KR20160127455A - Heat pump of solar powered defrosting - Google Patents

Abstract

The present invention relates to a heat pump of a solar heat defrosting structure, which is able to: smoothly operate equipment and improve the capacity of heat exchange by easily removing frost stacked on a heat exchanger by using solar heat; and increase the heat efficiency of the equipment by easily treating foreign matters accumulated on the inside and outside of a heat medium pipe by a preheating and drained structure of a simple structure. The heat pump according to the present invention comprises a compressor (10), an indoor heat exchanger (11), an expansion valve (12), and an outdoor heat exchanger (13) which are mutually connected by a heat medium line (14) where a heat medium circulates. The heat pump of a solar heat defrosting structure includes: a heat collecting means (31) which collects solar heat by being positioned near the outdoor heat exchanger (13); and a thermal storage tank (32) which stores heat collected by the heat collecting means (31). The heat pump further includes heat storage equipment (30) which performs heat exchange by being directly penetrated by a part of a heat exchange pipe (17) near the outdoor heat exchanger (13) connected with the heat medium line (14) in the heat storage tank (32).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat pump for solar powered defrosting,

The present invention relates to a heat pump having a solar thermal defrosting structure, and more particularly, to a heat pump having a solar thermal defrost structure, more specifically, To a heat pump of a solar thermal defrosting structure.

Generally, a heat pump is a device for supplying cooling or heating by heat exchange in accordance with a phase change of a refrigerant by interconnecting a heat exchanger, a compressor, and an expansion valve by a refrigerant pipe. The heat pump is usually an indoor unit for supplying cooling or heating to the indoor side, And an outdoor unit for exhausting the exhaust gas.

Such a heat pump shows a remarkable difference in operating ability due to seasonal factors (outdoor temperature). Especially when it is heated in winter (or when hot water is produced), since the outdoor temperature is low, the outdoor heat exchanger The heating capability is rapidly lowered, or a separate defrosting operation for defrosting is required.

As a conventional example of a heat pump for improving this, there has been proposed a system using solar heat at the time of defrosting operation. However, a conventional heat pump using solar heat can defrost the evaporator, In order to prevent the flow of the heat medium due to the low temperature in the extreme region, it is necessary to smoothly operate the heat exchanger or prevent deterioration of the heat exchange ability due to accumulation of foreign matter on the inside and the outside of the heat medium tube of the heat exchanger, There is a limit.

Korean Registered Patent Publication (No. 10-1044616) 2011. 06. 21.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems and it is an object of the present invention to provide a heat exchanger which is capable of easily removing heat generated in a heat exchanger by using solar heat, The present invention provides a heat pump having a solar thermal defrosting structure capable of increasing the thermal efficiency of a device by easily treating foreign matter accumulated on the inside and the outside of the heat medium pipe by the preheating and draining structure by the constitution.

The indoor heat exchanger 11, the expansion valve 12, and the outdoor heat exchanger 13, which are interconnected by the heat medium line 14 through which the heat medium circulates, ≪ / RTI >

A heat collecting means (31) positioned on the outdoor side heat exchanger (13) side for collecting solar heat and a heat storage tank (32) for accumulating heat collected by the heat collecting means (31) (32) is provided with a heat storage device (30) which is directly connected to the heat medium line (14) and a part of the heat exchange pipe (17) on the side of the outdoor heat exchanger (13) A heat pump of a solar thermal defrosting structure is provided.

According to another aspect of the present invention, the outdoor heat exchanger (13) is provided with an induction coil (42) coupled to the heat exchange pipe (17) to preheat the heat exchange pipe (17) And a heating means (40) is connected to the heat pump.

According to another aspect of the present invention, the indoor heat exchanger (11) or the outdoor heat exchanger (13) is provided with a cleaning means (50) for generating ultrasonic vibration on each of the heat exchange tubes A heat pump for a solar thermal defrosting structure is provided.

As described above, according to the present invention, since the heat storage device 30 for collecting solar heat is coupled to the outdoor heat exchanger 13, when the outdoor heat exchanger 13 is defrosted, the heat storage device 30 And the heat exchanger 17 of the outdoor heat exchanger 13 is continuously heated by the heat storage device 30 to perform a separate defrosting operation So that continuous heating operation can be performed without necessity.

The heat exchanging tube 17 of the outdoor heat exchanger 13 is directly passed through the heat accumulating tank 32 of the heat accumulating device 30 to perform heat exchange so that the heat exchanging effect can be enhanced while simplifying the structure of the device There are advantages.

The present invention further includes the high frequency heating means 40 provided on the outdoor heat exchanger 13 side and including the induction coil 42 for preheating the heat exchange pipe 17 so that when the outdoor temperature is significantly low The high-frequency heating means 40 preheats the heat exchange tubes 17 at the initial stage of the operation of the apparatus, thereby facilitating the flow of the heating medium, thereby facilitating the operation of the apparatus.

Further, the present invention is characterized in that a cleaner (50) positioned in the indoor heat exchanger (11) or the outdoor heat exchanger (13) and adapted to generate ultrasonic vibration on each of the heat exchange tubes (16, 17) Foreign matter accumulated on the outer surface or inside of the heat exchange tubes 16 and 17 is removed by the cleaner 50 to increase the heat efficiency by the heat exchange tubes 16 and 17 and to smoothly flow the heat medium .

1 is a block diagram of an embodiment of the present invention.
2 is a block diagram showing a main part of a configuration according to an embodiment of the present invention.
Fig. 3 is a diagram showing a configuration according to A portion of Fig. 2
Fig. 4 is a diagram showing the configuration according to the section B of Fig. 2

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, description will be made with reference to the accompanying drawings.

1 to 4 show a preferred embodiment of the present invention. 1, the heat pump of the present invention includes a compressor 10, an indoor heat exchanger 11, an expansion valve 12, and an outdoor heat exchanger 13 (not shown) by a heat medium line 14 through which a heating medium is circulated. The indoor heat exchanger 11 and the outdoor heat exchanger 13 are connected to each other through heat exchange tubes 16 and 17 connected to the heating medium line 14 in the case 15, A blowing fan 19 and the like.

In addition, the indoor heat exchanger 11 includes another heat exchange tube 21 connected to the supply line 20 on the load side R for supplying hot water or heating, and the outdoor heat exchanger 13 And a heat storage device 30 for heating the heat exchange pipe 17 provided in the defrosting operation is combined.

2, the heat accumulating device 30 includes a heat collecting means 31 positioned at one side of the outdoor heat exchanger 13 and adapted to collect solar heat, a heat collecting means 31 connected to the heat collecting means 31, And a heat accumulation tank 32 built in a case 15 of the outdoor heat exchanger 13. The heat collecting means 31 includes a dish type heat collecting plate 34 coupled to a stand 33 for collecting solar heat, And a collecting tube 35 connected to the dish-type collector plate 34 and extending to the heat accumulating tank 32.

The heat accumulating device 30 may be arranged to collect solar heat by the heat collecting means 31 to heat water or the like contained in the heat accumulating tank 32. The heat accumulating tank 32 is provided with the outdoor heat exchanger A part of the heat exchange tube 17 provided in the heat exchanger 13 is directly extended to be connected to heat exchange.

According to this construction, since the solar heat is collected by the heat storage device 30 and the heat exchange pipe 17 of the outdoor heat exchanger 13 is heated, it is not necessary to perform separate defrosting operation, Not only the heating operation of the outdoor heat exchanger 13 can be performed but also the defrosting operation can be performed by using the heat generated by the heat storage device 30 even when defrosting operation of the outdoor heat exchanger 13 is required. The heat accumulated in the heat exchange pipe 17 of the outdoor heat exchanger 13 can be reduced.

The dish-type heat collecting plate 34 is installed at one side of the case 15 of the outdoor heat exchanger 13. In this case, in the process of collecting by the dish-type heat collecting plate 34, So that the temperature of the outdoor heat exchanger 13 itself can be partially increased to delay the generation of the red flag.

3, the outdoor heat exchanger 13 may be provided with a high-frequency heating means 40 for preheating the heat exchange pipe 17. The high-frequency heating means 40 may include a high- An induction coil 42 wound around a part of the heat exchange tube 17 and a high frequency generator 41 electrically connected to operate the induction coil 42.

The high-frequency heating means 40 preheats the heat exchanging tube 17 at the initial stage of operation of the apparatus when the heating medium is partially frozen or the temperature is extremely low in an extreme region of minus 30 to 40 degrees, So that the device can be easily driven and operated.

4, the outdoor heat exchanger 13 is disposed at one side of the heat exchange pipe 17, and a scale included in the heating medium is attached to the inside of the heat exchange pipe 17 by ultrasonic vibration, The cleaning means 50 may be provided with a cleaning means 50 for preventing a problem that the flow of the heating medium is lowered or the heat exchange efficiency is lowered due to accumulation of dust on the surface, Type or a magnetic type ultrasonic vibrator and is installed on the bending portion of the heat exchange pipe 17. The clean means 50 can be installed in the indoor heat exchanger 11. [

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (3)

1. A heat pump comprising: a compressor (10), an indoor heat exchanger (11), an expansion valve (12), and an outdoor heat exchanger (13) interconnected by a heating medium line (14) through which a heating medium is circulated;
A heat collecting means 31 positioned on the outdoor side heat exchanger 13 for collecting solar heat and a heat accumulating tank 32 for accumulating the heat collected by the heat collecting means 31, (32) is provided with a heat storage device (30) which is directly connected to the heat medium line (14) and a part of the heat exchange pipe (17) on the side of the outdoor heat exchanger (13) Features a solar thermal defrost heat pump.
The outdoor unit according to claim 1, wherein the outdoor heat exchanger (13) is provided with an induction coil (42) coupled to the heat exchange pipe (17) to preheat the heat exchange pipe (17) (40) are connected to the heat pump.
The air conditioner according to claim 1 or 2, wherein the indoor heat exchanger (11) or the outdoor heat exchanger (13) is provided with a cleaning means (50) for generating ultrasonic vibration on each of the heat exchange tubes (16, 17) And a heat pump for supplying heat to the heat pump.

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