JPH10229944A - Hot plate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to transmit properly a temperature of hot plate's main body to a bimetal operating section, with which to enhance a responding ability of thermostat. SOLUTION: This hot plate is provided with a heat insulation plate 3, an electric heater 5 held on the heat insulation plate 3, a hot plate's main body placed on the electric heater 5 in a way that it can freely be set thereon and taken out therefrom, and a thermostat 11 to be operated via a bimetal so as to detect a temperature of hot plate's main body 6 and to control energizing the electric heater 5. The configuration is then made to connect between the bimetal operating section 13 and a thermal sensor 12 so that the temperature detected via the thermal sensor 12 of the hot plate's main body can directly and properly be transmitted to the bimetal operating section 13, as well as with the thermal sensor 12 in contact with the hot plate's main body and with the bimetal operating section 13 to control energizing the electric heater 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot plate used for cooking of grilled meat and the like.

[0002]

2. Description of the Related Art In general, a hot plate used for heating cooking of grilled meat and the like is well known in the related art, and includes a bottom member, a heat shield plate supported on the bottom member, and a heat shield plate on the heat shield plate. It comprises a supported electric heater and a hot plate main body removably mounted on the electric heater, and detects the temperature of the hot plate main body to control energization to the electric heater. For this purpose, a thermostat operated by bimetal is attached. Conventionally, a structure in which the temperature is transmitted to the bimetal operating portion in the thermostat is such that heat is transmitted from a temperature sensing portion abutting on the bottom surface of the hot plate body via a heat transfer plate or the like.

[0003]

However, in the case of the above-described structure, a heat radiation loss in the heat transfer process from the temperature sensing portion is apt to occur, and the temperature of the hot plate body cannot be accurately transmitted to the bimetal operating portion. May occur.

The present invention has been made in view of the above points, and has as its object to improve the responsiveness of a thermostat by enabling the temperature of a hot plate body to be accurately transmitted to a bimetal operating portion. is there.

[0005]

According to the basic structure of the present invention, as means for solving the above problems, a bottom member,
A heat shield plate supported on the bottom member, an electric heater supported on the heat shield plate, a hot plate main body detachably mounted on the electric heater, and a temperature of the hot plate main body. In a hot plate provided with a thermostat operated by a bimetal to detect and control the energization of the electric heater, the thermostat is connected to a temperature-sensing portion abutting on the hot plate body and energization of the electric heater. A bimetal operating section for performing control is provided, and the bimetal operating section is connected to the temperature sensing section.

[0006] With the above configuration, the temperature of the hot plate main body detected by the temperature sensing portion is directly and accurately transmitted to the bimetal operating portion, and the responsiveness is greatly improved.

In the basic structure of the present invention, when the temperature-sensing portion and the bimetallic operating portion are connected by a fixing member made of a good heat conductor for fixing the bimetallic operating portion,
Heat can be directly transferred from the temperature-sensitive part to the bimetallic working part via the fixing member, which is a member for fixing the bimetallic working part, without increasing the number of parts.
Accurate temperature transmission can be obtained with a simple configuration.

Further, when the temperature sensing portion is elastically supported in a state where the temperature sensing portion is urged in a direction of contact with the hot plate main body, the contact state between the hot plate main body and the temperature sensing portion can always be favorably maintained. Thus, more accurate temperature detection can be performed.

Further, when the temperature sensing portion is constituted by a support fitting for supporting the electric heater with respect to the heat shield plate, the hot plate main body is supported via a support fitting which is a member for supporting the electric heater. Heat can be directly transmitted to the bimetal operating section, and accurate temperature transmission can be obtained with a simple configuration without increasing the number of parts.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Some preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings.

First Embodiment FIGS. 1 and 2 show a hot plate according to a first embodiment of the present invention.

The hot plate includes a dish-shaped synthetic resin bottom member 1 having a peripheral wall 1 a, a metal heat shield plate 3 supported on the bottom member 1 via a support 2, Hot plate 3
An electric heater 5 supported on the upper surface of the electric heater via a support fitting 4 made of a good conductor (for example, metal), and a hot plate made of a dish-shaped good conductor removably mounted on the electric heater 5 The main body 6 is provided. Here, an incoloy heater is employed as the electric heater 5.

The bottom member 1 has an outer flange 1b extending outward from the upper end of the peripheral wall 1a, a rising wall 1c rising upward from the outer flange 1b, and a downward extending from the upper end of the rising wall 1c. a skirt portion 7 extending downward are formed integrally, the space S ₃ annular is formed between said skirt portion 7 and the bottom member the peripheral wall 1a. The lowermost end of the skirt 7 is located below the heat shield plate 3. In other words, the skirt portion 1d improves the appearance of the product, and the space S ₃
The rise of the temperature of the outer periphery of the product (that is, the skirt portion 7) is prevented by the presence of. In addition, with the above-described configuration, the bottom member 1 can be formed as an integrally molded product, so that the number of parts and the manufacturing cost can be reduced.

On the other hand, the hot plate body 6 has a step 8a extending outward from an opening 6b at the upper end of the peripheral wall 6a, a rising wall 8b rising from the outer peripheral end of the step 8a, and an upper end of the rising wall 8b. An annular flange 8 is formed integrally with a hanging wall 8c extending outward and downward from the flange. The step 8a and the rising wall 8b of the flange 8 lock and position the outer peripheral edge of the transparent lid 10 for covering the opening 6b of the hot plate main body 6, and condensed water generated in the lid 10 is directed outward. It has the function of preventing spilling, and the hanging wall 8c of the flange 8 can be used as a handle for lifting the hot plate body with fingers.
Since the oil can be drained by the lower end of the hanging wall 8c, oil and the like do not flow down the hot plate body 6 and flow down to the bottom surface side.

The top portion of the flange 8 is positioned lower than the top portion of the rising wall 1c of the bottom member 1 by the hot plate body 6. By doing so, the hot plate main body 6 is not exposed above the bottom member 1 and the careless contact with the hot plate main body 6 is reduced. That is, safety is improved.

Further, an outer flange portion 1b of the bottom member 1 is provided.
Of the hot plate main body 6 (specifically, the outer peripheral end of the flange 8) is located inside the outer peripheral end of the hot plate main body 6 (specifically, the outer peripheral end of the flange 8).
Between the inner peripheral surface of the rising wall 1c of the bottom member 1 the outer peripheral end) and the flange 8, an annular gap S ₁ positioned above the outer flange portion 1b is formed. By doing so, the bottom surface of the bottom member 1 is no longer visible from above, and even if food or the like falls down from the outer peripheral edge of the hot plate body 6, the bottom surface of the bottom member 1 is caught by the outer flange portion 1b. it is not consumed falls to a, can be greatly suppressed thermal effect from the hot plate body 6 to the bottom member 1 by the presence of the gap S _1.

Further, an upwardly directed annular rib 9 is formed integrally with the inner peripheral end of the outer flange portion 1b, and the outer flange portion 1b has an annular groove shape. By doing so, it is possible to prevent oil and the like from being received by the outer flange portion 1b, so that the bottom surface of the bottom member 1 can be prevented from being stained.

Further, an outer flange 3b is formed integrally with the upper end of the peripheral wall 3a of the heat shield plate 3, and an outer peripheral edge of the outer flange 3b is formed with an edge 3c by folding.
The edge 3c of the outer flange 3b in the heat shield plate 3
Is located at an intermediate position between the lower end of the flange 8 in the hot plate main body 6 and the outer flange portion 1b of the bottom member 1 and located inside the lower end of the hanging wall 8c of the flange 8 in the hot plate main body 6. An annular space S ₂ is formed between the edge 8 c of the outer flange 3 b of the heat shield plate 3 and the inner peripheral surface of the rising wall 1 c of the bottom member 1. With this configuration, the heat radiated from almost the entire area of the hot plate main body 6 can be shielded by the heat shield plate 3, and the heat influence from the heat shield plate 3 to the bottom member 1 is greatly increased by the presence of the space S _2. Can be suppressed.

As shown in FIG. 2, the hot plate is provided with a thermostat 11 which is operated by bimetal to detect the temperature of the hot plate main body 6 and control the energization of the electric heater 5. . The thermostat 11 is supported by fixing the mounting bracket 16 to the lower surface of the heat shield plate 3 with screws 22.

The thermostat 11 comprises a temperature sensing part 12 abutting on the bottom surface of the hot plate body 6 and a bimetal operating part 13 for controlling power supply to the electric heater 5. The temperature sensing part 12 is made of a good heat conductor, and is supported so as to be vertically slidable on a screw 14 which is a fixing member made of a good heat conductor for fixing the bimetal operating part 13. That is, the temperature sensing part 12 and the bimetal operating part 13 are connected via the screw 14. The bimetal operating portion 13 includes a fixed terminal 13a and a bimetal terminal 13b which is brought into contact with and separated from the fixed terminal 13a by thermal deformation, and is attached to the screw 14 via an insulator 15.

By the way, the temperature sensing part 12 is directed upward (that is, in the direction of contacting the lower surface of the hot plate body 6) with respect to the mounting bracket 16 via a spring 17.
It is elastically supported in a biased state. With such a configuration, the contact state between the hot plate main body 6 and the temperature sensing portion 12 can be always kept in a good condition, and more accurate temperature detection can be performed.

In the drawing, reference numeral 18 denotes a bimetal terminal 13b.
An actuator for detaching from the fixed terminal 13a when is thermally deformed, 19 is a variable operation section of the thermostat 11, 20
Is a bottom cover which covers the lower part of the thermostat 11, 2
Reference numeral 1 denotes a support leg integrally formed on the bottom surface of the bottom member 1.

With the above configuration, the temperature of the hot plate body 6 detected by the temperature sensing part 12 of the thermostat 11 is changed by the screw 14 (ie, the member for fixing the bimetal operating part 13). It is directly and accurately transmitted to the operation unit 13, and the responsiveness is greatly improved without increasing the number of parts.

Second Embodiment FIG. 3 shows a main part of a hot plate according to a second embodiment of the present invention.

In this case, the temperature sensing part 12 is a support fitting 4 that supports the electric heater 5 with respect to the heat shield plate 3. That is, the lower end of the support 4 is screwed to the lower surface of the heat shield 3.
2 and a mounting bracket 16 for mounting the thermostat 11 is extended from a lower end thereof. A screw 14 is a member for fixing the tip of the mounting bracket 16 to the bimetal operating section 13. It is fixed to. With such a configuration, heat can be transmitted from the hot plate main body 6 to the bimetal operating portion 13 via the support fitting 4 which is a member for supporting the electric heater 5, so that the number of parts can be easily increased without increasing the number of parts. An accurate temperature transmission can be obtained with a simple configuration.

[0026]

According to the present invention, the bottom member, the heat shield plate supported on the bottom member, the electric heater supported on the heat shield plate, and the detachable mounting on the electric heater. A hot plate main body, and a hot plate including a thermostat operated by a bimetal to control the power supply to the electric heater by detecting the temperature of the hot plate main body, wherein the thermostat is attached to the hot plate main body. A temperature sensing unit to be contacted, and a bimetal operating unit that controls the energization of the electric heater,
By connecting the bimetal operating part and the temperature sensing part so that the temperature of the hot plate body detected by the temperature sensing part is directly and accurately transmitted to the bimetal operating part, the responsiveness of the thermostat is improved. There is an excellent effect of greatly improving.

In the case where the temperature sensing portion and the bimetal operating portion are connected by a fixing member made of a good heat conductor for fixing the bimetal operating portion, a fixing member which is a member for fixing the bimetal operating portion is provided. Heat can be transmitted from the temperature sensing section to the bimetal operating section via the temperature sensor, and accurate temperature transmission can be obtained with a simple configuration without increasing the number of parts.

Further, when the temperature sensing portion is elastically supported in a state where the temperature sensing portion is urged in a direction of contact with the hot plate body, the contact state between the hot plate body and the temperature sensing portion can always be kept good. Thus, more accurate temperature detection can be performed.

Further, when the temperature sensing portion is constituted by a support fitting for supporting the electric heater with respect to the heat shield plate, the hot plate main body is supported via a support fitting which is a member for supporting the electric heater. The heat can be transferred to the bimetal operating portion, and accurate temperature transfer can be obtained with a simple configuration without increasing the number of parts.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of a hot plate according to a first embodiment of the present invention.

FIG. 2 is an enlarged sectional view showing a main part of the hot plate according to the first embodiment of the present invention.

FIG. 3 is an enlarged sectional view showing a main part of a hot plate according to a second embodiment of the present invention.

[Explanation of symbols]

1 is a bottom member, 3 is a heat shield plate, 4 is a support bracket, 5 is an electric heater, 6 is a hot plate body, 11 is a thermostat,
12 is a temperature sensing part, 13 is a bimetal operating part, 14 is a fixing member (screw), 16 is a mounting bracket, and 17 is a spring.

Claims (4)

[Claims] 1. A bottom member, a heat shield supported on the bottom member, an electric heater supported on the heat shield, and a hot plate main body detachably mounted on the electric heater. When,
A hot plate comprising a thermostat operated by a bimetal to control the energization of the electric heater by detecting a temperature of the hot plate main body, wherein the thermostat is a temperature-sensitive device which is brought into contact with the hot plate main body. A hot plate, comprising: a bimetallic operating unit for controlling power supply to the electric heater; and a bimetal operating unit coupled to the temperature sensing unit. 2. The hot plate according to claim 1, wherein the temperature sensing part and the bimetallic operating part are connected by a fastener made of a good heat conductor for fixing the bimetallic operating part. 3. The apparatus according to claim 1, wherein the temperature sensing portion is elastically supported in a state where the temperature sensing portion is urged in a direction in which the temperature sensing portion contacts the hot plate body. Hot plate. 4. The hot water according to claim 1, wherein the temperature sensing portion is constituted by a support fitting for supporting the electric heater with respect to the heat shield plate. plate.