KR900003944Y1 - Temperature control damper in cooling room of refrigerator - Google Patents

Abstract

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Description

Name of devise

Damper for refrigerator temperature control of the refrigerator

[Brief Description of Drawings]

1 is the cold air flow of the refrigerator.

2 is a cross-sectional view of a conventional damper structure.

3 is an exploded perspective view of a damper according to the present invention.

Figure 4 is an assembled front view according to the present invention.

FIG. 5A is a cross-sectional view taken along the line A-A of FIG. 4, (b) is a cross-sectional view taken along the line B-B of FIG. 4, and (c) is a cross-sectional view taken along the line C-C of FIG.

* Explanation of symbols for main parts of the drawings

18 body 18a opening

19: throttle 20: rotator

20a, 20b: Swivel 21: Slide knob

22: tension spring 24: support

29: flap 30: wire

33: boss 36: damper

[Detailed Description of Utility Model]

The present invention relates to a damper for controlling the temperature of a refrigerator refrigerating compartment, and in particular, has a separate force-closing function, the shape memory alloy automatically and manually adjust the temperature of the refrigerating compartment by artificially adjusting the shape resilience according to the temperature change and the throttle. It is possible to adjust and add the function of not using the refrigerator compartment.

Conventional refrigerating chamber temperature control damper has a pillar 17 for sensing the temperature as shown in the first and second degrees, the bellows 14 causing a pressure change according to this temperature and the balance to maintain the temperature balance against this pressure. The spring 16 and the balance are transmitted through the rod 10 and are composed of a flap 9 and a body 18 for opening and closing the damper and installed in the refrigerating chamber of the refrigerator 1.

The damper 7 detects this when the temperature of the refrigerating chamber is lower than the set temperature and transmits it to the internal gas.

This gas has a lower pressure with temperature and thus a lower pressure of the bellows 14.

At this time, since the compression force of the opposing spring 16 compressed by the expansion force of the bellows 14 is greater than the pressure of the bellows 14, when this displacement is transmitted to the flap 9 via the rod 10, the flap is The principle is closed with the help of the resistance spring 15 above the flap 9, thereby blocking the cold air flowing into the refrigerating compartment from the freezer compartment to prevent the temperature drop of the refrigerating compartment.

On the contrary, when the temperature of the refrigerating chamber rises above the set temperature, the gas in the filter 17 detects this and the pressure according to the temperature increases, so that the bellows 14 expands.

At this time, the counter force of the counter spring 16 is greater than the compressive force of the counter force 16 and the natural counter spring 16 is pushed down so that the displacement is transmitted to the flap 9 through the rod, and the transmitted force is acted on by the principle of the lever. 9) is opened, so as the cold air flows into the refrigerating compartment, the temperature of the refrigerating compartment is lowered. As these two operations are repeated, the refrigerating compartment temperature is adjusted to the set temperature and the compression force of the counter spring 16 is controlled by the adjustment shaft 13. It is supposed to be.

However, the conventional damper does not have a function for forced closing, and the sensing and operating parts are configured separately, so the number of parts and the gas are handled, which requires a very difficult procedure and attention in the process.

In addition, since the flaps and the bodies are solid, the interviews are not easy, so there is a risk of cold air leakage.

The present invention devised to solve this problem is a device that controls the refrigerator's refrigerator temperature by a balance caused by the resilience of the temperature change of the shape memory alloy and the tension of the counter spring while having a forced damping function in the damper function. When described together with the accompanying drawings as follows.

3 is an exploded perspective view according to the present invention, the damper 36 is installed in the refrigerating chamber to form a passage of the cold air 18 and the shanghai throttle plate 19 and the rotating hole 20 and the slide knob 21 And a tension spring 22 made of a shape alloy having a shape recovery force according to the temperature of the refrigerating chamber, a support 24, and a flap 29 for opening and closing.

And if you look at these and each configuration, the first body 18 is formed so that the cold air inlet opening (18b) in the upper portion is inclined in the passage in an oblique manner, the boss (18a) protrudes from the lower end.

And on one side thereof, the support adjusting groove 34 and the knob slide groove 35 are integrally formed.

In addition, a point 34a is formed on the bottom surface of the adjusting groove 34 and a through hole 18c is formed in both side walls, and a locking step 35a and a pedestal 35b are formed in the slide groove 35. .

The shanghai control plate 19 is formed so that the handle 17a protrudes from the center and fits into the adjustment groove on both sides of the bottom to form a sliding structure. The fixing groove 19c is formed. "Shape in shape.

The rotating hole 20 is formed by drilling a hole having a size fitted to the boss in the center and forming two rotary tables 20a and 20b in a 90 ° direction around the slide knob 21. The handle is formed on the upper portion, and constitutes a configuration to form a swivel contact movable base under the handle and the tension spring 22 is formed of a shape memory alloy having a shape recovery ability according to the temperature change, but the shape Set the storage point to the set temperature of the fridge.

And the support 24 is formed in a configuration that can be fitted into the tension spring support ring fastener 23 for the upper end on the rod shape, the flap 29 to open and close the opening 18a of the body 18 The resistance springs 27 and the wires 30 are hung up and down by forming the proper size.

When the present invention having such a configuration is assembled, the flap 29 is installed in the opening 18a of the body 18, and the turning hole 20 is inserted into the boss 33 of the body 18 to wash the screw 32 and the screw. Assemble so that it does not come off with

Then, the support 24 is installed at the point 34a of the adjusting groove 34 of the body 18 to hang the tension spring 22 made of a shape memory alloy on the ring fastener 23, and the ring fastener 23 To the hole of the support 24 to assemble so that it does not come off as a screw 25 and inserts the adjustment plate 19 into the adjustment groove 34a so that the tip of the support 24 is guided to the guide groove 19b of the adjustment plate 19. To be fitted.

Another groove 35 is inserted into the slide knob 21, the tension spring 26 is fastened to the locking jaw (35a) and the front end of the tension spring 22 of the shape memory alloy to the lower turntable of the rotating hole (20) The damper 36 is formed by hooking the wire 30 to the flap 29 by hooking the wire 20 to the upper bottom base 20a.

Referring to the operation and effect of the present invention made of the configuration described above, when the tension spring 22 of the shape memory alloy to perform the temperature sensing and the operation according to it sensed that the temperature of the refrigerating chamber is better than the set temperature is placed on the flap (29) The contraction elastic force of the resistance spring 27 is greater than the shape recovery of the tension spring 22 to pull up the flap 29 through the rotor 20 to close the opening 18a.

Therefore, by automatically blocking the cold air from the freezer compartment to adjust the temperature of the refrigerator compartment.

On the contrary, when sensing that the temperature of the refrigerating chamber is higher than the set temperature, the shape recovery force of the tension spring 22 of the shape memory alloy is greater than the shrinkage force of the resistance spring 27, thereby pulling the swivel table 20b, thereby causing a flap ( 29 opens the opening 18a by the wire 30 to be pulled.

Therefore, since cold air flows into the open opening 18a and the temperature of the refrigerating chamber is prevented from further rising, the cold air of the refrigerating chamber is automatically transmitted as these two operations are repeated.

In this state, the shape recovery force of the tension spring 22 of the shape memory alloy is adjusted by adjusting the adjusting plate 19 to adjust the shape recovery force by the amount of the displacement of the slide groove 19b.

Further, when the adjusting plate 19 is lowered completely, the fixing groove 19c of the adjusting plate 19 forcibly closes the handle of the slide knob 21, and the pushed force forcibly locks the rotational tool 20 according to the temperature. Shape memory alloys exclude influence.

Therefore, the flap 19 maintains the opening 18a of the body 18 in a closed state, so that the refrigerator refrigerating compartment has an effect of adding an unused function.

As described above, by using the shape memory alloy integrating the sensing and the operation unit, the conventional gas use process can be eliminated and the additional work process can be simplified, thereby reducing the number of parts and simplifying the structure. There is this.

In particular, when the sealing material is attached to the flap, the cold air leakage is significantly reduced, and the power consumption can be efficiently reduced by the forced shut-off function.

Claims (3)

In forming the damper 36 which controls the refrigerating chamber temperature by controlling the flow state of the cold air according to the temperature of the refrigerating chamber to the degree of opening and closing of the flap 29, the opening 18a of the body 18 in which the flap 29 is elastically installed. The rotation hole 20 is inserted into the boss 33 on the lower side, and the support 24 and the left and right slide knob 21 are inserted into the adjustment groove 34 and the slide groove 35 of the body to support the support 24 and the lower side. Between the swivel 20b of the connection between the tension spring 22 made of a shape memory alloy, between the flap 29 and the upper shaft swivel 10a of the rotating hole 20 by the wire 30, the support up and down Refrigerator compartment temperature control damper of the refrigerator, characterized in that the assembly to the moving control plate 19, so that the opening and closing of the flap 29 is adjusted automatically and manually. The bottom surface of the throttle plate 19 according to claim 1 Refrigerator compartment temperature control damper of the refrigerator for adjusting the tension spring force of the shape memory alloy by inserting the tip of the support (24) to the groove type slide groove (19b). The refrigerator compartment temperature of the refrigerator according to claim 1, wherein the fixing groove (19c) formed at the tip of the adjusting plate (19) forcibly advances the slide knob (21) such that the flap (29) does not operate on the tensile force of the shape memory alloy. Control damper.