DE3916907A1 - Actuation for moving parts of a radiator grille - Google Patents

Abstract

In order to ensure a high wheel force on the front wheels (19) of a motor vehicle in critical braking sequences, the slats (10) of a radiator grille (9) are moved into their closed position in the event of braking sequences of a predetermined minimum intensity. <IMAGE>

Description

The invention relates to a control according to the preamble of patent claim 1. Such moving parts are usually designed as slats that are in their longitudinal direction and transverse to the vehicle longitudinal axis extending axes are stored in cash; however, one also knows the grille for the air between one flow-releasing position and a lock closing the grille position movable elements.

Controls are known for such moving parts that are only tempe work depending on the rature or speed of travel. In the case of an unwanted Heating of the cooling water of the internal combustion engine downstream in the grille The cooler of the same moves the moving parts of the grille into one position moves in which they allow the maximum flow of cooling air, and at driving speed speed-dependent control, the grille grows with increasing speed and more closed, because of the increasing air flow, the cooling effect is enlarged.

This as far as possible closing the radiator grille at high Fahrgeschwin speeds of the vehicle has an advantageous effect in terms of its air resistance and thus fuel consumption, as any deviation from a smooth outer contour of the front area of the vehicle, in particular due to additional openings, increases the c _w values.

From DE-OS 21 48 309, B 62 D 35/00, such a training is already from Air duct in the vehicle known that each air duct as it were  forms the dynamic wheel pressure increasing air guide. For this purpose ver the rear walls of the air duct run diagonally upwards, so that the Passing the cooler of the internal combustion engine heated cooling air from the hood emerges in front of the windshield of the motor vehicle. Such training the Air ducts with exit of the used cooling air in front of the windshield is not only critical for reasons of space, but also because it is usually the fresh air used to cool the vehicle interior in the warm season in front of the windshield enters the fresh air supply, so that the danger be is that instead of cool fresh air ge through the air duct described conducted heated cooling air is sucked in.

The invention has for its object a control according to the preamble of claim 1, that is, in such a cooling air guide that the outflowing cooling air in the direction of the lane, to create the periods when a ho forth wheel pressure in the area of the front wheels is required, an enlargement of the same evokes.

The solution to this problem according to the invention consists in the characteristic features len of the main claim, advantageous developments of the invention describe the Subclaims.

The actual cooling air through the cooler is advantageously the internal combustion engine engine and in the engine compartment of the vehicle with regard to the cooling effect, the it is said that - limited - Increases in lift due to the cooling air duct are accepted. Especially at critical braking (claim 2) is by closing the grille however, ensured that the peculiarities of the cooling air flow do not affect the Have wheel pressure on the front wheels; rather it is possible to include the grille Lich to design its moving parts (e.g. slats) so that when in locking position Moving parts of the grille are located, reducing the buoyancy of the Front end.

In such braking situations in which the internal combustion engine driving the vehicle The machine is running in overrun anyway, is a relatively short time Interruption of the cooling air flow is acceptable. According to claim 3 you can reduce the number of these interruptions in the cooling air flow even more if you only close the grille during braking when the vehicle is with  driving at such a speed that the issue of aerodynamic buoyancy increase or decrease plays a role at all.

An embodiment of the invention is described below with reference to the schematic Figure explained, the representation of which is based on the reproduction of those interested Limited parts.

One recognizes the front end 1 of a motor vehicle with the engine compartment 2 , which houses the internal combustion engine 3 together with the change gear 4 . At 5 the windshield is indicated; In a continuation of the same, the bulkhead 6 extends downward.

At the front end of the front carriage 1 , above the bumper 7 , which merges into the front spoiler 8 of a conventional design, the grille 9 , the movable parts 10 of which are designed as slats which can be pivoted about transverse axes 11 . Are the fins 10 in their locked position, in which they run substantially vertically, they prevent the supply of cooling air to the cooler 12 of the internal combustion engine, to which a fan 13 is assigned in the usual way. However, the Küh lergrill 9 releases a cooling air flow, the "used" cooling air leaves the engine compartment 2 flowing along the bulkhead 6 in the downward direction.

For pivoting all the fins 10 is the hydraulically, electrically or pneumatically operating motor 14 , the signals in this embodiment via line 15 Si for actuating the wheel brakes of the vehicle, via line 16 signals of a temperature sensor built into the cooler 12 for the coolant the internal combustion engine 3 and finally via line 17 signals for the speed of the vehicle Fahrge are supplied. Only if, via line 15 , which detects, for example, the pressure in a brake booster 18 , a braking process of a predetermined intensity and, at the same time, such a high driving speed are signaled via line 17 that the wheel force on the front wheels 19 are influenced aerodynamically can, the motor 14 causes a movement of all the plates 10 by pivoting about their axes 11 in their locked position, so that a maximum wheel pressure is generated on the front wheels 19 during this braking process.

This control over the lines 15 and 17 is superimposed on the temperature-dependent control over the line 16 , so that the slats 10 are moved into their locked position during critical braking operations even at high cooling water temperatures. On the other hand, the temperature-dependent control via line 16 ensures that the cooling air inlet cross-section is limited to its necessary value during normal driving, so that the resulting increases in c _w value and buoyancy are limited to necessary sizes.

With the invention, a possibility is thus created with simple means while critical braking of a vehicle due to the cooling air in the engine compartment to eliminate buoyancy increases caused by the same or by corresponding appropriate actuation of the movable elements of a grille in this brake gears to reduce buoyancy.

Claims (3)

1. Control for moving parts of a grille arranged in the way of the cooling air for an internal combustion engine front of the vehicle, the cooling air flowing out being guided in the direction of the roadway, characterized in that the moving parts ( 10 ) of the grille ( 9 ) during braking in their Radiator grille ( 9 ) closing blocking position can be moved. 2. Control according to claim 1, characterized in that the moving parts ( 10 ) are moved only in braking operations predetermined minimum intensity in their locking position be. 3. Control according to claim 1 or 2, characterized in that the moving parts ( 10 ) are only moved during braking into their locked position when the vehicle is traveling at a predetermined minimum speed.