JP2005090886A - Refrigerator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To certainly connect a connection port body to a water delivery port provided to a water feed tank; and to reduce a slide control force at the time of setting the water feed tank. <P>SOLUTION: A water storage tank 12 is set to a partition wall 1a as a tank mounting part. The water storage tank 12 is located below an ice tray. The water storage tank 12 is set removably by forward and rearward sliding operation, and provided with a pump 16. The water delivery port 14b vertically opened is formed at the upper part of the water storage tank 12. The connection port body 22 of a water feed passage 21 supplies water to the ice tray. An operation device 26 holds vertically operatably the connection port body 22 at a position almost just above the water delivery port 14b of the water storage tank 12 at a set position. The connection port body 22 is separated from and connected to the water delivery port 14b by the operation. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a refrigerator in which a water supply tank is disposed below an ice tray.

Conventionally, refrigerators are provided with an ice making device such as an automatic ice making device. In this configuration, it is well known that the refrigerator compartment is provided above the freezer compartment. From this relationship, the water storage tank is set to the tank placement portion of the upper refrigerator compartment by a forward / backward slide operation. Yes. An ice tray is provided in the lower freezer compartment.
A pump is provided inside the water storage tank, and the discharge port of the pump extends upward and then bends horizontally and opens rearward.

This pump supplies water to a lower ice tray through a water supply channel, and the discharge port of the pump is desired for a water supply receptacle in the water supply channel. At the time of setting in which the water tank is slid, the pump discharge port faces the water receiver.
Therefore, when the pump is driven, water in the upper water supply tank exits from the discharge port of the pump, flows down to the water supply receptacle, and is supplied to the lower ice tray through the water supply path (for example, Patent Document 1). .
Japanese Patent Application No. 11-219975

  By the way, in the refrigerator, a refrigerator having a freezer compartment in the upper part and a refrigerator compartment in the lower part is considered. In this refrigerator, the ice tray is installed in the upper part and the water supply tank is installed in the lower part. become. That is, the water supply needs to be raised from the lower water supply tank to the upper ice tray. When water must be supplied from the bottom to the top as described above, the above-described water supply configuration, that is, the configuration including the water supply receiver cannot supply water upward.

Here, as a possible water supply configuration, when the water supply channel connection port body is disposed at a position facing the water outlet opening rearward, and the water supply tank is slid back and set, the water outlet also supplies water. A configuration is conceived that connects to the connection port of the road.
However, in this case, since the connection operation force is also added to the slide operation of the water supply tank, the operation force is increased and the connection may be incomplete.

  The present invention has been made in view of the above circumstances, and an object thereof is to reliably connect the connection port body to the water outlet provided in the water supply tank in a configuration in which water is supplied to an ice tray provided above the water supply tank. It is possible to provide a refrigerator that can reduce the sliding operation force when the water supply tank is set.

The invention of claim 1 is a refrigerator in which water is supplied to an ice tray provided inside the refrigerator body.
A water supply tank that is set so as to be removable by a front / rear slide operation on a tank mounting portion provided below the ice tray in the refrigerator main body,
Provided inside this water supply tank, one end is connected to a pump, and the other end is provided with a discharge pipe provided with a water outlet for discharging water from the upper part of the water supply tank to the outside,
A water supply passage that has a connection port detachably connected to the water outlet at one end, and supplies water to the ice tray;
The connection port body of the water supply passage is held at a position almost directly above the water outlet of the water supply tank in the set position so as to be vertically operable, and the connection port body is separated from the water outlet based on the operation. An operating means to be connected.

  According to this, the connection port body can be connected to the water outlet of the water supply tank by the operating means separately from the operation of setting the water supply tank. Therefore, in the configuration in which water is supplied to the ice tray provided above the water supply tank, the connection port body can be reliably connected to the water outlet provided in the water supply tank, and the sliding operation force when the water supply tank is set can be reduced. .

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 2 shows a part of the refrigerator, and the refrigerator door is omitted. In FIG. 2, the refrigerator main body 1 is formed with a freezer compartment 2 and a refrigerator compartment 3 by partition walls 1 a, 1 b and the like. In this case, the refrigerator compartment 2 is formed above the refrigerator compartment 3. A cooler chamber 4 is formed at the back of the freezer compartment 2, and a cooler 5 and a defrost heater 6 are disposed in the cooler chamber 4. The cooler chamber 4 is supplied with wind from a fan (not shown). The wind is cooled by the cooler 5 and the cold air is appropriately supplied to the freezer compartment 2 and the refrigerator compartment 3. It has become.

The freezer compartment 2 is provided with an automatic ice making device 7 as an ice making device, which is composed of an ice making tray 8 and an ice removing mechanism 9. When it is detected that the ice making water is frozen in the ice tray 8, the ice removing mechanism 9 turns the ice tray 8 upside down while twisting the ice tray 8. It is stored in an installed ice storage container 10.
The ice tray 8 is supplied with water by a water supply device 11. Hereinafter, this water supply apparatus 11 and the structure relevant to this are demonstrated. In the refrigerator compartment 3, a water storage tank 12 is set on the upper surface of the partition wall 1b serving as a tank mounting portion.

The water storage tank 12 is composed of a tank body 13 having an upper surface open and a lid 14 that is detachable and watertightly closed. As shown in FIG. 1, the lid 14 is provided with a water supply port 14a. The water supply port 14a is provided with an opening / closing lid 15. Further, a water outlet 14b is formed in the lid 14 so as to open in the vertical direction.
A pump 16 is disposed in the lower rear portion of the water storage tank 12 and is configured to have an impeller inside the pump body 16a. The pump 16 absorbs water from a water suction port (not shown) and discharges it from an upward discharge port 16b. The discharge port 16b is located almost directly below the water outlet 14b. The discharge port 16b is connected to the water outlet 14b through a straight discharge pipe 17. That is, the discharge pipe 17 has one end connected to the pump 16 and the other end provided with a water outlet 14b.

A magnet (not shown) is attached to the rear portion of the impeller of the pump 16, and the impeller is driven from the outside of the water storage tank 12 by a pump drive device 18 that is a drive source. The pump drive device 18 is composed of a motor 19 and a magnet plate (drive plate) 19a attached to the rotating shaft thereof.
This pump drive device 18 is attached to a stopper plate 1d that is formed so as to rise substantially perpendicularly to the rear portion of the upper surface plate 1c of the partition wall 1a. In this case, in the set state of the water storage tank 12, The magnet plate 19a is opposed to the magnet of the impeller through the mounting plate portion 1d and is in a magnetic coupling relationship.

Further, the bottom 13a of the tank body 13 of the water storage tank 12 is formed with a concave portion 13b that is concave when viewed from the outside, while the partition wall 1a is formed with a convex portion 1e that is convex upward. The concave portion 13b of the water storage tank 12 and the convex portion 1e of the partition wall 1a constitute a positioning means 20.
The water supply passage 21 is provided with a connection port body 22 at a lower end portion as one end portion, and an intermediate portion passes through the partition wall 1b and an upper end portion as the other end portion faces the upper surface of the ice tray 8. The water supply passage 21 is configured by appropriately connecting a plurality of pipes. And the bellows part 21a is formed in the lower end part, and the connection port body 22 part becomes a structure which can be displaced up and down.

In the connection port body 22, an inverted conical first flange 23 is formed at the upper part of the outer periphery, and a circular plate-like second flange 24 is formed at the lower part. A substantially cylindrical packing 25 is mounted on the outer periphery of the lower portion of the second flange 24.
The connection port body 22 is moved up and down by an operation device 26 as an operation means and is connected to and separated from the water outlet 14b. When the water storage tank 12 is set, the user operates the operation device 26. It is connected and separated when the water storage tank 12 is taken out.

  The operating device 26 is attached to the partition wall 1a, and is configured by arranging an operating lever 28 that is manually operated by the device case 27 so as to be movable up and down. The operation lever 28 has a knob 28 a protruding from the long hole 27 a of the device case 27 at the front end. Further, the rear side of the operation lever 28 is bent upward, and an upper end portion thereof is provided with an operation piece portion 28b protruding substantially horizontally from the notch portion 27b of the device case 27.

  A fitting hole 28c is formed in the operation piece 28b, and a part of the fitting hole 28c is opened at the end of the operation piece 28b that is a lever end (indicated by reference numeral 28e). Yes. The fitting hole 28 c is fitted to the outer periphery between the flanges 23 and 24 of the connection port body 22 through the opening 28 e and is smaller in diameter than the flanges 23 and 24. The connection port body 22 is attached / detached through the opening 28e.

  Now, the operation of the above configuration will be described. First, a case where the water storage tank 12 is set on the partition wall 1a will be described. In this case, by operating the knob 28a of the operating device 26 upward, the connection port body 22 is moved to the upper position as shown in FIG. Thereafter, the water storage tank 12 is set by sliding the partition wall 1a to the back. In this case, the bottom rear portion of the water storage tank 12 gets over the convex portion 1e, the convex portion and the concave portion 13b of the water storage tank 12 are fitted, and the rear plate portion of the water storage tank 12 contacts the mounting plate portion 1d. . As a result, the impeller of the pump 16 and the magnet plate 19a of the motor 19 are magnetically coupled.

At this time, the water outlet 14b of the water storage tank 12 faces the connection port body 22 in the vertical direction as shown in FIG. Thereafter, when the user operates the knob 28a downward, the connection port body 22 is fitted and connected to the water outlet 14b as shown in FIG.
Next, the water supply operation will be described. In the automatic ice making operation, when the motor 19 is driven to supply ice making water to the ice tray 8, the impeller of the pump 16 is driven to rotate, and the water in the water supply tank 12 is sucked from a water inlet (not shown) and discharged. It is discharged from the outlet and supplied to the ice tray 8 through the discharge pipe 17, the water outlet 14 b, the connection port body 22, and the water supply passage 21. An appropriate amount of water is supplied into the ice tray 8 by driving the pump 16 for a predetermined time. Thereafter, when ice making is completed in the freezer compartment 2, the ice removing mechanism 9 performs the ice removing operation, and the above-described water supply operation is performed again.

  According to such a present Example, the connection port body 22 can be connected to the water outlet 14b of the water supply tank 12 by the operation device 26 separately from the operation of setting the water supply tank 12. Therefore, in the configuration in which water is supplied to the ice tray 8 provided above the water supply tank 12, the connection port body 22 can be reliably connected to the water outlet 14b provided in the water supply tank 12, and the water supply tank 12 can be set. The slide operation force can be reduced.

Further, since the positioning means 20 for positioning the water supply tank 12 at the time of setting the water supply tank 12 is provided, the water outlet 14b of the water supply tank 12 and the connection port body 22 can be positioned, and the connection is further ensured.
Further, the connection port body 22 has an inverted conical first flange 23 at the upper part of the outer periphery and a second flange 24 at the lower part, and the operating device 26 has a lever 28 that is manually operated. A fitting hole portion 28c is provided at the tip of the lever 28 to be fitted to the outer peripheral portion between the first flange 23 and the second flange 24 in the connection port body 22, In addition, a part of the fitting hole 28c is configured to open at the end of the lever 28 in order to attach and detach the lever to / from the connection port body 22, so that the fitting hole 28c is reversed when the lever 28 is raised. The lever 28 can be stopped by fitting with the conical first flange 23, and the lever 28 can be easily removed from the connection port 22.

Further, since the water discharged from the pump 16 is straightly passed through the upper outlet 14b, the water supply resistance is small and the pump 16 can be used even if the pumping capacity is low, and the pump 16 can be downsized. be able to.
Note that the operation device 26 is not limited to the above embodiment as the operation means, and the positioning means is not limited to the above embodiment. In addition, the embodiment of the present invention can be variously changed.

Vertical side view of the rear part of the water tank Vertical side view of the main part of the refrigerator Longitudinal side view showing the facing state of the connection port and the water outlet Perspective view of operating device Longitudinal side view of the connection port part when the water tank is not set

Explanation of symbols

In the drawings, 1 is a refrigerator body, 1a is a partition wall part (tank mounting part), 7 is an automatic ice making device (ice making apparatus), 8 is an ice tray, 9 is an ice removing mechanism, 12 is a water storage tank, and 13 is a tank body. , 14 is a lid, 14b is a water outlet, 16 is a pump, 16b is a discharge port, 17 is a discharge pipe, 18 is a pump drive device, 19 is a motor, 19a is a magnet plate, 20 is positioning means, 21 is a water supply passage, 22 Is a connection port body, 23 is a first flange, 24 is a second flange, 26 is an operating device (operating means), 28 is an operating lever, 28b is an operating piece, and 28c is a fitting hole.

Claims (3)

In a refrigerator designed to feed water to an ice tray provided inside the refrigerator body,
A water supply tank that is set so as to be removable by a front / rear slide operation on a tank mounting portion provided below the ice tray in the refrigerator main body,
Provided inside this water supply tank, one end is connected to a pump, and the other end is provided with a discharge pipe provided with a water outlet for discharging water from the upper part of the water supply tank to the outside,
A water supply passage that has a connection port detachably connected to the water outlet at one end, and supplies water to the ice tray;
The connection port body of the water supply passage is held at a position almost directly above the water outlet of the water supply tank in the set position so as to be vertically operable, and the connection port body is separated from the water outlet based on the operation. A refrigerator comprising an operating means for connection.   2. The refrigerator according to claim 1, further comprising positioning means for positioning the water tank when the water tank is set. The connection port body has a first flange having an inverted conical shape at the upper part of the outer periphery and a second flange at the lower part.
The operation means is configured to have a manually operated lever, and at the tip of this lever, a fitting hole that fits into an outer peripheral portion between the first flange and the second flange in the connection port body. 2. The refrigerator according to claim 1, wherein a portion is provided, and a part of the fitting hole is opened at a lever end to attach and detach the lever to and from the connection port body.

Images