JP6751909B2 - Refrigerated delivery box and delivery box used for this - Google Patents

Description

The present invention relates to a refrigerated delivery box and a delivery box used therein, and more particularly to a refrigerated delivery box having a cooling function and a delivery box into which a cooling function can be introduced.

Patent Document 1 discloses a conventional delivery box (delivery receiving device). This conventional delivery box is mounted on the front wall of the entrance. The delivery box includes a receiving box for storing the delivery and a lid for covering the receiving box.

In this conventional delivery box, a heat insulating material is attached to the inside of the receiving box and the inner surface of the lid. As a result, the conventional delivery box can keep the temperature of the frozen food in a low temperature state for a certain period of time when the frozen food is delivered as a delivery.

Japanese Unexamined Patent Publication No. 7-327809

However, in this conventional delivery box, since only the heat insulating material is attached to the inner surfaces of the receiving box and the lid, it is difficult to keep the inside of the receiving box in a low temperature state.

The present invention has been made in view of the above circumstances, and an object of the present invention is a refrigerated delivery box capable of keeping the temperature of the storage room low so that the temperature of the delivered package can be stored at a low temperature. The purpose is to provide a delivery box that can be used for this.

The refrigerated delivery box of the present invention is a refrigerated delivery box attached to the outer wall of a building and having a storage chamber formed therein, and has an outlet and a discharge port provided on one side wall of a plurality of side walls of the storage room. A supply port, a cooling device provided below the storage chamber and capable of supplying cooled air, and a cooling device provided along the outer surface of the one side wall, the air in the storage chamber is taken in from the discharge port. An intake path configured to guide the air to the cooling device, and an intake path provided along the outer surface of the one side wall, configured to guide the air supplied from the cooling device to the supply port. It is characterized by including a return path and a partition member for partitioning the intake path and the return path .

The delivery box of the present invention is a delivery box attached to the outer wall of a building and having a storage chamber formed therein, and is provided on one side wall of a plurality of side walls of the storage room and is provided with air in the storage room. A cooling device cooling device installation unit provided below the storage chamber and capable of installing a cooling device capable of supplying cooled air, a discharge port for discharging air, a supply port for supplying air to the storage chamber, and the above. An intake path provided along the outer surface of one side wall and passing the discharge port and the cooling device installation portion, and a supply port and the cooling device installation provided along the outer surface of the one side wall. It is characterized by including a return path through which the portion is passed and a partition member for partitioning the intake path and the return path .

According to the refrigerated delivery box of the present invention, the temperature of the storage chamber can be kept low so that the temperature of the delivered package can be stored at a low temperature.

According to the delivery box of the present invention, by installing the cooling device in the cooling device installation portion, the temperature of the storage chamber can be kept low so that the temperature of the delivered package can be stored at a low temperature.

It is sectional drawing seen from the rear obliquely upper side of the refrigerated delivery box of one Embodiment of this invention. It is a perspective view seen from diagonally above the front of the same as above. It is the above horizontal sectional view.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

The refrigerated delivery box of the present embodiment is attached to the outer wall of the building. In the refrigerated delivery box, the delivered parcel (delivery) is thrown in from the outside, and the thrown parcel is taken out from the indoor. Further, the refrigerated delivery box of the present embodiment has a built-in heat pump device 9 as a cooling device capable of supplying cooled air, and the air cooled by the heat pump device 9 is supplied to the internal accommodation chamber 2. It is configured as follows. As a result, the refrigerated delivery box of the present embodiment can keep the parcel (delivery) housed in the storage room 2 in a low temperature state. As shown in FIG. 1, the refrigerated delivery box of the present embodiment includes a delivery box 1 in which a storage chamber 2 is formed, and a heat pump device 9 for supplying cold air to the storage chamber 2.

The delivery box 1 is a portion forming a housing of the refrigerated delivery box. As shown in FIG. 2, the delivery box 1 is formed in a box shape by a bottom plate 11, a plurality of side plates 12 raised from the outer edge of the bottom plate 11, and a top plate 13. Of the plurality of side plates 12, the side plate 12 located on the front side is formed with a load receiving opening 14. Of the plurality of side plates 12, the unloading opening 16 is formed in any of the side plates 12 in the left-right direction (the side plate 12 on the right side in the present embodiment).

The load receiving opening 14 is formed in a rectangular shape. The load receiving opening 14 is connected to the storage chamber 2. The delivered package is accommodated in the accommodation chamber 2 through the receiving opening 14. The load receiving opening 14 is provided with a load receiving door 15 capable of opening and closing the load receiving opening 14.

The unloading opening 16 is formed in a rectangular shape. The unloading opening 16 is connected to the storage chamber 2. The luggage stored in the storage chamber 2 is taken out to the outside through the unloading opening 16. The unloading opening 16 is provided with a unloading door 17 capable of opening and closing the unloading opening 16.

Inside such a delivery box 1, the above-mentioned storage chamber 2, a cooling device installation unit 25, and a communication unit 5 (FIG. 1) are provided.

The containment chamber 2 is configured to accommodate the delivered parcel. The accommodation chamber 2 includes a bottom portion 21 composed of a partition plate 24, a plurality of side walls 22, and a top surface portion 23. Although a heat insulating material is attached to the inner surface of the accommodation chamber 2, it is omitted in FIGS. 1 and 2.

As shown in FIG. 1, the partition plate 24 is arranged above the bottom plate 11 of the delivery box 1 with a gap. The bottom portion 21 is composed of a part of the partition plate 24. The bottom 21 supports the luggage in a state where the luggage is stored in the storage chamber 2.

As shown in FIG. 2, the plurality of side walls 22 constituting the accommodation chamber 2 are arranged so as to surround the bottom 21. The accommodation chamber 2 of the present embodiment includes, as a plurality of side walls 22, a right wall and a left wall separated in the left-right direction, and a rear wall arranged rearward. The right wall and the left wall of the present embodiment are composed of a pair of side plates 12 in the left-right direction of the delivery box 1. The rear wall is arranged forward with respect to the side plate 12 on the rear side of the delivery box 1 through a gap. The accommodation chamber 2 of the present embodiment does not have a front wall, and a load receiving opening 14 is formed at a position corresponding to the front wall. However, a front wall is provided and the load receiving opening is provided in the front wall. 14 may be formed.

The cooling device installation unit 25 is a portion for installing the heat pump device 9. The cooling device installation unit 25 is composed of a plurality of side plates 12 of the delivery box 1, a bottom plate 11 of the delivery box 1, and a partition plate 24. The cooling device installation unit 25 has a space capable of accommodating the heat pump device 9. The heat pump device 9 is housed inside the cooling device installation unit 25 and is installed in this state.

Here, as shown in FIG. 1, a discharge port 3 and a supply port 4 are formed on the side wall 22 on the rear side of the storage chamber 2. The discharge port 3 is provided with a plurality of through holes 31 (three in the present embodiment) that are separated in the vertical direction. Further, the supply port 4 also has a plurality of through holes 41 (four in the present embodiment) separated in the vertical direction. Each of these through holes 31 and 41 penetrates the side wall 22 in the thickness direction. The supply port 4 is arranged at the central portion in the vertical direction on the rear wall of the accommodation chamber 2. Further, the discharge port 3 is arranged at the upper end of the rear wall of the storage chamber 2. The lowermost through hole 31 of the plurality of through holes 31 as the discharge port 3 is located above the uppermost through hole 41 of the plurality of through holes 41 as the supply port 4, that is, the discharge port. Reference numeral 3 is arranged above the supply port 4.

The partition plate 24 is formed with a first opening 26 and a second opening 27 so as to penetrate the partition plate 24. The evaporator 91 of the heat pump device 9 is arranged directly below the first opening 26 and the second opening 27.

The communication portion 5 is arranged along the side wall 22 on the rear side of the accommodation chamber 2. The communication unit 5 communicates between the inside of the cooling device installation unit 25 and the inside of the accommodation chamber 2. The communication portion 5 includes an intake path 51 that communicates the discharge port 3 and the first opening 26, and a return path 52 that communicates the supply port 4 and the second opening 27.

The intake path 51 is formed by partitioning the inside of the communication portion 5 with a vertical plate 53. The intake path 51 extends in the vertical direction along the outer surface of the side wall 22 on the rear side of the accommodation chamber 2. The intake path 51 takes in the air in the accommodation chamber 2 from the discharge port 3 and guides the taken-in air to the first opening 26.

Like the intake path 51, the return path 52 is formed by partitioning the inside of the communication portion 5 with a vertical plate 53, and is adjacent to the intake path 51. The return path 52 extends in the vertical direction along the outer surface of the side wall 22 on the rear side of the accommodation chamber 2. The return path 52 guides the air flowing out from the second opening 27 to the supply port 4.

As described above, the heat pump device 9 is attached to the delivery box 1 having such a configuration. The heat pump device 9 is mounted inside the cooling device installation portion 25 of the delivery box 1.

The heat pump device 9 is a device including a compressor, a condenser, an expansion mechanism, and an evaporator 91, and realizes a refrigeration cycle. The heat pump device 9 recovers heat from the air taken in from the intake path 51 by the evaporator 91. The air whose heat has been recovered is returned to the return path 52 and supplied to the storage chamber 2 through the supply port 4. As shown in FIG. 1, the evaporator 91 is housed in the case 92. Further, a fan (air flow forming device) for forming an air flow is provided in the case 92.

The compressor, condenser, expansion mechanism, and evaporator 91 are connected via piping. In this refrigeration cycle, a heat medium (heat transfer medium) circulates. Here, the expansion mechanism may have a function of expanding the compressed gas, and examples thereof include an expansion valve and a capillary tube. Further, as the expansion mechanism, a configuration in which the capillary tube and the on-off solenoid valve are connected in series may be used.

In addition, since a well-known configuration is adopted for each configuration that realizes the refrigeration cycle, the description thereof will be omitted in detail.

The inside of the case 92 communicates with the first opening 26 and the second opening 27. As a result, the evaporator 91 can exchange heat with the air supplied from the first opening 26. The heat exchanged air is led out to the second opening 27.

When the heat pump device 9 operates, the air in the accommodation chamber 2 is taken into the intake path 51 from the discharge port 3, and the taken-in air is introduced into the first opening 26. Then, the introduced air exchanges heat with the evaporator 91 to be cooled, and then is led out to the second opening 27. After that, the air that has passed through the second opening 27 is supplied into the accommodation chamber 2 through the supply port 4. As a result, cooled air is supplied into the accommodation chamber 2, and the temperature inside the accommodation chamber 2 can be kept below a certain level.

Further, the return path 52 of the present embodiment is provided on the side wall 22 facing the load receiving door 15, that is, is provided along the side wall 22 farthest from the outside. Therefore, the return path 52 is not easily affected by the heat of the outside, that is, the temperature of the air supplied into the accommodation chamber 2 can be suppressed from rising due to the influence of the temperature of the outside air.

By the way, as shown in FIG. 3, the refrigerated delivery box of the present embodiment protrudes rearward from the inner wall surface in a state of being attached to the outer wall surface. Therefore, if the refrigerated delivery box of the present embodiment is installed before the construction of the inner wall, there is a problem that it is difficult to construct the inner wall (installation of the wall base 63 and pasting work of the wall cloth 64).

On the other hand, the refrigerated delivery box of the present embodiment is configured by connecting the outdoor side member 7 and the indoor side member 8. Therefore, the outdoor side member 7 can be incorporated at the time of construction of the outer wall and the inner wall, and the indoor side member 8 can be installed after the construction of the outer wall and the inner wall is completed. As a result, the workability of the outer wall and the inner wall can be improved.

The refrigerated delivery box of the present embodiment is installed between a pair of studs 61 separated in the left-right direction. An outer wall material 62 is attached to the front of the pair of studs 61. A rectangular opening 65 is formed in the outer wall material 62, and the refrigerated delivery box of the present embodiment is attached to the opening 65. Further, a wall base 63 is attached to the rear surface of the stud 61. A wall cloth 64 is attached to the rear surface of the wall base 63.

The refrigerated delivery box is configured by connecting the outdoor side member 7 and the indoor side member 8. The outdoor side member 7 is configured to be fitted into the opening 65 of the outer wall material 62. The outdoor side member 7 includes a flange portion 71 for fixing to the stud 61, and a connecting portion 72 extending rearward from the flange portion 71.

The flange portion 71 is fixed to the front surface of the stud 61 via a fixing tool such as a nail. The flange portion 71 is arranged between the stud 61 and the outer wall material 62.

The connecting portion 72 extends rearward, and the indoor side member 8 is configured to be connectable. The rear end of the connecting portion 72 is preferably located in front of the rear surface (inner wall surface) of the wall cloth 64 with the flange portion 71 fixed to the stud 61.

The indoor side member 8 is connected to the connecting portion 72. The indoor side member 8 is formed in a box shape that opens forward, and the above-mentioned cooling device installation portion 25 is provided at the lower end portion. Therefore, the refrigerated delivery box can be easily assembled by simply connecting the indoor side member 8 to which the heat pump device 9 is attached to the cooling device installation portion 25 to the connecting portion 72 of the outdoor side member 7 fixed to the outer wall. it can. The connecting portion 72 and the indoor side member 8 are connected by, for example, screws or bolts.

(effect)
As described above, the refrigerated delivery box of the present embodiment is a refrigerated delivery box attached to the outer wall of the building and having a storage chamber 2 formed inside. The refrigerated delivery box includes a discharge port 3 and a supply port 4 provided on the side wall 22 of the storage chamber 2, a cooling device capable of supplying cooled air, an intake path 51, and a return path 52. .. The cooling device is provided below the accommodation chamber 2. The intake path 51 is provided along the outer surface of the side wall 22 of the storage chamber 2 provided with the discharge port 3, and is configured to take in the air in the storage chamber 2 from the discharge port 3 and guide the air to the cooling device. To. The return path 52 is provided along the outer surface of the side wall 22 of the accommodation chamber 2 provided with the supply port 4, and is configured to guide the air supplied from the cooling device to the supply port 4. According to this configuration, since cooled air can be sent to the storage chamber 2, the temperature of the delivered package can be kept at a low temperature. Further, even if the temperature of the delivered package is not low, the temperature of the storage chamber 2 and the package can be kept low.

In addition, the refrigerated delivery box of the present embodiment has the following additional configuration. That is, in the refrigerated delivery box of the present embodiment, the discharge port 3 is composed of a plurality of through holes 31 separated in the vertical direction. According to this configuration, the strength of the side wall 22 can be maintained even if the opening area of the discharge port 3 is widened.

In addition, the refrigerated delivery box of the present embodiment has the following additional configuration. That is, in the refrigerated delivery box of the present embodiment, the supply port 4 is composed of a plurality of through holes 41 separated in the vertical direction. According to this configuration, the strength of the side wall 22 can be maintained even if the opening area of the supply port 4 is widened.

In addition, the refrigerated delivery box of the present embodiment has the following additional configuration. That is, the refrigerated delivery box of the present embodiment further includes a load receiving opening 14 for putting the load into the storage chamber 2 and a load receiving door 15 capable of opening and closing the load receiving opening 14. The return path 52 is provided on the side wall 22 of the side wall 22 of the accommodation chamber 2 facing the load receiving door 15. According to this configuration, by arranging the return path 52 at a position away from the outside air, it is possible to prevent the return path 52 from rising in temperature due to the influence of the warm outside air, and it is possible to suppress the cooling air from warming up. ..

In addition, the refrigerated delivery box of the present embodiment has the following additional configuration. That is, in the refrigerated delivery box of the present embodiment, the refrigerated delivery box has a cargo receiving opening 14 for putting the luggage into the storage chamber 2 and a unloading opening 16 for taking out the luggage stored in the storage chamber 2. Further prepare. The unloading opening 16 is provided on the side wall 22 adjacent to the side wall 22 facing the loading opening 14. According to this configuration, it is possible to prevent the load pushed in from the opening of the loading opening 14 from popping out from the opening of the loading opening 16. That is, when the direction in which the opening of the unloading opening 16 faces and the direction in which the opening of the unloading opening 14 faces are lined up in the front-rear direction, the load pushed in from the opening of the unloading opening 14 is the unloading opening 16. It becomes easy to pop out from the opening, but according to the present embodiment, it can be suppressed. Further, since the unloading opening 16 is less likely to be kicked, the crime prevention performance can be improved.

In addition, the refrigerated delivery box of the present embodiment has the following additional configuration. That is, the refrigerated delivery box of the present embodiment includes an outdoor side member 7 attached to an outer wall and an indoor side member 8. The indoor side member 8 is connected to the indoor side end portion of the outdoor side member 7 so as to form a storage chamber 2 with the outdoor side member 7. According to this configuration, only the outdoor side member 7 can be attached at the time of construction of the outer wall and the inner wall, and the indoor side member 8 can be connected after the construction of the outer wall and the inner wall, so that the workability of the outer wall and the inner wall is impaired. Can be suppressed.

Further, the indoor side member 8 of the present embodiment is provided with a cooling device installation portion 25. Therefore, the indoor side member 8 in which the cooling device is installed in the cooling device installation portion 25 can be attached to the outdoor side member 7, and the construction is easy. Further, as the indoor side member 8, if the indoor side member 8 having the cooling device installation portion 25 and the indoor side member 8 having no cooling device installation portion 25 are prepared in inventory, a common outdoor side member 8 can be prepared. While using 7, the indoor side member 8 can be selected according to the user's request. Therefore, according to the refrigerated delivery box of the present embodiment, inventory management becomes easy.

Further, the delivery box 1 of the present embodiment is a delivery box 1 attached to an outer wall of a building and having a storage chamber 2 formed inside. The delivery box 1 includes a discharge port 3 and a supply port 4, a cooling device installation unit 25, an intake path 51, and a return path 52. The discharge port 3 is provided on the side wall 22 of the storage chamber 2 and discharges the air in the storage chamber 2. The supply port 4 is provided on the side wall 22 of the accommodation chamber 2 and supplies air into the accommodation chamber 2. The cooling device installation unit 25 is provided below the accommodation chamber 2 and is configured so that the cooling device can be installed. The intake path 51 is provided along the outer surface of the side wall 22 of the accommodating chamber 2, and allows the discharge port 3 and the cooling device installation portion 25 to pass through. The return path 52 is provided along the outer surface of the side wall 22 of the accommodating chamber 2, and allows the supply port 4 and the cooling device installation portion 25 to pass through. According to this configuration, the refrigerating delivery box can be obtained by installing the cooling device in the cooling device installation unit 25. The refrigerated delivery box of the present embodiment can keep the temperature of the storage chamber 2 low so that the temperature of the delivered package can be stored at a low temperature.

Further, the discharge port 3 of the present embodiment is provided at the upper end of the side wall 22. Therefore, according to the refrigerated delivery box of the present embodiment, the air that has become warm and rises in the accommodation chamber 2 can be efficiently discharged, and the inside of the accommodation chamber 2 can be effectively cooled.

(application)
The refrigerated delivery box of the above embodiment is formed by partitioning the communication portion 5 by the intake path 51 and the return path 52, but the present invention is not limited to this. The intake path 51 and the return path 52 may be configured by, for example, piping. Further, although the heat pump device 9 is provided as the cooling device, it may be configured to cool by the Peltier method. Also in this case, it is preferable to provide a fan for forming an air flow for supplying cold air to the accommodation chamber 2.

In the above embodiment, the temperature of the cooled air supplied to the accommodation chamber 2 may be lower than the outside air temperature and is not particularly limited. Further, the temperature of the air supplied to the accommodation chamber 2 may be configured so that the user can appropriately adjust the temperature.

Further, in the above embodiment, the fan is provided inside the case 92, but it may be provided in the intake path 51 and the return path 52. Moreover, it does not have to be a fan as long as it can form an air flow.

1 Delivery box 14 unloading opening 15 unloading door 16 unloading opening 2 storage room 22 side wall 25 cooling device installation part 3 discharge port 31 through hole 4 supply port 41 through hole 51 intake path 52 return path 7 outdoor side member 8 Indoor side member 9 Heat pump device (cooling device)
91 evaporator

Claims (7)

A refrigerated delivery box that is attached to the outer wall of the building and has a storage room inside.
Discharge port and supply port provided on one side wall of the plurality of side walls of the containment chamber, and
A cooling device provided below the containment chamber and capable of supplying cooled air,
An intake path provided along the outer surface of the one side wall and configured to take in air from the accommodation chamber from the outlet and guide the air to the cooling device.
A return path provided along the outer surface of the one side wall and configured to guide the cooled air to the supply port .
A refrigerated delivery box comprising a partition member for partitioning the intake path and the return path . The refrigerated delivery box according to claim 1, wherein the discharge port is composed of a plurality of through holes separated in the vertical direction. The refrigerated delivery box according to claim 1 or 2, wherein the supply port is composed of a plurality of through holes separated in the vertical direction. The refrigerated delivery box is
An opening for receiving luggage to put luggage in the storage room,
Further provided with a cargo receiving door that can open and close the cargo receiving opening,
The refrigerated delivery box according to any one of claims 1 to 3, wherein the return path is provided on a side wall of the accommodation chamber facing the cargo receiving door. The refrigerated delivery box is
An opening for receiving luggage to put luggage in the storage room,
Further provided with a unloading opening for taking out the luggage contained in the containment chamber,
The refrigerated delivery box according to any one of claims 1 to 4, wherein the unloading opening is provided on a side wall adjacent to a side wall facing the unloading opening. The refrigerated delivery box is
The outdoor side member attached to the outer wall and
Any one of claims 1 to 5, characterized in that an indoor side member forming the storage chamber is provided between the outdoor side member and the outdoor side member by being connected to the indoor side end portion. Refrigerated delivery box as described in the section. It is a delivery box that is attached to the outer wall of the building and has a storage room inside.
A discharge port for discharging air in the containment chamber, a supply port for supplying air to the containment chamber, and a supply port provided on one of the plurality of side walls of the containment chamber.
A cooling device installation unit provided below the storage chamber and capable of installing a cooling device capable of supplying cooled air, and a cooling device installation unit.
An intake path provided along the outer surface of the one side wall and passing the discharge port and the cooling device installation portion,
A return path provided along the outer surface of the one side wall and passing the supply port and the cooling device installation portion ,
A delivery box comprising a partition member for partitioning the intake path and the return path .

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