JP6872846B2 - refrigerator - Google Patents

Description

Embodiments of the present invention relate to refrigerators.

Conventionally, some refrigerators disclosed in Patent Document 1 are provided with a display panel portion at an intermediate position of the front plate of the door.

In addition, in the steel plate Kannon door of the refrigerator, the door opening operation unit that detects the capacitance and opens and closes the door, and the operation panel unit for selecting the operation function of the refrigerator are the steel plate Kannon door. Some are located at the bottom.

JP 2013-57431

As disclosed in Patent Document 1, when the display panel is provided at the intermediate position of the front plate of the door, the front plate of the door is vertically long for fitting the display panel portion at the intermediate position. It is necessary to form a rectangular opening in the door. For this reason, the presence of the vertically long rectangular opening and the display panel in the door breaks the vertical continuity in the exterior design of the door, which is not very preferable in terms of the exterior design of the refrigerator.

If the door opening operation unit and the operation panel unit are located at the lower side of the steel plate Kannon door, the door opening operation unit and the operation panel unit are located at the steel plate Kannon door. Compared to the case where the door is located in the middle part of the steel plate, it is not necessary to provide an opening in the middle part of the steel plate face material in the steel plate Kannon door, so that the appearance design of the refrigerator is excellent.

However, the operation panel unit becomes large and occupies a large space in order to operate various functions and incorporate functions for displaying various display contents. In particular, the width of the operation panel portion in the vertical direction tends to increase.

Therefore, if the position where the door opening operation unit and the operation panel unit are arranged is the lower side portion (also referred to as the belt line) of the steel plate Kannon door, the lower side portion of the Kannon door is the door opening operation unit and the operation panel. Due to the existence of the part, there is a drawback that it is overemphasized in the appearance design. Therefore, there is a drawback that the presence of the door opening operation unit and the operation panel unit gives the impression that the refrigerator is divided into an upper region portion and a lower region portion in terms of appearance design.

The present invention has been made in view of the above, and an object of the present invention is to save space in the operation panel portion, and the lower side portion of the door is emphasized in the appearance design by the presence of the operation panel portion. The purpose is to provide a refrigerator that can prevent too much and improve the appearance design.

The refrigerator according to the embodiment of the present invention has a main body and a front plate made of steel plate, and has a door that closes the front opening of the main body, a door opening device that opens the door, and a door opening operation. The door opening operation unit that generates a signal for opening the door of the door opening device, the function selection unit for selecting the function of the main body by performing the function selection operation, and the function of the main body are provided. An operation panel unit having a display unit for lighting and displaying is provided, and the door opening operation unit and the operation panel unit are arranged on a lower side portion of the door, and the function selection of the operation panel unit is provided. The unit is arranged so as to overlap the front side of the display unit of the operation panel unit.

It is a front view which shows the whole of the refrigerator which concerns on embodiment of this invention. It is a cross-sectional view of the refrigerator shown in FIG. 1 in the vertical direction. It is a figure which shows the example of the electrical connection of a left door opening operation part, a right door opening operation part, an operation panel part, a door opening device, and a control part. FIG. 1 is a diagram showing an example of a vertical cross-sectional structure in the vicinity of the operation panel portion on the AA line of the left door. It is a front view which shows the preferable structural example of the operation panel part shown in FIG. It is an exploded perspective view which shows the operation panel part shown in FIG. 5 and the front cover member. It is an exploded perspective view of the operation panel part shown in FIG. FIG. 8A is a diagram showing the front surface of the function selection unit, and FIG. 8B is a diagram showing the rear surface of the function selection unit. It is a front view which shows the display part. It is a front view which shows the structural example of the right door opening operation part of the right-hand door, and a part of the front cover member. FIG. 11A is a diagram showing the circuit board of the right door opening operation unit and the front side of the base member, and FIG. 11B is a diagram showing the back surface side of the base member. It is a figure which shows the circuit board of the right door opening operation part. It is a perspective view seen from the back side which shows how the bundled wire is stored in the bundled wire accommodating part by assembling the circuit board and the base member. It is a perspective view which shows the example which the power-source line and the control line are wired to the right door opening operation part and the operation panel part.

Hereinafter, embodiments for carrying out the present invention (hereinafter referred to as embodiments) will be described with reference to the drawings.

<Overall structure of refrigerator 1>
FIG. 1 is a front view showing the entire refrigerator according to the embodiment of the present invention. FIG. 2 is a vertical sectional view of the refrigerator 1 shown in FIG.

The refrigerator 1 shown in FIGS. 1 and 2 has a main body 1A. The main body 1A of the refrigerator 1 has a left side surface portion 17, a right side surface portion 18, an upper surface portion 19, a bottom surface portion 15, and a back surface portion 16. The main body 1A has an outer box made of an outer side plate and an inner box made of an inner side plate. Since a heat insulating material is arranged between the outer box and the inner box, the main body 1A has heat insulating properties. A plurality of storage chambers are formed inside the main body 1A.

As illustrated in FIGS. 1 and 2, as storage chambers, a refrigerating chamber 2 and a vegetable compartment 3 are provided in order from the top, and an ice making chamber 4 and a small freezing chamber 5 are arranged side by side under the vegetable compartment 3. The main freezing chamber 6 is provided at the bottom.

On the front surface of the refrigerating chamber 2 shown in FIGS. 1 and 2, left and right doors 7 and 8 for opening and closing the front opening of the refrigerating chamber 2 are provided. The left and right doors 7 and 8 are double doors, and the left end of the left door 7 is rotatably attached by a hinge (not shown). Similarly, the right end of the right door 8 is rotatably attached by a hinge (not shown).

As shown in FIGS. 1 and 2, on the front surfaces of the vegetable compartment 3, the ice making chamber 4, the small freezing chamber 5, and the main freezing chamber 6, drawer-type doors 9, 10, 11, and which open and close each front opening are opened and closed. 12 is provided. The left and right doors 7 and 8 and the drawer type doors 9, 10, 11 and 12 have heat insulating properties by providing a heat insulating material inside.

As shown in FIGS. 1 and 2, the front surfaces (outer surfaces) of the left and right doors 7, 8 and the pull-out doors 9, 10, 11 and 12 are made of a metal front plate, preferably a steel plate. Front plates 7A, 8A, 9A, 10A, 11A, 12A are arranged.

Next, an example of the structure of the refrigerator 1, the vegetable compartment 3, the ice making chamber 4, the small freezing chamber 5, and the main freezing chamber 6 will be described with reference to FIG.

As shown in FIG. 2, a machine room 22 is provided at a position on the back surface of the main freezing room 6 of the main body 1A, and a compressor 23 and the like are arranged in the machine room 22.

As shown in FIG. 2, at the back position of the main body 1A, a storage chamber blower 30, a storage chamber cooler 31, and a ventilation duct 32 are arranged on the rear side of the vegetable compartment 3. Further, at the back position of the main body 1A, a freezing room blower 40, a freezing room cooler 41, and an air blower are located behind the ice making room (storage room) 4, the small freezing room (storage room) 5, and the main freezing room 6. The duct 42 is arranged. The storage chamber cooler 31 and the freezer compartment cooler 41 are cooled by the refrigerant supplied from the compressor 23.

In the vegetable compartment 3, upper and lower storage containers 3M and 3N are stored so that they can be taken in and out. In the small freezing chamber 5, a storage container 5M is stored so that it can be taken in and out. The upper and lower storage containers 6M and 6N are stored in the main freezing chamber 6 so that they can be taken in and out.

As shown in FIGS. 1 and 2, the door opening devices 51 and 52 are provided on, for example, the upper surface portion 19 of the main body 1A. Both the door opening devices 51 and 52 can use an actuator such as an electromagnetic solenoid. When the door opening device 51 is driven, the door 7 on the left side can be pushed to open the door 7. Similarly, when the door opening device 52 is driven, the door 8 on the right side can be pushed to open the door 8.

<Left door opening operation unit 61, right door opening operation unit 62, and operation panel unit 70>
As shown in FIG. 1, the left door opening operation unit 61 is arranged on the lower side portion 7P of the left door 7, and the right door opening operation unit 62 is arranged on the lower side portion 8P of the right door 8. Moreover, the operation panel portion 70 is arranged on the lower side portion 8P of the door 8 on the right side. The lower side portions 7P and 8P are lower side region portions which are also called belt lines along the X direction (horizontal direction) of the refrigerator 1. The width direction of the refrigerator 1 in the left-right direction is the X direction, the depth direction is the Y direction, and the vertical direction is the Z direction.

As shown in FIG. 1, the left door opening operation unit 61 is arranged at a position close to the inner end surface 7N of the left door 7, and the right door opening operation unit 62 is located near the inner end surface 8N of the right door 8. Have been placed. The right door opening operation unit 62 and the operation panel unit 70 are arranged side by side on the lower side portion 8P.

As a result, the left door opening operation unit 61, the right door opening operation unit 62, and the operation panel unit 70 are arranged in series along the X direction (horizontal direction) on the lower side portions 7P and 8P.

Conventionally, since the display panel portion is arranged at a position in the middle of the door, the presence of the display panel portion breaks the vertical continuity in the appearance design of the refrigerator door. On the other hand, in the embodiment of the present invention, as shown in FIG. 1, the operation panel unit 70 is arranged on the lower side portion 8P of the door 8 of the refrigerator 1, so that the door 8 is continuous up and down in the appearance design. Since the property can be maintained, the appearance design of the refrigerator 1 can be improved.

FIG. 3 is a diagram showing an example of electrical connection between the left door opening operation unit 61, the right door opening operation unit 62, the operation panel unit 70, the door opening devices 51 and 52, and the control unit 100.

As shown in FIG. 3, the left door opening operation unit 61 has a touch operation unit 61T. When the user's finger approaches or comes into contact with the touch operation unit 61T of the left door opening operation unit 61, the circuit board of the left door opening operation unit 61 detects a change in capacitance and the door opening device 51. The signal S1 for operating the above is generated in the control unit 100. As a result, the door opening device 51 operates according to the command of the control unit 100, and the left door 7 can be automatically pushed to open. The front side of the left door opening operation unit 61 is covered with a transparent or translucent front cover member 61G.

Similarly, the right door opening operation unit 62 has a touch operation unit 62T. When the user's finger approaches or comes into contact with the touch operation unit 62T of the right door opening operation unit 62, the circuit board of the right door opening operation unit 62 detects a change in capacitance and the door opening device 52. The signal S2 for operating the above is generated in the control unit 100. The door opening device 52 operates according to the command of the control unit 100, and the door 8 on the right side can be automatically pushed to open.

The operation panel unit 70 shown in FIG. 3 has a function selection unit 80 and a display unit 110. The function selection unit 80 detects a change in capacitance when the user's finger approaches or touches, and performs functions of the main body 1A of the refrigerator 1, for example, a function related to refrigeration, a function related to freezing, and the like. It can be selected as appropriate. The display unit 110 can display various display items such as functions related to the main body 1A, for example, functions related to refrigeration and functions related to freezing, by turning on the lights. The front side of the right door opening operation unit 62 and the operation panel unit 70 is covered with a transparent or translucent front cover member 55.

FIG. 4 is a diagram showing an example of a vertical cross-sectional structure in the vicinity of the operation panel portion 70 on the AA line of the left door 8 in FIG. FIG. 4 shows the front plate 8A of the left door 8, the front cover member 55, and the operation panel portion 70.

As shown in FIG. 4, the operation panel portion 70 is arranged on the lower side portion 8P of the door 8 as described above. The front cover member 55 is a long, substantially rectangular plate-shaped member made of a transparent or translucent plastic material. The front cover member 55 is transparent, or more preferably colored so as to be translucent according to the coating color of the steel plate front plate 8A, and is, for example, white or gold.

As shown in FIG. 4, the front cover member 55 is arranged on the lower side portion 8P of the door 8 along the X direction (horizontal direction). The front cover member 55 covers the function selection unit 80 of the operation panel unit 70 and the front side of the display unit 110. The function selection unit 80 of the operation panel unit 70 is arranged so as to overlap the display unit 110 of the operation panel unit 70 on the front side. That is, the function selection unit 80 is arranged on the rear side of the front cover member 55, and the display unit 110 is arranged on the rear side of the function selection unit 80. As will be described later, the outer shape of the function selection unit 80 is formed so as to avoid the lighting display so as not to interfere with the lighting display on the display unit 110.

When the user brings his / her finger closer to the touch operation unit described later after the function selection unit 80, the touch operation unit detects the change in capacitance and functions of the main body 1A of the refrigerator 1, for example, a function related to refrigeration. , Functions related to freezing, etc. can be appropriately selected via the front cover member 55. In addition, the user can visually confirm various display items such as functions related to refrigeration and functions related to freezing, which are lit and displayed on the display unit 110, through the front cover member 55. It has become.

<Operation panel 70>
FIG. 5 is a front view showing a preferable structural example of the operation panel unit 70 shown in FIG. FIG. 6 is an exploded perspective view showing the operation panel portion 70 shown in FIG. 5 and the front cover member 55. FIG. 7 is an exploded perspective view of the operation panel unit 70 shown in FIG.

As shown in FIGS. 6 and 7, the operation panel unit 70 has a function selection unit 80 and a display unit 110, and further has a shielding plate 90 arranged between the function selection unit 80 and the display unit 110.

<Function selection unit 80 of the operation panel unit 70>
First, the function selection unit 80 will be described with reference to FIGS. 5 to 8.

As shown in FIGS. 6 and 7, the function selection unit 80 is a rectangular circuit board, and the front surface 80M of the function selection unit 80 has a plurality of touch operation units, for example, five touch operation units 81 to 85. ..

FIG. 8A shows the front surface 80M of the function selection unit 80, and FIG. 8B shows the rear surface 80N of the function selection unit 80.

As shown in FIG. 8, the touch operation units 81 to 85 are connected to the electrical connection member 86 via the wirings 81A to 85A, respectively. The electric connection member 86 is arranged at a substantially central position of the rear surface 80N of the function selection unit 80, and the electric connection member 86 is arranged at a position between the touch operation units 82 and 83. Protruding portions 80T and 80S are formed at positions corresponding to the electrical connection member 86 of the function selection unit 80 in which the electrical connection member 86 is arranged.

As shown in FIG. 8B, the function selection unit 80 is formed so as to project in the vertical direction (Z direction) so that the projecting portions 80T and 80S are formed. The rectangular mounting area SS of the rear surface 80N is an area surrounded by the protruding portion 80T and the protruding portion 80S.

When the electrical connection member 86 is arranged in the mounting area SS of the rear surface 80N, the rectangular mounting area SS functions the electrical connection member 86 even if the size of the electrical connection member 86 is large or small due to manufacturing reasons. It can be securely attached so as not to protrude from the selection portion 80. As a result, it is possible to prevent a manufacturing defect in which the electrical connection member 86 protrudes from the function selection unit 80 and is attached at the time of manufacturing.

Here, an example of the setting function relating to the refrigerator 1 of the touch operation units 81 to 85 shown in FIG. 8A will be described.

The touch operation unit 81 can change and input the capacity of the refrigerating function from "small to large" each time the user touches it. The touch operation unit 82 can change and input the capacity of the freezing function from "small to large" each time the user touches it.

Further, the touch operation unit 83 can select and input the type of the freezing function each time the user touches it. The touch operation unit 84 can input the "ice making mode" by the user touching it. When the "one-shot ice making mode" is input, ice making can be performed in the ice making chamber 4 shown in FIG. 1 in, for example, about 50 minutes at the fastest. The touch operation unit 85 can input the "power saving mode" by the user touching it.

<Display unit 110 of operation panel unit 70>
Next, the display unit 110 of the operation panel unit 70 will be described with reference to FIGS. 5 to 7 and 9.

FIG. 9 is a front view showing the display unit 110. As shown in FIG. 9, the display unit 110 is a substantially rectangular plastic plate member. The vertical and horizontal dimensions of the display unit 110 are considerably larger than the vertical and horizontal dimensions of the function selection unit 80 described above.

As shown in FIG. 9, the display unit 110 includes LEDs (light emitting diodes) L1 to L7, LEDs L11 to L31, and electrical connection members 77 and 79 as a plurality of light emitting elements. As shown in FIG. 5, LEDs L1 to L7 are arranged corresponding to the positions of the touch operation units 81 and 82 of the function selection unit 80, and LEDs L11 to L31 correspond to the positions of the touch operation units 83 to 85. Is arranged.

The electrical connection members 77 and 79 shown in FIG. 9 are both electrical connectors. The electrical connection member 77 is arranged in the recess 78 at the left end of the display unit 110. The electrical connection member 77 is electrically connected to the LEDs L1 to L7 and the LEDs L11 to L31 via a wiring circuit on the display unit 110. The LEDs L1 to L7 and the LEDs L11 to L31 are selected and lit in response to a display command relating to the function of the refrigerator 1 by a lighting command from the control unit 100 shown in FIG. 3 via the electrical connection member 77.

Further, as shown in FIG. 9, the relay electrical connection member 79 is arranged near the region between the LEDL7 and the LEDL23. The electrical connection member 79 is used to electrically connect the electrical connection member 77 on the display unit 110 side and the electrical connection member 86 side of the function selection unit 80. The electrical connection member 79 is electrically connected to the electrical connection member 77 by using a relay bundle wire 75.

<Shielding plate 90 of operation panel 70>
Next, the shielding plate 90 of the operation panel unit 70 will be described with reference to FIGS. 5 to 7.

As shown in FIGS. 5 and 6, the shielding plate 90 is made of plastic and has a plurality of light guide holes H1 to H7 and a plurality of light guide holes H11 to H24. These light guide holes are through holes provided to guide the light generated by each LED toward the front cover member 55 side. The light guide holes H1 to H7 are formed corresponding to the LEDs L1 to L7.

As shown in FIG. 5, the light guide hole portion H11 corresponds to LEDs L11 and L12, the light guide hole portion H12 corresponds to LEDs L13 and L14, and the light guide hole portion H13 corresponds to LEDs L15 and L16. .. The light guide hole portion H14 corresponds to LEDL17 and L18, the light guide hole portion H15 corresponds to LEDL19, and the light guide hole portion H16 corresponds to LEDL20 and L21.

The light guide hole portion H17 corresponds to LEDL22, the light guide hole portion H18 corresponds to LEDL23 and L24, and the light guide hole portion H19 corresponds to LEDL25. The light guide hole portion H20 does not correspond to the LED, the light guide hole portion H21 corresponds to the LEDs L26 and L27, and the light guide hole portion H22 does not correspond to the LED. The light guide hole portion H23 corresponds to LEDs L28 and L29, and the light guide hole portion H24 corresponds to LEDs L30 and L31.

For example, when the user touches the touch operation unit 81 shown in FIG. 5 with a finger to change the refrigerating function capacity from "small to large", the LEDL6 lights up and the refrigerating function capacity is changed. "Small to large" can be displayed by sequentially lighting LEDs L1 to L5.

Each time the user touches the touch operation unit 82 shown in FIG. 5 with a finger, when the capacity of the freezing function is changed from "small to large" and input, the LEDL7 lights up and the capacity of the freezing function is changed to "small". "From large" can be displayed by sequentially lighting LEDs L1 to L5.

Each time the user touches the touch operation unit 83 shown in FIG. 5 with a finger, the type of the freezing function can be changed, and the LED corresponding to this type of freezing is selected and lit from the LEDs L11 to L31. , Display the type of freezing function.

When the user touches the touch operation unit 84 shown in FIG. 5 with a finger, the LED corresponding to the "one-shot ice making mode" is selected from the LEDs L11 to L31 and lights up, and the "one-shot ice making mode" is turned on. Is displayed. Then, when the user touches the touch operation unit 85 shown in FIG. 5 with a finger, the LED corresponding to the "power saving mode" is selected from the LEDs L11 to L31 and turned on, and the "power saving mode" is set. Is displayed.

Further, as shown in FIGS. 5 and 6, the shielding plate 90 has electrode terminals D1 to D5. The electrode terminals D1 to D5 are arranged at positions corresponding to the touch operation units 81 to 85 of the function selection unit 80. The electrode terminals D1 to D5 are formed in the lower region portion G2. The lower region portion G2 is located below the upper region portion G1 unlike the upper region portion G1 in which the light guide hole portions H1 to H5 and the light guide hole portions H11 to H24 are formed.

The vertical and horizontal sizes of the upper region portion G1 are larger than the vertical and horizontal sizes of the lower region portion G2. The function selection unit 80 covers the lower region portion G2. The vertical and horizontal sizes of the lower region portion G2 are substantially the same as the vertical and horizontal sizes of the function selection portion 80.

As shown in FIGS. 6 and 7, the shielding plate 90 has a rectangular opening 99 between the electrode terminals D2 and D3. By assembling the display unit 110 and the function selection unit 80 in an overlapping manner via the shielding plate 90, the electrical connection member 79 of the display unit 110 is connected to the electrical connection member 86 of the function selection unit 80 through the opening 99. It is designed to be electrically connected. As a result, the electrical connection member 79 of the display unit 110 and the function selection unit 80 are electrically connected.

By the way, as shown in FIGS. 6, 7 and 8, the function selection unit 80 has an upper edge portion 80W. The upper edge portion 80W is a portion other than the protruding portion 80T, and is a portion formed so as to be lowered in the Z direction. Since the upper edge portion 80W is formed so as to lower in the downward direction in the Z direction, the function selection unit 80 is the position of the arrangement of the LEDs L1 to L7 and L11 to L31 of the display unit 110 of the operation panel unit 70. Is formed to avoid.

That is, the upper edge portion 80W of the function selection unit 80 avoids the arrangement positions of the LEDs L1 to L7 and L11 to L31 of the display unit 110 and the arrangement positions of the plurality of light guide hole portions H1 to H7 and H11 to H24. In this way, it is formed so as to be lowered downward in the Z direction. As a result, the upper edge portion 80W shown in FIG. 8 is formed so as to be lowered in the downward direction in the Z direction, so that the occupied space (occupied area) of the function selection unit 80 can be made as small as possible.

Therefore, since the occupied space (occupied area) of the function selection unit 80 is made as small as possible, the displayable area of the display unit 110 can be increased in the limited space occupied by the operation panel unit 70. While increasing the displayable area of the display unit 110, the total value of the upper area portion G1 and the lower region portion G2, which is the height dimension of the operation panel unit 70 shown in FIG. 5 in the Z direction (width of the operation panel in the Z direction). Can be suppressed, and the space occupied by the operation panel unit 70 can be reduced.

Therefore, by reducing the height dimension of the operation panel portion 70 in the vertical direction (Z direction) to save space in the operation panel portion 70, the lower side portion 8P of the door 8 is due to the presence of the operation panel portion 80. , It is possible to improve the appearance design of the refrigerator 1 by preventing it from being overemphasized in the appearance design.

<Right door opening operation unit 62>
Next, a structural example of the right door opening operation unit 62 of the right door 8 shown in FIGS. 1 and 3 will be described with reference to FIGS. 10 to 13.

The structure of the left door opening operation unit 61 of the left door 7 shown in FIG. 3 is different from the structure of the right door opening operation unit 62 of the right door 8 shown in FIG. 3 (symmetrical structure). Therefore, the description of the structure of the left door opening operation unit 61 will be omitted.

FIG. 10 is a front view showing a structural example of the right door opening operation unit 62 of the right door 8 and a part of the front cover member 55 arranged on the front side of the right door opening operation unit 62. FIG. 11 is a front view showing the circuit board 63 of the right door opening operation unit 62 and the base member 64. FIG. 11A is a diagram showing the circuit board of the right door opening operation unit and the front side of the base member, and FIG. 11B is a diagram showing the back surface side of the base member.

FIG. 12 is a diagram showing a circuit board 63 of the right door opening operation unit 62. FIG. 13 is a perspective view showing an example in which the circuit board 63 and the base member 64 are assembled and the bundled wires and the electrical connection members are housed and arranged in the bundled wire accommodating portion 64G, as viewed from the back side.

As shown in FIG. 11A, the right door opening operation unit 62 includes a circuit board 63 and a base member 64. The circuit board 63 is formed in a substantially L shape, and has a rectangular main body portion 63A and an extension portion 63B extended from the main body portion 63A.

As shown in FIGS. 11A and 12, a touch operation unit 62T operated by the user to automatically open the door 8 on the right side is arranged on the front surface 63C of the main body portion 63A of the circuit board 63. An electrical connection terminal 65 is attached to the rear surface 63D of the main body portion 63A.

As shown in FIG. 11, the base member 64 of the right door opening operation unit 62 is formed in a substantially L shape. As shown in FIG. 11B, the base member 64 is formed in a substantially L-shape, so that a bundled wire accommodating portion 64G for accommodating the bundled wire and the electrical connection member is secured.

The base member 64 shown in FIG. 11 is a plate-shaped member made of plastic. The base member 64 is formed in a substantially L shape and has a rectangular main body portion 64A and an extension portion 64B extended from the main body portion 64A. As shown in FIG. 11A, the front surface 64C of the base member 64 is a portion to which the rear surface 63D of the main body portion 63A of the circuit board 63 is attached.

On the other hand, the rear surface 64D of the base member 64 shown in FIG. 11B forms the above-mentioned bundled wire accommodating portion 64G. The rear surface 64D of the base member 64 has edge portions 64H, 64I, 64J, and 64K in order to form the bundled wire accommodating portion 64G. The rear surface 64D of the base member 64 is provided with an L-shaped holding portion 64F for holding the electrical connection terminal.

As shown in FIG. 10, the extension portion 63B of the circuit board 63 is formed to extend in the X direction on the lower side, and the extension portion 64B of the base member 64 is formed to extend in the X direction on the upper side. The circuit board 63 is positioned with respect to the base member 64 by engaging the upper edge portion 63R of the extension portion 63B with the lower side portion 64R of the extension portion 64.

As shown in FIG. 11, the extension portion 64B is provided with a rectangular opening 64P. As shown in FIG. 11A, when the rear surface 63D of the circuit board 63 is attached to the front surface 64C of the base member 64, the electrical connection member 65 of the circuit board 63 passes through the opening 64P. .. As a result, as shown in FIG. 13, the electrical connection member 65 of the circuit board 63 can be exposed to the rear surface 64D side of the base member 64.

The electrical connection member 65 shown in FIG. 13 is electrically connected to the circuit board 63. The bundled wire 69 derived from the electrical connecting member 65 is connected to the electrical connecting members 68A and 68B. The electrical connection members 68A and 68B are detachably connected. The electrical connection member 68A is held by the holding portion 64F.

As shown in FIG. 13, the right door opening operation unit 62 is formed in an L shape in order to secure the bundled wire storage portion 64G, and the bundled wire storage portion 64G is a part of the bundled wire 69 and the bundled wire 68C. And, the electrical connection members 68A and 68B are stored. In this way, the bundled wires 68 and 68C and the electrical connection members 68A and 68B can be stored in the bundled wire storage portion 64G of the right opening operation unit 62, so that when the bundled wires and the electrical connecting members are arranged, the bundled wires 68 and 68C and the electrical connection members 68A and 68B can be stored. Space can be saved, and the height dimension (Z direction dimension) of the right door opening operation unit 62 can also be minimized.

FIG. 14 shows an example in which a power supply line and a control line are wired to the right door opening operation unit 62 and the operation panel unit 70 by using the electric connection members 68A and 68B.

As shown in FIG. 14, the bundled wire 68C led out from the electrical connection members 68A and 68B of the right door opening operation unit 62 is connected to the control unit 100 via an electrical connection member (not shown) arranged inside the door 8. Is electrically connected to. Further, the electrical connection member 79 is electrically connected to the electrical connection member 77 by using a relay bundle wire 75. The relay bundle line 75 is housed between the front side of the display unit 110 and the shielding plate 90.

The electrical connection member 77 is electrically connected to the control unit 100 and the power supply unit 100S of the control unit 100 via the electrical connection members 88A and 88B and the bundled wires 88C and 88D. The electrical connection members 88A and 88B are detachably connected.

As shown in FIG. 14, by assembling the display unit 110 and the function selection unit 80 in an overlapping manner via the shielding plate 90, the electrical connection member 79 of the display unit 110 can be electrically connected to the function selection unit 80 through the opening 99. It is electrically connected to the connecting member 86.

As a result, power is supplied from the power supply unit 100S of the control unit 100 to the circuit board 63 of the right door opening operation unit 62 via the bundled wires 68C, the electrical connection members 68A and 68B, and the bundled wires 69. Further, the touch detection signal from the touch operation unit 62T of the circuit board 63 is sent to the control unit 100 via the bundled wire 69, the electrical connection members 68A and 68B, and the bundled wire 68C.

Further, the power supply unit 100S of the control unit 100 supplies the control signals from the control unit 100 for lighting each LED of the operation panel unit 70 with the electrical connection members 88A and 88B, the bundled wire 88D and the bundled wire 88C, and the bundled wire 88C. This is done via the electrical connection member 77.

The power supply from the power supply unit 100S of the control unit 100 to each touch operation unit 81 to 85 of the operation panel unit 70 and the supply of the touch detection signal from each touch operation unit 81 to 85 to the control unit 100 are performed by the electrical connection member 88A. , 88B, bundled wire 88D, bundled wire 88C, electrical connection member 77, relay bundled wire 75, electrical connection member 79, and electrical connection member 86.

As described above, the refrigerator 1 of the embodiment of the present invention has a main body 1A, a front plate 8 (7) made of a steel plate, and a door 8 (7) for closing the front opening of the main body 1A, and a door. The door opening devices 51 and 52 that operate 8 (7), and the door opening operation unit 62 (61) that generates a signal for operating the door opening device, for example, preferably by detecting a change in capacitance. For example, an operation panel unit 70 having a function selection unit 80 for selecting a function of the main body by detecting a change in capacitance and a display unit 110 for displaying the function of the main body is provided.

The door opening operation unit 62 and the operation panel unit 70 are arranged on the lower side portion (8P) of the door 8, and the function selection unit 80 of the operation panel unit 70 is on the front side with respect to the display unit 110 of the operation panel unit 70. It is placed on top of each other.

As described above, in the lower side portion 8P of the steel plate front plate 8A of the door 8, the function selection portion 80 of the operation panel portion 70 is arranged so as to be overlapped on the front side with respect to the display portion 110 of the operation panel portion 70.

As a result, the dimension (height dimension) of the operation panel unit 70 in the vertical direction (Z direction) of the door 8 is reduced in the door 8 as compared with the case where the function operation unit and the display unit are arranged side by side in the height direction. Space can be saved by reducing the occupied area of the unit 70.

Therefore, by saving the space occupied by the operation panel portion 70, it is possible to prevent the belt line, which is the lower side portion 8P of the door 8, from being overemphasized, and to improve the appearance design of the refrigerator 1.

For example, the upper edge portion 80W of the function selection unit 80 of the operation panel unit 70 is formed so as to avoid the lighting displayable area of the display unit 100 of the operation panel unit 70.

As a result, the space occupied by the function selection unit 80 can be reduced as much as possible, while the displayable area of the display unit 110 can be increased within the limited space occupied by the operation panel unit 70. While increasing the displayable area of the display unit 110, it is possible to suppress the total value (width of the operation panel in the Z direction) of the upper area portion G1 and the lower region portion G2, which is the height dimension of the operation panel unit 70 in the Z direction. it can. Therefore, the space occupied by the operation panel unit 70 can be reduced.

In this way, by reducing the height dimension of the operation panel portion 70 in the vertical direction (Z direction) to save space in the operation panel portion 70, the lower side portion 8P of the door 8 is present with the operation panel portion 80. Therefore, it is possible to improve the appearance design of the refrigerator 1 by preventing it from being overemphasized in the appearance design.

The right door opening operation unit 62 is formed in an L shape in order to secure the bundle wire storage unit 64G. As a result, the bundled wire and the electrical connection member can be stored in the bundled wire storage unit 64G of the door opening operation unit 62, so that space can be saved when arranging the bundled wire, and the height of the operation panel unit can be saved. The dimension in the direction (dimension in the Z direction) can be minimized. The structure of the left door opening operation unit 61 is substantially the same as the structure of the right door opening operation unit 62, as the left and right sides are different.

The operation panel unit 70 has a relay bundle wire 75 that relays the power supply bundle wire. As a result, the relay bundled wire 75 relays, for example, the power supply bundled wire from the right door opening operation unit 62, the power supply bundled wire derived from the foamed polyurethane which is the heat insulating material in the door 8, and the like. You can also. Therefore, when the operation panel portion 70 is attached, the workability when wiring the power supply bundle wire in the door is improved. In addition, it is possible to prevent assembly defects caused by inadvertently pinching a bundled wire for a power source or the like in some part of the door.

Although the embodiments of the present invention have been described above, the embodiments are presented as examples and are not intended to limit the scope of the invention. The novel embodiment can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

The structure of the refrigerator 1 shown in FIG. 1 is an example, and any structure can be adopted. For example, the refrigerator compartment of the refrigerator 1 shown in FIG. 1 has a door structure that opens on both the left and right sides, but the refrigerator compartment may have a single door structure that opens on one side. The arrangement structure of each storage chamber of the refrigerator can be arbitrarily selected.

In the above-described embodiment of the refrigerator of the present invention, the door opening operation unit 61 (62) operates the door opening device 51 (52) by detecting a change in capacitance as an example of performing the door opening operation. The function selection unit 80 selects a function of the main body by detecting a change in capacitance as an example of performing a function selection operation.

However, the refrigerator of the present invention is not limited to such a capacitance type, and the door opening operation unit and the function selection unit can be applied not only by the capacitance detection method but also by a mechanical button.

With this mechanical button, the button is always visible due to unevenness on the door surface, whereas with the capacitance type, the door surface can be easily flattened even if the button is provided. And the buttons can be made inconspicuous. For this reason, if the capacitance type is adopted as the door opening operation unit and the function selection unit, the design of the appearance of the front surface of the refrigerator becomes higher.

1 Refrigerator 1A Main unit 7 Left door 7P Left door lower side 8 Right door 8P Right door lower side 51, 52 Door opening device 61 Left door opening operation unit 62 Right door opening operation unit 64G Bundled wire storage Unit 70 Operation panel unit 75 Relay bundle wire 77 Electrical connection member 79 Electrical connection member 80 Function selection unit 80W Upper edge portion with the position of the function selection unit lowered 81-85 Touch operation unit 86 Electrical connection member 90 Shielding plate 100 Control unit 100S Power supply 110 Display

Claims (3)

The body of the refrigerator and
A door that has a front plate and closes the front opening of the main body,
A door opening device that opens the door and
A door opening operation unit that generates a signal for opening the door of the door opening device by opening the door, and a door opening operation unit.
A display consisting of a function selection unit consisting of a circuit board having a touch operation unit for selecting a function of the main body by performing a function selection operation, and a plate member having a light source for lighting and displaying the function of the main body. A unit and an operation panel unit having the unit
The function selection unit of the operation panel unit is placed on the front side with respect to the display unit of the operation panel,
The vertical and horizontal dimensions of the display unit are set to be larger than the vertical and horizontal dimensions of the function selection unit.
The function selection unit avoids the light source in a portion overlapping the display unit depending on the position of the edge portion of the function selection unit .
A shielding plate having a light guide hole portion for guiding the light generated by the light source is arranged between the function selection unit and the display unit.
The front surface of the function selection unit is a refrigerator located in front of the front surface where the light guide hole portion of the shielding plate is located. The refrigerator according to claim 1, wherein the door opening operation unit is formed in an L shape in order to secure a bundled wire storage unit. The refrigerator according to claim 1 or 2, wherein the operation panel unit has a relay bundle wire that relays the power supply bundle wire.

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