KR200378905Y1 - Refrigerator System for freezer truck - Google Patents

Abstract

The present invention relates to a refrigerator system of a refrigeration vehicle, and more particularly, to a refrigerator system that enables an external commercial power source to be used as an operating power source without attaching an additional device to drive the compressor even when the refrigeration vehicle is stopped. In a vehicle provided with a freezer compartment, a system comprising a refrigerator using the battery of the vehicle as an operating power source, a refrigerant compressor of the refrigerator, a blade for controlling a blowing direction of the refrigerator, and a driving unit for driving the refrigerant compressor, A starting key state detection unit detecting whether the starting key is inserted into the vehicle starting lock; A commercial power unit receiving an external commercial power; A power setting unit for selecting whether to use the battery or the commercial power unit; A power switching unit connected to the battery and the commercial power supply unit to compare the state detection signals of the starting key state detection unit and the power setting unit to supply operating power with stable power switching; An upper / lower temperature sensor for sensing an upper / lower temperature inside the freezer compartment; A temperature comparison setting unit for comparing the detection signals of the upper and lower temperature detection sensors and calculating upper and lower temperature differences of the freezer compartment; Blade angle detection unit for detecting the angle of the blade of the refrigerator; A control unit which receives a detection signal of the power switching unit, the temperature comparison setting unit, and the blade angle detection unit and outputs a heat radiation control signal; The blade angle adjustment driving unit for setting the angle of the blade to reduce the temperature difference of the upper and lower parts of the freezer compartment according to the control signal of the control unit is driven through the drive unit by the heat radiation control signal of the control unit, to maintain the internal temperature of the freezer compartment at a low temperature It is characterized by consisting of a compressor.

Description

Refrigerator system for refrigeration vehicles {Refrigerator System for freezer truck}

The present invention relates to a refrigerator system of a refrigeration vehicle, and more particularly, to a refrigerator system that enables an external commercial power source to be used as an operating power source without attaching an additional device to drive the compressor even when the refrigeration vehicle is stopped.

In general, in the case of transporting fresh foodstuffs or cargoes to maintain freshness, refrigeration vehicles equipped with a freezer compartment are used. The refrigeration vehicle uses a freezer mounted on the upper part of the freezing compartment, and the freezer mounted on the refrigeration vehicle is mainly used as a direct chiller system for driving a compressor by a belt connection method of power generated from a driving engine.

However, the refrigeration system of the above-described system was not only difficult to operate the compressor when the refrigeration vehicle was stopped for a long time or the engine of the refrigeration vehicle was not easy to operate, but also the refrigeration system was operated when the refrigeration vehicle was stopped. In order to increase the weight of the vehicle to increase the weight and noise caused by the additional compressor driving engine had to be provided separately.

In addition, the refrigeration vehicle has a problem that it is difficult to maintain a constant temperature of the entire freezer compartment when the freezer is installed on the upper side of the freezer compartment when the cargo volume is large.

Therefore, the present invention is devised to solve the above problems, an object of the present invention is to provide a refrigerator system capable of driving a refrigeration system regardless of the engine start of the refrigeration vehicle.

Another object of the present invention is to prevent the engine overload of the refrigeration vehicle by providing an external commercial power source when the engine of the refrigeration vehicle is stopped, and to provide a stable power source to the refrigeration system.

Another object of the present invention is to provide a refrigerator system capable of maintaining a constant upper and lower overall temperature inside the freezer compartment.

In order to achieve the above object, the refrigerator 5 system according to the present invention uses the battery 10 of the vehicle as a power source in a vehicle having a freezing compartment 2 and the freezer 5. In the system having a coolant compressor 120, a blade 74 for adjusting the blowing direction of the refrigerator 5 and a drive unit 110 for driving the coolant compressor 120,

A start key state detection unit 50 for detecting whether the car start key is inserted in the car start lock;

A commercial power supply unit 20 for receiving external commercial power;

A power setting unit 30 for selecting whether the battery 10 or the commercial power supply unit 20 is used;

A power switching unit connected to the battery 10 and the commercial power supply unit 20 to compare the state detection signals of the starting key state detecting unit 50 and the power setting unit 30 to supply operating power with stable power switching. 40;

Upper and lower temperature detection sensors (92 and 94) for sensing a temperature of upper and lower parts of the freezing compartment (2);

A temperature comparison setting unit 90 for comparing the detection signals of the upper and lower temperature detection sensors 92 and 94 to calculate the upper and lower temperature differences of the freezing chamber 2;

A blade angle detection unit (70) for detecting an angle of the blade (74) of the refrigerator (5);

A control unit 100 receiving the detection signals of the power switching unit 40, the temperature comparison setting unit 90, and the blade angle detection unit 70 and outputting a heat radiation control signal;

In accordance with the control signal of the control unit 100 by the blade angle adjustment driving unit 72 for setting the angle of the blade 74 to reduce the temperature difference of the upper and lower parts of the freezer compartment 2 and the heat radiation control signal of the control unit 100 It is driven through the drive unit 110, characterized in that composed of a compressor 120 to maintain the internal temperature of the freezer compartment 2 at a low temperature or less.

In addition, the refrigerator 5 system according to the present invention to achieve the above object is

The power switch 40 is

A comparison circuit 41 for comparing the states of the starting key state detecting unit 50 and the power setting unit 30;

A relay unit 42 for switching the power of the battery 10 or the commercial power supply unit 20;

It is provided with a power supply device 80 for applying the power conducting through the relay unit 42 to the control unit 100

The relay unit 42 is switched to the output signal of the comparison circuit 41, the third relay 42c for switching the conduction path of the commercial power supply unit 20 and the second switch 42 and the reverse switch 1 relay (42a)

The second relay 42b may be configured to be switched by the first relay 42a to switch the conductive path of the battery 10.

Hereinafter, with reference to the accompanying drawings for the refrigerator 5 system according to an embodiment of the present invention as follows.

1 is a circuit block diagram of a refrigerator (5) system according to an embodiment of the present invention, the starting key state detection unit (50) for detecting whether or not the vehicle start key is inserted into the vehicle start lock; A commercial power supply unit 20 for receiving external commercial power; A power setting unit 30 for selecting whether the battery 10 or the commercial power supply unit 20 is used; A power switching unit connected to the battery 10 and the commercial power supply unit 20 to compare the state detection signals of the starting key state detecting unit 50 and the power setting unit 30 to supply operating power with stable power switching. 40; An upper temperature sensor 92 mounted on an upper wall surface of the freezer compartment 2 and a lower temperature sensor 94 mounted on a lower bottom surface of the freezer compartment 2 to detect a temperature; A temperature comparison setting unit 90 for comparing the detection signals of the upper and lower temperature detection sensors 92 and 94 to calculate the upper and lower temperature differences of the freezing chamber 2; A blade angle detection unit (70) for detecting an angle of the blade (74) of the refrigerator (5); A control unit (100) which receives the detection signals of the power switching unit (40), the temperature comparison setting unit (90), and the blade angle detection unit (70) and outputs a heat radiation control signal; A blade angle adjustment driving unit 72 for setting an angle of the blade so as to reduce the temperature difference between the upper and lower parts of the freezer compartment 2 according to the control signal of the controller 100; A driver 110 driven by the heat radiation control signal of the controller 100; Compressor 120 for receiving the operating power of the drive unit 110 to maintain the internal temperature of the freezer compartment 2 at a low temperature.

The starting key state detecting unit 50 detects an engine on state in which a starting key is inserted into a starting lock of a vehicle so that a battery 10 is applied to a vehicle or an engine starting state by operating the starting key.

The commercial power supply unit 20 serves to receive external commercial power, for example, 220V AC power for home use from a power outlet.

The power setting unit 30 is a power switch for manual operation when the refrigeration vehicle 1 is stopped or when the vehicle is stopped or when commercial power is available.

The upper and lower temperature sensors 92 and 94 serve as a temperature sensor which is generally used to detect a temperature inside the freezer compartment 2.

The temperature comparison setting unit 90 receives the detection signals of the upper and lower temperature detection sensors 92 and 94 and compares the received detection signals to generate temperature and upper and lower temperature difference data in the freezer compartment 2. Do this.

The blade angle detection unit 72 serves to detect the angle of the plate-shaped blade 74 which is mounted to the tuyere that the cold air is ejected from the freezer 5 generally used.

The blade angle adjustment driver 72 serves as a drive device connected to adjust the angle of the blade 74.

The controller 100 serves as a microcomputer to control the operation of the entire refrigerator 5 system.

FIG. 2 is a detailed circuit block diagram illustrating the power switch 40 of FIG. 1, wherein the power switch 40 compares the states of the starting key state detector 50 and the power setter 30. Circuit 41; A relay unit 42 for switching the power of the battery 10 or the commercial power supply unit 20; The power supply device 80 is connected between the relay unit 42 and the control unit 100 to apply the power input from the battery 10 or the commercial power supply unit 20 to the control unit 100.

Here, the relay unit 42 is a third relay (42c) is switched to the output signal of the comparison circuit 41 to switch the conductive path of the commercial power supply unit 20; A first relay 42a reversely switched with the third relay 42c; It is comprised by the 2nd relay 42b which switches by the said 1st relay 42a, and switches the conduction path of the battery 10 power supply.

The power supply device 80 receives power supplied through the relay unit 42 and maintains a predetermined power level and applies the power to the controller 100.

The switches of the first, second, and third relays are switched according to the energization of the coils and coils that are magnetized or non-magnetized by the signal of the comparison circuit 41.

Referring to the operation of the present invention configured as described above are as follows.

3 is a cross-sectional view showing a refrigeration vehicle 1 according to an embodiment of the present invention, the refrigeration vehicle 1 is a temperature state of the freezer compartment 2 in order to maintain the freshness of the cargo loaded in the freezer compartment 2 Since the continuous operation of the refrigerator 5 system mounted on the refrigeration vehicle 1 is required to maintain the constant, the starting key state detection unit 50 is turned off from the starting lock of the vehicle (not shown). Detect if it is in position or removed from the lock. In other words, when the starting key state detection unit 50 sends a predetermined current to the circuit connected to the lock, and no current flows, the starting key state detection unit 50 compares and checks the power switching unit 40 so that the control unit 100 is in the off mode from the lock. It is determined that it is or has been removed.

At this time, in order to use external commercial power as the system power of the refrigerator (5), through the commercial power supply unit 20, 220V AC household power is input from a general power outlet, and the power setting unit 30 by manual operation of the driver. To be turned on.

Subsequently, when the start key state detection unit 50 is in the off state and the power setting unit 30 is in the on state, a power switching signal is output from the comparison circuit 41 to the relay unit 42 and the output comparison circuit 41 is output. When the coil of the third relay 42c is magnetized by the output signal of) and the switch is switched to the on state, that is, when the third relay 42c is switched to the on state, the commercial power supply unit 20 and the power supply device ( A conductive path connected between the first and second switches 80; and a second relay 42a that is switched to the on state by switching the first relay 42a by the output signal of the comparison circuit 41 and switching to the on state of the first relay 42a. When the relay 42b is switched to the switched off state, the conduction path between the battery 10 and the power supply 80 is broken.

By the above operation, the power supply device 80 maintains a predetermined power level of the commercial power of the commercial power supply unit 20 and applies it to the control unit 100, and the control unit 100 uses commercial power of the commercial power supply unit 20. It is transmitted to the drive unit 110 to operate the compressor 120 to control the operation of the refrigerator (5).

Further, the operation when the refrigeration vehicle 1 moves or when the engine of the refrigeration vehicle 1 is driven proceeds similar to the operation of the refrigerator 5 system when the commercial power source is used.

Initially, when the starting key state detecting unit 50 of the refrigerating vehicle 1 is kept in the on state and the off state of the power setting unit 30, the comparison circuit 41 maintains a current of a predetermined output or less and the power supply section. The second relay 42b of the annular portion 40 is normally kept on, so that the conductive path between the battery 10 of the refrigerator vehicle 1 and the power supply device 80 is connected, The power supply device 80 applies the power of the battery 10 to the control unit 100 by maintaining a predetermined power size, and the control unit 100 supplies the commercial power of the commercial power supply unit 20 to the driving unit 110. By operating the compressor 120 by the transmission to control the operation of the refrigerator (5).

As shown in FIGS. 1 and 3, the upper / lower temperature sensing sensors 92 and 94 mounted to the inner cavity 2 to maintain the internal temperature of the inner cavity 2 are provided in the freezer compartment 2. Detects a temperature and transmits a temperature measurement value to the temperature comparison setting unit 90 and receives the detection signals of the upper / lower temperature detection sensors 92 and 94 and compares the received detection signals to the inside of the freezer compartment 2. The operation of the refrigerator 5 is adjusted to generate temperature and upper / lower temperature difference data and transmit the data to the controller 100 to maintain the temperature inside the freezer compartment 2 below a predetermined temperature.

4 is a front view illustrating a blade of the refrigerator 5 according to an embodiment of the present invention, wherein the blade angle detection unit 70 is a plate-shaped blade mounted to a tuyere from which cold air is ejected from a commonly used refrigerator 5. The angle of 74 is detected by the encoder method.

Subsequently, when the temperature difference between the upper / lower side of the freezer compartment 2 input from the temperature comparison setting unit 90 is greater than or equal to a predetermined value, the control unit 100 receives the image of the freezer compartment 2 received from the temperature comparison setting unit 90. The angle of the blade 74 is adjusted by driving the blade angle adjusting driver 72 according to the temperature difference between the lower side and the blade angle detected by the blade angle detection unit 70.

In this case, the blade angle detection unit 70 is for detecting the angle of the plate-shaped blade 74 which is mounted to the blower through which the cool air is ejected from the freezer (5) generally used as a sensor or blade of the encoder type generally used (74) It is preferable to use an infrared-infrared sensor for detecting a starting point that is a reference of the radius of rotation and the rotational ratio when the blade 74 moves, and the blade angle adjustment driving unit 72 is the controller 100. A general power control motor driven according to the power control signal of the control unit. When the power control signal value is greater than or equal to a predetermined output, the blade 74 is rotated in a direction in which the angle of the blade 74 increases. It is preferable to be configured to rotate in the direction of decreasing the angle of), Accordingly, by adjusting the rotational angle of the blade 74 according to the driving force by the bladed angle adjustment driving unit 72 to let the cool air discharged from the freezer (5) evenly into the freezer compartment (2) to the freezer compartment (2) The freshness of the entire cargo loaded inside is maintained.

According to the refrigerator system according to the present invention, in order to maintain the temperature of the freezer compartment of the refrigeration vehicle at a predetermined value at all times, even when the engine of the refrigeration vehicle is stopped by using an external commercial power source to prevent the engine overload of the refrigeration vehicle and stable to the freezer system Providing a power source has the effect of increasing the energy efficiency.

In addition, according to the refrigerator system according to the present invention, by maintaining a constant upper and lower overall temperature inside the freezer compartment, there is an effect of suppressing the deterioration of the cargo stored in the freezer compartment and enable efficient storage.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it should be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. .

1 is a circuit diagram of a refrigerator system circuit according to an embodiment of the present invention.

FIG. 2 is a detailed circuit block diagram illustrating the power switch of FIG. 1. FIG.

3 is a cross-sectional view showing a refrigeration vehicle according to an embodiment of the present invention,

Figure 4 is a front view showing a blade of the refrigerator according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

1: freezing vehicle 2: freezer

5: freezer 10: battery

20: commercial power unit 30: power setting unit

40: power switch 41: comparison circuit

42: relay unit 42a: first relay

42b: second relay 42c: third relay

50: starting key state detection unit

70: blade angle detection unit 72: blade angle adjustment driving unit

74: blade 80: power supply

90: temperature comparison setting unit 92: upper temperature sensor

94: lower temperature sensor 100: control unit

Claims (2)

A system comprising a refrigerator using a battery of the vehicle as an operating power source in a vehicle provided with a freezer compartment, a refrigerant compressor of the refrigerator, a blade for adjusting a blowing direction of the refrigerator, and a driving unit for driving the refrigerant compressor, A start key state detection unit detecting whether the car start key is inserted in the car start lock; A commercial power unit receiving an external commercial power; A power setting unit for selecting whether to use the battery or the commercial power unit; A power switching unit connected to the battery and the commercial power supply unit to compare the state detection signals of the starting key state detection unit and the power setting unit to supply operating power with stable power switching; An upper / lower temperature sensor for sensing an upper / lower temperature inside the freezer compartment; A temperature comparison setting unit for comparing the detection signals of the upper and lower temperature detection sensors and calculating upper and lower temperature differences of the freezer compartment; Blade angle detection unit for detecting the angle of the blade of the refrigerator; A control unit which receives the detection signals of the power switching unit, the temperature comparison setting unit, and the blade angle detection unit and outputs a heat radiation control signal; The blade angle adjustment driving unit for setting the angle of the blade to reduce the temperature difference of the upper and lower parts of the freezer compartment according to the control signal of the control unit is driven through the drive unit by the heat radiation control signal of the control unit, to maintain the internal temperature of the freezer compartment at a low temperature A refrigerator control system, characterized in that composed of a compressor. The method of claim 1, The power switching unit A comparison circuit for comparing states of the starting key state detecting unit and the power setting unit; A relay unit for switching the power of the battery or the commercial power unit; It is provided with a power supply device for applying the power conducted through the relay unit to the control unit, The relay unit is switched to the output signal of the comparison circuit and the third relay for switching the conductive path of the commercial power supply unit and the first relay reversely switched to the third relay and And a second relay which is switched by the first relay to switch a conductive path of battery power.