying drawing, the present invention is described in further detail, but do not form any limitation of the invention.

Fig. 1 is one of structural representation of the present invention;

Fig. 2 is structural representation two of the present invention;

Fig. 3 is the structural representation of finned heat exchanger of the present invention;

Fig. 4 is the top view of Fig. 3;

Fig. 5 is the structural representation of water knockout drum of the present invention;

Fig. 6 is the structural representation of water collector of the present invention.

In figure: energy storage water tank 1, water supplement port 1a, heater 2, bearing 3, finned heat exchanger 4, copper pipe 4a, fixed charge method end plate 4b, horizontal radiating fin 4c, blower fan 5, wind deflector 6, water knockout drum 7, water inlet pipe 7a, distributive pipe 7b, water collector 8, return pipe 8a, collector pipe 8b, the first water route connection moving joint 9, second water route connection moving joint 10.

Detailed description of the invention

Consult shown in Fig. 1 to Fig. 6, a kind of heat accumulation type heating installation of the present invention, comprise energy storage water tank 1, delivery port is provided with on energy storage water tank 1 top, water return outlet is provided with in energy storage water tank 1 bottom, energy storage water tank 1 is provided with water supplement port 1a, when the water level of energy storage water tank 1 inside is lower, water-refilling operation can be carried out from outside to it.Described energy storage water tank 1 is connected with heater 2, heater 2 described in the present embodiment is electric heater unit, such as common electrothermal tube, electrical bar etc., be installed on bottom energy storage water tank 1, heating aqueous medium, when water temperature in energy storage water tank 1 reaches preset temperature, electrical heating stops exporting, and certain heater 2 also can adopt as this area conventional heating devices such as air source heat pump water heater groups.Described energy storage water tank 1 side is provided with bearing 3, and bearing 3 is provided with finned heat exchanger 4 along short transverse; Described finned heat exchanger 4 top and bottom are connected with the delivery port of energy storage water tank 1 and water return outlet pipeline respectively; The bearing 3 of described finned heat exchanger 4 wherein side is provided with the blower fan 5 of drying to finned heat exchanger 4, and the bearing 3 of finned heat exchanger 4 opposite side is provided with wind deflector 6.

Finned heat exchanger 4 described in the present embodiment by some copper pipe 4a arranged in parallel, the fixed charge method end plate 4b being arranged on copper pipe 4a two ends close end, be located between two fixed charge method end plate 4b copper pipe 4a outer wall on some horizontal radiating fin 4c form, described each horizontal radiating fin 4c is spaced; Described two pieces of fixed charge method end plate 4b are separately fixed on bearing 3; Described copper pipe 4a two ends are connected with the delivery port of energy storage water tank 1 and water return outlet pipeline respectively.

Simultaneously, water knockout drum 7 is provided with between each copper pipe 4a upper end and the delivery port of energy storage water tank 1 of finned heat exchanger 4, described water knockout drum 7 forms by water inlet pipe 7a with along some distributive pipe 7b that water inlet pipe 7a length direction distributes, described water inlet pipe 7a is connected with the delivery port of energy storage water tank 1, and described each distributive pipe 7b connects one to one with each copper pipe 4a upper end respectively.Correspondingly, water collector 8 is provided with between each copper pipe 4a lower end and the water return outlet of energy storage water tank 1 of finned heat exchanger 4, described water collector 8 forms by return pipe 8a with along some collector pipe 8b that return pipe 8a length direction distributes, described return pipe 8a is connected with the water return outlet of energy storage water tank 1, and described each collector pipe 8b connects one to one with each copper pipe 4a lower end respectively.

Conveniently change and follow-up maintenance, cleaning, be connected by the first water route connection moving joint 9 between water inlet pipe 7a with energy storage water tank 1 delivery port; Be connected by the second water route connection moving joint 10 between return pipe 8a with energy storage water tank 1 water return outlet.

When needs heating, blower fan 5 starts, the horizontal radiating fin 4c on air flowing and finned heat exchanger 4 is driven to carry out heat exchange, aqueous medium temperature step-down in steel pipe 4a on finned heat exchanger 4, make hydrone density become large, sink under gravity, thus promote aqueous medium flowing, between energy storage water tank 1 and finned heat exchanger 4, form unpowered circulation, and then the heat in energy storage water tank 1 is discharged in air for heating by the mode of heat exchange.

Experimental example:

Energy storage water tank 150 liters, at laboratory room temperature control at 15 DEG C, the water in energy storage water tank is warming up to 55 DEG C when not being with pressure, now the water temperature on energy storage water tank top reaches about 60 DEG C.

Start heating installation, open blower fan, air quantity 450M ³/ h, return air temperature 15 DEG C, the time tests and terminates to 17:00 from 9:13 divides, and image data is as following table:

The heating equipment available machine time

9：13

9：48

10：25

10：55

11：30

14：02

17：00

Water tank upper temperature

60℃

59℃

58℃

57℃

56℃

55℃

54℃

Water tank bottom temperature

55℃

54℃

53℃

52℃

51℃

49℃

49℃

Return air temperature

15℃

15℃

15℃

15℃

15℃

15℃

15℃

Leaving air temp

44℃

44℃

43℃

43℃

42℃

42℃

42℃

As can be seen from the above data, when energy storage water tank water temperature heat build-up is to uniform temperature, heating equipment is opened, aqueous medium is promoted not having external force, only by carrying out exchange heat with air, the water density of temperature step-down becomes large gravity and becomes large and sink, thus forms fluid interchange.

Claims (5)

1. a heat accumulation type heating installation, comprise energy storage water tank (1), delivery port is provided with on energy storage water tank (1) top, water return outlet is provided with in energy storage water tank (1) bottom, it is characterized in that, described energy storage water tank (1) is connected with heater (2), and described energy storage water tank (1) side is provided with bearing (3), and bearing (3) is provided with finned heat exchanger (4) along short transverse; Described finned heat exchanger (4) top and bottom are connected with the delivery port of energy storage water tank (1) and water return outlet pipeline respectively; The bearing (3) of described finned heat exchanger (4) wherein side is provided with the blower fan (5) of drying to finned heat exchanger (4), and the bearing (3) of finned heat exchanger (4) opposite side is provided with wind deflector (6); Described finned heat exchanger (4) by some copper pipes arranged in parallel (4a), the fixed charge method end plate (4b) being arranged on copper pipe (4a) two ends close end, be located between two fixed charge method end plates (4b) copper pipe (4a) outer wall on some horizontal radiating fin (4c) form, described each horizontal radiating fin (4c) is spaced; Described two pieces of fixed charge method end plates (4b) are separately fixed on bearing (3); Described copper pipe (4a) two ends are connected with the delivery port of energy storage water tank (1) and water return outlet pipeline respectively; Water knockout drum (7) is provided with between each copper pipe (4a) upper end of described finned heat exchanger (4) and the delivery port of energy storage water tank (1), described water knockout drum (7) forms by water inlet pipe (7a) with along some distributive pipes (7b) that water inlet pipe (7a) length direction distributes, described water inlet pipe (7a) is connected with the delivery port of energy storage water tank (1), and described each distributive pipe (7b) connects one to one with each copper pipe (4a) upper end respectively.

2. heat accumulation type heating installation according to claim 1, it is characterized in that, water collector (8) is provided with between each copper pipe (4a) lower end of described finned heat exchanger (4) and the water return outlet of energy storage water tank (1), described water collector (8) forms by return pipe (8a) with along some collector pipes (8b) that return pipe (8a) length direction distributes, described return pipe (8a) is connected with the water return outlet of energy storage water tank (1), and described each collector pipe (8b) connects one to one with each copper pipe (4a) lower end respectively.

3. heat accumulation type heating installation according to claim 1, is characterized in that, described energy storage water tank (1) is provided with water supplement port (1a).

4. heat accumulation type heating installation according to claim 1, is characterized in that, is connected between described water inlet pipe (7a) with energy storage water tank (1) delivery port by the first water route connection moving joint (9).

5. heat accumulation type heating installation according to claim 2, is characterized in that, is connected between described return pipe (8a) with energy storage water tank (1) water return outlet by the second water route connection moving joint (10).