KR930000031Y1 - Temperature compensation timer for ice-making apparatus - Google Patents

Abstract

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Description

External Temperature Compensation Timer for Ice Maker

1 is a conventional internal structure diagram of the timer.

2 is a conventional timer circuit diagram.

3 is a diagram illustrating the internal structure of the present invention timer.

* Explanation of symbols for main parts of the drawings

2: body 3: bimetal

5: movable contact 4: fixed contact

6: fixed plate 6a: fixed end

10: insulated ceramic 13: bimetal

13a: bend 13b: fixed end

The present invention relates to a timer for an ice maker, and more particularly, to an external temperature compensation timer for an ice maker in which a control time is constant regardless of an external temperature change.

As shown in FIG. 1, the conventional timer includes a heater 2 that generates heat when power is applied to the inside of the main body 1, a bimetal 3 that is variable by the heat of the heater 2, and a fixed contact 4 ), A movable contact 5, a movable contact fixing plate 6 for fixing the movable contact 5, and a contact interval adjusting screw 7.

In the drawings, 8 is an assembly body fixing screw, 9 is a component assembly screw, and 10 is an insulating ceramic.

2 is a circuit diagram of a conventional timer, in which 11 represents a power supply and 12 represents a load.

Hereinafter, referring to FIG. 1 and FIG. 2, the operation of the conventional timer is generated when heat is applied to the heater 2, the heat is conducted to the bimetal 3, and the bimetal 3 has mutual expansion coefficients. It is bent in the direction of arrow A as a joint of another metal, and thus the movable contact 5 is moved in the direction of arrow B as the bimetal 3 is bent. As the movable contact 5 moves in the B direction, the movable contact 5 moves to the fixed contact point B by the spring force of the movable contact point 5 so that the movable contact 5 and the fixed contact point 4 close the closed circuit. Will be constructed.

Therefore, when the power is applied, the heater 2 heats up and the contact is turned on for several tens of seconds due to the difference in the time that is conducted to the bimetal 3, so that it can be used as a timer for time delay, and the adjustment of time is performed by the heater 2 It is possible to adjust the capacity of. In addition, precision adjustment of the space | interval and time of a contact is performed with the contact space adjustment screw 7. As shown in FIG.

However, in the conventional timer, the temperature of the bimetal 3 inside the timer is changed depending on the installation place or season, so that the time of the delay time is changed.

As a result, the conventional timer has a problem in controlling the delay time due to being influenced by an external temperature around the timer, and there is a problem in that the contact is turned on even when power is not applied when the ambient temperature of the timer is high.

The present invention has been drawn to solve such a conventional defect, described in detail by the accompanying drawings as follows.

In a timer for an ice maker in which a power supply is applied and the heater 2 generates heat, the bimetal 3 varies according to the heat, and the movable contact 5 is linked to and connected to the fixed contact 4. It is made of the same material as the bi-metal 3 to the movable contact fixing plate 6 to be fixed and The temperature compensation bimetal 13 having the "shaped bend 13a is mounted, and its fixed end 13b overlaps with the fixed end 6a of the movable contact fixing plate 6, and is fixed together with the insulating ceramic 10. In the drawings, the same parts as in the prior art are denoted by the same reference numerals.

The present invention as described above is to operate like a conventional timer, but since the external temperature compensation bimetal 13 for compensating the external temperature is attached to the movable contact fixing plate 6, the contact will operate after a certain delay time. It becomes possible.

That is, when the external temperature is high, the bimetal 3 is bent in the direction of the arrow C, and the external temperature compensation bimetal 13 has only a different shape and the material is the same as that of the bimetal 3. The bimetal 3 is bent only as much as it is bent by the external temperature in the arrow D direction. Therefore, the distance d between the movable contact 5 and the movable contact fixing plate 6 becomes the same, and operates at a predetermined time when power is applied.

In addition, when the external temperature decreases, the bimetal 3 and the external temperature compensating bimetal 13 are in a straight state and are contacted with the surface of the external temperature compensating bimetal 13 by the spring force of the movable contact fixing plate 6. Regardless of the temperature, the timer operates smoothly since a certain time is always running.

The present invention as described above has the advantage of increasing the reliability of the product because there is no malfunction and operating time changes because it always operates at a constant time regardless of the external temperature and installation conditions.

Claims (1)

In the timer for the embankment, in which the bimetal 3 is variable as the heater 2 is heated and the movable contact 5 is linked to and connected to the fixed contact 4, the movable contact fixing plate to which the movable contact 5 is fixed. The temperature compensation bimetal 13 having the same material as the bimetal 3 on one side and having the bent portion 13a on one side is mounted and its fixed end 13b is fixed to the movable contact fixing plate 6. An external temperature compensation timer for an ice maker characterized in that it is configured to be fixed to the insulating ceramic (10) overlapping with the stage (6a).