JP3451420B2 - Air conditioner unit for connecting cold storage - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner unit for connecting a cold storage box provided in a driver's cab of a construction machine, a working machine or the like.

[0002]

2. Description of the Related Art Cold air or hot air generated by an air conditioner unit in a driver's cab is connected to a driver's cab of construction machines, working machines, etc. to cool or warm drinks, bento boxes, etc. for storage. It is equipped with a cool and hot box, that is, a cold storage room. A typical example of this is disclosed in the specification and drawings of 1997 Patent Application No. 271348 (filing date: October 3, 1997, title of invention: air conditioner unit and combination thereof with a cold storage). Has been done. In this typical example, cold air is taken out from a cold air outflow portion of an evaporator which is a cooler of an air conditioner unit, and warm air is taken out from a hot air outflow portion of a heater core which is a heater located downstream of the evaporator. . The cold air or hot air taken out is selectively guided to the cold / hot warehouse, and the cold / hot warehouse functions as a refrigerator by guiding the cold air, and the cold / hot warehouse functions as a warm warehouse by guiding the warm air.

[0003]

A conventional air conditioner unit having a cold air intake and a hot air intake for connecting a cold / hot storage of the above-mentioned form is a cooling operation of the air conditioner unit for the cool air and the hot air. Since it can be taken out in any state during the heating operation or the heating operation, it has a function of warming the cold / hot storage during the cooling operation or cooling the cold / hot storage during the heating operation. However, for example, in the heating operation of the air conditioner unit in the inside air circulation mode that takes in the air in the cab, the operation of the compressor that supplies the refrigerant to the evaporator that produces the cool air is relatively small, and the operation of the compressor is continued. The temperature of the air will also be relatively high. Therefore,
When the cold storage is used as a refrigerator, there is a problem that it is difficult to cool or it takes time to cool. When the air conditioner unit is operated for heating, for example, in the winter, the use of the cold / hot storage as a refrigerator is less than the use of the cold / hot storage as a hot storage, but the construction machine,
Depending on the working environment such as working machines, there is a demand to improve the refrigerating capacity as a refrigerator.

The present invention has been made in view of the above facts, and its technical problem is to cool the air conditioner unit in the inside air circulation mode under heating in the cold outside air such as in winter. An object of the present invention is to provide an air conditioner unit for connecting a cold / hot storage, which can improve the cold storage capacity of the cold / hot storage when the storage is used as a refrigerator.

[0005]

According to the present invention, in order to solve the above technical problems, when the cool air is supplied to the cold / hot storage during the operation of the air conditioner unit in the internal air circulation mode, When the temperature is lower than the temperature of the cold air sent to the cold / hot storage, the outside air is taken into the air conditioner unit so that the cold outside air is supplied to the cold / hot storage.

That is, according to the present invention, an air conditioner unit having an inside air circulation mode and an outside air introduction mode as operation modes is provided as an air conditioner unit for connecting a cold storage for solving the above technical problems. An air conditioner unit for connecting a cold / heat storage box to which cold air is selectively sent through a cool air intake port provided in the air conditioner unit and hot air is selectively supplied through a hot air intake port, When the cold air is sent to the cold storage when the engine is operated in the internal air circulation mode, the compressor that sends the refrigerant to the evaporator for generating the cold air is in a stopped state, and the temperature of the outside air is the temperature of the cold air. When it is lower than the above, the operation mode is switched from the internal air circulation mode to the external air introduction mode, and the operation mode is changed to the external air conduction mode. Provided is an air conditioner unit for connecting a cold storage cabinet, wherein the operating mode is switched to an internal air circulation mode when the temperature of the outside air is higher than the temperature of the cold air in a state of being switched to the mode. To be done.

Therefore, in the air conditioner unit according to the present invention, when the air conditioner unit is operated in the internal air circulation mode and the cold / hot storage is used as a refrigerator for sending cold air, the compressor for generating cold air is stopped. In this state, when the temperature of the outside air is lower than the temperature of the cold air, the outside air having a low temperature is introduced as the cold air and sent to the cold / hot storage.

In a preferred embodiment, the air conditioner unit includes an operation sensor for detecting the operation of the compressor, a cold air temperature sensor for detecting the temperature of the cold air, and an outside air temperature sensor for detecting the temperature of the outside air. , A controller, and the controller controls switching of the operation mode based on detection signals from the operation sensor, the cold air temperature sensor, and the outside air temperature sensor.

Therefore, the outside air having a low temperature is appropriately controlled and sent to the cold storage.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A more detailed description will be given below with reference to the accompanying drawings showing preferred embodiments of an air conditioner unit for connecting a cold storage and a cold storage constructed according to the present invention.

Referring to FIG. 1, reference numeral 2 is used as a whole.
The air conditioner unit indicated by is provided inside the operating room (not shown), the inside air introducing port 4, the outside air introducing port 6 opening to the outside of the operating room, the blower fan 8, and the blower fan downstream of the blower fan 8. Evaporator 10 which is a cooler,
A cold air outlet 12 provided at the cold air outflow portion of the evaporator 10, a damper 14 that is a distributor of air flow provided downstream of the evaporator 10, a heater core 16 that is a heater provided downstream of the damper 14, Heater core 1
A hot air outlet 18 provided at the hot air outflow portion 6, a chamber 20 for collecting the cold air and the hot air that have passed through the evaporator 10 and the heater core 16 are provided.

The refrigerant is pressure-fed by the compressor 10a to the evaporator 10 which is a cooler for generating cold air.
In addition, engine cooling water is introduced as hot water by a water pump 16a to a heater core 16 that is a heater that generates warm air.

The inside air inlet 4 is provided with an air filter 4a, and the outside air inlet 6 is provided with an air filter 6a. Between the inside air introduction port 4 and the outside air introduction port 6, there is provided an intake switching damper 5 formed by a blade valve having an electric motor 5a for switching the inside air introduction port 4 and the outside air introduction port 6. When the operation mode of the air conditioner unit 2 is the inside air circulation mode, the intake switching damper 5 is positioned on the outside air inlet 6 side shown by the solid line in the figure, the outside air inlet 6 is closed, and the inside air inlet 4 is opened. To be When the operation mode is the outside air introduction mode, the intake switching damper 5 is positioned on the inside air introduction port 4 side shown by the two-dot chain line in the figure, the inside air introduction port 4 is closed, and the outside air introduction port 6 is opened. Switching between the operation mode, the inside air circulation mode and the outside air introduction mode is electrically performed by an operation switch (not shown) of the air conditioner unit 2.

The chamber 20 is connected to a plurality of air outlets such as a face air outlet 20a that blows out to the driver's face in the driver's cab and a foot air outlet 20b that blows out to the feet.
A damper (not shown) is provided at each of these outlets, and the damper controls the opening / closing, the opening area, the wind direction, and the like.

The cold storage 22 is connected to the air conditioner unit 2, the duct 13 to the cold air outlet 12 via the electric opening / closing valve 12a, and the duct 19 to the electric opening / closing valve 18.
It is connected to the hot air outlet 18 via a. The opening / closing operation of the electrically operated on-off valves 12a and 18a is performed by operating an operation switch (not shown) of the cold / hot storage 22. When the cold / hot warehouse 22 is used as a refrigerator, the open / close valve 12a of the cold air outlet 12 is opened and the open / close valve 18a of the hot air outlet 18 is closed, as shown in the figure.
Thus, the cold / hot storage 22 is supplied with cold air and not hot air.

The flow of air in the air conditioner unit 2 will be described by identifying it with arrows 2a to 2f. When the air conditioner unit 2 is operating in the inside air circulation mode, the inside air in the operating room indicated by the arrow 2a is the blower fan 8
The rotation of the air flows from the inside air inlet 4 through the air filter 4a to the evaporator 10 as indicated by an arrow 2c.
On the other hand, when operating in the outside air introduction mode, the outside air shown by the arrow 2b flows from the outside air introduction port 6 through the air filter 6a to the evaporator 10 as shown by the arrow 2c. The air passing through the evaporator 10 is deprived of heat by the refrigerant flowing through the evaporator 10 to generate cold air. The flow of the air indicated by the arrow 2d flowing out from the evaporator 10 is distributed by the damper 14. A part of the air flows into the heater core 16 and is warmed by the hot water flowing through the heater core 16, and the air that does not pass through the heater core 16 is sent to the chamber 20 as cold air. Cold air and warm air are mixed in the chamber 20 to reach the set temperature of the air conditioner, and are blown out from the air outlets such as the face air outlet 20a and the foot air outlet 20b. The opening of the damper 14 is adjusted between the position shown by the solid line and the position shown by the chain double-dashed line in accordance with the set temperature of the air conditioner. That is, the adjustment of the temperature of the air outlet is controlled by the opening degree of the damper 14.

From the cold air outlet 12 provided at the cold air outflow portion of the evaporator 10, as shown by an arrow 2e, cool air is discharged.
Hot air from the hot air outlet 18 provided at the hot air outlet of the heater core 16 is selected by opening and closing the on-off valve 12a and the on-off valve 18a, respectively, as indicated by the arrow 2f, and the cold / hot storage 22 is selected. Sent to.

The compressor 10a of the air conditioner unit 2 is provided with an operation sensor 10b. The operation sensor 10b detects the operation of the compressor 10a by turning on and off the electromagnetic clutch of the compressor 10a, and outputs a signal to the controller 24 (the controller 24 will be described later).

A cold air temperature sensor 12b is provided at the cold air outlet 12.
Is provided. The cold air temperature sensor 12b is the cold storage 2
The temperature of the cold air flowing through 2 is detected and a signal is output to the controller 24. An outside air temperature sensor 6b is provided at the outside air inlet 6. The outside air temperature sensor 6b detects the temperature of outside air and outputs a signal to the controller 24.

A controller 24 composed of a microcomputer is provided in the air conditioner unit 2. The controller 24 compares the presence or absence of the detected operation of the compressor 10a, the cool air temperature T ₁ , the outside air temperature T _2, etc., based on the output signals from the operation sensor 10b, the cool air temperature sensor 12b, and the outside air temperature sensor 6b. do it,
A signal is output to the electric motor 5a of the intake switching damper 5.

Next, the operation procedure of the air conditioner unit for connecting the cold and warm storage constructed according to the present invention will be described with reference to the flow chart shown in FIG. 2 together with FIG.

In step S-1, operation in the inside air circulation mode is performed by an operation switch (not shown) of the air conditioner unit 2, that is, the intake switching damper 5 is positioned on the outside air introduction port 6 side and the inside air introduction port 4 is opened. The state of being inhaled from is commanded.

In step S-2, the cold storage 22
In order to supply the cold air to the cold storage box 22, the operation switch (not shown) of the cold storage box 22 is operated to open the on-off valve 12a of the cold air outlet 12, and the cold air is sent to the cold storage box 22 through the duct 13. .

In step S-3, the operation sensor 1
The operating state of the compressor 10a is detected by 0b and output to the controller 24. .

In step S-4, the controller 24 determines whether or not the compressor 10a is operating. If the operation is stopped, the process proceeds to the next step, and if the compressor 10a is operating, the process returns to the previous step S-3. .

In step S-5, the cool air temperature sensor 12b detects the cool air temperature T ₁ and the outside air temperature sensor 6b detects the outside air temperature T ₂ and outputs the detected temperature to the controller 24.

[0027] In step S-6, the cold air temperatures T ₁ and the outside air temperature T ₂ is compared by the controller 24, is lower than the outside air temperature T ₂ is cold temperatures T ₁ proceeds to the next step, the outside air temperature T ₂ If it is higher than the cold air temperature T ₁ , return to the previous step.

In step S-7, a signal is output from the controller 24 to the electric motor 5a of the intake switching damper 5 and the electric motor 5a is operated to operate the intake switching damper 5.
Is switched from the inside air circulation mode (outside air introduction port 6 side) to the outside air introduction mode (inside air introduction port 4 side).

In step S-8, the controller 24 compares the cold air temperature T ₁ with the outside air temperature T ₂ ,
If the outside air temperature T ₂ is lower than the cold air temperature T ₁ , the process returns to the previous step, and the outside air introduction mode is continued until the outside air temperature T ₂ becomes higher than the cold air temperature T ₁ . When the outside air temperature T ₂ becomes higher than the cold air temperature T ₁ , the process proceeds to the next step.

In step S-9, a signal is output from the controller 24 to the electric motor 5a of the intake air switching damper 5, and the electric motor 5a operates to move the intake air switching damper 5 from the outside air introducing mode (inside air introducing port 4 side). It switches to the inside air circulation mode (outside air inlet 6 side) and returns to step S-3.

Thus, the air conditioner unit 2
Is operating in the internal air circulation mode and is supplying cold air to the cold / hot storage 22, when the compressor 10a is in a stopped state and the outside air temperature T ₂ is lower than the cold air temperature T ₁ sent to the cold / hot storage 22, The outside air is taken into the air conditioner unit 2 through the outside air inlet 6 and is supplied to the cold storage 22. Here, when the cold air temperature T ₁ becomes lower than the outside air temperature T ₂ due to the operation of the compressor 10a or the like,
The air conditioner unit 2 is returned from the outside air introduction mode to the inside air circulation mode.

The present invention has been described above in detail based on the embodiments. However, the present invention is not limited to the above embodiments, and various changes or modifications can be made within the scope of the present invention. Is.

[0033]

According to the air conditioner unit for connecting the cold and cold storage constructed according to the present invention, the air conditioner is operated when the outside air temperature is low and the air conditioner unit is heated in the internal air circulation mode as in winter. When the cool air is sent to the cold / hot storage connected to the conditioner unit to be used as a refrigerator, the compressor that generates the cool air in the air conditioner unit stops, and if the outside air temperature is lower than the cold air temperature, the outside air Is taken and sent to the cold / hot storage, so that the cold storage capacity of the cold / hot storage is improved.

[Brief description of drawings]

FIG. 1 is an explanatory view of the configuration of an air conditioner unit for connecting a cold / hot refrigerator constructed according to the present invention.

FIG. 2 is a flow chart showing an operation procedure of an air conditioner unit for connecting a cold storage box constructed according to the present invention.

[Explanation of symbols]

2: Air conditioner unit 4: Inside air inlet 6: Outside air inlet 6b: outside air temperature sensor 10: Evaporator 10a: compressor 10b: operation sensor 12b: warm air temperature sensor 12: Cold air outlet 14: Damper 16: Heater core 18: Hot air outlet 22: Cold storage 24: Controller

Continuation of the front page (56) Reference JP-A-11-105530 (JP, A) JP-A-5-38924 (JP, A) JP-A-1-285416 (JP, A) JP-A-56-17714 (JP , A) JP 58-188715 (JP, A) JP 5-203310 (JP, A) JP 5-104944 (JP, A) Actually open 7-37724 (JP, U) Actually open 57-145980 (JP, U) Actually open 58-142120 (JP, U) Actually open 2-51914 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) B60H 1/00 102 B60H 1/00 103 F25D 15/00 B60H 1/00 101

Claims (2)

(57) [Claims] 1. An air conditioner unit having an inside air circulation mode and an outside air introduction mode as operation modes, wherein cold air is passed through a cool air intake port provided in the air conditioner unit and warm air is passed through a warm air intake port. In the air conditioner unit for connecting the cold / hot warehouse to which the cold air is selectively sent, when the cool air is sent to the cold / hot warehouse when the air conditioner unit is operated in the internal air circulation mode, the cold air is generated. When the compressor that supplies the refrigerant to the evaporator for stopping is in a stopped state and the temperature of the outside air is lower than the temperature of the cold air, the operation mode is switched from the inside air circulation mode to the outside air introduction mode, and the operation mode is the outside air introduction mode. When the temperature of the outside air is higher than the temperature of the cold air in the mode switched to the operation mode, the operation mode is changed to the inside air circulation mode. Air conditioner unit to switch to de, connect the cold warehouse box, characterized in that. 2. The air conditioner unit includes an operation sensor for detecting the operation of the compressor, a cold air temperature sensor for detecting the temperature of the cold air, an outside air temperature sensor for detecting the temperature of the outside air, and a controller. 2. The air conditioner unit for connecting a cold / hot store according to claim 1, wherein the controller controls switching of the operation mode based on detection signals from the operation sensor, the cold air temperature sensor and the outside air temperature sensor. .