EP0963139A2 - Radiation heating device with busbars - Google Patents

Abstract

The arrangement has a housing part in which heating elements (2) are mounted with their heating conductors connected via current rails to a plug. A temp. measurement element (19,27) mounted on an end section of the current rails (13) near the heating element protrudes into the heating element. The current rails are connected by a connecting element to an essentially rigid current rail unit An Independent claim is also included for a method of producing a radiation heating arrangement.

Description

The present invention relates to a radiant heating arrangement, in particular for use below a glass ceramic cooktop, with a housing part, in the heating elements are arranged, the heating conductor via busbars with a Plugs of the radiant heating arrangement are connected.

Such a radiant heating arrangement is known from DE 196 11 403 A1, the heating elements or radiant heaters in one piece Insulating part are arranged. The power connections are pressed into the insulating part Ribbon cables made of metal, implemented in corresponding current-carrying channels of the insulating part are included. The power supply ribbon conductors are on the one hand welded to the group connector of the radiant heating arrangement and on the other hand with the band heating conductors of the individual heating elements. Temperature limiter the heating elements are inserted in corresponding recesses in the insulating part and fixed.

The object of the present invention is the assembly technology in a radiant heating arrangement to simplify according to the preamble of claim 1.

According to the invention, this is the case with a radiant heating arrangement according to the preamble of claim 1 achieved in that at an end portion of the busbar a temperature measuring element is held in the area of the heating element protrudes into the heating element. This means that the temperature measuring elements are already in front the mounting of the busbars in the housing part of the radiant heating arrangement are each attached to the conductor rails. This pre-assembled unit is then inserted into the housing part for further assembly and the corresponding electrical connections made. Due to the essentially rigid mounting of the Temperature measuring element on the busbar is its position when inserted in the insulating part is already fixed. This further simplifies the assembly of the arrangement.

To get a self-supporting unit that is easy to handle, they are Busbars essentially rigid by means of a connecting element Busbar unit connected to temperature measuring elements. The so created Unit can be automated due to its inherent stability after insertion in the insulating part are welded to the plug and the heating conductors.

The temperature measuring element in the rigid connecting legs advantageously has the are welded to the conductor rail. This is also a stable and compact Unit created and the assembly technology of the radiant heating arrangement simplified.

According to a preferred embodiment, the temperature measuring element has Bimetallic element, in particular for the detection of the residual heat of the heating element serves. This means that without additional or subsequent special wiring Inexpensive bimetal element connected to the busbar unit. Another Simplification of the manufacture of the radiant heating arrangement is achieved that the temperature measuring element also has a display element that of the bimetal element is switched. By integrating the display element, for example in the form of a light emitting diode and the bimetal element in a compact and pre-wired unit is the realization of the electrical line connections the radiant heating arrangement further simplified.

Corresponding advantages result if the temperature measuring element is a Curie effect element has and in particular as a temperature limiter to protect the Radiant heating or the glass ceramic cooktop serves to prevent overheating. Curie effect elements are known, for example, from soldering iron technology and are used there as switching elements determined by temperature. The Curie effect is used thus the loss of the magnetic property of a material when it is exceeded a certain temperature, the Curie temperature. The Curie effect element is particularly characterized by an improved compared to the bimetal element Accuracy.

An exemplary embodiment of FIG Radiant heating arrangement according to the invention described.

A radiant heating arrangement 1 with four heating elements 2 has a metallic one Heating pan 3 on. This is known with its functional components Way directly under a hotplate to be heated, for example Glass ceramic, arranged. In the heating trough 3, an insulating part 5 is inserted, which for the four heating elements 2 have four corresponding receiving spaces 7. In accordingly designed line channels of the insulating part 5 are band heating conductors 11 of the heating elements 2 and used as conductor rails 13 flat wires made of sheet metal. Here are the busbars 13 by means of rail holders shown in broken lines 14 made of electrical insulation material to a self-supporting and inherently rigid Busbar unit 15 connected, At the same time are the rail holder 14 individual busbars 13 defined spaced apart. The busbar unit 15 connects the strip heating conductor 11 to a group connector 17 of the radiant heating arrangement 1. In the end section of the busbars 13 in the area of Recording rooms 7 are each a temperature limiter 19 on the busbars 13 welded on. The temperature limiter 19 has a soldering iron technology well-known Curie effect element. From the housing of the temperature limiter 19 a sensor tube 21 projects into the thermal coupling of the Curie effect element Receiving space 7 above the strip heating conductor 11. Rigid connecting legs also protrude (not shown) from the housing of the temperature limiter connected to a angled connection tab 22 of the busbar 13 are welded. A den Recording space 7 delimiting recording space wall 23 has at its upper edge a corresponding recess for the sensor tube 21 of the temperature limiter 19. On the receiving space wall 23 there is a corresponding increase designed insulating ring 25 set. The sensor tube 21 thus projects between the receiving space wall 23 and the insulating ring 25 placed thereon in the receiving space 7 of the Heating element 2. About the group connector 17 and the busbars 13 are the Temperature limiter 19 and the band heating conductor 11 connected to it with electrical Power supplied. Separation is made via two further busbars 13 a residual heat sensor 27 fed with voltage. The residual heat sensors 27 each have a housing in which a bimetal element known per se is arranged (Not shown). Rigid connection legs protrude from the housing for welding to the connecting lugs 22 of the busbars 13. Furthermore, correspondingly protrudes the sensor tube 21 of the temperature limiter 19, a sensor rod 29 in the receiving space 7. The bimetal element is thermally connected to the sensor rod 29 Heating element 2 coupled and signals the residual heat via a in the housing of the Residual heat sensor 27 held light emitting diode 31.

Before installation in the insulating part 5, the busbar unit 15 is together with the temperature limiters 19 and residual heat sensors 27 pre-assembled by the Realized rigid wiring creates an inherently rigid and geometrically defined Unit whose electrical connection points when inserted into the arrangement 1 or have a defined position in the insulating part 5 and therefore without problems automated with the positionally held in the insulating part 5 Band heaters 11 can be welded.

Claims (8)

Radiant heating arrangement, in particular for use below a glass ceramic cooktop, with a housing part in which heating elements are arranged, the heating conductors of which are connected to a plug of the radiation heating arrangement via busbars, characterized in that at an end section of the busbar (13) in the region of the heating element (2) a temperature measuring element (19, 27) is held, which protrudes into the heating element (2). Radiant heating arrangement according to Claim 1, characterized in that the busbars (13) are connected to an essentially rigid busbar unit (15) by means of a connecting element (14). Radiant heating arrangement according to claim 1 or 2, characterized in that the temperature measuring element (19, 27) has essentially rigid connecting legs which are welded to the busbars (13). Radiant heating arrangement according to claim 1, 2 or 3, characterized in that the temperature measuring element (27) has a bimetallic element and is used in particular to detect the residual heat of the heating element (2). Radiant heating arrangement according to claim 4, characterized in that the temperature measuring element (27) has a display element (31) which is switched by the bimetal element. Radiant heating arrangement according to one of the preceding claims, characterized in that the temperature measuring element (19) has a Curie effect element and in particular serves as a temperature limiter for protecting the radiant heating or the glass ceramic cooking surface from excess temperature. Radiant heating arrangement according to one of the preceding claims, characterized in that the radiation heating arrangement (1) has an insulating part (5) with a receiving space (7), in which the heating conductor (11) is arranged, to increase a receiving space wall (23) Insulating ring (25) is set, and that between the two openings for the temperature measuring element (19, 27) are formed. Method for producing a radiant heating arrangement, in which in a first step busbars (13) used to make electrical connections serve in the arrangement (1) to a substantially rigid Busbar unit (15) are connected, then to the busbar unit Temperature measuring elements (19, 27) are attached, and then this pre-assembled unit in a trough (3, 5) of the radiant heating arrangement (1) inserted and connected to the heating conductor (11) of the heating elements (2) becomes.

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