RU2003114860A - BOLOMETRIC HYGROMETER, PLATE OR FURNACE WITH ITS USE AND METHOD FOR REGULATING A PLATE OR FURNACE - Google Patents

Claims (13)

1. A bolometric hygrometer containing a housing, a base having a main indicator hole made in the housing for water vapor inlet, a cap placed on the upper part of the base for the formation of cavities, a bolometric thermosensitive element for determining moisture, having a resistance that varies depending on the temperature in a cavity communicating with the main indicator hole, a bolometric thermosensitive element for thermal compensation, having a resistance that varies depending from the temperature in the cavity, not communicating with the main indicator hole, and a shielded wire connected to bolometric thermosensitive elements to transmit signals and prevent noise. 2. The bolometric hygrometer according to claim 1, characterized in that the bolometric thermosensitive elements are formed on a semiconductor wafer and are bolometric thermosensitive elements with a positive temperature coefficient, each of which has a resistance linearly dependent on temperature changes. 3. The bolometric hygrometer according to claim 2, characterized in that the bolometric thermosensitive elements are connected to a shielded wire and to three pin terminals passing through the base so that one element is connected to one pin terminal, respectively, and the remaining pin terminal is connected to both elements. 4. The bolometric hygrometer according to claim 3, characterized in that the housing comprises a back portion having a support for supporting the cap and the base, the base being located on the side of the open surface, and a front part that is smaller than the back part for pressing and fixing the support. 5. The bolometric hygrometer according to claim 4, characterized in that the front part has many additional indicator holes made in the surface facing the base in the forward direction for water vapor inlet. 6. The bolometric hygrometer according to claim 5, characterized in that the indicator holes are made in areas remote from the center of the front part. 7. The bolometric hygrometer according to claim 1, characterized in that it further comprises a circuit including an amplifier having an inverting (-) input to obtain an output voltage corresponding to the humidity set by the bolometric thermosensitive element for determining humidity, and a non-inverting (+) input for receiving a given reference voltage and designed to amplify the difference between the output voltage and the reference voltage, an alternating resistor for supplying the reference voltage to the non-inverting (+) input of the amplifier and a resistor having one end connected to a variable resistor and the other end connected to a bolometric thermosensitive element for thermal compensation. 8. The bolometric hygrometer according to claim 7, characterized in that a bridge circuit is formed in it by combining a bolometric thermosensitive element for determining humidity with a resistor and a bolometric thermosensitive element for temperature compensation with a variable resistor. 9. A stove or oven with a bolometric hygrometer, comprising a cooking chamber in a stove or furnace body having a cavity for accommodating food, a magnetron providing heat for heating food, a fan for circulating air inside the cooking chamber, an L-shaped bracket for changing the direction of air flow, located at the end of the air outlet, and the air from the inside of the cooking chamber comes out under the influence of a fan, a bolometric hygrometer located in the bracket to determine the humidity of the air, walking from the air outlet, and a microcomputer for adjusting loads on the magnetron and the fan, and a signal of the bolometric humidity sensor. 10. A stove or furnace according to claim 9, characterized in that the housing has a protrusion on the part facing the bolometric hygrometer, directed to the bolometric hygrometer to increase the speed of air flow leaving the air outlet. 11. The method of regulating the stove or furnace, which consists in the fact that (1) the magnetron is activated using a microcomputer, the humidity is determined using a bolometric hygrometer, and the initial value for the sensor is set in accordance with the sensor output signal, (2) the main period of operation by using the period for which the initial value set for the sensor reaches the sensor output signal according to the menu, (3) after calculating the main period of operation using a bolometric hygrometer, t changing the sensor output signal in the currently selected time intervals for determining the presence of packaging, (4) after determining the change in the output signal, determining the heating code is obtained, (5) if the result of the determination operation is to detect that the heating code has been received, then heat treatment is performed until until, with the help of a bolometric hygrometer, the change in voltage corresponding to the temperature of the selected code is determined, and then the operation of the magnetron and fan is stopped, and (6) if the result m determination operation is to detect that the heating code is not received, then determine whether the change in the output signal exceeds a predetermined constant value to change the main period of work. 12. The method according to claim 11, characterized in that in the case when the change in the output signal exceeds a predetermined constant value, the heat treatment is determined as the case with the packaging and the magnetron and the fan operate for a period set longer than the main period work. 13. The method according to claim 11, characterized in that in the case where the change in the output signal is less than a predetermined constant value, the heat treatment is defined as the case without packaging and the magnetron and the fan operate only during the main period of operation.