KR20140003792A - Fixed quantity supply device and ice maker having the same - Google Patents

Abstract

The present invention provides a fixed amount supplying device and an ice maker with the same. The fixed amount supplying device includes a tray which receives a material supplied from a supplying unit and becomes inclined in one direction when the weight of the received material becomes a preset weight; a stopper supporting the tray at a preset point; and a balancing weight which is mounted on the tray to return the tray to the prior position of the tray before the inclination after the material in the tray is discharged. According to the invention as described above, the present invention is easily manufactured at low production costs because of a simple configuration thereof; supplies a fixed amount of a material desired to supply without limitation on the sort and shape of the material; and accurately supplies a fixed amount of a material desired to supply without a variation caused by a structural error in design.

Description

QUANTITY SUPPLY DEVICE AND ICE MAKER HAVING THE SAME}

The present invention relates to a fixed-quantity supply device and an ice maker having the same, and more particularly, to a fixed-quantity supply device capable of supplying a certain amount of material in a mechanical configuration using a center of gravity movement of an object, and an ice maker having the same.

Quantitative feeding devices for precisely measuring and separating powders, high viscosity fluids, liquids, and various types of materials have been used in various technical fields.

However, the conventional quantitative supply device often requires an electric device such as a separate measuring device and a control device in order to measure and supply a quantitative amount of a material, and thus, the configuration is complicated and the manufacturing cost is high.

In addition, there was a problem in that a separate feeder must be used to supply a quantitative supply according to the characteristics of the material to be supplied.

In addition, in the case of using a quantitative feeding device having a somewhat complicated mechanical configuration, there is a problem in that a precise error is generated due to a structural error or malfunction of the device.

The present invention has been proposed to solve at least some of the above problems, and an object thereof is to provide a quantitative supply device having a simple structure.

In addition, an object of the present invention is to provide a quantitative supply device for supplying a quantitative supply as one device without being limited by the type and property of the material.

In addition, an object of the present invention is to provide a quantitative supply device for supplying accurate quantification without deviation in the quantitative supply process of the material.

As a technical aspect for achieving the above object, the present invention, the material supplied from the supply unit is accommodated and the tray is configured to be inclined in one direction when the weight of the received material is a predetermined weight at a predetermined point And a stopper for supporting and a counterweight mounted on the tray to return to a position before the tray is inclined after the material contained in the tray is leaked.

Preferably, the tray may be provided so that the center of gravity of the tray is eccentric to one side when the material is supplied from the supply unit.

Preferably, the tray may be provided in the form of an asymmetric inverted triangular cross-section.

On the other hand, the stopper is in contact with one side of the tray when the material is received in the tray and the first stopper for supporting the tray and the tray in contact with the other side of the tray so as not to be inclined more than a predetermined angle when the tray is tilted It may be configured to include a second stopper for supporting.

Preferably, the counterweight can be attached to the tray by varying the weight.

Also preferably, the counterweight and the second stopper may be provided with a contact sensor for detecting the contact between the counterweight and the second stopper on one side.

The supply unit may further include a check valve that blocks supply of material when the contact sensor detects that the balance weight and the second stopper are separated.

On the other hand, in another aspect, the present invention provides a water supply unit for supplying water and the above-mentioned fixed amount supply device that accommodates the water supplied from the water supply unit and the ice making container and the ice making container for receiving the water supplied from the fixed amount supply device It provides an ice maker including an ice making unit for producing ice from the received water.

Preferably, the ice maker may comprise a water tank in which the non-ice ice is stored.

According to the quantitative supply device according to an embodiment of the present invention as described above, the configuration is simple, and thus the manufacturing process is easy and the production cost is reduced.

In addition, according to one embodiment of the present invention, it provides an effect of supplying a quantitative without being limited to the kind and characteristics of the material to be supplied in a quantitative manner.

In addition, according to one embodiment of the present invention, it provides an effect of supplying accurate quantification without a deviation due to a design error in the quantitative supply process.

1 to 2 are cross-sectional views of the metering device according to one embodiment of the present invention before and after the material is supplied to the tray.
3 is a cross-sectional view of an ice maker provided with a metering device according to an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will now be described in detail with reference to the accompanying drawings.

First, the embodiments described below are embodiments suitable for understanding the technical features of the metering device 100 and the ice maker 200 having the same according to an embodiment of the present invention. However, the technical features of the present invention are not limited by the embodiments to which the present invention is applied or explained in the following embodiments, and various modifications are possible within the technical scope of the present invention.

As shown in FIG. 1, as an embodiment of the present invention, the quantitative supply device 100 accommodates a material supplied from the supply unit 20, and tilts in one direction when the weight of the received material becomes a predetermined weight. After the tray 110 and the stopper 120 supporting the tray 110 at a predetermined point and the material contained in the tray 110 are leaked, the tray 110 may return to a position before the tray 110 is tilted. It may be composed of a balance weight 130 is mounted on the tray 110 to be.

The tray 110 is located at the bottom of the supply unit 20 as a container in which the material to be supplied in a quantitative manner is accommodated.

However, when the weight of the tray 110 increases due to the supply of the material from the supply part 20, the center of gravity of the tray 110 moves in one direction so that the tray 110 faces the receiving part 10. The material accommodated in the tray 110 may be inclined so as to be supplied to the accommodation part 10.

First, the tray 110 before the counterweight 130 is attached is provided to be inclined in the direction of the receiving portion 10 when the center of gravity is inclined in the vertical direction so that the tray 110 is inclined in the direction in which the receiving portion 10 is located. .

In this case, the shape of the tray 110 for tilting the tray 110 in one direction is possible when the upper portion of the side cross-section of the tray 110 is wider than the lower portion.

When the lower portion of the side end surface of the tray 110 is wider than the upper portion, the tray 110 is not inclined in a stable state on the surface on which the tray 110 is placed.

In addition, in order to incline the tray 110 toward the receiving portion 10, the shape of the tray 110 is the weight of the tray 110 in addition to the case that the side cross-section of the tray 110 is asymmetrical It is possible if the center is provided so as to be located in the direction of the receiving portion 10 when viewed from the vertical line.

For example, referring to FIG. 1, it is possible when the side cross section of the tray 110 has an inverted triangle shape. The tray 110 is inclined in one direction because the upper portion of the side cross-section is wider than the lower portion, the tray 110 when the center of gravity of the tray 110 is biased in the direction of the receiving portion 110 in the vertical direction It is inclined toward the receiving portion 10.

In this case, when the side cross-section of the tray 110 is an inverted triangle shape, only one embodiment is possible, and various embodiments corresponding to the case where the center of gravity is biased in one direction are possible.

That is, the case where the center of gravity is biased in one direction is possible not only when the side cross-section of the tray 110 is asymmetrical but also when the weight of one direction is biased in one direction.

In addition, referring to FIG. 1, the tray 110 may further include a counterweight 130 on one side of the tray 110 opposite to the receiving portion 10.

As described above, the tray 110 before the counterweight 130 is attached, the center of gravity is inclined toward the receiving portion 10 when viewed from the vertical line, the counterweight ( When 130 is provided, it is inclined in the opposite direction of the receiving portion 10 to move in the opposite direction of the receiving portion (10).

Thus, after the quantity of the substance is supplied from the supply unit 20, the center of gravity of the tray 110 is moved toward the accommodating part 10 to supply the substance to the accommodating part 10.

In addition, the counterweight 130 not only moves the center of gravity of the tray 110, but also adjusts the position of the center of gravity by the weight of the counterweight 130 to determine the quantity of material contained in the tray 110. Decide

That is, the weight of the balance weight 130 is provided according to the amount to be supplied so that the center of gravity of the tray 110 when viewed in a vertical line after the quantity of the substance is introduced from the supply unit 20 in the receiving portion The tray 110 is inclined toward the accommodating part 10 by moving in the direction of (10).

Meanwhile, the tray 110 to which the counterweight 130 is attached is inclined in one direction when the material is supplied from the supply part 20 and the material is supplied back to the receiving part 10. Thus, the stopper 120 is installed to be fixed while being supported by the tray 110 at a preset position.

In this case, the stopper 120 may be provided as a first stopper 121 and a second stopper 122. The first stopper 121 may have a material from the supply part 20 in the tray 110. The tray 110 is provided to be fixed in the opposite direction of the receiving portion 10 before being introduced.

First, the first stopper 121 will be described with reference to the operation of the tray 110.

Referring to FIG. 1, the center of gravity of the tray 110 before the counterweight 130 is attached is located in the direction of the receiving portion 10 when viewed in a vertical line. However, as the counterweight 130 is attached, the center of gravity moves toward the counterweight 130.

Thus, since the tray 110 is inclined in the opposite direction to the receiving portion 10, the first stopper 121 is provided at one side of the lower end of the tray 110 to fix the tray 110, and the tray ( 110 is supported by the first stopper 121 at a preset position.

In addition, the second stopper 122 may move the center of gravity of the tray 110 toward the accommodating part 10 after the material is supplied to the tray 110 so that the tray 110 is inclined. 110 is provided to stop at a predetermined point before contacting the receiving portion (10).

That is, the second stopper 122 fixes and supports the tray 110 at a preset position while supplying the material from the tray 110 to the receiving portion 10.

In addition, a lower end of the tray 110 supports the tray 110 and a material is supplied to the tray 110 so that the central axis of rotation is tilted when the tray 110 is inclined toward the receiving portion 10. Support 140 may be included.

In addition, the counterweight 130 and the second stopper 122 may include a contact sensor 150 that detects whether the counterweight 130 and the second stopper 122 are in contact with each other.

In addition, the supply unit 20 may be provided with a check valve 21 for blocking the supply of material when the contact sensor 150 is detected that the balance weight 130 and the second stopper 122 is separated. have.

In addition, as an embodiment of the present invention, the quantitative supply device 100 may be provided inside the ice maker 200 to supply a fixed amount of water when water is supplied from the ice maker 200 to the ice maker 30.

The ice maker 200 is configured to ice the water supplied from the water supply unit 20 for supplying water and the water supply unit 100 for receiving the water supplied from the water supply unit 20 and the water supply unit for the water supply unit 100. The ice tank 40 in which the ice making unit 1 and the ice 1 iced by the ice making unit 30 are stored, and the water tank 50 in which the water which is not iced in the ice making unit 30 are stored It can be configured to include.

The operation of the metering supply device 100 in the ice maker 200 will be described in the following effects.

Hereinafter, the effect of the quantitative supply device 100 will be described in detail.

First, referring to FIG. 1, in the metering supply device 100, the tray 110 has the first stopper due to the weight of the counterweight 130 before a predetermined amount of material is supplied to the tray 110. It is inclined toward 121 and is supported by the first stopper 121 to be in a fixed state.

However, referring to FIG. 2, when a material is supplied from the supply unit 20 to the tray 110 supported by the first stopper 121 in a stopped state, the material is supplied to the tray 110 while the material is supplied to the tray 110. The weight of the 110 is increased, the center of gravity of the tray 110 is moved toward the receiving portion 10 so that the tray 110 is inclined toward the receiving portion 10 and the tray 110 The material contained in the is supplied to the receiving portion 10.

In this case, the contact sensor 150 attached to the balance weight 130 is separated from the contact sensor 150 attached to the first stopper 121, and thus a signal indicating that the contact sensor 150 is separated is controlled (not shown). When input to the control unit (not shown) may be set to block the material supplied from the supply unit 20 by sending a signal to operate the check valve 21.

In addition, when the tray 110 is inclined in the direction of the second stopper 122, the tray 110 is supported by the second stopper 122 so as not to be inclined more than a preset angle.

Thus, the material contained in the tray 110 is supplied in a quantitative manner into the container 10 without being in contact with the container 10. Subsequently, the weight of the tray 110 is lighter again, and the center of gravity of the tray 110 is moved again due to the weight of the counterweight 130 so that the tray 110 again moves toward the first stopper 121. It will tilt.

As a result, the counterweight 130 and the first stopper 121 are brought into contact again, and the tray 110 is stopped while the counterweight 130 is supported by the first stopper 121.

In addition, in one embodiment of the present invention, the quantitative supply device 100 may be provided in the ice maker 200 to produce the ice (1).

Referring to FIG. 3, in the ice maker 200, when water is supplied from the water supply unit 20 to the tray 110 of the fixed quantity supply, and water of a predetermined quantity is introduced into the tray 110, The center of gravity of the tray 110 is moved in the direction of the receiving portion (10).

As the center of gravity of the tray 110 is moved toward the receiving portion 10, the tray 110 is inclined toward the receiving portion 10, and the tray 110 has a second stopper 122. It is stopped and supported by the second stopper 122 without being inclined below a preset angle.

As a result, the quantity of water contained in the second stopper 122 is supplied to the ice making container 10a at the lower end of the ice making unit 30. Therefore, since the ice making container 10a is supplied with a quantity of water, water is prevented from overflowing to the outside of the ice making container 10a, and thus water does not flow into the ice stored in the ice tank 40. Does not impair its quality.

In addition, after water flows into the ice making container 10a, water flows out of the tray 110, and the center of gravity of the tray 110 moves in the opposite direction from the ice making container 10a, so that the tray 110 is inclined again to stop at the first stopper 121.

On the other hand, while the tray 110 is stopped at the first stopper 121, the ice 1 is generated by the ice making unit 30 for a preset time, and after the preset time has elapsed, The ice making container 10a is rotated about the rotation shaft 11 so that the ice making body accommodated in the ice making container 10a flows into the water tank 50.

At this time, the guide member 51 located between the ice tank 40 and the water tank 50 is inclined in the direction of the ice tank 40 so that the water contained in the ice making container 10a is Is introduced into the ice tank 40 can be introduced into the water tank 50 without melting the ice (1).

Water flowing into the water tank 50 flows back into the water supply unit 20 when the purified water supply valve 52 is opened, and then flows back into the ice making unit 30 to be used for ice making.

In addition, after the water contained in the ice making container 10a flows into the water tank 50, the ice 1 generated and attached to the cooling tube of the ice making unit 30 is cooled by the operation of the ice-breaking heater. It is separated from the pipe and flows into the ice tank 40.

At this time, the guide member 51 is positioned to be inclined in the direction of the ice tank 40, and the ice 1 that is desorbed does not flow into the water tank 50 but flows into the ice tank 40.

On the other hand, after the defrosting of the ice 1 located in the ice making unit 30, when a signal indicating that the ice 1 has been defrosted is input to the controller, the check valve 21 opens the valve to open the water tank 50. Water is supplied to the tray 110.

When water flows into the tray 110 from the water supply unit 20, the tray 110 is inclined to the second stopper 122 when a predetermined amount of water flows into the tray 110 again. The process of supplying the quantity of water to the ice making container 10a is repeated.

While the invention has been shown and described in connection with specific embodiments so far, it is to be understood that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1: ice 10: receptacle
10a: ice tray 11: rotating shaft
20: supply part 21: check valve
30: ice maker 40: ice tank
50: water tank 51: guide member
52: purified water supply valve 100: fixed-quantity supply device
110: tray 120: stopper
121: first stopper 122: second stopper
130: counterweight 140: support
150: contact sensor 200: ice maker

Claims (9)

A tray configured to be inclined in one direction when the material supplied from the supply unit storing the material to be supplied is accommodated and the sum of the weight of the material to be supplied becomes a predetermined weight;
A stopper for supporting the tray at a predetermined point; And
And a counterweight mounted on the tray to return to a position before the tray is tilted after the substance contained in the tray is leaked. The method of claim 1,
The tray is fixed quantity supply device, characterized in that the center of gravity of the tray is eccentric to one side when supplying the material from the supply. The method of claim 1,
The tray is a quantitative supply device, characterized in that the side cross-section is an asymmetric inverted triangle shape. The method of claim 1,
The stopper may include a first stopper that contacts one side of the tray to support the tray when a material is received in the tray; And
And a second stopper which contacts the other side of the tray to support the tray so that the tray does not tilt more than a preset angle when the tray is inclined. The method of claim 1,
The balance weight is fixed quantity supply device which can be attached to the tray by varying the weight. 5. The method of claim 4,
The balance weight and the second stopper is a fixed quantity supply device, characterized in that having a contact sensor for detecting whether the balance weight and the second stopper on one side. The method according to claim 6,
The supply unit is fixed-quantity supply device characterized in that it comprises a check valve for blocking the supply of material when the contact sensor detects that the balance weight and the second stopper is separated. A water supply part for supplying water;
Claim 1 to claim 7, wherein the water supply from the water supply is accommodated in any one of claims 1 to 7;
An ice making container accommodating the water supplied from the metering device;
An ice making unit generating ice from water accommodated in the ice making container; And
An ice maker comprising an ice tank in which ice iced by the ice maker is stored. 9. The method of claim 8,
The ice maker includes a cold water tank in which the water not iced in the ice maker is stored.

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