DE655640C - Automatic refrigerant regulator - Google Patents

Description

Automatic refrigerant regulator Devices have become known in which the switched on in the suction line leading from the evaporator to the compressor Control valve controlled by a resilient and sealing transmission element using a membrane. These known arrangements have the Disadvantage. That they cannot readjust themselves and the various operating conditions have it adjusted; , moreover, there is the difference in pressure compared to the suction line the atmosphere in these arrangements without influence .auf the control valve; This is but necessary for a complete regulation. The invention is therefore the task based on creating a device for regulating the refrigerant, in which the control valve by the difference in pressure before and after the evaporator, by the difference the pressure of the suction line in relation to the atmosphere and the temperature of the in the suction line refrigerant is influenced and also readjust in a simple manner and adapt to the various operating conditions leaves.

This problem is solved in such a way that not only the space is immediate in front of and the space immediately behind the evaporator by a flexible organ sealed from each other and that in the suction line between the evaporator and compressor a transfer element filled with an easily evaporating liquid is switched on which both affect the control valve, but that between the part of the housing interior, which is connected to the suction line, and the outside air is also a flexible, . Sealing transmission organ is switched, which is for the purpose of readjustment Movements of the cover of the bellows filled with the control fluid are permitted, which is not on the side of the control valve. All three governing bodies will be expediently designed as bellows, with the liquid-filled bellows inside the other two bellows.

The drawing shows an embodiment of the invention.

The control valve r of known design is in the line z of the housing 3 installed, which leads from the compressor via the condenser to the evaporator. The space ¢, which is connected to the inlet side of the evaporator, is through the bellows 5 sealed against the suction line 6, in which the refrigerant from the evaporator to Compressor is sucked back. One end of the bellows 5 is on the valve housing, with its other attached to the cover 7 of the bellows 8, with a slightly evaporating control fluid is filled. The linkage 9 that the control valve i influences, is on the one hand under the influence of: the flow of the bellows 5, On the other hand, under the influence of the bellows B. The bellows 5 follows in its movements the change "of: the evaporator pressure in the suction line, while the filling expansion in the interior of the bellows 8 under the influence of the temperature in the suction line and causing the bellows 8 to contract. On the second cover 16 of the bellows 8 one end of a third bellows is connected to the outside under atmospheric pressure stands and at its other end is connected to the protective hood i i, the is screwed into the part 12 of the valve housing containing the suction line 6. The cover 16 of the bellows 8 is accordingly movable; pushes against its outside its regulating spring 13, which is against the regulating screw screwed into the protective cover 14 supports. It is with the help of this regulating screw 14 and the regulating spring 13 possible to adjust and readjust the control device after removing the cover 15.

The two lids 7 'and 16 of the filled with regulating liquid Bellows serve as a guide for the spring 17 built into the bellows 8; the lid 16 enables a seal. of the filled bellows 8 by a countersunk screw 18, which can be soldered when drawn in without loss of filling.

As far as the operation of the device is concerned, it is moving the bellows 5 as a function of the pressure in the suction line 6 and controls it the control valve i.

In normal operation, the valve i always allows so much liquid to Evaporator than in this evaporate completely. .can, so that the whole evaporator, but not frosted the suction line. But if by some circumstance not enough If there is liquid in the evaporator, the pressure in the evaporator will be low, but the temperature will rise at the end of the evaporator. So it will be the bellows io compressed by the atmospheric pressure, and the lid 16 of the bellows 8 and io will be raised; the bellows 8, however, is no longer in the deep Temperature range of the evaporation taking place in the evaporator, but in the higher one Temperature range of superheated gases. Due to the higher gas temperature, you will see therefore expand the bellows 8; its expansion therefore acts in the same way the control valve one like the compression of the bellows io.

Conversely, if too much liquid gets into the evaporator, it will if the pressure in the evaporator is too high, expand the bellows io while the in the suction line incoming wet and therefore cold gases a contraction of the temperature control serving bellows 8 cause. In this case, the control valve is reversed Affects the senses.

'. @@.' As a result of the interaction of the two bellows 8 and i o acts the regulation extremely quickly. and is very sensitive.

The new arrangement also has the advantage over the known Arrangements with a membrane that the flexible transmission member a larger Stroke and works without tension, which is necessary for the fine adjustment of the sensitive - n Control organ to a specific evaporator pressure is important.

Claims (5)

PATLNT CLAIMS: i. Automatic refrigerant regulator in which the in the line leading from the compressor to the evaporator switched on refrigerant control valve is controlled by a resilient and sealing transmission organ that the Space immediately in front of and the space behind the evaporator separates and through a bellows filled with an easily evaporating liquid, which is inserted into the suction line is installed between the evaporator and the compressor, which complies with the aforementioned transmission organ acts, characterized in that a resilient, sealing transmission element between the part of the valve housing interior, which is with the suction pipe is connected, and the outside air is switched for the purpose the readjustment movements of that lid of the one filled with control liquid Bellows that are not on the side of the control valve are permitted. 2. Automatic Refrigerant regulator according to claim i, characterized in that the one with the suction line the compressor-connected part of the valve housing inside against the outside air sealing organ consists of a bellows which surrounds the temperature-controlled bellows and on the one hand to the cover of this bellows, on the other hand to the interior of this Valve housing is connected. 3. Automatic refrigerant regulator according to claim i, characterized in that the space between the part of the valve housing interior, which is connected to the inlet end of the evaporator, against that to the suction line connected part is closed by a bellows that controls the temperature Bellows surrounds and one hand to the lid this bellows, on the other hand is connected to the interior of the valve housing. Automatic refrigerant regulator according to claim i, characterized in that inside the temperature-controlled Bellows a spring is arranged, which is against the inside of the two lids of the bellows. 5. Automatic refrigerant regulator according to claim i, characterized characterized in that on the outside of that lid of the temperature-controlled Bellows that is not connected to the linkage affecting the control valve, a regulating spring is arranged, which is against the interior of the valve housing supports.