KR200164686Y1 - Temperature control device for refrigerator - Google Patents

Abstract

The present invention relates to a freezer compartment temperature control device, the prior art connects the connection between the sensing tube and the capillary tube constituting the temperature sensor by a welding method, if the welding is poor, the operation of the temperature control device due to the leakage of gas And increase the cost and reduce the productivity by using a separate sensing tube in the temperature sensing unit, the present invention is a temperature sensing unit 10 to be installed in the freezer compartment by enclosing the refrigerant gas therein and A bellows 11 connected to the temperature sensing unit 10 and expanding and contracting with gas filled therein, a lever 12 contacting the bellows 11 and moving up and down, and connected to the lever 12. A freezer compartment temperature regulating device comprising a push bar 13 for connecting or intermitting contact portions 14a and 14b; The temperature sensing unit 10 wound the capillary tube in a coil shape so as to have a predetermined volume for temperature sensing, thereby eliminating the existing sensing tube to perform its role equally, resulting in a reduction in material cost and There is an effect that can reduce the labor for welding the capillary tube.

Description

Freezer Temperature Controller

The present invention relates to a freezer compartment temperature controller, and more particularly, to a freezer compartment temperature controller of a refrigerator having a simplified overall structure by simplifying the structure of a sensing unit for detecting cold air.

As shown in FIG. 1, a general refrigerator is provided with a freezer compartment for freezing food in an upper portion of the refrigerator body R, and a cold compartment for storing food in a lower portion of the freezer compartment.

An evaporator E is installed at one side of the rear surface of the refrigerator R to convert the refrigerant gas compressed at a high temperature and high pressure into a gas refrigerant having a low temperature and a low pressure to exchange heat. A cooling fan P capable of circulating one air to the freezing compartment and the refrigerating compartment is installed, and a temperature controller T for sensing the temperature of the freezing compartment is provided on the upper wall of the freezing compartment.

Such a conventional temperature control device is shown in FIG. 2, which will be described below.

Figure 2 is a cross-sectional view showing a conventional temperature control device of the freezer, as shown in the conventional temperature control unit is installed inside the freezer compartment for freezing and storing food, the temperature sensing unit (1) for sensing the temperature in the refrigerator, Bellows 2, which is connected to one side of the temperature sensing unit 1 through a welded capillary tube 1b and is filled with gas and expands and contracts according to the state of the gas, and the bellows 2 A lever (3) which is in contact with the upper side of the bellows (2) and moves up and down in accordance with the expansion and contraction of the bellows (2), and one side is connected to the lever (3) and the other side is provided with a predetermined distance from each other a movable contact (5a) And a push bar (PUSH-BAR) 4 which is connected to the fixed contact 5b and connects or interrupts the two contacts 5a and 5b according to the movement of the lever 3. The contact parts 5a and 5b are connected to the compressor C of the refrigeration cycle so as to communicate with current. Referring to the operation of the conventional temperature control device as follows. When the temperature of the freezing chamber increases, the gas inside the gas expands with the detection of the temperature sensing unit 1 installed in the freezing chamber, and the lever 3 is elastically connected to press the lever 3 while expanding. The push bar 4 connected to (3) is pushed, and the push bar 4 is brought into contact with the contact portions 5a and 5b to operate the compressor C.

When the temperature of the freezing chamber is lowered by the operation of the compressor (C) and the set temperature is reached, the bellows (2) is contracted due to the detection of the temperature sensing unit (1) and the contraction of the internal gas. The contact parts 5a and 5b which were contacted while returning (4) to the original state fall, and cut off the current of the compressor C.

However, the prior art as described above is connected to the connecting portion of the sensing tube (1a) and the capillary tube (1b) constituting the temperature sensing unit 1 by a welding method, if the welding is poor temperature control due to leakage of gas It causes a malfunction of the device, there is also a problem of increasing the cost and lowering the productivity by using a separate sensing tube (1a) in the temperature sensing unit.

Therefore, the present invention was devised to solve the above-described problems, and by forming the volume of the capillary tube forming the temperature sensing unit in an appropriate size for sensing the temperature, it is possible to reduce the material cost, and also to reduce productivity by reducing the labor cost. It is an object of the present invention to provide a freezer compartment thermostat suitable for improvement.

1 is a cross-sectional view showing a typical refrigerator equipped with a temperature control device.

2 is a cross-sectional view showing a conventional temperature control device.

3 is a sectional view showing a temperature control device according to the present invention.

* Explanation of symbols for main parts of the drawings

10: temperature sensing unit 11: bellows

12: lever 13: push bar

14a: movable contact 14b: fixed contact

The present invention for achieving the above object is, a temperature sensing unit for enclosing the refrigerant gas inside and installed in the freezer compartment, a bellows connected to the temperature sensing unit to expand and contract the gas filled therein, the contact with the bellows And a lever moving up and down, and a push bar connected to the lever to connect or control the contact portion, wherein the temperature sensing unit winds up the capillary tube in a coil shape so as to have a predetermined volume for temperature sensing. Provided is a freezer compartment temperature control device.

Hereinafter, an embodiment of the freezer compartment temperature control apparatus according to the present invention will be described with reference to the accompanying drawings.

3 is a cross-sectional view showing a freezer compartment temperature control apparatus according to the present invention, as shown in this, the freezer compartment temperature control apparatus of the present invention is installed in the freezer compartment and the temperature sensing unit 10 for sensing the temperature inside the freezer compartment; The bellows 11 expands and contracts according to the state of the refrigerant gas enclosed in the temperature sensing unit 10 and the upper and lower sides of the bellows 11 in contact with the upper side of the bellows 11. The lever 12 is moved to the side, and one side is connected to the lever 12 and the other side is connected to the movable contact 14 and the fixed contact 14b installed at regular intervals from each other by the movement of the lever 12 It consists of the push bar 13 which connects or interrupts the two contacts 14a and 14b.

The capillary forming the temperature sensing unit 10 is formed by winding the size of the capillary in a coil shape so as to have an appropriate volume for sensing temperature so as to have an equivalent role with a conventional sensing tube.

The contact portions 14a and 14b are connected to communicate with the compressor of the refrigeration cycle.

Referring to the operation of the temperature control device according to the present invention configured as described above are as follows.

When the temperature of the freezing chamber increases, the pressure of the refrigerant gas enclosed in the temperature sensing unit 10 installed in the freezing chamber increases, and the bellows 11 elastically connected to the temperature sensing unit 10 expands and the lever is expanded. Pressing the 12 to push the push bar 13 connected to the lever 12 in series, the push bar 13 presses the movable contact (14a) in the direction of the fixed contact (14b) two contact parts 14a and 14b are connected to each other to operate the compressor.

When the compressor is operated, the refrigerating cycle is operated to lower the temperature of the freezer compartment. Therefore, when the temperature of the freezer compartment reaches the set temperature, the bellows is detected due to the detection of the temperature sensing unit 10 and the contraction of the internal gas. 11 is contracted so that the contact portions 14a and 14b which were connected while returning the lever 12 and the push bar 13 to the original state are interrupted to cut off the current of the compressor.

As described above, the freezer compartment temperature control apparatus according to the present invention is formed by extending the capillary forming the temperature sensing unit of the freezer compartment to a certain size to remove the existing sensing tube to perform the same role, thereby reducing the material cost It has the effect of reducing the number of labor for welding and connecting the sensing tube and capillary.

Claims (1)

A temperature sensing unit for enclosing the refrigerant gas in the freezer compartment and installing the inside of the freezer compartment, a bellows connected to the temperature sensing unit and expanding and contracting with the gas filled therein, a lever contacting the bellows to move up and down, and the lever A freezer compartment temperature regulating device, comprising: a push bar connected to and connected to or intermittently contacting the contact part, wherein the temperature sensing part comprises a capillary tube wound in a coil shape to have a predetermined volume for temperature sensing.