ES2537272A1 - Gas cooking device (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Gas cooking device. The invention relates to a gas cooking device (10), in particular, to a gas cooking appliance, with at least one rotating shaft (12) which is rotatably and/or axially movably housed in between minus two final positions, and with at least one magnet (14) which is provided to drive at least one connection element (16) magnetically operable. In order to provide a generic device with an advantageous construction, it is proposed that the at least one magnet (14) be fixed in a mounted state to at least one rotating shaft (12), at least in the axial direction ( 18) of the at least one rotary shaft (12), and is provided for actuating the at least one connecting element (16) in at least one of the at least two end positions of the at least one rotating shaft (12). (Machine-translation by Google Translate, not legally binding)

Description

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P201331774

01-08-2014

The gas cooking device 10 comprises an electronic plate 36, on which the connecting element 16 is arranged in the assembled state. In the present embodiment, the connecting element 16 is tinned with the electronic board 36. Here, a longitudinal extension of the connecting element 16 is oriented essentially parallel to a surface of the electronic board 36. In the state assembled, the connection element 16 protrudes from a surface of the electronic board 36 at most 2 mm from the axial direction 18. The connection element 16 is made temperature-resistant, being here in a functional state until temperatures of at least 125 ° C. The connection element 16 has a reed switch, which is configured as a "normally open" switch (see Figure 4). In this case, a reed switch that is available on the market is used, which has a temperature resistance of at least 125 ° C. The connection element 16 has two elongated connection plates 38, which are arranged spaced apart between yes and, in an initial position of the connection element 16, overlapping in the axial direction 18. In addition, the connection element 16 has a receptacle 40 in which the connection plates 38 are air tightly arranged.

The gas cooking device 10 comprises a supply unit 42 (see Figures 2 and 3), which is made as a voltage source, in particular, as a continuous voltage source. The supply unit 42 applies voltage to the connection element 16. Here, the supply unit 42 and in each case a first connection sheet 38 are electrically connected to each other. A second of the connection plates 38 is connected to the ignition unit 22. Here, it is conceivable that one or more adaptation components are arranged between the second connection sheet and the ignition unit, such as filters and / or amplifiers Alternatively, the adaptation components could be integrated in the ignition unit.

The electronic board 36 has a recess through which the rotating shaft 12 passes in the assembled state (see Figures 2 and 3). In the assembled state, the connecting element 16 is fixed on a first side, in particular, an upper side, of the electronic board 36, and the valve is arranged on a second side, namely, a lower side, opposite the connecting element 16, of the electronic plate 36. Starting from the first side, the rotating shaft 12 extends through the emptying towards the second side, where the rotating shaft 12 is supported in the state mounted on the valve, in particular, in the valve spring.

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P201331774

01-08-2014

In the assembled state, the magnet 14 is fixed to the rotating shaft 12 on the first side of the electronic board 36. Here, the connecting element 16 is arranged in axial direction 18 between the magnet 14 and the electronic board 36. Yes it is observed in top view, in which the axial direction 18 is oriented essentially parallel to a viewing direction, the magnet 14 essentially covers the connecting element 16. The magnet 14 is essentially made in a cylindrical shape, being a thickness oriented in axial direction 18 markedly smaller than a diameter of magnet 14.

In the first final position (and thus in the initial position) of the rotating shaft 12 (see Figure 2), a distance between the magnet 14 and the connecting element 16 is chosen with sufficient magnitude to achieve an open state of the connecting element 16. If the rotating shaft 12 is moved in axial direction 18 from the first final position to the second final position, the magnet 14 is moved at the same time. In this way, a distance between the magnet 14 and the connecting element 16 is reduced. In the second final position of the rotating shaft 12 (see Figure 3), a magnetic field generated by the magnet 14 is in the location of the element of connection 16 of sufficient magnitude to cause a connection of the connection element 16. The magnet 14 drives the connection element 16 in the second final position of the rotating shaft 12. If the magnet 14 is moved in the axial direction 18, the connection plates 38 , activated by the magnetic field of magnet 14, come into contact in an overlapping area. In this way, a connection of the connecting element 16 is caused. In the second final position of the magnet 14, the magnet 14 and the connecting element 16 are arranged spaced apart from each other in the axial direction 18. Thus, the magnet 14 connects the connection element 16 without contact. A distance between the magnet 14 and the connecting element 16 in the second end position is approximately 0.5 mm. For actuation of the connection element 16, the magnet 14 is moved in axial direction 18 by a distance of approximately 2 mm.

When the connection element 16 is actuated and connected, an electric current flows between the supply unit 42 and the ignition unit 22 through the connection element 16 (for reasons of clarity, the figures do not appear represented a power line return from the ignition unit 22 to the supply unit 42). In an operating state, the ignition unit 22 registers a drive of the connecting element 16. In case of actuation of the connecting element 16, the ignition unit 22 ignites the gas flame. In this way, a cooking process is possible. Between an output of the ignition unit and an input of an ignition unit that is intended to ignite the gas flame, it could be

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Claims (1)

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