JP7237651B2 - storage - Google Patents

Description

The present invention relates to storage.

2. Description of the Related Art Conventionally, a storehouse equipped with a solenoid type door opening device (door opening unit) is known (for example, Patent Document 1). This type of storage is equipped with a sensor (switch) that receives a user's door opening operation (door opening input). Based on the output (detection signal) from the sensor, the solenoid of the door opening device is energized. As a result, a push rod provided by the solenoid is actuated to push open the storage door.

JP-A-2001-56176

In this type of storage, the door may be opened at a timing not intended by the user. For example, when the user is working in front of the storage, a part of the user's body may be unintentionally detected by the sensor and the door may be opened.

SUMMARY OF THE INVENTION An object of the present invention is to provide a storage that prevents the door from being opened by a door opening device unintended by the user.

A storage container according to the present invention includes a box-shaped storage body having an opening that opens forward and a frame that surrounds the opening; a door that is in close contact with the frame so as to close the opening when the door is open, and separates from the frame so as to open the opening in the open state, and pushes forward the closed door when energized. and an object detection that outputs a detection signal in a detection state in which an object is detected and stops outputting the detection signal in a non-detection state in which the object is not detected. and after receiving the detection signal from the object detection unit and continuing the detection state of the object detection unit, when the non-detection state continues for a predetermined time tc after the output of the detection signal is stopped, the open a controller that energizes a door device for a predetermined time td, wherein the controller energizes the door opening device for a predetermined time te (where te > td). Then, the detection signal from the door is not received, and a process of not energizing the door opening device is executed.

In the storage, when the non-detection state of the object detection unit continues for a prescribed time tf (where tf≤(te-td)) after the predetermined time td, the object detection unit You may perform the process which restarts acceptance of the said detection signal from.

In the storage, the door opening device may include a door push-out unit that pushes forward the closed door, and a driving unit that drives the door push-out unit so as to push forward when energized. .

ADVANTAGE OF THE INVENTION According to this invention, the storage which suppressed the door opening by the door-opening apparatus which a user does not intend can be provided.

FIG. 1 is a front view of a cooling storage according to Embodiment 1 of the present invention; Explanatory drawing schematically showing the opening and closing operation of the door Perspective view of the door opening device Explanatory drawing showing the door opening device before operation and the door in the closed state Explanatory drawing showing the door opening device after operation and the door in the open state Perspective view of the third door opening device for opening the third door of the lower stage Block diagram of the opening system of the cold storage Timing chart showing details of opening control of the first door

<Embodiment 1>
Embodiment 1 of the present invention will be described with reference to FIGS. 1 to 8. FIG. In this embodiment, a four-door cooling storage 1 is exemplified as the storage. FIG. 1 is a front view of a cold storage 1 according to Embodiment 1 of the present invention. As shown in FIG. 1, the cooling storage 1 includes a box-shaped storage body 2, a machine room 3 arranged above the storage body 2, and a door 4 rotatably attached to the storage body 2. and FIG. 2 is an explanatory diagram schematically showing the opening/closing operation of the door 4. As shown in FIG. The storage body 2 is a heat-insulating box body having an opening 20 that opens forward, and has a storage chamber 24 in which stored items are stored. A pair of left and right doors 4, 4 that open from the center to both the left and right sides are provided vertically in the storage body 2. - 特許庁That is, the storage body 2 is provided with four doors 4 . In this specification, of the upper pair of doors 4, 4, the door 4 on the right side facing the cooling storage 1 is referred to as "first door 4A", and the door 4 on the left side is referred to as "second door 4B". sometimes referred to as Also, of the pair of lower doors 4, 4, the door 4 on the right side facing the cooling storage 1 is referred to as "third door 4C", and the door 4 on the left side is referred to as "fourth door 4D". There is

Each door 4 is rotatably attached to the storage body 2 via a hinge member 41 including a hinge pin 40 . The opening 14 of the storage body 2 is partitioned into four by a vertically extending partition member (center pillar) 18 and a horizontally extending partition member. Each door 4 is assigned to open and close each of the four partitioned openings. A frame portion 26 surrounding each of the four partitioned openings is composed of the front end portion of the storage body 2, the vertically extending partition member 18, the horizontally extending partition member, and the like.

Each door 4 is provided with a handle 5. - 特許庁The handle 5 is used when the user manually opens the door 4. - 特許庁

A plurality of legs 21 are provided on the lower surface of the storage body 2 . Therefore, a space of a certain size is formed between the lower surface of the storage body 2 and the floor surface F on which the cooling storage 1 is installed.

The machine room 3 is a portion that accommodates a cooling device (cooling unit), an electrical box, and the like. The cooling system includes a condenser, a condenser fan, a compressor, and the like. The cooling device is circulatingly connected to a cooler provided in a cooler chamber provided on the ceiling side of the storage chamber in the storage body 2 by a refrigerant pipe. When such a cooling device is activated, the cooler produces cool air. Cool air generated by the cooler is sent to the storage compartment by a cooling fan installed in the cooler compartment. As will be described later, the machine room 3 is provided with a door opening device 6 (6A, 6B) for opening the first door 4A and the second door 4B.

The door opening device 6 is an electric device for opening the door 4 without the user using the handle 5 . One door opening device 6 is assigned to each of the four doors 4 . That is, four door opening devices 6 are installed in the cooling storage 1 of this embodiment. In this specification, the one that opens the first door 4A is called "first door opening device 6A", and the one that opens the second door 4B is called "second door opening device 6B". , the device that opens the third door 4C may be called the "third door opening device 6C", and the device that opens the fourth door 4D may be called the "fourth door opening device 6D".

The first door opening device 6A is installed above the first door 4A and on the central side of the cooling storage 1 . The second door opening device 6B is installed above the second door 4B and on the central side of the cooling storage 1 . The first door opening device 6A and the second door opening device 6B are arranged on the front end side of the machine room 3 . The first door opening device 6A and the second door opening device 6B have symmetrical external shapes, but have the same basic configuration.

The third door opening device 6C is installed below the third door 4C and on the central side of the cooling storage 1 . The fourth door opening device 6D is installed below the fourth door 4D and on the central side of the cooling storage 1. As shown in FIG. The third door opening device 6</b>C and the fourth door opening device 6</b>D are arranged on the front end side of the lower surface of the storage body 2 while being accommodated in the box-shaped mounting portion 22 . Although the third door opening device 6C and the fourth door opening device 6D have symmetrical external shapes, they have the same basic configuration. Further, the third door opening device 6C and the like have an appearance shape that is upside down with respect to the above-described first door opening device 6A and the like, but the basic configuration is the same.

Here, the first door opening device 6A for opening the first door 4A will be described as an example. FIG. 3 is a perspective view of the door opening device 6. FIG. The door opening device 6 (first door opening device 6A), as shown in FIG. , a rotation fulcrum shaft 64 , and a door push-out portion 65 . A hinge pin 66 is attached to the tip of the plunger 61b. The hinge pin 66 is fixed by a fixing member 67 so as to be displaceable in the front-rear direction. Specifically, the hinge pin 66 is inserted through a through hole 67 a of the fixing member 67 . The through-hole 67a has an elongated shape extending in the front-rear direction, and the hinge pin 66 can be displaced in the front-rear direction inside the through-hole 67a.

The lever member 63 is composed of a lever body 62 having a U-shaped cross section including a pair of plate portions 63a and 63b arranged facing each other with a vertical gap therebetween, and a plate portion 63b on the lower side of the lever body 62 toward the lower side. An extension plate portion 63c is provided. The lever body 62 has a shape that opens forward. The plate portion 63a arranged on the upper side of the lever member 63 is called a first plate portion 63a, and the plate portion 63b arranged on the lower side is called a second plate portion 63b. The first plate portion 63a and the second plate portion 63b are each made of a longitudinal plate member extending in the left-right direction. The first plate portion 63a, the second plate portion 63b, and the extended plate portion 63c of the lever member 63 are integrally rotatable around a pivot shaft 64 extending in the vertical direction. One end 63a1 of the first plate portion 63a has an elongated through hole 63a2 extending in the left-right direction. The portion 63 a 1 is connected to the plunger 61 b of the solenoid 61 . A door push-out portion 65 is provided at the lower end of the extended plate portion 63c. The door push-out portion 65 is a portion that contacts the rear surface of the door 4 when the door 4 is opened.

FIG. 4 is an explanatory diagram showing the door opening device 6 before operation and the door 4 in the closed state. FIG. 4 shows a state in which the door opening device 6 is fixed to the upper surface 2a of the storage body 2. As shown in FIG. As shown in FIG. 4 , the door opening device 6 is fixed to the top surface 2 a of the storage body 2 via a pedestal 68 . The upper surface 2a of the storage body 2 is a portion that constitutes the floor surface of the machine room 3. As shown in FIG. The door 4 in the closed state is attracted to the storage body 2 by the magnetic force (adsorption force) of the magnet gasket 42 provided on the back surface of the door 4 . In order to open the door 4, it is necessary to apply a force larger than the magnetic force (attractive force) of the magnet gasket 42 to the rear surface 43 of the door 4 in order to peel off the magnet gasket 42 from the storage body 2. - 特許庁

In the door opening device 6 before operation, the longitudinal direction of the lever member 63 (the first plate portion 63a, etc.) is in a state along the left-right direction. The door push-out portion 65 faces the rear surface 43 of the door 4 where the magnet gasket 42 is not provided.

As will be described later, the door opening device 6 operates to open the door 4 based on a command from the control unit 100 when the object detection unit 7 detects a door opening operation (door opening input) from the user. do. Specifically, based on a command from the control unit 100, the solenoid 61 is energized, and the plunger 61b is driven to be displaced rearward so as to retract into the solenoid body 61a. Then, the lever member 63 rotates around the rotation fulcrum shaft 64, and the door push-out portion 65 is displaced forward. As a result, the door push-out portion 65 pushes the door 4 forward from the back surface 43 side, and the door 4 is separated from the frame portion 26 of the storage body 2 while rotating about the hinge member 41 . FIG. 5 is an explanatory diagram showing the door opening device 6 after operation and the door 4 in the open state. The lever member 63 can amplify the driving force of the plunger 61 b of the solenoid 61 and transmit it to the door 4 .

In addition, as shown in FIGS. 4 and 5 , the door opening device 6 is provided with a tension coil spring 69 . One end of the tension coil spring 69 is fixed to the base portion 68 and the other end is fixed to the second plate portion 63 b of the lever member 63 . After the power supply to the solenoid 61 is stopped, the tension coil spring 69 pushes the lever member 63 so that the plunger 61b protrudes from the solenoid body 61a and returns to the original position (the position shown in FIG. 4) before power supply. It has a pulling function.

FIG. 6 is a perspective view of a third door opening device 6C for opening the lower third door 4C. Although the third door opening device 6C has an appearance shape that is upside down compared to the first door opening device 6A, the basic configuration is the same. The third door opening device 6C includes a solenoid 61C including a solenoid body 61Ca and a plunger (movable iron core) 61Cb, a lever member 63C, a pivot shaft 64C, and a door pushing portion 65C. A hinge pin 66C is attached to the tip of the plunger 61Cb, and the hinge pin 66C is fixed by a fixing member 67C so as to be displaceable in the front-rear direction. The hinge pin 66C is inserted through the through-hole 67Ca of the fixing member 67C, and can be displaced in the front-rear direction inside the through-hole 67Ca. Further, the lever member 63C includes a lever body 62 having a U-shaped cross section including a pair of plate portions 63Ca and 63Cb arranged opposite to each other with a vertical interval therebetween, and a lever body 62 having a U-shaped cross section. and an extension plate portion 63Cc extending upward from the upper plate portion 63Cb. A door push-out portion 65C is provided at the upper end of the extended plate portion 63c.

The cold storage 1 further includes an object detector 7 and an open/close detector 8 . The object detection unit 7 is means for detecting that an object such as a user has entered within a predetermined range from the object detection unit 7 . The object detection unit 7 of this embodiment is composed of an infrared motion sensor, and its detection range (detectable range) is set to about several centimeters (for example, 5 centimeters) in front of the sensor. Such an object detection unit 7 is used to operate the door opening device 6 corresponding to the door 4 when the user opens the door 4 without using the handle 5 . One object detection unit 7 is assigned to each of the four doors 4 . Among these, the one corresponding to the opening of the first door 4A is called the "first object detection part 7A", and the one corresponding to the opening of the second door 4B is called the "second object detection part 7B". , the one corresponding to the opening of the third door 4C is referred to as the "third object detection unit 7C", and the one corresponding to the opening of the fourth door 4D is referred to as the "fourth object detection unit 7D". There is

The first object detection unit 7A is installed at the lower end of the first door 4A and near the center of the cooling storage 1, as shown in FIG. The second object detection unit 7B is installed at the lower end of the second door 4B and near the center of the cooling storage 1 . The detection directions of the first object detection unit 7A and the second object detection unit 7B corresponding to the doors 4, 4 of the upper stage are set to the front of the cold storage 1. As shown in FIG. The first object detection unit 7A and the second object detection unit 7B as described above detect, for example, the motion of the user holding his/her hand out from the front.

The third object detection unit 7C and the fourth object detection unit 7D are provided near the third door opening device 6C and the fourth door opening device 6D, respectively. For example, as shown in FIG. 6, the third object detector 7C is provided adjacent to the fixing member 67C of the third door opening device 6C. The detection directions of the third object detection section 7C and the fourth object detection section 7D corresponding to the doors 4, 4 in the lower stage are set downward of the storage body 2. As shown in FIG. Such a third object detection unit 7C and a fourth object detection unit 7D are, for example, the movement of the user's foot (toe) inserted from the front into the space between the bottom surface of the storage body 2 and the floor surface F. to detect.

The open/close detector 8 is means for detecting whether the door 4 is open or closed. The open/close detector 8 of this embodiment is a magnetic switch, and includes a reed switch 81 including two ferromagnetic leads and a magnet 82 . When the magnet 82 approaches the reed switch 81 and an external magnetic field is applied in the axial direction of the ferromagnetic leads, the ferromagnetic leads come into contact with each other. be. On the other hand, when the magnet 82 is separated from the reed switch 81 and the magnetic field of the magnet 82 does not reach the reed switch 81, the ferromagnetic leads are elastically separated from each other, and the output of the closed state detection signal is stopped.

One open/close detector 8 is assigned to each of the four doors 4 . Among these, the one that detects the opening/closing of the first door 4A is referred to as the "first opening/closing detection unit 8A", and the one that detects the opening/closing of the second door 4B is referred to as the "second opening/closing detection unit 8B". The part that detects opening/closing of the third door 4C may be called a "third opening/closing detection part 8C", and the part that detects opening/closing of the fourth door 4D may be called a "fourth opening/closing detection part 8D".

FIG. 7 is a block diagram of the door opening system 10 provided in the cold storage 1. As shown in FIG. The door opening system 10 is a system for controlling the opening of the four doors 4 provided in the cold storage 1, and mainly includes a control unit 100, four object detection units 7, four open/close detection units 8, and four Door opening device 6 (solenoid 61), a plurality of timers (first timer 101, second timer 102, third timer 107, etc.), power supply unit 200, transformer 201, and switching means 202 there is

The control unit 100 includes a CPU 103 , a ROM 104 , a RAM 105 and a signal input/output unit 106 . Various functions of the control unit 100 are implemented by the CPU 103 executing programs stored in the ROM 104 (an example of a storage unit).

The signal input/output unit 106 is connected to the four object detection units 7 and the four open/close detection units 8 and the like, respectively, and converts detection signals (analog signals) from them into digital signals and sends them to the CPU 103 . Output.

The object detection unit 7 outputs a detection signal to the control unit 100 (CPU 103) in a detection state in which an object is detected. In addition, the object detection unit 7 stops outputting the detection signal in a non-detection state in which the object is not detected. The control unit 100 (CPU 103) is in a detection state in which the object detection unit 7 detects the object or in a non-detection state in which the object is not detected, depending on whether or not the detection signal is output. to judge whether In this specification, the state in which the object detection unit 7 outputs the detection signal is referred to as the "on state", and the state in which the object detection unit 7 stops outputting the detection signal is referred to as the "off state". sometimes referred to as

The open/close detection unit 8 outputs a closed state detection signal to the control unit 100 (CPU 103) when the door 4 is closed. Further, the open/close detector 8 stops outputting the closed state detection signal when the door 4 is in the open state. The control unit 100 (CPU 103) determines whether the door 4 is closed or open based on the presence or absence of such a closed state detection signal. In this specification, the state in which the open/close detection unit 8 outputs the open/close detection signal is referred to as the "on state", and the state in which the open/close detection unit 8 stops outputting the open/close detection signal is referred to as the "off state." It may be called "state".

The power supply unit 200 is a device for supplying electric power to each solenoid 61 of each door opening device 6 . The transformer 201 transforms power (voltage) supplied from the power supply unit 200 . In the case of this embodiment, the voltage of 200V supplied from the power supply unit 200 is transformed to 100V by the transformer.

The switching means 202 is a means for energizing any one of the four door opening devices 6 (solenoids 61) based on a command from the control section 100. FIG. The switching means 202 includes a first switch 202A connected to the first door opening device 6A, a second switch 202B connected to the second door opening device 6B, a third switch 202C connected to the third door opening device 6C, and a fourth switch 202D connected to the fourth door opening device 6D. The 1st switch 202A etc. with which the switching means 202 are provided consist of relays, for example. Upon receiving the drive signal output from the CPU 103 via the signal input/output unit 106, the switching means 202 operates to energize one target door opening device 6 (solenoid 61) for a predetermined period of time.

The first timer 101 , the second timer 102 and the third timer 107 are means for measuring time used in control by the control section 100 . Note that the first timer 101 and the second timer 102 may be configured as part of the control unit 100 . The door opening system 10 also includes timers other than the first timer 101 , the second timer 102 and the third timer 107 .

Next, the opening control of the door 4 using the door opening device 6 in the cooling storage 1 (door opening system 10) will be described with reference to FIG. Here, a case of opening the closed first door 4A using the first door opening device 6A will be described as an example. FIG. 8 is a timing chart showing details of door opening control of the first door 4A. Before the first door 4A is opened, the first object detection unit 7A is in the OFF state (non-detection state), the first open/close detection unit 8A is in the ON state, and the first door opening device 6A is in the ON state. The provided solenoid 61 is in an off state (non-energized state). Also, the first timer 101, the second timer 102, and the third timer 107 are in an off state.

For example, when the first object detection unit 7A starts detection by the user holding his/her palm in front of the first object detection unit 7A, the first object detection unit 7A emits a detection signal as shown in FIG. is output to turn on (detection state). When the first object detection unit 7A is turned on, the control unit 100 receives the detection signal from the first object detection unit 7A and issues a command to start the first timer 101. FIG. When the first timer 101 receives a command from the control unit 100, it is activated and turned on, and starts measuring the time related to detection by the first object detection unit 7A. In this embodiment, the first timer 101 is set in advance to measure time for a predetermined time tb (for example, 3.0 seconds).

In the case of the present embodiment, when the ON state (detection state) of the first object detection unit 7A is, for example, less than a predetermined time ta (for example, 0.1 seconds) from the start of detection, the first door opening device 6A is set so that the solenoid is not energized. That is, when the detection state of the first object detection unit 7A is too short, the control unit 100 issues a command to open the first door 4A even after the output of the detection signal stops after the detection state. do not recognize.

After the ON state (detection state) of the first object detection unit 7A continues for, for example, time t1 (where ta≦t1) from the start of detection, the user withdraws his/her palm, causing the first object When the detection signal output from the detection unit 7A stops, the control unit 100 (CPU 103) determines whether or not the stop time t1 is within a predetermined time tb. When the time t1 is within the predetermined time tb (t1≦tb), the second timer 102 is activated and turned on based on a command from the control unit 100 (CPU 103) to start measuring time. The second timer 102 is set in advance to measure time for a predetermined time tc (for example, 0.1 seconds). When the OFF state (non-detection state) continues for a predetermined time tc after the output of the detection signal is stopped, the control unit 100 treats the stop of the output of the detection signal as a command to open the first door 4A. The controller 100 (CPU 103 ) outputs a drive signal to the switching means 202 and issues a command to activate the third timer 107 . When the drive signal is output to the switching means 202, the solenoid 61 of the first door 4A is energized (turned on) for a predetermined time td (for example, 0.5 seconds). When the solenoid 61 is energized, the closed first door 4A is pushed forward by the door push-out portion 65 of the first door opening device 6A to be opened. In addition, the third timer 107 is activated and turned on when receiving a command from the control unit 100, and a predetermined time te (where te > td) (for example, te = 5.0 seconds) is set in advance. Measure time. While the third timer 107 is measuring the time, the control unit 100 executes a process of not accepting the detection signal output by each object detection unit 7 such as the first object detection unit 7A. Therefore, all the four door opening devices 6 (solenoids 61) are not energized for a predetermined time te from the start of energization of the solenoid 61 of the first door opening device 6A.

Regarding the first door 4A, opening the first door 4 using the first door opening device 6A immediately after the solenoid 61 of the first door opening device 6A is energized is usually Not done. Further, after the solenoid 61 of the first door opening device 6A is energized, the first door 4 may unintentionally come into contact with the user or the like and immediately return to the closed state. In such a case, it is conceivable that the user is too close to the first door 4A. In consideration of such circumstances, in the present embodiment, immediately after energization of the solenoid 61 (predetermined time td=0.5 seconds), the first door 4A is opened via the first object detection unit 7A. It is set not to perform door operation (door open input). Thus, in this embodiment, the same door 4 as the door 4 opened by the door opening device 6 is prevented from being opened for the predetermined time te from the start of energization of the solenoid 61 .

Further, for the other doors 4 (the second door 4B, the third door 4C and the fourth door 4D) other than the first door 4A, immediately after the solenoid 61 of the first door opening device 6A is energized, , using the door opening device 6 to open the other door 4 is prevented. For example, when the user opens the first door 4A, there is a possibility that the object detection section 7 of another door 4 such as the second door 4B adjacent thereto may unintentionally detect the opening. If another door 4 is opened based on such detection by the object detection unit 7 not intended by the user, the door 4 may come into contact with the user or the like. Therefore, in the present embodiment, the control unit is maintained for a predetermined time te from the start of energization of the solenoid 61 of the first door opening device 6A so that the door opening devices for the doors 4 other than the first door 4A are not operated. 100 executes a process of not accepting the detection signal from the first object detection section 7A.

As described above, in the cold storage 1 of the present embodiment, after one door 4 is opened by the door opening device 6, the opening of the door by the door opening device 6 not intended by the user is suppressed.

In the present embodiment, the control unit 100 controls the first object detection unit 7A and the like for a predetermined time tf (where tf≦(te−td)) after the end of energization of the solenoid 61 of the first door opening device 6A. If the non-detection state of the object detection unit 7 continues, the process of restarting acceptance of detection signals from the object detection units 7 such as the first object detection unit 7A is executed. As described above, when the non-detection state of the object detection unit 7 continues for a predetermined time tf after the energization of the solenoid 61 is finished, the user, etc. is at least away from the detection range of the object detection unit 7, and the user, etc. It is possible to prevent erroneous detection by the object detection unit 7 (for example, when the user is leaning against the cooling storage 1).

<Other embodiments>
The present invention is not limited to the embodiments explained by the above description and drawings, and the following embodiments are also included in the technical scope of the present invention.

(1) The storage of another embodiment may be provided with a notification means such as a buzzer. For example, when the ON state (detection state) of the object detection unit continues for a predetermined time ta (for example, 0.1 seconds) from the start of detection, the notification means is used at the timing when the predetermined time ta has passed. Then, the user may be notified by sound information or the like that an input to open the door has been made.

DESCRIPTION OF SYMBOLS 1... Cooling storage, 2... Storage main body, 3... Machine room, 4... Door, 5... Handle, 6... Door opening device, 61... Solenoid, 7... Object detection part, 8... Opening/closing detection part, 100... Control part, 200... Power supply unit, 201... Transformer, 202... Switching means

Claims (2)

a box-shaped storage body having an opening that opens forward and a frame that surrounds the opening;
A door that is rotatably attached to the storage main body, closely adheres to the frame so as to close the opening when in a closed state, and separates from the frame so as to open the opening when in an open state. and,
a door opening device that operates to push forward the closed door when energized;
a target detection unit that outputs a detection signal in a detection state in which an object is detected and stops outputting the detection signal in a non-detection state in which the object is not detected;
After receiving the detection signal from the object detection unit and continuing the detection state of the object detection unit, when the non-detection state continues for a predetermined time tc after the output of the detection signal is stopped, the door opening device is activated. A storage container comprising a control unit that energizes for a predetermined time td,
The control unit
not receiving the detection signal from the object detection unit and not energizing the door opening device for a predetermined time te (where te > td) from the start of energization of the door opening device;
After the predetermined time td, if the non-detection state of the object detection unit continues for a predetermined time tf (where tf≦(te−td)), the reception of the detection signal from the object detection unit is resumed. to store. 2. The storage according to claim 1, wherein said door opening device has a door pushing portion for pushing said closed door forward, and a drive portion for driving said door pushing portion to push forward when energized.

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