The present patent application generally relates to temperature control technologies and more specifically to a thermostat that can be used as a temperature control device in home appliances such as an electronic toaster.
A conventional thermostat usually uses a guide to conduct heat, and a push pole to pull up a control arm so as to push up a long spring plate and a short spring plate and to break up an upper silver point and a lower silver point. The conventional thermostat, however, has challenges in terms of the production yield rate, the manufacturing cost and the manufacturing safety.
The present patent application is directed to a thermostat. In one aspect, the thermostat includes a heat-conductive guide with an upper side and a lower side; a top board with an upper side and a lower side; a double-metal plate; a first rivet; a short spring plate with a first electrical contact disposed thereon; a long spring plate being connected with the short spring plate; a contact board with a second electrical contact disposed thereon; and a second rivet.
The upper side of the heat-conductive guide is connected with the lower side of the top board through the first rivet. The lower side of the heat-conductive guide is connected with the double-metal plate through the first rivet. The long spring plate and the contact board are connected with the lower side of the top board through the second rivet. The double-metal plate is configured to sense a temperature of the heat-conductive guide and actuate the short spring plate accordingly so that the first electrical contact is physically and electrically connected with the second electrical contact when the temperature sensed reaches a target temperature.
The thermostat may further include a temperature adjusting screw, a washer, and a control shaft sequentially from up to down installed on the upper side of the top board. The temperature adjusting screw may be configured to adjust and set the target temperature. The washer may be engaged with the temperature adjusting screw, and configured to fix the setting of the target temperature.
The thermostat may further include a first ceramic ring, a first lug, a second ceramic ring, a second lug, a third ceramic ring, and a ceramic guide. The first ceramic ring, the first lug, the long spring plate, the second ceramic ring, the contact board, the second lug, the third ceramic ring, and the ceramic guide may be connected to the lower side of the top board through the second rivet sequentially from up to down.
The thermostat may further include a first ceramic separator disposed between an assembly of the long spring plate and the short spring plate and the double-metal plate. The double-metal plate may be configured to actuate the short spring plate through the first ceramic separator. The thermostat may further include a second ceramic separator disposed between the top board and the short spring plate. The temperature adjusting screw may be configured to actuate the short spring plate through the second ceramic separator.
The first electrical contact and the second electrical contact may be silver point contacts. The control shaft may be configured to be controlled by the temperature adjusting screw and pull or release the second ceramic separator so that the assembly of the long spring plate and the short spring plate is pulled or released. When the short spring plate is released, the first electrical contact may be physically and electrically connected with the second electrical contact.
The first lug may be electrically connected with the second lug when the first electrical contact is physically and electrically connected with the second electrical contact. The first ceramic ring, the second ceramic ring, the third ceramic ring, and the ceramic guide may be configured to provide electrical insulation.
In another aspect, the thermostat includes: a heat-conductive guide with an upper side and a lower side; a top board with an upper side and a lower side; a double-metal plate; a first rivet; a short spring plate with a first electrical contact disposed thereon; a long spring plate being connected with the short spring plate; a contact board with a second electrical contact disposed thereon; a second rivet; a temperature adjusting screw; a washer; and a control shaft. The upper side of the heat-conductive guide is connected with the lower side of the top board through the first rivet; the lower side of the heat-conductive guide is connected with the double-metal plate through the first rivet; the long spring plate and the contact board are connected with the lower side of the top board through the second rivet; the temperature adjusting screw, the washer, and the control shaft are sequentially from up to down installed on the upper side of the top board; the first electrical contact and the second electrical contact are silver point contacts; and the double-metal plate is configured to sense a temperature of the heat-conductive guide and actuate the short spring plate accordingly so that the first electrical contact is physically and electrically connected with the second electrical contact when the temperature sensed reaches a target temperature.
The temperature adjusting screw may be configured to adjust and set the target temperature, and the washer may be engaged with the temperature adjusting screw and configured to fix the setting of the target temperature.
The thermostat may further include a first ceramic separator disposed between an assembly of the long spring plate and the short spring plate and the double-metal plate. The double-metal plate may be configured to actuate the short spring plate through the first ceramic separator. The thermostat may further include a second ceramic separator disposed between the top board and the short spring plate. The temperature adjusting screw may be configured to actuate the short spring plate through the second ceramic separator.
In yet another aspect, the thermostat includes: a heat-conductive guide with an upper side and a lower side; a top board with an upper side and a lower side; a double-metal plate; a first rivet; a short spring plate with a first electrical contact disposed thereon; a long spring plate being connected with the short spring plate; a contact board with a second electrical contact disposed thereon; a second rivet; a temperature adjusting screw; a washer; a control shaft; a first ceramic ring; a first lug; a second ceramic ring; a second lug; a third ceramic ring; and a ceramic guide. The upper side of the heat-conductive guide is connected with the lower side of the top board through the first rivet. The lower side of the heat-conductive guide is connected with the double-metal plate through the first rivet. The long spring plate and the contact board are connected with the lower side of the top board through the second rivet. The temperature adjusting screw, the washer, and the control shaft are sequentially from up to down installed on the upper side of the top board. The first ceramic ring, the first lug, the long spring plate, the second ceramic ring, the contact board, the second lug, the third ceramic ring, and the ceramic guide are connected to the lower side of the top board through the second rivet sequentially from up to down. The double-metal plate is configured to sense a temperature of the heat-conductive guide and actuate the short spring plate accordingly so that the first electrical contact is physically and electrically connected with the second electrical contact when the temperature sensed reaches a target temperature.
The thermostat may further include a first ceramic separator disposed between an assembly of the long spring plate and the short spring plate and the double-metal plate. The double-metal plate may be configured to actuate the short spring plate through the first ceramic separator.
The thermostat may further include a second ceramic separator disposed between the top board and the short spring plate. The temperature adjusting screw may be configured to actuate the short spring plate through the second ceramic separator.
The control shaft may be configured to be controlled by the temperature adjusting screw and pull or release the second ceramic separator so that the assembly of the long spring plate and the short spring plate is pulled or released. When the short spring plate is released, the first electrical contact may be physically and electrically connected with the second electrical contact.
Reference will now be made in detail to a preferred embodiment of the thermostat disclosed in the present patent application, examples of which are also provided in the following description. Exemplary embodiments of the thermostat disclosed in the present patent application are described in detail, although it will be apparent to those skilled in the relevant art that some features that are not particularly important to an understanding of the thermostat may not be shown for the sake of clarity.
Furthermore, it should be understood that the thermostat disclosed in the present patent application is not limited to the precise embodiments described below and that various changes and modifications thereof may be effected by one skilled in the art without departing from the spirit or scope of the protection. For example, elements and/or features of different illustrative embodiments may be combined with each other and/or substituted for each other within the scope of this disclosure.
More specifically, referring to
In the above embodiment, the thermostat uses the first rivet 10 to fixedly connecting the double-metal plate 8 and the heat-conductive guide 6 without employing Argon gas and Nitrogen gas welding. In addition, the double-metal plate 8 in this embodiment is configured to directly implement the temperature control. As a result, compared with conventional thermostats, the assembly of the thermostat in this embodiment requires less human labor and energy so that the manufacturing cost is reduced. The temperature control realized by the thermostat is more stable, and the range of the temperature control can be customized based on specific user preferences. The production yield rate and the manufacturing safety of the thermostat are also improved.
While the present patent application has been shown and described with particular references to a number of embodiments thereof, it should be noted that various other changes or modifications may be made without departing from the scope of the present invention.
This application claims the benefit of U.S. Provisional Patent Application No. 61/653,418 filed on May 31, 2012, the contents of which is hereby incorporated by reference.
Number | Date | Country | |
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61653418 | May 2012 | US |