DE20108088U1 - air conditioning - Google Patents

Description

air conditioner

The invention relates to an air conditioning system and in particular to an air conditioning system that can cool a room relatively quickly with relatively low electricity costs.

As shown in Fig. 6, a conventional air conditioner has a case body 10, a condenser 20, a motor 30, a compressor 40, a liquid storage tank 50, an expansion valve 60, and a blower 301.

The condenser 20 is shaped to look like an inverted U in plan view and is disposed in the housing body 10. The motor 30 and the fan 301 are disposed between the two side surfaces of the condenser 20. Thus, the motor 30 can drive the fan 301 to force air into and out of the air conditioner through the condenser 20.

The compressor 40 is connected to the storage tank 50 and is arranged in the housing body 10 near the condenser 20 with a pipe connected to the inlet of the condenser. The expansion valve 60 is connected to the outlet at the lower portion of the condenser 20.

Since the compressor 40 is arranged outside the condenser 20, the condenser 20 has an environment with a suitable temperature for its operation. Furthermore, since the fan 301 is arranged between the side surfaces of the condenser 20, the air conditioner has a relatively large cooling area.

However, conventional air conditioning has the following disadvantages:

1. Since the condenser 20 comprises only one passage, it takes a relatively long time to fill the condenser with refrigerant, i.e. the user must wait a relatively long time to obtain cool air after turning on the air conditioner.

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2. The compressor is relatively heavy and consumes a lot of electricity.

It is therefore the object of the invention to eliminate the above-mentioned disadvantages of the prior art and to provide an improved air conditioning system which delivers cool air soon after being switched on and consumes less power than conventional air conditioning systems.

This object is achieved according to the invention by an air conditioning system having the features specified in claim 1. The dependent claims are directed to preferred embodiments.

Further features and advantages of the invention will become apparent from reading the following description of preferred embodiments, which refers to the accompanying drawings, in which:

Fig. 1 is a front view of the internal parts of an air conditioning system according to the invention;

Fig. 2 is a front view of the compressor of the air conditioning system of Fig. 1;
Fig. 3 is a side view of the air conditioning system according to the invention;

Fig. 4 is a front view of the internal parts of the air conditioning system according to the invention during operation;

Fig. 5 is a front view of the compressor of the air conditioning system according to the invention in operation; and

Fig. 6 the already mentioned perspective view of an air conditioning system of the prior art.

As shown in Figs. 1 and 3, an air conditioner according to the invention comprises a housing body 1 (Fig. 3), a refrigerant tank 2, a compressor 3, two condenser cases 4 and cooling tubes 6.

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The coolant tank 2 is arranged in a lower portion of the housing body 1 and contains a coolant. The compressor 3 is arranged above the coolant tank 2 and has pipes 53 connecting the left end portion to the left end portion of the coolant tank 2 and connecting the right end portion to that of the coolant tank 2. The pipes 53 each have a check valve 51 connected thereto.

The condenser housings 4 are each arranged upright above the left end portion and the right end portion of the compressor 3, with the lines 52 connecting a lower part of the corresponding end portion of the compressor 3. The lines 52 each have a check valve 51 connected thereto.

Two main pipes 7 are each provided so as to be connected to a corresponding end portion of the refrigerant tank 2 from the lower end. The main pipes 7 are each connected to an expansion valve 71 and a nozzle 72 from the upper end. The nozzles 72 are each passed through the corresponding condenser housing 4. Sealing members 42 are inserted at the joints between the nozzles 72 and the condenser housings 4. Thus, the refrigerant in the tank 2 can be sent into the condenser housings 4 through the pipes 7, the expansion valves 71 and the nozzles 72. Further, the refrigerant can be changed into a gaseous state through the expansion valves 71 and the nozzles 72.

The cooling tubes 6 are fixed to the condenser cases 4 with the outer end portions accommodated in the condenser cases 4 and the inner end portions arranged outside the condenser cases 4. Cooling fins 61 are inserted into the inner end portions of the cooling tubes 6. Furthermore, sealing members 41 are provided at the joints between the cooling tubes 6 and the condenser cases 4 to prevent coolant from leaking. The cooling tubes 6 are each arranged such that the outer end portion is arranged higher than the inner end portion.

As shown in Fig. 2, the compressor 3 has an electromagnetic

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switch 32 arranged in a central portion of its housing member 31. The compressor 3 further comprises an iron tube 33, two inner walls 35, iron blocks 34 and permanent magnets 38.

The inner walls 35 are arranged between a left end of the housing member 31 and the electromagnetic switch 32 and between a right end of the housing member 31 and the electromagnetic switch, respectively, so that the spaces 37 are formed between the right one of the inner walls 35 and the right housing member 31 and between the left one of the inner walls 35 and the left housing member 31.

The iron pipe 33 is movably guided through the electromagnetic switch 32 and has two end portions which are thinner than the central portion. The end portions of the iron pipe 33 are guided through the right and left inner walls 35, respectively, and are guided by an elastic member 36 arranged between the inner wall and the central portion of the iron pipe 33. The end portions of the iron pipe 33 are further connected to an iron block 34 arranged in the spaces 37, respectively.

The permanent magnets 38 are fixed to the right end and the left end of the housing member 31, respectively, wherein the permanent magnets 38 are arranged so that they face each other with the same magnetic pole.

When the electromagnetic switch 32 is turned on, the iron pipe 33 has different magnetic poles at both ends, so that a left end of the iron pipe 33 is repelled by the corresponding permanent magnet 38 and the other end is attracted by the other magnet 38. Accordingly, the iron pipe 33 moves toward the right end of the compressor 3 to force the refrigerant in the tank 2 to flow into the right pipe 7, whereby the right elastic member 36 is compressed and the left elastic member 36 is stretched. Then, the elastic members 36 press the iron pipe 33 in an opposite direction (to the left) by means of their spring force, and when the iron pipe 33 moves in the opposite direction (to the left), it has different magnetic poles on both sides as before. Thus,

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the permanent magnets 38 push the iron tube 33 further to the left, whereby the left electromagnet 38 attracts the left end of the iron tube 33 and the right magnet 38 repels the right end of the iron tube 33.

Thus, the iron pipe 33 repeatedly moves left and right to force the coolant to flow into the condenser cases 4 through the pipes 7. When the coolant in the condenser cases 4 moves onto the cooling pipes 6, the cold quickly reaches the inner end portions of the cooling pipes 6 and the cooling fins 61. As shown in Fig. 3, electric fans 8 and 9 are attached to the upper part and lower part of the case body 1. The electric fan 9 blows air into the case body 1, while the fan 8 exhausts air from the case body 1 to the outside. Thus, the air is blown over the cooling fins 61 to be cooled and is blown outside to cool the room.

The check valves 51 prevent the refrigerant from the refrigerant tank 2 from moving into the compressor 3. Furthermore, when the iron pipe 33 moves left and right, the refrigerant in the condenser housing 4 is also pushed into the compressor 3 due to a change in the pressure in the spaces 37. The check valves 51 prevent the refrigerant in the compressor 3 from flowing into the condenser housing 4.

From the above description it is clear that the air conditioning system according to the invention has the following desirable features:

1. The compressor of the air conditioner uses an electromagnetic switch and permanent magnet to repeatedly move the iron pipe left and right to discharge refrigerant, instead of a conventional method. Thus, the air conditioner according to the invention is relatively inexpensive, consumes relatively little power, and is light and easy to assemble.

2. The cold from the coolant can be quickly transferred to the cooling fins via the cooling pipes. Furthermore, cool air can be blown out by the electric fans 8 and 9 to cool the room very quickly.

Claims (5)

1. Air conditioning system, characterized by
a plurality of capacitor housings ( 4 ) each containing outer end portions of cooling tubes ( 6 ) arranged therein, the cooling tubes ( 6 ) having inner end portions protruding from the capacitor housings ( 4 ), and cooling fins (6 l) being attached to the inner end portions;
a coolant tank ( 2 ) having main pipes ( 7 ) connected to both ends thereof, the pipes ( 7 ) each being connected to an expansion valve ( 71 ) and a nozzle ( 72 ) being connected to a corresponding one of the upper ends of the condenser casings ( 4 );
a compressor ( 3 ) having first lines ( 53 ) connecting its left end portion to a left end portion of the coolant tank ( 2 ) and connecting its right end portion to a right end portion of the coolant tank ( 2 ), the compressor ( 3 ) having second lines ( 52 ) connecting its end portions to the lower ends of the condenser cases ( 4 ), and the compressor ( 3 ) having an electromagnetic device having an iron pipe ( 33 ) which can move left and right therein to press the coolant in the tank ( 2 ) through the main lines ( 7 ) into the condenser cases ( 4 ); and
a housing body ( 1 ) accommodating the compressor ( 3 ), the condenser housings ( 4 ), the cooling tubes ( 6 ) and the ducts ( 7 ), the housing body ( 1 ) having a lower electric fan ( 9 ) and an upper electric fan ( 8 ) attached thereto for blowing air therein and blowing cooled air thereout. 2. Air conditioning system according to claim 1, characterized in that the electromagnetic device of the compressor ( 3 ) has an electromagnetic switch ( 32 ) arranged in the central portion of its housing element ( 31 ), and two inner walls ( 35 ) arranged between a left end permanent magnet ( 38 ) of the housing element (31) and the electromagnetic switch ( 32 ) and between a right end permanent magnet ( 38 ) of the housing element ( 31 ) and the electromagnetic switch ( 32 ); wherein the iron tube ( 33 ) is movably guided through the electromagnetic switch ( 32 ) and the inner walls ( 35 ) from the two end portions, each of its end portions being connected to an iron block ( 34 ) movably received in a space ( 37 ) defined by both a corresponding permanent magnet ( 38 ) and an adjacent inner wall ( 35 ); wherein the two end portions of the iron tube ( 33 ) are each provided with an elastic member ( 36 ) for biasing the same toward a central portion of the housing member (31), the left and right end permanent magnets ( 38 ) of the housing member (31) being arranged to have a same magnetic pole opposite to each other to allow the iron tube ( 33 ) to repeatedly move left and right when the electromagnetic switch ( 32 ) is turned on. 3. Air conditioning system according to claim 1, characterized in that the condenser housings ( 4 ) have sealing elements ( 41 ) which are attached to the connections between them and the cooling pipes ( 6 ). 4. Air conditioning system according to claim 1, characterized in that the condenser housings ( 4 ) have sealing elements ( 41 ) which are attached to the connections between them and the nozzles ( 72 ). 5. Air conditioning system according to claim 1, characterized in that the cooling tubes ( 6 ) are each arranged such that the outer end sections are substantially higher than their inner end sections.