JP3868725B2 - Refrigerator door - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve visibility, appearance and assembling workability by restraining a positional deviation between the indicating window of an operation panel and a liquid crystal indicating device as well as the deformation of respective members, in a refrigerator equipped with an operating unit and the indicating unit of the liquid crystal indicating device on the front surface of the door. SOLUTION: The operating panel 20 equipped with operating buttons 22 and the indicating window 24 for the liquid crystal indicating device 26 is arranged on the front surface of a door, a print substrate 32 is arranged on a receiving recess 28 on the front surface of the door provided at the back of the operating panel, the liquid crystal indicating device 26 is attached to the print substrate to provide switches coping with the operating buttons 22 on the periphery of the same, retaining units 46, 48 for retaining the side surface of the liquid crystal indicating device 26 under a condition that the indicating surface 26a of the liquid crystal indicating device is positioned with the indicating window 24 of the operating panel, and the operating panel 20 is attached to the front surface of the receiving recess 28 under a condition that the liquid crystal indicating device 26 is retained by the retaining units.

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a refrigerator door.
[0002]
[Prior art]
Some recent refrigerators are provided with an operation unit for controlling the operation thereof and a display unit of a liquid crystal display device for displaying the state of the interior in the front of the door.
[0003]
Conventionally, the operation unit and the display unit are often installed in the vicinity of the outer peripheral portion of the door. In this case, the door cap that forms the upper and lower sides or sides of the door is provided with a storage recess that opens to the outside, and a printed circuit board on which the liquid crystal display device is mounted is inserted into the storage recess from the vertical direction or the side. In general, an operation panel including an operation button and a display window corresponding to the liquid crystal display device is covered from the front side.
[0004]
In some cases, such an operation panel is disposed in the center of the front of the door. In this case, it is general that a printed circuit board on which a liquid crystal display device is mounted is installed from the front side of the door in a storage recess provided in the front of the door, and then an operation panel is put on the front of the storage recess.
[0005]
[Problems to be solved by the invention]
In the above conventional structure, the printed circuit board on which the liquid crystal display device is provided and the operation panel are separately incorporated in the housing recess, so that it is difficult to position the liquid crystal display device with respect to the operation panel. A misalignment is likely to occur between the transparent display window and the display surface of the liquid crystal display device. When such positional deviation occurs, there is a problem that the visibility of the liquid crystal display device deteriorates and the appearance deteriorates.
[0006]
In addition, since the operation panel and the liquid crystal display device and the printed circuit board are divided, there is a problem in that each member, particularly the operation panel, is likely to be deformed such as warpage, and the visibility of the liquid crystal display device is deteriorated.
[0007]
Further, since the printed circuit board and the operation panel are individually incorporated in the door, the assembling work of these members is required a plurality of times on the main line of the door assembly line, so that there is a problem that workability is poor.
[0008]
The present invention has been made in view of the above points, and suppresses positional displacement between the display window of the operation panel and the display surface of the liquid crystal display device and suppresses deformation of each member, and is excellent in visibility and appearance. Furthermore, it aims at providing the refrigerator door which is excellent in assembly workability | operativity.
[0009]
[Means for Solving the Problems]
The refrigerator door of the present invention is a door formed by filling and foaming a heat insulating material between a door front plate and a door inner plate, and is provided with an operation button and a display window for a liquid crystal display device on the front of the door. A panel is arranged, and a printed circuit board is arranged in a storage recess in front of the door provided behind the operation panel. A liquid crystal display device is mounted on the printed circuit board, and switches corresponding to operation buttons are provided around the printed circuit board. A locking portion for locking the side surface of the liquid crystal display device in a state where the display surface of the liquid crystal display device and the display window of the operation panel are aligned is provided on the back surface of the operation panel; The operation panel is attached to the front surface of the storage recess while holding the liquid crystal display device, and a rib that extends along the upper edge and protrudes into the storage recess is provided on the upper edge of the back of the operation panel. Rectangular on the door front plate A storage box for forming the storage recess from the back side is provided in the opening, and a terminal portion for drawing a connector of a wiring connected to the terminal of the printed circuit board into the storage recess, The storage box is provided so as to protrude laterally at the lower corner of the storage box, and the lower side of the terminal portion is formed to protrude downward from the lower side of the storage box body.
[0010]
With this refrigerator door, the printed circuit board can be assembled behind the operation panel in a state where the display window of the operation panel and the display surface of the liquid crystal display device are aligned by the locking portion provided on the operation panel. Visibility can be improved by eliminating the positional deviation between the display window and the liquid crystal display device. Further, since the printed circuit board is assembled to the operation panel in this manner and incorporated into the door, the productivity is superior to the case where each member is individually incorporated into the door. Further, since the operation panel and the liquid crystal display device mounted on the printed circuit board are fixed by the locking portion, deformation of each member, particularly the operation panel, such as warping and twisting, can be suppressed.
[0011]
As the liquid crystal display device, a reflective plate, a light guide plate, and a liquid crystal cell are laminated on the printed circuit board, an LED element serving as a light source of the liquid crystal cell is disposed on one side surface of the light guide plate, and the LED What covers an element with a shielding board is suitable.
[0012]
In the refrigerator door of this invention, the said LED element is arrange | positioned on the said reflecting plate, and the convex part which prevents the raising of the said LED element from the said reflecting plate may be provided in the said shielding board.
[0013]
As a result, display color unevenness and light leakage caused by LED element floating can be suppressed, and the visibility of the liquid crystal display device can be improved.
[0014]
In the refrigerator door of this invention, the said LED element is arrange | positioned on the said reflecting plate, and the rib which positions this LED element may be provided in this reflecting plate.
[0015]
Thereby, the position variation of an LED element can be suppressed and the further visibility improvement can be aimed at.
[0016]
In the refrigerator door of this invention, the frame part which covers the display surface peripheral part of the said liquid crystal cell may be integrally provided in the said shielding board.
[0017]
Thus, by covering the periphery of the display surface of the liquid crystal cell with the frame portion integrally provided on the shielding plate, the light of the LED element is prevented from leaking outside from the display window of the operation panel, thereby improving the visibility. be able to.
[0018]
In the refrigerator door of the present invention, the door is formed by filling and foaming a heat insulating material between the door front plate and the door inner plate, and an opening is provided in the door front plate, and the storage recess is formed in the opening. There is a case in which a storage box is disposed, and a flexible sheet for sealing the heat insulating material is placed on the back of the storage box.
[0019]
By covering the back of the storage box with a flexible sheet in this way, the heat insulating material and the storage box can be separated to suppress the distortion of the door front plate, reducing the gap between the door front plate and the operation panel. Thus, the appearance can be improved.
[0020]
In the refrigerator door of the present invention, a rib that extends along the upper edge and protrudes into the housing recess is provided on the upper edge portion of the back surface of the operation panel, and the rib has one end on the other side in the longitudinal direction. There is a case where it is provided so as to be inclined with respect to the end side.
[0021]
By providing such an inclined rib, even if liquid such as water enters the storage recess from the upper edge of the operation panel, the liquid can flow sideways along the inclination of the rib. It is possible to prevent the substrate from being touched.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0023]
FIG. 1 is an exploded perspective view of a display operation unit of a refrigerator door 10 according to an embodiment of the present invention, and FIG. 2 is an exploded rear perspective view of the display operation unit. This refrigerator door 10 is a refrigerator compartment door in the refrigerator shown in FIG. The refrigerator is a refrigerator that includes a refrigerator compartment in the upper stage and a vegetable compartment and a freezer compartment in the middle and lower stages, and a display operation unit is provided at the front center of the refrigerator compartment door 10 that opens and closes the upper refrigerator compartment. It has been.
[0024]
The refrigerator compartment door 10 includes a metal door front plate 12 whose left and right sides are bent backward in a U-shaped cross section, a synthetic resin door inner plate 14 that forms the inner side of the door, and a door. This is a heat insulating door formed by filling and foaming a heat insulating material 16 made of hard urethane into a foaming space formed by upper and lower synthetic resin door caps 18 and 19 inserted in the upper and lower sides of the front member 12.
[0025]
As shown in FIG. 3, an operation panel 20 having a transparent display window 24 for the liquid crystal display device 26 and a plurality of operation buttons 22 around it is slightly below the central portion in the width direction on the front of the door. It is arranged. As shown in FIG. 1, the operation panel 20 is attached so as to close the front surface of the storage recess 28 provided in the front of the door. The storage recess 28 is formed inside the storage box 30 by providing a rectangular opening 13 in the door front plate 12 and attaching the storage box 30 to the opening 13 from the back side.
[0026]
A printed circuit board 32 is disposed in the storage recess 28. A liquid crystal display device 26 is mounted on the printed circuit board 32 at the center thereof, and a plurality of switches (not shown) corresponding to the operation buttons 22 are provided around the liquid crystal display device 26. A button member 34 is arranged between the operation button 22 and the switch. When the operation button 22 on the operation panel 20 is pressed by the button member 34, the corresponding switch on the printed circuit board 32 can be operated. It has become.
[0027]
The liquid crystal display device 26 is configured by sequentially stacking a reflection plate 36, a light guide plate 38, and a liquid crystal cell 40 on a printed circuit board 32. As shown in FIG. 6, the reflection plate 36 fixed to the front surface of the printed circuit board 32 includes a wall 37 so as to cover the periphery of the light guide plate 38 and the liquid crystal cell 40 and accommodate both members. In addition, on the left side surface of the liquid crystal cell 40, a large number of output terminals 41 for connecting with wiring on the printed circuit board 32 are provided in the vertical direction.
[0028]
On the upper surface, which is one side surface of the light guide plate 38, a plurality of light emitting diode elements (hereinafter referred to as LED elements) 42 that serve as the light source of the liquid crystal cell 40 are provided side by side. As shown in FIG. 4, each LED element 42 includes a base portion 42a from which a leg for electrical connection protrudes, and a light emitting portion 42b provided on the base portion 42a, and is directed from the base portion 42a to the light emitting portion 42b. The direction is the irradiation direction. And each LED element 42 is arrange | positioned so that this irradiation direction and the thickness direction of the light-guide plate 38 may orthogonally cross.
[0029]
The front of the LED element 42 is covered with a shielding plate 44. As shown in FIGS. 1 and 2, the shielding plate 44 is provided integrally with a frame portion 54 that covers the peripheral portion of the liquid crystal cell 40, and houses the light guide plate 38 and the liquid crystal cell 40 between the reflection plate 36. Thus, it is attached to the wall 37 of the reflecting plate 36 by nail fitting.
[0030]
On the rear surface of the operation panel 20, a locking portion is provided for locking the side surface of the liquid crystal display device 26 in a state where the display surface 26 a of the liquid crystal display device 26 and the display window 24 of the operation panel 20 are aligned. Yes.
[0031]
As shown in FIGS. 1 and 2, the locking portion includes a plurality of fixing claws 46 and positioning ribs 48. The fixing claw 46 is a claw-like projection that hooks the side surface of the liquid crystal display device 26, that is, the frame portion. . The positioning rib 48 contacts the side surface of the liquid crystal display device 26 to align the display surface 26a and the display window 24. In this embodiment, each positioning rib 48 is in contact with the left and right side surfaces and the lower surface of the device 26. One is provided on the surface.
[0032]
Specifically, the locking portion is configured to lock the frame portion 54 of the shielding plate 44 as shown in FIG. The side surface of the liquid crystal display device 26, that is, a frame portion may be used. For example, the wall 37 of the reflection plate 36 may be locked instead of the shielding plate 44.
[0033]
At the time of assembly, as shown in FIG. 1, the liquid crystal display device 26 is assembled on the front surface of the printed circuit board 32, the button member 34 is mounted, and the operation panel 20 is attached from the front. At that time, the operation panel 20 is fixed to the liquid crystal display device 26 in a state where the display surface 26 a of the liquid crystal display device 26 and the display window 24 of the operation panel 20 are aligned by the fixing claw 46 and the positioning rib 48. . Then, as shown in FIG. 2, screws 64 are passed through the screw holes 62 provided on the back surface of the operation panel 20 from the back of the printed board 32 to be screwed.
[0034]
Next, the assembly of the operation panel 20 and the printed circuit board 32 is attached to the storage recess 28 in front of the door. At that time, the connector 29a of the wiring 29 drawn from the inside of the door 10 through the terminal portion 30a of the storage box 30 into the storage recess 28 is connected to a terminal (not shown) of the printed circuit board 32, and then the operation panel 20 The operation panel 20 is attached to the front surface of the storage recess 28 by engaging a plurality of engagement claws 21 provided on the peripheral edge with the corresponding engagement holes 31 provided on the opening peripheral edge of the storage recess 28.
[0035]
Since the operation panel 20 and the printed circuit board 32 are assembled in the door 10 in this manner, the productivity is superior to the case where each member is individually incorporated in the door. In addition, service replacement of the printed circuit board 32 and the like is easy.
[0036]
Further, the operation panel 20 and the printed circuit board 32 are assembled in a state where the display window 24 of the operation panel 20 and the display surface 26 a of the liquid crystal display device 26 are aligned by the locking portions 46 and 48 provided on the operation panel 20. Therefore, it is possible to improve the visibility by eliminating the positional deviation between the display window 24 and the liquid crystal display device 26.
[0037]
Further, the operation panel 20 generally tends to be warped and deformed such that the central portion bulges forward, but the operation panel 20 is attached to the side surface of the liquid crystal display device 26 by the locking portions 46 and 48 as described above. Such warping deformation is suppressed by holding and fixing. The warp deformation can be suppressed by screwing the operation panel 20 and the printed circuit board 32 at the center of both, but the liquid crystal display device 26 is provided at the center as in the present embodiment. If it is, it cannot be screwed at the center. Therefore, the above structure is particularly effective when the liquid crystal display device 26 is installed at the center.
[0038]
As shown in FIGS. 4 and 6, the LED element 42 is installed in a storage portion formed by the reflection plate 36, and the front thereof is covered with a shielding plate 44. As shown in FIGS. 2 and 4, the shielding plate 44 is provided with a convex portion 50 that prevents the LED element 42 from being lifted forward. The convex part 50 is formed in the inclined surface shape which protrudes gradually so that it may follow the shape of the LED element 42 gradually. The convex portion 50 suppresses display color unevenness and light leakage due to the floating of the LED element 42.
[0039]
Further, the convex portion 50 is formed so as to abut on and cover the end portion of the reflecting plate 36 protruding above the upper end of the liquid crystal cell 40 by the lower end portion thereof. Thereby, the light of the LED element 42 is reliably introduced into the light guide plate 38 to prevent light leakage, and the positional deviation of the light guide plate 38 is also suppressed.
[0040]
The LED element 42 is attached in a state of being positioned by a rib 52 provided on the reflector 36 (see FIGS. 4 and 6). The rib 52 is erected so as to support the LED elements 42 from both the left and right sides, and restricts the LED elements 42 from falling in the left-right direction and from being attached to the mounting position.
[0041]
As shown in FIG. 5, the frame portion 54 of the shielding plate 44 is formed so as to cover the peripheral portion of the display surface of the liquid crystal cell 40. Specifically, the inner peripheral edge 54 a of the frame portion 54 protrudes inward from the display area S on the surface of the liquid crystal cell 40 and covers the peripheral edge of the display area S. The display window 24 area T (transparent area) of the operation panel 20 is smaller than the display area S, and the inner peripheral edge 54a of the frame portion 54 is set so as to protrude inside the area T. Yes. In addition, the cross-sectional shape of the frame part 54 is formed in a taper shape so that it may become thin as the front-end | tip 54a.
[0042]
By configuring in this way, even if each component is displaced, the light from the LED element 42 is prevented from leaking from the outer periphery of the liquid crystal cell 40 to the outside through the display window 24 of the operation panel 20. be able to.
[0043]
As shown in FIG. 7, the back surface of the storage box 30 is covered with a flexible polyethylene sheet 56 that easily follows the shape of the storage box 30 in order to seal the heat insulating material 16. The sheet 56 is larger than the outer shape of the storage box 30 and is disposed so as to cover the periphery of the box 30.
[0044]
When the storage box 30 is arranged by cutting out the door front plate 12 as in the present embodiment, the thickness of the heat insulating material 16 is reduced at that portion, so the shrinkage rate after urethane foaming is not uniform, and the vicinity of the operation panel 20 The door front member 12 is likely to be distorted. Therefore, by covering the back surface of the storage box 30 in contact with the heat insulating material 16 with the polyethylene sheet 56 in this manner, the heat insulating material 16 and the storage box 30 can be separated and distortion of the door front plate 12 can be suppressed.
[0045]
As shown in FIG. 8, a rib 58 is provided on the rear surface of the operation panel 20 over the entire circumference at the periphery. The rib 58 functions as a basin for draining water that has entered the storage recess 28 from the door surface, and is provided so as to protrude into the storage recess 28. As shown in FIG. 4, the rib 58 is inclined so that the cross-sectional shape is inclined outward toward the tip, so that intruded water does not flow to the printed circuit board 32 side. The engaging claw 21 described above is provided at the tip of the rib 58.
[0046]
Of the ribs 58 provided on substantially the entire circumference of the operation panel 20, the rib 58a provided along the upper side of the operation panel 20 has one end side in the longitudinal direction (left end in FIG. 8) on the other end side (FIG. 8 is provided so as to be inclined downward with respect to the right end). As a result, the water that has entered does not accumulate in the ribs 58a on the upper side, but flows laterally along the inclination of the ribs 58a.
[0047]
Further, as shown in FIG. 4, a flange 60 protruding upward is provided at the tip of the rib 58 a so that water does not flow to the printed circuit board 32 side in combination with the above gradient.
[0048]
By providing the ribs 58 on the back of the operation panel 20 as described above, even if water is splashed on the door surface during cleaning or the like, even if water enters the storage recess 28 from the upper side of the operation panel 20, printing is possible. It is possible to prevent the substrate 32 from being splashed with water.
[0049]
【The invention's effect】
With the refrigerator door of the present invention, the printed circuit board can be assembled behind the operation panel in a state where the display window of the operation panel and the display surface of the liquid crystal display device are aligned by the locking portion provided on the operation panel. Therefore, it is possible to improve the visibility by eliminating the positional deviation between the display window and the liquid crystal display device. In addition, since the printed circuit board is assembled to the door in the state where the printed circuit board is assembled to the operation panel in this way, the productivity is superior to the case where each member is individually assembled to the door. Furthermore, since the operation panel is held and fixed to the liquid crystal display device on the printed circuit board by the locking portion, the warp deformation of the operation panel can be suppressed and the visibility and appearance can be improved.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of a display operation unit in a refrigerator door according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view in a rear view of a display operation unit of the refrigerator door.
FIG. 3 is a front perspective view of the refrigerator.
4 is a cross-sectional view of a display operation unit corresponding to line AA in FIG. 1;
5 is a cross-sectional view of a display operation unit corresponding to line BB in FIG.
FIG. 6 is a perspective view of a liquid crystal display device on a printed circuit board.
FIG. 7 is an enlarged rear perspective view of the main part of the door front plate.
FIG. 8 is a rear view of the operation panel.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Refrigerator door 12 ... Door front board 14 ... Door inner board 16 ... Heat insulating material 20 ... Operation panel 22 ... Operation button 24 ... Display window 26 ... Liquid crystal display device 28 ... Storage recessed part 30 ... ... Storage box 32 ... Printed circuit board 36 ... Reflector plate 38 ... Light guide plate 40 ... Liquid crystal cell 42 ... LED element 44 ... Shield plate 46 ... Fixing claw 48 ... Positioning rib 50 ... Convex projection Portion 52 ...... Reflection plate rib 56 …… Polyethylene sheet 58 …… Operation panel rib

Claims (1)

A door formed by filling and foaming a heat insulating material between a door front plate and a door inner plate,
An operation panel having operation buttons and a display window for a liquid crystal display device is arranged on the front of the door,
Arrange the printed circuit board in the storage recess in the front of the door provided behind the operation panel,
On this printed circuit board, a liquid crystal display device is attached, and a switch corresponding to the operation button is provided around it,
Provided on the back of the operation panel is a locking portion for locking the side surface of the liquid crystal display device in a state where the display surface of the liquid crystal display device and the display window of the operation panel are aligned,
The operation panel is attached to the front surface of the storage recess while the liquid crystal display device is held by the locking portion ,
A rib extending along the upper edge and projecting into the storage recess is provided on the upper edge of the back surface of the operation panel,
A rectangular opening is provided in the door front plate, a storage box for forming the storage recess is formed in the opening from the back side, and a connector for wiring connected to the terminal of the printed circuit board is drawn into the storage recess. The terminal portion is provided so as to protrude laterally at the lower corner portion of the storage box, and the lower side of the terminal portion is formed to project downward in a stepped manner with respect to the lower side of the storage box body. Refrigerator door.

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