JPH0424381Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Purpose of the Invention] (Industrial Field of Application) The present invention relates to an ice making device for use in a built-in refrigerator, for example, and more particularly to an ice making device that has an improved ice storage detection device that detects the amount of stored ice.

(Prior Art) Conventionally, as a structure for detecting the amount of ice stored in an automatic ice making device such as a commercial or home refrigerator, the ice storage detection device shown in Japanese Utility Model Application Publication No. 60-50771 is an integrated rod-shaped ice storage detection device. This ice storage detection device rotates upward when the ice tray is turned upside down, and rotates downward when the ice tray returns to its original position, detecting the ice storage condition in the ice storage container. It is designed to control the inversion of the ice cube tray.

However, with integrated ice storage detection devices, ice storage is detected at a fixed detection level for ice trays, so it is not possible to adjust the amount of ice storage to be detected. In order to adjust the amount, there was a problem in that the base frame on the main body side to which the ice storage detection device was attached had to be disassembled and the ice storage detection device had to be replaced each time.

As a means to solve these problems, the applicant of the present invention filed Utility Application No. 179509/1983
15992) is proposed. The ice storage detection device of this ice-making device includes a first detection arm and a second detection arm connected to the first detection arm via a joint body so as to be able to freely change the detection level.

(Problem to be solved by the invention) However, although the ice storage detection device can easily change and adjust the ice storage detection level for the ice storage container, a large-diameter joint body is installed in the middle of the ice storage detection device below the ice tray. Therefore, when ice hits the joint, a large impact is generated, which may shorten the life of various machines, such as operating switches.

SUMMARY OF THE INVENTION An object of the present invention is to provide an ice making apparatus in which the ice storage detection level for an ice storage container of an ice storage detection device can be easily changed and adjusted, and in which vibration generation by the ice storage detection device is suppressed.

[Structure of the invention] (Means for solving the problem) The ice storage detection device 15 of the ice making device of the invention is based on the base frame 3.
an arm elevating body 16 rotatably mounted inside;
a detection arm 17 having a detection section 17A that detects the presence or absence of ice by contacting ice in the ice storage container 2; and a detection arm 17 that is attached to the arm elevating body 16;
The base end of 7 is removably inserted into the detection arm 1.
7 to the arm elevating body 16.

(Function) By inserting the detection arm 17 into the joint body 18 fixedly attached to the arm elevating body 16, the ice accumulation detection level can be easily changed and adjusted. Body 18 is ice tray 11
Since the detection arm 17 is not located below the ice tray 11, the impact caused by falling ice can be reduced.

(Example) Hereinafter, an example of the present invention will be described with reference to the drawings.

An ice storage container 2 is provided in the lower part of the freezer compartment 1, a bearing cylinder part 4 is formed on the outer wall of a base frame 3 disposed above one side of the ice storage container 2, and a support plate 5 is provided within the base frame 3. A cylindrical rotating body 6 is rotatably supported between the bearing cylinder portion 4 and the support plate 5, and
A through hole 7 is bored in the center of this rotating body 6. Furthermore, a gear 8 is provided on the outer periphery of this rotating body 6, and a motor 9 provided in the base frame 3 is connected to this gear 8 via a gear interlocking mechanism, so that the rotating body 6 is rotated forward and backward by a predetermined angle. It is becoming more and more like this. and rotating body 6
A shaft 10 is inserted into the through hole 7, and the base end 11A of the ice tray 11 is engaged with the shaft 10, so that the tip 11B is rotatably fitted and supported. The ice-making tray 11 is integrally molded from synthetic resin, and has a plurality of ice-making recesses 12 that are open at the top and are vertically disposed adjacent to each other. An ice-making sensor 13 is brought into contact with the lower surface of the ice-making tray 11, and a lead wire 14 of the ice-making sensor 13 is connected to a control section (not shown).

Reference numeral 15 denotes an ice accumulation detection device, which is constructed by integrally connecting an arm elevating body 16, a detection arm 17, and a joint body 18.

The arm elevating body 16 is made of a steel or synthetic resin wire bent into a substantially U-shape, and has a flat locking portion 16A formed at its tip, and one long side 16B is connected to the base frame 3. The cam part 6A is disposed in the horizontal groove 19 formed on the inner surface of the cam part 6A, and a backing plate 20 is provided on the outside so that the other long side part 16C is integrated with the rotating body 6.
It is provided so as to be able to come into contact with and to be freely rotatable in the vertical direction.
The detection arm 17 is made of a wire rod made of steel or synthetic resin, and has a horizontal short part 17C connected to one end of the detection part 17A via an oblique side part 17B, and is bent downward at the end of the horizontal short part 17C. Curved hook part 17D
are installed in succession. And the hook portion 17D and the short side portion 17
A flat locking portion 17E is formed at the connecting portion of C.
The joint body 18 is connected to the locking portion 16 of the arm elevating body 16.
A pair of locking holes 18A into which C is inserted are formed, and an arm elevating body 1 is formed on the base frame 3 side perpendicular to the axis X.
6 is fitted into the groove 21, and the actuating portion 2 is formed in the direction opposite to the fitting groove 21 perpendicular to the axis X.
2 is installed protrudingly. The fitting groove 21 has an inverted L-shape in which a horizontal groove 21B having a narrow opening 21A on the lower side is connected to a vertical groove 21D having a narrow opening 21C on the inside. A window hole 23 is bored in the opposing base frame 3, and an actuation switch 24 is attached to the support plate 5 in the vicinity of the actuation section 22. Lead wire 24A of this operating switch 24
is connected to the control section. 25 is a water supply port;
Further, 26 is a spring for returning the ice accumulation detection device 15.

Next, the operation of the above structure will be explained.

Short side portion 17C and hook portion 17D of detection arm 17
is inserted through the window hole 23 and the short side 17C is inserted into the horizontal groove part 2.
1B, on the other hand, the hook portion 17D is fitted into the vertical groove portion 21D.

When the water in the ice tray 11 installed in the freezer compartment 1 freezes, the ice making sensor 13 senses this and operates the motor 9 to rotate the rotating body 6 in one direction. Due to this rotation of the rotating body 6, the ice tray 11 is moved through the shaft 10.
rotates, the tip 11B of the ice making tray 11 is locked at a fixed angle by a stopper (not shown), and the ice making tray 11 is further rotated and twisted, leaving the ice in each ice making recess 12 slightly floating. Ice tray 1
Ice is put into the ice storage container 2 at the same time as the container 1 is turned over.

Next, the rotary body 6 is rotated in the opposite direction, and the ice tray 11 is returned to a horizontal state, and water is supplied from the water supply port 25 to fill each ice making recess 12 with water, and ice making is performed again.

In conjunction with the rotation of the ice tray 11, the ice storage detection device 14 is rotated up and down by the rotation of the cam portion 6A, detects the ice storage state, and controls the reversal of the ice tray 11. That is, when there is little ice in the ice storage container 2, when the detection part 17A of the detection arm 17 descends to the lower limit position, the joint body 18 rotates around the one long side 16B of the arm elevating body 16, and is rotated by the return spring 26. Therefore, it is biased counterclockwise, and as a result, the operating section 22 presses the operating switch 24 and controls the control section to continue making ice. On the other hand, when the amount of ice in the ice storage container 2 reaches a predetermined amount, the detection portion 17A of the detection arm 17 hits the ice and its descent is restricted. Therefore, the actuating part 22 of the joint body 18 does not come into contact with the actuating switch 24, and the control part controls so that the ice making tray 11 is not turned over even when the ice making of the next ice making tray 11 is completed.

Further, when the ice in the ice storage container 2 is consumed, the detection portion 17A of the detection arm 17 is lowered, the actuation portion 22 comes into contact with the actuation switch 24, and the shaft 10 is repeatedly rotated by the control portion.

Next, when setting the detection level of the amount of ice stored in the ice storage container 2 downward, that is, when decreasing the amount of ice stored, after pulling out the detection arm 17 from the joint body 18, Detection part 1
Horizontal short side 1 of sensing arm 17 with 7'A
7'C and the hook part 17'D to the horizontal groove part 21 of the joint body 18.
B and the vertical groove portion 21D. In this way, the detection parts 17 are placed in mutually different positions when installed in the joint body 18.
By selecting and setting the detection arms 17, 17' on which A, 17'A are installed so that they can be attached to and detached from the arm elevating body 16, for example, a plurality of detection levels H ₁ , H ₂ can be set.
can be obtained.

As described above, the ice storage detection device 15, which is activated by the operating switch 24, is inserted into the arm elevating body 16 which is rotatably provided inside the base frame 3, and into the locking hole 18A of this arm elevating body 16, and is fitted into the arm elevating body 16. A joint body 18 having a fitting groove 21 and a detection part 17 whose one end is fitted into the fitting groove 21.
By configuring the detection arm 17 with the height A, the detection arm 17 corresponding to a plurality of detection unit levels H ₁ and H ₂ can be easily changed and adjusted.

Furthermore, the portion of the ice storage detection device 15 located below the ice tray 11 is a linear detection arm 17, that is, the joint body 18 is not located below the ice tray 11, so that ice is not put in from the ice tray 11. When
The ice storage detection device 15 does not receive a large impact,
Therefore, it is possible to prevent the life of the operating switch 24 and various devices of the control section from being shortened due to vibration or the like.

Moreover, when attaching the detection arm 17 and the joint body 18, a locking part 17E is formed between the horizontal short part 17C and the hook part 17D of the detection arm 17, and the opening 21
Since A and 21C are fixed by the narrow fitting groove 21, rotation of the detection arm 17 in directions other than the vertical direction can be suppressed, and reliable operation is possible. Furthermore, the arm elevating body 16 and the joint body 18 are also regulated by the flat locking holes 18A and the locking portions 16A in directions other than the rotation direction around the one long side portion 16B, allowing reliable operation.

Note that the present invention is not limited to the one embodiment described above, and various modifications are possible, for example, the arm elevating body may come into contact with the operating switch.

[Effects of the invention] The present invention includes a base frame, an ice storage container, and an ice making tray that is rotatably installed on the base frame above the ice storage container and rotates from an upward ice making state to release ice. The ice storage detection device is provided with an ice storage detection device that rotates in conjunction with the ice tray and detects ice storage in the ice storage container, and an actuation switch that responds to the ice storage detection device, and the ice storage detection device rotates within the base frame. an arm elevating body freely attached to the ice storage container; a detection arm having a detection portion that detects the presence or absence of ice by contacting ice in the ice storage container; and a base end of the detection arm attached to the arm elevating body and detachable It consists of a joint body that can be freely inserted and transmits the movement of the detection arm to the arm elevating body, and the ice accumulation detection level can be easily changed and adjusted, and large vibrations can be prevented from being applied to various devices.

[Brief explanation of drawings]

Fig. 1 is a vertical sectional view, Fig. 2 is a rear view, Fig. 3 is a perspective view, Fig. 4 is an exploded perspective view of the ice storage detection device, Fig. 5 is a partially cutaway front view of the main parts, Fig. 6 The figure is a bottom view showing the same disassembled state. 2...Ice storage container, 3...Base frame, 11...Ice tray, 15...Ice storage detection device, 16...Arm elevating body, 17...Detection arm, 17A...Detection section, 1
8...Joint body, 24...Operation switch.

Claims (1)

[Scope of utility model registration request] A base frame, an ice storage container, an ice tray that is rotatably installed on the base frame above the ice storage container and rotates from an upward ice-making state to release ice, and the ice tray rotates in conjunction with the ice tray. The ice storage detection device includes an ice storage detection device that detects ice storage in the ice storage container, and an operation switch that responds to the ice storage detection device, and the ice storage detection device includes an arm elevating body rotatably attached within the base frame. and,
a detection arm having a detection part that detects the presence or absence of ice by contacting ice in the ice storage container; and a detection arm that is attached to the arm elevating body and whose base end is removably inserted and moves the detection arm. An ice-making device comprising a joint body that transmits the information to the arm elevating body.