DE4009949A1 - Thermostat valve regulator for vehicle IC engine - has expanding capsule moving slide to displace valve pin - Google Patents

Abstract

The thermostatic control valve has a main body (10) with a piston (12) that moves to control the valve opening. The piston is displaced by the action of a temperature sensitive capsule (21) that causes a slide element (14) to move. The slide has a profiled surface (13) such that a ball follower (15) is displaced. The slide is supported on roller guides (17) to reduce friction and on either side are located coil springs inset into pockets. USE/ADVANTAGE - In cooling systems of IC engine. Compact form.

Description

The invention relates to a thermostatic valve for controlling the Temperature of a liquid-cooled internal combustion engine, ins particular of an internal combustion engine of a motor vehicle, the a thermostatic working element with a temperature-dependent gig out of a housing, serving as a valve lifter Piston contains, the one as a support element as a slide trained abutment is assigned, which one in essence Chen adjustable control surface across the piston points and that by means of a thermostatic working element trained actuator against the action of a Rückstellfe which is adjustable.

In a known thermostatic valve of the type mentioned (DE-C 32 26 104), the actuator acts with its extendable Actuator directly on the slide. The return spring is on the opposite side of the actuator in axial Extension of the slide and the actuator arranged. In Given the large forces, a powerful return spring needed, which requires a considerable amount of space.

The invention has for its object a thermostatic valve of the type mentioned at the beginning to create the most possible has a compact shape.  

This object is achieved in that the abutment with we is at least provided a lateral approach, the counterla ger for a return spring that is parallel to the slide is arranged next to this.

This training on the one hand ensures that the construction length can be kept relatively low, since the slide and the return spring are arranged side by side in parallel. In addition, the advantage is obtained that the abutment with its housing in the axial extension of the valve tappet serving working piston builds very flat and not essential more than just the height of the slide in this direction different.

In a further embodiment of the invention it is provided that the abutment with two diametrically opposed Approaches are provided, the counter bearing for two next to the shooting Form via arranged return springs. This will, on the one hand ensured that the slide is loaded symmetrically, so that the risk of canting is avoided. Also enables the two, common return springs are higher Restoring forces and relatively large spring travel.

In a further embodiment of the invention it is provided that the slide in the area of its control surface is essentially a Chen has a cuboid shape. Such a slider is secured against twisting so that the control surface is always remains facing the working piston serving as a valve tappet.

In a further embodiment of the invention it is provided that the slide on its opposite the control surface Side is supported with a roller guide that several in Direction of movement arranged one behind the other and in one step tion channel of the slide has guided roller body, the are kept at a distance by means of a cage. By means of this Role guidance becomes the essential part of the forces of  Closing springs of the thermostatic valve collected and supported, so that the abutment is largely relieved of these forces is. It is avoided that the closing forces of the Ventilfe high friction between the slide and its housing can cause forces by which the adjustment movement of the Slider could be difficult.

Further features and advantages of the invention result from the following description of the shown in the drawing th embodiment and the subclaims.

Fig. 1 shows a partial section through an inventive thermostatic valve with an adjustable abutment which is designed as a slide,

Fig. 2 shows a section along the line II-II of Fig. 1 and

Fig. 3 is a section along the line III-III in FIG. 1.

Of the thermostatic valve, only a part of its valve housing ( 10 ) is shown, which is provided with a connection ( 11 ) which is designed as a hose connection. This connection ( 11 ) serves, for example, as an inlet for coolant coming from an internal combustion engine. The thermostatic valve contains a further connection, which is connected to a cooler, and a further connection, which represents a direct return to the internal combustion engine. In principle, the thermostatic valve can be designed in accordance with the design shown in DE-C 32 26 104. The thermostatic valve contains a thermostatic cal working element, which has a Ge receiving an expansion material, when heated, a working piston ( 12 ) can be extended, which serves as a valve tappet. The working piston ( 12 ) is assigned a control surface ( 13 ) of a thrust bearing ( 14 ) designed as a slide. The working piston ( 12 ), which extends when heated, is supported on the area of the control surface ( 13 ) that lies opposite it. A further expulsion of the working piston ( 12 ) as a result of heating from its housing leads to the housing then being moved relative to the working piston ( 12 ). The housing carries a valve plate, so that the valve movement then begins. The greater the distance that the working piston ( 12 ) has to travel until it comes to the control surface ( 13 ), the higher the opening temperature of the thermostatic valve.

The control surface ( 13 ) has two sections which run transversely to the working piston ( 12 ) and are connected to one another by an inclined region. The helix angle is 45 ° or less with respect to the longitudinal axis of the working piston ( 12 ). The end of the working piston ( 12 ) is equipped with an embedded, freely rotatable ball ( 15 ). On the side opposite the control surface ( 13 ), the slide ( 14 ) is supported with a roller guide which supports the forces exerted by the working piston ( 12 ). A plurality of roller bodies ( 17 ) are arranged one behind the other in a guide groove ( 16 ) of the slide ( 14 ) and are positioned at a mutual distance by means of a cage ( 18 ). The slide ( 14 ) is housed in a housing part ( 19 ), which in the exemplary embodiment is integrally formed with the valve housing ( 19 ). However, it is possible to manufacture the housing part ( 19 ) as a separate component which is fastened to the valve housing ( 10 ) by means of screws or the like. The roller body ( 17 ) run against a rail ( 20 ) made of wear-resistant material with which the roller body ( 17 ) opposite surface of the Ge housing ( 19 ) is lined.

The slide ( 14 ) is adjusted by means of an actuator ( 21 ) which is formed as a thermostatic working element. The thermostatic working element has a housing ( 22 ) which contains an expansion material, in particular wax. In the housing ( 22 ) protrudes a working piston ( 23 ) which is expelled when heated, since the volume of the expansion material changes depending on the temperature and thus expels the working piston ( 23 ). The housing ( 22 ) is held in a collar-like extension ( 24 ) of a cover ( 25 ) which closes the housing ( 19 ). This cover ( 25 ) is fastened to the housing ( 19 ) in a manner not shown by means of screws.

As can be seen in particular from Fig. 3, the working piston ( 23 ) is immediately in extension of the substantially cuboidal slide ( 14 ).

As can be seen in particular from Fig. 3, the slide ( 14 ) is guided in a chamber ( 26 ) of the housing ( 19 ). The side walls of this chamber ( 26 ) are hen with slots ( 27 , 28 ) verse, in the side lugs ( 29 , 30 ) of the slide ( 14 ) protrude. Via these lugs ( 29 , 30 ), the slide ( 14 ) is connected to plates ( 31 , 32 ) which protrude into two chambers ( 33 , 34 ) of the housing ( 19 ) adjacent to the middle chambers ( 26 ). The plates ( 31 , 32 ) serve as counter bearings for return springs ( 35 , 36 ) which are arranged in the chambers ( 33 , 34 ) and which are supported against the closed end walls of the chambers ( 33 , 34 ).

From Fig. 1 to 3 it can be seen that the arrangement of the slide bers ( 14 ) and the return springs ( 35 , 36 ) and the actuating element ( 21 ) are housed or arranged in a very compact object, so that in particular in the axial lengthening of the working piston ( 12 ) of the thermostatic valve, only a relatively small installation space is required. It should also be noted that the housing ( 19 ) has been shown rotated by 90 ° for reasons of illustration. In practice, the design is chosen so that the longitudinal direction of the connection ( 11 ) and the longitudinal direction of the housing ( 19 ) are rotated by 90 ° to each other.

A further reduction in the size of the elements, which are directly arranged on the valve housing ( 10 ) of the thermostatic valve, can be achieved if the steep member ( 21 ) is arranged spatially separate from the housing ( 19 ). The Ge housing ( 19 ) can then be closed with a flat lid. The actuator ( 21 ) is then assigned its own bracket, with which it can be fastened to another location of a motor vehicle. Between the slide ( 14 ) and the actuator ( 21 ), a remote transmission is provided, for this remote transmission a tensile force transmitting element is hen vorgese. This tension element, for example the core of a Bowden cable, is then fastened with the slide ( 14 ) in such a way that it can be pulled out of the illustrated starting position against the action of the return springs ( 35 , 36 ). This pulling movement is triggered by the actuator ( 21 ), which is provided in its holder with a translation device that ensures that the extension movement of the working piston is transmitted into a pulling movement. In this case, it is possible that the return springs ( 35 , 36 ) of the slide ( 14 ) are simultaneously used as a return element for the working piston of the remotely located actuator ( 21 ).

In Fig. 1, the starting position of the slide ( 14 ) is Darge, in which the slide ( 14 ) by means of the Rückstellfe ( 35 , 36 ) is fully pushed back against the actuator ( 21 ), the working piston is retracted. In this case, the working piston ( 12 ) of the thermostatic valve faces the part of the control surface ( 13 ) which has the greatest distance from the valve seat. This means that the thermostatic valve is set to an elevated opening temperature, which corresponds to a cold ambient temperature. If, on the other hand, there is an elevated ambient temperature, the actuator ( 21 ) has moved the slide ( 14 ) accordingly, so that the oblique section of the control surface ( 13 ) or already the again transverse to the working piston ( 12 ) runs the least Distance-determining section opposite the working piston ( 12 ). The thermostatic valve is then set accordingly to a lower opening temperature.

As can be seen from Fig. 1, the working piston ( 12 ) penetrates the valve housing ( 10 ). It is surrounded by a sealing insert ( 40 ). As can also be seen from Fig. 1, the Ar beitskolben ( 12 ) is assigned its own return spring ( 41 ) which is supported on the area of the valve housing ( 10 ) through which the working piston ( 12 ) penetrates. The opposite de valve housing of the return spring ( 41 ) is held by means of a spring plate ( 42 ) which is held on the working piston ( 12 ) by means of a retaining ring ( 43 ). This return spring ( 41 ) ensures that the working piston ( 12 ) is always pushed back into the thermostatic valve when the internal combustion engine is switched off and the coolant temperature drops, even if the slide ( 14 ) should have reached its starting position beforehand. The working piston ( 12 ) then detaches from the control surface ( 13 ) of the slide ( 14 ).

Claims (8)

1. Thermostatic valve for regulating the temperature of a liquid-cooled internal combustion engine, in particular a Ver internal combustion engine of a motor vehicle, which contains a thermostatic working element with a temperature-dependent extending from a housing, serving as a valve tappet, which is assigned as a supporting element, a slide designed as an abutment, which has a substantially transverse to the Ar beitskolben adjustable control surface and which is adjustable by means of a thermostatic working element actuator against the action of a return spring, characterized in that the abutment ( 14 ) is provided with at least one lateral extension ( 29 , 30 ) , Which forms a Gegenla ger ( 31 , 32 ) for a return spring ( 35 , 36 ), the pral lel to the slide ( 14 ) is arranged next to this. 2. Thermostatic valve according to claim 1, characterized in that the slide ( 14 ) is provided with two diametrically opposite attachments ( 29 , 30 ), the counter bearing ( 31 , 32 ) for two next to the slide ( 14 ) arranged return springs ( 35 , 36 ) form. 3. Thermostatic valve, in particular according to claim 1 or 2, characterized in that the slide ( 14 ) in the region of its control surface ( 13 ) has a substantially cuboid shape. 4. Thermostatic valve according to one of claims 1 to 3, characterized in that the slide ( 14 ) on its side opposite the control surface ( 13 ) is supported with a roller guide, which is arranged several in the direction of movement one behind the other and in a guide groove ( 16 ) of the slide valve ( 14 ) guided roller body ( 17 ) which are kept at a distance by means of egg nes cage ( 18 ). 5. Thermostatic valve according to claim 4, characterized in that the slide ( 14 ) is arranged in a housing ( 19 ) into which a rail ( 18 ) serving as a running surface for the roller body ( 17 ) is inserted. 6. Thermostatic valve according to claim 4 or 5, characterized in that the control surface ( 13 ) and / or the guide channel ( 16 ) for the roller body ( 17 ) are provided with a wear protection coating. 7. Thermostatic valve according to one of claims 1 to 6, characterized in that in the control surface ( 13 ) of the slide ( 14 ) facing end of the piston serving as valve tappet ( 12 ) a freely rotatable ball ( 15 ) is used. 8. Thermostatic valve according to one of claims 1 to 7, characterized in that the working piston ( 12 ) is loaded with a return spring resetting it in the direction of its housing ( 41 ).