KR20050077786A - Refrigerator - Google Patents

Abstract

An object of the present invention is to obtain a refrigerator that opens the door most appropriately by using a door opening device.

When the drive source is energized, the door opening device 30 protrudes the pressing member 37 and presses the door surface to open the door, and the door outputting a drive signal for driving the door opening device 30 by a user's operation. The door switch 26a, 26b which detects the opening switch 27a, 27b, the opening / closing state of the door 20a, 20b, and outputs the door opening signal and the door closing signal, and the door from this door switch 26a, 26b. When the drive signal is output from the door opening switches 27a and 27b when the closing signal is output, the control means 50 is provided with electricity supplying the door opening device 30 to open the door. Stops the energization of the door opening device 30 after a predetermined time has elapsed since the door opening signal is output by the door switches 26a and 26b.

Description

Refrigerator {REFRIGERATOR}

The present invention relates to a refrigerator having a door opening device that opens the storage door according to the protrusion of the pressing member.

In recent years, refrigerators tend to have a larger storage capacity as well as diversify their diet, and especially in home refrigerators, classes having a storage capacity of more than 400 liters become mainstream, and the height and width dimensions of the refrigerator main body also tend to increase.

Along with this, the doors of the refrigerating compartment, the freezing compartment, and the vegetable compartment are also enlarged. In particular, the storage pocket inside the door of the refrigerating compartment having a large storage volume increases the height and width dimensions, and also increases the depth dimension to accommodate many food items. There is a tendency, the door itself is large, there is a problem that the burden is increased in the case of women or elderly people who do not have a force that requires a large force due to the door opening.

As a configuration for solving the above problems, a refrigerator having an electronic solenoid type door opening device for protruding a knock pin from the main body side by pressing a handle switch of a user, pressing the door surface, and opening the door has been supplied to the market. It is evaluated as a product which does not require burden on opening of a door (for example, patent document 1).

As a door opening device of this kind, when the door opening switch provided on the front face of the door is operated, the electromagnetic solenoid is energized for a predetermined time, and the pressure member is projected forward from the initial position to press and open the door. It cuts in and pulls in by the pressing force of the pulling-in spring, and returns to an initial position by the spring force.

Moreover, in the refrigerator of a left-right opening / closing door, the structure which opens a left-right door simultaneously or a left-right door one by one using the said single door opening device can be considered (for example, patent document 2).

[Patent Document 1] Japanese Patent Application Laid-Open No. 2001-59675

[Patent Document 2] Japanese Unexamined Patent Publication No. 2003-83673

However, in the above-described configuration of the door opening device of Patent Document 1, since a predetermined voltage is supplied to the electromagnetic solenoid over a predetermined time, the force required to open the door depends on the closing time of the door and the loading amount of the storage pocket. When the change is made, there is a problem that the door is too weak to be opened, and the door cannot be opened sufficiently. On the other hand, the food loaded in the storage pocket may drop because the door is too strong.

In addition, according to the specification situation of the refrigerator, for example, the loading amount of the storage pocket installed in the door and the cooling in the refrigerator, the force required to open the door changes, but in the door opening device of the above-mentioned Patent Documents 1 and 2, Since the supply to the electronic solenoid over a predetermined time, there is a problem that the door is too weak to open the door sufficiently, and too strong to drop the food loaded in the storage pocket.

In the case of the left and right swing door refrigerators, the force required to open the door varies in the case where one side is open or in the form of using a rotating partition plate, but the driving method of the door opening device is conventionally studied. There was not.

In addition, in the refrigerator of the left and right swing doors, when the left and right doors can be opened by one side, the door opening switch is normally operated one by one, but depending on the user, while the other one is open to one door opening device, The door opening device on the side may be operated or operated simultaneously.

In this case, a commercial power source for an electric appliance used in a kitchen such as a refrigerator, an oven stove, and a rice cooker generally has a common breaker for preventing excessive current from flowing, so that when both electric appliances are used, both door opening devices are used. If the power is supplied, this breaker may operate.

Such verification is not conventionally performed, and it is assumed that the other door opening switch is operated at the same time while the other door opening device is operated in accordance with the user's situation, and the operation of the door opening device is examined. There was a need.

This invention is made | formed in view of the said problem, and an object of this invention is to provide the refrigerator which opens an automatic door most appropriately regardless of the load state of the storage pocket in a refrigerator door, etc.

Moreover, this invention is made | formed in view of the said problem, and an object of this invention is to provide the refrigerator which opens an automatic door most appropriately regardless of the use situation of a refrigerator, etc.

In addition, the present invention has been made in view of the above problems, and in the refrigerators of the left and right doors, even when the other door opening switch is operated or simultaneously operated while the one door opening device is energized, It is an object of the present invention to provide a refrigerator that reliably opens the door so that excessive current does not flow.

The present invention provides a door that can be opened and closed in the front opening of the main body storage compartment, a door opening device for pushing the door surface by pressing the door member when the drive source is energized, and a drive signal for driving the door opening device. And a door switch for outputting a door opening signal and a door closing signal by detecting an open / closed state of the door by a user's operation, and outputting the door closing signal from the door switch. When the drive signal is output from the door opening switch, the power supply to the door opening device is started, and the power supply is continued until a predetermined time elapses after the door opening signal is output by the door switch.

The refrigerator according to the present invention includes left and right doors of right and left type doors which are opened and closed in the front opening of the main body storage compartment, and a left door opening device and a right door opening device which press the left and right doors by electricity and open the doors respectively. And a left door open switch and a right door open switch for outputting a drive signal by a user's operation to energize each of the left and right door opening devices, and load detection means for detecting a load applied when the left and right doors are opened. When opening both or one of the doors, when the load detection means determines that the load at the time of opening the door is light, the door is opened by reducing the door opening force of the left and right door opening devices. .

The refrigerator according to the present invention includes left and right doors of right and left type doors which are opened and closed in the front opening of the main body storage compartment, and a left door opening device and a right door opening device which press the left and right doors by electricity and open the doors respectively. And a left door opening switch and a right door opening switch for outputting a drive signal by a user's operation to energize each of the left and right door opening devices, and opening the other door while energizing one door opening device. In the case where the switch is operated, after the energization to the door opening device is completed, the electricity supply to the other door opening device is started.

EMBODIMENT OF THE INVENTION Below, embodiment of this invention is described. Fig. 5 is a perspective view showing the refrigerator of the present invention, and Fig. 6 shows a state in which the door of the refrigerator of Fig. 5 is opened. 5 and 6, in the refrigerator main body 1 composed of a heat insulating housing having a known structure, a refrigerating chamber 2, a vegetable chamber 3, a product chamber 4, and a switching chamber capable of switching the internal temperature in multiple stages ( 5) The freezing chamber 6 is provided in order from the top, and the stock room 4 and the switching chamber 5 are arranged side by side.

In the front opening part of the said refrigerating chamber 2, the left door 20a and the right door 20b which comprise what is called a left-right opening-and-closing door which pivot-supported both left and right ends respectively are provided, and the vegetable chamber 3 and the stock room 4 are provided. ), Each of the front surfaces of the switching chamber 5 and the freezing chamber 6 is provided with pull-out doors 3a, 4a, 5a, 6a in which respective storage containers (not shown) are connected. Magnet gaskets 21a and 21b are attached to the periphery of the rear side of the left and right doors 20a and 20b, and the magnet gaskets 21a and 21b of the left and right doors 20a and 20b are flange portions of the refrigerator main body 1. By adsorb | sucking to (1a), it is the structure hold | maintained in the closed state. Although not shown, a magnet gasket is also attached to the periphery of the rear side of the other doors 3a, 4a, 5a, and 6a.

Inside the magnet gaskets 21a and 21b, a pair of bead portions 22a and 22b extending up and down are respectively formed, and the bead portions 22a and 22b respectively contain a storage pocket 23a for storing food. 23b) is installed. In addition, the rotary partition which attracts the magnet gaskets 21a and 21b of the left and right doors while the doors are closed to the bead portion 22a of the left door 20a facing the right door 20b to close the gap between the doors. The plate 25 is provided. The rotary partition plate 25 is rotated by sliding the inside of the groove formed by the upper surface of the rotary partition plate 25 by the pin 1b provided on the main body in accordance with the opening and closing operation of the left door 20a. have.

The left door opening switch 27a and the right door opening switch 27b are attached to the front surface portions of the left and right doors 20a and 20b, and the door which opens the left door 20a when the left door opening switch 27a is pressed. An open signal is output, and when the right door open switch 27b is pressed, a door open signal for opening the right door 20b is output. In addition, when the left door opening switch 27a is pressed, a door opening signal for opening the right door 20b may be output.

Specifically, it has a structure in which mechanical switches, such as an upper type micro switch, which are turned on when the left and right door opening switches 27a and 27b are pressed and operated, are incorporated. It is also possible to comprise an optical switch or a magnetic switch using a photo interrupter.

As shown in FIG. 7, which is an upper side view showing the refrigerator 1 when the left door 20a is opened, the opening and closing states of the left and right doors 20a and 20b are detected on the left and right side walls of the refrigerating compartment 2. Door switches 26a and 26b are provided. The door switches 26a and 26b assume that the doors 20a and 20b are closed when the button 26 'is pressed by the bead portions 22a and 22b, and output a door closing signal (off state). When the 20a, 20b is opened, the pressure on the button is gradually released, and when the button protrudes to some extent by the spring force, the door 20a, 20b is considered to be open and outputs a door open signal. (On state)

On the ceiling of the refrigerator body 1, there is attached a door opening device 30 which independently opens the left door 20a and the right door 20b of the refrigerating chamber 2, and this door opening device 30 has a left side. The door opening mechanism part 31 and the right door opening mechanism part 32 are provided in parallel.

The left door opening mechanism 31 will be described below. As shown in FIG. 11 showing the cross-sectional structure of the upper part of the refrigerator 1, the left door opening mechanism part 31 is installed in the recessed part 1c formed in the ceiling part of the refrigerator main body 1 in half embedded state. The electromagnetic solenoid 34 driven by direct current as a drive source is accommodated in the case 33 made of synthetic resin.

The electromagnetic solenoid 34 includes a coil unit 35 in which a coil formed in a cylindrical shape is resin-molded, a plunger 36 of a magnetic body installed in the unit so as to be movable in an axial direction, and the plunger 36 The main component is a pressing member 37 made of a non-magnetic metal fixed in a coaxial shape with respect to the plural element). When the coil member 35 is energized (hereinafter referred to as energized state), the plunger 36 and the pressing member The member 37 is configured to be pressed in the direction of the door 20a.

The rear part of the plunger 36 is provided with the flange part 36a which consists of C rings, for example, in order to prevent a fall, and the said flange part 36a and the coil unit 35 around the plunger 36 are provided. A pulling spring 38 made of a coil spring is provided so as to exert a stretching force therebetween.

According to the above configuration, when the electromagnetic solenoid 34 is energized, the pressing member 37 protrudes forward to press the left door 20a and automatically open the door. It returns to the initial position by the spring force of.

Since the right door opening mechanism part 32 has the same structure as the left door opening mechanism part 31, the description thereof is omitted, but when the electric solenoid 34 of the right door opening mechanism part 32 is energized, the right door 20b is automatically turned on. The door is open.

By the way, as shown in FIG. 7, although the right door opening mechanism part 32 is provided in the hinge side rather than the left door opening mechanism part 31, since it installs the rotating partition plate 25 in the left door 20a, the door This is because the force required for opening is greater than that of the right door 20b, so that the door opening speeds of the left and right doors 20a and 20b can be made almost uniform by reducing the pressing force of the right door opening mechanism part 32.

In the case where the right door opening mechanism part 32 and the left door opening mechanism part 31 are disposed symmetrically, the pressing force is varied by the energization time or the supply voltage to make the pressing force of the left door opening mechanism part 31 stronger than the right side. It is also possible to make the door opening speeds of the left and right doors 20a and 20b almost uniform. Moreover, also when the magnitude | size of the left and right doors 20a and 20b differs, it is preferable to change an arrangement place and a pressing force suitably.

Next, the control circuit of the present invention will be described with reference to FIG. 10 which is a control block diagram.

The control device 50 receives a door opening signal or a door closing signal from the left door switch 26a and the right door switch 26b corresponding to the door opening state of the left and right doors 20a and 20b, and the left door opening switch A drive signal is input from 27a and the right door opening switch 27b.

The control apparatus 50 outputs an ON signal to the left door opening circuit 51 or the right door opening circuit 52 when a drive signal is input when the door closing signal is input based on such a signal.

The left door opening circuit 51 will be described. One end of the electromagnetic solenoid 34 is connected to the positive output terminal of the double voltage rectifier circuit (not shown), and the other terminal is connected to the drain side of the driving FET 61. In addition, a diode 62 is connected in parallel to both terminals of the electromagnetic solenoid 34.

When the drive signal of the left door open switch 27a is input to the control device 50 among the door closing signals, the FET 61 is turned on by a command from the control device 50 (the control power supply is: For example, DC 15V, the drive power supply is, for example, DC 200V).

A specific configuration for driving the FET 61 on and off will be described. A terminal on the output side from the control device 50 is connected to the base side of the npn type first transistor 71, and the collector side of the first transistor 71 is a pnp type second transistor via a resistor 69. The control power is supplied by being connected to the collector side of 67, while the emitter side is connected to the base side of the second transistor 67 and the third transistor 68, and is further connected to the gland via the resistor 70. Connected.

The emitter side of the second transistor 67 is connected to the emitter side of the pnp type third transistor 68 and is connected to the source side of the FET 61 via a resistor 64. The collector side of the third transistor 68 is connected to a gland.

In addition, the resistor 64 is connected in parallel with a circuit in which the resistor 66 and the diode 65 are connected in series, and the resistor 64 and the gate of the FET 61 are connected through the resistor 63. It is connected to the land.

In the case of the above structure, when the signal from the control device 50 is input, the first transistor 71 is turned on. In this case, since the control voltage is supplied to the collector side of the second transistor 67, the second transistor 67 is turned on so that a current flows between the collector emitters. Since the current to the base side of the third transistor 68 is cut off, the third transistor 68 is turned off and the FET 61 is turned on. On the other hand, when the ON signal from the control device 50 is interrupted, the first transistor 71 is turned off and the third transistor 68 is provided through the resistor 70 grounded by the gate residual charge of the FET 61. Since the base current flows through, the third transistor 68 is turned on, the gate charge of the FET 61 is released, and the FET 61 is turned off.

In addition, the FET 61 is driven to control the output voltage by PWM control for controlling the time ratio by changing the on time (pulse width), and the on signal (PWM signal) of the FET 61 is hard to be heard by the user's ear. The frequency is, for example, 8 kHz or more.

The most sensitive response in the average audible region of a person is around 4 kHz. When the electromagnetic solenoid 34 is energized by a PWM signal in the vicinity, the tip of the pressing member 37 is shown in this embodiment. Since the contact with the left and right doors (20a, 20b), the PWM signal is transmitted to the left and right doors (20a, 20b) to generate a vibration sound, the user may feel noise. If the frequency of the PWM signal is too low, the pressing member 37 cannot protrude sufficiently. For this reason, it sets to the PWM signal of 8 kHz or more which is a high frequency so that a door can be opened reliably except the hearing which feels noise.

In addition, since the right door opening circuit 52 is the same structure as the left door opening circuit 51, the description is abbreviate | omitted.

Next, the operation of the door opening device 30 when opening the left door 20a will be described with reference to FIG. 1 showing a time chart.

Since the left door 20a is not required to operate the left door opening mechanism 31 of the door opening device 30 in the state where the door is opened, that is, when the left door switch 26a is turned off, that is, the door If the left door opening switch 27a is pressed by the user at the timing ta when the closing signal is output, a drive signal is output to the control device 50 to energize the left door opening mechanism 31.

By the driving of the left door opening mechanism 31, the pressing member 37 protrudes and presses the left door 20a, and the suction of the magnet gasket 21a is peeled off, so that the left side as shown in Fig. 7 at the timing of tb. The door switch 26a is turned on and outputs a door open signal.

When the control device 50 receives this door open signal, the left door 20a peels the magnet gasket 21a and assumes that the door is open to a predetermined position, and the predetermined time from the timing of this tb to tc, For example, it is energized for 0.1 second, and the left door 20a is fully opened.

According to the said structure, since the electricity supply to the door opening device is supplied until the predetermined time passes after the door opening signal is output by the door switch, the door can be reliably opened.

Conventionally, when the door opening switch is turned on, only a predetermined voltage is supplied to the electronic solenoid for a predetermined time, for example, 0.2 seconds to 0.3 seconds, so that the door is opened according to the closing time of the door and the loading amount of the storage pocket. When the required force is changed, the door is too weak to be opened, and the door cannot be opened sufficiently. On the other hand, there is a problem that the food loaded in the storage pocket falls down.

Specifically, the force to open the door of the refrigerator depends on the passage of time after the door is closed. Since the internal temperature of the refrigerator becomes low temperature after a certain time has elapsed since the door is closed, the pressure in the refrigerator is lowered by the compression of the air in the refrigerator, and the difference between the atmospheric pressure and the pressure in the refrigerator is increased.

In general, a lower internal pressure than outside air means that the force applied to the door closing direction is greater when the door is opened, and the force required for peeling the magnet gasket to open the door naturally becomes larger, so that a predetermined voltage is equally maintained. In some cases, the door could not be opened even when supplied to the solenoid or the door opening speed was too high.

In addition, if contamination is attached to the weight of the food or the magnet gasket loaded in the storage pocket, the force required to open the door is changed by the viscosity.

Therefore, according to the present invention, it is possible to energize the door opening device until the magnet gasket having a large change in the force required to open the door is released, specifically until the door opening signal is output by the door switch, In addition, the door can be opened most appropriately by continuing the power supply to the door opening device for a predetermined time after the door opening, in which the force required for the door opening is not largely changed.

In addition, although this embodiment demonstrated the left and right refrigerators, in the present invention, even one door can exhibit the same effect.

In addition, it is preferable to set an upper limit, for example, between 1.5 seconds between ta and tb from when the door open switch is turned on until the door switch turns on the door open signal. It is usually 0.2 to 0.3 seconds, but if there is an obstacle on the front face of the door and the power is applied indefinitely in a state in which the door cannot be opened, the electromagnetic solenoid may become hot and burn out. Therefore, such a problem can be prevented by setting the upper limit obtained by experiment or the like so that such a problem does not occur.

In addition, since the door opening force is not required after the timing tb when the door opening is detected, the output voltage is reduced by varying the PWM duty or output as indicated by the broken line in FIG. The voltage may be gradually lowered.

Next, for another embodiment, FIG. 2, which is a time chart showing the operation of the door opening device in which the other door is opened while the one door is open, the upper portion showing the refrigerator when opening the right door. Referring to Fig. 8, which is a shaving plane, and Fig. 9, which is a top view showing a refrigerator when the left door is opened in a state where the right door is open. In addition, since the thing of the same structure is duplicated, the description is abbreviate | omitted.

In the state where the left and right doors 20a and 20b are closed together, when either one of the right door opening switches 27b is turned on at the timing td, the right door opening mechanism 32 is energized, and FIG. As shown in the figure, when the right door switch 26b turns on the door open signal at the timing te at which the right door 20b opens the door, the right door 20b is energized for a predetermined time from te to tf, here 0.1 seconds. To open. In this case, the right door switch 26b continues to be on.

Since either of the doors is open and there is no negative pressure, and one of the magnet gaskets 21a and 21b does not adsorb to the rotary partition plate 25, the force required than when the door is closed is reduced. do. Therefore, when the door is opened with the same force as when it is closed, the protrusion of the pressing member may be excessively strong, which may cause problems such as falling of the food loaded in the storage pocket.

Therefore, in this embodiment, the predetermined time from the opening of the door to the interruption of the energization is made shorter than when one of the doors is closed.

Specifically, since the other door, in this case, the left door 20a, is opened at the timing tg, when the user turns on the left door opening switch 27a, the left door opening mechanism part 31 is opened. Energizes the electromagnetic solenoid 34, and presses the left door 20a by the pressing members 3 and 7.

As shown in Fig. 9, when the magnet gasket 21a is peeled off and the door opening signal of the left door switch 26a is turned on at the timing of th, the predetermined time when the door is closed from the timing of this th It is shorter than the time, and energizes for shortening time here, 0.05 seconds, and it completes power supply in the timing of ti.

According to the above-described configuration, when opening the other door in a state in which one door is open, the door opening force is made shorter than when it is closed after a predetermined time from the door opening to the interruption of energization. By reducing this, the door can be opened most appropriately.

In this case, as shown by the dotted line in Fig. 2, instead of shortening the energization time, the PWM duty is varied to reduce the power supply voltage to the electromagnetic solenoid 34 to 70% to 80%, for example. The opening force can be reduced.

In addition, the most loaded load when opening the door with the rotary partition plate 25, here the left door 20a, is when the rotary partition plate 25 is rotated, and depending on the shape of the refrigerator, the left door switch ( Even if 26a) is in the on state, the rotary partition plate 25 may be rotating. Therefore, even if the right door 20b is opened, the door opening force to the left door 20a may not be reduced. . Therefore, in such a case, it is preferable to apply only to the door which does not have the rotating partition plate 25.

In another embodiment, Fig. 3, which is a time chart showing the operation of the door opening device when the time from when the door opening switch is turned on to when the door switch is turned on is shorter than the energization change time, is shown in FIG. A description is given with reference to FIG. 4, which is a time chart showing the operation of the apparatus. In addition, since the thing of the same structure is duplicated, the description is abbreviate | omitted.

As described above, since the force required to open the door varies greatly depending on the use situation of the refrigerator 1, it is preferable to appropriately change the door opening force, but in this embodiment, the door is opened after the door opening switch is turned on. The door opening force is changed based on the time until the switch is turned on.

Specifically, as shown in Fig. 3, when the left door 20a is turned on at the timing tj by the user when opening the left door 20a, the left door opening mechanism part ( Power supply to 31 is started and the left door 20a is pressed by the pressing member 37.

At this time, the time from the timing of tj until the left door switch 26a is turned on is measured by the control device 50, and this measurement time and a predetermined energization switching time, for example, 0.5 seconds, are measured. Compare. In the case where this measurement time is shorter than the energization switching time, it is determined that the door opening force does not need to be particularly strong, and therefore, from the timing of tk when the left door switch 26a is turned on, a predetermined time as usual, for example, 0.1 second Or it energizes for short time shorter than predetermined time, for example, 0.05 second, and complete | finishes electricity supply in the timing of t1.

On the other hand, as shown in Fig. 4, when the measurement time from the timing of tj until the left door switch 26a turns on is longer than the energization switching time, it is determined that the door opening force needs to be strengthened, and the left door switch The energization is terminated at the timing of tn by energizing an extension time longer than a predetermined time, for example, 0.15 seconds or a normal predetermined time, for example, 0.1 seconds, from the timing of tm when 26a is turned on.

According to the above configuration, since the energization time is changed based on the time required until the door is opened, the door opening of the door opening device is changed even if the force required for the door opening is changed by the influence of the food load loaded in the storage pocket. Force can be varied most appropriately. In addition, in the present embodiment, the same effect can be exerted even in the refrigerator of one door, and the output voltage may be increased or decreased by changing the PWM duty instead of changing the energization time.

The embodiment of the present invention described above is an example, and various combinations and illustrated numerical values may be optimized. In addition, the door opening device is not limited to the mechanism which protrudes the pressing member by the energization of the electromagnetic solenoid, and various modifications are possible.

Hereinafter, another embodiment of the present invention will be described. FIG. 13 is a perspective view showing a refrigerator according to another embodiment of the present invention, and FIG. 14 shows a state in which the refrigerator of FIG. 13 is opened. 13 and 14, in the refrigerator main body 1 composed of a heat insulating housing having a known structure, a refrigerating chamber 2, a vegetable chamber 3, an ice making chamber 4, and a switching chamber capable of switching the internal temperature in multiple stages ( 5) The freezing chamber 6 is provided in order from the top, and the ice-making chamber 4 and the switching chamber 5 are arranged side by side.

In the following, only portions different from the above-described embodiment will be described in order to avoid redundant description.

The configuration of FIG. 13 differs from the following in relation to FIG. 5 described above.

The operation part 28 which adjusts the temperature of a storage compartment etc. is provided in the front surface of the right side door 20b, The store display mode mentioned later is also normal cooling by operation of this operation part 28. It is supposed to switch between the mode and the store display mode.

14, the pressure switch 81 and the weight sensor 83 are added to FIG. 6 described above.

In addition, the upper side figure which shows the refrigerator 1 at the time of opening the left door 20a is the same as that of FIG. 7 mentioned above.

Next, the control circuit of the present invention will be described with reference to FIG. 16, which is a control block diagram.

The configuration in FIG. 16 corresponds to FIG. 10, which is a control block diagram of the above-described embodiment.

In the following, only portions different from the above-described embodiment will be described in order to avoid redundant description.

The control device 50 receives a door opening signal or a door closing signal from the left door switch 26a and the right door switch 26b corresponding to the door opening state of the left and right doors 20a and 20b, and the left door opening switch 27a, a drive signal is input from the right door opening switch 27b.

On the basis of such a signal, the control device 50 determines the PWM duty output by the load detection means 80 described later, when the drive signal is input when the door closing signal is input, and left the PWM signal on the left side. The door opening circuit 51 or the right door opening circuit 52 is output.

Hereinafter, the left door opening circuit 51 will be described. One end of the electromagnetic solenoid 34 is connected to the positive output terminal of the double voltage rectifier circuit (not shown), and the other terminal is connected to the drain side of the driving FET 61. The diode 62 is connected in parallel to both terminals of the electromagnetic solenoid 34.

When the drive signal of the left door opening switch 27a is input to the control device 50 among the door closing signals of the left door switch 26a, the FET 61 is turned on by the PWM signal from the control device 50. (The control power supply is DC 15V, for example, and the drive power supply is DC 200V, for example).

Next, in Fig. 16, the specific configuration for driving the FET 61 on and off is the same as in the above-described embodiment shown in Fig. 10, and thus the description thereof is omitted.

In addition, since the right door opening circuit 52 is the same structure as the left door opening circuit 51, the description is abbreviate | omitted.

Next, the load detection means 80 will be described. The load detection means 80 is provided in the control device 50, and detects the load at the time of opening the door to an input value such as each switch or sensor. In the present embodiment, the presence or absence of food is detected. .

Specifically, the pressure switch 81 is provided on the bottom or back of the storage pockets 23a and 23b of the left door 20a and the right door 20b, and drinks and foods such as PET bottles are placed in the storage pocket. When stored, it is judged that the push switch 81 is pushed by the container of the food and the like and the food is loaded. On the contrary, when the food is taken out, the pressure by the food is released, so that the food is not loaded.

In this case, the infrared sensor 82 may be used for the switching of the pressure switch 81, and food management by the user, such as the operation unit 28, is carried out by the user arbitrarily loading the food into the storage pockets 23a and 23b. In the refrigerator which can be performed, the presence or absence of food may be determined based on this information.

Next, the operation of the door opening device 30 when the door is opened will be described with reference to FIG. 12 as a flowchart. For simplicity, the door opening of the left door 20a will be described as an example.

In step S1, since it is not necessary to operate the door opening device 30 in the state in which the left door 20a is open, it is detected whether the left door switch 26a is off, and if it is off, the step Proceed to S2.

In step S2, when the left door switch 26a outputs the door closing signal, it is detected by the user whether the left door opening switch 27a is pressed, and when it is turned on, the user turns on the door of the left door 20a. It is assumed that the opening is requested, and the flow proceeds to step S3.

In step S3, the load at the time of opening the left door 20a by the load detection means 80 is detected.

This is because the force required to open the door is different from when the food is loaded in the storage pocket 23a, for example, a heavy PET bottle, and when it is not loaded. To vary the door opening force of the device 30.

At this time, when the electronic solenoid 34 is energized with a constant output voltage, the rotary stopper of the hinge portion which is not open when the food is loaded has a small opening degree, or when the food is not loaded with a good or excessive opening. There is a fear that noise may occur due to collision or protrusion sound.

Therefore, in step S4, it is determined whether the load at the time of opening the door is heavy. In this embodiment, it is determined whether food is loaded in the storage pocket 23a, and if the food is loaded, the load at the time of opening the door is determined. It judges that it is heavy, and it progresses to step S5. If food is not attached, it judges that the load at the time of opening a door is light, and it progresses to step S6.

In step S5, the door opening force is increased. Specifically, the PWM duty to the door opening device 30 is set high, for example, 100%. On the other hand, in step S6, the door opening force is reduced. Specifically, the PWM duty to the left door opening device 31 is set low, for example, 90%.

Then, in step S7, the left door opening device 31 is energized based on the PWM duty set respectively. In this way, the left door 20a is pressed by the door opening force of the door opening device 30 suitably determined, and the door is opened so that energization is interrupted after a predetermined time, for example, 3 seconds have elapsed.

According to the above configuration, when it is determined that the load at the time of opening the door is heavy, the door opening force of the door opening device 30 is increased or when it is determined that the load at the time of opening the door is light, the door opening device 30 is determined. By reducing the door opening force of), it is not too strong or too weak to open the door most appropriately.

In addition, since the load at the time of opening the door is judged based on the presence or absence of food, the load applied at the time of opening the door can be detected reliably, so that the door can be opened most appropriately.

In addition, in the above-described configuration, the operation of the door opening device 30 when the left door 20a is opened is described. However, the operation of the door 20b is similarly performed. As a method, the energization time may be extended or shortened. In addition, you may determine each door opening force according to the quantity of food.

Next, another embodiment will be described. In this embodiment, the load detection means 80 detects the load when the door is opened in accordance with the weight of the food loaded in the storage pockets 23a and 23b.

Specifically, the weight sensor 83 is disposed on the bottom surfaces of the storage pockets 23a and 23b, and the weight information detected by the weight sensor 83 is transferred to the control device 50 as shown in FIG. Based on this weight information, the load applied when the load detection means 80 opens the door is determined. For example, if the detected weight is 1 kg or more, it is determined that the load is heavy, and if it is less than that, it is determined that the load is light.

According to the above configuration, since the load on the doors 20a and 20b can be reliably detected, the load at the time of opening the door can be detected more accurately, and therefore the door can be opened most appropriately.

Next, another embodiment will be described. In this embodiment, both the left door switch 26a and the right door switch 26b detect the load on the opening of the left and right doors based on the time for outputting the door closing signal.

The force to open the doors 20a and 20b of the refrigerator 1 depends on the closing time. Since the temperature inside the refrigerator when a certain time has elapsed since the closing becomes a lower temperature than immediately after the closing, the pressure in the refrigerator decreases, and the difference between the atmospheric pressure and the pressure inside the refrigerator increases.

In general, the large difference between the outside pressure and the high internal pressure means that the force applied in the closing direction when opening the doors 20a and 20b is large, and the force required to release the magnet gaskets 21a and 21b to open the door is also great. As a matter of course, the door cannot be opened even when a predetermined voltage is supplied to the electromagnetic solenoid 34 in a similar manner, or the door opening speed may be too high.

Therefore, when the state in which both the left and right door switches 26a and 26b output the door closing signal has elapsed for a predetermined time, for example, 1 hour or more, since the inside of the refrigerator is under negative pressure, the load at the time of opening the door is increased. Increase the door opening force (e.g., 100% PWM duty). On the contrary, when it has not passed, it is assumed that there is no negative pressure, and the door opening force is reduced (for example, 70% of PWM duty).

According to the above configuration, the door can be opened most appropriately because the refrigerator varies the door opening force according to the closing time even if the force required when the door is opened without opening the door for a long period of time.

Next, another embodiment will be described as a method of determining the load on the left and right doors. The load detecting means 80 compares the measurement time from the output of the drive signal at the time of the last door opening to the output of the door opening signal and a predetermined time set so as to detect the load on the door opening. Doing.

Normally, the load on the left door 20a side in which the rotary partition plate 25 is installed is heavy, but if dirt is attached to the magnet gasket 21b of the right door 20b not installed, The adhesive force may be heavy when the right door 20b opens the door, and it may not be preferable to open the door from the left door 20a in advance.

Therefore, the time until the door is opened after the door opening switches 27a and 27b are operated, respectively, in the door opening operation of the previous left door 20a and the right door 20b, specifically, the left door switch. The measurement time until the 26a and the right door switch 26b output the door open signal is recorded in the control device 50, respectively. And when the door open switch 27a, 27b is operated, it determines with the light load at the time of opening the door with the shorter measurement time.

This is because, before and after using the door opening device 30 for a short period of time, there is no change in contamination of the magnet gaskets 21a and 21b, and the last measurement time can be regarded as a load when the door is actually opened. .

Therefore, according to the above structure, the door can be opened more reliably from the lighter side.

Next, another embodiment will be described. In this embodiment, when the door opening signal is output by one of the door switches 26a and 26b, the load at the door opening is determined to be light when the other door is opened. .

As described above, since the inside of the refrigerator is under negative pressure in the state in which both the doors 20a and 20b are closed, the load at the time of opening the door is increased, but it is not under pressure when either door is open. Therefore, the load at the time of opening a door becomes small.

In addition, as a factor which causes the load at the time of opening a door, peeling of the magnet gaskets 21a and 21b is considered, but if either door is open, the magnet gasket (the opposite side of the doors 20a and 20b) ( Since 21a and 21b are already peeled off, the load at the time of door opening is reduced.

Therefore, in this embodiment, when opening the left door 20a or the right door 20b as shown in Fig. 15, it is detected whether the other door is open, and if the door is open, the door is opened. The load at the time is regarded as small and the door opening force is reduced (for example, 50% of PWM duty).

According to the above configuration, when one door is opened in the refrigerator of the left and right swing doors, the door opening force is reduced, so that the door can be opened most appropriately.

Next, another embodiment will be described. In the present embodiment, a configuration in which a display mode for a store in which only a predetermined electric component is operated without cooling the refrigerator 1 is provided.

The store display mode is a mode for promoting sales at the storefront. In general, since the storehouse does not need to cool the storehouse, the compressor is stopped, but the storehouse and the fan are operated.

In this mode, the door opening device 30 is also set to be driven. However, since the interior of the refrigerator is not cooled, the interior of the refrigerator does not become a negative pressure. Therefore, when the door opening device 30 is operated with the same door opening force as in the case of cooling operation, the door opening speed becomes too strong. In addition, since food is not loaded in the shop, the load when the door is opened is also light.

Therefore, when the display mode for the store is put in by the operation of the operation unit 28 or the like, since the inside of the refrigerator is not under negative pressure, it is determined that the load at the time of opening the door is light, thereby reducing the door opening force (for example, PWM duty 70%), the door can be opened most appropriately.

Next, another embodiment will be described. In this embodiment, it is assumed that the load at the time of opening the door is light only when the door on the side where the rotary partition plate 25 is installed is opened.

The load at the time of opening the door varies depending on whether or not the food is loaded, whether the inside of the refrigerator is under negative pressure, or whether the door is open as described above, but rotating the rotary partition plate 25 is the door opening. It is one of the factors of the load on the machine.

Therefore, the door opening force of the door opening device 30 is set to reliably open the left door 20a on which the rotary partition plate 25 is installed, but rotating the rotary partition plate 25 takes the most load. Therefore, it may not be desirable to increase or decrease the door opening force due to other factors.

Therefore, since the load at the time of opening a door is judged to be light only when the door of the side in which the rotational partition plate 25 was installed is opened in the door open state, the rotational partition plate The door on the side where 25 is installed can be reliably opened, and the other door can be opened according to the specification situation of the refrigerator, so that the door can be opened most appropriately.

In addition, the structure mentioned above is one Embodiment of this invention, and various changes are possible. For example, although the electricity supply to the electromagnetic solenoid 34 is cut off after a predetermined time elapses, electricity supply may be interrupted after a predetermined time elapses after the door switch outputs a door opening signal after starting the electricity supply.

Hereinafter, another embodiment of the present invention will be described. Fig. 13 is a perspective view showing the refrigerator of the present invention, and Fig. 14 shows a state where the door of the refrigerator of Fig. 13 is opened. 13 and 14, in the refrigerator main body 1 composed of a heat insulating housing having a known structure, a refrigerating chamber 2, a vegetable chamber 3, a product chamber 4, and a switching chamber capable of switching the internal temperature in multiple stages ( 5) The freezing chamber 6 is provided in order from the top, and the stock room 4 and the switching chamber 5 are arranged side by side.

In the following, only portions different from the above-described embodiment will be described in order to avoid redundant description.

In FIG. 13, the operation part 28 which performs temperature adjustment of a storage chamber, etc. is provided in the front surface of the right door 20b.

In addition, the upper side figure which shows the refrigerator 1 at the time of opening the left door 20a is the same as that of FIG. 7 mentioned above.

Next, the control circuit of the present invention will be described with reference to FIG. 16, which is a control block diagram. The control device 50 receives a door opening signal or a door closing signal from the left door switch 26a and the right door switch 26b according to the door opening state of the left and right doors 20a and 20b, and the left door opening switch ( 27A) and a drive signal are input from the right door open switch 27b.

In the following, only portions different from the above-described embodiment will be described in order to avoid redundant description.

In addition, since the right door opening circuit 52 is the same structure as the left door opening circuit 51, the description is abbreviate | omitted, but the left door opening circuit 51 and the right door opening circuit 52 are each electrically independent. I'm making it.

In general, the electric circuit includes a noise filter circuit composed of a common mode choke coil that removes noise from the outside. When each door opening circuit 51 and 52 has a common line, all currents Since the current flows through the common mode choke coil, the coil must be enlarged to secure the current capacity of the noise filter circuit. However, if it is electrically independent as in the present embodiment, the current capacity does not need to be increased, and thus the size can be reduced.

Next, the operation of the door opening device 30 when the door is opened will be described. In addition, since the operation | movement which opens the left door 20a and the left door 20b is the same, it demonstrates taking the left door 20a as an example.

Since the left door opening device 31 does not need to operate in the state where the left door 20a is open, the left door switch 26a is turned off when the door closing signal is being output, that is, off. When the left door opening switch 27a is pushed on by the user at the time, a drive signal is output to the control device 50 to energize the left door opening device 31.

At this time, the pressing member 37 protrudes to press the left door 20a, and the suction of the magnet gasket 21a is peeled off, so that the left door switch 26a is turned on as shown in FIG. Outputs Usually, the time from the left door open switch 27a to the on time until the left door switch 26a is on is 0.2 seconds to 0.3 seconds.

When the control device 50 receives this door opening signal, it is recognized that the magnet gasket 21a is peeled off and the door is opened to a predetermined position, and the control device 50 is energized for a predetermined time, for example, 0.1 second, and the left door 20a ) To open the door completely.

Next, the operation of the left and right door opening device in the case where the other door opening switch is operated when the one door opening device is energized will be described with reference to FIG. In this case, the case where the right door opening switch 27b is operated when the left door opening device 31 is energized will be described as an example.

In step S11, when the left door 20a and the right door 20b are open, the door opening device 30 does not need to be operated. Therefore, the left door switch 26a and the right door switch 26b are turned off together. It is detected whether it is (step S11), and if it is off, it progresses to step S12. When the other door switch is operated while one door is open, the electricity supply is started to the door opening device on the other door side as usual. Of course, since one of the doors is open, the load on the door is lighter, so the door opening force may be reduced.

In step S12, it is detected whether the left door opening switch 27a or the right door opening switch 27b has been operated (step S12), and when it is operated, it is determined that the door opening is requested by the user, and the flow advances to step S13.

 In step S13, it is detected whether the other door opening switch has been operated, that is, whether or not the door opening switches 27a and 27b have been operated simultaneously (step S13). If not, it progresses to step S15.

In step S14, it is detected whether a predetermined time e.g. 0.02 seconds has elapsed since one door opening switch is operated (step S14). That is, even if it is simultaneous, since the user's operation usually has a time lug, if the other door opening switch is operated within a predetermined time after one door opening switch is operated, it is regarded as operated simultaneously.

Therefore, even if this predetermined time has elapsed, if the other door opening switch is not operated, it is judged not to be operated at the same time, and the flow proceeds to step S15, and the door opening device 30 on the side where the door opening switch is operated as described above, Here, energization to the left door opening device 31 is started (step S15). On the other hand, when this predetermined time has not passed, it returns to step S13.

In addition, since this predetermined time is the time which does not conduct electricity to the door opening device 30, when it sets too long, even if the door opening switch is operated, the door opening device 30 does not operate considerably, and the user feels uncomfortable. It is preferable that it is 0.05 second or less because it may reduce.

In step S16, it is detected whether the electricity supply of the left door opening device 31 is complete | finished (step S16). Specifically, power supply is started to detect whether a predetermined time has elapsed since the left door switch 26a is turned on, and when the predetermined time has elapsed, the process proceeds to step S17.

In step S17, it is detected whether the other door opening switch 27, here the right door opening switch 27b, has been operated during the energization to the left door opening device 31 (step S17). Power is started to the door opening device 30 on the side of the operation and here, the right door opening device 32 (step S18).

That is, even when the other door opening switch is operated during the power supply to one door opening device, the power supply to the other door opening device is not performed until the power supply of the one door opening device is completed. It is possible to prevent excessive current from flowing without energizing the door opening device.

By the way, as mentioned above, depending on a user's operation, the left and right door opening devices may be operated simultaneously, and the operation | movement at the same time is demonstrated below.

In step S19, the load at the time of opening the door of the left and right doors 20a and 20b is determined (step S19). As an example, since the load applied when the one installing the rotary partition plate 25 rotates is large, it is judged that the load is heavy when opening the left door 20a provided with the rotary partition plate 25. do.

In step S20, electricity supply is started from the door side where the load judged in step S19 is light (step S20). Here, since the load at the time of opening the door without installing the rotary partition plate 25 in the right door 20b is lighter than that of the left door 20a, energization to the right door opening device 32 is started to start the right door 20b. Open).

At this time, even if the left door opening switch 27a is operated to the extent that the left door opening switch 27a is regarded at the same time as the right door opening switch 27b, as shown in FIG. ) To open the door.

In step S21, in order to prevent the power supply to the left and right door opening devices 31 and 32 from overlapping like in step S16, it is detected here whether or not the power supply to the right door opening device 32 is finished (step S21). When this is complete, it progresses to step S21.

In step S22, the energization to the heavy door of the load judged in step S16 is started (step S22). Here, energization to the left door opening device 31 is started to open the left door 20a.

As described above, the reason for opening the door from the lighter side is that if the door switch is energized until the door switch is turned on and the predetermined time elapses, as in the present embodiment, at least the door switch is turned on. Since power is not started to the door opening device on the side, if the load is energized from the heavy door side, it takes time until the door switch is turned on (for example, 0.5 seconds to 1.5 seconds), and the other door This is because there is a risk of discomfort to the user because it is not open.

Therefore, even when the door opening switches 27a and 27b are operated at the same time, by opening the door from the lighter side when the door is opened, the door opening device 30 is reliably operated without causing discomfort to the user. can do.

According to the above-described configuration, even when the other door opening switch is operated while the one door opening device is energized, the other door opening device is not energized until the power is finished. The energization of the devices can be prevented from overlapping, and the operation of the breaker of the commercial power supply can be avoided.

In addition, when the door opening switch is operated at the same time, the door can be opened from the lighter side by opening the door from a door that does not have such a rotating partition plate of the load when the door is opened, so that the user can feel uncomfortable without discomfort. The door opening device can be operated.

Next, another embodiment will be described as a method of determining the load on the left and right doors.

The load detection means 80 is provided in the control apparatus 50, and it detects the load at the time of opening a door to input values, such as each switch and a sensor, and detects the presence or absence of food in this embodiment. have.

This is because the load on opening the door is different from the case where the food, such as a PET bottle with heavy load, is loaded in the storage pocket 23a, for example, and the rotary partition plate 25 is provided. This is because, in the form of a refrigerator not to be used as well as in the form of a refrigerator installed in the present embodiment, the load when the door is opened may be heavy depending on the presence or absence of food.

Specifically, the pressure switch 81 is provided on the bottom or back of the storage pockets 23a and 23b of the left door 20a and the right door 20b, and drinks and foods such as PET bottles are placed in the storage pocket. When stored, it is judged that the push switch 81 is pushed by the container of the food and the like and the food is loaded. On the contrary, when the food is taken out, the pressure by the food is released, so that the food is not loaded.

In addition, the infrared sensor 82 may be used for switching of the pressure switch 81, and food management by the user, such as the operation unit 38, may be performed by the user arbitrarily loading the food into the storage pockets 23a and 23b. In a refrigerator which can be used, the presence or absence of food may be determined based on this information.

In this operation, in step S19, the load detecting means 80 detects the presence or absence of food in the left door 20a and the right door 20b, and the food is loaded on one of the left and right doors 20a, 20b. If it is determined that food is not loaded in the other door, it is determined that the load on the door on which the food is not loaded is light. In addition, when it is determined that food is not loaded or food is loaded in both the left and right doors 20a and 20b, the door on the side where the rotary boundary plate 25 is not provided may be determined to be heavy.

According to the above-described configuration, since the loads of the left and right doors can be detected respectively according to the use situation of the user, the door can be opened from the lighter side with a lighter load.

In addition, when multiple foods can be detected, load may be judged according to the number of foods.

In addition to the presence or absence of food, the weight sensor 83 is disposed on the bottom surfaces of the storage pockets 23a and 23b, and as shown in FIG. 7, based on the weight information detected by the weight sensor 83. FIG. By determining the load on the left and right doors 20a and 20b, the load at the time of opening the door can be detected more accurately than the presence or absence of food.

Next, another embodiment will be described as a method of determining the load on the left and right doors. The load detection means 80 compares the measurement time from the output of the drive signal at the time of the last door opening to the output of the door opening signal and a predetermined time, so as to detect the load on the door opening. have.

Normally, the load on the left door 20a side in which the rotary partition plate 25 is installed is heavy, but if dirt is attached to the magnet gasket 21b of the right door 20b not installed, The adhesive force may be heavy when the right door 20b opens the door, and it is not preferable to open the door from the left door 20a in advance.

Therefore, the time until the door is opened after the door opening switches 27a and 27b are operated, respectively, in the door opening operation of the previous left door 20a and the right door 20b, specifically, the left door switch. The measurement time until the 26a and the right door switch 26b output the door opening signal is recorded in the control device 50, respectively. And when door opening switch 27a, 27b is operated, it is determined in step S19 that the load at the time of opening a door with the shorter measurement time is light.

This is because, before and after using the door opening device 30 for a short time, the magnet gaskets 21a and 21b have no change in contamination, and the previous measurement time can be regarded as the load when the door is actually opened. to be.

Therefore, according to the above structure, the door can be opened more reliably from the lighter side.

In addition, the above-described configuration is an embodiment of the present invention, it is possible to optimize the illustrated numerical value according to various combinations, the shape of the refrigerator. For example, the power supply to the door opening device 30 is to be terminated after a predetermined time has elapsed since the door switch is turned on. You may make it.

In addition, since the present invention is an operation method of the door opening device when the other door opening switch is operated during energization to one door opening device or the door opening switch is operated at the same time, the rotary partition plate 25 It is also adaptable to the refrigerator of the left and right swing door which is not provided.

According to the present invention, the door opening device must always be connected to the door opening device until the magnet gasket having a large change in the force required for the door opening is released according to the load state of the refrigerator door, specifically, until the door opening signal is output by the door switch. After the door is opened, which can be energized and the force required to open the door is not significantly changed, the door can be most appropriately opened by energizing the door for a predetermined time to interrupt the power supply to the door opening device.

According to the above invention, since the load at the time of opening the door is detected by the use situation of the refrigerator and the door opening force of the door opening device is appropriately changed, the door can be opened most appropriately.

According to the above invention, in the refrigerators of the left and right swing doors, the door opening is surely performed without excessive current flowing even when the other door opening switch is operated or at the same time while the one door opening device is energized. Can provide a refrigerator.

1 is a time chart showing the operation of the door opening device of the present invention.

Figure 2 is a time chart showing the operation of the left and right door opening mechanism of the present invention.

Fig. 3 is a time chart showing the operation of the door opening device when the measurement time of the present invention is short.

Fig. 4 is a time chart showing the operation of the door opening device when the measurement time of the present invention is long.

5 is a perspective view showing a refrigerator of the present invention;

FIG. 6 is a perspective view showing an open state of the door of FIG. 5; FIG.

Fig. 7 is a top view showing the refrigerator when the left door is opened.

Fig. 8 is a top view showing the refrigerator when opening the right door.

Fig. 9 is a top view showing the refrigerator when the left door is opened with the right door open;

10 is a control block diagram of the present invention.

Fig. 11 is a longitudinal sectional view showing the door opening device of the present invention.

Fig. 12 is a flowchart showing operation of the door opening device of the present invention.

Fig. 13 is a perspective view showing the refrigerator of the present invention.

Fig. 14 is a perspective view showing a state in which the door of Fig. 13 is opened.

Fig. 15 is a top view showing the refrigerator when the left door is opened with the right door open;

Figure 16 is a control block diagram of the present invention.

Figure 17 is a flowchart showing the operation of the door opening device of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: refrigerator body

20a: left door

20b: right door

21a, 21b: Magnet Gasket

22a, 22b: Bead

23a, 23b: storage pocket

25: rotating partition member

26a: left door switch

26b: Right door switch

27a: left door open switch

27b: Right door open switch

30: door opening device

31: left door opening mechanism

32: right door opening mechanism

34: electronic solenoid

37: pressure member

50: control unit

80: load detection means

81: pressure switch

82: infrared sensor

83: weight sensor

Claims (16)

A door which is provided to be opened and closed in the front opening of the main body storage compartment, a door opening device which protrudes the pressing member when the drive source is energized and presses the door surface to open the door, and a drive signal for driving the door opening device. A door switch for outputting by operation and a door switch for detecting the opening / closing state of the door and outputting a door opening signal and a door closing signal, and the door opening in a state where the door closing signal is output from the door switch. And when the drive signal is output from the switch, power supply to the door opening device is started, and power supply is continued until a predetermined time elapses after the door open signal is output by the door switch. The left and right doors of the left and right doors which are opened and closed in the front opening of the main body storage compartment, the left door opening device and the right door opening device which press the left and right door surfaces to open the door, respectively, A left door open switch and a right door open switch for outputting left and right drive signals respectively driving left and right door opening devices, a left door switch for detecting respective open / close states of the left and right doors and outputting respective door open signals and door close signals; Equipped with a right door switch, In a state where the door closing signal is output from the left and right door switches together, when a drive signal is output from one of the door opening switches, energization to the corresponding door opening device is started, and the door is opened by the corresponding door switch. After the signal is output, energization is continued at a predetermined voltage until a predetermined time elapses, When a drive signal is output from the other left door open switch or the right door open switch while the door open signal is output from either of the left and right door switches, the corresponding left door switch or right door switch And energization is continued at a voltage lower than a predetermined voltage until a time shorter than the predetermined time has elapsed after the door opening signal is outputted. The method according to claim 1 or 2, wherein when the time from when the drive signal is output when the door opening device is energized to when the door opening signal is output is less than or equal to the preset energization change time, the predetermined time is shortened or the energization voltage is reduced. A refrigerator, characterized by lowering the power supply. The left and right doors of right and left door type which are opened and closed in the front opening of the main body storage room, the left door opening device and the right door opening device which pressurize the left and right doors by electricity and open the door, and the user's operation And a left door opening switch and a right door opening switch for outputting a drive signal and energizing each of the left and right door opening devices, and load detection means for detecting a load applied when the left and right doors are opened. When opening both or one of the doors, when it is determined that the load at the time of opening the door is light by the load detecting means, the door is opened by reducing the door opening force of the left and right door opening devices. . The refrigerator according to claim 4, wherein the load detecting means detects a load applied when the left and right doors are opened by the presence or absence of food loaded in a storage pocket provided in both or one of the doors. 5. The load detection means according to claim 4, wherein the load detection means includes a weight sensor in the storage pockets provided in both or one of the doors, and detects the load applied when the left and right doors are opened based on the weight detected by the weight sensor. Refrigerator characterized in that. 5. The left and right doors according to claim 4, wherein the load detection means includes a left door switch and a right door switch that respectively detect the open / close state of the left and right doors, and is based on the closing time of both doors detected by the left and right door switches. The refrigerator characterized by detecting the load applied at the time of opening. 5. The load detecting means according to claim 4, wherein the load detecting means includes a left door switch and a right door switch for detecting the open / close state of the left and right doors, and after the last door opening switch is operated, the operated door switch is configured to open the door opening state. A refrigerator characterized by detecting a load applied when a door is opened, based on the measurement time until detection. The left and right doors of right and left door type which are opened and closed in the front opening of the main body storage room, the left door opening device and the right door opening device which pressurize the left and right doors by electricity and open the door, and the user's operation And a left door open switch and a right door open switch for outputting a drive signal to energize each of the left and right door opening devices, and a left door switch and a right door switch detecting the open / close states of the left and right doors, respectively. When the other door is opened with this left and right door switch being detected, the left door opening device or the right door opening device is judged to be light when the door is open when the other door is opened. Refrigerator, characterized in that to open the door by reducing the door opening force. The left and right doors of right and left door type which are opened and closed in the front opening of the main body storage room, the left door opening device and the right door opening device which pressurize the left and right doors by electricity and open the door, and the user's operation A left door opening switch and a right door opening switch for outputting a driving signal to energize each of the left and right door opening devices, and a display mode for shops for driving only a predetermined electric component without cooling the refrigerator; During the display mode of the store, when both or one of the left and right door opening switches are operated, it is determined that the load at the time of opening the door is light, and the door opening force of the left door opening device or the right door opening device is reduced. The refrigerator characterized by opening the door. The rotary partition plate according to any one of claims 4 to 10, wherein a rotary partition plate that rotates in accordance with the opening and closing operation of the left door or the right door and closes the gap facing the door when the door is closed is not provided. Only when opening the door of the non-side side, it determines with light load at the time of opening a door, The refrigerator characterized by the above-mentioned. The left and right doors of right and left door type which are opened and closed in the front opening of the main body storage room, the left door opening device and the right door opening device which pressurize the left and right doors by electricity and open the door, and the user's operation And a left door opening switch and a right door opening switch for outputting a driving signal to energize each of the left and right door opening devices, In the case where the other door opening switch is operated while the one door opening device is energized, after the power supply to the door opening device is finished, the other door opening device starts energization. Refrigerator. The refrigerator according to claim 12, wherein when the left and right door opening switches are operated at substantially the same time, electricity is supplied from the door opening device on the door side where the load at the time of opening the door is light. The rotary partition plate according to claim 13, wherein a rotary partition plate that rotates in accordance with the opening / closing operation of the left door or the right door and closes the gap facing at the time of closing the door, and is rotated when the left and right door opening switches are operated simultaneously. Refrigerator characterized by starting the power supply to the door opening device from the side not installed. The load detecting means for detecting the load applied when the left and right doors are opened, and when the left and right door opening switches are operated at about the same time, the energization from the lighter load to the door opening device is started. Refrigerator characterized in that. The load detection means is provided with the left door switch and the right door switch which detect the opening / closing state of the left and right doors, and after the last door opening switch is operated, the door switch of the operated side is made to open the door opening state. A refrigerator characterized by detecting a load applied when a door is opened, based on the measurement time until detection.