JP2005022577A - Loading platform and transformation method using its loading platform - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a suitable means and a method for efficiently and simply decontaminating loads contaminated by bacteria and other hazardous substance without taking place and time. <P>SOLUTION: The loading platform is equipped with a box-shape frame having a storing space capable of storing loads in the inside and an ultraviolet irradiation apparatus having an ultraviolet lamp capable of irradiating the ultraviolet ray in the storing space, and a lamp fixture fixing the ultraviolet lamp to the frame. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a loading platform and a transportation method using the loading platform. In particular, the present invention relates to a loading platform suitable for transporting loads contaminated with bacteria and harmful substances, and a transportation method using the loading platform.
[0002]
[Prior art]
May carry packages contaminated with bacteria or harmful substances. For example, a medical device decided to be disposed of at a hospital may be transported. In addition, medical equipment used in hospitals may be transported to the manufacturer's factory for repair.
[0003]
It is not uncommon for these medical devices and the like to be contaminated by patient's body fluids, contaminated with harmful bacteria, or other harmful substances.
Conventionally, when these medical devices and the like are transported, the consignee has performed decontamination work such as sterilization. However, with the expansion of operations, contaminated equipment exceeding the work capacity at the transportation destination is being carried in.
Another important issue is how to ensure the safety of transporters.
Japanese Patent Application Laid-Open No. 10-250378 discloses a truck-like cargo bed equipped with an ozone generator. However, the purpose is to sterilize and deodorize the cargo compartment, and the important point of view of sterilizing the cargo stored in the cargo compartment is eliminated. In addition, the method of refluxing ozone gas into the cargo compartment is effective for deodorizing the atmosphere, but is not very effective for bacteria attached to the inner wall of the cargo compartment or the side of the luggage. This is thought to be because the gas containing ozone does not reach the bacteria attached to the inner surface of the cargo compartment.
[0004]
On the other hand, it is known that the use of ultraviolet light alone or the combined use of ultraviolet light and ozone has an extremely high sterilizing ability against bacteria. As an example, an example of a test for testing the sterilizing ability of bacteria of ultraviolet rays and ozone will be described.
A pair of special high-pressure mercury lamps arranged in series is installed in a closed room with a width of 3.2 m, a length of 7.5 m, and a height of 2.5 m. Rotate horizontally and 10 ⁶ An aluminum foil carrying CFU bacteria was placed at four measurement points of 1 m, 2 m, 3 m, and 4 m from the rotation center and the corner of the room, and irradiated with ultraviolet rays from a special high-pressure mercury lamp for 3 hours. For comparison, an aluminum foil that shielded the irradiation of ultraviolet rays to the bacteria was also provided.
The special high-pressure mercury lamp has a sterilization line illumination of 50 μW / cm at a position 2 m perpendicular to the center of the lamp. ² As described above, the wavelength of the ultraviolet ray is a wavelength for ozonizing oxygen. In the sealed chamber, the temperature was 22 to 28 degrees and the humidity was 30 to 40%.
[0005]
The ultraviolet output of the special high-pressure mercury lamp at this time is 0.104 to 0.128 mW / cm in the range of 1 m to 4 m. ² To 0.007 to 0.009 mW / cm ² The maximum concentration of ozone gas was 1.6 to 2.3 ppm between 120 and 210 minutes after the start of operation.
Thereafter, the bacteria were cultured for 72 hours and examined for the presence of bacterial colonies. When exposed to ultraviolet rays and ozone, the aluminum foil placed at 1 m showed staphylococcus epidermidis, MRSA, O-157, Pseudomonas aeruginosa and Bacillus subtilis. In the case of aluminum foil at 4 m, staphylococcus epidermidis, MRSA, О-157 and Pseudomonas aeruginosa are negative for survival, and Bacillus subtilis is negative for survival. In the aluminum foil in the corner, the negative survival of O-157 was negative, and the negative survival of Staphylococcus epidermidis, MRSA, Bacillus subtilis and Pseudomonas aeruginosa was positive. In addition, when exposed to ozone alone, all the aluminum foils were positive for the survival of Staphylococcus epidermidis, MRSA, O-157, Pseudomonas aeruginosa and Bacillus subtilis.
On the other hand, in an environment where the temperature is 22 to 28 degrees and the humidity is 60 to 80%, 10 ⁴ When a comparative test using aluminum foil carrying CFU bacteria was carried out, when exposed to ozone alone, the survival of staphylococcus epidermidis, MRSA, O-157 and Pseudomonas aeruginosa was observed with aluminum foil in all locations. Negative was-, and Bacillus subtilis survival was negative.
[0006]
[Patent Document 1]
JP-A-10-250378
[0007]
[Problems to be solved by the invention]
As described above, there has been a demand for providing a means and a method for decontaminating a baggage contaminated with harmful substances efficiently and easily over time and place. In particular, there has been a demand for providing means and methods suitable for efficiently and easily decontaminating baggage contaminated with bacteria over time and place.
[0008]
The present invention has been devised in view of the above-mentioned problems and the above-mentioned knowledge of the inventor. Instead of the conventional method of transporting luggage, the present invention can efficiently and easily remove luggage contaminated with bacteria and other harmful substances. It seeks to provide suitable means and methods for decontamination over time and place.
[0009]
[Means for Solving the Problems]
To achieve the above object, according to the present invention, a loading platform mounted on or pulled by a chassis of a moving body for carrying a load, a box-shaped frame having a storage space capable of storing the load therein, and the storage space And an ultraviolet irradiation device having an ultraviolet lamp capable of irradiating ultraviolet rays and a lamp fixture for fixing the ultraviolet lamp to the frame.
[0010]
According to the configuration of the present invention, the box-shaped frame has a storage space in which luggage can be stored, the ultraviolet lamp of the ultraviolet irradiation device can irradiate the storage space with ultraviolet light, and the lamp fixture of the ultraviolet irradiation device includes the lamp. Since the luggage is stored in the storage space of the frame and the ultraviolet lamp fixed to the lamp fixture irradiates the storage space with the ultraviolet light, the ultraviolet light is applied to the luggage. Yes, the package can be sterilized or sterilized if the package is contaminated with bacteria.
[0011]
Furthermore, the loading platform according to the present invention is preferably such that the lamp fixture can adjust the mounting posture of the ultraviolet lamp.
According to the configuration of the present invention, the lamp fixture can adjust the mounting posture of the ultraviolet lamp, and therefore the direction in which the lamp emits ultraviolet light can be adjusted by adjusting the mounting posture of the lamp.
[0012]
Further, in the loading platform according to the present invention, it is preferable that the lamp fixing device fixes the ultraviolet lamp to a ceiling portion of the storage space, and the frame can mount a load on the bottom portion of the storage space.
According to the configuration of the present invention, the lamp fixture fixes the ultraviolet lamp to the ceiling of the storage space, and the frame can mount the load on the bottom of the storage space. The UV lamp does not get in the way of mounting, and UV light can be applied to the top of the luggage.
[0013]
Furthermore, the cargo bed according to the present invention preferably includes a reflecting member having a reflecting surface for reflecting the ultraviolet rays emitted from the ultraviolet lamp to the inside of the storage space.
With the configuration of the present invention, the reflecting surface of the reflecting member reflects the ultraviolet rays emitted from the ultraviolet lamp to the inside of the storage space, so that more ultraviolet rays can be applied to the luggage.
[0014]
Furthermore, in the loading platform according to the present invention, it is preferable that the reflecting member has a posture adjusting mechanism capable of adjusting an orientation of the reflecting surface.
According to the configuration of the present invention, the posture adjusting mechanism of the reflecting member can adjust the direction of the reflecting surface, so that the reflected ultraviolet light can be adjusted to be applied to the load.
[0015]
Furthermore, in the cargo bed according to the present invention, it is preferable that the wavelength of the ultraviolet light is a wavelength that ozonizes oxygen.
According to the configuration of the present invention, ozone is generated in the atmosphere in the storage space because the wavelength of the ultraviolet ray is a wavelength that ozonizes oxygen.
[0016]
Furthermore, the loading platform according to the present invention preferably includes a humidifier capable of adding moisture to the storage space.
According to the configuration of the present invention, the humidifier can add moisture to the storage space, so that the humidity of the atmosphere in the storage space can be adjusted to promote sterilization or sterilization.
[0017]
Furthermore, it is preferable that the loading platform according to the present invention is a substantially rectangular parallelepiped in which the storage space is long in the traveling direction, and the frame has an opening / closing door capable of opening a side portion of the storage space.
According to the configuration of the present invention, the storage space is a substantially rectangular parallelepiped that is long in the traveling direction, and the opening / closing door of the frame can open the side portion of the storage space. Therefore, it is easy to seal and open the storage space. In addition, when the opening / closing door opens the side, it is possible to easily load and unload the load using a cargo handling machine.
[0018]
Moreover, in order to achieve the said objective, the mobile body which conveys the load which concerns on this invention shall mount or pull one of the said loading platforms in a chassis.
[0019]
According to the configuration of the present invention, one of the loading platforms is mounted or pulled on the chassis of the moving body, so that the moving body can exhibit the above-described action.
[0020]
Further, in order to achieve the above object, the method for transporting a load according to the present invention includes a load carrier preparation step for preparing one of the load carriers, a load storage step for storing the load in the load carrier, and a moving body having a load carrier. And a decontamination step of operating the ultraviolet irradiation device during movement by loading or towing.
[0021]
According to the configuration of the present invention, one of the above loading platforms is prepared in the loading platform preparation process, the luggage is stored in the loading platform in the loading storage process, and the moving body is loading or towing the loading platform in the decontamination process while moving. Since the ultraviolet irradiating device is operated, it is possible to irradiate the load with ultraviolet rays while the mobile body is transporting the load, and when the load is contaminated with bacteria, efficient sterilization or sterilization work can be performed during the transfer.
[0022]
In order to achieve the above object, the method for transporting a load contaminated with harmful substances according to the present invention has a box-shaped frame having a storage space for storing the load and is loaded or pulled on a chassis of a moving body. A cargo bed preparation process for preparing a cargo bed, a luggage storage process for storing the cargo in the storage space, and a decontamination work for decontamination of the cargo stored in the storage space while the mobile body loads or pulls the cargo bed and moves. And a process.
[0023]
According to the configuration of the present invention described above, a loading platform that has a box-shaped frame having a storage space for storing luggage in the loading platform preparation process and is loaded or pulled on the chassis of the mobile body is prepared, and the luggage is stored in the storage space in the luggage storage process. In the decontamination process, the mobile unit loads or pulls the loading platform and performs decontamination work on the luggage stored in the storage space while moving. Work can be performed, and efficient decontamination work can be performed during transportation.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a structure of a loading platform and a movable body that pulls or loads the loading platform according to a preferred embodiment of the present invention will be described with reference to the drawings. In each figure, common portions are denoted by the same reference numerals, and redundant description is omitted.
[0025]
FIG. 1 is a side view of a moving body and a loading platform according to a preferred embodiment of the present invention. FIG. 2 is a partial view of an ultraviolet irradiation device according to a preferred embodiment of the present invention. FIG. 3 is a rear cross-sectional view of a movable body and a cargo bed according to a preferred embodiment of the present invention, part 1 thereof. FIG. 4 is a rear sectional view 2 of the movable body and the cargo bed according to a preferred embodiment of the present invention. FIG. 5 is a wiring system diagram of a moving body and a loading platform according to a preferred embodiment of the present invention.
The mobile body 1 is for carrying a load, and is, for example, an automobile, a train, an airplane, a ship, or the like. Automobiles include trucks and container towing vehicles.
[0026]
The moving body 1 includes a chassis 2, a cab 3, and a loading platform 4.
The chassis 2 is a basic structure of the moving body 1. When the moving body 1 is a truck, the chassis 2 is a ladder structure having wheels on which the cab 3 and the loading platform 4 are placed.
When the mobile body 1 is a container vehicle, the chassis 2 is a tow vehicle structure, and the loading platform 4 is a container. When the mobile body is a container ship, the chassis 2 is a ship and the loading platform 4 is a container. When the mobile body is an airplane, the chassis 2 is an airplane body, and the loading platform 4 is an airplane container.
[0027]
The loading platform 4 includes a frame 10, an ultraviolet irradiation device 20, a reflection member 60, and a humidifier 70.
The frame 10 is a box-like structure having a storage space H in which a luggage can be stored. For example, the frame 10 includes a bottom plate 11, a front plate 12, a rear plate 13, an upper beam structure 14, and a pair of left and right doors that surround the storage space H.
The floor board 11 covers the lower part of the storage space H, and has a quadrangular floor structure that has a predetermined thickness and is long in the traveling direction of the track.
The front plate 12 is a structure that covers the front portion of the storage space H, and is a quadrangular wall structure having a predetermined thickness that rises upward from the front side of the floor plate 11.
The rear plate 13 covers the rear part of the storage space H, and has a quadrangular wall structure with a predetermined thickness that rises upward from the rear side of the floor plate 11.
The upper beam structure 14 is a beam structure that connects the center of the upper side of the front plate 12 and the center of the upper side of the rear plate 13.
[0028]
The open / close door is, for example, a door that releases the side portion of the storage space H, and includes a lower open / close door 15 and an upper open / close door 16.
The lower opening / closing door 15 is a structure that covers about 1/3 to 1/4 below the side portion of the storage space H, has a quadrangular wall structure with a predetermined thickness, and has a lower hinge 17 at a lateral edge of the floor board. Join with. The lower opening / closing door 15 can swing downward about the lower hinge 17 as a rotation center.
The upper opening / closing door 16 has a plate structure that surrounds about 1/2 of the upper surface of the storage space H and about 2/3 to 3/4 of the side surface, has an inverted L-shaped cross section, and has an upper hinge 18 on the upper beam structure 14. Join with. The upper opening / closing door 16 can swing up and down around the upper hinge 18 as a rotation center.
When the lower opening / closing door 15 falls downward with the lower hinge 17 as the rotation center and the upper opening / closing door 16 jumps upward with the upper hinge 18 as the rotation center, almost all of the side surfaces of the storage space H and half of one side of the upper surface are formed. Opened.
The lower opening / closing door 15 rises and rises with the lower hinge 17 as the rotation center, and the upper opening / closing door 16 springs downward with the upper hinge 18 as the rotation center, and the upper side of the lower opening / closing door 15 and the lower side of the upper opening / closing door 16 Are overlapped, almost all of the side surfaces of the storage space H and half of one side of the upper surface are closed.
[0029]
A rubber seal member 19 includes a contact portion between the lower side of the lower door 15 and the side of the floor plate 11, a contact portion between the front side of the lower door 15 and the side of the front plate 12, and the lower door. 15 is provided at a contact portion between the front side of the rear plate 13 and the side of the rear plate 13, and seals when the door is closed.
Further, a rubber seal member 19 includes a contact portion between the upper side of the upper door 16 and the upper beam structure 14, a contact portion between the front side of the upper door 16 and the side of the front plate 12, and the upper door. 16 is provided at the abutting portion between the rear side of the rear plate 13 and the side of the rear plate 13 and the abutting portion between the lower side of the upper door 16 and the upper side of the lower door 15 and seals when the door is closed. ing.
[0030]
The ultraviolet irradiation device 20 is a device that can irradiate ultraviolet rays, and includes an ultraviolet lamp 21, a lamp fixture 30, a power supply system 40, and a piping system 50.
The ultraviolet lamp 21 is a lamp that can irradiate the storage space H with ultraviolet rays, and is, for example, a special high-pressure mercury lamp.
It is preferable that the ultraviolet lamp 21 emits ultraviolet rays having a wavelength for ozone-converting oxygen. For example, the wavelength is 184.9 nm or 253.7 nm.
[0031]
The lamp fixture 30 is an instrument that fixes the ultraviolet lamp 21 to the frame 10. The lamp fixture 30 is preferably capable of adjusting the mounting posture of the ultraviolet lamp. The lamp fixture 30 preferably fixes the ultraviolet lamp 21 to the ceiling portion of the storage space H. For example, a pair of lamp fixtures 30 fix the ultraviolet lamp 21 to the front and back of the lower surface of the upper beam structure 14 of the frame 10.
For example, one ultraviolet lamp 21 is arranged at the front part of the storage space H, and the other one ultraviolet lamp 21 is arranged at the rear part of the storage space H.
The lamp fixture 30 includes a fixture seat 31, a fixture neck 32, a base flange 33, a tip flange 34, and a safety cage 35.
The fixture seat 31 is fixed to the lower surface of the upper beam structure 14 of the frame 10 and has a rotary hinge at the lower portion.
The fixture neck 32 is rotatably fixed to the rotary hinge of the fixture seat 31. The rotary tool neck 32 swings around the rotary hinge and can lock a predetermined swing angle α.
The base flange 33 and the tip flange 34 support both ends of the ultraviolet lamp 21 in a rod shape, and are circular lids.
The safety cage 35 is for protecting the ultraviolet lamp 21 from damage and the like, and protecting workers and the like from the high-temperature ultraviolet lamp 21. The safety cage 35 is a bird cage-like fence provided on the outer edges of the base flange 33 and the tip flange 34.
A contact safety microswitch 49 described later is built in the tip flange 34. When an object touches the safety cage 35, a normally closed contact safety micro switch 49 is opened.
[0032]
The power supply system 40 is an electric circuit for electrically driving the ultraviolet lamp 21 to emit ultraviolet rays. The dynamo 41, the battery 42, the inverter 43, the ballast 44, the power supply circuit 45, the on switch 46, and the off switch 47 are operated. It comprises a lamp 48 and a contact safety microswitch 49.
The dynamo 41 is a DC generator that is driven by the engine of the moving body 1. The dynamo 41 has a larger power generation capacity than that provided as a standard in the engine.
The battery 42 is for accumulating direct current electricity, and stores the direct current electricity generated by the dynamo 41.
The inverter 43 is for converting a DC power source into an AC power source, and receives DC electricity output from the battery 42 and outputs AC electricity.
The ballast 44 is a driver that drives the ultraviolet lamp 21. The ballast 44 receives the AC electricity output from the inverter 43 and outputs the driving electricity that drives the ultraviolet lamp 21.
[0033]
The power supply circuit 45 is a standard circuit for supplying the electricity of the inverter 43 to a load, and includes a power supply lamp, an air cooling fan, and NFB.
The on switch 46 is a switch for supplying electricity from the power supply circuit 45 to the ballast 44. When the on switch 46 is pressed, the self-holding circuit is activated to supply power to the ballast 44.
The off switch 47 is a switch that cuts off the supply of electricity from the power supply circuit 45 to the ballast 44. When the off switch 47 is pressed, the self-holding circuit is opened and the supply of electricity to the ballast 44 is stopped.
The operation lamp 48 is a lamp for informing that the irradiation of ultraviolet rays is performed. When electricity is supplied to the ballast 44, the activation lamp 48 is lit.
The contact safety microswitch 49 is a switch that stops the irradiation of ultraviolet rays when an object touches the safety cage 35. When an object touches the safety cage 35, the normally closed contact safety microswitch 49 is opened, the aforementioned self-holding circuit is opened, and the supply of electricity to the ballast 44 is stopped.
[0034]
The piping system 50 is a piping for air-cooling the power supply system 40 and includes an intake piping 51, a storage case 52, and an exhaust fan 53.
The intake pipe 51 is a pipe that introduces cooling air into the storage case 52. Arrange the air intake so that it stays high so that it doesn't catch water splashes while driving in the rain.
The storage case 52 is a container for storing the inverter 43 and the ballast 44. The storage case 52 has a sealed prevention structure, and is fixed to the chassis 2 of the moving body 1, for example.
The exhaust fan 53 is a fan for releasing the heat generated from the inverter 43 and the ballast 44 to the outside. The exhaust fan 53 is provided in the storage case 52.
[0035]
The reflection member 60 is a member having a reflection surface that reflects the ultraviolet rays emitted from the ultraviolet lamp 21 to the inside of the storage space H, and includes a ceiling portion reflection member 61, a side upper reflection member 62, and a side lower reflection member 63. The front reflection member 64, the rear reflection member (not shown), and the posture adjustment mechanism 65 are configured.
The ceiling reflection member 61 is a plate-like or film-like member that is provided on the ceiling of the storage space H and has a reflection surface facing downward.
The side upper reflecting member 62 is a plate-like or film-like member provided at the upper part of the side portion of the storage space H and having the reflecting surface oriented in the horizontal direction.
The side lower reflection member 63 is a plate-like or film-like member provided at the lower part of the side portion of the storage space H and having the reflection surface oriented in the horizontal direction.
The front reflection member 64 is a plate-like or film-like member that is provided in the front part of the storage space H and has a reflection surface facing substantially rearward.
The rear reflection member is a plate-like or film-like member that is provided in the rear part of the storage space H and has a reflection surface facing forward.
[0036]
The posture adjustment mechanism 65 is a mechanism that can adjust the orientation of the reflecting surfaces of the ceiling reflecting member 61, the side upper reflecting member 62, the side lower reflecting member 63, the front reflecting member 64, and the rear reflecting member. The orientation of each reflecting surface is adjusted by the attitude adjustment mechanism 65, and the ultraviolet rays emitted from the ultraviolet lamp 21 can be applied to a desired portion of the luggage 5.
3 and 4 show an example in which a reflection member 60 is provided on a so-called wing body type frame 10. The ceiling reflection member 61 is divided into a pair of left and right members, and each side upper reflection member 62 is divided into a pair of upper and lower members. One ceiling reflection member 61 and two side upper reflection members 62 are It is shown that the side lower reflection member 63 is provided on the inner surface of the lower door 15 and is provided on the inner surface of the door 16.
[0037]
The humidifier 70 is a device that can apply moisture to the storage space H, and is provided inside the frame 10.
When the ultraviolet rays of the ultraviolet lamp 21 can ozonize oxygen, if the humidifier 70 increases the humidity of the storage space H, sterilization treatment or sterilization treatment with ozone in the storage space H can be promoted.
It is preferable that the humidifier 70 can be adjusted in its posture or position so that moisture can be supplied to the load mounting position.
[0038]
Next, a transport method using a loading platform and a moving body that pulls or loads the loading platform according to a preferred embodiment of the present invention will be described with reference to the drawings. In each figure, common portions are denoted by the same reference numerals, and redundant description is omitted.
FIG. 6 is an operation diagram of a moving body and a loading platform according to a preferred embodiment of the present invention.
A case where a baggage contaminated with bacteria is transported from the hospital 7 to the factory 8 will be described as an example.
A case where the moving body is a wing type track will be described as an example.
[0039]
The method for transporting a load includes a loading platform preparation step, a load storage step, a decontamination step, and a load unloading operation.
(Load bed preparation process)
The luggage preparation process is a process of preparing the loading platform 3 to be loaded or towed on the chassis 2 of the mobile body 1. The loading platform 3 has a box-shaped frame 10 having a storage space H for storing the luggage. In this example, the cargo bed 3 is loaded and fixed on the chassis 2 of the truck.
Truck 1 goes to hospital 7.
(Package storage process)
The package storage process is a process of storing the package in the storage space H.
Luggage 5 (for example, used medical device) is taken out from the hospital 7. The medical device used may be contaminated with bacteria.
Put the load 5 on the pallet 6. The opening / closing door of the truck 1 is opened, and the luggage 5 together with the pallet 6 is stored in the storage space H of the frame 10. At this time, use a cargo handling machine such as a forklift so as not to touch the load.
Close the door.
[0040]
(Decontamination process)
The decontamination process is a process of decontaminating the luggage stored in the storage space while the moving body loads or pulls the loading platform.
The operator presses the on switch 46. Ultraviolet rays are irradiated from the ultraviolet lamp 21 and the sterilization work of the luggage starts. The humidifier 70 humidifies the storage space H. Oxygen in the storage space H is ozonized, and the ozone sterilizes the luggage. In particular, ozone enters a portion that is not exposed to ultraviolet rays and is sterilized.
Truck 1 moves from hospital 7 to factory 8. During the several hours of travel from the hospital 7 to the factory 8, the luggage is subjected to sterilization or sterilization with ultraviolet rays and ozone. In particular, bacteria attached to the surface of the luggage 5 are killed or reduced.
Truck 1 arrives at the factory.
[0041]
(Luggage unloading process)
The package unloading process is a process of unloading the package from the storage space H.
The operator presses the off switch 47. The emission of ultraviolet rays from the ultraviolet lamp 21 is stopped.
The wing-type opening / closing door is opened, and the luggage 5 is lowered from the storage space H. At this time, use a cargo handling machine such as a forklift so as not to touch the load.
The factory 8 picks up the luggage 5.
Accordingly, the baggage is sterilized using the time during transportation, and the sterilization process in the factory is eliminated or reduced.
In some cases, the truck 1 can be stopped at a predetermined location, and the sterilization process or the sterilization process can be extended for a necessary time.
[0042]
Two photochemical mercury lamps (sterilization line illuminance at 2 m in the direction perpendicular to the center of the lamp: 50 μW · cm) ² When the above is turned on for 3 hours, it can be expected that bacteria such as Staphylococcus epidermidis, MRSA, O-157, and Pseudomonas aeruginosa within 4 m from the lamp will be killed or reduced by the bactericidal effect of ultraviolet rays and ozone . It has been confirmed that the ozone concentration in the storage space at this time is about 2 ppm.
In addition, since viruses do not have cell membranes, they are expected to die in a shorter time than bacteria.
[0043]
When using a moving body for carrying luggage according to the above-described embodiment and a loading platform mounted or towed on the chassis,
An ultraviolet lamp is fixed to the frame of the loading platform mounted on the chassis of the truck with a lamp fixture so that the ultraviolet lamp can irradiate the storage space of the loading platform with ultraviolet light, so that the luggage loaded on the loading platform can be irradiated with ultraviolet light. If bacteria are attached to the luggage, the bacteria attached to the luggage can be sterilized or sterilized.
Further, since the mounting angle of the ultraviolet lamp can be adjusted by swinging the lamp fixture, the ultraviolet rays can be irradiated to the luggage in a suitable direction, so that bacteria attached to the luggage can be further sterilized.
In addition, this UV lamp is fixed to the ceiling of the frame so that luggage can be loaded on the bottom, so the UV lamp does not get in the way when loading and unloading the luggage, and UV light is irradiated from above. , UV light can be applied to the large surface of the luggage, and the area to be sterilized can be increased.
In addition, since the reflecting members are provided on the ceiling, side, front, and rear of the frame, the ultraviolet rays emitted to the ceiling, side, front, and rear are reflected and radiated again to the central part of the storage space. As a result, the amount of ultraviolet rays hitting the luggage increases, and the luggage can be further sterilized.
In addition, since the orientation of the reflecting surface of the reflecting member can be adjusted by the posture adjusting mechanism, the amount of ultraviolet rays hitting the load can be increased, and the load can be further sterilized.
In addition, since the frequency of ultraviolet rays is selected and oxygen is ozonized by ultraviolet rays, the sterilization effect of ozone is combined with the sterilization effect of ultraviolet rays to perform sterilization treatment.
In addition, ozone wraps around the surface that is not exposed to ultraviolet rays, and the sterilization processing of the package is promoted.
Further, since the humidity of the storage space can be increased by the humidifier, the sterilization process or the sterilization process of the luggage can be promoted.
Moreover, since the side part of a wing-type frame can be flipped up, loading / unloading of a load becomes easy.
In addition, using a pallet and a cargo handling machine for loading and unloading luggage, it is possible to reduce the opportunity for workers to contact the luggage directly.
Further, since the truck pulls or loads the above-mentioned luggage on the chassis, a truck having the above-described effect can be realized, and the truck can be sterilized while the truck is moving.
[0044]
Furthermore, when carrying out the method of transporting a load using the loading platform and the moving body described above, since the load is sterilized or sterilized with ultraviolet rays or ozone while the truck is loading and transporting the load, A person's subsequent handling of luggage will be simplified.
[0045]
The present invention is not limited to the embodiments described above, and various modifications can be made without departing from the scope of the invention.
Although described as a mobile body being a truck, it is not limited to this, An airplane, a container trailer, a ship, etc. may be sufficient.
In addition, although it has been described that the loading platform is a truck frame, the present invention is not limited to this, and for example, a vessel container or an aircraft container may be used.
In addition, although it has been described as a transportation method for sterilizing a baggage contaminated with bacteria, it is not limited to this, for example, a transportation method for sterilizing a baggage contaminated with a hazardous substance such as a chemical substance during transportation. There may be.
Moreover, although the case where a load was transported from the hospital 7 to the factory 8 was described as an example, the present invention is not limited to this. For example, a load transported from outside the country may be transported from the airport to the factory 8.
[0046]
【The invention's effect】
As described above, the loading platform mounted on or pulled by the chassis of the moving body for carrying a load of the present invention and the moving body have the following effects depending on the configuration.
Since the ultraviolet lamp fixed to the frame by the lamp fixture can irradiate the storage space with ultraviolet rays, the luggage is stored in the storage space of the frame, and the ultraviolet lamp fixed to the lamp fixture is When the storage space is irradiated, the ultraviolet rays can be applied to the luggage, and when the luggage is contaminated with bacteria, the luggage can be sterilized or sterilized.
In addition, since the lamp fixture can adjust the mounting posture of the lamp, the lamp mounting posture can be adjusted to adjust the direction in which the lamp emits ultraviolet rays.
In addition, since the UV lamp is fixed to the ceiling and the load can be mounted on the bottom, the UV lamp does not get in the way to load the load in the storage space, and UV can be applied to the top of the load. .
Further, since the reflecting surface of the reflecting member reflects the ultraviolet rays in the storage space, more ultraviolet rays can be applied to the luggage.
Further, since the posture adjusting mechanism of the reflecting member can adjust the direction of the reflecting surface, it can be prepared to apply the reflected ultraviolet rays to the luggage.
Further, since the wavelength of the ultraviolet ray is a wavelength that ozonizes oxygen, ozone is generated in the atmosphere in the storage space.
Further, since the humidifier can add moisture to the storage space, the humidity of the storage space can be adjusted to promote sterilization treatment or sterilization treatment with ozone.
In addition, since the storage space is a substantially rectangular parallelepiped that is long in the traveling direction and the frame has an opening / closing door that can open the side portion of the storage space, loading and unloading of the load can be easily performed using a cargo handling machine.
[0047]
As described above, the mobile body for carrying a load of the present invention has the following effects due to its configuration.
Since one of the loading platforms is mounted on or towed to the chassis of the moving body, the moving body can exhibit the above action.
[0048]
As described above, the baggage transport method of the present invention has the following effects due to its configuration.
Since the loader is loaded on one of the above loading platforms, and the moving body loads or pulls the loading platform and operates the ultraviolet irradiation device while moving, the moving body can sterilize the loads while carrying the loads. Efficient sterilization or sterilization work can be performed during transportation.
In addition, a loading platform that has a box-shaped frame having a storage space for storing the luggage and is loaded or towed on the chassis of the mobile body is prepared, the luggage is stored in the storage space, and the mobile body loads or tows the loading platform. Therefore, the baggage stored in the storage space is decontaminated during the movement, so the debris can be decontaminated while the mobile unit is carrying the baggage. Can do.
Therefore, it is possible to provide means and a method suitable for decontaminating a baggage contaminated with bacteria and other harmful substances efficiently and easily over time and place.
[0049]
[Brief description of the drawings]
FIG. 1 is a side view of a moving body and a loading platform according to a preferred embodiment of the present invention.
FIG. 2 is a partial view of an ultraviolet irradiation device according to a preferred embodiment of the present invention.
FIG. 3 is a first cross-sectional view of the rear surface of the movable body and the loading platform according to the preferred embodiment of the present invention.
FIG. 4 is a rear cross-sectional view of a movable body and a cargo bed according to a preferred embodiment of the present invention, part 2;
FIG. 5 is a wiring system diagram of a moving body and a cargo bed according to a preferred embodiment of the present invention.
FIG. 6 is an operation diagram of a moving body and a loading platform according to a preferred embodiment of the present invention.
[Explanation of symbols]
H Storage space
α Oscillation angle
1 Mobile object
2 Chassis
3 cab
4 loading platform
5 Luggage
6 palettes
7 Hospital
8 factories
10 frames
11 Bottom plate
12 Front plate
13 Back plate
14 Upper beam structure
15 Lower door
16 Upper door
17 Lower hinge
18 Upper hinge
19 Seal member
20 UV irradiation equipment
21 UV lamp
30 Lamp fixture
31 Fixture seat
32 Fixation neck
33 Base flange
34 Tip flange
35 Safety cage
40 Power supply system
41 Dynamo
42 battery
43 Inverter
44 Ballast
45 Power supply circuit
46 ON switch
47 OFF switch
48 Operation lamp
49 Contact safety micro switch
50 Piping system
51 Intake piping
52 Storage case
53 Exhaust fan
60 Reflective member
61 Ceiling reflection member
62 Side upper reflective member
63 Side lower reflection member
64 Front reflective member
65 Posture adjustment mechanism
70 humidifier

Claims (11)

A loading platform mounted or towed on a chassis of a moving body for carrying luggage,
A box-shaped frame with a storage space that can store luggage inside;
An ultraviolet irradiation device having an ultraviolet lamp capable of irradiating the storage space with ultraviolet rays and a lamp fixture for fixing the ultraviolet lamp to the frame;
A cargo bed characterized by comprising. The lamp fixture is capable of adjusting the mounting posture of the ultraviolet lamp;
The cargo bed according to claim 1, wherein: The lamp fixture fixes the ultraviolet lamp to the ceiling of the storage space;
The frame is capable of loading a load on the bottom of the storage space;
The cargo bed according to claim 1, wherein: A reflecting member having a reflecting surface for reflecting the ultraviolet rays emitted from the ultraviolet lamp to the inside of the storage space;
The loading platform according to claim 1, further comprising: The reflective member has an attitude adjustment mechanism capable of adjusting the direction of the reflective surface.
The cargo bed according to claim 4. The wavelength of the ultraviolet light is a wavelength that ozonizes oxygen in the storage space.
The cargo bed according to claim 1, wherein: A humidifier capable of applying moisture to the storage space;
The loading platform according to claim 6, wherein the loading platform is provided. The storage space is a substantially rectangular parallelepiped long in the direction of travel;
The frame has an opening / closing door capable of opening a side portion of the storage space,
The loading platform according to claim 1, wherein: A moving body for carrying luggage,
A moving body comprising the carrier according to claim 1 mounted or pulled on a chassis. A method of transporting luggage,
A loading platform preparation step for preparing the loading platform of claim 1 to claim 8,
A luggage storage step of storing the luggage in the loading platform;
A decontamination process in which the movable body loads or pulls the loading platform and operates the ultraviolet irradiation device while moving;
Comprising
A transportation method using a cargo bed characterized by that. A method for transporting luggage contaminated with harmful substances,
A loading platform preparation step of preparing a loading platform that has a box-shaped frame having a storage space for storing a load and is loaded or towed on a chassis of a moving object;
A luggage storage step of storing the luggage in the storage space;
A decontamination process for decontaminating the luggage stored in the storage space while the moving body is loading or towing the loading platform; and
A method for transporting luggage, characterized by comprising:

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