KR19990028424U - Radiator shroud system for automatic adjustment of cooling performance - Google Patents

Abstract

The present invention relates to a radiator shroud device for automatic adjustment of cooling performance, the structure surrounding the cooling fan, the fixed shroud is fixed to one surface of the radiator and a plurality of vents perforated on the upper surface and both sides; A movable shroud provided in close contact with the upper surface and both sides of the fixed shroud, and having a plurality of vented holes corresponding to the ventilation holes of the fixed shroud on both sides; Cylinders provided on both side surfaces of the lower end of the movable shroud such that the movable shroud moves up and down along both sides of the fixed shroud; When the temperature of the water filled in the radiator is determined to be equal to or lower than the normal driving temperature of the engine, the vent holes of the fixed and movable shrouds are opened to correspond to each other, and the upper surface of the fixed shroud and the upper surface of the movable shroud are separated from each other. The cylinder is operated, and when the temperature of the water filled in the radiator is determined to be equal to or higher than the normal driving temperature of the engine, the vent holes are alternately blocked, and the upper surface of the fixed shroud and the upper surface of the movable shroud are in close contact with each other. By providing a radiator shroud device for automatic adjustment of cooling performance composed of a cylinder control means for operating a cylinder, it is possible to quickly realize the normal driving temperature of the engine during the supercooled engine driving in winter, and to flow the air generated by the shutter of the prior art. Reduce noise or There are features that can avoid.

Description

Radiator shroud system for automatic adjustment of cooling performance

The present invention relates to a radiator shroud device for automatic cooling performance adjustment.

In particular, the present invention relates to a radiator shroud used in construction vehicles or heavy equipment, to suppress the flow of air passing through the radiator during the operation of the supercooled engine in winter to quickly realize the normal driving temperature of the engine and flow The present invention relates to a radiator shroud device for automatically adjusting cooling performance to reduce noise.

A device that cools the engine to prevent overheating and keeps it at a temperature is called a cooling device. Although the temperature of combustion gas in a cylinder reaches 2,000 degreeC or more, a considerable amount of this heat is absorbed in a cylinder, a cylinder head, a piston, etc. If the temperature of these parts is excessively elevated, the cylinder may be deformed or the oil film on the cylinder wall may be broken, resulting in poor lubrication, and in severe cases damage the engine. In addition, the combustion condition worsens, resulting in knocking or premature ignition, which causes the output to drop dramatically.

On the contrary, if too cool, the amount of heat lost by combustion increases in the combustion, thereby lowering the engine's thermal efficiency and increasing fuel consumption. In addition, since a mixture with insufficient atomization of fuel is supplied from the cylinder, it causes the engine oil to be diluted by the fuel, and causes the wear of the cylinder.

As such, the conventional cooling device is installed to prevent overheating of the engine when the engine is driven, so that the engine is always operated when the engine is operated, so that there is no countermeasure when the winter engine is overcooled. That is, the engine is cooled by the cooling device as described above when the engine is cooled down more than the temperature of the outside air, not the engine is overheated, so it takes time to reach the normal driving temperature of the engine and consumes fuel. This also caused an increase in the exhaust gas. In particular, the radiator is a component of the water-cooled cooling system, which has a large heat dissipation area and is designed to contain a large amount of water. It acted as an important factor causing the aforementioned disadvantages.

Therefore, the proposed method for quickly realizing the normal driving temperature of the engine during the supercooled engine driving in winter was to install and open the shutter (2) in front of the radiator (1) as shown in FIG. This method suppresses the flow of air passing through the radiator 1, so that the water charged in the radiator 1 is circulated in a cooler state than the cooled water during normal engine operation. Could be implemented.

However, this method has a disadvantage in that air flow noise is severely generated by the air being discharged between the above-mentioned clearances of the shutter 2 by the delivery pressure of the cooling fan 4 which is surrounded by the radiator shroud 3 to release the air. This occurred. Moreover, this method has a disadvantage in that it is practically difficult to apply because it is implemented using expensive components.

Although the present specification has been generally described with respect to conventional construction equipment in which the cooling fan delivers air, the present invention is not limited thereto and may be applied to a conventional construction vehicle in which the cooling fan sucks air.

Accordingly, the present invention has been made in view of the above problems, and an object thereof is to provide a radiator shroud device for automatic adjustment of cooling performance, which can quickly realize a normal driving temperature of an engine when the engine is supercooled in winter.

In addition, another object of the present invention is to provide a radiator shroud device for automatic adjustment of cooling performance that can reduce the flow noise of the air generated by the conventional shutter method described above.

1 is a perspective view schematically showing a radiator shroud according to the prior art.

Figure 2 is a perspective view schematically showing a radiator shroud of the present invention.

3 is a perspective view showing a closed state of the radiator shroud of FIG.

<Description of the code | symbol about the principal part of drawing>

11: radiator 14: cooling fan

15: fixed shroud 15a: ventilator

16: movable shroud 16a: the upper surface

16b: side 16c: ventilator

17: hydraulic cylinder 18: hydraulic cylinder control means

An object of the present invention, a structure surrounding the cooling fan, a fixed shroud is fixed to one surface of the radiator and a plurality of vent holes perforated on the upper surface and both sides; A movable shroud provided in close contact with the upper surface and both sides of the fixed shroud, and having a plurality of vented holes corresponding to the ventilation holes of the fixed shroud on both sides; Cylinders provided on both side surfaces of the lower end of the movable shroud such that the movable shroud moves up and down along both sides of the fixed shroud; When the temperature of the water filled in the radiator is determined to be equal to or lower than the normal driving temperature of the engine, the vent holes of the fixed and movable shrouds are opened to correspond to each other, and the upper surface of the fixed shroud and the upper surface of the movable shroud are separated from each other. The cylinder is operated, and when the temperature of the water filled in the radiator is determined to be equal to or higher than the normal driving temperature of the engine, the vent holes are alternately blocked, and the upper surface of the fixed shroud and the upper surface of the movable shroud are in close contact with each other. It can be achieved by a radiator shroud device for automatic control of cooling performance composed of cylinder control means for operating a cylinder.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 2, the present invention does not adopt a shutter 2 having a conventional opening and closing function in order to quickly realize a normal driving temperature when driving an engine that is supercooled in winter, and uses a flow of air passing through the radiator 11. The radiator shroud adds adjustable functionality.

The radiator shroud structure of the present invention is made up of a conventional radiator shroud, for example, a movable shroud 16 made to cover the fixed shroud 15 in close contact.

The fixed shroud 15 is perforated with a plurality of vent holes 15a to have a predetermined shape on the upper surface and both sides of the conventional radiator shroud (3). And, the movable shroud (16) comprises an upper surface (16a) and both side surfaces (16b) so as to cover the upper surface and both sides in close contact with the fixed shroud (15), the ventilation holes of the fixed shroud (15) on both sides (16b) A plurality of vent holes 16c are perforated to correspond to 15a). In addition, the movable shroud 16 is moved up and down along both sides of the fixed shroud 15 by hydraulic cylinders 17 installed on both sides of the lower end, as shown in FIG. 2, which hydraulic cylinder 17 is a radiator 11. It is operated by the hydraulic cylinder control means 18 for controlling the hydraulic cylinder 17 to operate by comparing the information detected by the thermostat or other temperature sensor for sensing the temperature of the water filled in the).

Here, the hydraulic cylinder control means 18 moves the hydraulic cylinder 17 upward as shown in FIG. 2 when the temperature of the water filled in the radiator 11 is determined to be equal to or less than the normal driving temperature of the engine. (16) is spaced apart from the fixed shroud (15). At this time, the hydraulic cylinder 17 is controlled by the hydraulic cylinder control means 18 so that both side vent holes 15a of the fixed shroud 15 and both side vent holes 16c of the movable shroud 16 correspond to each other. Controlled.

As shown in FIG. 2, when the fixed shroud 15 and the vent holes 15a and 16c of the movable shroud 16 correspond to each other and are opened, the amount of air discharged by the cooling fan 14 during the engine start that is supercooled in winter is All of the airflow holes 15a and 16c and the fixed shroud 15 are less air-resistant than the discharge amount passing through the radiator 11 having a very high air resistance, such as a plate fin type, corgate pin type, Waistson type, etc., which do not flow toward the radiator. The amount of air discharged through the space between the upper surface of the upper surface and the upper surface 16a of the movable shroud 16 is prevented to prevent overcooling of the water filled in the radiator 11 so that the normal driving temperature can be quickly reached as described above. Moreover, such a structure does not generate the flow noise generated by the conventional shutter 2. Because the fixed shroud 15 and the movable shroud 16 are in close contact with each other, the air cannot flow through the gap, and the air vents 15a and 16c are perforated to the desired inner diameter so that the flow noise of the air does not occur. Noise is reduced or prevented.

The hydraulic cylinder control means 18 measures the temperature of the water filled in the radiator 11 and determines that the normal driving temperature of the engine has been reached, so that the hydraulic cylinder 17 is retracted downward as shown in FIG. 3. The fixed shroud 15 and the movable shroud 16 are in close contact with each other. At this time, the hydraulic cylinder 17 is moved downward by the hydraulic cylinder control means 18 programmed so that the vent holes 15a of the fixed shroud 15 and the vent holes 16c of the movable shroud 16 are alternately closed. Retreat. As shown in FIG. 3, when the fixed shroud 15 and the vent holes 15a and 16c of the movable shroud 16 correspond to each other and are closed, the fixed shroud 15 and the movable shroud 16 are closely contacted with each other. Since all the airflow amount by the fan 14 passes through the radiator 11, overheating of an engine is prevented.

As described above, according to the structure of the present invention, it is possible to quickly realize the normal driving temperature of the engine during the winter cold engine driving, and to reduce or prevent the flow noise of the air generated by the shutter of the prior art. It has an effect.

Claims (1)

A structure surrounding the cooling fan 14, the fixed shroud 15 fixed to one surface of the radiator 11 and having a plurality of ventilation holes 15a formed on the top and both sides thereof; The movable shroud 16 is provided in close contact with the upper surface and both sides of the fixed shroud 15, and a plurality of vent holes 16c corresponding to the vent holes 15a of the fixed shroud 15 are perforated on both sides. Wow; Cylinders (17) installed on both sides of lower ends of the movable shroud (16) such that the movable shroud (16) moves up and down along both sides of the fixed shroud (15); When the temperature of the water filled in the radiator 11 is determined to be equal to or less than the normal driving temperature of the engine, the vent holes 15a and 16c of the fixed and movable shrouds 15 and 16 are respectively opened to correspond correspondingly. The cylinder 17 is operated to be spaced apart from the upper surface of the fixed shroud 15 and the movable shroud 16, and the temperature of the water charged in the radiator 11 is determined to be equal to or higher than the normal driving temperature of the engine. In this case, the cylinder control means 18 for operating the cylinder 17 such that the vent holes 15a and 16c are alternately closed and at the same time the upper surface of the fixed shroud 15 and the upper surface of the movable shroud 16 is in close contact. Radiator shroud unit for automatic adjustment of cooling performance.