JP3829254B2 - Commercial refrigerator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a commercial refrigerator that can be safely loaded and unloaded.
[0002]
[Prior art]
Some commercial refrigerators are provided with high voltage generating means to apply a high voltage in a refrigerator or freezer to generate an electric field for maintaining the quality of food (material).
[0003]
That is, an electrode is provided in the storage and connected to the high voltage generating means, a high voltage is applied to the electrode to discharge static electricity, and an electric field is formed in the storage by the discharged static electricity. Then, the said electric field acts on the water | moisture content of the food preserve | saved in the store | warehouse | chamber, and subdivides the cluster of water, and strengthens the coupling | bonding of water and protein. Therefore, the freshness of meat and seafood stored in the warehouse is maintained for a long time. Similarly, vegetables and fruits can remain fresh for a long time.
[0004]
At this time, ozone is generated at the same time, so that the generation of bacteria and fungi is suppressed and the spoilage is stopped, so that the food can be preserved for a long period of time while maintaining the freshness.
[0005]
However, when the refrigerator provided with such a high voltage generating means is large, a person goes in and out of the warehouse in order to carry food (materials) into or out of the warehouse. At this time, since it is dangerous if a high voltage is applied to the inside of the cabinet, for example, conventionally, an on / off switch for the high voltage generating means is provided outside the warehouse, and the switch is operated to turn off the high voltage generating means. I was going to come in after that.
[0006]
[Problems to be solved by the invention]
However, in the case where the high voltage generating means is turned off by the on / off switch provided outside the warehouse as described above, forgetting to turn off the switch suddenly, and the high voltage generating means remains in operation. There is a problem.
[0007]
Moreover, since the on / off switch is outside the warehouse, there is a possibility that the switch may be turned on during warehousing due to some mistake.
[0008]
Therefore, an object of the present invention is to make it safe even if the switch is forgotten to be turned off at the time of warehousing, and even if the switch is mistakenly turned on during warehousing.
[0009]
[Means for Solving the Problems]
In order to solve the above-described problems, in the present invention, a plurality of switches are arranged in the refrigerator of the commercial refrigerator provided with a high voltage generating means and generating an electric field in a refrigerator or freezer into which a person enters. In addition, a switch is provided outside the warehouse, and a sequential circuit is provided for ranking the switches provided inside and outside the warehouse, and the switch means that is turned on / off by the sequential circuit output is the high voltage generating means. A configuration was adopted in which a door switch provided in series between the power supplies and a door switch for turning on / off the switch means provided in series was provided in the refrigerator door.
[0010]
By adopting such a configuration, even if you forget to turn off the high voltage generating means at the time of warehousing, if you open the door, the door switch is activated and the switch means is turned off, and the power supply and the high voltage generating means are turned off. Can be safely received.
[0011]
On the other hand, for example, even when the switch outside the warehouse is operated and the door is closed during the warehousing, the high voltage generating means is not turned on unless the switch inside the warehouse is operated based on the priority order.
[0012]
In addition, after operating the switches in the store in order and closing the door, the high voltage generating means will not be turned on unless the switch outside the store is operated, so a high voltage must be applied while in the store. There is no. Therefore, it can be safely issued.
[0013]
At this time, it is possible to adopt a configuration in which the operation order of the switches arranged far away from the entry / exit door in the warehouse is higher.
[0014]
By adopting such a configuration, for example, even when there are a plurality of workers in the warehouse, since it is necessary to operate in order from a remote switch away from the entry / exit door, safety can be confirmed during that time.
[0015]
In addition, at this time, by adopting a configuration provided with a display means for displaying the operation of the switch in each switch, the operating state of the high voltage generating means can be confirmed by looking at the display means. Work during warehousing.
[0016]
Further, at this time, it is possible to employ a configuration in which an emergency stop button for canceling the sequential circuit output is provided at the position of each switch in the warehouse.
[0017]
By adopting such a configuration, for example, even if the switch outside the warehouse is accidentally operated, the door is closed, and the switches inside the warehouse are operated in order, during warehouse storage, The high voltage generating means can be turned off by operating the emergency stop button of the nearby switch.
[0018]
Further, a configuration is adopted in which an alarm circuit is provided to notify that the door is closed before the switch output outside the warehouse is output from the switch output and the door switch output arranged outside the sequential circuit. Can do.
[0019]
By adopting such a configuration, when the door is closed during warehousing (because the switch outside the warehousing can be switched on after warehousing), an alarm circuit (sound etc. is also possible) sounds to notify the worker during warehousing. can do.
[0020]
Furthermore, the structure which connected and used the said door switch in multiple warehouse series is employable.
[0021]
By adopting such a configuration, even when, for example, one of the door switches fails and is turned on, the remaining door switch functions so that the high voltage generating means can be turned off. .
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0023]
A commercial refrigerator (including a freezer) of this form is provided with a high voltage generating means 1 as shown in FIG. 1 (a), and is formed in a size that allows a person to stand inside. As shown in FIG. 2, a plurality of switch boxes Box _1-3 are arranged. In addition, a switch box ₄ is provided beside the entrance door 2 outside the warehouse, and a sequential circuit for setting the operation order of these switches Box _1-4 , and the high voltage generating means 1 is turned on / off by the sequential circuit output. And a door switch LS for turning on and off the switch means.
[0024]
The commercial refrigerator is a prefabricated type, and includes, for example, a side panel, a back panel, a ceiling panel, a bottom panel, a front panel, a loading / unloading door 2 and a DC unit 3 in FIG.
[0025]
In each panel (including the door 2), as shown in FIG. 1B, the outer material 10 is made of metal (for example, stainless steel, color steel material, rust-proof steel plate), but the inner material 11 is excellent in electrical insulation. It has a three-layer structure in which a heat insulating layer (such as polyurethane) 12 is provided between the outer material and the inner material. Each panel is provided with either a known rotary hook or a slit that engages the hook, and the ends of the panels to be engaged are aligned and the hook of the rotary hook is projected with a screwdriver or the like. , Engage with the slit and assemble.
[0026]
In the assembled box, a plurality of racks (shelves) 4 are provided in consideration of the arrangement positions so that foods (materials) to be stored can be classified by type and stored according to the temperature range. Each rack 4 is made of a metal having conductivity, and can be used by being connected to the high voltage generating means 1 of the DC unit 3 using each rack 4 as an electrode.
[0027]
The DC unit 3 is composed of a compressor, a condenser, a receiver tank, a controller, and the high voltage generating means 1 described above. As shown in FIG. It is designed to be connected to a vessel.
[0028]
Further, the high voltage generating means 1 applies a different voltage (a voltage suitable for food (material)) for each rack 4, and in this embodiment, for example, as shown in FIG. Thus, a plurality of power supplies are prepared so that a voltage suitable for food (material) can be applied.
[0029]
On the other hand, the sequential circuit of this embodiment is composed of four switch boxes Box _1-4 as shown in FIG.
[0030]
That is, the switch boxes Box ₁ and Box ₂ are attached to the left and right in the back away from the loading / unloading door 2 in the warehouse, and the switch box Box ₃ is attached to the side of the loading / unloading door 2 in the warehouse. The switch box ₄ is attached to the side of the door 2 outside the store.
[0031]
Switch box Box _1-4, as shown in FIG. 4, resettable push switch PBb _1-4 of holding relay RL _1-3,5, display lamp PLr, PLg, emergency stop switch PBa _1-3 (Box ₄ is excluded) and is configured de, these switch box box _1-4 are connected in series.
[0032]
Specifically, each switch box Box _1-4 connects a self-return type push switch PBb _1-4 and a holding relay RL _1-3 , ₅ in series, and a of the relays RL _1-3 , ₅ A contact is connected in parallel with the switch PBb _1-4 to form a holding circuit. In addition, a red display lamp PLr is connected in parallel with the holding relays RL _1-3 and _5, and the lamp PLr is activated by the holding relays RL _{1-3 and 5} to activate the switch box Box _1-4. It lights up when Further, a green display lamp PLg is connected in parallel with the series circuit of the push switch PBb _1-4 and the holding relays RL _1-3 , ₅ , and normally the green display lamp PLg is lit while energized.
[0033]
The emergency stop switch PBa _1-3 is provided in series with the push switch PBb _1-4 so that the circuit can be opened in an emergency.
[0034]
The switch box Box _1-4 is that in the remaining through a contact point of the front and the current box emergency stop switch PBa _1-3 (Box ₄ holding relay RL _1-3,5 each box Box _1-4, emergency Instead of the stop switch PBa _1-3 , a door output relay RL ₆ (a contact) described later is connected, and is connected to the power source V _DD via the preceding switch box Box _1-4 . . Accordingly, when the switch box Box _{1-4 at the} front stage does not operate, the switch box Box _{1-4 at the} rear stage does not operate, thereby forming a sequential circuit.
[0035]
Thus the switch box Box ₄ of a connected final stage, the holding relay RL ₅ and the output relay RL ₄ connected in parallel is provided with the power supply V _DD and the high voltage generating means to a contact of the relay RL ₄ 1 The high voltage generating means 1 is turned on / off by a sequential circuit output.
[0036]
Further, as shown in FIG. 4, in order to turn off the output relay RL ₄ , a door output relay RL ₆ is provided and connected in series with the door switch LS, and the contact a of the relay RL ₆ is connected to the switch box. It is provided in place of the emergency stop switch of Box ₄ .
[0037]
At this time, in this embodiment, two door switches LS are attached to the entry / exit door (LS ₁ , LS ₂ ), and the two switches LS ₁ , LS ₂ are connected in series. In this way, for example, if one of the door switches LS ₁ or LS ₂ fails and the door 2 is opened, the other switch is opened and the relay RL ₆ can be turned off. Yes, safety is improved.
[0038]
Therefore, when the door switch LS is on with the entry / exit door 2 closed, the relay RL ₆ is activated, the switch box Box ₄ is activated, and the output relay RL ₄ can be activated. Conversely, when the door 2 is opened, the door switch LS is turned off, the relay RL ₆ is turned off, and the output relay RL ₄ is also turned off.
[0039]
Moreover, this circuit, the relay RL ₇ is provided to connect the relay RL ₇ to contact a series of holding relay RL ₅ of b contact and the switch box Box ₄ door Output Memory RL _6, connected in series A reset circuit RS is provided in which the b-contact of the relay RL ₇ is connected between the switch box Box ₁ and the power source V _DD .
[0040]
In this reset circuit RS, the relay RL ₇ is normally off, the contact b of the relay RL ₇ is closed, and the sequential circuit is connected to the power source V _DD and energized. For example, the high voltage generating means 1 is on. If the entry / exit door 2 is opened without operating the switch box Box ₄ (outside of the box) in the state, the contact “a” of the holding relay RL ₅ is “closed” and the contact “b” of the door output relay RL ₆ is “closed”. The relay RL ₇ is turned on. Therefore, the contact b of the relay RL ₇ is “open” to reset the sequential circuit, and the high voltage generating means 1 is turned off so that no voltage is applied to the interior.
[0041]
Further, this circuit is provided with a buzzer circuit B for alarm. The alarm buzzer circuit B is connected in series with the contact b of the holding relay RL ₅ of the switch box Box _{4 at} the final stage and the contact a of the output relay RL ₆ for the door, and this series circuit is connected in parallel with the switch box Box _3. It is connected to the output of the holding relay RL ₂ of the switch box Box ₂ .
[0042]
Therefore, when the entry / exit door 2 is closed and the switch box Box ₄ (outside the storage) is not operated, the contact a of the relay RL ₆ is “closed” and the contact b of the holding relay RL ₅ is “closed”. Thus, the buzzer Bz sounds and the entry / exit door 2 is closed. At this time, even if the entry / exit door 2 is closed and an alarm is sounded, the high voltage generating means 1 does not operate unless the outside switch box Box ₄ is operated, so that it is safe. By the way, the alarm stops when the door 2 is opened.
[0043]
Further, this circuit is provided with a main switch MS (adjacent to the switch box Box ₄ ), and by operating this switch MS, the entire circuit can be returned to the initial setting. ing.
[0044]
In the figure, AVR is a constant voltage power source for stably operating the circuit.
[0045]
This configuration is configured as described above, and this refrigerator is normally held in a state where the sequential circuit is set (the state in which the holding relays RL _1-3 and ₅ are operated).
[0046]
When a person enters the cabinet, first, the main switch MS is turned off, and it is once confirmed that the display lamp PLg of the switch box Box ₄ (outside of the warehouse: next to the entry / exit door 2) is turned off. Later, open the door 2 and enter. At this time, since all the relays of the circuit are reset, only the green energization display lamp PLg of the switch box Box ₁ should be lit in the cabinet. Therefore, confirm this and go inside.
[0047]
At that time, when the main switch MS is forgotten to be turned off and the entry / exit door 2 is opened (forgetting to return to the initial setting), the door switch LS is turned off and the door output relay RL ₆ is also turned off. At this time, even if the switch box Box ₄ is turned on, the holding relay RL ₅ is also turned on. In this case, the contact b of the door output relay RL ₆ used in the reset circuit RS is closed, and at the same time The contact a of the holding relay RL ₅ of the switch box Box ₄ is also closed. As a result, the relay RL ₇ of the reset circuit RS is turned on, and the b contact of the relay RL ₇ is opened. For this reason, the switch box Box _1-4 of the sequential circuit connected to the power source V _DD via the b contact is released immediately, the high voltage generating means 1 is also turned off, and a high voltage is generated in the chamber. No longer applied. And thus, when the holding relay RL ₅ of the switch box Box ₄ is turned off, for a contact of the holding relay RL ₅ is opened, it becomes off relay RL ₇ of the reset circuit RS, b of the relay RL ₇ The contact is closed and the sequential circuit is connected to the power supply V _DD . Therefore, only the green energization display lamp PLg of the upstream switch box Box ₁ among the switch boxes Box _1-3 in the warehouse is turned on, and this is confirmed and entered.
[0048]
On the other hand, if the entry / exit door 2 is accidentally closed during entry, the door output relay RL ₆ is turned on and the contact a of the door output relay RL ₆ provided in the buzzer circuit B is closed. Sounds and alerts. At this time, even if the buzzer Bz sounds, unless the outside switch box Box ₄ (push switch PBb ₄ ) is operated, the high voltage generating means 1 does not operate, which is safe, but the emergency of the nearby switch box Box _1-3 When the stop switch PBa _1-3 is operated, the holding relay RL ₅ is turned off, and the downstream switch box Box _1-4 to which the power source V _DD is supplied can be turned off with the contact a of the holding relay RL ₅ . Therefore, even if all the switch boxes Box _1-4 are turned on during warehousing, if the emergency stop switch PBa _1-3 is operated, the output relay RL ₆ is turned off and the high voltage generating means 1 is turned on. It is safe because you can turn it off. Further, at the same time when the emergency stop switch PBa _1-3 is operated, it can be informed by being informed.
[0049]
Note that the buzzer Bz can be stopped if the main switch MS is once turned off or the buzzer Bz is moved out of the cabinet in a predetermined procedure.
[0050]
The procedure for exiting the cabinet is performed in the order of switch box Box ₁ → Box ₂ → Box ₃ . Finally, when the entry / exit door 2 is closed and the switch box Box ₄ is actuated, the output relay RL ₄ is actuated to turn on the high voltage generating means 1 so that a voltage can be applied to the interior.
[0051]
In this way, by operating in order from the switch box Box ₁ away from the entry / exit door 2, for example, even when there are a plurality of workers in the warehouse, the switch boxes in the warehouse are operated in sequence. It is possible to leave the store while confirming safety.
[0052]
FIG. 5 shows an example of the arrangement of switches according to the size of the refrigerator. In the case of this form, the switch boxes are indicated by numbers such as (1), (2).
[0053]
Thus, even if the switch is forgotten to be turned off at the time of warehousing, or even when the warehousing door 2 is closed during warehousing, the high voltage generating means 1 can be turned off to maintain safety.
[0054]
【The invention's effect】
Since the present invention is configured as described above, it is possible to prevent a high voltage from being applied to the inside of the cabinet, and therefore it is possible to work safely.
[Brief description of the drawings]
1A is a perspective view of an embodiment, FIG. 2B is a cross-sectional view of the panel of FIG. 2A, FIG. 2 is an internal layout diagram of the embodiment, FIG. 3 is a connection diagram of a high voltage power supply, and FIG. [Figure 5] Diagram showing other modes [Explanation of symbols]
1 High voltage generating means 2 Entry / exit door 3 DC unit B Buzzer circuit Bz Buzzer Box _1-4 Switch box LS Door switch LS ₁ Door switch LS ₂ Door switch PBb _1-4 Push switch PBa _1-3 Emergency stop switch PLr Indicator lamp PLg display lamp RL _1-3,5 holding relay RL ₄ output relay RL ₆ door for output relay

Claims (5)

A high voltage generating means is provided, and a plurality of switches are arranged in the refrigerator of the commercial refrigerator that is designed to generate an electric field in a refrigerator or freezer where a person enters, and the switches are provided outside the refrigerator. And a sequential circuit for setting the order of operating the switches provided outside the cabinet, and a switch means that is turned on / off by the output of the sequential circuit is provided in series between the high voltage generating means and its power supply, and the series A door switch for turning on and off the switch means provided in the refrigerator is provided at the entrance / exit door of the refrigerator, and the order of operation of the switch located far from the entrance / exit door in the warehouse is placed at the top, , in order from the switch disposed remotely from entry and leaving the door, after actuating the switch located near the entry and leaving the door closes the entry and leaving doors and adapted to operate a switch of outside-compartment work Use refrigerator. The commercial refrigerator according to claim 1, further comprising display means for displaying an operation of the switch on each switch . The commercial refrigerator according to claim 1 or 2, wherein an emergency stop button for canceling the sequential circuit output is provided at the position of each switch in the cabinet . 4. An alarm circuit for notifying that the door is closed before the switch output outside the warehouse is outputted from the switch output and the door switch output arranged outside the sequential circuit. The commercial refrigerator as described in one. The commercial refrigerator according to any one of claims 1 to 4, wherein a plurality of the door switches are connected in series .

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