KR100521564B1 - Airconditioning system of driver-seat for bus - Google Patents

Abstract

The present invention relates to an air conditioner system for a driver's seat for a bus, and uses a DC power generated in an alternator so as to operate exclusively for the driver's seat separately from the main air conditioner installed on the ceiling of the bus, and a dedicated compressor directly connected to the alternator. And a driver's seat air conditioner system composed of a condenser and an HVAC unit, the present invention relates to an air conditioner system for a driver's seat for a bus that is excellent in cooling efficiency and has improved driver convenience as well as its compact size and easy maintenance and management.

Description

Air-conditioning system of driver-seat for bus

The present invention relates to an air conditioner system for a driver's seat for a bus, and more particularly, to use a DC power generated in an alternator so as to operate exclusively for the driver's seat separately from the main air conditioner installed on the ceiling of the bus. The driver's air conditioner system, which consists of a dedicated compressor and condenser, and a HVAC unit directly connected to the driver's seat, provides excellent cooling efficiency and improves operator convenience, as well as compact size, making it easy to maintain and manage. It is about.

In general, a bus air conditioner has an air conditioner, a heater, a defroster, a fan, and the like, and has a separate function and structure.

In the case of a bus air conditioner, air is supplied to the passenger seat and the driver's seat through the ducts mounted on the ceiling and positioned at the upper left and right sides of the bus.

The bus's defroster is installed in the car's HVAC (Heating, Venting and Airconditioning) unit, but has only a heater function to remove frost outside the windshield glass in winter and provide warm air to the driver. It has only the function to do it.

Therefore, in the case of a bus, the air conditioner in the instrument is not called an HVAC unit, but is called a defroster by removing the front heater or frost.

In the case of a passenger car, the HVAC unit is called an HVAC unit because air conditioning and ventilation of the entire cabin can be performed.

However, the defroster of the bus, like a passenger car, is not supplied with the cold air of the air conditioner directly to the windshield glass, white steaming in the driver's windshield glass in the hot summer season, especially rainy weather and rainy weather, As a result, there is a problem of blurring the driver's view.

In order to solve this problem, in the case of a European bus manufacturer, as shown in FIG. 4, in order to add an air conditioner function to the driver's seat defroster 100, a small pipe is branched from the high-pressure side pipe 110 of the main air conditioner on the ceiling. It connects to the driver's seat and the refrigerant pipe is connected to the low pressure side pipe 120 of the air conditioner in the engine room, but this is because the pipe (110, 120) must be maintained as long as the total length of the bus However, there are several disadvantages in manufacturing.

First, as the refrigerant pipes 110 and 120 are lengthened, the compressor 130 is enlarged in order to maintain a constant pressure of the refrigerant.

This means that the power of the engine for driving the compressor 130 must be increased by that much, which means that fuel economy is deteriorated.

Second, as the refrigerant pipes 110 and 120 are lengthened, the connection part of the pipe increases, and when the connection part increases, the possibility of the refrigerant leaking increases by that much.

In addition, since the refrigerant pipes as much as the length of the bus must be installed, the work efficiency of the operator is also greatly reduced, the longer the pipes, of course, the efficiency of the air conditioning system is bound to decrease.

Third, even if only the driver's seat needs cold air, the entire air conditioner must be operated.

For example, if it rains during spring and autumn, and the air conditioner is operated to remove the frost on the windshield glass, it is inconvenient for passengers to endure the cold situation because the whole room is cooled in the low temperature of the room. The situation is directed.

In addition, in a situation where only a driver needs to operate a bus without a bus passenger, the air conditioner cold air must be supplied only to the driver. It is a design.

Fourth, electrical system control is complicated, and if a failure occurs, it takes much time and money for after-sales service.

If the air conditioner does not operate due to abnormal refrigerant pressure or control in the main air conditioner, the air conditioner function cannot be used even in the driver's seat, and vice versa. A situation arises in which the system cannot run.

In addition, since the entire air conditioning system is enormous, it is difficult to determine the location of the failure, and the cost required for repair is large.

Fifth, because of the large power consumption, an additional alternator is required.

In the case of buses, most of the current supplied by the alternator must be used by the air conditioner. In addition, in order to operate the conventional driver's seat air conditioner, the blower of the defroster must be operated together with the main air conditioner, and thus an additional electric capacity is required. The dog must be installed so that the vehicle can run without running out of battery.

As described above, adding the driver's seat air conditioner function to the defroster by branching the refrigerant pipe from the main air conditioner is a very complicated task, and there is a problem that many defects may occur even in actual use.

Therefore, the present invention has been invented to solve the above problems, and uses a DC power (24V) generated in the alternator to operate exclusively in the driver's seat separately from the main air conditioner installed on the ceiling of the bus, It is an object of the present invention to provide an air conditioner system for a driver's seat for a bus composed of a compressor and a condenser using an exclusive motor directly connected to the alternator and an HVAC unit.

Hereinafter, the features of the present invention for achieving the above object are as follows.

The air conditioner system of the driver's seat for the bus according to the present invention uses a DC power generated in the alternator so as to operate exclusively in the driver's seat separately from the main air conditioner installed on the ceiling of the bus, and a dedicated compressor 20 directly connected to the alternator. And it is characterized in that the condenser 30 and the HVAC unit 10 is provided.

In particular, the compressor 20 and the condenser 30 are mounted on the rear side of the windshield glass opposite the driver's seat, and the HVAC unit 10 is installed in the center of the front of the bus, but the compressor (to increase the efficiency of the refrigerant circuit) 20 and condenser 30 are positioned in close proximity to the HVAC unit 10.

The compressor 20 and the condenser 30 is characterized by using a brushless motor that is a dedicated motor.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in detail.

1 is a view showing the HVAC unit of the air conditioning system of the driver's seat for the bus according to the invention, Figure 2 is a view showing the configuration of the compressor and the condenser of the air conditioning system of the driver's seat for the bus according to the present invention, Figure 3 Fig. 1 shows the installation positions of the HVAC unit, the compressor and the condenser of the air conditioner system of the driver's seat for the bus according to the present invention.

The present invention adds an independent air conditioner function to the driver's seat of the bus, and uses a 24V power source generated in the alternator so that it can be used exclusively for the driver's seat separately from the main air conditioner installed on the ceiling of the bus. A dedicated air conditioner system having a dedicated compressor 20 and a condenser 30 and an HVAC unit 10 directly connected thereto is provided.

In the air conditioner system of the driver's seat for a bus having such a function, as shown in FIG. 1, an evaporator core 11 is installed in the HVAC unit 10 so as to achieve HVAC functions such as a car in the defroster of the bus. do.

At this time, the HVAC unit 10 has the same structure as the HVAC unit of the passenger car, and can function the same, and the size thereof is increased as a whole compared with that of the passenger car.

As shown in FIG. 2, a separate driver's seat compressor 20 and a condenser 30 may include a compressor 20, a condenser 30, a condenser fan, a motor 41, a condenser core 42, and a voltage. The stop 43, the high and low pressure pipes 44, 45, etc. are comprised.

Such a configuration of the HVAC unit 10, the compressor 20 and the condenser 30 is mounted around the driver's seat of the bus, as shown in Figure 3, the HVAC unit 10 is located in the front center of the bus The compressor 20 and the condenser 30 are installed at the rear of the windshield glass opposite the driver's seat.

At this time, in order to increase the efficiency of the refrigerant circuit, it is important that the compressor 20 and the condenser 30 are located in close proximity to the HVAC unit 10.

In the preferred embodiment of the present invention, the compressor 20 may be driven by a DC voltage of 24 V generated by the alternator so as to achieve a higher refrigerant compression efficiency than the belt driving method without using the power of the engine. A hermetic type that compresses refrigerant with a brushless motor is applied.

In the preferred embodiment of the present invention, the condenser 30 is configured to intensively manage condensation efficiency by applying a brushless motor and a condenser fan.

On the other hand, the present invention preferably comprises a display and a switch separately from the main air conditioner to increase the visibility and operation convenience.

As described above, the air conditioning system of the driver's seat for the bus according to the present invention has the following effects.

First, as the air conditioner system for the driver's seat is small, the space occupied by the small size not only increases the space efficiency, but also the flow circuit of the refrigerant is short, thereby maximizing the efficiency of the refrigerant.

Second, because the air conditioner system is compact, not only the mounting work is convenient, but also when a failure occurs, the response can be made quickly.

Third, when the windshield glass of the driver's seat winds up in the spring and autumn, steam can be removed by running the driver's air conditioner separately without operating the main air conditioner.

Fourth, when only the driver without a passenger to operate alone, it is efficient and economical because only the dedicated air conditioner needs to be operated.

1 is a view showing an HVAC unit of an air conditioning system of a driver's seat for a bus according to the present invention;

2 is a view showing the configuration of a compressor and a condenser of an air conditioning system of a driver's seat for a bus according to the present invention;

3 is a view showing the installation position of the HVAC unit and the compressor, the condenser of the air conditioning system of the driver's seat for the bus according to the present invention,

4 is a view showing a conventional European driver's seat air conditioner system.

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

10: HVAC unit 20: compressor

30: condenser

Claims (3)

Apart from the main air conditioner installed on the ceiling of the bus, DC power generated from the alternator is used to operate exclusively for the driver's seat, and the dedicated compressor 20, the condenser 30, and the HVAC unit 10 directly connected to the alternator are used. Air conditioning system of the driver's seat for the bus, characterized in that provided. The method of claim 1, wherein the compressor 20 and the condenser 30 is mounted to the rear of the windshield glass opposite the driver's seat, the HVAC unit 10 is installed in the front center of the bus, but can increase the efficiency of the refrigerant circuit So that the compressor (20) and the condenser (30) are located in close proximity to the HVAC unit (10). The air conditioner system according to claim 1, wherein the compressor (20) and the condenser (30) use a brushless motor as a dedicated motor.