JP2002195740A - Deep freezer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem of the relative humidity in a refrigerator becoming lowered from a set value by starting operating of a cooler, while a steam is not generated from a humidifier. SOLUTION: A deep freezer comprises a cooler 2 for cooling in a storage cabinet 1, a humidifier 3 for humidifying in the cabinet 1, and a controller 4 for conrolling the relative humidity in the cabinet 1. The controller 1 sequentially starts the humidifier 3 and the cooler 2, in this order when humidifying. The cooling operation may be started by the cooler 2, after a prescribed time has elapsed from the start of the humidifying operation by the humidifier 3. Alternatively when the temperature in the cabinet 1 is lower by a prescribed temperature than the set temperature to be started in the cooling operation by the cooler 2, the humidifying operation by the humidifier 3 is started; and when the temperature in the cabinet 1 reaches the set temperature, the cooling by the cooler 2 may be started.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a relative humidity control of a refrigeration system for maintaining a high relative humidity in a low-temperature storage.

[0002]

2. Description of the Related Art Conventionally, as this type of refrigeration apparatus, for example, an apparatus disclosed in Japanese Patent Application Laid-Open No. 6-74630 is known. This refrigeration apparatus has a cooling device for cooling the inside of the storage and a humidifier for humidifying the inside of the storage, and the humidifier also performs the humidification operation in synchronization with the cooling operation by the cooling device. It has become.

[0003]

Generally, it takes time from when the humidification start signal is input to the humidifier until the steam is blown out in the refrigerator. Therefore, when the operation of the cooling device is started while no water vapor is generated in the conventional refrigeration device, the water vapor in the refrigerator is removed by the cooling device, so that the relative humidity in the refrigerator rapidly decreases, and Relative humidity could fall below the set value.

[0004]

Means for Solving the Problems The present invention has been proposed to solve the above-mentioned problems, and a refrigeration apparatus according to the first aspect of the present invention has a cooling device for cooling the inside of a storage. In a refrigeration apparatus having a humidifier for humidifying the storage, a control device for controlling the relative humidity in the storage, when the humidification operation, the control device, humidifier, cooling device in order The operation is started.

[0005] In the configuration of the first aspect, the control device starts the cooling operation by the cooling device after a lapse of a predetermined time from the start of the humidifying operation by the humidifier.

[0006] In the configuration of claim 1, the control device starts the humidifying operation by the humidifier when the temperature in the storage is lower by a predetermined temperature than the set temperature at which the cooling operation by the cooling device should be started, and thereafter, When the temperature in the storage reaches the set temperature, the cooling operation by the cooling device is started.

[0007] The apparatus further comprises a cooling device for cooling the inside of the storage, and a humidifier for humidifying the inside of the storage.
In the refrigeration apparatus configured to control the relative humidity in the storage, the humidifier is configured to heat the humidification storage to generate steam, and the humidification storage is heated to a predetermined temperature prior to the humidification operation by the humidifier. And a preheating means for preheating.

In the first to third aspects of the present invention, the humidifier heats the humidification storage water to generate steam, and heats the humidification storage water to a predetermined temperature prior to the humidification operation by the humidifier. It is equipped with preheating means to be kept.

[0009] In a refrigerating apparatus having a cooling device for cooling the inside of the storage and a humidifier for humidifying the inside of the storage, a steam transport path from the humidifier is connected to the inside of the storage and the storage. It is configured to be switchable to outside and has a control device that controls the relative humidity in the storage, and the control device continuously operates the humidifier to always generate steam and to change the humidification operation command state in the storage. The steam transfer path is switched between inside and outside of the storage in response to the request.

Further, in the configuration of claim 6, a switching valve is disposed in the steam transport path from the humidifier, and the control device controls the steam transport path by the switching valve in the storage when the humidifying operation is started by the humidifier. It is intended to switch to.

[0011]

Embodiments of the present invention will be described below in detail with reference to the drawings.

Embodiment 1 of the Invention FIG. 1 is a system configuration diagram showing a refrigeration apparatus according to one embodiment of the present invention, and FIG. 2 is a timing chart for explaining a relative humidity control operation by the refrigeration apparatus. In each figure, the refrigeration apparatus includes a box-shaped storage 1 for storing cool-insulated articles, a cooling device 2 for cooling the air in the storage 1, and a humidifier 3 for humidifying the air in the storage. And a control device 4 for controlling the cooling device 2 and the humidifier 3. In this example, the humidifier 3 is the humidification storage water 1 that is stored.
3 is heated by the heater 12 to generate steam. On the signal input side of the control device 4, a temperature sensor 5 for detecting a temperature in the storage of the storage 1, a relative humidity sensor 6 for detecting a relative humidity in the storage of the storage 1, and a humidifier in the humidifier 3. Temperature sensor 7 for detecting the water temperature of the water storage 13, a temperature setting device 8 for setting the temperature in the refrigerator, a relative humidity setting device 9 for setting the relative humidity in the refrigerator, and a water temperature setting for setting the water temperature of the water storage 13 for humidification. Device 10 is connected. The heater 12 and the cooling device 2 of the humidifier 3 are connected to the signal output side of the control device 4. Further, the control device 4 has a function of a timer 17 for measuring the operation time of the cooling device 2 and the humidifier 3.

In the above-described configuration, the control device 4 controls the humidifier 3 when the relative humidity detected by the relative humidity sensor 6 is about to fall below the target lower limit relative humidity RH2 set in the relative humidity setter 9. Of the relative humidity sensor 6
Has a general-purpose function of stopping the operation of the humidifier 3 when the detected relative humidity reaches the relative humidity RH1 (> RH2) of the target upper limit value set in the relative humidity setting device 9. . In addition, after the predetermined time TM measured by the timer 17 from the start S1 of the humidifying operation by the humidifier 3, that is, the time required until the steam is introduced into the refrigerator, the control device 4 starts the cooling device 2. Cooling operation is performed. That is, the control device 4 starts the operation of the humidifier 3 and the cooling device 2 in the order of the humidification operation.

As described above, since the humidifier 3 generates steam in the refrigerator before the operation of the cooling device 2, the relative humidity does not fall below the lower limit set value due to a rapid decrease in the relative humidity in the refrigerator. The humidifying capacity of the humidifier 3 depends on the cooling device 2
Even if the cooling device 2 and the humidifier 3 are operating at the same time, the relative humidity in the refrigerator is set to the set humidity set in the relative humidity setter 9 even if the cooling device 2 and the humidifier 3 are operating at the same time. It will not be out of range.

Further, the control device 4 detects the water temperature of the humidification storage water 13 in the humidifier 3 by the water temperature sensor 7, and energizes the heater 13 prior to the humidification operation by the humidifier 3, and sets the water temperature in the water temperature setting device 10. The humidification reservoir 13 is heated to a predetermined temperature (a temperature at which steam can be immediately generated). Here, the combined configuration of the control device 4 and the heater 13 is an example of the preheating means according to the present invention. Thereby, the time from when the humidification start signal is given to the humidifier 3 until the steam is introduced into the refrigerator can be shortened and kept constant, so that the time until the operation of the cooling device 2 starts can be shortened. it can. Therefore, an increase in the internal temperature can be suppressed.

Embodiment 2 of the Invention Next, in the system configuration shown in FIG. 1, another embodiment of the present invention will be described with reference to the timing chart of FIG. Embodiment 2
In the refrigerating apparatus, the control device 4 determines that the temperature in the storage 1 detected by the temperature sensor 5 is lower than a predetermined temperature T1 set in the temperature setting device 8 to start the cooling operation by the cooling device 2. When judging that it has reached T2, the humidifier 3
To start the humidification operation. Thereafter, when the temperature in the storage 1 rises and reaches the set temperature T1, the cooling device 2
To start a cooling operation. And
The temperature in the storage detected by the temperature sensor 5 is changed to the temperature setting device 8.
At the time point S2 when the temperature falls to the set temperature T3 (<T2) set in, the control device 4 stops the operation of the cooling device 2. Subsequently, when the relative humidity detected by the relative humidity sensor 6 reaches the relative humidity RH1 set in the relative humidity setting device 9, the time S
At 3, the control device 4 stops the operation of the humidifier 3. As described above, the humidifier 3 starts the humidifying operation when the temperature in the storage is the predetermined temperature T2 lower than the set temperature T1 at which the cooling operation should be started, so that the cooling device 2 starts operating. Water vapor may be generated in the storage 1 before. Therefore, it is possible to prevent the relative humidity in the storage 1 from dropping below the lower limit set value RH2.

Embodiment 3 of the Invention Next, FIG. 3 is a system configuration diagram showing a refrigeration apparatus according to another embodiment of the present invention. The refrigeration apparatus of the third embodiment has substantially the same configuration as the first and second embodiments. However, the configuration is different in that the steam transfer path 14 from the humidifier 3 is switchably branched into a transfer path 15 for inside and a transfer path 16 for outside of the storage. At the branch position of the inside-compartment transfer path 15 and the outside-compartment transfer path 16, a solenoid valve-type switch that switches the passage from the water vapor transfer path 14 to one of the inside-compartment transfer path 15 and the outside-container transfer path 16. A valve 11 is provided. In this embodiment, the control device 4 continuously operates the heater 12 of the humidifier 3 to constantly generate steam. Then, the control device 4 switches the steam transport path 14 in accordance with the humidification operation command state in the storage 1. For example, the relative humidity detected by the relative humidity sensor 6 is
When the humidity decreases to the set humidity RH2 (see FIG. 2) set in the relative humidity setter 9, the control device 4 switches the switching valve 11 to communicate the steam transport path 14 with the in-compartment transport path 15.

That is, when the humidifier 3 starts the humidifying operation, the control device 4 switches the steam transport path 14 to the in-compartment transport path 15 side by the switching valve 11 to blow out the steam into the storage 1. Then, the relative humidity sensor 6
When the relative humidity detected by the control device 4 reaches the set humidity RH1 set in the relative humidity setting device 9, the control device 4 switches the switching valve 1
1 to switch the steam transport path 14 to the outside transport path 16
To release the water vapor out of the refrigerator. By such a transfer path switching, the steam in the humidifier 3 can be immediately introduced into the refrigerator, and therefore, even when the cooling device 2 is operating, the relative humidity falls below the lower limit set value due to a rapid decrease in the relative humidity in the refrigerator. There is no such thing. Further, switching between the in-compartment transport path 15 and the out-of-compartment transport path 16 is reliably and promptly performed by the switching valve 11.

The switching between the in-compartment transport path 15 and the out-of-compartment transport path 16 is not limited to the switching valve 11 described above, and other switching means may be employed. Also,
The steam generation method of the humidifier 3 is not limited to the method using heater heating, and may be, for example, an ultrasonic method.

[0020]

As described above in detail, according to the refrigerating apparatus of the first aspect of the present invention, during the humidifying operation, the operation is started in the order of the humidifier and the cooling device, so that the water vapor is stored in the storage. The operation of the cooling device can be suppressed before the gas is blown out. Therefore, the relative humidity in the storage is prevented from falling below the set value.

According to the refrigeration apparatus of the second aspect of the present invention, the cooling operation by the cooling device is started after a lapse of a predetermined time from the start of the humidifying operation by the humidifier to the time when steam is blown into the storage. Therefore, the cooling device does not operate before the steam is blown into the storage. Therefore, it is possible to prevent the relative humidity in the storage from dropping below the set value.

According to the refrigeration apparatus of the third aspect of the present invention, the humidifying operation by the humidifier is started when the temperature in the storage is lower than the set temperature for starting the cooling operation by a predetermined temperature. Water vapor can be blown into the storage before the device starts operating. This can prevent the relative humidity in the storage from falling below the set value.

Furthermore, according to the refrigeration apparatus of the present invention, the humidification storage water is heated to a predetermined temperature by the preheating means prior to the humidification operation. It is possible to shorten the time from when the water vapor is ejected into the storage to the time when the water vapor is blown out, and to keep the time constant. Therefore, the degree to which the relative humidity in the storage becomes lower than the set value can be suppressed.

According to the refrigeration apparatus of the present invention, the humidification water is heated to a predetermined temperature by the preheating means prior to the humidification operation. As a result, the time from when the operation start command is given to the humidifier until the steam is blown into the storage can be shortened and made constant. Therefore, the degree to which the relative humidity in the storage becomes lower than the set value can be suppressed. In addition, since the time until the ejection of water vapor is short, it is possible to suppress an increase in the temperature in the storage compared to the inventions of the first to third aspects.

According to the refrigeration apparatus of the present invention, the humidifier is continuously operated to constantly generate steam, and the steam transport path is changed according to the humidification operation command state in the storage. Alternatively, since it is switched to the outside of the storage, the steam can be introduced into the storage immediately after the humidification operation starts. Therefore, the relative humidity in the storage does not drop below the set value.

Further, according to the refrigeration apparatus of the present invention, since the humidifier starts the humidifying operation, the switching valve switches the steam transport path toward the inside of the storage. Thus, steam can be reliably introduced into the storage immediately after the start of the humidification operation. Therefore, the relative humidity in the storage does not drop below the set value.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram showing a refrigeration apparatus according to one embodiment of the present invention.

FIG. 2 is a timing chart for explaining a relative humidity control operation by the refrigeration apparatus.

FIG. 3 is a system configuration diagram showing a refrigeration apparatus according to another embodiment of the present invention.

[Explanation of symbols]

1 storage, 2 cooling device, 3 humidifier, 4 control device, 5 temperature sensor, 6 relative humidity sensor, 7 water temperature sensor, 11 switching valve, 12 heater, 13 humidification water storage,
14 Steam transport path, 15 Internal transport path, 16
External transport path, 17 timer, T1 set temperature, T2
Predetermined temperature, TM predetermined time.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Masahiko Sugino 2-3-2 Marunouchi, Chiyoda-ku, Tokyo Mitsui Electric Co., Ltd. (72) Koichi Negoro 2-3-2 Marunouchi, Chiyoda-ku, Tokyo 3 F term in Ryo Denki Co., Ltd. (reference) 3L045 AA02 BA01 CA02 KA12 LA02 MA02 MA07 MA12 NA16 PA01 PA02

Claims (7)

[Claims] A cooling device for cooling an inside of a storage;
In a refrigeration apparatus having a humidifier for humidifying the storage, a control device for controlling the relative humidity in the storage, the control device, when the humidification operation, the humidifier, the A refrigeration system characterized by starting operation in the order of the cooling system. 2. The refrigeration apparatus according to claim 1, wherein the control device starts the cooling operation by the cooling device after a lapse of a predetermined time from the start of the humidifying operation by the humidifier. 3. The control device starts the humidifying operation by the humidifier when the temperature in the storage is lower by a predetermined temperature than the set temperature at which the cooling operation by the cooling device is to be started. The refrigeration apparatus according to claim 1, wherein a cooling operation by the cooling apparatus is started when the temperature reaches a set temperature. 4. A cooling device for cooling the inside of the storage,
A humidifier for humidifying the inside of the storage,
In the refrigeration apparatus configured to control the relative humidity in the storage, the humidifier is configured to heat the humidification storage water to generate steam, and the humidification is performed prior to the humidification operation by the humidifier. A refrigerating apparatus comprising a preheating means for heating a storage water to a predetermined temperature. 5. The humidifier is configured to generate water vapor by heating the humidification storage water, and includes a preheating means for heating the humidification storage water to a predetermined temperature prior to the humidification operation by the humidifier. 3. The method according to claim 1, wherein
The refrigeration apparatus according to any one of the above items. 6. A cooling device for cooling an inside of a storage,
In a refrigeration apparatus having a humidifier for humidifying the inside of the storage, a steam transfer path from the humidifier is configured to be switchable between the inside of the storage and outside the storage, and the inside of the storage A control device for controlling relative humidity, wherein the control device continuously operates the humidifier to constantly generate steam, and switches the steam transport path according to a humidification operation command state in the storage; A refrigerating apparatus characterized in that the refrigerating apparatus is switched inside or outside the refrigerator. 7. A switching valve is disposed on a steam transport path from the humidifier, and the control device switches the steam transport path toward the inside of the storage by the switching valve with the start of the humidifying operation by the humidifier. The refrigeration apparatus according to claim 6, wherein: