KR200150318Y1 - Water supplying control apparatus of refrigerator automatic ice maker - Google Patents

Abstract

The present invention relates to a water supply control device of a refrigerator automatic ice maker, and a water supply control device of a conventional refrigerator automatic ice maker detects moisture in a weighing tank to supply water into an ice tray of an ice maker without being constant. Therefore, after the end of ice making, the ice separation from the ice maker was poor and the size of the ice was small, so that only a small amount of ice could be obtained by one ice making action.

The present invention is to solve the above problems, the ice making machine 45 having a plurality of recesses (44a, 44b) is provided with a drive mechanism 49, the ice maker 45 is provided to enable the forward / reverse rotation ; A water supply 39 provided at a lower portion of the ice maker 45 and integrally formed with a drip tray 38 and a measuring tank 58 to receive ice-making water from one of the water supply tanks 37; In the water supply control device of the refrigerator automatic ice maker provided with a water supply pump 36 which pumps the ice making water of the metering tank 58 to the ice making bowl 44 through the water supply pipe 35, the water supply pump 36 The first and second moisture detection sensors 60 and 62 to stop the water supply pump 36 when the ice making water supplied from the water is filled to the full water position up to the recesses 44a and 44b at both ends of the ice making bowl 44. By providing a constant size of ice can be obtained and provides a water supply control device of the refrigerator automatic ice maker that can be easily separated after the ice is frozen.

Description

Water supply device of refrigerator automatic ice maker

The present invention relates to an automatic ice maker of a refrigerator, and more particularly, to a water supply control apparatus of a refrigerator automatic ice maker that enables water supply at a constant level from the first recess to the final recess of the ice tray.

A refrigerator equipped with an automatic ice maker in a conventional refrigerator is known from Korean Patent Publication No. 95-3815, which is shown as shown in FIGS. 1 and 2.

That is, the freezing chamber 27, the refrigerating chamber 28 and the ice making chamber 32, etc. are formed in the refrigerator main body 21, and as the cold air cooled by the cooler 29 is driven, the fan 29a is driven. It is comprised so that it may be supplied to the freezing chamber 27, the refrigerating chamber 28, and the ice making chamber 32, The ice maker 45 of FIG. 2 is provided in this ice making chamber 32. As shown in FIG.

In the ice maker 45, a box 50 forming a rectangular box shape is disposed at an upper portion of the ice making chamber 32, and at one end of the back of the box 50, an L-shaped support member 41 protruding rearward is provided. It is installed.

Inside the box 50, a drive mechanism 49 composed of a motor 48, a gear mechanism 47, and an output shaft 46 is installed, which drives the rotation of the motor 48. The mechanism 47 decelerates and delivers it to the output shaft 46.

In addition, an ice making bowl 44 is disposed inside the support member 41, which has a central portion of the front portion connected to the output shaft 46 and a central portion on the opposite side of the supporting member 41 through the support shaft 42. It is rotatably supported and is rotated by the output shaft 46.

In addition, the protrusion 43 is raised at the rear portion of the ice making bowl 44, and when the ice making bowl 44 is rotated in the reverse direction, the protrusion 43 is brought into contact with the support member 41 to restrict its rotation. In addition, the ice tray 44 forms a thin rectangular container shape with an open upper surface, and the inside thereof is concavely partitioned to make a plurality of angled ice.

On the other hand, water is supplied to the ice making bowl 44 by a water supply 39, which is supplied with a water supply tank 37 provided in a refrigerator and water in the water supply tank 37. The drip tray 38 and the water supply pump 36 which supplies the water in the drip tray 38 to the ice-making vessel 44 through the water supply pipe 35, are supplied to the ice-making vessel 44, and A temperature sensor for detecting the completed ice making temperature is attached to detect that the water has become ice.

3 illustrates a water supply device used in an automatic ice maker of a conventional refrigerator.

The water supply 39 is composed of a set of moisture sensing senses 54 adjacent to each other, its own lead wire 56 is connected to a microcomputer, and each lower end of the set of moisture sensing sensors 54 is weighed. It is immersed in the water in the tank 58.

When the ice maker 45 finishes the ice separation operation, the ice maker 45 is reversed back to its original horizontal position by the operation of the driving mechanism 49. At the same time, the water supply pump 36 is operated to supply the water in the weighing tank 58 into the ice making bowl 44 of the ice maker 45. When the water supply pump 36 is operated, a large amount of water in the metering tank 58 is initially sucked by the high speed rotation of the water supply pump 36. Accordingly, the amount of water in the metering tank 58 is reduced, and the lower end of the pair of water detection sensors 54 submerged in the water in the metering tank 58 is exposed to the upper surface of the water surface.

When the lower end of the pair of moisture detection sensor 54 is exposed to the upper surface of the water, the operation of the water supply pump 36 is stopped by the signal of the microcomputer. As the water in the metering vessel 58 decreases, the water retained in the drip tray 38 flows into the metering vessel 58.

However, as described above, since the lower end of the water sensor 54 is exposed to the upper surface after a relatively short time after the initial operation of the water supply pump 36, the drip tray after the operation of the water supply pump 36 is stopped. Water in the dish 38 flows to the metering vessel 58.

Accordingly, the operation of the water supply pump 36 is stopped in a state in which sufficient water is not supplied into the ice making bowl 44 of the ice maker 45. The water supplied to the ice tray 44 of the ice maker 45 flows through the groove 45a with a channel between the recesses.

However, since the amount of water supplied into the ice making bowl 44 of the ice maker 45 is small, the water to be filled in the recesses to be filled later among the recesses of the ice making bowl 44 to be filled with water sequentially. The amount is initially less than the amount of water that fills the recess.

As such, when a small amount of water is filled in the concave portion of the ice making bowl 44, the area of contact with the ice frozen in the ice making bowl 44 and the inner surface of the ice making bowl 44 after the end of ice making is small. Therefore, when the ice is to be separated by the twist of the ice making bowl 44, the separation action of the ice is poor, accordingly, the amount of ice iced at once.

In addition, since the water supply regulator 52 is located on the metering tank 58, the structure of the water supply regulator 52 is complicated, and thus, the assembly is difficult and maintenance is inconvenient when manufacturing.

The purpose of the present invention is to develop and solve the above-mentioned problems in the prior art, the water on the ice tray of the ice maker to stop the operation of the water supply pump after the deicing water is filled into a constant water level into each recess of the automatic ice maker. It is to provide a water supply control device of a refrigerator automatic ice maker that provides a moisture detection sensor to detect a certain size of ice can be obtained and easily separated after the ice is frozen.

1 is a cross-sectional view showing a portion of an automatic ice making room in a conventional refrigerator.

2 is a plan view showing an automatic ice maker in FIG.

3 is a side view showing only the water supply control portion of the automatic ice maker in FIG.

Figure 4 is a side view showing a water supply control device of an automatic refrigerator ice maker according to the present invention.

* Explanation of symbols for main parts of the drawings

35: feed pipe 36: feed pump

37: water supply tank 38: drip tray

39: water dispenser 44: ice tray

44a: first recess 44b: final recess

45 ice maker 49 drive mechanism

58: weighing tank 60: first moisture sensor

62: second moisture sensor

The present invention provides an ice making machine having a plurality of concave portions to make the forward / reverse rotation by the drive mechanism to achieve the above object; A water dispenser provided below the ice maker and integrally formed with a drip tray and a measuring tank receiving ice-making water from one water supply tank; In the water supply control device of the refrigerator automatic ice maker equipped with a water supply pump for supplying the ice making water of the metering tank to the ice making vessel through a water supply pipe, the position of the ice making water from the water pump to the concave end of both ends of the ice making vessel In the water supply control device of the automatic ice maker of the refrigerator characterized in that the first and second moisture detection sensor is provided to stop the feed water pump flows when the current flows.

In addition, the water supply control device of the refrigerator automatic ice maker according to the present invention, the first moisture sensor is located in the first recess of the ice tray and the second moisture sensor is located in the final recess of the ice tray automatic refrigerator It is in the water supply control device of.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that the specific features of the present invention will be more easily understood.

4 is a water supply control device of the automatic ice maker according to the present invention is located on the ice tray 44 of the ice maker 45.

The first moisture detection sensor 60 is the first recess 44a in which ice-making water is first supplied from the water supply pump 36 among the plurality of recesses 44a and 44b formed in the ice making bowl 44 of the ice maker 45. Located in the phase

In addition, the second moisture sensor 44b is the final concave in which ice-making water is finally introduced from the water supply pump 36 of the plurality of concave portions 44a and 44b formed in the ice making bowl 44 of the ice maker 45. It is located on 44b. The first and second moisture detection sensors 44a and 44b are electrodes having a simple structure.

The ice deiced in the same manner as in the prior art is the water supply pump if the ice tray 44 of the ice maker 45 is reversed to its original horizontal position after the ice is separated from the ice tray 44 of the ice maker 45 36 is activated.

The feed water pump 36 sucks the ice making water retained in the metering tank 58 into its intake port 36a and into the initial recess 44a of the ice making bowl 44 through the discharge port 36b. To supply. The ice making water supplied to the first concave portion 44a by the water supply pump 36 is flooded from the first concave portion 64 so that the respective concave portions 44a and 44b of the ice making bowl 44 are formed. It is sequentially introduced through the grooves (not shown), each channel formed in the phase.

As such, when the ice making water sequentially introduced flows into the final concave portion 44b of the ice making bowl 44 and fills up to a level at which the second moisture detecting sensor 62 is located, the second moisture detecting sensor 62 is filled. Is in contact with the ice making water. Accordingly, the second moisture sensor 62 flows a current with the first moisture sensor 60 in contact with the ice making water provided on the first concave portion 64.

The first water detecting sensor 60 and the second water detecting sensor 62 as described above stops the operation of the feed water pump 36 due to a signal in which current flows.

On the other hand, a water supply supplement lamp (not shown) when a current does not flow between the first moisture detection sensor 60 and the second moisture detection sensor 62 even after a predetermined time elapses after the water supply motor 36 is operated. It is to light the water supply supplement to the user.

As described above, the water supply control device of the refrigerator automatic ice maker according to the present invention is characterized in that the water detection sensors are positioned on the first recess and the final recess of the ice tray, respectively, and after the ice making water is filled to the full water position in each recess of the ice tray. Since the operation of the water supply pump is stopped, the water is constantly supplied to the ice making vessel of the automatic ice maker, and thus there is an effect of facilitating the separation of ice even after ice making.

In addition, since the water supply control device of the automatic refrigerator ice maker supplies the ice-making water in a predetermined amount to the recess of the ice-making bowl, there is an effect of obtaining a relatively large amount of ice in one ice-making operation.

And the water supply control device of the refrigerator automatic ice maker according to the present invention has a simple electrode structure of the first and second moisture detection sensors, and is located on the ice tray, so the structure of the water supply device is simple and easy to assemble when manufacturing. And the maintenance is easy to effect.

Claims (2)

An ice making machine (45) having a plurality of recesses (44a, 44b), the ice making machine (45) of which a forward / reverse rotation is provided by a driving mechanism (49); A water supply 39 provided at a lower portion of the ice maker 45 and integrally formed with a drip tray 38 and a measuring tank 58 to receive ice-making water from one of the water supply tanks 37; In the water supply control device of the refrigerator automatic ice maker provided with a water supply pump 36 for pumping the ice making water of the metering tank 58 to the ice making bowl 44 through the water supply pipe 35, the water supply pump 36 The first and second moisture detection sensors 60 and 62 to stop the water supply pump 36 when the ice making water supplied from the water is filled to the full water position up to the recesses 44a and 44b at both ends of the ice making bowl 44. Water supply control device for automatic refrigerator ice maker characterized in that the prepared. The first moisture sensor 60 is located in the first recess 44a of the ice tray 44, and the second moisture sensor 62 is the final recess of the ice tray 44. Water supply control device for automatic refrigerator ice maker, characterized in that located in (44b).