JP7049893B2 - Delivery locker - Google Patents

Description

The present disclosure relates to a delivery locker capable of accommodating luggage.

Conventionally, there is a delivery locker described in Patent Document 1. The delivery locker described in Patent Document 1 includes a locker body and a door. Inside the locker body, a shelf board is formed that divides the internal space into two storage spaces that are independent of each other. The doors are individually openable and closable to the front openings of the two containment spaces.

Japanese Unexamined Patent Publication No. 2016-34404

By the way, when a delivery locker as described in Patent Document 1 is installed outdoors, it is placed on the ceiling of the delivery locker so that the user who operates the delivery locker and the luggage taken out from the locker are less likely to be hit by raindrops or the like. It is conceivable to provide a roof member. However, when a roof member is newly provided on the ceiling portion of the delivery locker, it is necessary to separately provide a dedicated mounting member for mounting the roof member on the ceiling portion of the delivery locker.

Further, when a locker body as described in Patent Document 1 is used, it is conceivable to form a large delivery locker by connecting a plurality of the locker bodies. However, in order to connect a plurality of rocker bodies, a connecting member for connecting them is separately required.

The mounting member for mounting the roof member and the connecting member for connecting a plurality of locker bodies as described above are factors that increase the number of parts of the delivery locker, resulting in deterioration of the cost of the delivery locker. There is a risk of inviting.
The present disclosure has been made in view of these circumstances, and the purpose is to provide a delivery locker that enables connection of a plurality of locker bodies and installation of roof members while minimizing an increase in the number of parts. To do.

The delivery locker that solves the above problems is fixed to a plurality of locker bodies each having a storage space inside that can accommodate luggage, a locker connecting member that connects the ceiling portions of adjacent locker bodies, and a locker connecting member. It is equipped with a roof member. Further, the rocker body is formed in a box shape, has a storage space inside, and is connected to a plurality of inner panels arranged in a laminated manner and a plurality of inner panels to support the laminated body of the inner panels. In the panel connecting member that connects the inner panel to the pillar member, the highly rust-preventive member that has higher rust resistance than the inner panel and the panel connecting member, and the insertion holes formed in the inner panel and the panel connecting member, respectively. Upon being inserted, it is screwed into a female screw hole formed in a highly rust-preventive member, and is provided with an inner panel, a panel connecting member, and a screw member for fastening the highly rust-proof member, and is provided with an inner panel and a panel connecting. A gap is formed between each insertion hole of the member and the threaded member.
According to this configuration, the rocker connecting member used for connecting the plurality of rocker bodies also functions as a mounting member for mounting the roof member. This makes it possible to connect a plurality of rocker bodies and mount the roof member while minimizing the number of parts of the mounting member for mounting the roof member to the rocker body. Further, when the inner panel and the panel connecting member are made of a material that easily rusts, the inner panel and the panel connecting member may be subjected to a rust preventive treatment such as painting in order to prevent rusting. However, even if the inner panel and the panel connecting member are subjected to the rust preventive treatment, when the screw member is screwed into those members, the rust preventive treatment is peeled off at the portion where the screw member is screwed. There is a concern that it will easily rust. In this respect, according to the above configuration, since the screw member does not come into contact with the insertion holes of the inner panel and the panel connecting member, the rust preventive processing of those members is not peeled off by the screw member. Therefore, it is possible to avoid a situation in which the inner panel and the panel connecting member are likely to rust.

In the above-mentioned delivery locker, it is preferable that the roof member is composed of a plurality of roof pieces arranged with a gap between them.
According to this configuration, for example, even when a strong wind hits the roof member, the wind flows through the gaps between the plurality of roof pieces, so that the wind pressure applied to the roof member is reduced. Therefore, it becomes easy to avoid deformation or breakage of the roof member due to wind pressure.

The above-mentioned home delivery locker further includes a solar panel fixed to a roof member and generating electricity based on sunlight, and a power storage device capable of charging the electricity generated by the solar panel and discharging the charged electricity. Is preferable.
According to this configuration, by supplying the electric power charged in the power storage device to various electronic parts mounted on the delivery locker, the power balance of the delivery locker as a whole can be improved and the delivery locker can be operated independently. Can be done.

In the above-mentioned delivery locker, it is preferable to further include a pedestal portion fixed to the bottom surface of the locker body and formed so as to project outward from the outer peripheral surface of the locker body.
According to this configuration, for example, when carrying luggage by a trolley or the like, the wheels of the trolley hit the gantry portion, so that the trolley is less likely to collide with the locker body. Therefore, it is possible to prevent the locker body from being deformed or damaged.

In the above delivery locker, it is preferable that the gantry portion is formed in a quadrangular pyramid shape, and the bottom surface of the locker body is fixed to the top surface of the pedestal portion.
According to this configuration, raindrops and the like flow along the inclined surface of the gantry portion, so that it becomes difficult for raindrops to collect near the bottom surface of the rocker body.

In the above delivery locker, the locker body is arranged in front of the first door member that opens and closes the accommodation space, and a second door member that opens and closes the back surface opposite to the front surface on which the first door member is arranged. It is preferable to further have.
According to this configuration, by opening the second door member, it is possible to easily perform maintenance and the like inside the locker body.

In the above-mentioned home delivery locker, an electric lock device for electrically locking and unlocking the first door member is further provided, and the electric lock device is an unlocking lever that can be mechanically unlocked when the locker is in the locked state. The rocker body preferably further includes a wire extending from the electric lock device toward the back surface of the locker body, and a power transmission member for transmitting the force applied to the wire to the unlocking lever.

According to this configuration, for example, a delivery locker manager or the like can mechanically unlock the electric lock device simply by operating the wire after opening the second door member. As a result, the electric lock device can be unlocked more easily as compared with the case where the unlock lever of the electric lock device is directly operated.

In the above-mentioned delivery locker, it is preferable that a mounting member to which a device can be mounted is further fixed to the locker connecting member.
According to this configuration, any device can be attached to the attachment member, so that convenience can be improved.

According to the present disclosure, it is possible to provide a delivery locker that enables connection of a plurality of locker bodies and attachment of roof members while minimizing an increase in the number of parts.

FIG. 1 is a perspective view showing a perspective structure of a delivery locker according to the first embodiment. FIG. 2 is a perspective view showing a perspective structure excluding the roof member and the mounting member of the delivery locker of the first embodiment. FIG. 3 is a perspective view showing a cross-sectional perspective structure of the rocker body of the first embodiment. FIG. 4 is a cross-sectional view showing a cross-sectional structure of the rocker body of the first embodiment. FIG. 5 is a cross-sectional view showing a cross-sectional structure taken along the line VV of FIG. FIG. 6 is a cross-sectional view showing a cross-sectional structure of the roof member of the first embodiment. FIG. 7 is a perspective view showing a perspective structure excluding the roof member of the delivery locker of the first embodiment. FIG. 8 is a side view showing the side structure of the delivery locker of the second embodiment. FIG. 9 is a rear view showing the rear structure of the delivery locker of the third embodiment. FIG. 10 is a perspective view showing a perspective structure of the electric lock device of the fourth embodiment. FIG. 11 is a side view showing the side structure around the electric lock device and the wire in the delivery locker of the fourth embodiment. FIG. 12 is a perspective view showing a perspective structure around a connecting portion of an inner panel, a panel connecting member, and a highly rust-preventive member in the delivery locker of the fifth embodiment. FIG. 13 is a cross-sectional view showing a cross-sectional structure around a connecting portion of an inner panel, a panel connecting member, and a highly rust-preventive member in the delivery locker of the fifth embodiment.

Hereinafter, embodiments of the delivery locker will be described with reference to the drawings. In order to facilitate understanding of the description, the same components are designated by the same reference numerals as possible in the drawings, and duplicate description is omitted.
<First Embodiment>
First, the delivery locker 10 of the first embodiment will be described with reference to FIGS. 1 to 7. The delivery locker 10 of the present embodiment shown in FIG. 1 can be installed on an outdoor site of a company or the like. The delivery locker 10 includes a main body unit 20 and an operation unit 30.

As shown in FIG. 2, the main body 20 has a structure in which three rocker main bodies 21 to 23 are connected in the X-axis direction. Each rocker body 21 to 23 is formed in a rectangular parallelepiped shape so as to extend in the Z-axis direction. The Z-axis direction corresponds to the vertical direction. Further, the Z1 axis direction, which is one of the Z axis directions, corresponds to the upper part in the vertical direction, and the Z2 axis direction corresponds to the lower part in the vertical direction.

Inside each of the locker bodies 21 to 23, a plurality of storage spaces capable of accommodating luggage are formed side by side in the Z-axis direction. Each of the locker bodies 21 to 23 has a door member 40 at each opening of the plurality of accommodation spaces. The door member 40 opens and closes each of the accommodation spaces of the locker bodies 21 to 23. The operation unit 30 is provided with a touch panel or the like, and is a part in which a delivery company or a user who is a recipient of a package operates the delivery locker 10.

In the delivery locker 10, for example, when the delivery company delivers the package and the user who is the recipient is absent, the delivery company operates the operation unit 30 to operate one or more door members 40. Can be opened. As a result, the courier can accommodate the parcel in the accommodation space corresponding to the opened door member 40. After that, the user can receive the luggage by operating the operation unit 30 at a convenient time.

The delivery locker 10 can also be used when the user wants to send the package to a specific person. In this case, the user operates the operation unit 30 to accommodate the package to be sent in the accommodation space of the delivery locker 10. After that, the courier company operates the operation unit 30 to collect the package, and the courier company delivers the package to a specific person.

As described above, the delivery locker 10 is a device for receiving the parcel between the user and the delivery company.
In the following, of the X-axis directions, the direction from the rocker body 21 toward the rocker body 23 is referred to as "X1 axis direction" or right direction, and the opposite direction is referred to as "X2 axis direction" or left direction. Further, of the Y-axis directions, the direction from the front surface where the door member 40 of the delivery locker 10 is provided toward the back surface on the opposite side thereof is referred to as "Y1 axis direction", and the opposite direction is referred to as "Y2 axis direction".

Next, the structures of the locker bodies 21 to 23 will be described in detail. Since the basic structures of the locker main bodies 21 to 23 are the same, the structure of the locker main bodies 21 will be described below as a representative.
As shown in FIGS. 3 and 4, the rocker body 21 includes a door member 40, an inner panel 50, pillar members 60 to 63, and an outer panel 70.

The inner panel 50 has a structure in which a bottom plate portion 51, a left side plate portion 52, a right side plate portion 53, and a back plate portion 54, which are formed in a flat plate shape, are combined in a box shape by a screw member or the like. The inner panel 50 is open at the front surface and the upper portion where the bottom plate portion 51, the side plate portions 52, 53, and the back plate portion 54 are not arranged. The inner panel 50 is made of a metal material or the like.

As shown in FIG. 5, inside the rocker main body 21, a plurality of inner panels 50 are stacked and arranged in the Z-axis direction. Of the inner panels 50 adjacent to each other in the Z-axis direction, the bottom plate portion 51 of the inner panel 50 arranged above closes the upper opening portion of the inner panel 50 arranged below. The space surrounded by the bottom plate portion 51, the side plate portions 52, 53, the back plate portion 54 of the inner panel 50, and the bottom plate portions 51 of the adjacent inner panels forms a storage space S1 capable of accommodating luggage.

As shown in FIG. 5, the left plate portion 52 of the inner panel 50 is connected to the left plate portion 52 of the inner panel 50 located above the inner panel 50 via the left panel connecting member 55. Further, the right side plate portion 53 of the inner panel 50 is connected to the right side plate portion 53 of the inner panel 50 located above the inner panel 50 via the right side panel connecting member 56. Adjacent inner panels 50, 50 are connected to each other in the Z-axis direction by these panel connecting members 55, 56. In the rocker main body 21, a plurality of the connecting members 55 and 56 are used, so that the plurality of inner panels 50 are connected to each other in the Z-axis direction and laminated.

Hereinafter, a plurality of inner panels 50 stacked and arranged in the Z-axis direction are collectively referred to as a “laminated body of inner panels 50”.
As shown in FIGS. 3 and 4, the plurality of pillar members 60 to 63 are arranged at the four corners of the laminated body of the inner panel 50, respectively. The pillar members 60 to 63 are made of a square cylindrical metal member formed so as to extend in the Z-axis direction.

Among the pillar members 60 to 63, the left rear pillar member 60 arranged on the left rear side of the laminated body of the inner panel 50 includes a first protruding portion 600 extending parallel to the left side surface of the laminated body of the inner panel 50. It has a second protrusion 601 extending parallel to the back surface of the laminated body of the inner panel 50.
Similarly, the right rear pillar member 61 arranged on the right rear side of the laminated body of the inner panel 50 has a first protruding portion 610 extending parallel to the right side surface of the laminated body of the inner panel 50 and a laminated inner panel 50. It has a second protrusion 611 extending parallel to the back surface of the body.

Further, the left front pillar member 62 arranged on the left front side of the laminated body of the inner panel 50 has a first protruding portion 620 extending parallel to the left side surface of the laminated body of the inner panel 50 and a laminated body of the inner panel 50. It has a second protrusion 621 extending parallel to the front surface of the.
Similarly, the right front pillar member 63 arranged on the right front side of the laminated body of the inner panel 50 has a first protruding portion 630 extending parallel to the right side surface of the laminated body of the inner panel 50 and a laminated inner panel 50. It has a second protrusion 631 extending parallel to the front surface of the body.

As shown in FIG. 4, the left panel connecting member 55 is connected to the first protruding portion 600 of the left rear pillar member 60 and the first protruding portion 620 of the left front pillar member 62 by a screw member or the like. Further, the right panel connecting member 56 is connected to the first protruding portion 610 of the right rear pillar member 61 and the first protruding portion 630 of the right front pillar member 63 by a screw member or the like. Therefore, the laminated body of the inner panel 50 is supported by the pillar members 60 to 63 via the left panel connecting member 55 and the right panel connecting member 56.

A flat plate-shaped back plate portion 71 is assembled to the second protruding portion 601 of the left rear pillar member 60 and the second protruding portion 611 of the right rear pillar member 61 by a screw member or the like. The back plate portion 71 is arranged so as to face the back surface of the laminated body of the inner panel 50 with a predetermined gap.
Further, a flat plate-shaped left plate portion 72 is assembled to the first protruding portion 600 of the left rear pillar member 60 and the first protruding portion 620 of the left front pillar member 62 by a screw member or the like. The left side plate portion 72 is arranged so as to face the left side surface of the laminated body of the inner panel 50 with a predetermined gap.

Similarly, a flat plate-shaped right plate portion 73 is assembled to the first projecting portion 610 of the right rear pillar member 61 and the first projecting portion 630 of the right front pillar member 63 by a screw member or the like. The right side plate portion 73 is arranged so as to face the right side surface of the laminated body of the inner panel 50 with a predetermined gap.
As shown in FIG. 2, a top plate portion 74 is assembled to the upper end portions of the pillar members 60 to 63 by screw members or the like. The top plate portion 74 is arranged so as to face the upper surface of the laminated body of the inner panel 50. Further, as shown in FIG. 1, a bottom plate portion 75 is assembled to the lower end portions of the pillar members 60 to 63 by screw members or the like. The bottom plate portion 75 is arranged so as to face the bottom surface of the laminated body of the inner panel 50.

The outer panel 70 is composed of the back plate portion 71, the left side plate portion 72, the right side plate portion 73, the top plate portion 74, and the bottom plate portion 75. That is, the outer panel 70 is arranged so as to surround the periphery of the laminated body of the inner panel 50, and protects the laminated body of the inner panel 50 from the external environment. Further, as shown in FIGS. 3 to 5, a gap is formed between the laminated body of the outer panel 70 and the inner panel 50. That is, the delivery locker 10 has a double structure.

As shown in FIG. 1, the bottom surface of the bottom plate portion 75 is assembled to the top surface 81 of the gantry portion 80 formed in a truncated cone shape. The gantry portion 80 is formed in a truncated cone shape so as to project outward from the outer peripheral surface of the rocker body 21. The gantry portion 80 is fixed to the ground or a base by an anchor or the like.

As shown in FIG. 3, a partition member 90 and a door member 40 are provided on the front surface of the locker main body 21. The partition member 90 is formed so as to extend in the X-axis direction, and is assembled to the second protruding portion 621 of the left front pillar member 62 and the second protruding portion 631 of the right front pillar member 63 by a screw member or the like. There is. The partition member 90 is arranged so as to correspond to each boundary portion of the plurality of inner panels 50 in the Z-axis direction.

As shown in FIG. 4, the right end portion of the door member 40 is rotatably supported by a shaft portion 91 fixed to the partition member 90. A claw portion 41 that engages with the electric lock device 100 is formed at the left end portion of the door member 40. The right side surface of the electric lock device 100 is fixed to the outer surface of the left side plate portion 52 of the inner panel 50 by a screw member or the like. Further, a mounting member 101 is fixed to the left side surface of the electric lock device 100. The mounting member 101 is fixed to the first protruding portion 620 of the left front pillar member 62 by a screw member or the like. As a result, the electric lock device 100 is also fixed to the left front pillar member 62 via the mounting member 101.

The electric lock device 100 is a device that electrically locks and unlocks the door member 40. Specifically, when the delivery company or the user accommodates the luggage in the accommodation space S1 of the inner panel 50 and then closes the door member 40 to engage the electric lock device 100 with the claw portion 41 of the door member 40, the electric lock device 100 locks the door member 40 by electrically locking the claw portion 41 of the door member 40. Further, when the delivery company or the user unlocks the electric lock device 100 with respect to the operation unit 30, the electric lock device 100 unlocks the claw portion 41 of the door member 40. As a result, the door member 40 is opened, so that the delivery company or the user can store the luggage in the storage space S1 of the inner panel 50 or take out the luggage in the storage space S1.

As shown in FIG. 2, the rocker bodies 22 and 23 have substantially the same structure as the rocker body 21. However, the locker main body 22 is different from the rocker main body 21 in that an operation unit 30 is provided instead of the plurality of inner panels 50. Further, the locker main body 23 is different from the rocker main body 21 in that the door member 40 and the inner panel 50 larger than the door member 40 and the inner panel 50 used for the rocker main body 21 are used. The delivery locker 10 is configured by connecting these locker bodies 21 to 23 in the X-axis direction.

As shown in FIG. 2, the rocker body 21 and the rocker body 22 are located at the end of the top plate 74 of the rocker body 21 in the X1 axial direction and at the end of the top plate 74 of the rocker body 22 in the X2 axis direction. The rocker connecting member 110 for connecting the above is fixed by a screw member or the like. That is, the rocker connecting member 110 connects the ceiling portions of the rocker main body 21 and the rocker main body 22. Similarly, for connecting the rocker body 22 and the rocker body 23 to the X1 axis direction end portion of the top plate portion 74 of the rocker body 22 and the X2 axis direction end portion of the rocker body 23 top plate portion 74. The rocker connecting member 111 is fixed by a screw member or the like. That is, the rocker connecting member 111 connects the ceiling portions of the rocker main body 22 and the rocker main body 23, respectively.

Further, the mounting members 112 and 113 are fixed to the end portion of the top plate portion 74 of the rocker body 21 in the X2 axis direction and the end portion of the top plate portion 74 of the rocker body 23 in the X1 axis direction by screw members or the like, respectively. ing.
The rocker connecting members 110, 111 and the mounting members 112, 113 are formed so as to extend from the end portion in the Y1 axial direction to the end portion in the Y2 axial direction in the top plate portions 74 of the rocker main bodies 21 to 23. The upper surfaces of the rocker connecting members 110 and 111 in the Z1 axis direction are inclined surfaces 110a formed so that the height in the Z axis direction increases from the end portion in the Y1 axis direction toward the end portion in the Y2 axis direction. Each has 111a. The upper surfaces of the mounting members 112 and 113 in the Z1 axial direction also have similar inclined surfaces 112a and 113a. Roof members 120 to 122 as shown in FIG. 1 are fixed to the inclined surfaces 110a, 111a, 112a, 113a of the rocker connecting members 110, 111 and the mounting members 112, 113, respectively. The roof members 120 to 122 are provided corresponding to the locker bodies 21 to 23, respectively.

As shown in FIG. 6, the roof member 121 is composed of two flat roof pieces 123 and 124. The roof pieces 123 and 124 each have a plurality of legs 125 and 126 formed so as to extend from the bottom surface in the Z2 axial direction. The tips of the plurality of legs 125 and 126 are screwed into the screw holes 110b and 111b formed in the inclined surfaces 110a and 111a of the rocker connecting members 110 and 111 shown in FIG. 2, respectively, by a screw member (not shown). , The rocker connecting members 110 and 111 are fastened and fixed to the inclined surfaces 110a and 111a, respectively.

The roof piece 123 and the roof piece 124 are arranged in parallel with the inclined surfaces 110a and 111a. A gap S2 is formed between the roof piece 123 and the roof piece 124 in the Y-axis direction. The roof piece 123 is arranged so as to project from the front surface of the locker body 22. As a result, when it rains, the raindrops falling from above the delivery locker 10 hit the roof piece 123, so that the raindrops do not fall on the front portion of the locker body 22. Therefore, it is difficult for raindrops to hit the user who operates the delivery locker 10 and the luggage taken out from the delivery locker 10.

The roof members 120 and 122 shown in FIG. 1 have the same structure as the roof members 121. However, the roof member 120 has an inclined surface 110a of the rocker connecting member 110 and an inclined surface of the mounting member 112 due to the screw member screwed into the screw hole 110b of the rocker connecting member 110 and the screw hole 112b of the mounting member 112 shown in FIG. It is fixed to 112a. Similarly, the roof member 122 is fixed to the inclined surface 111a of the rocker connecting member 111 and the inclined surface 113a of the mounting member 113 by the screw member screwed into the screw hole 111b of the rocker connecting member 111 and the screw hole 113b of the mounting member 113. ing.

Further, as shown in FIG. 7, a flat plate-shaped mounting member 130 is fixed between the front surfaces of the rocker connecting members 110 and 111 by a screw member or the like. A lighting device 140 is fixed to the mounting member 130. The light emitted from the lighting device 140 makes it easier for the user or the delivery company to operate the delivery locker 10 even at night. In addition, instead of the lighting device 140, an arbitrary device such as a crime prevention camera device or an electric shock insecticide can be attached to the mounting member 130.

Similarly, a flat plate-shaped mounting member 131 is mounted between the front surfaces of the rocker connecting member 110 and the mounting member 112. Further, a flat plate-shaped mounting member 132 is also mounted between the front surfaces of the rocker connecting member 111 and the mounting member 113. Any device can be attached to these attachment members 131 and the attachment member 132.

According to the delivery locker 10 of the present embodiment described above, the actions and effects shown in the following (1) to (4) can be obtained.
(1) The locker connecting members 110 and 111 used for connecting the plurality of locker bodies 21 to 23 also function as mounting members for mounting the roof members 120 to 122 on the ceiling of the rocker bodies 21 to 23. This makes it possible to connect a plurality of locker bodies 21 to 23 and to mount the roof members 120 to 122 while minimizing the number of parts of the mounting member for mounting the roof members 120 to 122.

(2) The roof members 120 to 122 are composed of two roof pieces 123 and 124 arranged with a gap between them. According to such a configuration, for example, even when a strong wind hits the roof members 120 to 122, the wind flows through the gaps between the roof pieces 123 and 124, so that the wind pressure applied to the roof members 120 to 122 is reduced. Therefore, it becomes easy to avoid deformation or breakage of the roof members 120 to 122 due to wind pressure.

(3) The delivery locker 10 is provided with a gantry portion 80 fixed to the bottom surface of the locker bodies 21 to 23. The gantry portion 80 is formed so as to project outward from the outer peripheral surface of the rocker main bodies 21 to 23. As a result, for example, when carrying luggage by a trolley or the like, the wheels of the trolley hit the gantry portion 80, so that the trolley is less likely to collide with the locker bodies 21 to 23. Therefore, it is possible to prevent the locker bodies 21 to 23 from being deformed or damaged.

(4) The gantry portion 80 is formed in the shape of a quadrangular pyramid. The bottom surfaces of the rocker bodies 21 to 23 are fixed to the top surface 81 of the gantry portion 80. As a result, raindrops and the like flow along the inclined surface 82 of the gantry portion 80 shown in FIG. 1, so that it becomes difficult for raindrops and the like to collect in the vicinity of the bottom surfaces of the locker bodies 21 to 23.

(5) The mounting member 130 is fixed to the rocker connecting members 110 and 111. As a result, any device such as the lighting device 140 can be attached to the attachment member 130, so that convenience can be improved.
<Second Embodiment>
Next, a second embodiment of the delivery locker 10 will be described. Hereinafter, the differences from the delivery locker 10 of the first embodiment will be mainly described.

As shown in FIG. 8, in the delivery locker 10 of the present embodiment, the solar panel 150 is fixed to the ceiling surface of the roof members 120 to 122. The solar panel 150 generates electricity based on sunlight.
Further, inside the locker main body 23, a power storage device 160 is provided instead of the laminated body of the inner panel 50. The power storage device 160 charges the electric power generated by the solar panel 150. Further, the power storage device 160 can supply electric power to various electronic devices of the delivery locker 10 such as the operation unit 30 by discharging the charged electric power.

According to the delivery locker 10 of the present embodiment described above, the action and effect shown in (6) below can be further obtained.
(6) By supplying the power charged in the power storage device 160 to various electronic parts mounted on the delivery locker 10, the power balance of the delivery locker 10 as a whole can be improved and the delivery locker 10 can be operated independently. It can be possible.

<Third Embodiment>
Next, a third embodiment of the delivery locker 10 will be described. Hereinafter, the differences from the delivery locker 10 of the first embodiment will be mainly described.
As shown in FIG. 9, the locker bodies 21 to 23 of the present embodiment are each provided with a door member 170 for opening and closing the back surface thereof. In the present embodiment, the door member 40 provided on the front surface of the locker main bodies 21 to 23 corresponds to the first door member, and the door member 170 provided on the back surface of the locker main bodies 21 to 23 corresponds to the second door member. Each door member 170 is provided with a mechanical lock device 171. The key of the lock device 171 is possessed by the administrator of the delivery locker 10.

According to the delivery locker 10 of the present embodiment described above, the action and effect shown in (7) below can be further obtained.
(7) The administrator or the like can see the inside of each locker body 21 to 23 by unlocking the lock device 171 with a key and opening the door member 170. As a result, even if an abnormality occurs in the internal device such as the electric lock device 100, the internal device can be repaired or replaced by opening the door member 170, so that the maintenance of each locker body 21 to 23 can be performed. It can be done easily.

<Fourth Embodiment>
Next, a fourth embodiment of the delivery locker 10 will be described. Hereinafter, the differences from the delivery locker 10 of the third embodiment will be mainly described.
As shown in FIG. 10, the electric lock device 100 of the present embodiment has an unlocking lever 102 on the back surface in the Y1 axis direction. The unlocking lever 102 can be operated in the Z1 axis direction, that is, upward in the vertical direction. The electric locking device 100 includes a mechanical unlocking mechanism capable of forcibly shifting from the locked state to the unlocked state based on the operation of the unlocking lever 102 in the vertical direction upward.

A long plate-shaped power transmission member 103 is provided in a portion of the mounting member 101 in the vicinity of the unlocking lever 102. One end of the power transmission member 103 is rotatably supported by a shaft member 103a fixed to the mounting member 101. A screw member 103b is screwed and fixed to the other end of the power transmission member 103. The tip of the screw member 103b is in contact with the portion of the unlocking lever 102 on the lower side in the vertical direction.

Further, as shown in FIG. 11, one end of the wire W is wound and fixed to the screw member 103b. The other end of the wire W extends to the first protrusion 600 of the left rear pillar member 60. A plate member 602 is fixed to the first protruding portion 600 of the left rear pillar member 60. The other end of the wire W is wound around and fixed to the screw member 603 screwed into the plate member 602. The wire W is held in a tense state between the screw member 103b and the screw member 603.

The same power transmission member 103 and wire W are provided in all the electric lock devices 100 of the locker main bodies 21 to 23.
In the delivery locker 10 of the present embodiment, when the administrator or the like opens the door member 170 provided on the back surface of the locker main body 21 to 23 and then pulls the wire W upward in the vertical direction, the power transmission member is passed through the wire W. Due to the force transmitted to 103, a force upward in the vertical direction is applied to the power transmission member 103. As a result, the power transmission member 103 rotates about the shaft member 103a in the direction indicated by the arrow C, so that the unlocking lever 102 is operated upward in the vertical direction by the screw member 103b shown in FIG. Therefore, the electric lock device 100 can be mechanically unlocked.

According to the delivery locker 10 of the present embodiment described above, the action and effect shown in the following (8) can be further obtained.
(8) The locker main bodies 21 to 23 include a wire W extending from the electric lock device 100 toward the back surface of the locker main bodies 21 to 23, and a power transmission member 103 for transmitting the force applied to the wire W to the unlocking lever 102. are doing. As a result, the administrator or the like can unlock the unlocking lever 102 simply by applying a predetermined force to the wire W without reaching for the unlocking lever 102 of the electric locking device 100 and directly operating the unlocking lever 102. Since it can be operated in the direction, the electric lock device 100 can be unlocked more easily.

<Fifth Embodiment>
Next, a fifth embodiment of the delivery locker 10 will be described. Hereinafter, the differences from the delivery locker 10 of the first embodiment will be mainly described.
In the delivery locker 10 of the first embodiment, for example, when the inner panel 50 and the panel connecting members 55 and 56 are made of a metal material having low rust resistance, coating or the like for enhancing the rust resistance is applied to them. May be processed.

On the other hand, when the inner panel 50 and the panel connecting members 55 and 56 are connected by the screw members, it is necessary to form screw holes in the inner panel 50 and the panel connecting members 55 and 56. However, when the screw member is screwed into the screw holes of the inner panel 50 and the panel connecting members 55 and 56, the rust preventive treatment such as painting applied to the screw holes of the inner panel 50 and the panel connecting members 55 and 56 is peeled off. there is a possibility. This causes rust on the inner panel 50 and the panel connecting members 55 and 56.

Therefore, in the delivery locker 10 of the present embodiment, the inner panel 50 and the panel connecting members 55 and 56 have a structure in which rust is unlikely to occur, and the inner panel 50 and the panel connecting members 55 and 56 can be connected to each other.
Specifically, as shown in FIG. 12, the panel connecting member 56 is formed with a bent portion 560 bent in the Z1 axial direction in parallel with the right side plate portion 53 of the inner panel 50. The bent portion 560 of the panel connecting member 56 is sandwiched between the right side plate portion 53 of the inner panel 50 and the highly rust-preventive member 180. The high rust preventive member 180 is made of a flat plate-shaped member made of a metal material having high rust preventive properties such as stainless steel.

As shown in FIG. 13, insertion holes 530 and 561 into which the screw member 190 is inserted are coaxially formed in the right side plate portion 53 of the inner panel 50 and the bent portion 560 of the panel connecting member 56, respectively. By setting the inner diameter of the insertion holes 530, 561 to be larger than the outer diameter of the screw member 190, a gap is formed between the inner peripheral surface of the insertion holes 530, 561 and the outer peripheral surface of the screw member 190. ..

The high rust preventive member 180 is formed with a female screw hole 181 coaxially with the insertion holes 530 and 561. By screwing the screw member 190 into the female screw hole 181 the right side plate portion 53 of the inner panel 50, the bent portion 560 of the panel connecting member 56, and the highly rust-preventive member 180 are fastened.

The rocker main body 21 is provided with a plurality of fastening structures of the inner panel 50 and the panel connecting member 56 by such a highly rust-preventive member 180 and a screw member 190. Further, the left side plate portion 52 and the panel connecting member 55 of the inner panel 50 are also provided with a plurality of similar fastening structures by the high rust preventive member 180 and the screw member 190.

According to the delivery locker 10 of the present embodiment described above, the action and effect shown in (9) below can be further obtained.
(9) Since the screw member 190 is not in contact with the inner panel 50 and the panel connecting members 55 and 56, the rust preventive processing of those members is not peeled off by the screw member 190. Therefore, it is possible to avoid a situation in which the inner panel 50 and the panel connecting members 55 and 56 are likely to rust.

<Other embodiments>
The above embodiment can also be carried out in the following embodiments.
-The roof members 120 to 122 of the first embodiment are not limited to the two roof pieces, but may be composed of three or more roof pieces arranged with a gap between them.

The shape of the gantry portion 80 of the first embodiment is not limited to the shape of a quadrangular pyramid, and can be arbitrarily changed.
In the delivery locker 10 of the fourth embodiment, for example, a plurality of wires W corresponding to each of the plurality of electric lock devices 100 of the locker main body 21 are connected to a predetermined operation lever, and then the operation lever is operated. The unlocking levers 102 of the plurality of electric lock devices 100 may be collectively operated in the unlocking direction. According to such a configuration, a plurality of electric lock devices 100 can be unlocked at once, so that convenience can be improved.

-The number of locker bodies constituting the delivery locker 10 of each embodiment can be arbitrarily changed.
-The present disclosure is not limited to the above specific examples. Specific examples described above with appropriate design changes by those skilled in the art are also included in the scope of the present disclosure as long as they have the characteristics of the present disclosure. Each element included in each of the above-mentioned specific examples, and their arrangement, conditions, shape, and the like are not limited to those exemplified, and can be appropriately changed. The combinations of the elements included in each of the above-mentioned specific examples can be appropriately changed as long as there is no technical contradiction.

W: Wire 10: Delivery locker 21-23: Locker body 40: Door member (first door member)
55, 56: Panel connecting member 50: Inner panel 60 to 63: Pillar member 80: Stand 100: Electric locking device 102: Unlocking lever 103: Power transmission member 110, 111: Rocker connecting member 120 to 122: Roof member 123 , 124: Roof pieces 130 to 132: Mounting member 150: Solar panel 160: Power storage device 170: Door member (second door member)
180: Highly rust-proof member 181: Female screw hole 190: Thread member 530, 561: Insertion hole

Claims (8)

Multiple locker bodies that each have a storage space inside that can accommodate luggage,
A locker connecting member that connects the ceiling portions of the adjacent rocker bodies,
A roof member fixed to the rocker connecting member and
The locker body is
A plurality of inner panels that are formed in a box shape, have the accommodation space inside, and are arranged in a laminated manner.
A pillar member connected to the plurality of inner panels and supporting the laminated body of the inner panels, and
A panel connecting member that connects the inner panel to the pillar member,
A highly rust-preventive member having a higher rust-preventive property than the inner panel and the panel connecting member,
It is inserted into the insertion holes formed in the inner panel and the panel connecting member, respectively, and screwed into the female screw holes formed in the highly rust-preventive member, so that the inner panel, the panel connecting member, and the high-proof member are screwed into the insertion holes. It is equipped with a screw member that fastens a rust-resistant member.
A gap is formed between the insertion holes of the inner panel and the panel connecting member and the screw member.
Delivery locker. The delivery locker according to claim 1, wherein the roof member is composed of a plurality of roof pieces arranged with a gap between them. A solar panel that is fixed to the roof member and generates electricity based on sunlight,
The home delivery locker according to claim 1 or 2, further comprising a power storage device capable of charging the electric power generated by the solar panel and discharging the charged electric power. The delivery locker according to any one of claims 1 to 3, further comprising a pedestal portion fixed to the bottom surface of the locker body and formed so as to project outward from the outer peripheral surface of the locker body. The gantry portion is formed in the shape of a quadrangular pyramid.
The delivery locker according to claim 4, wherein the bottom surface of the locker body is fixed to the top surface of the gantry portion. The locker body is
A first door member that is placed in front of it and opens and closes the accommodation space,
The delivery locker according to any one of claims 1 to 5, further comprising a second door member that opens and closes a back surface opposite to the front surface on which the first door member is arranged. An electric locking device for electrically locking and unlocking the first door member is further provided.
The electric locking device has an unlocking lever that can be mechanically unlocked when in a locked state.
The locker body is
A wire extending from the electric lock device toward the back surface of the locker body,
The delivery locker according to claim 6, further comprising a power transmission member that transmits the force applied to the wire to the unlocking lever. A mounting member to which the device can be mounted is further fixed to the rocker connecting member.
The delivery locker according to any one of claims 1 to 7 .

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