The present invention relates to a high-frequency heating apparatus having a structure designed to easily and reliably ensure electrical insulation of electric terminals charged with high voltage such as those of a high-voltage transformer and a high-voltage capacitor from electrically dead metal parts including a chassis and an outer enclosure that are accessible to a user. The structure comprises a plastic member having a plastic hinge, which is bent either manually or automatically as the outer enclosure is installed after the high-voltage carrying terminals are wired, so that an end flap extending from the bent plastic hinge is located in a space between the high-voltage carrying terminals and the dead metal parts.
In a conventional high-frequency heating apparatus, it is a general practice to separate high voltage carrying parts such as terminals of a high-voltage capacitor from a dead metal part such as an outer enclosure, which is accessible to a user, or to place an insulating material such as a plastic sheet on a surface of the dead metal part confronting the high voltage carrying parts where a sufficient space is not available for separation, in order to ensure electric insulation.
There is another example of electric insulation between terminals of the high-voltage capacitor and a dead metal part such as the outer enclosure, as shown in
There is also another example of ensuring electric insulation between terminals of the high-voltage capacitor and the dead metal part such as the outer enclosure by mounting an insulation cover, as shown in FIG. 9. This example is disclosed in Japanese Patent Unexamined Publication No. H08-203664. In
However, in the conventional structure, which uses plastic sheet 3 to provide the electrical insulation as shown in
On the other hand, in the structure having air guide 4 with plastic hinge 4B formed by partially reducing wall thickness in bottom side 4A as shown in
In addition, the conventional structure provided with separately mounted insulation cover 8, as shown in
The present invention addresses the above-discussed problems, and aims to ensure electrical insulation reliably and improve cooling efficiency of the high-voltage capacitor, while reducing a number of working steps as well as amount of waste in the manufacturing processes.
A high-frequency heating apparatus of the present invention is provided with an air guide having a barrier wall located between a high-voltage transformer and a high-voltage capacitor, the barrier wall of the air guide being reduced in thickness partially to form a plastic hinge, which is bent either manually or automatically after high-voltage terminals of the high-voltage capacitor and the like are wired, so that an end flap extending from the bent hinge isolates the high-voltage carrying terminals of the high-voltage capacitor and the like from a dead metal part such as an outer enclosure, and provides for an electrical insulation. The invention also reduces substantially time and waste that have been needed for placement of plastic sheets for the purpose of electrical insulation in the process of manufacturing high-frequency heating apparatuses. Furthermore, since the plastic end flap covering the high voltage terminals bears a cautionary marking, it can elicit attention of a service personnel and user against electric shock before he/she comes to contact with the terminals of the high-voltage capacitor and the like.
Exemplary embodiments of the present invention are described with reference to the accompanying drawings.
FIG. 1 through
In FIG. 1 through
According to this exemplary embodiment, the structure described above easily and reliably ensures electrical insulation between terminal 12A of high-voltage capacitor 12 and outer enclosure 11 defining the dead metal part, by simply bending plastic hinge 14B provided in barrier wall 14C of air guide 14, and locating end flap 14D in the space between terminal 12A of high-voltage capacitor 12 and outer enclosure 11. This embodiment can also reduce time spent for placement of a plastic sheet that has been needed for the conventional structure and waste of useless liner. In addition, since plastic hinge 14B is formed orthogonally to a direction of separating a pair of molding dies of air guide 14, plastic hinge 14B is not tapered in thickness, which can simplify a structure of the molding dies of air guide 14. Furthermore, as shown in
End flap 14D extends beyond a boundary plane of outer enclosure 11 when plastic hinge 14B is not bent. Since this causes end flap 14D to interfere with outer enclosure 11 when outer enclosure 11 is being installed in the manufacturing process, it makes possible detection of a product of which plastic hinge 14B is not bent. As a result, it prevents a product from being shipped to the market in a condition where the electrical insulation is not secured, thereby improving quality of the product.
First, when outer enclosure 11 is being installed, it comes in contact to end flap 14D of air guide 14 extending beyond a moving locus of outer enclosure 11, and pushes to bend plastic hinge 14B. As a result, bent end flap 14D of plastic hinge 14B is moved in place between terminal 12A of high-voltage capacitor 12 and outer enclosure 11 of a dead metal part, to ensure electrical insulation easily and reliably between them without requiring a worker to bend it manually in a manufacturing process.
According to the present exemplary embodiment, as described, end flap 14D of air guide 14 is located on the locus where outer enclosure 11 slides through when it is being installed. The movement of outer enclosure 11 thus bends plastic hinge 14B automatically as it is being installed. Therefore, the structure can eliminate the time needed for the worker to place a plastic sheet for the insulation, and reduce the step of bending plastic hinge 14B in the manufacturing process.
According to the present invention, the high-frequency heating apparatus is constructed to ensure electrical insulation easily between high voltage terminal of the component, (e.g., a high-voltage transformer or a high-voltage capacitor) and the dead metal part with the end flap extending from the bendable plastic hinge provided as a part of the molded plastic member such as the air guide located near the high voltage terminal. In addition, the electrical insulation can be ensured even more positively by forming the end flap into such a shape that properly covers the terminal. This structure can also improve cooling efficiency of the high-voltage capacitor, especially if the air guide is provided with the barrier wall between the high-voltage transformer and the high-voltage capacitor, and the plastic hinge and the end flap for covering the terminal of the high-voltage capacitor are formed in the barrier wall. Moreover, the bent end flap of the plastic hinge may be provided with a cautionary marking to elicit attention to a high voltage, so as to prevent service personnel from carelessly contacting the terminal during repair work. Furthermore, since the plastic hinge is bendable automatically with installation and removal of the outer enclosure, it can improve efficiency of the repair work and reduce time needed for the repair work during an in-home service.
Number | Date | Country | Kind |
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2002-159959 | May 2002 | JP | national |
2003-113862 | Apr 2003 | JP | national |
Number | Name | Date | Kind |
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5874714 | Sik | Feb 1999 | A |
5938967 | Reo et al. | Aug 1999 | A |
6414287 | Han et al. | Jul 2002 | B2 |
6509556 | Kim | Jan 2003 | B2 |
Number | Date | Country |
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08-203664 | Aug 1996 | JP |
Number | Date | Country | |
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20040007571 A1 | Jan 2004 | US |