KR100304278B1 - Throttle body for vehicle - Google Patents

Abstract

PURPOSE: A throttle body for a vehicle is provided to uniformly maintain the inflow of air by preventing the deposition of oil and carbon in the blow-by gas flowed through a bypass passage. CONSTITUTION: In a throttle body(110) for a vehicle, an air tube(114) is formed within a housing(112). A valve(116) is fixed on the center of the air tube by a hinge. A bypass passage(10) includes a first passage and a third passage to bypass air in the front and rear of the valve, and a second passage connected to the first passage and the third passage. An inflow preventing protrusion(12) formed on the one side of the air tube. A first carbon removing groove(13) is formed on the first passage. A second carbon removing groove(14) is formed on the end portion the second passage.

Description

Car Throttle Body

The present invention relates to a throttle body for an automobile, and in particular, to prevent the blow-by gas flowing into the bypass passage during idling to prevent the cross-sectional area from being reduced, and to secure the amount of air sucked in to stabilize the engine speed. It relates to a throttle body for an automobile.

In general, the vehicle is capable of driving by using the power generated by repeating the process of compression, ignition and exhaust of a mixture of air and fuel.

1 is a block diagram showing a general air flow, a predetermined amount from the air tank 100 to remove the dust and foreign matter contained in the outside air, and the fuel tank not shown air passing through the air cleaner 100 The throttle body 110 and the throttle body 110 to be diluted in a proper ratio, and the surge tank 120 to temporarily mix the mixture passed through the throttle body 110, and the inside of the throttle body 110 Through the intake manifold 130 fixed to one side of the engine 140 to supply the mixer into each cylinder, and the exhaust manifold 150 and the muffler 160 to discharge the gas burned in the cylinder Emissions to the atmosphere.

2 is a cross-sectional view of the throttle body according to the prior art, the throttle body 110 forms a flow path tube 114 for allowing air to flow into the housing 112, the valve for controlling the flow path cross-sectional area therein (118) is hinged.

In addition, since the cross-sectional area is minimized at low speed or idling, a bypass passage 118 is provided to allow a minimum amount of air to flow to prevent starting of the air due to a small amount of air inflow.

The bypass passage 118 is to bypass the valve 118 hinged to the flow passage 114, and connects the first passage 118a and the third passage 118c parallel to the valve and the positive passage. Is formed into a first flow path 118a.

As the air purified through the air cleaner flows through the flow path in the throttle body, the amount thereof changes depending on the opening and closing of the valve, which is diluted with fuel to enter the combustion chamber to generate power, and the cross-sectional area of the air is reduced to a minimum. Is introduced through the bypass passage 118 formed on one side to operate the engine with a minimum amount of air.

Such a stepper motor is installed at the bottom of the body, and carbon is deposited on the sidewalls of the blowby gas containing a large amount of oil at low speed and idling through the bypass passage, thereby inhibiting the flow of air. There is a problem that the rotation speed of the engine becomes unstable.

Accordingly, the present invention has been made in order to solve the above problems, to prevent the oil and carbon contained in the blow-by gas flowing through the bypass passage during aileling to prevent the inflow of air to be kept constant To provide a vehicle throttle buy.

1 is a block diagram showing a general air flow.

2 is a cross-sectional view of a throttle body according to the prior art.

3 is a cross-sectional view of a throttle body in accordance with the present invention.

* Explanation of symbols for main parts of the drawings

10: bypass passage 12: inflow prevention jaw

13: groove for removing the first carbon 14: groove for removing the second carbon

In order to achieve this, the present invention forms a flow path tube inside the housing, hinges and locks the valve in the center of the flow path tube, and parallel first and third flow paths allow minute air to flow before and after the valve. And a bypass passage having a second passage connected thereto, the bypass passage comprising: an inflow preventing jaw formed at one side of the passage tube; It is achieved by the provision of a throttle body for an automobile, characterized in that the bypass passage having a means for removing carbon on the rear of the anti-flow jaw.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

3 is a cross-sectional view of the throttle body according to the present invention, the same reference numerals are used for the same configuration as the conventional configuration.

When explaining an embodiment of the present invention in connection with the prior art as follows.

A flow path tube 114 is formed inside the housing 110, and a valve 116 that hinges and regulates the amount of air flowing into the center of the flow path tube 114 is fixed, and before and after the valve 116. In the bypass passage 118 having parallel first flow passage 118a and third flow passage 118c and first flow passage 118a and second flow passage 118b connected thereto to allow minute air to flow therethrough. In this embodiment, the oil and carbon due to the inflow of blow-by gas during idling is prevented from accumulating in the bypass passage to uniformize the inflow of air, it is possible to maintain a constant rotation speed.

That is, the valve is installed so as to protrude the inflow prevention jaw 12 to the front side of the passage in which the valve is hinged, and means for removing carbon at one side of the second channel connected to the first channel connected to the rear surface of the jaw 12. It consists of a bypass passage 10 provided.

The carbon removal means includes: a first carbon removal groove 13 formed in the first flow path of the bypass passage 10; It is provided with a second carbon removal groove 14 provided at the end of the second flow path connecting the first flow path and the third flow path.

The operation of the present invention configured as described above is as follows.

Through the air cleaner, this material is introduced into the throttle body in a filtered state, mixed with fuel at an appropriate ratio, and then introduced into the engine via the surge tank and the intake manifold to generate power and discharge.

During idling, a small amount of broby gas is introduced into the throttle body, and in the process of being sucked into the cylinder through the bypass passage 10 formed at one side thereof, sediment is first introduced by the inflow preventing jaw 12. The sediment is accumulated in the first carbon removal groove 13 while blocking it from passing through the bypass passage 10.

And while passing through the second flow path is deposited in the second carbon removal groove 14 formed at its end to prevent the cross-sectional area is reduced to keep the inflow of air to maintain a constant idling.

As described above, the present invention can prevent the accumulation of deposits on the sidewalls while the blow-by gas flows into the bypass passage in the throttle body during low speed and idling, thereby maintaining constant idling. There is.

Claims (1)

A flow path tube is formed inside the housing, and the valve is hingedly fixed to the center of the flow path tube, and the first flow path and the third flow path and the second flow path connected to each other allow the air to be bypassed before and after the valve. A throttle body for an automobile having a bypass passage, wherein the bypass passage (10) includes an inflow preventing jaw (12) formed at one side of the flow path tube; Carbon removal means comprising a first carbon removal groove 13 formed in the first flow path and a second carbon removal groove 14 formed in the end of the second flow path to the rear surface of the inflow preventing jaw 12. Car throttle body characterized in that.