DE102011120798A1 - Thermostat valve in rotary disk configuration for controlling cooling circuit of internal combustion engine of vehicle, has rotary disk actuated by expanding material element and controlling valve flow rate, where element includes filling - Google Patents

Abstract

The valve (1) has a rotary disk (2) actuated by an expanding material element (10) e.g. wax element, and controlling a flow rate of the valve. The material element includes an expanding material filling i.e. wax, which experiences a volume enlargement during temperature increase such that a translatory movement of the material element or sections of the material element is produced. A spring element i.e. pressure spring, is arranged at or integrated in the material element. An effective direction of the spring element is aligned against an expansion direction of the material filling.

Description

The invention relates to a thermostatic valve in rotary valve design according to the features of the preamble of claim 1.

The DE 10 2009 004 445 B3 describes a rotary valve for a multi-branch operating fluid circuit of an internal combustion engine having at least one in a first flow channel of a housing rotatably mounted Querschnittsverstellglied, which cooperates with at least one Betriebsmittelkreislauf connection opening of the housing for adjusting a flow cross-section of the resource cycle, wherein in the housing at least a second Flow channel is formed in which a valve element driven by the Querschnittsverstellglied for adjusting at least one further flow cross-section valve member is arranged linearly displaceable, and use of such a rotary valve in an internal combustion engine having a plurality of branches having operating medium circuit.

The invention is based on the object to provide an improved thermostatic valve in rotary valve design.

The object is achieved by a thermostatic valve in rotary valve design with the features of claim 1.

Advantageous embodiments of the invention are the subject of the dependent claims.

When thermostatic valve in rotary valve design according to the invention a the flow of the thermostatic valve regulating rotary valve can be actuated by means of an expansion element. This allows a particularly simple control of a thermostatic valve in rotary valve design, which compared to conventional electrically actuated thermostatic valves in rotary valve design has a reduced control engineering effort, a reduced space requirement and a reduced weight.

By means of the thermostatic valve according to the invention in rotary valve design is advantageously a particularly low pressure loss control of the circulatory functions of a cooling circuit of a vehicle allows, which includes, for example, a volume flow cutoff of a mechanical water pump.

Embodiments of the invention are explained in more detail below with reference to drawings.

Showing:

1 schematically a perspective view of a thermostatic valve in rotary valve design,

2 schematically an exploded view of a thermostatic valve in rotary valve design and

3 schematically a perspective view of a Dehnstoffelements for actuation of a thermostatic valve in rotary valve design.

Corresponding parts are provided in all figures with the same reference numerals.

1 schematically shows a perspective view of a thermostatic valve 1 in rotary valve design. Such a thermostatic valve 1 allows, for example, a control and / or regulation of a resource cycle in a vehicle. Such a resource cycle may be formed, for example, as a conventional cooling circuit of an internal combustion engine, which is usually divided into a small and a large cooling circuit section. In this case, the coolant is passed as a function of its temperature through at least one cooling circuit section.

2 schematically shows an exploded view of the thermostatic valve 1 in rotary valve design. Such a thermostatic valve 1 includes an upper housing part 5 , a housing base 6 , the rotary valve 2 , a housing seal 7 , a molded seal 8th , a bearing element 9 and an expansion element 10 ,

Housing top 5 and housing base 6 are formed corresponding to each other and with the interposition of the correspondingly shaped housing seal 7 by means of a plurality of conventional fastening means 11 , which are formed for example as screws, media-tightly arranged together.

Housing top 5 and housing base 6 are preferably made of a thermoplastic or a thermoplastic resin mixture in a conventional injection molding process.

In the embodiment variant shown in the figures is a disc-shaped rotary valve 2 shown. The connections are in the upper housing part 5 and housing base 6 , which at least one inflow 3 and at least one drain 4 include, on the top and / or bottom of the thermostatic valve 1 arranged.

In an alternative embodiment, not shown, the rotary valve 2 Also be cylindrical, wherein the terminals in the region of a lateral surface of the cylindrical rotary valve 2 receiving thermostatic valve 1 are arranged.

The thermostatic valve 1 includes at least one inflow 3 and a drain 4 and acts in the manner of a conventional thermostatically controlled shut-off valve, but can also, as shown, several inflows and outflows 3 . 4 exhibit.

In the rotary valve 2 is at least one passage opening 19 formed or introduced, wherein the rotary valve 2 is formed such that the coolant in response to a position of the rotary valve 2 between the connections in the upper housing part 5 and housing base 6 can circulate or flow or such circulation or flow is reduced or interrupted.

The connections can be designed, for example, as the outlet of a mechanical or an electrical coolant pump and as the inlet of a vehicle radiator, a heating heat exchanger or a short-circuit line.

In a disc-shaped rotary valve 2 The connections can be on both sides of the thermostat valve 1 be arranged and distributed, ie the connections are both in the upper housing part 5 as well as in the lower housing part 6 arranged. As a result, with a corresponding arrangement and shaping, a direct connection between opposing connections can be made possible or a plurality of connections can be made by means of a mixing chamber, not shown, in the thermostatic valve 1 be connected or fluidly coupled.

Special advantage of a disc-shaped rotary valve 2 is a reduction of unwanted vortices between directly connected terminals, for example, an inlet of the vehicle radiator directly opposite the outlet of the mechanical coolant pump, so that in a main flow direction, the coolant almost unhindered, ie undeflected and so vortex-free through the thermostatic valve 1 flows from the vehicle radiator into the coolant pump.

The molded seal 8th is designed such that it the rotary valve 2 opposite housing upper part 5 and / or lower housing part 6 and in particular the connections seals. The molded seal 8th has a conventional X-ring profile, which allows a dynamic seal with high dimensional stability. In addition, the shape of the X-ring profile with a space for lubricant allows a friction reduction and thus a reduced mechanical load and reduced feed forces of the rotary valve 2 ,

The bearing element 9 allows compact storage of the rotary valve 2 such in the housing base 6 in that no bearing components in a flow cross-section of the thermostatic valve 1 protrude and reduce this flow. Here is the bearing element 9 preferably designed as a sealed self-aligning ball bearing.

The expansion element 10 is in mechanical operative connection with the rotary valve 2 , In this case, the mechanical operative connection in a manner not shown by means of a lever element on the rotary valve 2 and a correspondingly shaped coupling element on the expansion element 10 be educated.

Preferably, the mechanical operative connection between rotary valve 2 and expansion element 10 by means of a gear 12 and a correspondingly shaped rack 13 , which are in meshing, formed.

The gear 12 is fixed against rotation and rotation on the rotary valve 2 arranged or integrally formed on this, so that an integrated component of gear 12 and rotary valve 2 is formed.

3 schematically shows a perspective view of the expansion element 10 for actuation of the thermostatic valve 1 in rotary valve design.

The expansion element 10 includes a Dehnstofffüllung, which in a cylinder 14 is arranged and undergoes an increase in volume when the temperature increases. In the cylinder 14 is a working piston with a piston rod 15 arranged, which the cylinder 14 surmounted at the end. An increase in volume of Dehnstofffüllung causes a translational movement of the piston rod 15 ,

The expansion element 10 is preferably designed as a wax element or wax cartridge, wherein the Dehnstofffüllung consists of wax or wax.

At the expansion element 10 is a spring element 16 arranged, which is the cylinder 14 preferably surrounds the outside, to a particularly compact design of the expansion element 10 to enable. Here is the spring element 16 preferably as a return spring, in particular as a conventional compression spring, formed, whose effective direction is aligned against an expansion direction of the Dehnstofffüllung.

To during operation of the expansion element 10 a complete and safe engagement of the teeth of gear 12 and rack 13 to allow is a holding element 17 on the cylinder 14 arranged. This is the holding element 17 with the gear 12 or a shaft of the rotary valve 2 rotatably coupled. Furthermore, the holding element forms 17 a guide and thus storage of the cylinder 14 and a bearing of the spring element 16 ,

The spring element 16 is needed because between the working piston of the expansion element 10 and the Dehnstofffüllung no firm mechanical connection exists. At a cooling and the resulting decrease in volume of the Dehnstofffüllung a return of the rotary valve 2 to allow in its initial position, the spring element acts 16 contrary to the expansion direction of the Dehnstofffüllung. This is a safe return of the rotary valve 2 allows.

Furthermore, on or in the expansion element 10 arranged a heating element not shown in detail, by means of the thermal energy in the Dehnstofffüllung can be introduced. Such a heating element can, for example, as a heated piston rod 15 be educated.

By means of such a heating element is a, for example, map-dependent activated positive opening of the thermostatic valve 1 allows. The heating element is preferably designed as an electrically operated heating element, wherein on the piston rod 15 end a corresponding connector 18 arranged and preferably electrically coupled to a control unit, not shown, of the internal combustion engine.

At the piston rod 15 opposite end is on the cylinder 14 a rack 13 arranged or a rack section is on the cylinder 14 arranged or shaped. By means of the piston rod 15 is the expansion element 10 frame-mounted with a housing of the thermostatic valve 1 coupled.

gear 12 of the rotary valve 2 and rack 13 of the expansion element 10 are in meshing engagement, allowing a translational movement of the piston rod 15 a rotary movement of the rotary valve 2 causes.

In operation of the thermostatic valve 1 the Dehnstofffüllung the expansion element heats up 10 according to the temperature of the coolant in the thermostatic valve 1 and thereby expands. Through this expansion and the frame-fixed attachment of the piston rod 15 on the thermostatic valve 1 the expansion fabric filling moves the rack 13 against the spring force of the spring element 16 translationally. By this movement of the rack 13 and the meshing connection to the gear 12 rotates selbiges and thus rotatably with the gear 12 coupled rotary valve 2 , The rotational movement of the rotary valve 2 opens or connects tributaries in the manner described 3 and drains 4 ,

A cooling of the coolant and the resulting expansion of the filler causes a reduction in volume. This relaxes the compressed spring element 16 and puts the piston rod 15 back again, ie transferred to a starting position.

LIST OF REFERENCE NUMBERS

1

thermostatic valve

2

rotary vane

3

inflow

4

outflow

5

Housing top

6

Housing bottom

7

housing seal

8th

shaped seal

9

bearing element

10

expansion element

11

fastener

12

gear

13

rack

14

cylinder

15

piston rod

16

spring element

17

retaining element

18

connector

19

Through opening

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102009004445 B3 [0002]

Claims (10)

Thermostatic valve ( 1 ) in rotary valve design, characterized in that a flow of the thermostatic valve ( 1 ) regulating rotary valve ( 2 ) by means of an expansion element ( 10 ) can be actuated. Thermostatic valve ( 1 ) according to claim 1, characterized in that the expansion element ( 10 ) comprises a Dehnstofffüllung, which undergoes an increase in volume with temperature increase and thus a translational movement of the expansion element ( 10 ) or sections of the expansion element ( 10 ) causes. Thermostatic valve ( 1 ) according to claim 1 or 2, characterized in that the expansion element ( 10 ) is formed as a wax element, wherein the Dehnstofffüllung consists of wax or wax. Thermostatic valve ( 1 ) according to one of the preceding claims, characterized in that on the expansion element ( 10 ) a spring element ( 16 ) is arranged or integrated in the same, whose effective direction is aligned against an expansion direction of the Dehnstofffüllung. Thermostatic valve ( 1 ) according to one of the preceding claims, characterized in that on or in the expansion element ( 10 ) A heating element is arranged, by means of which thermal energy can be introduced into the Dehnstofffüllung. Thermostatic valve ( 1 ) according to claim 5, characterized in that the heating element is designed as an electrically operated heating element. Thermostatic valve ( 1 ) according to one of the preceding claims, characterized in that the expansion element ( 10 ) at one end fixed to a housing of the thermostatic valve ( 1 ) and at the other end has a rack section or with a rack ( 13 ) is mechanically coupled. Thermostatic valve ( 1 ) according to one of the preceding claims, characterized in that the rotary valve ( 2 ) with a corresponding to the rack ( 13 ) or gear formed to the rack section ( 12 ) and this gear ( 12 ) with the rack ( 13 ) or the rack section is in meshing engagement. Thermostatic valve ( 1 ) according to one of the preceding claims, characterized in that the thermostatic valve ( 1 ) at least one inflow ( 3 ) and at least one outflow ( 4 ) having. Thermostatic valve ( 1 ) according to one of the preceding claims, characterized in that the rotary valve ( 2 ) is disc-shaped or cylindrical.

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