KR101912837B1 - Temperature regulation system with active jetting type refrigerant supply and regulation - Google Patents

Abstract

The present invention proposes a temperature control system by active injection injection type refrigerant supply and control which actively injects coolant into or out of the evaporator by using an active pressure injection injection system to enhance the degree of diffusion and uniformity thereof.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature control system for an active injection-

The present invention relates to a temperature control system by active injection injection type refrigerant supply and control, which actively injects a refrigerant into or out of an evaporator using an active pressure injection injection system to enhance the degree of diffusion and uniformity thereof.

A temperature control system applied to an air flow control device or a temperature control device having a function such as a conventional integrated or detached cooling / heating device, a water-cooled air conditioner, a refrigerator, a freezing or thermostatting or heating, dehumidifying and the like, The system generally has a problem that the degree of diffusion and the degree of uniformity are relatively low because the system is passively absorbed by the evaporator after flowing through the regulating pipe or the regulating valve.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide an apparatus and a method for supplying and controlling an active injection refrigerant having functions such as an integrated or detached cooling / heating device, an air conditioner, a refrigerator, A refrigerant injecting device is installed in a conventional pressure regulating device R100 mounted on an evaporator and the refrigerant is injected into the air conditioning system of the evaporator by using a pressurized injection injection system, And controlling the intensity of the injection injection pressure and the injection amount according to the injection of the pressurized injection to supply the active injection injection type coolant to the inside or the outside of the evaporator (EVA100) System.

In a conventional dry-expansion evaporator, the refrigerant absorbs the heat of the cold water inside the copper tube, then evaporates to the superheated gas and returns to the compressor. The cold water flows into the inside of the corners, In the flooded type evaporator, the refrigerant is filled in or outside the evaporator. The refrigerant maintains a constant level at the sides of the corners. The refrigerant absorbs the heat of the cold water and evaporates into the gaseous refrigerant. The spray type evaporator injects the liquid refrigerant through the spray system and flows into the thin film on the evaporator, then absorbs the heat of the cold water, evaporates to the gaseous refrigerant, and returns to the compressor again. And the falling-type evaporator is configured such that the liquid-phase refrigerant flows downward in the shape of a droplet, a column, or a piece And, the bubbles from the evaporating refrigerant is influenced by the gravity of the liquid refrigerant has a configuration for moving down through the liquid refrigerant.

On the other hand, in the temperature control system according to the present invention, the refrigerant is injected into the evaporator (EVA 100) in the form of fine granules or fine spray through the refrigerant injector (IJ100) The refrigerant having a fine granular shape or a fine spray shape is sprayed onto the surface of the evaporator (EVA100) at a high speed and diffused into the thin film and evaporated, and at the same time, the vapor phase refrigerant already evaporated is moved away from the surface of the evaporator (EVA100) .

A temperature control system applied to an air flow control device or a temperature control device having a function such as a conventional integrated or detached cooling / heating device, a water-cooled air conditioner, a refrigerator, a freezing or thermostatting or heating, dehumidifying and the like, The system generally has a problem that the degree of diffusion and the degree of uniformity are relatively low because the system is passively absorbed by the evaporator after flowing through the regulating pipe or the regulating valve. On the other hand, the present invention has an advantage of injecting coolant actively into or out of the evaporator by using the active pressure injection injection system, thereby enhancing the degree of diffusion and uniformity.

Accordingly, the present invention is applied to a temperature control system by supplying and controlling an active injection refrigerant having functions such as an integrated or detached cooling / heating apparatus, an air conditioner, a refrigerator, A refrigerant injecting device is installed in the adjusting device R100, the refrigerant is injected into the air conditioner system of the evaporator using a pressurized injection injection system, the injection direction of the refrigerant injecting device is controlled through the electronic control unit (ECU 100) And injecting the injected fuel into the evaporator (EVA100) by controlling the set amount of the injection injection pressure and the intensity of the injection injection pressure.

In a conventional dry-expansion evaporator, the refrigerant absorbs the heat of the cold water inside the copper tube, then evaporates to the superheated gas and returns to the compressor. The cold water flows into the inside of the corners, In the flooded type evaporator, the refrigerant is filled in or outside the evaporator. The refrigerant maintains a constant level at the sides of the corners. The refrigerant absorbs the heat of the cold water and evaporates into the gaseous refrigerant. The spray type evaporator injects the liquid refrigerant through the spray system and flows into the thin film on the evaporator, then absorbs the heat of the cold water, evaporates to the gaseous refrigerant, and returns to the compressor again. And the falling-type evaporator is configured such that the liquid-phase refrigerant flows downward in the shape of a droplet, a column, or a piece And, the bubbles from the evaporating refrigerant is influenced by the gravity of the liquid refrigerant has a configuration for moving down through the liquid refrigerant.

On the other hand, in the temperature control system according to the present invention, the refrigerant is injected into the evaporator (EVA 100) in the form of fine granules or fine spray through the refrigerant injector (IJ100) The refrigerant having a fine granular shape or a fine spray shape is sprayed onto the surface of the evaporator (EVA100) at a high speed and diffused into the thin film and evaporated, and at the same time, the vapor phase refrigerant already evaporated is moved away from the surface of the evaporator (EVA100) .

In other words, the temperature control system according to the present invention can be applied to various types of structures as follows.

In the temperature control system according to the present invention for supplying and controlling the active injection refrigerant, the refrigerant injector IJ100 installed in the evaporator EVA100 may include one or more refrigerant injectors.

In the temperature control system according to the present invention, the evaporator (EVA100) and the refrigerant injector (IJ100) may have a separate structure or an integral structure.

In the temperature control system according to the present invention, the refrigerant injector IJ100 installed in the evaporator EVA100 may have an integral structure with the pressure-regulating device R100 or may have an individual structure .

In the temperature control system according to the present invention, the driving circuit device (CD100) is configured such that the refrigerant injected from the refrigerant injector (IJ100) injects the refrigerant into a fine granular shape or a fine spray shape Control is possible.

In the temperature control system according to the present invention, the driving circuit device CD100 continuously or indirectly changes the injection direction through the injection of the refrigerant injection device IJ100, So that the periodic scan of the direction of injection through the electrodes can be changed.

Further, in the temperature control system according to the present invention, the application range includes an integrated or detached cooling / heating apparatus, a water-cooled air conditioner, a refrigerator, a refrigerator or an application device having a temperature control function and a dehumidification function .

1 is a perspective view showing a configuration of a main system of a basic principle of a system according to the present invention.
2 is a perspective view showing a configuration of a system in which a temperature detection device TD100 is additionally provided in the embodiment shown in FIG.
3 is a perspective view showing a configuration of a system in which a liquid refrigerant detection device HD100 is additionally provided in the embodiment shown in FIG.
4 is a perspective view showing a configuration of a system in which a temperature detection device TD100 and a liquid refrigerant detection device HD100 are additionally provided in the embodiment shown in FIG.
5 is a perspective view showing a configuration of a fan F101 system of an evaporator EVA 100 that blows airflow through the embodiment shown in Fig.
6 is a perspective view showing the configuration of a fan F101 system of an evaporator EVA100 blowing an airflow through the embodiment shown in Fig. 4 and a fan F102 system of a condenser CON100 blowing airflow therethrough. Fig. to be.
7 is a block diagram showing a system in which an evaporator EVA100 is coupled to a heat exchange device HE100 in the embodiment shown in FIG.
FIG. 8 is a block diagram showing the configuration of a system in which a fan F102 is additionally provided in the embodiment shown in FIG.
FIG. 9 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.
10 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.
11 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in Fig.
FIG. 12 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.
FIG. 13 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.
FIG. 14 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.
FIG. 15 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.
FIG. 16 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, aspects and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

1 is a perspective view showing a configuration of a main system of a basic principle of a system according to the present invention.

As shown in FIG. 1, its main configuration is composed of an operation input device OID 100, an electronic control unit (ECU 100), a drive circuit device (CD100), a refrigerant injection device IJ100, an evaporator EVA100, a compression pump PUMP100, A condenser CON100, and a pipeline P100.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The electronic control unit (ECU 100) comprises an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and operates the driving circuit device (CD100) The liquid refrigerant REF100 controlled by the condenser CON100 is injected into the evaporator EVA100 through the pressurized injection of the refrigerant injector IJ100, As shown in FIG.

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force or an electromagnetic force or a magnetostrictive or piezoelectric effect provided by one or more than one of the refrigerant injectors IJ100 and IJ100, Or the refrigerant REF100 which is integrated with the evaporator EVA100 and is driven under the control of the driving circuit device CD100 so that the refrigerant REF100 delivered from the condenser CON100 is subjected to a fixed or periodic scan scan ) And is converted into a fine granule shape or a fine spray shape according to the setting of the injecting injection amount and the injection intensity, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

2 is a perspective view showing a configuration of a system in which a temperature detection device TD100 is additionally provided in the embodiment shown in FIG.

As shown in FIG. 2, its main components are an operation input device OID 100, a temperature detection device TD 100, an electronic control unit 100, a drive circuit device CD 100, a refrigerant injection device IJ 100, an evaporator EVA 100 ), A compression pump (PUMP100), a condenser (CON100), and a pipeline (P100).

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) includes an electronic device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and transmits a command of the operation input device (OID 100) and a detection signal of the temperature detection device And the liquid refrigerant REF100 controlled by the condenser CON100 is supplied to the refrigerant injection device IJ100 through the pressure injection of the refrigerant injection device IJ100 by driving the driving circuit device CD100, And controls the timing of injection into or out of the evaporator (EVA100) through injection.

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

3 is a perspective view showing a configuration of a system in which a liquid refrigerant detection device HD100 is additionally provided in the embodiment shown in FIG.

As shown in FIG. 3, the main components thereof include an operation input device OID 100, an electronic control unit (ECU 100), a drive circuit device (CD100), a refrigerant injection device IJ100, an evaporator EVA100, a liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, and a pipeline P100.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives a command of the operating input device (OID 100) and a detection signal of the liquid refrigerant detecting device And the liquid refrigerant REF100 controlled by the condenser CON100 is supplied to the refrigerant injector IJ100 through the driving circuit device CD100 by driving the refrigerant injecting device IJ100, And controls the timing of injection into or out of the evaporator (EVA100) through injection injection.

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

4 is a perspective view showing a configuration of a system in which a temperature detection device TD100 and a liquid refrigerant detection device HD100 are additionally provided in the embodiment shown in FIG.

As shown in Fig. 4, its main configuration is composed of an operation input device OID 100, a temperature detection device TD100, an electronic control unit 100, a drive circuit device CD100, a refrigerant injection device IJ100, an evaporator EVA100 A liquid refrigerant detection device HD100, a compression pump PUMP100, the condenser CON100, and a pipeline P100.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

5 is a perspective view showing a configuration of a fan F101 system of an evaporator EVA 100 that blows airflow through the embodiment shown in Fig.

5, the main components thereof include an operation input device OID 100, a temperature detection device TD100, an electronic control unit 100, a drive circuit device CD100, a refrigerant injection device IJ100, an evaporator EVA100 A liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, a pipeline P100, and a fan F101.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

The fan F101 is a fan driven by the rotational force of an electric motor or a machine. The fan F101 blows air into the evaporator (EVA100) to allow the airflow and the evaporator (EVA100) to exchange heat.

6 is a perspective view showing the configuration of a fan F101 system of an evaporator EVA100 blowing an airflow through the embodiment shown in Fig. 4 and a fan F102 system of a condenser CON100 blowing airflow therethrough. Fig. to be.

As shown in FIG. 6, the main components thereof include an operation input device OID 100, a temperature detection device TD 100, an electronic control unit 100, a drive circuit device CD 100, a refrigerant injection device IJ 100, an evaporator EVA 100 A liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, a pipeline P100, a fan F101 and a fan F102.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

The fan F101 is a fan driven by the rotational force of an electric motor or a machine. The fan F101 blows air into the evaporator (EVA100) to allow the airflow and the evaporator (EVA100) to exchange heat.

The fan F102 is a fan driven by the rotational force of an electric motor or a machine. The fan CON101 blows air into the condenser CON100 so that heat exchange between the condenser CON100 and the airflow proceeds.

7 is a block diagram showing a system in which an evaporator EVA100 is coupled to a heat exchange device HE100 in the embodiment shown in FIG.

As shown in FIG. 7, the main components thereof include an operation input device OID 100, a temperature detection device TD100, an electronic control unit 100, a drive circuit device CD100, a refrigerant injection device IJ100, an evaporator EVA100 A liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, a pipeline P100, a heat exchange device HE100 and a secondary side pipeline P200.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

The heat exchanger (HE100) has a structure in which the evaporator (EVA100) at the primary side and the secondary side channel (P200) are coupled to each other to transmit thermal energy.

The secondary side pipeline P200 is a secondary side pipeline of the heat exchanger HE100, and allows gas or liquid fluid to pass therethrough.

FIG. 8 is a block diagram showing the configuration of a system in which a fan F102 is additionally provided in the embodiment shown in FIG.

As shown in FIG. 8, its main configuration is composed of an operation input device OID 100, a temperature detection device TD100, an electronic control unit 100, a drive circuit device CD100, a refrigerant injection device IJ100, an evaporator EVA100 A liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, a pipeline P100, a heat exchange device HE100, a secondary side pipeline P200 and a fan F102.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

The heat exchanger (HE100) has a structure in which the evaporator (EVA100) at the primary side and the secondary side channel (P200) are coupled to each other to transmit thermal energy.

The secondary side pipeline P200 is a secondary side pipeline of the heat exchanger HE100, and allows gas or liquid fluid to pass therethrough.

The fan F102 is a fan driven by the rotational force of an electric motor or a machine. The fan CON101 blows air into the condenser CON100 so that heat exchange between the condenser CON100 and the airflow proceeds.

Further, in order to increase the stability of the system, the temperature control system based on supply and control of the active injection injection type refrigerant according to the present invention includes a step-down regulator R100 between the condenser CON100 and the refrigerant injector IJ100 Serial connection method, thereby improving the stability of the system. The embodiments are described as follows.

FIG. 9 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.

9, the main components thereof are the operation input device OID 100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the compression pump PUMP100, A condenser CON100, a pressure reducing regulator R100, and a pipeline P100.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The electronic control unit (ECU 100) comprises an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and operates the driving circuit device (CD100) The liquid refrigerant REF100 controlled by the condenser CON100 is injected into the evaporator EVA100 through the pressurized injection of the refrigerant injector IJ100, As shown in FIG.

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, (IJ100).

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

10 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in Fig.

10, the main components thereof include an operation input device OID 100, a temperature detection device TD100, an electronic control unit 100, a drive circuit device CD100, a refrigerant injection device IJ100, an evaporator EVA100 ), A compression pump (PUMP100), a condenser (CON100), a pressure reducing regulator (R100) and a pipeline (P100).

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) includes an electronic device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and transmits a command of the operation input device (OID 100) and a detection signal of the temperature detection device And the liquid refrigerant REF100 controlled by the condenser CON100 is supplied to the refrigerant injection device IJ100 through the pressure injection of the refrigerant injection device IJ100 by driving the driving circuit device CD100, And controls the timing of injection into or out of the evaporator (EVA100) through injection.

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, (IJ100).

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

11 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in Fig.

11, the main components thereof are the operation input device OID 100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, a pressure reducing regulator R100, and a pipeline P100.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives a command of the operating input device (OID 100) and a detection signal of the liquid refrigerant detecting device And the liquid refrigerant REF100 controlled by the condenser CON100 is supplied to the refrigerant injector IJ100 through the driving circuit device CD100 by driving the refrigerant injecting device IJ100, And controls the timing of injection into or out of the evaporator (EVA100) through injection injection.

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, (IJ100).

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

FIG. 12 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.

As shown in FIG. 12, the main components thereof are an operation input device OID 100, a temperature detection device TD 100, an electronic control unit 100, a drive circuit device CD 100, a refrigerant injection device IJ 100, an evaporator EVA 100 A liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, a pressure reduction control device R100, and a pipeline P100.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, (IJ100).

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

FIG. 13 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.

13, the main components thereof are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100 A liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, a pressure reduction control device R100, a pipeline P100 and a fan F101.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, (IJ100).

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

The fan F101 is a fan driven by the rotational force of an electric motor or a machine. The fan F101 blows air into the evaporator (EVA100) to allow the airflow and the evaporator (EVA100) to exchange heat.

FIG. 14 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.

14, the main components thereof are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100 A liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, a pressure reduction control device R100, a pipeline P100, a fan F101 and a fan F102.

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, (IJ100).

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

The fan F101 is a fan driven by the rotational force of an electric motor or a machine. The fan F101 blows air into the evaporator (EVA100) to allow the airflow and the evaporator (EVA100) to exchange heat.

The fan F102 is a fan driven by the rotational force of an electric motor or a machine. The fan CON101 blows air into the condenser CON100 so that heat exchange between the condenser CON100 and the airflow proceeds.

FIG. 15 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.

As shown in FIG. 15, its main configuration is composed of an operation input device OID 100, a temperature detection device TD 100, an electronic control unit 100, a drive circuit device CD 100, a refrigerant injection device IJ 100, an evaporator EVA 100 A liquid refrigerant detection device HD100, a compression pump PUMP100, a condenser CON100, a pressure reducing regulator R100, a pipeline P100, a heat exchange device HE100 and a secondary side pipeline P200 .

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, (IJ100).

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

The heat exchanger (HE100) has a structure in which the evaporator (EVA100) at the primary side and the secondary side channel (P200) are coupled to each other to transmit thermal energy.

The secondary side pipeline P200 is a secondary side pipeline of the heat exchanger HE100, and allows gas or liquid fluid to pass therethrough.

FIG. 16 is a perspective view showing a configuration of a system in which a step-down adjuster R100 is additionally provided in the embodiment shown in FIG.

As shown in FIG. 16, its main configuration is composed of an operation input device OID 100, a temperature detection device TD 100, an electronic control unit 100, a drive circuit device CD 100, a refrigerant injection device IJ 100, an evaporator EVA 100 ), A liquid refrigerant detection device (HD100), a compression pump (PUMP100), a condenser (CON100), a pressure lowering device (R100), a pipeline (P100), a heat exchange device (HE100), a secondary side channel (P200) ).

The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, It is operated by functions such as airflow setting in case.

The temperature detection device TD100 detects the temperature generated by the evaporator and transmits the detected temperature to the electronic control unit (ECU 100).

The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Is injected into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100).

The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And is injected into or out of the evaporator EVA100 according to the setting of the injection injection amount and the injection intensity in the fine granule shape or the fine spray shape.

The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into or out of the evaporator (EVA100).

The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is evaporated in the vapor phase, is prevented from flowing out or completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out .

The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, The amount of the refrigerant REF100 injected into the evaporator EVA 100 through the injection injection system is reduced.

The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 And is sent to the condenser CON100 to convert it into a liquid phase.

The condenser CON100 is made of a material having excellent thermal conductivity, and a pipe structure for allowing the refrigerant REF100 to pass therethrough is provided in the condenser CON100.

The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, (IJ100).

The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100, and the condenser CON100 so that the refrigerant REF100 circulates therein.

The heat exchanger (HE100) has a structure in which the evaporator (EVA100) at the primary side and the secondary side channel (P200) are coupled to each other to transmit thermal energy.

The secondary side pipeline P200 is a secondary side pipeline of the heat exchanger HE100, and allows gas or liquid fluid to pass therethrough.

The fan F102 is a fan driven by the rotational force of an electric motor or a machine. The fan CON101 blows air into the condenser CON100 so that heat exchange between the condenser CON100 and the airflow proceeds.

CD100: Driver circuit device CON100: Capacitor
ECU 100: Electronic control unit EVA100: Evaporator
F101, F102: Fan HD100: Liquid refrigerant detection device
HE100: Heat exchanger IJ100: Refrigerant injector
OID100: Operation input device P100:
P200: Secondary side pipeline PUMP100: Compressed pump
R100: Pressure reducing regulator REF100: Refrigerant
TD100: Temperature Detector

Claims (16)

The present invention is applied to a temperature control system by supplying and controlling an active injection refrigerant having functions such as an integrated or detached cooling / heating apparatus, an air conditioner, a refrigerator, a freezing or thermostatting or heating, dehumidifying, R100), a coolant is injected into an air conditioning system of the evaporator by using a pressurized injection injection system, an injection direction of the coolant injector is controlled by an electronic control unit (ECU) 100, and a set amount And injecting injection pressure into the inside or the outside of the evaporator (EVA100)
The refrigerant is injected into the evaporator (EVA100) in a fine granular shape or a fine spray shape through the refrigerant injector (IJ100) to form a fine granular or fine sprayed shape of the refrigerant at a high speed Is diffused into the thin film and evaporated, and the gaseous refrigerant already evaporated in advance is moved away from the surface of the evaporator (EVA100)
The main components of which are the OID 100, the electronic control unit 100, the drive circuit unit CD100, the refrigerant injection unit IJ100, the evaporator EVA100, the compression pump PUMP100, the condenser CON100, P100)
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The electronic control unit (ECU 100) comprises an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and operates the driving circuit device (CD100) The liquid refrigerant REF100 controlled by the condenser CON100 is injected into the evaporator EVA100 through the pressurized injection of the refrigerant injector IJ100, To control the injection timing,
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser (CON100) is made of a material having excellent thermal conductivity, and a conduit structure for passing the refrigerant (REF100) is provided in the condenser (CON100)
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein. Temperature control system by supply and control of active injection coolant. The method according to claim 1,
A temperature detection device (TD100) is additionally installed,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the compression pump PUMP100, A condenser CON100 and a conduit P100,
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) includes an electronic device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and transmits a command of the operation input device (OID 100) and a detection signal of the temperature detection device And the liquid refrigerant REF100 controlled by the condenser CON100 is supplied to the refrigerant injection device IJ100 through the pressure injection of the refrigerant injection device IJ100 by driving the driving circuit device CD100, And controls the timing of injection into or out of the evaporator (EVA100) through injection,
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser (CON100) is made of a material having excellent thermal conductivity, and a conduit structure for passing the refrigerant (REF100) is provided in the condenser (CON100)
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein. Temperature control system by supply and control of active injection coolant. The method according to claim 1,
A liquid refrigerant detection device HD100 is additionally installed,
A refrigerant injection device IJ100, an evaporator EVA100, a liquid refrigerant detection device HD100, a compression pump PUMP100, and the like. A condenser CON100, and a conduit P100,
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives a command of the operating input device (OID 100) and a detection signal of the liquid refrigerant detecting device And the liquid refrigerant REF100 controlled by the condenser CON100 is supplied to the refrigerant injector IJ100 through the driving circuit device CD100 by driving the refrigerant injecting device IJ100, Controls the timing of injection into or out of the evaporator (EVA100) through injection injection,
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser (CON100) is made of a material having excellent thermal conductivity, and a conduit structure for passing the refrigerant (REF100) is provided in the condenser (CON100)
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein. Temperature control system by supply and control of active injection coolant. The method according to claim 1,
A temperature detection device (TD100) and a liquid refrigerant detection device (HD100) are additionally installed,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 ), A compression pump (PUMP100), the condenser (CON100) and a pipeline (P100)
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser (CON100) is made of a material having excellent thermal conductivity, and a conduit structure for passing the refrigerant (REF100) is provided in the condenser (CON100)
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein. Temperature control system by supply and control of active injection coolant. 5. The method of claim 4,
A fan F101 for blowing an airflow to the evaporator EVA100 is further provided,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 A compression pump PUMP100, a condenser CON100, a pipeline P100, and a fan F101,
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so as to circulate the refrigerant REF100 therein,
The fan (F101) is a fan driven by the rotational force of an electric motor or a machine. The fan (F101) blows an air current to the evaporator (EVA100) so that the airflow and the evaporator (EVA100) Temperature control system by supply and control of active injection coolant. 5. The method of claim 4,
A fan F101 blowing an airflow to the evaporator EVA100 and a fan F102 blowing airflow into the condenser CON100 are further provided,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 A compression pump PUMP100, a condenser CON100, a pipeline P100, a fan F101, and a fan F102,
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein,
The fan F101 is a fan driven by the rotational force of an electric motor or a machine. The fan F101 blows air into the evaporator (EVA100) to allow the airflow and the evaporator (EVA100)
The fan (F102) is a fan driven by the rotational force of an electric motor or a machine. The fan (F102) blows air into the condenser (CON100) so that heat exchange between the condenser (CON100) Temperature control system by injection coolant supply and control. 5. The method of claim 4,
The evaporator EVA100 is further connected to the heat exchanger HE100,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 A compression pump PUMP100, a condenser CON100, a pipeline P100, a heat exchanger HE100 and a secondary side pipeline P200,
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein,
The heat exchanger HE100 has a structure in which the evaporator EVA100 and the secondary side conduit P200 on the primary side are coupled to each other to transmit thermal energy,
Wherein the secondary side pipeline (P200) is a secondary side pipeline of the heat exchanger (HE100), and allows vapor-phase or liquid-phase fluid to pass therethrough. 8. The method of claim 7,
A fan F102 is additionally installed,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 A compression pump PUMP100, a condenser CON100, a pipeline P100, a heat exchanger HE100, a secondary side pipeline P200 and a fan F102.
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (RE100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and transferred from the condenser (CON100), is driven in a fixed or periodic scan direction And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein,
The heat exchanger HE100 has a structure in which the evaporator EVA100 on the primary side and the secondary side channel P200 are coupled to each other to transfer thermal energy,
The secondary side pipeline (P200) is a secondary side pipeline of the heat exchanger (HE100), which allows vapor-phase or liquid-phase fluid to pass therethrough,
The fan (F102) is a fan driven by the rotational force of an electric motor or a machine. The fan (F102) blows air into the condenser (CON100) so that heat exchange between the condenser (CON100) Temperature control system by injection coolant supply and control. The method according to claim 1,
A coercive force adjusting device R100 is additionally provided,
The main components of which are the operation input device OID 100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the compression pump PUMP100, the condenser CON100, A device R100 and a conduit P100,
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The electronic control unit (ECU 100) comprises an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and operates the driving circuit device (CD100) The liquid refrigerant REF100 controlled by the condenser CON100 is injected into the evaporator EVA100 through the pressurized injection of the refrigerant injector IJ100, To control the injection timing,
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, Lt; RTI ID = 0.0 > IJ100, < / RTI &
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein. Temperature control system by supply and control of active injection coolant. 3. The method of claim 2,
A coercive force adjusting device R100 is additionally provided,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the compression pump PUMP100, A capacitor CON100, a step-down regulator R100, and a conduit P100,
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) includes an electronic device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and transmits a command of the operation input device (OID 100) and a detection signal of the temperature detection device And the liquid refrigerant REF100 controlled by the condenser CON100 is supplied to the refrigerant injection device IJ100 through the pressure injection of the refrigerant injection device IJ100 by driving the driving circuit device CD100, And controls the timing of injection into or out of the evaporator (EVA100) through injection,
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, Lt; RTI ID = 0.0 > IJ100, < / RTI &
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein. Temperature control system by supply and control of active injection coolant. The method of claim 3,
A coercive force adjusting device R100 is additionally provided,
A refrigerant injection device IJ100, an evaporator EVA100, a liquid refrigerant detection device HD100, a compression pump PUMP100, and the like. A condenser CON100, a step-down regulator R100, and a conduit P100,
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives a command of the operating input device (OID 100) and a detection signal of the liquid refrigerant detecting device And the liquid refrigerant REF100 controlled by the condenser CON100 is supplied to the refrigerant injector IJ100 through the driving circuit device CD100 by driving the refrigerant injecting device IJ100, Controls the timing of injection into or out of the evaporator (EVA100) through injection injection,
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, Lt; RTI ID = 0.0 > IJ100, < / RTI &
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein. Temperature control system by supply and control of active injection coolant. 5. The method of claim 4,
A coercive force adjusting device R100 is additionally provided,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 ), A compression pump (PUMP100), a condenser (CON100), a pressure reduction regulator (R100) and a pipeline (P100)
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, Lt; RTI ID = 0.0 > IJ100, < / RTI &
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so as to circulate the refrigerant REF100 therein Temperature control system by supplying and controlling active injection coolant. 6. The method of claim 5,
A coercive force adjusting device R100 is additionally provided,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 A compression pump PUMP100, a condenser CON100, a pressure reduction regulator R100, a pipeline P100 and a fan F101,
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, Lt; RTI ID = 0.0 > IJ100, < / RTI &
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so as to circulate the refrigerant REF100 therein,
The fan (F101) is a fan driven by the rotational force of an electric motor or a machine. The fan (F101) blows an air current to the evaporator (EVA100) so that the airflow and the evaporator (EVA100) Temperature control system by supply and control of active injection coolant. The method according to claim 6,
A coercive force adjusting device R100 is additionally provided,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 A compression pump PUMP100, a condenser CON100, a pressure reducing device R100, a pipeline P100, a fan F101 and a fan F102.
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, Lt; RTI ID = 0.0 > IJ100, < / RTI &
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein,
The fan F101 is a fan driven by the rotational force of an electric motor or a machine. The fan F101 blows air into the evaporator (EVA100) to allow the airflow and the evaporator (EVA100)
The fan (F102) is a fan driven by the rotational force of an electric motor or a machine. The fan (F102) blows air into the condenser (CON100) so that heat exchange between the condenser (CON100) Temperature control system by injection coolant supply and control. 8. The method of claim 7,
A coercive force adjusting device R100 is additionally provided,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 A compression pump PUMP100, a condenser CON100, a pressure reducing regulator R100, a pipeline P100, a heat exchanger HE100 and a secondary side pipeline P200.
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, Lt; RTI ID = 0.0 > IJ100, < / RTI &
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein,
The heat exchanger HE100 has a structure in which the evaporator EVA100 and the secondary side conduit P200 on the primary side are coupled to each other to transmit thermal energy,
Wherein the secondary side pipeline (P200) is a secondary side pipeline of the heat exchanger (HE100), and allows vapor-phase or liquid-phase fluid to pass therethrough. 9. The method of claim 8,
A coercive force adjusting device R100 is additionally provided,
The main components of which are the operation input device OID 100, the temperature detection device TD100, the electronic control unit ECU 100, the drive circuit device CD100, the refrigerant injection device IJ100, the evaporator EVA100, the liquid refrigerant detection device HD100 A condenser CON100, a pressure reducing device R100, a pipeline P100, a heat exchanger HE100, a secondary side pipeline P200 and a fan F102.
The operation input device (OID 100) is constituted by a circuit device which is constituted by an electric device interface operated by a person or in which an analog or digital operation signal is input, and controls the operation / stop of the system, the selection of the operation mode, The air flow rate setting of the case,
The temperature detection device (TD100) detects the temperature generated in the evaporator and transmits the detected temperature to the electronic control unit (ECU)
The electronic control unit (ECU 100) is composed of an electric device operating device, a solid-state electronic circuit device, and a microprocessor and related software, and receives commands from the operation input device (OID 100) and detection signals of the temperature detecting device The refrigerant injection device IJ100 is driven by operating the driving circuit device CD100 in response to the detection signal of the refrigerant detection device HD100 and the liquid refrigerant REF100 controlled by the condenser CON100, Controls the timing of injecting the refrigerant into the evaporator (EVA100) through the pressurized injection of the refrigerant injector (IJ100)
The driving circuit device CD100 receives the operating signal of the electronic control unit (ECU 100) and controls the operation of the refrigerant injector IJ100 to control the liquid refrigerant REF100 delivered from the condenser CON100 And injected into or out of the evaporator (EVA100) by switching to a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection intensity,
The refrigerant injector IJ100 is an apparatus having an active injection injecting function driven by a mechanical force, an electromagnetic force, a magnetostrictive effect, or a piezoelectric effect, which is installed with one or more than one, and is connected to the evaporator EVA100, (REF100), which is integrated with the EVA 100 and is driven under the control of the driving circuit (CD100) and delivered from the pressure-regulating device R100, performs a fixed or periodic scan, And is converted into a fine granule shape or a fine spray shape according to the setting of the injection injection amount and the injection strength, and injected into the inside or the outside of the evaporator (EVA100)
The condenser (CON100) is installed in the evaporator (EVA100) to supply the refrigerant to the evaporator (EVA100). The evaporator (EVA100) is made of a material having excellent thermal conductivity, And the refrigerant REF100, which is provided at the outlet and evaporated in the vapor phase, is prevented from flowing out or being completely evaporated, thereby preventing the refrigerant REF100, which forms the liquid phase, from flowing out ,
The liquid refrigerant detecting apparatus HD100 is installed in the evaporator EVA100 to detect the evaporation state of the refrigerant REF100 in the evaporator EVA100 and the refrigerant REF100 is not completely evaporated, The control unit 100 controls the operation of the driving circuit unit CD100 by the ECU 100 so that the refrigerant injected from the refrigerant injecting unit 100 is returned to the electronic control unit 100, (IJ100) injects the refrigerant (REF100) injected into the evaporator (EVA100) through the injection injection system,
The compression pump PUMP 100 is a fluid compression pump rotationally driven or reciprocally driven by a mechanical force or a motor force or a hydraulic motor, an engine or an electromagnetic coil. The compression pump PUMP 100 compresses the refrigerant REF 100 in the gaseous phase transferred from the evaporator EVA 100 To the condenser (CON100) to convert it into a liquid phase,
The condenser CON100 is made of a material having excellent thermal conductivity, and has a pipe structure for allowing the refrigerant REF100 to pass therethrough,
The pressure reducing device R100 includes an expansion valve or a capillary device or a liquid level controller. The pressure reducing device R100 controls the pressure of the refrigerant of the condenser CON100 and controls the flow rate of the refrigerant. The condenser CON100, Lt; RTI ID = 0.0 > IJ100, < / RTI &
The conduit P100 is connected to the refrigerant injector IJ100, the evaporator EVA100, the compression pump PUMP100 and the condenser CON100 so that the refrigerant REF100 circulates therein,
The heat exchanger HE100 has a structure in which the evaporator EVA100 on the primary side and the secondary side channel P200 are coupled to each other to transfer thermal energy,
The secondary side pipeline (P200) is a secondary side pipeline of the heat exchanger (HE100), which allows vapor-phase or liquid-phase fluid to pass therethrough,
The fan (F102) is a fan driven by the rotational force of an electric motor or a machine. The fan (F102) blows air into the condenser (CON100) so that heat exchange between the condenser (CON100) Temperature control system by injection coolant supply and control.

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