DE20308941U1 - Heating device, in particular thermostatic working element with such a heating device - Google Patents

Description

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Patent Attorney Mülbergerstr. 65 Authorized representative at Dipl.-Ing. Volkhard Kratzsch D-73728Esslifligen European Patent Office PO Box 100162 European Patent Attorney D-73701 Esslingen Telephone 0711/317000 Deutsche Bank Esslingen 210906 Fax 0711/313248 Postgiro office Stuttgart 10004-701

5 Gustav Wahler GmbH u. Co. KG

January 27, 2003

73730 Esslingen

Attorney File 7006-A

Heating device, in particular thermostatic working element with such a heating device

The invention relates to a heating device with the features in the preamble of claim 1 and a thermostatic working element with such a heating device.

A heating device of this type is known (DE 200045181) 1), in which the electric heating cartridge is held in a metal holder with one end region in such a way that the heating cartridge has axial and radial play in relation to the holder. For this purpose, the holder is provided with a specially shaped annular groove during manufacture, within which the heating cartridge is held with its flange with axial and radial play and is secured against falling out by flanging an annular collar adjoining the annular groove. A heating device of this type has proven to be complex, not sufficiently dimensionally stable and not reliable enough, and the strength also leaves a lot to be desired.

The invention is based on the object of creating a heating device of the type mentioned at the beginning, which has improved strength, dimensional stability and operational reliability properties.

The object is achieved in a heating device of the type mentioned at the outset according to the invention by the features in claim 1. Further advantageous inventive features and embodiments emerge from claims 2 to 8. The heating device according to the invention has improved strength, dimensional stability and operational reliability properties compared to the known heating device. The mechanical strength is significantly increased by the fact that the heating cartridge is embedded directly into the holder at the end with its flange and is firmly connected to it to form a structural unit. This results in increased strength for both static and dynamic loads. Furthermore, there is an improvement in quality and greater process reliability, not least due to the elimination of critical connection points. Due to the fixed connection to a structural unit, any center offset of the heating cartridge relative to the holder is avoided. The heating device is simple, inexpensive and reliable.

The invention is further based on the object of creating a particularly simple thermostatic working element, e.g. thermostatic valve, which is simplified with regard to the required components and the corresponding assembly steps and is improved with regard to assembly accuracy.

This object is achieved by a thermostatic working element, e.g. thermostatic valve, with the features in claim 9. Further advantageous inventive features and embodiments emerge from the remaining subsequent claims. This achieves a particular simplification, since the heating cartridge, which directly forms the tappet of the thermostatic working element, in particular the expansion element, is embedded directly in the housing component of the working element, in particular the thermostatic valve, during its shaping.

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and is firmly connected to it to form a structural unit. In this way, the support of the tappet of the expansion element on the housing component of the thermostat valve is achieved and at the same time the heating cartridge forming the tappet is firmly held on the housing component. With such a thermostat valve, a further elimination of components and a further reduction in assembly steps is achieved. Furthermore, there is a reduction in the tolerance of the coaxiality of the heating cartridge forming the tappet in relation to the internal geometry of the housing.

Further details and advantages of the invention will become apparent from the following description.

The full wording of the claims is not reproduced above solely to avoid unnecessary repetition, but instead reference is made to them by reference to the claims, whereby all of these claim features are to be regarded as expressly disclosed at this point and essential to the invention. All of the features mentioned in the above and following description as well as the features that can be inferred from the drawing alone are further components of the invention, even if they are not particularly highlighted and in particular are not mentioned in the claims.

The invention is explained in more detail below with reference to embodiments shown in the drawings. They show: 25

Fig. 1 is a schematic, partially sectioned side view

a heating device for a thermostatic working element, in particular a thermostatic valve, according to a first embodiment,
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Fig.2 is a schematic section of a part of a thermostatic working element in the form of a thermostatic valve with directly embedded heating device according to a second embodiment, which at the same time forms the tappet of the working element.

While Fig. 1 shows only a heating device which is particularly suitable for a thermostatic working element, e.g. a thermostatic valve, Fig. 2 shows a structural unit comprising a heating device and a thermostatic working element, in particular a thermostatic valve.

The schematically illustrated heating device 10 has an electric heating cartridge 11 and a holder 12. The heating cartridge 11 has a tubular sleeve 13 which is closed at the lower end in the drawing and has a flange 14 at the opposite upper end 15. The heating cartridge 11 is accommodated with this upper end region 15 inside the holder 12. This is done in such a way that the heating cartridge 11 with this end 15 having the flange 14 is embedded directly in the holder 12, preferably during its shaping, and is firmly connected to it to form a structural unit.

The holder 12 is designed as a plastic molded part, in particular a plastic injection molded part. The heating cartridge 11 is surrounded by the material of this holder 12 designed in this way, in particular by injection molding, at its end 15.

The flange 14 of the heating cartridge 11 forms a part which is one piece with the tubular sleeve 13 and preferably projects relatively widely radially, whereby a good anchoring within the holder 12 is achieved during overmolding.

The pipe sleeve 13 is made of metal, e.g. stainless steel, aluminum, copper or suitable alloys. The pipe sleeve 13 together with its flange 14 is designed as a deep-drawn component and can therefore be manufactured particularly easily and cost-effectively and with precise dimensions.

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Due to the design described, the heating cartridge 11 in the end region 15 is surrounded by the material of the holder 12 on its entire outer surface and is immovably connected to the latter. In the area of the flange 14, electrical lines 16 lead out of the interior of the heating cartridge 11, which are embedded in the material of the holder 12, in particular are molded around by this material. The holder 12 has a schematically indicated plug 17 which is firmly connected to it and is preferably molded or molded on by its material, to which the electrical lines 16 are led.

The heating device 10 described has improved strength, dimensional stability and operational reliability properties compared to known heating elements. The fact that the flange 14, which is relatively large in diameter, is embedded directly in the holder 12, in particular is overmolded in its material, together with the adjoining upper end region 15, ensures that the holder 12 on the one hand and the heating cartridge 11 on the other hand are precisely aligned with one another in a predetermined manner and that the entire component is dimensionally accurate. Any center offset and any inclination of, for example, the heating cartridge 11 in relation to the holder 12 is avoided. It is also advantageous to reduce the components of the heating device 10 to just the holder 12 and the heating cartridge 11. No further components are required. This also eliminates the need for additional connection points. In this way, an improvement in quality and greater process reliability are achieved. Furthermore, a simpler design results and, by eliminating additional components, a significant reduction in costs with a reduction in manufacturing effort. The heating cartridge 11 is surrounded by the material of the holder 12 with its upper end region 15 on its entire outer surface and is immovably and permanently connected to the latter. This results in a high mechanical strength for both static and dynamic loads. Overall, the heating device 10 is simple, inexpensive and reliable.

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Fig. 2 shows a schematic view of a thermostatic working element 20, e.g. in the form of a thermostatic valve, which is equipped with an electric heating device 10 in the design according to Fig. 1. The heating device 10 has an electric heating cartridge 11 according to Fig. 1. The latter has a tubular sleeve 13 with a flange 14 at one end 15 and is received with this end 15 in a holder 12. The heating cartridge 11 is embedded with its one end 15, which has this flange 14, directly in the holder 12, preferably during its shaping, and is firmly connected to it to form a structural unit, as described above with reference to Fig. 1. The special feature of this thermostatic working element 20 is that the holder 12 is formed from a housing component 21 of the working element 20, into which the heating cartridge 11 is directly embedded with its one end 15, which has the flange 14, preferably during its shaping, and is firmly connected to it to form a structural unit. This working element 20 has all the features described above with reference to Fig. 1, taking into account the special feature that the holder 12 in Fig. 2 is formed directly from the housing component of the working element 20. This housing component 21 is designed as, for example, an upper valve housing cap, which has a flange 22 with which the housing component 21 can be placed on another housing component (not shown) and fastened using fastening means, e.g. screws.

The electric heating cartridge 11 is immersed in a housing 23, which is only indicated schematically and which contains an expansion material (not shown) inside which expands when the temperature increases and reduces in volume when the temperature decreases. The heating cartridge 11 directly forms a plunger 24 which is immersed in the interior of the housing 23 and in the expansion material contained therein and which is supported with the other end 15 on the housing component 21 forming the holder 12, wherein the housing 23 moves in the valve opening direction, i.e.

in Fig. 1 downwards, e.g. against a return spring (not shown), which

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When the expansion material cools and its volume reduces, the housing 23 moves in the opposite direction back to its original position.

A valve member 25, e.g. in the form of a valve disk, is held on the housing 23 of the working element 20, to which a valve seat surface 26 is assigned, which is provided on, in particular in, the housing part 21 forming the holder 12.

In Fig. 2, the working element 20, in particular the thermostatic valve, is shown in its closed position, in which the valve member 25 rests against the valve seat surface 26, thereby blocking a passage between the area below the valve member 25 and the area above it. When the expansion material in the housing 23 heats up and the volume of the expansion material increases, the housing 23 in Fig. 2 moves downwards relative to the heating cartridge 11, in particular to the tappet 24 formed thereby, which is immovably supported by the end 15 on the housing component 21. When the housing 23 in Fig. 2 moves downwards, the valve member 25 is taken along and lifted off the valve seat surface 26, releasing the corresponding passage in this area. When the expansion material in the housing 23 cools down, the housing 23 together with the valve member 25 is moved in the opposite direction back into the closed position shown.

The special feature of the second embodiment in Fig. 2 is that the electric heating device 10 is connected directly to the housing component 21 of the working element, in particular the thermostat valve, during its shaping to form a fixed structural unit, e.g. when the housing component 21 is designed as a plastic molded part, in particular a plastic injection molded part, during the shaping this is surrounded by the material of the housing component 21, in particular overmolded. This design leads to a further reduction in components and assembly work. Furthermore, a higher level of accuracy is achieved with regard to the coaxial relative arrangement between the housing component 21 on the one hand and the heating cartridge 11, in particular the tappet 24, with the housing 23 on the other hand. The arrangement is simple and cost-effective as well as reliable.

Claims (14)

1. Heating device, in particular for a thermostatic working element, with an electric heating cartridge ( 11 ) which has a tubular sleeve ( 13 ) with a flange ( 14 ) at one end ( 15 ) and is received with this end ( 15 ) in a holder ( 12 ), characterized in that the heating cartridge ( 11 ) is embedded with its one end ( 15 ) having the flange ( 14 ) directly in the holder ( 12 ), preferably during its shaping, and is firmly connected to the latter to form a structural unit. 2. Heating device according to claim 1, characterized in that the holder ( 12 ) is designed as a plastic molded part, in particular a plastic injection molded part, and that the heating cartridge ( 11 ) is surrounded by the material of the holder ( 12 ) with its one end ( 15 ), in particular is molded around. 3. Heating device according to claim 1 or 2, characterized in that the flange ( 14 ) of the heating cartridge ( 11 ) forms a part which is integral with the tubular sleeve ( 13 ) thereof and preferably projects radially. 4. Heating device according to one of claims 1 to 3, characterized in that the pipe sleeve ( 13 ) is made of metal, e.g. stainless steel, aluminum, copper or suitable alloys. 5. Heating device according to one of claims 1 to 4, characterized in that the tubular sleeve ( 13 ) together with its flange ( 14 ) is designed as a deep-drawn component. 6. Heating device according to one of claims 1 to 5, characterized in that the heating cartridge ( 11 ) in the region of one end ( 15 ) is surrounded on its entire outer surface by the material of the holder ( 12 ) and is immovably connected to the latter. 7. Heating device according to one of claims 1 to 6, characterized in that the electrical lines ( 16 ) leading to the heating cartridge ( 11 ) are embedded in the material of the holder ( 12 ), in particular are molded around by its material. 8. Heating device according to one of claims 1 to 7, characterized in that the holder ( 12 ) has a plug ( 17 ) firmly connected thereto, preferably encapsulated or molded onto the material thereof. 9. Thermostatic working element, e.g. thermostatic valve, with a heating device ( 10 ) with an electric heating cartridge ( 11 ) which has a tubular sleeve ( 13 ) with a flange ( 14 ) at one end ( 15 ) and is received with this end ( 15 ) in a holder ( 12 ), characterized in that the heating cartridge ( 11 ) is embedded with its one end ( 15 ) having the flange ( 14 ) directly in the holder ( 12 ), preferably during its shaping, and is firmly connected to the latter to form a structural unit. 10. Thermostatic working element according to claim 9, characterized in that the holder ( 12 ) is formed from a housing component ( 21 ) of the working element ( 20 ), into which the heating cartridge ( 11 ) is directly embedded with its one end ( 15 ) having the flange ( 14 ), preferably during its shaping, and is firmly connected thereto to form a structural unit. 11. Thermostatic working element according to claim 9 or 10, characterized by a heating device ( 10 ) with the features in one or more of claims 1 to 8. 12. Thermostatic working element according to one of claims 9 to 11, characterized in that the housing component ( 21 ) forming the holder ( 12 ) is designed as, for example, an upper valve housing cap. 13. Thermostatic working element according to one of claims 9 to 12, characterized in that the electric heating cartridge ( 11 ) is immersed in a housing ( 23 ) containing an expansion material and forms a tappet ( 24 ) which is supported with one end ( 15 ) on the housing component ( 21 ) forming the holder ( 12 ), wherein the housing ( 23 ) moves relative to the tappet ( 24 ) in the valve opening direction when the expansion material is heated and its volume increases. 14. Thermostatic working element according to claim 13, characterized in that a valve member ( 25), e.g. a valve disk, is held on the housing (23 ) of the working element ( 20 ), to which a valve seat surface ( 26 ) is assigned, which is provided on, in particular in, the housing component ( 21 ) forming the holder ( 12 ).