JP4039294B2 - Freezer refrigerator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a temperature adjusting unit that performs temperature setting and the like in a cabinet installed in a refrigerator-freezer.
[0002]
[Prior art]
FIG. 25 is a front view of a conventional refrigerator. In the figure, 1 is a refrigerator room, 3 is a slide room, 5 is a vegetable room, 6 is a freezer room, 10 is a temperature control part. The top stage of the refrigerator is a freezer compartment 6, and a temperature control unit 10 is installed at the center of the upper end of the door of the freezer compartment 6. However, the position of the temperature control unit is different from the height of the line of sight, and it is installed at a position that cannot be seen unless the user is conscious of it. It was a difficult position.
[0003]
Moreover, since the internal temperature of the freezer compartment 6 is −18 ° C. or less and the temperature difference with the outside air is large, if sufficient heat insulation is not ensured in the installation part of the temperature control unit 10 on the refrigerator door, the cause of dew condensation Therefore, a heater is attached to the inside of the cabinet (foamed urethane side) as a countermeasure for preventing condensation on the substrate of the temperature control unit 10. On the other hand, when ensuring sufficient heat insulation in the temperature control unit 10, when reducing the internal volume by securing heat insulation inside the chamber, and by protruding the temperature control unit 10 to the front side to ensure heat insulation However, there are problems in design such as the temperature control unit 10 protruding from the door surface, and problems such as temperature control moving or being damaged when hitting a wall or furniture when opening and closing.
[0004]
FIG. 26 is a front view of a conventional refrigerator. In the figure, 1 is a refrigeration room and 4 is a switching room. Although it is a case where the temperature control part 10 is installed in the low position of a refrigerator, since it is a position which a small child can operate easily, there was a possibility that a setting may be changed and food may be damaged.
[0005]
FIG. 27 is a front view of a conventional refrigerator. Although it is a case of the refrigerator with the low height of a refrigerator, when installed in the upper part of the uppermost door of the refrigerator, the height of the refrigerator is low, so the operability of the temperature control unit 10 is good as a position, but the substrate etc. There are many cases of stacking at the time of shipment because of the parts having the electronic parts, and cases where objects are placed on the ceiling because the refrigerator is low, and there are problems such as damage due to collision of objects and inflow of moisture.
[0006]
[Problems to be solved by the invention]
Since the conventional refrigerator-freezer is comprised as mentioned above, when there is the temperature control part 10 in the door of the freezer compartment 6, since the internal temperature is as low as -18 degreeC, the electronic board arrange | positioned at the temperature control part 10 Therefore, it is necessary to secure a temperature at which no dew condensation occurs. Therefore, it is necessary to thicken the heat insulating material on the back side (inside the cabinet) of the electronic substrate, and the volume of the heat insulating compartment is reduced. Further, in order not to reduce the internal volume, the temperature in the vicinity of the electronic substrate has to be maintained above the dew point temperature by adding a heater or the like that leads to an increase in cost.
[0007]
When the temperature control unit 10 has a display function such as a liquid crystal display, the shape and height of the installation location, and the positional relationship between the display and the operation buttons are operability and ease of viewing, impacts due to stacking during transportation, There is a problem that the temperature control unit 10 is damaged due to an impact at the time of opening and closing the door and cannot be operated.
[0008]
In addition, when increasing the exterior color lineup in the exterior design, it is common to add sheet metal panel colors, but the minimum number of sheet metal panel lots is very large. was there.
[0009]
Furthermore, if the structure of the parts is complicated, the parts are inevitably divided due to the restrictions of the mold, and the strength of the parts joints is reduced, and urethane leakage from the joints to the design surface has been a problem.
[0010]
Moreover, the cross-sectional shape of the door is a round shape, and a refrigerator having a different width adopts a round size suitable for the width. Therefore, a difference of several millimeters occurs in the thickness dimension of the door at the inner side of about 100 mm from the side surfaces of the wide door and the narrow door. When the display unit is arranged at the left end or the right end of the door in accordance with this round, the display unit faces outward when the refrigerator is viewed from the front, and the display unit is difficult to see from the user in front of the refrigerator. In addition, this round difference also affects the joint between the injection part that holds the display and the sheet metal, and is particularly important in terms of design. . In addition, in order not to generate this gap, there is a problem that the cost is high when the injection molding for the rounds of the refrigerator doors having different widths is started.
[0011]
The present invention has been made to solve the above-described problems, and does not reduce the volume in the storage, and does not condense on the electronic substrate of the temperature adjustment unit without providing another piece of heater or the like. In the refrigerator located in the uppermost refrigeration room with a high internal temperature that can secure the temperature, the temperature adjustment unit is arranged at a height of 130 cm or more from the refrigerator installation surface other than the upper and lower ends of the door, The display is easy to see and a position with good operability can be secured, and the handle is projected from the temperature control unit in consideration of mischief of children, impact during transportation and door opening / closing. Moreover, the display part of the temperature control part was made into the same arrangement | positioning as the structure of a refrigerator, and the arrangement | positioning of a display part and an operation switch was arrange | positioned so that a display part might not be hidden at the time of switch operation.
[0012]
In addition, the present invention provides a refrigerator in which a display unit is arranged substantially horizontally so that it can be easily seen from the front, and injection parts are made common in doors having different widths to reduce mold start-up costs.
[0013]
[Means for Solving the Problems]
  BookThe refrigerator-freezer of the invention is a refrigerator provided with a temperature control unit having a function of performing temperature setting in the warehouse and a function of performing temperature display, and the operation unit of the temperature control unit is configured to change a temperature setting or a set time to be changed. Select one room selection switch to select and change switch to change the set temperature and setting time of the selected room, and first select the room you want to set by operating the room selection switch firstPlaceWhen the fixed time has elapsed, the change switchThe second operationConfirm changes such as set temperatureChange the room selection and set temperature etc. in two steps with separate switchesIt is what I did.
[0014]
  BookThe refrigerator-freezer of the invention is such that the shape of the switch operated first is larger than the area of the switch operated next.
[0015]
  BookIn the refrigerator-freezer of the invention, the display of the temperature control unit is a liquid crystal display, and in addition to the normal set temperature display and set time display, the thermistor detection temperature and abnormal location display that is performed at the time of service and development testing are numerical values and characters It has the function to display with.
[0016]
  BookThe refrigerator-freezer of the invention is configured such that the temperature control unit can be detached from the refrigerator compartment door and can be used as a remote controller.
[0017]
  BookThe refrigerator-freezer of the inventionIn the refrigerator provided with a temperature adjusting unit having a function of setting the temperature in the cabinet and a function of displaying the temperature, the operation unit of the temperature adjusting unit is a room selection switch for selecting a room whose temperature setting or setting time is to be changed. And a change switch for changing the set temperature and set time of the selected room, and firstly operating the room select switch to select a room to be set and then operating the change switch secondly to set the set temperature. The change of the room selection and the set temperature etc. are operated in two stages with separate switches so that the change such as is confirmed.Is.
[0018]
  BookThe refrigerator-freezer of the inventionIn the refrigerator provided with a temperature adjusting unit having a function of setting the temperature in the cabinet and a function of displaying the temperature, the operation unit of the temperature adjusting unit is a room selection switch for selecting a room whose temperature setting or setting time is to be changed. And a change switch for changing the set temperature and set time of the selected room, and firstly operating the room select switch to select a room to be set, and then operating the change switch secondly to set the temperature. And change the time adjustment, change the room temperature and set temperature, etc. in two steps with separate switches, change the set temperature, etc. When the switch is acceptable, an alarm or sound Started to emitIs.
  The refrigerator-freezer of the present invention is a refrigerator provided with a plurality of rooms, a refrigerator compartment door constituted by a sheet metal panel and an injection part coupled to the sheet metal panel, and a handle portion that is put on when the refrigerator compartment door is opened and closed. The injection part is provided with the handle part and the temperature control part, and the temperature control part is directly above the handle part and other than the upper and lower end parts of the refrigerator compartment door, and the handle part is set to the temperature. It protrudes from the refrigerator compartment door side rather than the adjustment part.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
1 is a front view of a refrigerator-freezer according to Embodiment 1 of the present invention, and FIG. 2 is a cross-sectional view of FIG. In the figure, 1 is a refrigerating room, 2 is a refrigerating room door, 3 is a slide room provided in the refrigerating room 1, 4 is a switching room, 5 is a vegetable room, 6 is a freezing room, 7 is a part of the refrigerating room door 2 A sheet metal panel, 8 is a base, 9 is a handle that is a handle that a user handles when opening and closing the refrigerator compartment door 2, and 10 is a temperature adjusting unit that sets the temperature in the cabinet.
[0020]
The structure of this refrigerator-freezer is the refrigerator room 1, the slide room 3, the switching room 4, the vegetable room 5 (about 6 degreeC), and the freezer compartment 6 on the internal floor of the refrigerator compartment 1 from the upper stage, respectively. Divided into separate rooms. The slide chamber 3 can be refrigerated (5 ° C.), chilled (0 ° C.), and soft freezing (−5 ° C., −7 ° C., −9 ° C.). ° C), refrigeration (5 ° C), chilled (0 ° C), soft freezing (-5 ° C, -7 ° C, -9 ° C), and freezing (-19 ° C). In particular, the soft freezing temperature zone can be adjusted in three stages, so the food is hard and freezing (food with a lot of moisture, block meat with a little fat, etc.). It is possible to secure two rooms of the same temperature range, such as storing in the switching room 4 set to (-7 ° C) for foods that are not so, and adjusting the temperature according to the characteristics of the food Storage is possible. As a component of the refrigerator compartment door 2, a sheet metal panel 7 and an injection component called a base 8 are combined by cutting out a part thereof. The base 8 is provided with a handle 9 for handling, and a temperature adjusting unit 10 is provided immediately above the handle 8, and the temperature adjusting unit 10 can set the temperature of each room. Further, the temperature control unit 10 can check the current temperature of each room, and can also set time for rapid cooling of each room.
The chamber of the door provided with the temperature control unit 10 is a refrigeration chamber, and is a refrigeration chamber with a high internal temperature that can secure a temperature that does not condense on the electronic substrate of the temperature control unit 10, thereby reducing the volume in the storage. There is no need to provide a separate piece of heater or the like.
[0021]
FIG. 3 is an enlarged view of the temperature control unit, the handle, and the base unit. FIG. 4 is an enlarged view of the temperature control unit of FIG. In the figure, 8 is a base, 9 is a handle, 10 is a temperature adjustment unit, 10a is a liquid crystal display unit of the temperature adjustment unit 10, and 10b is a switch unit (operation unit) of the temperature adjustment unit 10.
[0022]
4 is an enlarged view of the operation panel 10. Reference numeral 10a denotes a liquid crystal display unit, and 10b denotes a switch unit (operation unit). As shown in the figure, the liquid crystal display unit 10a is arranged vertically so that it is easy to visually understand which room the user is currently operating, and matches the order of arrangement of the rooms of the refrigerator main body. In addition, a dividing line is provided for each room in each temperature zone to make it easier to understand. Here, the room arrangement of the refrigerator main body is a refrigeration room, a slide room, a switching room, and a freezer room from the top, and the display of the liquid crystal display unit 10a is also the same room arrangement from the top.
In addition, even if a partition line is not drawn, a partition may be shown with light etc., or a partition may be shown by passing electricity through a liquid crystal.
In addition, since each room can be adjusted in temperature, the temperature adjustment level is displayed with a triangular pointer on the side of the liquid crystal display unit 10a, and the higher temperature is lower and the lower temperature is lower. Arranged so that the strength is at the bottom. In addition, when the button (switch) 10b is operated, the switch unit 10b is arranged on the side or the lower side of the liquid crystal display unit 10a so that the liquid crystal display unit 10a is not covered with a hand. Operation is possible.
[0023]
As described above, since the vertically arranged liquid crystal display matches the order of arrangement of the refrigerator rooms, the display is easy to understand, and it is possible to easily grasp which room is currently set and reduce erroneous operations. In addition, since the operation button 10b of the temperature adjusting unit is disposed on the side or the lower side of the liquid crystal display unit 10a, the operation can be performed without hiding the liquid crystal display unit by hand, and the operation is easy.
[0024]
In addition, since the refrigerators may be stacked at the time of transporting and delivering the refrigerator, the operation panel 10 is arranged away from the upper end of the refrigerator compartment door to which the impact and pressure of stacking are most easily applied. Further, as shown in FIG. 2, when the door is opened, the handle 9 located directly below the liquid crystal display portion 10a protrudes from the liquid crystal display portion 10a by 1 mm or more so that the liquid crystal display portion 10a does not directly hit the side wall or furniture.
[0025]
As described above, the temperature setting display unit and the operation unit are arranged at a position that can be seen without the user's consciousness near the line of sight, so that the display is easy to see and the operability is good. In addition, because it is located away from the upper and lower ends of the refrigerator compartment door considering the impact of stacking during delivery during transportation, etc., it is possible to reduce board failure due to impact during transportation and delivery, so it is difficult for children to misplace. There is no mistake and it is easy to adjust the temperature to suit the user's convenience. In addition, because the handle is designed to protrude from the external operation board, even if it hits the side wall etc. when the door is opened, the handle also serves as a bumper at the beginning, so you can hit the display part directly and break it down. It is mitigating.
[0026]
FIG. 5 is a design diagram of the entire operation panel. Here, an ice making stop switch 39 is provided, and when this switch 39 is pressed, ice making is stopped. Automatic ice-making can be stopped, such as in winter when ice is not required, or when the user is away for a long period of time.
[0027]
In FIG. 5, the operation panel 10 has an energy saving display 38, and the lamp is turned on when the energy saving mode is set. The energy saving mode may be set by pressing an energy saving switch. However, if the energy saving mode can be turned on / off by pressing another switch for a few seconds, the number of switches on the operation panel 10 can be set. Can be reduced. Here, the other switch is the switch 31a, and the energy saving mode is set by pressing the switch 31a for 3 seconds or more. To cancel the energy saving mode, the same switch 31a may be pressed for 3 seconds or more.
When the refrigerator door is not used for a long time or when the refrigerator door is not opened or closed, the energy saving mode can be achieved by reducing the motor rotation speed of the compressor. At this time, the LED 38 is turned on to inform that the energy saving operation is being performed.
[0028]
FIG. 6 is a simple flowchart showing an operation method at the time of temperature adjustment / quenching time setting. Description will be made using 31a, 31b, and 31c which are switch portions (operation portions) 10b on the operation panel (temperature adjustment portion) 10 in FIG.
In the figure, if it is desired to change the temperature setting, the room to be changed by the temperature control room selection SW (switch) 31a as in step 10 is selected, in this case, the refrigeration room, the slide room, or the freezing room. In order to increase the set temperature, the change SW 31b is pressed. In this case, the set temperature may be determined by a program that is determined when a certain time has elapsed after the setting is changed, or a confirmed SW may be added separately. When changing the setting in this way, the program is to change the set temperature after first selecting the room to be set. By doing so, even if the switch part is touched by mistake, the set temperature does not easily change. Especially in the switching room, the temperature range of the room will change, so it may happen that what was set in the freezer room will be mistakenly set in the refrigerator room and the frozen ice cream will be melted. . On the other hand, when tofu or the like is stored in the refrigerator compartment setting, there may be a situation where the tofu is frozen by mistake and set in the freezer compartment. Therefore, the problem caused by the change in the set temperature due to such an erroneous operation can be avoided by performing the operation in two stages with separate buttons.
[0029]
The same operation may be performed for setting the time for the rapid cooling. The description will be given using the switch units (operation units) 10b 31a, 31b, 31c on the operation panel (temperature adjustment unit) 10 in FIG. When the room to be rapidly cooled is selected, the rapid cooling time is set as 32 hours, for example, 1 hour → 2 hours →..., And SW32c is used to reduce the set time. The rapid cooling method can be realized by, for example, rotating the compressor or fan motor for cooling inside the cabinet at high speed, but if it is operated incorrectly, the compressor or fan motor is operated at high speed when it is not necessary. This is a waste of electricity bills. Therefore, such an erroneous operation can be prevented by using a method of operating in two stages as in this embodiment. Also, the advantage of such a two-step operation is that it is not necessary to add a setting SW for each room because the room whose setting is to be changed is selected with one SW, and the design can be simplified. This is also effective in terms of cost.
[0030]
Further, FIG. 5 shows a case where two-step operation is performed, but the shape of the switch (31a or 32a) to be operated first is more than the switch (31b, 31c or 32b, 32c) to be operated next as shown in the figure. Increase the area, for example, more than double (for example, switch large: short diameter 17mm, long diameter 21mm, switch small: short diameter 10mm, long diameter 16mm), pull out the first affordance and handle the explanation for users who actually operate It is possible to make the specifications easy to understand even without a manual.
[0031]
FIG. 7 shows a method for easily recognizing whether or not the switch (SW) has been accepted when the switch unit (operation unit) 10b of the temperature control unit 10 is operated. From the state of waiting for the SW input, if there is an SW input in step 20, it is determined in step 21 whether or not the SW is an acceptable SW. If an unacceptable switch is pressed, the alarm is not sounded and the procedure returns to step 20 to wait for the SW input. Therefore, it is possible to recognize whether the user has performed a correct operation during the operation.
[0032]
8 is a ZZ sectional view of the base 8 portion at the height of the human eye in FIGS. 2 and 3, FIG. 9 is a ZZ sectional view showing another specification of the base 8, and FIG. 10 is a right-opening door refrigerator. FIG. 11 is a cross-sectional view of the base 8 of the left-open door refrigerator, FIG. 12 is a cross-sectional view of the wide door and the narrow door, and FIG. 13 is the base of FIG. FIG. 14 is a sectional view showing XX of the base 8 part of FIG. 3.
[0033]
A temperature control unit (operation panel) 10 in FIG. 8 includes a panel 10c having a liquid crystal display unit and a switch unit as shown in FIGS. 9, 10, and 11 and an electronic substrate 10d in which liquid crystal is mounted. I have. 7 is a sheet metal panel, 8 is a base which is a connecting part to the sheet metal panel 7, and d is an angle of a contact surface of the base 8 with the sheet metal panel 7.
The panel 10c is formed by inserting a PET film 10e on which a name of a refrigerator room (refrigeration room, slide room, switching room, freezing room, etc.) and strength, weakness, etc. for temperature control are printed. Since the display unit 10a (see FIG. 4) is not printed, the liquid crystal display arranged on the internal substrate 10d can be seen, and the switch unit 10b (see FIG. 4) displays PET to push the switch arranged on the substrate 10d. The hard injection on the back side of the film 10e is cut out in an embossed shape. In addition, the clearance between the back side of the PET film 10e and the electronic substrate 10d is set to 0.2 to 0.5 so that the embossed shape of the PET film 10e varies and the switch is not pushed by contraction.
[0034]
In addition, the outer periphery of the panel 10c to which the electronic board 10d is attached is surrounded by ribs, and thus has a waterproof structure, so that it is possible to prevent operation with wet hands and ingress of water by watering.
[0035]
The height of the liquid crystal display unit 10a (see FIG. 2 and FIG. 3) is set so that the average height (H7 National Nutrition Survey) of an 8-year-old elementary school child is 127 cm as a position where the line of sight of children is difficult to reach. The height is set to 130 cm or more, and it may be directly in front of the panel. However, in consideration of design, the panel 10c is arranged with a round R so as to face substantially the front in order to smooth the connection with other parts. . Although the design is improved by the substantially horizontal round R, when the temperature control unit 10 is arranged at the left end or the right end of the door, the refrigerator doors are lined up to open to the right and open to the left. Need. Alternatively, as shown in FIG. 9, an interference component 10f that fills the difference in round R between the switch of the PET film 10e and the electronic substrate 10d is required. However, as shown in FIGS. 10 and 11, by tilting the electronic substrate 10d by 5 °, the difference in clearance between the back side of the right-opening and left-opening PET film 10e and the switch of the electronic substrate 10d is 0.2 to 0.5 or less. The electronic substrate 10d can be shared.
Moreover, since the PET film 10e is insert-molded, it is possible to prevent water from entering the electronic substrate. In addition, it is possible to share the electronic substrate for the right and left doors without any interference parts.
[0036]
As shown in the cross-sectional view of FIG. 8, the cross-sectional shape of the door is round, but the cross-section of the base 8 provided with the display unit is substantially parallel to the line of sight when the display unit 10 a is viewed from the front of the refrigerator. A drawing line is inserted into the sheet metal panel 7 to form a connection structure with the base 8. Therefore, the display unit is not difficult to see.
[0037]
FIG. 12 is a sectional view of the sheet metal panel 7 having a wide door and a narrow door. In the figure, 7a is a sheet metal panel of a wide door, and 7b is a sheet metal panel of a narrow door.
The sectional shape of the refrigerator door is round, and the refrigerator has a lineup of products with different widths due to the difference in capacity band. Due to the difference in round R between the wide door and the narrow door, the injection component 8 When the sheet metal panel 7 is coupled, the difference e in door thickness at the coupling position (0 to 150 mm, FIG. 12 is 0 to 100 mm) from the side is about 0 to 10 mm in FIG. . Since this door thickness difference e occurs, it is difficult to share parts. However, as shown in FIG. 13, which is a cross-section YY of FIG. An angle d is provided on the contact surface of the base 8 with the sheet metal panel 7, and the sheet metal panel 7 having a wide door is subjected to a drawing process 7 c, and the sheet metal panel having a narrow door is provided so as to be able to make surface contact with this angle. 7d drawing is performed so that the angle of the base 8 joint portion and the insertion angle of the joint portion of the sheet metal panel are matched so that there is no gap in the joint portion. By this structure, the base parts 8 of the doors having different widths are shared.
[0038]
Therefore, even if there is a difference in the round of the refrigerator door, there is no gap in the joint portion between the injection component 8 that holds the display portion and the sheet metal panel 7, and the design may be good, and a nail is hooked on the joint portion. There is no fear of it. Further, the same injection component 8 can be used even in refrigerator doors having different widths, and even when the injection component is laid down, it can be molded with a single mold without cost. Here, the material of the injection component 8 is ABS or the like, which has good moldability, high gloss, and is suitable for a design material. Since the metal sheet is formed by plastic deformation, injection with high design reproducibility is used because the intended design shape is difficult to achieve and costs are high.
[0039]
Next, FIG. 14 is a cross-sectional view taken along the line XX in FIG. 3 showing the coupling structure of the handle 9 and the base 8. In the figure, a claw 9 a of a handle 9 as an insertion member is inserted into a square hole 8 a of a base 8 as an insertion hole, and simultaneously holds a screw plate 11 and is also tightened by a screw 12.
[0040]
The inside of the base 8 is filled with foamed urethane 13, and a small amount of foamed urethane 13 is intentionally leaked between the square holes 8 a of the base 8 and the claws 9 a for the purpose of bonding the base 8 and the handle 9. A triangular rib 9b provided on the handle side is crushed and tightened by tightening the screws 12 so that the urethane foam 13 does not protrude to the design surface side, thereby adopting a urethane leakage prevention structure.
[0041]
Therefore, the urethane foam that has been intentionally leaked allows the parts to adhere to each other, and the triangular ribs provided on the outside of the claw 9a on the handle side are screwed out without adding a urethane leakage prevention seal to the design surface side. Urethane leakage can be prevented by pressure contact with the tightening force.
If the insertion member 9a is inserted into the insertion hole 8a and there is a gap between the members, that is, if the cross-sectional area of the insertion hole 8a is larger than the cross-sectional area of the insertion member 9a, urethane leaks. For example, the insertion hole 8a may have a round shape or another shape instead of a square shape, and the insertion member 9a may have another shape.
[0042]
Next, a configuration diagram of the liquid crystal display unit 10a is shown in FIG. As shown in the figure, the liquid crystal display unit 10a is configured from the top to the front side polarizing plate 23, the upper glass 24, the liquid crystal 25, the lower glass 26, the back side polarizing plate 27, the reflection plate or the anti-transmission plate 28. Here, the space between the lower glass 26 and the back polarizing plate 27 is adhered to an adhesive (not shown). For example, the adhesive can be colored to obtain a color liquid crystal. By adopting this, it is possible to make the liquid crystal part appear in color as if the backlight is lit even if there is no conventionally used backlight, and the backlight can be abolished. In addition, the abolition of the backlight leads to energy savings of about 0.1 Wh / month. Furthermore, since there is no LED for the backlight, a diffusion plate for diffusing light throughout the liquid crystal is not necessary, and the overall thickness can be reduced by about 5 mm. As a result, it can be said that it is effective to reduce the thickness of the display portion in a portion where it is difficult to take a heat insulating portion such as a refrigerator door. In addition, users can grasp the image and differentiate from other companies without turning on the power at the store display.
[0043]
FIG. 16 is an assembly view of the substrate 10d. (A) is a front view, (b) is a side view. As shown in the figure, a jumper wire 29 for use during service is mounted on the substrate 10d. The jumper wire 29 has a function of finely adjusting the temperature setting according to the user's request (for example, the set temperature is raised or lowered by 1 ° C. with or without the jumper wire). FIG. 17 shows an example of a circuit using one jumper wire of this substrate. In the circuit as shown in the figure, Lo (0V) is input to the microcomputer when the jumper wire 29 is provided, and Hi (5V) signal is input to the microcomputer 33 when there is no jumper wire 29. The presence / absence information of the jumper wire 29 is input to the control microcomputer 33 of the refrigerator main body by communication. By doing so, for example, when there is no jumper wire, the temperature setting can be changed at the time of service or the like according to the user's request by creating a program such as lowering the temperature setting of the refrigerator compartment by 1 ° C. . By configuring such a jumper wire 29 for service on the operation panel board on the front side of the refrigerator, it becomes possible to provide service from the front side of the refrigerator, compared with the control board on the back side of the refrigerator equipped with a jumper wire, The operation of pulling out the refrigerator at the time of service and turning it back is eliminated, and the service time can be shortened by about 20 to 30 minutes.
[0044]
Further, FIG. 18 shows a part of the assembly front view of the substrate BOX, but it is unnecessary to remove the substrate by making a hole in the substrate BOX as shown in FIG. Furthermore, by providing ribs that abut against the substrate around the hole of the substrate BOX, it is possible to prevent the jumper wire 29 from falling into the substrate BOX during work from the outside.
[0045]
19A and 19B are configuration diagrams around the electronic substrate 10d, where FIG. 19A is a front view, FIG. 19B is a side view, and FIG. 19C is a rear view. In the figure, 10a is a liquid crystal display unit, 10d is a printed circuit board, 21 is a substrate BOX made of a material such as PS, and 22 is a fixing screw. In this way, by fixing the substrate 10d to the substrate BOX 21 with the screws 22 or the like and constructing it as an assembly of the substrate BOX 21, it becomes a two-part configuration of the surface decoration panel and the assembly of the substrate BOX 21 at the time of attachment and removal, improving workability and recyclability Also gets better. Note that the same effect can be obtained by fixing the substrate BOX 21 and the substrate 10d with a claw or the like.
Further, as shown in the figure, the key top portion 21a including the spring structure is integrally formed on the substrate BOX 21 to form a single component, thereby reducing the number of components and improving the handleability. In addition, since there are few components, the cost can be reduced.
[0046]
In addition, the refrigerator compartment door 2 increases the proportion of the area of the base 8 that is an injection component so that the color variation can be easily increased by changing the color of the base 8 in combination with the color of the sheet metal panel 7. Yes.
Therefore, the color variation can be increased at a lower cost than the color change of the sheet metal panel by changing the color of the base portion of the refrigerator compartment door.
In addition, since the base portion can be replaced, the color variation can be increased by combining with the sheet metal panel.
[0047]
FIG. 20 shows a display example of the liquid crystal display unit 10a. During service and development testing, the normal temperature display and quenching time display are changed, and the function of displaying the actual thermistor detection temperature and abnormal location display with numerical values and characters is added, so that the refrigerator status can be changed during service and development evaluation. It becomes easy to recognize and leads to efficiency during development. The figure shows an example in which the alphabet “F” is displayed on the upper segment display and the numerical value “−20” is displayed on the middle segment. In this case, the detected temperature of the thermistor of the freezer (F for short) is shown. It can be displayed as “−20 ° C.”. As a method for entering the mode, a separate switch may be provided on the board 10d of the operation panel 10 that cannot be operated by the user. For example, two switches can be used in combination with the operation of the existing switch. What is necessary is just to set by the method which a user does not occur easily by daily operation, such as being able to enter the mode, when a switch is pushed continuously for 5 seconds or more simultaneously.
[0048]
Embodiment 2. FIG.
21, 22, and 23 are diagrams showing the configuration of the refrigerator and the operation board. 34 is a wiring connecting the main body of the refrigerator 1 and the operation board 37, 35 is a light emitting section, 36 is a light receiving section, 37 is an operation board removable from the main body of the refrigerator 1, 40 is a coil section, 41 is a coil section 40, etc. Container. As shown in FIG. 21, the wiring 34 connecting the operation board 37 and the refrigerator 1 body is lengthened, and the operation board 37 provided with the temperature control unit 10 (see FIG. 3) is wired by using a structure that can be extended when necessary. It can also be used as a remote control. As shown in the figure, the operation board 37 is arranged on the refrigerator 1 door side, and the control board 10d of the refrigerator 1 main body is arranged on the back surface. In the case of wired communication, wiring from the control board 10d of the refrigerator 1 main body is performed. Needs to be relayed via the hinge portion of the door, and consideration must be given so that the wiring 34 is not broken when the door is opened and closed. Therefore, a non-contact communication method using infrared rays or the like is used as the communication method, and the light emitting unit 35 is disposed on the operation panel and the light receiving unit 36 is disposed on the refrigerator 1 main body side such as a hinge as shown in FIG. By using a battery-powered or rechargeable power source for driving the panel, it can be used as a completely independent remote controller, and it is not necessary to consider the disconnection of the wiring of the hinge portion. Therefore, the temperature control unit 10 can be operated from a place away from the refrigerator, and the operability is improved. Further, the operation board 37 may be operated using a communication means such as a mobile phone.
[0049]
Further, when the removal is not considered, as shown in FIG. 23, the power supply coil unit 40 and the light emitting unit and the light receiving unit for non-contact communication by infrared rays are placed close to the door side where the refrigerator 1 main body and the panel 37 are mounted. Thus, for example, by providing in the container 41, the power can be supplied in a non-contact manner without connecting the wiring from the main body substrate and the wiring in the door. The position of the coil part 40 may be anywhere as long as it is close when the door is closed, such as the vicinity of the hinge or the center of the upper side.
The effect of non-contact is that the wiring and connection to the door side are not necessary in the power supply from the refrigerator 1 main body side, so the main body side is connected to the hinge part where the refrigerator 1 main body side and the door are in contact with each other. There is no need to connect to a hinge, there is no need to worry about disconnection due to the drive of the hinge, or a hinge specification with a hollow for passing the lead wire, which is advantageous in terms of cost and strength.
[0050]
FIG. 24 is a flowchart showing that control is performed while communicating between a microcomputer for controlling the refrigerator main body and an operation panel (operation board) using a communication line. Serial communication is used for this communication. When the refrigerator main body side is transmitting, the operation panel side is receiving.When the operation panel side is transmitting, the refrigerator main body side is receiving, and these are alternately performed. Is controlling the refrigerator.
After the refrigerator main body transmits at Step 1, it waits for reception of Step 2. If there is reception at Step 3 and the data is normal (Step 5), the data is updated at Step 6.
Also, if reception is not possible within the reception waiting time of Step 4, or if the reception data is not normal at Step 5, the reception data is discarded (Step 7), and after waiting for transmission at Step 8, retransmission is performed.
In this way, when reception is no longer possible or when the received data is abnormal, the refrigerator is operated with the data immediately before the communication abnormality occurs when the communication abnormality occurs by not updating the data. Therefore, it is possible to operate without impairing the cooling capacity.
In addition, when normal communication can be performed by waiting for transmission and retransmitting at Step 8, the data can be updated, and the refrigerator can be operated in accordance with the user's operation without notice by the user. become.
As described above, even when an abnormality occurs, the cooling operation can be realized while ensuring the minimum capability, and the operation panel side does not notice the abnormality and the display according to the user's operation is possible.
[0051]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
[0052]
  BookThe refrigerator-freezer of the invention is a refrigerator provided with a temperature control unit having a function of performing temperature setting in the warehouse and a function of performing temperature display, and the operation unit of the temperature control unit is configured to change a temperature setting or a set time to be changed. Select one room selection switch to select and change switch to change the set temperature and setting time of the selected room, and first select the room you want to set by operating the room selection switch firstPlaceWhen the fixed time has elapsed, the change switchThe second operationConfirm changes such as set temperatureChange the room selection and set temperature etc. in two steps with separate switchesSince it did in this way, the malfunction by the change of the preset temperature by a malfunction can be avoided by performing operation in two steps with a separate button. In addition, it is possible to prevent problems caused by changes in the set temperature due to erroneous operations.In addition, since it is a two-step operation, it is not necessary to add a setting SW for each room to select a room whose setting is to be changed with one SW, the design can be simplified, and the number of SWs is also reduced. Since it can be reduced, it is effective in terms of cost.
[0053]
  BookIn the refrigerator-freezer of the invention, since the shape of the switch to be operated first is larger than the area of the switch to be operated next, the operation of the operation unit of the temperature adjustment unit is easy to understand.
[0054]
  BookIn the refrigerator-freezer of the invention, the display of the temperature control unit is a liquid crystal display, and in addition to the normal set temperature display and set time display, the thermistor detection temperature and abnormal part display that are performed at the time of service and development testing are numerical values and characters Because it has a function to display with, it is easy to recognize the state of the refrigerator at the time of service and development evaluation, which leads to development efficiency.
[0055]
  BookThe refrigerator-freezer of the inventionA light receiving unit provided in the refrigerator main body and a light emitting unit provided in the temperature adjusting unit, and a power source for driving the temperature adjusting unit as a battery or a rechargeable typeThe temperature control unitNon-contactIt can be removed from the refrigerator door,Completely independentSince it can be used as a remote control, it can be operated from a remote location.In addition, since there is no need for wiring and connection with the door side in power supply from the refrigerator body side, there is no need to connect to the body side through the wiring to the hinge part where the refrigerator body side and the door are only in contact, There is no need to worry about disconnection due to driving or to use a hinge specification with a hollow for passing the lead wire, which is advantageous in terms of cost and strength.
[0056]
  BookInvention refrigerator-freezerIs a refrigerator having a temperature control unit having a function of setting the temperature in the cabinet and a function of displaying the temperature, the operation unit of the temperature control unit is a room for selecting a room whose temperature setting or setting time is to be changed. A selection switch and a change switch for changing the set temperature and set time of the selected room are selected. The room select switch is operated first to select a room to be set, and then the change switch is operated second. Change the temperature and time adjustment, change the selection of the room and set temperature, etc. in two steps with separate switches, change the set temperature, etc. I made a soundTherefore, it is possible to recognize whether or not the user has performed a correct operation during the operation.Moreover, the trouble by the change of the preset temperature by malfunctioning can be avoided by performing operation in two steps with separate buttons. In addition, it is possible to prevent problems caused by changes in the set temperature due to erroneous operations. In addition, since it is a two-step operation, it is not necessary to add a setting SW for each room to select a room whose setting is to be changed with one SW, the design can be simplified, and the number of SWs is also reduced. Since it can be reduced, it is effective in terms of cost.
[0057]
  BookInvention refrigerator-freezerIs a refrigerator provided with a plurality of rooms, comprising a refrigerator compartment door composed of a sheet metal panel and an injection part coupled to the sheet metal panel, and a handle portion that is put on hand when the refrigerator compartment door is opened and closed, The injection part is provided with the handle part and the temperature control part, and the temperature control part is directly above the handle part and other than the upper and lower ends of the refrigerator compartment door, and the handle part is refrigerated more than the temperature control part. Since it protrudes from the side of the room door, even if it hits against a side wall or the like when the door is opened, it can be reduced that the handle hits the role of the bumper at the beginning and hits the display unit directly and breaks down.
[Brief description of the drawings]
FIG. 1 is a front view of a refrigerator according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view of the refrigerator according to the first embodiment of the present invention.
FIG. 3 is an enlarged view of a handle and a base according to Embodiment 1 of the present invention.
FIG. 4 is an enlarged view of an operation panel of the refrigerator according to the first embodiment of the present invention.
FIG. 5 is a design diagram of an operation panel showing the first embodiment of the present invention.
FIG. 6 is a flowchart of the operation method showing the first embodiment of the present invention.
FIG. 7 is a flowchart relating to reception of an operation SW according to the first embodiment of the present invention.
FIG. 8 is a sectional view showing a base ZZ of the refrigerator according to the first embodiment of the present invention.
FIG. 9 is a cross-sectional view showing another specification of the base ZZ of the refrigerator according to the first embodiment of the present invention.
FIG. 10 is a cross-sectional view showing a base ZZ of a right-open door refrigerator according to Embodiment 1 of the present invention.
FIG. 11 is a cross-sectional view showing a base ZZ of the left-open door refrigerator according to the first embodiment of the present invention.
FIG. 12 is a panel cross-sectional view of a wide door and a narrow door according to the first embodiment of the present invention.
FIG. 13 is a cross-sectional view showing a base YY of the refrigerator according to the first embodiment of the present invention.
FIG. 14 is a cross-sectional view showing a base XX of the refrigerator according to the first embodiment of the present invention.
FIG. 15 is a configuration diagram of a liquid crystal display unit according to the first embodiment of the present invention.
FIG. 16 is an assembly diagram of a printed circuit board showing Embodiment 1 of the present invention.
FIG. 17 is a partial circuit diagram showing the first embodiment of the present invention.
FIG. 18 is a part of an assembled front view of a substrate BOX showing Embodiment 1 of the present invention.
FIG. 19 is a configuration diagram of a refrigerator operation board according to the first embodiment of the present invention.
FIG. 20 is a display example of the liquid crystal display unit according to the first embodiment of the present invention.
FIG. 21 is a configuration diagram of the refrigerator main body and the operation board wired according to the second embodiment of the present invention.
FIG. 22 is a wireless configuration diagram of a refrigerator main body and an operation board according to Embodiment 2 of the present invention.
FIG. 23 is a wireless configuration diagram of a refrigerator body and an operation board showing Embodiment 2 of the present invention.
FIG. 24 is a flowchart showing the second embodiment of the present invention.
FIG. 25 is a front view of a conventional refrigerator.
FIG. 26 is a front view of a conventional refrigerator.
FIG. 27 is a front view of a conventional refrigerator.
[Explanation of symbols]
1 refrigerator compartment, 2 refrigerator compartment door, 3 slide compartment, 4 switching compartment door, 5 vegetable compartment door, 6 freezer compartment door, 7 sheet metal panel, 7a wide panel, 7b narrow panel, 7c wide aperture line, 7d narrow aperture Line, 8 base, 8a square hole, 9 handle, 9a claw, 9b triangular rib, 10 temperature control unit, 10a liquid crystal display unit, 10b switch unit, 10c panel, 10d electronic substrate, 10e PET film, 10f interference component, 11 Screw plate, 12 Screw, 13 Foam urethane, 21 Substrate BOX, 22 Screw, 29 Jumper wire, 30 Substrate BOX hole, 38 LED, 39 Ice making stop button, 40 Coil part.

Claims (7)

In the refrigerator provided with a temperature adjusting unit having a function of setting the temperature in the cabinet and a function of displaying the temperature, the operation unit of the temperature adjusting unit is a room selection switch for selecting a room whose temperature setting or setting time is to be changed. and, a change switch to change the setting temperature and the setting time of the selected room, the room select the change switch switch at was passed first to the Jo Tokoro from choose the room you want to set up operation time second refrigerator, characterized in that the operation to the in to the chamber wish to accept the changes, such as temperature setting changes, such as the set temperature so as to operate in two stages with separate switches. In the refrigerator provided with a temperature adjusting unit having a function of setting the temperature in the cabinet and a function of displaying the temperature, the operation unit of the temperature adjusting unit is one room selection switch for selecting a room whose temperature setting or setting time is to be changed. And a change switch for changing the set temperature and set time of the selected room, and firstly operating the room select switch to select a room to be set and then operating the change switch secondly to set the set temperature. A refrigerator-freezer characterized in that changes such as room selection and set temperature are operated in two stages with separate switches so as to confirm the changes such as. In the refrigerator provided with a temperature adjusting unit having a function of setting the temperature in the cabinet and a function of displaying the temperature, the operation unit of the temperature adjusting unit is one room selection switch for selecting a room whose temperature setting or setting time is to be changed. And a change switch for changing the set temperature and set time of the selected room, and first operating the room select switch to select a room to be set, and then operating the change switch second to set the temperature. And change the time adjustment, change the setting temperature etc. by changing the selection of the room and the setting temperature etc. in two stages with separate switches, and if the switch can accept, alarm and sound A refrigerator-freezer characterized by having emitted.   2. The refrigerator-freezer according to claim 1, wherein the shape of the switch operated first is larger than the area of the switch operated next. The display of the temperature control unit is a liquid crystal display unit, and has the function to display the thermistor detection temperature and abnormal part display in numerical values and characters at the time of service and development testing in addition to the normal set temperature display and set time display The refrigerator-freezer in any one of Claim 1 thru | or 3 characterized by the above-mentioned. A light receiving unit provided in the refrigerator main body and a light emitting unit provided in the temperature adjusting unit, and a power source for driving the temperature adjusting unit is a battery or a rechargeable type, and the temperature adjusting unit is refrigerated without contact. The refrigerator-freezer according to any one of claims 1 to 4 , wherein the refrigerator-freezer can be removed from the door and used as a completely independent remote controller. A refrigerator provided with a plurality of rooms, comprising: a refrigerator compartment door configured by a sheet metal panel and an injection component coupled to the sheet metal panel; and a handle portion for placing a hand when the refrigerator compartment door is opened and closed. Provided with the handle portion and the temperature adjusting portion, the temperature adjusting portion being directly above the handle portion and other than the upper and lower ends of the refrigerator compartment door, wherein the handle portion is placed in the refrigerator compartment door more than the temperature adjuster portion. The refrigerator-freezer according to any one of claims 1 to 6, wherein the refrigerator-freezer is protruded from the side.

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