DE202007006632U1 - Fridge and / or freezer - Google Patents

Abstract

Cooling and / or freezer with a compressor (1) with a suction side and with a pressure side for the compression of refrigerant, with a first evaporator (5) and a second evaporator (7) for the evaporation of liquid Refrigerant characterized in that the device is a first connection line (20), which the output of the first evaporator (5) with the suction side of the compressor (1) connects, and a second connecting line (30), the output of the second evaporator (7) with the Suction side of the compressor (1) connects, wherein for the first connecting line (20) Blocking means are provided, and that a control unit provided is by means of which before or at the start of the compressor (1) the first connecting line (20) shut off by means of the blocking means becomes.

Description

The The present invention relates to a refrigerator and / or freezer with a Compressor with a suction side and a pressure side for compression of refrigerant and with a first evaporator and a second evaporator for Evaporation of the liquid Refrigerant.

Such refrigerators and / or freezers are known in numerous different embodiments. 3 shows a refrigerant circuit of a known refrigerator and / or freezer according to the prior art, in which a first evaporator 7 and a second evaporator 8th are connected in series, wherein it is the evaporator 7 around the freezer evaporator and the evaporator 8th is about the refrigerator part evaporator.

With the reference number 1 is the compressor shown, the gaseous refrigerant from the suction side to the pressure side in the condenser 2 promotes. In the liquefier 2 heat dissipation causes the liquefaction of the compressed refrigerant, which then passes through the three-way solenoid valve 3 either over the line 4 or over the line 5 in the evaporator 7 . 8th arrives. If there is no need for further cooling in the cooling part, the three-way solenoid valve will be used 3 switched such that in the condenser 2 liquefied refrigerant through the capillary tube 4 in the freezer evaporator 7 passes and evaporates there. The vaporized refrigerant then passes through the suction line 9 and a heat exchanger 6 to the compressor suction side.

When the refrigeration unit requests refrigeration capacity, the three-way solenoid valve becomes 3 controlled so that the liquefied refrigerant through the capillary tube 5 to the refrigerator part evaporator 8th is passed to cool the cooling part accordingly. Like this 3 further shows, is the output of the refrigerator evaporator 8th with the entrance of the freezer evaporator 7 in conjunction, allowing the refrigerant from the refrigerator part evaporator 8th then into the freezer evaporator 7 flows.

The exit of the freezer evaporator 7 stands with the suction line of the compressor 1 in conjunction, leaving the refrigerant after leaving the Gefrierteilverdampfers 7 over the heat exchanger 6 again to the compressor 1 arrives.

Is the compressor 1 switched off, accumulates during this lifetime in the freezer evaporator 7 liquid refrigerant. Once the compressor 1 starts, the liquid refrigerant flows into the between the Gefiertierteilverdampfer 7 and the compressor 1 extending suction line 9 and evaporates in this. In this case, cold is generated, which, however, can not be used profitably, since the cooling capacity is lost in the environment.

Of the The present invention is therefore based on the object, the amount of the liquid refrigerant in the suction line of the compressor when it starts to reduce.

These The task is performed by a cooling and / or freezer solved with the features of claim 1. After that it is planned that the device a first connection line connecting the output of the first Evaporator connects to the suction side of the compressor, and a second connecting line, which is the output of the second Evaporator connects to the suction side of the compressor, taking for the first Connecting line shut-off means are provided, and that a Control unit is provided by means of which before or at the start of the Compressor the first connection line by means of the shut-off can be locked. According to the invention is thus provided that the first connecting line between the first Evaporator and the compressor before or when starting the compressor is closed, so that prevents that in the first Evaporator located liquid refrigerant is sucked directly from the compressor. Through the barrier the first connecting line, the refrigerant can only on the second connection line connecting the output of the second evaporator connects to the suction side of the compressor, get to the compressor. This has the advantage that the liquid refrigerant in the second evaporator at least partially or completely evaporated, before it is returned to the compressor. That way is it is possible when evaporating the liquid refrigerant generated cooling capacity make sense to use.

Preferably the first evaporator is a freezer evaporator and in the second evaporator to a refrigerator part evaporator. In this Case is provided that when switching on the compressor after its lifetime the liquid refrigerant from the freezer evaporator first into the refrigerated part evaporator passes and evaporates there, leaving an additional cooling capacity ready in the cooling section is provided.

The in this way vaporized refrigerant passes then directly or indirectly to the compressor.

Preferably it is envisaged that the second evaporator will be the first evaporator in the flow direction of the refrigerant is downstream. Are the shut-off closed, arrived the refrigerant thus first in the first evaporator and then in the second evaporator before it is compressed again in the compressor.

The Blocking means can formed by an open / close valve or by a multi-way valve become. The multi-way valve may be, for example, a 3/2-way valve act. in principle any other shut-off devices come into question.

Especially It is advantageous if in the flow direction of the coolant downstream the first evaporator one part of the first connection line performing bypass line is provided, which represents a bypass of the second evaporator, wherein the blocking means are arranged in this case such that the bypass line can be closed by the shut-off. Before or at the Starting the compressor, the bypass line is thus closed, so that the refrigerant not over from the first evaporator the bypass line, but only over the second evaporator where it at least partially evaporates, is returned to the compressor.

Accordingly can be provided that the first evaporator and the second evaporator are connected in series such that with closed shut-off first the first evaporator and then the second evaporator is flowed through by refrigerant.

As stated above it may be the shut-off, for example, a in the bypass line act befindliches shut-off valve. It is also conceivable that it is at the shut - off means is a multi - way valve, which in the Line is arranged, which connects the output of the first evaporator with the Input of the second evaporator connects and from which the bypass line extends. The multi-way valve may be, for example, a 3/2-way valve act.

Further Details and advantages of the invention will be apparent from a in the Drawing illustrated embodiment explained. Show it:

1 : a schematic representation of a refrigeration cycle according to the invention with stop valve,

2a . 2 B : schematic representations of the refrigeration circuit according to the invention with 3/2-way valve and

3 : A schematic representation of the refrigeration cycle according to the prior art.

1 shows by the reference numeral 5 the freezer compartment evaporator and with the reference numeral 7 the downstream of this cooling part evaporator.

The reference number 1 indicates the compressor, the reference numeral 2 the downstream of this condenser and the reference numeral 3 the throttle capillary, via which the liquefied refrigerant to the freezer evaporator 5 can be fed.

With the reference number 4 a heat exchanger is identified and the reference numeral 8th identifies the suction line of the compressor 1 ,

Like this 1 shows, is a first connection line 20 provided the output of the first evaporator 5 with the suction side of the compressor 1 combines.

Furthermore, there is a second connection line 30 provided the output of the second evaporator 7 also with the suction side of the compressor 1 combines. In the first connection line 20 there is an on / off valve 6 by means of which the first connecting line 20 can be locked. Upstream of the second evaporator 7 and downstream of the branch of the bypass line in which the valve 6 is arranged, there is a open / close valve 10 ,

The refrigerator and / or freezer according to the invention further comprises a control unit, not shown, which the valve 6 as well as the valve 10 as follows. If the cooling unit requires cooling capacity in cooling mode, this is the valve 6 closed and the valve 10 open, allowing the liquefied refrigerant through the capillary tube 3 first in the freezer evaporator 5 and from there into the refrigerator part evaporator 7 arrives. In this position of the stop valve 6 Thus, both the freezer compartment and the refrigerator compartment are cooled.

Via the second connection line 30 the vaporized refrigerant comes out of the outlet of the second evaporator 7 to the suction side of the compressor 1 , The suction line 8th forms part of the first and second connection line 20 . 30 ,

Demands the evaporator 7 the cooling part no cooling capacity, the valve 6 opened and the valve 10 closed, allowing refrigerant through the freezer evaporator 5 and from its output through the first connection line 20 or the suction line 8th to the suction side of the compressor 1 is directed.

Following a service life of the compressor 1 in which it is turned off, the unillustrated control unit controls the valve 6 such that this at the latest when starting the compressor 1 closed is. This causes that in the freezer evaporator 5 liquid refrigerant is not present via the first connecting line 20 to the suction side of the compressor, but with the valve open 10 over the cooling part evaporator 7 and from this via the second connection line 30 to the compressor 1 to be led. Thereby, the above-mentioned advantage is obtained that the liquid refrigerant that is in the freezer compartment evaporator 5 has accumulated in the refrigerator evaporator 7 vaporized and thus can be used to generate cooling capacity meaningful.

Like this 1 shows, is the first connection line 20 designed as a bypass line, which is the second evaporator 7 ie the refrigerator part evaporator 7 with the valve open 6 bypasses.

A comparable arrangement results 2a , Here, however, is the on-off valve 6 through a 3/2-way valve 6 replaced, which is located in the line that the exit of the freezer evaporator 5 with the input of the refrigerator part evaporator 7 connects, and from which the first connection line starts 20 extends, which also here as a bypass line to the refrigerator part evaporator 7 is executed.

2 B shows an in 2a comparable arrangement, but with the 3/2-way valve 6 ' located at the position where the first connection line 20 with the second connection line 30 is merged. The 3/2-way valve 6 ' is in this case thus in the end of the bypass line.

According to the invention is thus provided that the accumulated in the Gefiertierteilverdampfer coolant evaporates after starting the compressor in the refrigerator evaporator, because there the temperature level is much higher. Gets into the suction line thus only little or no liquid refrigerant. This is energetic advantageous.

Another advantage of the in the 1 and 2 The arrangement shown is that the refrigerant first in the Gefrierteilverdampfer 5 is injected, resulting in a higher freezing capacity.

at Storage of a larger quantity on warm goods in the refrigerator the freezer temperatures are not affected.

Claims (9)

Refrigerator and / or freezer with a compressor ( 1 ) with a suction side and with a pressure side for compression of refrigerant, with a first evaporator ( 5 ) and a second evaporator ( 7 ) for the evaporation of liquid refrigerant, characterized in that the device has a first connection line ( 20 ) having the output of the first evaporator ( 5 ) with the suction side of the compressor ( 1 ), and a second connection line ( 30 ) having the output of the second evaporator ( 7 ) with the suction side of the compressor ( 1 ), wherein for the first connection line ( 20 ) Absperrmittel are provided, and that a control unit is provided by means of which before or at the start of the compressor ( 1 ) the first connection line ( 20 ) is shut off by means of the blocking means. Cooling and / or freezing appliance according to claim 1, characterized in that it is in the first evaporator ( 5 ) is a freezer evaporator. Cooling and / or freezing appliance according to claim 1 or 2, characterized in that it is in the second evaporator ( 7 ) is a refrigerator part evaporator. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the second evaporator ( 7 ) the first evaporator ( 5 ) is connected downstream in the flow direction of the refrigerant. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the shut-off means by an open / close valve ( 6 ) or by a multi-way valve ( 6 . 6 ' ) are formed. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the first evaporator ( 5 ) and the second evaporator ( 7 ) are connected in series in such a way that when the shut-off means are closed, first the first evaporator ( 5 ) and then the second evaporator ( 7 ) is flowed through by refrigerant. Cooling and / or freezing appliance according to one of the preceding claims, characterized in that the first connecting line ( 20 ) is designed as a bypass line and that the blocking means are arranged such that the bypass line can be closed by the blocking means, wherein the bypass line is arranged such that when the shut-off means open the refrigerant in the bypass to the second evaporator ( 7 ) flows. Cooling and / or freezer according to claim 7, characterized in that it is at the shut-off means located in the bypass line shut-off valve ( 6 ). Cooling and / or freezing appliance according to claim 7 or 8, characterized in that it is the shut-off means to a multi-way valve ( 6 . 6 ' ) located in the conduit connecting the outlet of the first evaporator ( 5 ) with the input of the second evaporator ( 7 ) connects and that with the bypass line ( 10 ).