JPH0979668A - Refrigerating equipment, controlling method thereof and outdoor machine unit for refrigerating equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To execute a stable operation irrespective of the kind of refrigerant used for refrigerating equipment. SOLUTION: A solenoid valve 6 is provided on the upstream side of an expansion valve 5 constituting a refrigerating cycle. The downstream side of a liquid receiver 4 and a compression chamber of a compressor 1 are connected by liquid injection piping 12 and a flow control valve 10 and a solenoid valve 11 are provided between them. A pressure sensor 7 and a thermistor 8 are provided on the downstream side of a condenser 2 and data thereof are inputted to a controller 13. The opening of the flow control valve 10 is controlled by the controller 13 in accordance with a detected value of discharge gas temperature 9.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerating apparatus, a control method therefor, and an outdoor unit for a refrigerating apparatus. For example, -45 ° C to -30
(° C.), it enables efficient and stable operation regardless of the type of refrigerant.

[0002]

2. Description of the Related Art As a conventional technique, for example, Japanese Unexamined Patent Publication No.
As described in Japanese Patent No. 129255, there is known a refrigerating apparatus equipped with a scroll compressor, in which a liquid refrigerant is introduced (injected) into an intermediate pressure portion of the compressor to control a discharge gas temperature of the compressor. There is.

[0003]

In the conventional refrigeration system described above, the optimum discharge gas temperature is controlled for a specific single refrigerant, and one specific refrigeration system is controlled by the specific single refrigeration system. It was not considered to operate by enclosing a refrigerant other than the refrigerant. For this reason, if a refrigerant other than a specific single refrigerant is enclosed in the refrigeration system and used, phenomena such as abnormal rise or fall in discharge gas temperature or increase in compressor input occur, making stable operation impossible. There was a problem of becoming.

It is an object of the present invention to obtain a refrigerating apparatus which can use a plurality of types of refrigerant for one refrigerating apparatus, a control method therefor, and an outdoor unit for a refrigerating apparatus.

[0005]

A first feature of the present invention for achieving the above object is to provide a liquid injection pipe for connecting a liquid receiver in a refrigeration cycle or a downstream side of the liquid receiver with a compressor, and the liquid injection pipe. Provided in the injection pipe, equipped with a flow control valve for controlling the liquid injection amount to be injected into the compressor, to estimate the refrigerant used from the pressure and temperature of the condensed refrigerant in the condenser or its downstream,
The flow control valve is controlled according to the discharge gas temperature of the compressor based on a control characteristic according to the type of refrigerant.

A second feature of the present invention is that a compressor, a condenser,
In a refrigerating apparatus having a liquid receiver, an expansion valve and an evaporator, which are sequentially connected to form a refrigeration cycle, a liquid injection pipe connecting the liquid receiver or a downstream side thereof to a compressor, and this liquid. A flow rate control valve that is provided in the injection pipe and controls the amount of liquid injection injected into the compressor, a temperature sensor for detecting the discharge gas temperature of the compressor, and the plurality of refrigerants, for each refrigerant Based on the storage means for storing the control characteristic for appropriately controlling the flow rate control valve and the appropriate control characteristic of the flow rate control valve according to the type of refrigerant in use, the discharge gas detected by the temperature sensor And a controller for controlling the flow rate control valve according to the temperature.

A third feature of the present invention is that a compressor, a condenser,
In a refrigerating apparatus having a liquid receiver, an expansion valve and an evaporator, which are sequentially connected to form a refrigeration cycle, a liquid injection pipe connecting the liquid receiver or a downstream side thereof to a compressor, and this liquid. A flow rate control valve provided in the injection pipe to control the amount of liquid injection injected into the compressor, a pressure sensor for detecting the condensed refrigerant pressure on the downstream side of the condenser, and a condensed refrigerant on the downstream side of the condenser. A first temperature sensor for detecting a temperature and a second temperature sensor for detecting a discharge gas temperature of the compressor.
Temperature sensor, and for a plurality of types of refrigerant, storage means for pre-storing the physical property values of the plurality of refrigerants, respectively,
The refrigerant used is estimated from the pressure and temperature of the condensed refrigerant on the downstream side of the condenser, and the flow control valve is controlled based on the control characteristics according to the type of refrigerant according to the discharge gas temperature of the compressor. To do.

A fourth feature of the present invention is that a compressor, a condenser,
In a refrigeration system having a liquid receiver, an expansion valve, and an evaporator, which are sequentially connected to form a refrigeration cycle, a liquid injection connecting the liquid receiver or a downstream side thereof and a pressure working chamber of the compressor. A pipe, a flow control valve provided in the liquid injection pipe, for controlling the amount of liquid injection injected into the pressure working chamber of the compressor, and a pressure sensor for detecting the condensed refrigerant pressure on the downstream side of the condenser, A first temperature sensor for detecting a condensed refrigerant temperature on the downstream side of the condenser, a second temperature sensor for detecting a discharge gas temperature of the compressor, and a condensing pressure for each of a plurality of types of refrigerants. And a condensation temperature, first storage means for previously obtaining and storing data, a detected pressure and temperature of the condensed refrigerant, and condensation stored in the storage means. Used refrigerant estimation means for estimating the refrigerant used from the relationship data between the force and the condensing temperature, and for the plurality of refrigerants, for appropriately controlling the flow control valve for each refrigerant. Discharge gas detected by the second temperature sensor, based on second storage means for storing control characteristics and appropriate control characteristics of the flow control valve according to the estimated type of refrigerant in use And a controller for controlling the flow rate control valve according to the temperature.

A fourth feature of the present invention is that a compressor, a condenser,
In a refrigeration system having a liquid receiver, an expansion valve, and an evaporator, which are sequentially connected to form a refrigeration cycle, a liquid injection connecting the liquid receiver or a downstream side thereof and a pressure working chamber of the compressor. A pipe, a solenoid valve provided in this liquid injection pipe, and a flow control valve for controlling the amount of liquid injection injected into the pressure working chamber of the compressor, and for detecting the condensed refrigerant pressure on the downstream side of the condenser. Pressure sensor, a condensate temperature thermistor for detecting the temperature of condensed refrigerant on the downstream side of the condenser, a discharge gas temperature thermistor for detecting the discharge gas temperature of the compressor, and a plurality of types. First storage means for previously obtaining and storing the relationship data between the condensing pressure and the condensing temperature for each of the refrigerants, the detected pressure and temperature of the condensing refrigerant, and Use refrigerant estimation means for estimating the refrigerant used from the relationship data between the condensation pressure and the condensation temperature stored in the storage means, and the liquid injection for each of the plurality of refrigerants. Second storage means for storing the start temperature of the liquid injection, the stop temperature of the liquid injection, the control amount of the flow control valve according to the compressor discharge gas temperature, the time interval of the start / stop of the liquid injection, and the estimated use. Type of medium refrigerant and the second
The control means for controlling the flow rate control valve according to the discharge gas temperature detected by the second temperature sensor based on the storage data of the storage means.

A fifth feature of the present invention is a refrigeration system having a scroll compressor, a condenser, a liquid receiver, an expansion valve and an evaporator, which are sequentially connected to constitute a refrigeration cycle. A liquid injection pipe connecting the liquid receiver or its downstream side to the pressure working chamber of the scroll compressor, a solenoid valve provided in this liquid injection pipe, and a pressure working chamber of the scroll compressor. A flow control valve for controlling the liquid injection amount, a pressure sensor for detecting the condensed refrigerant pressure on the downstream side of the condenser, and a condensate temperature for detecting the condensed refrigerant temperature on the downstream side of the condenser. A thermistor, a discharge gas temperature thermistor for detecting the discharge gas temperature of the scroll compressor, R-22, R-404A, R-507 refrigerants, or these refrigerants. For the combined refrigerant, first storage means for previously obtaining and storing the relationship data between the condensation pressure and the condensation temperature, the detected pressure and temperature of the condensation refrigerant, and the storage means stored in the storage means. Using refrigerant estimation means for estimating the refrigerant used from the relationship data between the condensation pressure and the condensation temperature, and the plurality of refrigerants,
For each of the refrigerants, a second temperature storing the liquid injection start temperature, the liquid injection stop temperature, the control amount of the flow control valve according to the compressor discharge gas temperature, and the liquid injection start / stop time interval are stored. The flow rate control valve is controlled according to the discharge gas temperature detected by the second temperature sensor based on the storage means, the estimated type of the refrigerant in use, and the storage data of the second storage means. However, the injection flow rate into the compressor is controlled so that the discharge temperature is in the range of 60 ° C to 100 ° C, and the high-pressure side pressure is 26 kg / c.
Scroll when m ² or more or compressor discharge temperature is 120 ° C or more
And a control means for stopping the compressor.

A sixth feature of the present invention is that a compressor, a condenser,
In a refrigeration system having a liquid receiver, an expansion valve, and an evaporator, which are sequentially connected to form a refrigeration cycle, a liquid injection connecting the liquid receiver or a downstream side thereof and a pressure working chamber of the compressor. A pipe is prepared, and first storage means for preliminarily determining and storing relationship data between the condensation pressure and the condensation temperature for each of a plurality of types of refrigerant is prepared. A second storage means that stores control characteristics for appropriately controlling the flow control valve is prepared, the pressure and temperature of the condensed refrigerant are detected, and the detected value and the condensation stored in the first storage means. The refrigerant used is estimated from the relationship data between the pressure and the condensing temperature, and the gas discharged from the compressor is estimated based on the estimated type of the refrigerant in use and the stored data in the second storage means. The liquid depending on the temperature The control method of a refrigeration apparatus for controlling the infusion rate of from Njekushon pipe.

A seventh feature of the present invention is that a compressor, a condenser provided on the downstream side of the compressor, a liquid receiver provided on the downstream side of the condenser, the liquid receiver or the downstream thereof. A liquid injection pipe connecting the side and the pressure working chamber of the compressor, and a flow rate control valve provided in the liquid injection pipe for controlling the amount of liquid injection injected into the pressure working chamber of the compressor, and the condenser. A pressure sensor for detecting the condensed refrigerant pressure on the downstream side, a first temperature sensor for detecting the condensed refrigerant temperature on the downstream side of the condenser, and a first temperature sensor for detecting the discharge gas temperature of the compressor. Two
Of the temperature sensor, a plurality of types of refrigerant, first storage means for preliminarily storing and storing the relationship data between the condensing pressure and the condensing temperature, the pressure and temperature of the detected condensed refrigerant, A controller for estimating the refrigerant used from the relationship data between the condensing pressure and the condensing temperature stored in the storage means, and for the plurality of refrigerants, the flow control valve is appropriate for each refrigerant. The second temperature sensor based on an appropriate control characteristic of the flow rate control valve according to the estimated type of the refrigerant in use, and second storage means for storing the control characteristic for controlling An outdoor unit unit for a refrigerating apparatus, which includes a controller that controls the flow rate control valve according to the detected discharge gas temperature.

[0013]

According to the present invention, there are the following actions. ◆ The pressure sensor and the thermistor (first temperature sensor) provided on the downstream side of the condenser detect the condensed refrigerant liquid pressure and the condensed refrigerant liquid temperature for a certain period of time after the start of the refrigeration system. It is possible to estimate the refrigerant enclosed in the refrigeration system by comparing the physical property values (condensation pressure, condensation temperature, etc.) of a plurality of refrigerants input to the controller (control means) or the like. As described above, in the present invention, since the refrigerant can be estimated from the data during operation, it is possible to prevent the failure of the refrigeration system such as the discharge gas temperature control failure due to the wrong setting of the refrigerant type. It should be noted that, when the sealed refrigerant is known, it is within the scope of the present invention to use a switch or the like to mechanically set the used refrigerant.

Further, in the present invention, the discharge gas temperature of the compressor is detected by a second temperature sensor or the like, and the flow rate control valve is set for each of the plurality of refrigerants by the second storage means or the like. Since the control characteristic for proper control is stored, it is detected by the temperature sensor based on the proper control characteristic of the flow control valve according to the estimated or preset type of the refrigerant in use. The flow rate control valve can be appropriately controlled depending on the refrigerant used depending on the discharge gas temperature.

As described above, according to the present invention, the liquid injection flow rate can be optimally controlled according to the estimated or preset refrigerant, and stable discharge gas temperature control can be performed.

[0016]

Embodiments of the present invention will be described below with reference to the drawings. ◆ Fig. 1 is a diagram showing the basic refrigeration cycle of a refrigeration system. In the figure, 1 is a scroll compressor, 2 is a condenser provided on the downstream side of the compressor, 3 is an evaporator, and these devices are sequentially installed. Refrigerant cycle is configured by being connected by a refrigerant pipe 15. Reference numeral 4 denotes a liquid receiver provided on the downstream side of the condenser 2, 5 denotes an expansion valve, and 6 denotes an electromagnetic valve. Reference numeral 12 is a liquid injection pipe that connects the refrigerant pipe in the liquid receiver 4 or on the downstream side thereof to the pressure working chamber of the compressor 1. The liquid injection pipe 12 has a flow control valve 10 for controlling the liquid injection amount and a compression valve. An electromagnetic valve 11 is provided which is closed when the machine is stopped and when the power is cut off. Reference numerals 16 and 17 denote pipe connecting portions, which are on the right side of the pipe connecting portions (on the side where the evaporator 3 is located).
Is an indoor unit A, and the left side (the side where the condenser is) is an outdoor unit B. These units A and B are connected by pipe connecting portions 16 and 17 to form a refrigeration cycle. The evaporator 3, the expansion valve 5, and the solenoid valve 6 are provided on the indoor unit A side, and other devices are provided on the outdoor unit B side. A pressure sensor 7 for detecting the pressure of the condensed refrigerant liquid and a thermistor (first temperature sensor) 8 for detecting the condensed liquid refrigerant temperature are provided on the downstream side of the condenser 2. The values of the pressure and temperature of the condensed refrigerant liquid thus obtained are input to the controller (used refrigerant estimation means, control means) 13. Reference numeral 9 is a thermistor (second temperature sensor) provided in the compressor 1 for detecting the discharge gas temperature, and the discharge gas temperature detected by the thermistor 9 is also input to the controller 13.

The controller 13 includes R-22 and R-4.
No. 04A, R-507, or a mixture of these refrigerants, first storage means for preliminarily obtaining and storing the relationship data between the condensing pressure and the condensing temperature, and the detected condensing refrigerant. Refrigerant used for estimating the refrigerant used from the pressure and temperature, and the relationship data between the condensation pressure and the condensation temperature stored in the storage means, and each of the plurality of refrigerants And a second storage means for storing the liquid injection start temperature, the liquid injection stop temperature, the control amount of the flow control valve according to the compressor discharge gas temperature, and the liquid injection start / stop time interval for each. The flow rate control valve is controlled in accordance with the discharge gas temperature detected by the second temperature sensor based on the estimated type of the refrigerant in use and the storage data of the second storage means. Gyoshi, discharge temperature is 60 ° C. to 100
℃, preferably control the injection flow rate to the compressor so that it is in the range of 60 ℃ ~ 90 ℃, high pressure side is 26kg / cm ²
Control means for abnormally stopping the scroll compressor at the above temperature or at a compressor discharge temperature of 120 to 130 ° C. or higher. Normally the condensation side (high pressure side) pressure is 15 to 20
Controlled in the range of ° C.

In the present embodiment, the pressure and temperature of the condensed liquid refrigerant within a preset fixed time after the start of the operation of the refrigerating apparatus are detected by the pressure sensor and the first temperature sensor, and the detected value is filled in the refrigerating apparatus. The refrigerant used is estimated.

As described above, the controller 13 controls the flow rate control valve 10 so that the compressor discharge gas temperature converges within a preset temperature range depending on the compressor discharge gas temperature and the refrigerant used.

The low temperature low pressure refrigerant gas evaporated in the evaporator 3 is
After being compressed into high-temperature high-pressure gas in the compressor 1, condensed in the liquid refrigerant in the condenser 2 and temporarily stored in the liquid receiver 4, it passes through the solenoid valve 6 and the expansion valve 5 and enters the evaporator 3 again. The cycle is configured. The evaporation temperature in the evaporator is generally -5.
It is controlled to ~ -45 ° C, but especially in the region where the evaporation temperature is low,
For example, at −30 to −45 ° C., the discharge gas temperature rises, and its characteristics differ depending on the type of refrigerant. Therefore, in the present invention, the flow rate control valve 10 is controlled with a control characteristic according to the type of refrigerant so that the discharge gas temperature is in the range of 60 to 100 ° C.

In the figure, reference numeral 18 denotes a cooling fan for sending cooling air to the condenser, and this cooling fan is also controlled by the controller 13 so that the rotation speed is appropriately controlled according to the kind of the refrigerant. In addition, the condenser 2 by a water cooling system such as a cooling tower.
Some cool down. In this case, since the cooling capacity has a margin, control such as rotation speed control of the cooling fan is unnecessary.

Next, a method of controlling the refrigerating apparatus shown in FIG. 1 will be described with reference to FIG.
The flowchart will be described. ◆ In the refrigeration system, the solenoid valve 6 is opened by the operation start signal, the compressor 1 starts the operation with the rise of the low pressure, and the solenoid valve 11 provided in the liquid injection pipe 12 is synchronized with this. Open circuit. After the start of operation, within a predetermined time set in the controller 13, regardless of the temperature detected by the discharge gas temperature detecting thermistor 9 installed in the compressor 1,
Flow control valve 1 provided in the liquid injection pipe 12
A pressure sensor 7 for detecting the pressure and temperature of the condensed refrigerant liquid provided on the downstream side of the condenser 2 with 0 as a constant opening degree.
Also, the pressure and temperature of the condensed refrigerant liquid detected by the thermistor 8 are compared with the respective physical property values of the various refrigerants input in advance to the controller 13, and the controller estimates the refrigerant enclosed in the refrigeration system. Perform at 13.

After a lapse of a predetermined time set by the controller 13, the opening degree of the flow control valve 10 installed in the liquid injection pipe 12 is adjusted by the controller 13 according to the kind of the refrigerant sealed in the refrigerating apparatus. Control with the optimum control amount.

An example of control contents of the flow control valve 10 provided in the liquid injection pipe 12 will be described with reference to FIGS. 3 shows the content of the liquid injection control data for each type of refrigerant, which is input in advance to the controller 13, and FIG. 4 is an explanatory diagram of the opening correction of the liquid injection flow control valve 10.

Description will be made assuming that the type of the refrigerant enclosed in the refrigerating apparatus is estimated by the controller 13 to be the refrigerant A shown in FIG. ◆ In synchronization with the start of operation of the compressor 1, the solenoid valve 11 provided in the liquid injection pipe opens. After that, when the temperature detected by the thermistor 9 for detecting the discharge gas temperature of the compressor 1 rises to t _A , the controller 13 issues a command to the flow control valve 10 so that the opening becomes R _A. put out. As a result, the condensed liquid refrigerant is introduced into the compression chamber of the compressor 1 through the liquid injection pipe 12, and the discharge gas temperature of the compressor 1 starts to drop. The discharge gas temperature is t _A −Δt _A
When it is lowered to, the opening degree of the flow control valve 10 is fully closed.
The opening _RA of the flow rate control valve 10 is a basic set opening in the refrigerant A, and there is a difference depending on the operating conditions of the refrigeration system, so it is necessary to correct this. According to FIG.
The correction of the opening degree of the flow control valve 10 will be described. Compressor 1
Once the discharge gas temperature of T rises to t _A , the flow control valve 10 opens and its temperature begins to drop, and the discharge gas temperature is t
_When it is lowered to _A- Δt _A , the liquid injection flow rate control valve 10 is closed, the temperature of the discharge gas rises again and reaches t _A , which is repeated. This liquid injection start (ON) / stop (OFF) basic time interval is preset in the controller 13 as shown in FIG. 3, and in the case of the refrigerant A, the liquid injection start / stop basic time interval is set to T _A. ing. As shown in FIG. 4, when the actual liquid injection start / stop time interval is T, the opening degree of the flow control valve 10 is corrected to R _A 'by the following equation (1) so that it converges to T _A. Control.

_RA ′ = _RA × {1- (T−T _A ) / 100} (1) This correction of the opening of the flow control valve 10 makes it optimal for the operating conditions of the refrigeration system. It is possible to control liquid injection at various flow rates.

The other refrigerant B and the like shown in FIG. 3 are similarly controlled.

[0028]

According to the present invention, the optimum liquid injection control can be performed according to each refrigerant regardless of the kind of the refrigerant enclosed in the refrigerating apparatus, so that one refrigerating apparatus can produce a plurality of refrigerants. It is possible to obtain a compatible refrigeration system, and even if a certain refrigerant cannot be used due to restrictions on the use of the refrigerant, efficient operation corresponding to the new refrigerant is possible without adding special load equipment. Become.

Further, even if the type of the refrigerant is accidentally enclosed or the type of the enclosed refrigerant is mistakenly set, efficient operation can always be carried out automatically and reliability is improved. It is possible to improve the sex.

[Brief description of drawings]

FIG. 1 shows a refrigeration cycle system diagram of a refrigeration system showing an embodiment of the present invention.

FIG. 2 is a flowchart illustrating control of the embodiment of FIG.

FIG. 3 is a view for explaining the data content of liquid injection control of the embodiment of FIG.

FIG. 4 is a diagram illustrating discharge gas temperature control of the embodiment of FIG.

[Explanation of symbols]

1 ... Compressor, 2 ... Condenser, 3 ... Evaporator, 4 ... Liquid receiver, 5
... expansion valve, 6 ... solenoid valve, 7 ... pressure sensor, 8 ... thermistor (first temperature sensor), 9 ... thermistor (second temperature sensor), 10 ... flow control valve, 11 ... solenoid valve, 12 ... liquid injection pipe , 13 ... Controller (control means, used refrigerant estimation means, first and second storage means), 15 ... Refrigerant piping, 16, 17 ... Piping connection portion, 18 ... Cooling fan, A ...
Indoor unit, B ... Outdoor unit.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Ryosuke Tomita 390 Muramatsu, Shimizu City, Shizuoka Prefecture Within Hitachi Shimizu Engineering Co., Ltd.

Claims (12)

[Claims] 1. A liquid injection pipe for connecting a liquid receiver in a refrigeration cycle or its downstream side to a compressor, and a flow rate control valve provided in the liquid injection pipe for controlling a liquid injection amount injected into the compressor. And estimating the refrigerant used from the pressure and temperature of the condensed refrigerant in the condenser or its downstream side, the flow control valve according to the type of refrigerant depending on the discharge gas temperature of the compressor A refrigeration system characterized by performing control based on control characteristics. 2. A refrigerating apparatus having a compressor, a condenser, a liquid receiver, an expansion valve and an evaporator, which are sequentially connected to form a refrigeration cycle, wherein the liquid receiver or a downstream side thereof and a compressor. A liquid injection pipe for connecting with, a flow control valve provided in the liquid injection pipe for controlling the liquid injection amount to be injected into the compressor, a temperature sensor for detecting the discharge gas temperature of the compressor, and For a plurality of refrigerants, a storage means for storing control characteristics for appropriately controlling the flow control valve for each refrigerant, and an appropriate control characteristic of the flow control valve according to the type of refrigerant in use Based on the discharge gas temperature detected by the temperature sensor, a controller for controlling the flow rate control valve is provided. 3. A refrigeration apparatus having a compressor, a condenser, a liquid receiver, an expansion valve and an evaporator, which are sequentially connected to constitute a refrigeration cycle, wherein the liquid receiver or a downstream side thereof and a compressor. A liquid injection pipe for connecting with, a flow control valve provided in the liquid injection pipe for controlling the liquid injection amount to be injected into the compressor, and a pressure sensor for detecting the condensed refrigerant pressure on the downstream side of the condenser. A first temperature sensor for detecting a condensed refrigerant temperature on the downstream side of the condenser, a second temperature sensor for detecting a discharge gas temperature of the compressor, and a plurality of kinds of refrigerants, respectively. A storage means for storing physical property values of a plurality of refrigerants in advance, estimating the used refrigerant from the pressure and temperature of the condensed refrigerant on the downstream side of the condenser, and A refrigeration system characterized in that the flow rate control valve is controlled based on a control characteristic according to the type of refrigerant according to the discharge gas temperature of the compressor. 4. A refrigerating apparatus having a compressor, a condenser, a liquid receiver, an expansion valve and an evaporator, which are sequentially connected to form a refrigeration cycle, wherein the liquid receiver or its downstream side and the compression unit. A liquid injection pipe connecting the pressure working chamber of the compressor, a flow control valve provided in the liquid injection pipe for controlling the amount of liquid injection injected into the pressure working chamber of the compressor, and a condenser on the downstream side of the condenser. A pressure sensor for detecting a refrigerant pressure, a first temperature sensor for detecting a condensed refrigerant temperature on the downstream side of the condenser, and a second temperature sensor for detecting a discharge gas temperature of the compressor. And first storage means for previously obtaining and storing relationship data between the condensation pressure and the condensation temperature for a plurality of types of refrigerant, and the detected pressure and temperature of the condensed refrigerant. And a used refrigerant estimation means for estimating the refrigerant used from the relationship data between the condensation pressure and the condensation temperature stored in the storage means, and for each of the plurality of refrigerants, the refrigerant Second storage means for storing a control characteristic for appropriately controlling the flow control valve; and the second control means based on an appropriate control characteristic of the flow control valve according to the estimated type of the refrigerant in use. A refrigerating apparatus comprising: a controller that controls the flow rate control valve according to the discharge gas temperature detected by the second temperature sensor. 5. The controller according to claim 4, wherein the controller is provided with the first storage means, the second storage means, and a used refrigerant estimation means, and within a preset fixed time after the start of the operation of the refrigeration system. The pressure and temperature of the condensed liquid refrigerant are detected by the pressure sensor and the first temperature sensor, and the refrigerant used in the refrigeration apparatus is estimated based on the detected values. 6. The controller according to claim 4, wherein the controller is
A refrigeration system characterized in that the flow control valve is controlled so that the compressor discharge gas temperature converges within a preset temperature range depending on the compressor discharge gas temperature and the refrigerant used. 7. A refrigerating apparatus having a compressor, a condenser, a liquid receiver, an expansion valve and an evaporator, which are sequentially connected to form a refrigeration cycle, wherein the liquid receiver or its downstream side and the compression unit. Injection pipe connecting the pressure working chamber of the compressor, a solenoid valve provided in the liquid injection pipe, and a flow control valve for controlling the amount of liquid injection injected into the pressure working chamber of the compressor, and the condenser. A pressure sensor for detecting the condensed refrigerant pressure on the downstream side, a condensate temperature thermistor for detecting the condensed refrigerant temperature on the downstream side of the condenser, and for detecting the discharge gas temperature of the compressor. Of the discharge gas temperature thermistor, and first storage means for preliminarily obtaining and storing the relational data of the condensing pressure and the condensing temperature for a plurality of types of refrigerants, respectively. Used refrigerant estimating means for estimating the refrigerant used from the pressure and temperature of the condensed refrigerant and the relationship data between the condensation pressure and the condensation temperature stored in the storage means, and the plurality of refrigerants. Regarding, for each of the refrigerant, the liquid injection start temperature, the liquid injection stop temperature, the control amount of the flow control valve according to the compressor discharge gas temperature, the liquid injection start / stop time interval stored 2 storage means, the flow control valve according to the discharge gas temperature detected by the second temperature sensor based on the estimated type of the refrigerant in use and the storage data of the second storage means. A refrigeration apparatus comprising: 8. A refrigerating apparatus comprising a scroll compressor, a condenser, a liquid receiver, an expansion valve and an evaporator, which are sequentially connected to constitute a refrigeration cycle, wherein the liquid receiver or the downstream side thereof. And a liquid injection pipe connecting the pressure working chamber of the scroll compressor, a solenoid valve provided in the liquid injection pipe, and for controlling the amount of liquid injection injected into the pressure working chamber of the scroll compressor. Flow control valve, a pressure sensor for detecting the condensed refrigerant pressure on the downstream side of the condenser, a condensate temperature thermistor for detecting the condensed refrigerant temperature on the downstream side of the condenser, and the scroll. A discharge gas temperature thermistor for detecting the discharge gas temperature of the compressor, R-22, R-404A, R-507 refrigerants, or a mixed refrigerant thereof. First storage means for preliminarily obtaining and storing relationship data between the condensation pressure and the condensation temperature, the detected pressure and temperature of the condensed refrigerant, and the condensation pressure stored in the storage means. Refrigerant use means for estimating the refrigerant used from the relationship data between the condensation temperature and the condensation temperature, for each of the plurality of refrigerants, the starting temperature of the liquid injection, the stop of the liquid injection Temperature, a control amount of the flow control valve according to the temperature of the gas discharged from the compressor, a second storage unit that stores a time interval of start / stop of liquid injection, the estimated type of the refrigerant in use, and the second Based on the storage data of the storage means, the flow rate control valve is controlled according to the discharge gas temperature detected by the second temperature sensor, and the discharge temperature is compressed in the range of 60 ° C to 100 ° C. Machine Frozen, characterized in that a control means so as to stop the Le compressor - the injection flow rate is controlled, and the high side pressure is 26 kg / cm ² or more or compressor discharge temperature sucrose at 120 ° C. or higher apparatus. 9. A refrigerating apparatus having a compressor, a condenser, a liquid receiver, an expansion valve and an evaporator, which are sequentially connected to constitute a refrigeration cycle, wherein the liquid receiver or its downstream side and the compression unit. A liquid injection pipe connecting the pressure working chamber of the machine is prepared, and for a plurality of types of refrigerants, first storage means is prepared in which relationship data between the condensation pressure and the condensation temperature is obtained in advance and stored, and For a plurality of refrigerants, prepare a second storage means that stores control characteristics for appropriately controlling the flow rate control valve for each refrigerant, detect the pressure and temperature of the condensed refrigerant, and the detected value The refrigerant used is estimated from the relationship data between the condensing pressure and the condensing temperature stored in the first storage means, and the estimated type of the refrigerant in use and the storage in the second storage means. Based on the data, pressure The method of the refrigeration apparatus, characterized in that depending on the discharge gas temperature of the machine to control the injection flow rate from the liquid injection line. 10. The liquid injection pipe according to claim 9, wherein a flow control valve is provided, the opening of the flow control valve is kept constant for a certain period of time after the start of operation of the refrigerating apparatus, and the condensed refrigerant pressure is adjusted within the certain period. A method for controlling a refrigerating apparatus, which comprises detecting a temperature and estimating the refrigerant used from the detected value and the relational data between the condensing pressure and the condensing temperature stored in the first storage means. . 11. The method according to claim 9 or 10, wherein:
The storage means for a plurality of refrigerants, for each refrigerant, the liquid injection start temperature, the liquid injection stop temperature, the control amount of the flow rate control valve according to the compressor discharge gas temperature, the liquid injection start / A method for controlling a refrigerating apparatus, wherein a time interval of stop is stored. 12. A compressor, a condenser provided on the downstream side of the compressor, a liquid receiver provided on the downstream side of the condenser, and a pressure of the liquid receiver or its downstream side and the compressor. A liquid injection pipe connecting the working chamber and a flow control valve provided in the liquid injection pipe for controlling the amount of liquid injection injected into the pressure working chamber of the compressor, and the condensed refrigerant pressure on the downstream side of the condenser. A pressure sensor for detecting, a first temperature sensor for detecting a condensed refrigerant temperature on the downstream side of the condenser, a second temperature sensor for detecting a discharge gas temperature of the compressor, First storage means for previously obtaining and storing relational data between the condensing pressure and the condensing temperature for each type of refrigerant;
A controller for estimating the refrigerant used from the detected pressure and temperature of the condensed refrigerant and the relationship data between the condensed pressure and the condensed temperature stored in the storage means, and the plurality of refrigerants. , Second storage means for storing control characteristics for appropriately controlling the flow control valve for each refrigerant, and appropriate control of the flow control valve according to the estimated type of the refrigerant in use. An outdoor unit for a refrigeration apparatus, comprising: a controller that controls the flow rate control valve according to a discharge gas temperature detected by the second temperature sensor based on control characteristics.