DE4026868C2 - Operating and service equipment for a split air conditioning system - Google Patents

Description

The invention relates to an operating and service facility device for a split air conditioning system with a closed refrigerant circuit.

A split air conditioning system, for example, from Haustechnische Rundschau, Issue 11/1976, pp. 511 to 517 be is usually consists of two parts, namely an outer and an inner assembly, in particular one Refrigeration part and a climate part.

Such air conditioning leaves the manufacturer powered with an outer assembly that with a large amount of the refrigerant is loaded, and with an internal assembly, which for reasons of corrosion protection only with one amount of refrigerant is loaded. The inside and the outside modules are arranged in the appropriate places and connected with each other via cables.

After setting up the air conditioner, the captured one should Air is removed from the refrigerant flow paths because the moisture in the trapped air freezes and thereby blocking the flow paths or keeping them even Air conditioning operation prevented.

If the air conditioning continues in its assemblies is transported, the refrigerant should be recovered and be included in the outdoor assembly before the climat location is dismantled to prevent excessive Refrigerant flows out, and the trapped air from the To be able to vent the refrigerant more easily in the future.

Refrigerant recovery and ventilation the trapped air as well as rebuilding a climate should usually be done by a specialist. However, these operations can also be done using an automatic device carried out in U.S. Patent No. 4,285,206, which however describes the user additionally burdened.  

From Althouse et al. "Modern Refrigeration and Air Con ditioning ", The Goodheart-Willcox Company, Inc. 1988, Pp. 519-523, it is also known in air conditioners or to provide control valves in their lines, by means of which the flow paths between the assemblies optionally open or close. So especially with Ser work the refrigerant from the relevant assembly to remove or at least on the other assembly transferred to. For this purpose, the corresponding line routes switched via the provided control valves.

The object underlying the invention is in contrast, an operating and service facility for a split air conditioning system of the type mentioned create with which for normal operation as well ventilation and refrigerant recovery drove required lines in a simple manner can be switched.

This object is achieved according to the invention by the education solved in the characterizing part of the patent claim 1 is specified.

A particularly preferred embodiment of the Invention The appropriate operating and service facility is the subject of Claim 2.

In an air conditioning system with the structure according to the invention can disassemble the air conditioner in individual parts and the reconstruction of the air conditioning system by a user without any particular experience will be undertaken, none additional ventilation or cooling devices tel recovery are needed.

The following is based on the associated drawing particularly preferred embodiment of the invention closer described. Show it

Fig. 1 is a schematic view of the game Ausführungsbei the air conditioning system according to the invention and

Fig. 2 is a schematic view of the electrical circuit of the embodiment of the air conditioning system according to the invention, which operated in addition to normal operation in the ventilation and can work in the refrigerant recovery operation.

As shown in Fig. 1, an outdoor group 1 includes a compressor 1 c, a blower motor 1 d, a condenser 1 e and a capillary tube 1 f and has an inner assembly 2 heat exchanger devices such as se a cooling coil, which is not shown . Lines 3 a, 3 b, which are connected via connecting parts 7 to the outer and inner assemblies 1 , 2 , form a closed refrigerant circuit.

Normally, an air conditioner leaves the manufacturer's operation with an outer assembly 1 , which is loaded with most of the refrigerant. It is also known that the liquid refrigerant from the outer assembly 1 via the refrigerant supply line 3 a the Wärmetauschereinrich lines of the inner assembly 2 is supplied, in which the liquid refrigerant absorbs heat from the ambient indoor air while it evaporates. The cooled air can then be distributed in the room to be cooled. The evaporated refrigerant from the inner assembly 2 returns to the compressor 1 c via the refrigerant line 3 b. In the compressor 1 c, the evaporated refrigerant is further heated by the compression work, and the resulting heated evaporated refrigerant is liquefied in the condenser 1 e by the ambient outside air, which is blown in by the blower. The liquefied refrigerant begins another cooling cycle for the air conditioner.

According to the invention, a first refrigerant flow control valve 4 is provided on the outlet side of the outer assembly 1 in the refrigerant supply line 3 a and there is a second refrigerant flow control valve 5 on the inlet side of the outer assembly 1 in the refrigerant return line 3 b, so that the refrigerant flow between the inner and External modules 1 , 2 can be controlled. In the refrigerant return line 3 b, a branch line 3 c is easily seen, which has an outlet connected to the outside air and is provided with a third flow control valve 6 . The flow control valves 4 , 5 , 6 are preferably solenoid valves.

Fig. 2 shows the electrical circuit of the exemplary embodiment of the air conditioning system according to the invention. The connections A, B and C can optionally be connected via the switch 11 , for example a matrix switch, to select the operating mode of the air conditioning system with one of the poles of the energy supply plug 10 .

The first port A has a relay RL1, one contact of which is connected directly to the port A and the other contact of which is connected to one end of the compressor 1 c and to the second flow control valve 5 . The second port B is connected to a contact of a relay RL2, the other contact of which is connected to the third flow control valve 6 . The third connection C is connected together to one end of the blower motor 1 d and the first flow control valve 4 , at which a contact of the third relay RL3 is located. The other contact of the relay RL3 is connected to the other contact of the second relay RL2. The relays RL1, RL2, RL3 are preferably relays with normally open contacts.

The following are the different ways of working  Air conditioning system described in more detail.

In the refrigerant recovery operation of the air conditioning system, the selector switch 11 connects the first connection A of the electrical circuit via the plug 10 to an electrical energy source. The coil of the relay RL1 is then energized so that its contacts close to operate the compressor ter 1 c and open the second flow control valve 5 . Thus, the refrigerant present in the inner assembly 2 and in the line 3 a will forcibly flow into the outer assembly 1 via the return line 3 b, so that the air conditioning system can be disassembled into parts with a minimal loss of refrigerant by the connection parts 7 being separated become.

After the reconstruction of the air conditioning system disassembled into individual parts, the air in the lines 3 a, 3 b and in the inner assembly 2 must be removed. For this purpose, the selector switch 11 is switched to the ventilation mode of the air conditioning system and the second connection B is thus connected to the energy source.

In ventilation mode, the coil of the relay RL2 is energized so that the relay contacts are closed and the third flow control valve 6 is open, and on the other hand the coil of the relay RL3 is energized so that the relay contacts are closed and the blower motor 1 d works and that first flow control valve 4 is open. The refrigerant retained in the outer module 1 under pressure flows through the control valve 4, the pipe 3a and the inner assembly 2 for the pipe 3 b, wherein the trapped air is forcibly introduced into this line b. 3 The b in this manner in the pipe 3 is introduced air through the outlet of the branch pipe 3 c vented to the outside air.

When ventilation is complete, it begins Venting the evaporated refrigerant. At this time  can change from ventilation operation to normal operation through the Users can be switched. The ventilation can also be through a typical sensor can be perceived and it can automatically switch to normal operation.

When the selector switch 11 is switched to the normal operation position, the first and third connections A and C are connected to the energy source. The flow control valves 4 and 5 are therefore open, so that the compressor 1 c and the blower motor 1 d work and the refrigerant circulates normally.

When the air conditioner is turned off, then connects the selector switch has no connection to the energy source, so that the air conditioning remains switched off.

Claims (2)

1. Operating and service device for a split air conditioning system with a closed refrigerant circuit, characterized by

• a switch ( 11 ) which has connections (A, B, C) which can be connected to an energy source ( 10 ) depending on the choice of operating mode by the user,
• - The connections (A, B, C) are electrically connected to control valve devices ( 4 , 5 , 6 ), optionally opening and / or closing the flow paths of the air conditioning system ( 3 a, 3 b, 3 c),
• - The connections (A, B, C) are still connected to Relaiseinrichtun gene (RL1, RL2, RL3), the current flow through the at least one selected connection (A, B, C) to components ( 1 c, 1 d, 1 e) control the air conditioning system and the control valve devices ( 4 , 5 , 6 ),
• - wherein a first relay (RL1), whose one contact are di rectly connected to the first terminal (A) and the other contact together with the compressor (1 c) and the second control valve (5),
• a second relay (RL2), one contact of which is connected directly to the second connection (B) and the other contact of which is connected to the third control valve ( 6 ),
• - And a third relay (RL3) are provided, one contact with the other contact of the second relay (RL2) and the other contact are connected together with the blower motor ( 1 d) and the first control valve ( 4 ).

2. Operating and service device according to claim 1, characterized in that the control valve device ( 4 , 5 , 6 ) a first control valve ( 4 ) on the outlet side of the outer construction group ( 1 ) of the split air conditioning system in the refrigerant supply line ( 3 a ) is provided, a second control valve ( 5 ), which is provided on the inlet side of the outer assembly ( 1 ) of the split air conditioning system in the refrigerant return line ( 3 d), and comprise a third control valve ( 6 ) which is in a branch line ( 3 c ) is provided, which branches off from the refrigerant return line ( 3 b) and has an outlet which is connected to the outside air, and the connections (A, B, C) of the switch ( 11 ) have a first connection (A) which is connected via a first relay device (RL1) to the compressor ( 1 c) and the second control valve ( 5 ), a second connection (B) which, via a second relay device (RL2), to the third control valve ( 6 ) and above he a third relay device (RL3) is connected to the first valve ( 4 ) and the blower motor ( 1 d), and comprise a third connection (C) which is connected to the blower motor ( 1 d) and the first control valve ( 4 ) .