JP3143142B2 - Refrigeration equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerating apparatus having compressors arranged in parallel.

[0002]

2. Description of the Related Art Generally, a plurality of indoor heat exchangers (indoor units) are arranged in parallel, and a plurality of compressors (outdoor units) are connected in parallel to a refrigerant pipe connected to each indoor heat exchanger. There is known a multi-type air conditioner for a building arranged in a Japanese Patent Application Laid-Open No. 2-85656. This type of multi-type air conditioner has an advantage that a large-capacity system of the device can be realized.

[0003]

However, in the conventional configuration, since a plurality of compressors are arranged in parallel, there is a disadvantage that the amount of refrigerant in each outdoor unit becomes unbalanced.

For example, when one of the compressors is stopped due to a temporary decrease in the cooling or heating load, a receiver tank connected to the stopped compressor, an outdoor heat exchanger, Refrigerant accumulates in the accumulator or the like, and as a result, there is a problem that the amount of refrigerant in the other operating compressor becomes insufficient, resulting in a so-called gas-out state.

It is an object of the present invention to provide a refrigeration apparatus which solves the above-mentioned problems of the prior art and prevents the imbalance in the amount of refrigerant in the compressors arranged in parallel. It is in.

[0006]

In order to achieve the above object, the invention according to claim 1 comprises a compressor, an oil separator and an outdoor unit.
A plurality of outdoor units having a heat exchanger;
The room unit connected to the knit via gas pipe and liquid pipe
And the separated oil is supplied to each chamber in the oil separator.
A refrigerating apparatus in which a return pipe returning to these compressors is connected via a suction pipe of a compressor of the outdoor unit, and in which the operation of the compressor of at least one outdoor unit is stopped when the refrigerating load is reduced. , The outdoor unit
Valves are provided for the gas pipe and the liquid pipe that extend, and the outdoor unit is provided.
Stop the operation by connecting the knit return pipes with the connecting pipe.
Closing the valve leading to the outdoor unit which has, Shitsugaiyu during operation from the suction pipe of the compressor of the outdoor unit in the stop
In front of the control valve to guide the refrigerant to the suction pipe of the knit compressor
It is characterized by being provided in the connecting pipe . Claim
The invention described in Item 2 relates to a compressor, an oil separator, and an outdoor heat exchanger.
And a plurality of outdoor units
And an indoor unit connected via a liquid pipe and a liquid pipe.
In the oil separator, separated oil is supplied to each outdoor unit.
Return pipes to these compressors via the suction pipes of the compressors
And if the refrigeration load decreases, at least
To stop the operation of the compressor of one outdoor unit
Liquid connected to the outdoor unit
A valve is provided in the pipe and a valve is provided at the outlet of the oil separator.
Connecting the return pipes of the outdoor unit with connecting pipes
The two valves of the outdoor unit whose operation has been stopped are closed.
From the suction pipe of the compressor of the stopped outdoor unit.
The refrigerant is introduced into the suction pipe of the compressor of the outdoor unit during operation.
Characterized in that a control valve for connection is provided in the connecting pipe.
It is.

[0007]

According to the present invention, the control valve for guiding the refrigerant from the suction pipe of the stopped compressor to the suction pipe of the operating compressor is provided. The refrigerant that accumulates in the accumulator, outdoor heat exchanger, and receiver tank connected to the compressor can be guided to the suction pipe of the operating compressor. Can be prevented.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to FIGS.

[0009] In FIG. 1, ₁ 1, 1 ₂ represents an outdoor unit, 3 _1, 3 ₂ represents the indoor unit. The outdoor unit 1 _1, the accumulator 10 _1, a rotary type compressor 11 of _the internal high pressure type, the oil separator 12
_1, a four-way valve 13 _1, an outdoor heat exchanger 14 _1, the motorized expansion valve 15 _1, and a receiver tank 16 _1. For the outdoor unit 1 ₂ , the outdoor unit 1 ₁
Therefore, the description is omitted. Indoor unit 3 ₁
Is composed of an indoor heat exchanger 34 ₁ and an electric expansion valve 35 ₁ . The indoor unit 3 ₂ are the same as the indoor unit 3 _1, description is omitted. These are connected via a gas pipe 5 and a liquid pipe 7, and constitute a refrigeration cycle.

[0010] Next, the oil returning circuit of the outdoor unit 1 _1.

[0011] The refrigerant and oil discharged from the compressor 11 _1,
Separated by the oil separator 12 _1, wherein the separated oil, through the return pipe 21 _1, the compressor 11 ₁ of the suction pipe 23
Returned to ₁ . The outdoor unit 1 ₂ is the same as the outdoor unit 1 _1, description is omitted. Thus, the return pipe 21 ₁ of the outdoor unit 1 _1, the return pipe 21 ₂ of the outdoor unit 1 _2, is connected by a communication tube 24, the valve 25 is incorporated in the connecting pipe 24, the return of the above tube 21 _1, and a return pipe 21 for ₂ valve 27 _1, 27 ₂
Is incorporated.

The valve 25 and the valves 27 ₁ and 27 ₂ are
And closed operation of the outdoor unit 1 ₁ is stopped is controlled to be opened and it is started. Valve 25,
The and the valve 27 _1, 27 _2, the controller 28 is connected to the controller 28, and the suction temperature sensor a detects the suction gas temperature of the compressor 11 ₂ (the outdoor unit 1 _2), detecting the discharge gas temperature Is connected to the discharge temperature sensor b.

Further, according to this embodiment, the outdoor unit 1 ₁ each, 1 ₂ and the gas pipe 5 and the liquid pipe 7 and the branch gas pipe 5 ₁ connecting the, 5 _2, and the branch liquid pipe 7 _1, 7 ₂ each, the valve 51 _1, 51 _2, and the valve 53 _1, 53 ₂ is incorporated.

Next, the operation of this embodiment will be described.

When the four-way valves 13 ₁ and 13 ₂ are switched as shown by the solid lines in FIG. 1, the refrigerant flows in the direction shown by the arrows in FIG. In this case, the outdoor unit 1 ₁ is stopped, only the outdoor unit 1 ₂ is operated, the electric expansion valve 1
5 _2, and the electric expansion valve 35 _1, 35 ₂ are opening control according to the load. The outdoor heat exchanger 14 ₂ acts as an evaporator, the indoor heat exchanger 34 _1, 34 ₂ acts as a condenser. That is, hot air is sent from the indoor heat exchanger 34 _1, 34 _2, the heating operation is performed.

When the four-way valves 13 ₁ and 13 ₂ are switched as shown by the dotted lines in FIG. 1, the refrigerant flows in the direction opposite to the arrow in FIG. In this case, the outdoor unit 1 ₁ is stopped, only the outdoor unit 1 ₂ is operated, the electric expansion valve 1
5 ₂ stands fully opened, the electric expansion valve 35 _1, 35 ₂ are opening control according to the load. Outdoor heat exchanger 14 ₂ acts as a condenser, the indoor heat exchanger 34 _1, 34 ₂ acts as an evaporator. That is, cool air is sent from the indoor heat exchanger 34 _1, 34 _2, the cooling operation is performed.

[0017] Incidentally, when in either operating condition of the cooling or heating, as described above, the valve 25, and valve 27 ₂ is opened (although the valve 27 ₁ are closed). Accordingly, oil separated by the oil separator 12 _2, through the return pipe 21 ₂ is always returned to the suction pipe 23 ₂ of the compressor 11 _2.

[0018] Thus, according to this embodiment, as described above, to stop the operation of the outdoor unit 1 _1, when only the outdoor unit 1 _2, such as to heating operation (refrigerant flow solid arrows), the branch pipes 5 of the outdoor unit 1 ₁ is stopped
_1, 7 valve 51 ₁ provided on the _1, 53 ₁ completely closes the.

According to this, refrigerant discharged from the compressor 11 ₂ in operation is blocked by the valve 51 _1, 53 _1,
Since no wrap around to the outdoor unit 1 ₁ is stopped,
And an accumulator 10 ₁ located therein, and the outdoor heat exchanger 14 _1, never refrigerant staying in the receiver tank 16 _1, thus, shortage of the refrigerant to the compressor 11 ₂ during operation, i.e., a so-called gas shortage Does not occur.

[0020] The above is a case where one of the outdoor unit 1 _2, is operated from the beginning alone. In contrast, initially allowed to operated outdoor unit 1 ₁ of the two, 1 ₂ at the same time, during these operating, with a temporary lowering of the cooling or heating load, one of the compressor 11 ₁ ( Outdoor unit 1 ₁ )
May be stopped.

[0021] In this case, the valve 51 _1, 53 ₁ of the outdoor unit 1 ₁ is stopped, as described above, only simply closed, so-called out of gas in the compressor 11 ₂ in the other operation This may occur. Stopped outdoor unit 1 ₁
And an accumulator 10 ₁ located within, and the outdoor heat exchanger 14 _1, because the refrigerant in such a receiver tank 16 ₁ is retained.

Therefore, according to this embodiment, when the operation is stopped, the valves 51 ₁ and 53 ₁ are closed and the valves 25 and 27 ₁ are opened (however, the valve 2 is not used).
7 ₂ is open from the beginning). These valves 25 and 2
Timing of the opening of ₇₁ is controlled as follows.

[0023] the compressor 11 ₂ in the other operating gas shortage occurs, the temperature of the refrigerant flowing through the compressor 11 _2, i.e., the suction temperature sensor a, and the temperature detected by the discharge temperature sensor b is above a certain temperature To rise. This is the opening timing, and when the controller 28 determines that the temperature has risen to a certain temperature or higher, through this controller 28,
The valve 25 and the valve 27 ₁ are simultaneously opened.

[0024] Here, the suction pipe of the compressor 11 ₂ in operation 2
3 _second pressure is typically lower than the pressure of the outdoor unit 1 in the _first stopped. Thus, the valve 25, and the valve 27 ₁ is opened simultaneously, as shown by the arrows in FIG. 1, flow occurs in the refrigerant in the outdoor unit 1 _1, the flow through the communication tube 24, in operation towards the suction pipe 23 ₂ of the compressor 11 ₂ is sucked from there into the compressor 11 _2. According to this, ₁ or accumulator 10 located in the outdoor unit 1 in the _first stopped, and the outdoor heat exchanger 14 _1, instead of the refrigerant from staying in such receiver tank 16 _1, during operation the compressor 11 ₂ Of gas is surely prevented. In addition, valve 2
By adjusting the valve opening of 5, 27 ₁ , the compressor 11
An appropriate amount of gas was collected in _2, it is also possible to keep hoarding the outdoor unit l ₁ in stopping the rest.

[0025] In Figure 1, the outdoor unit 1 ₂ in only the controller 28, and the sensor a, illustrates a b, the outdoor unit 1 ₁ of the controller 28, and the sensor a, but shown in b is omitted, the controller 28, and the sensor a, b, of course, also to the outdoor unit 1 ₁ are attached, the controller 28 is attached here, and the sensor a, b prevents gas shortage of the compressor 11 ₁ of the outdoor unit 1 _1.

FIG. 2 shows another embodiment.

In this embodiment, instead of the valves 51 ₁ and 51 ₂ and the valves 53 ₁ and 53 ₂ , the valves 55 ₁ and 55 ₂ are incorporated in the branch liquid pipes 7 ₁ and 7 ₂ , respectively. Separator 1
2 _1, 12 ₂ of the outlet, the valve 57 _1, 57 ₂ is incorporated.

[0028] by stopping the operation of the outdoor unit 1 _1, when only the outdoor unit 1 ₂ to the heating operation, according to this embodiment, a valve 55 ₁ provided on the branch pipe _71, the oil separator 12 a valve 57 ₁ provided on the _first outlet is completely closed. According to this, refrigerant discharged from the compressor 11 ₂ during operation, it is blocked by the valve 55 ₁ and the valve 57 _1, never go around to the outdoor unit 1 ₁ is stopped.
Accordingly, and accumulator 10 ₁ located therein, and the outdoor heat exchanger 14 _1, never refrigerant staying in the receiver tank 16 _1, thus, so-called out of gas can occur compressor 11 ₂ in operation There is no.

Further, during operation, with a temporary lowering of the cooling or heating load, for example, with the operation of the one compressor 11 ₁ is stopped, so-called out of gas in the compressor 11 ₂ in the other operation If is generated, in a state betweenゝclosed valves 55 ₁ and the valve 57 _1, the valve 25, and valve 27 ₁ is opened. Timing of opening of these valves 25, and valve 27 ₁ is controlled as follows.

[0030] the compressor 11 ₂ in the other operating gas shortage occurs, the temperature of the refrigerant flowing through the compressor 11 _2, i.e., the suction temperature sensor a, and the temperature detected by the discharge temperature sensor b is above a certain temperature To rise. This is the opening timing, and when the controller 28 determines that the temperature has risen to a certain temperature or higher, through this controller 28,
The valve 25 and the valve 27 ₁ are simultaneously opened.

[0031] Here, the suction pipe of the compressor 11 ₂ in operation 2
3 _second pressure is typically lower than the pressure of the outdoor unit 1 in the _first stopped. Thus, the valve 25, and the valve 27 ₁ is opened simultaneously, as shown by the arrows in FIG. 2, flow occurs in the refrigerant in the outdoor unit 1 _1, the flow through the communication tube 24, in operation towards the suction pipe 23 ₂ of the compressor 11 ₂ is sucked from there into the compressor 11 _2. According to this, ₁ or accumulator 10 located in the outdoor unit 1 in the _first stopped, and the outdoor heat exchanger 14 _1, instead of the refrigerant from staying in such receiver tank 16 _1, during operation the compressor 11 ₂ Of gas is surely prevented.

[0032]

As is apparent from the above description, according to the present invention, the return pipes are connected to each other by the connecting pipe, and the connecting pipe is connected to the suction pipe of the stopped compressor by the suction pipe of the operating compressor. Since a control valve for guiding the refrigerant to the pipe is provided, the refrigerant does not stay in the accumulator connected to the stopped compressor, the outdoor heat exchanger, the receiver tank, etc.
It is possible to reliably prevent the compressor from running out of gas during operation.

[Brief description of the drawings]

FIG. 1 is a system diagram showing an embodiment of a refrigeration apparatus according to the present invention.

FIG. 2 is a system diagram showing another embodiment.

[Explanation of symbols]

1 ₁ , 1 ₂ outdoor unit 3 ₁ , 3 ₂ indoor unit 10 ₁ , 10 ₂ accumulator 11 ₁ , 11 ₂ compressor 12 ₁ , 12 ₂ oil separator 14 ₁ , 14 ₂ outdoor heat exchanger 21 ₁ , 21 ₂ return Pipes 23 ₁ and 23 ₂ Suction pipe 24 Connecting pipe 25 Valve 27 ₁ and 27 ₂ valve 28 Controller a Suction temperature sensor b Discharge temperature sensor

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int. Cl. ⁷ , DB name) F25B 1/00 387 F25B 13/00

Claims (2)

(57) [Claims] 1. A compressor, an oil separator and an outdoor heat exchanger.
Multiple outdoor units and gas
An indoor unit connected through a pipe and a liquid pipe,
The oil separator is connected with return pipes for returning separated oil to the compressors via suction pipes of the compressors of the respective outdoor units , and at least one of the return pipes when the refrigeration load is reduced. In a refrigeration system in which the operation of a compressor of two outdoor units is stopped, a gas pipe connected to the outdoor unit is provided.
And a valve is provided in the liquid pipe, and the return pipes of the outdoor unit are connected to each other by a connecting pipe, and the operation of the outdoor unit is stopped.
Closing the valve leading to Tsu DOO, outdoor Uni in this stop
Refrigerating apparatus characterized by a set <br/> Ke control valve for guiding the refrigerant to the connecting tube to the suction pipe of the compressor of the outdoor unit during operation from the suction pipe of Tsu bets compressor. 2. It has a compressor, an oil separator and an outdoor heat exchanger.
Multiple outdoor units and gas
An indoor unit connected through a pipe and a liquid pipe,
The separated oil is supplied to each of the outdoor units in the oil separator.
Return pipes to these compressors are connected via the suction pipe of the compressor.
If the refrigeration load decreases, at least one
The operation of the compressor of the outdoor unit was stopped.
In the refrigeration system, the liquid pipe connected to the outdoor unit
A valve is provided, and a valve is provided at the outlet of the oil separator.
Connect the return pipes of the external unit with connecting pipes and operate
Close the two valves of the outdoor unit that stopped
During operation of the outdoor unit during shutdown,
Control to guide refrigerant to suction pipe of compressor of outdoor unit
A refrigeration apparatus, wherein a valve is provided on the connecting pipe.