JPH0628959A - Thermostat device - Google Patents

Abstract

PURPOSE:To improve installing workability of a heater resistance, and improve heating efficiency of a bimetal plate by means of the heater resistance in a thermostat device by which temperature can be set by heating the bimetal plate by means of the heater resistance. CONSTITUTION:In a thermostat device which has a heater resistance 24 to heat a bimetal mechanism and in which one end of a bimetal plate 7 constituting the bimetal mechanism and one end of a presser bar spring 5 constituting an adjusting mechanism are connected to each other so that heat can be conducted, the heater resistance 24 is fixed to the presser bar spring 5.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thermostat device capable of setting a temperature by heating a bimetal plate with a heater resistance.

[0002]

2. Description of the Related Art Conventionally, in this type of thermostat device, a heater resistance for heating a bimetal plate is arranged in a space near the bimetal plate, and the bimetal plate is heated and displaced by convective heat or radiant heat using air around the bimetal plate as a medium. The temperature is set by setting the temperature (for example, the actual Kaihei 2
No. 137609).

[0003]

However, when the heater resistor is arranged in the space near the bimetal plate as described above, the resistor body is not fixed when the lead wire is attached. Therefore, the mounting workability is poor, and the heat of the heater resistance cannot be efficiently transmitted because the bimetal is heated by convective heat or radiant heat of air.

Therefore, the present invention has been made to solve the above problems, and it is an object of the present invention to improve the workability of attaching a heater resistor and to improve the heating efficiency of a bimetal plate due to the heater resistor. .

[0005]

SUMMARY OF THE INVENTION According to the present invention, a fixed contact plate, a movable contact plate arranged to face the fixed contact plate, and a movable contact plate which is displaced by the temperature to move the movable contact plate to and from the fixed contact plate. A bimetal mechanism, an adjusting mechanism that mechanically adjusts the operating temperature of the bimetal mechanism, and a heater resistor that thermally adjusts the operating temperature of the bimetal mechanism,
In a thermostat device in which one end of a bimetal plate forming the bimetal mechanism and one end of a holding spring forming the adjusting mechanism are thermally conductively connected, the heater resistance is fixed to the holding plate.

[0006]

In the present invention, as described above, the heater resistance is fixed to the holding spring which is heat-conductively connected to the bimetal plate. Therefore, the heat of the heater resistance is transferred to the bimetal plate through the holding spring, and the heater resistance It has the effect of suppressing heat loss. Further, since the heater resistance is fixed to the pressing spring, the work of connecting the heater resistance is facilitated, and the workability of assembling is improved.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIG. Insulating insulator (2), terminal plate (3), insulating insulator (4), base end of presser spring (5), insulating plate (6), bimetal plate ( The base end of 7), the terminal plate (8), the insulating insulator (9), the fixed contact plate (10), and the insulating insulator (11) are sequentially laminated, and the thermo shaft (12) having the central portion penetrated through the nut ( The above members are fixed by screwing to 13). The bimetal plate (7) forming the bimetal mechanism is configured such that its free end side is inclined upward, and the free end side is displaced downward as the temperature rises. The base end of the movable contact plate (14) is fixed to the free end of the bimetal plate (7), and the movable contact (15) provided at the free end of the movable contact plate (14) is fixed to the fixed contact plate (10). It is arranged so as to face the fixed contact (16). The bimetal plate (7) and the movable contact plate (14) are formed with elongated holes for arranging the reversing springs (17) along the longitudinal direction thereof. The reversing spring (17) arranged in the elongated hole has one end locked to a locking piece (18) formed by cutting and raising the free spring side of the pressing spring (5), and the other end is movable contact plate (14). It is locked to the free end side of and is rotatable about a locking point (A) with the locking piece (18) as a fulcrum. The reversing spring (17) contacts the movable contact (15) with the fixed contact (16) while the movable contact plate (14) is located above the locking point (A) as shown in the figure. As described above, the movable contact plate (14) is biased upward, and when the movable contact plate (14) moves below the locking point (A) due to the displacement of the bimetal plate (7), the locking point (A ) Is used as a fulcrum to urge the movable contact plate (14) so as to separate the movable contact (15) from the fixed contact (16) by a predetermined length.

On the right side of the thermo base (1), an adjusting screw (20) whose tip is loosely inserted in an adjusting window (19) is screwed and attached, and by rotating this screw (20), a holding spring is attached. The free end side of (5) is mechanically movable up and down, and constitutes an adjusting mechanism for setting the temperature. The adjusting insulator (19) has an inverted U-shaped cross section and its upper end portion is arranged in a circular hole (21) formed in the holding spring (5), and a protrusion (22) is projected downward inside. The protrusion (22) is formed so as to make point contact with the tip surface of the screw (20).

A pair of holding pieces (23) (23) having the same shape as the fuse holder are integrally formed in the central portion of the holding spring (5), and a heater resistor (24) is sandwiched between the holding pieces. It is configured to be fixed with. Heater resistance (2
4) is a protective tube (25) having heat resistance and insulation
The holding piece (2) of the pressing spring (5) is inserted into the holding piece (2).
3) After being held between (23), one of the lead wires (2
6) is connected to the terminal board (3) and the other lead wire (27)
Is attached by connecting to the terminal board (8).
Reference numeral (28) is a storage cover fixed to the thermo base (1) so as to cover the respective members.

In the above structure, the terminal plates (8) (1
A heating device such as a heater is connected between 0) and the terminal board (3)
A circuit for heating control of the heater resistance (24) is connected to (8), and this thermostat device is used in the vicinity of the heating device.

In the state shown in FIG. 1, since the fixed contact (16) and the movable contact (15) are in contact with each other, the fixed contact plate (1
0), the movable contact plate (14), the bimetal plate (7), and the terminal plate (8), and the heating device is energized to heat the bimetal plate (7) to generate a free end of the bimetal plate (7). Is displaced downward. As the bimetal plate (7) is displaced, the movable contact plate (14) is also displaced downward, and the locking point (A)
When the movable contact plate (14) is displaced downward, the reversing spring (17) rotates downward about the locking point (A) as a fulcrum, urging the movable contact plate (14) downward to move the movable contact ( 15) is separated from the fixed contact (16) to stop energizing the heating device. The temperature of the bimetal plate (7) is lowered by stopping the power supply to the heating device, the free end of the bimetal plate (7) is displaced upward to return to the original state, and the movable terminal is moved above the locking point (A). When the plate (14) moves, the reversing spring (17)
Rotates upward around the locking point (A) to move the movable contact plate (1
4) is urged to bring the movable contact (15) into contact with the fixed contact (16).

The temperature is adjusted by rotating the adjusting screw (20) to move the holding spring (5) up and down and setting the distance between the movable contact plate (14) and the locking point (A) to be long or short. , The energization time interval of the heating device is changed according to the displacement amount of the bimetal plate (7).

If the tip surface of the screw (20) is inclined or has burrs or the like, the screw (2
The rotation of 0) may cause the adjustment spring (5) to move up and down to cause a temperature setting, but the projection (22) causes the insulator (19) to make point contact with the tip surface of the screw (20). Therefore, it is possible to suppress the above temperature setting as much as possible.

On the other hand, when the temperature is set by fixing the position of the adjusting screw (20) and preliminarily subjecting the bimetal plate (7) to thermal displacement by the heat of the heater resistance (24), the terminal plate ( 3) When a predetermined current is applied to the heater resistance (24) via (8), the heat generated by the heater resistance (24) heats the bimetal plate (7) as radiant heat, and the pressing spring (5), Since the bimetal (7) is heated as the conductive heat transmitted through the insulating plate (6), the heat generated by the heater resistance (24) can be effectively used for heating the bimetal plate (7). .

Since the heater resistance (24) is arranged below the bimetal plate (7) which is displaced downward by heating, the bimetal plate (7) is displaced by the heat of the heater resistance (24). The distance between the plate (7) and the heater resistor (24) can be shortened, and the radiant heat of the heater resistor (24) can be efficiently transmitted to the bimetal plate (7). Further, since the adjusting screw (20) is located closer to the tip side than the locking piece (18) of the presser spring (5), the space below the presser spring (5) can be set wide and the shape (W number) is large. The heater resistance (24) can be efficiently accommodated in this space to reduce the overall size.

[0016]

As described above, according to the present invention, since the heater resistance is fixed to the holding spring which is thermally connected to the bimetal plate, the heat of the heater resistance is efficiently applied to the bimetal plate through the holding spring. Therefore, the heating efficiency of the bimetal due to the heater resistance can be improved. Further, since the heater resistance is fixed to the presser spring, the work of connecting the lead wire of the heater resistance is facilitated, and the assembling workability can be improved.

[Brief description of drawings]

FIG. 1 is a front view showing an embodiment of the present invention.

[Explanation of symbols]

 5 Presser spring 7 Bimetal plate 10 Fixed contact plate 14 Moving contact plate 19 Adjusting guide 20 Adjusting screw 23 Holding plate 24 Heater resistance

 ─────────────────────────────────────────────────── ─── Continued Front Page (72) Inventor Yoichiro Okamori 3-201 Minamiyoshikata, Tottori City, Tottori Prefecture Santoyo Sanyo Electric Co., Ltd. (72) Inventor Yugo Sumiya 3-201 Minamiyoshikata, Tottori City Tottori Sanyo Tottori Electric Machinery Co., Ltd. (72) Inventor Yoshio Ueki 3-201 Minamiyoshikata, Tottori City, Tottori Prefecture Tottori Sanyo Electric Co., Ltd.

Claims (1)

[Claims] 1. A fixed contact plate, a movable contact plate arranged to face the fixed contact plate, and a bimetal mechanism that moves the movable contact plate toward and away from the fixed contact plate by being displaced by temperature.
An adjusting mechanism that mechanically adjusts the operating temperature of the bimetal mechanism and a heater resistor that heats the bimetal mechanism are provided, and one end of a bimetal plate that constitutes the bimetal mechanism and one end of a presser spring that constitutes the adjusting mechanism are provided. A thermostat device which is thermally coupled, wherein the heater resistance is fixed to the pressing spring.