This application is based upon and claims the benefit of priorities from Japanese Patent Application No. 2005-030375, filed Feb. 7, 2005, Japanese Patent Application No. 2005-079177, filed Mar. 18, 2005, and Japanese Patent Application No. 2005-309414, filed Oct. 25, 2005, the entire contents of which are incorporated herein by reference.
1. Field of the Invention The present invention relates to a technology for transporting and delivering articles.
2. Description of the Related Art
Apparatuses manufactured in factories transported and delivered to distributors or customers. For example, products like image forming apparatuses, such as copying machines, printers, and facsimile machines, are precious and delicate and need to be handled carefully during their transportation. The articles may be transported by trucks, freight trains, or ships. During transportation, the articles may be lifted many times or temporarily stored in warehouses. Therefore, some articles are designed so that they do not get damaged during transportation
Some products are once stored in a warehouse and then delivered to users. Others are directly delivered to a user from a factory. In any case, it is an important issue to protect the article from various external impacts and transporting environments, which the article undergoes during the transportation until it is delivered to the user and installed, and to deliver the article to the user without degrading its quality. That is, in the physical distribution process of the manufactured goods, it is desired to maintain the quality of the manufactured goods against vibrations and impacts generated when the goods are transported by transportation such as a truck, and external hazards (inertia and tilt due to a shift) generated by handling the goods at the time of reloading and storage performed at respective warehouse bases and working locations, and desired to provide package varieties having an effective function with respect to the transportability and loading/unloading work efficiency.
Conventionally, image forming apparatuses and the like are packed in a packaging material such as a cardboard box and delivered to users. This packaging material is opened by the user and stored as necessary, or disposed as a waste when it is not necessary.
In recent years, for resources saving, the packaging materials of various kinds of products such as image forming apparatuses are recycled. However, the conventional packaging material such as cardboard boxes has low durability, and is not suitable for using repeatedly for the transportation and storage of the products.
Furthermore, the conventional packaging material has to be prepared according to shapes and sizes different for each model, thereby causing a cost increase due to troublesome designing and management. In the case of a product such as an image forming apparatus, in which even in the same type, the size and the external shape become different due to the presence of optional devices, it is difficult to handle the product by a single type of a packaging material. Therefore, it can be considered to load the image forming apparatus on a pallet or a rack as described in Japanese Patent Application Laid-Open No. 2002-264815, and transport and deliver the apparatus.
The pallet and the rack can be reused, and can load thereon various types of products having different shapes and sizes. However, in the case of loading a heavy product such as a large-scale copying machine, the bottom plate of the pallet or the rack can be bent or deformed due to the impact when the product is loaded.
On the other hand, polyethylene terephthalate (PET) has an excellent impact resistance, and is light and used as a general-purpose plastic for industrial and household containers or the like. It is used as a familiar container known as “PET bottle”, and the production thereof is increasing as containers having the capacity of 500 milliliters, 350 milliliters, 330 milliliters, 200 milliliters, and the like. On the other hand, there is an issue of increasing plastic waste year after year, and the same is true for PET bottles. In other words, when the waste PET bottle is burnt, toxic substances are left in the burnt ashes after incineration.
Materials can be recycled in various ways. In material recycle, pellets are formed by crushing or grinding the waste without causing any chemical change, and are reused as a raw material. In thermal recycle, the waste is reused as a fuel for power generation combined with refuse incinerator. In chemical recycle, a resin is melted and dissolved to be returned to a chemical material, and is reused as a material. However, the recycling rate is not so high, and when the waste is finally disposed, the above problem will happen.
Another way is to wash the collected PET bottles reuse them. However, the time and trouble have to be taken for washing the bottles and the like, and with the continuously increasing number of PET bottles currently being used, this measure is not good enough for the waste PET bottles.
Japanese Patent Application Laid-Open No. 2002-002813 discloses a cushioning material for packaging arranged between an article to be packed and a case, to absorb impacts and an external force due to a pressing force. This cushioning material is arranged in a plurality of numbers on a flat board with cylindrical portions being parallel with each other, and includes a first bending groove provided on the flat board substantially in parallel with the cylindrical portion, at a position where the cushioning material is bent according to the size of the article to be packed, and a second bending groove with a V-shaped slit provided substantially at right angles to the cylindrical portion at a position where the cushioning material is bent according to the size of the article. The first and the second bending grooves are bent to cover the article, so that at least two cylindrical portions are brought into contact with each side of the article.
Japanese Patent Application Laid-Open No. 2001-335024 discloses another cushioning material for packaging configured such that necks of plastic bottles are inserted into a plurality of recesses of thin molded plastic materials, so that the thin molded plastic materials and the plastic bottles are fixed together and arranged between a to-be-packed member and a box.
Japanese Patent Application Laid-Open No. 2003-261179 discloses still another cushioning material for packaging arranged between a cardboard box and an article, and including paper sheet materials, and a plurality of paper pipes attached only to the surface of the peak of a fold of the sheet material. This cushioning material has paper pipes attached to a plurality of pipe mounting regions arranged via the folds.
Japanese Patent Application Laid-Open No. H9-267866 discloses a packaging body formed of laminated paper made of a material that can be easily disposed and has high recyclability, and using a cushioning member having a function of buffering effect. The cushioning member is attached to both sides of a container as a single piece or in a continuous block form corresponding to the gap between the container and the article.
Under such circumstances, the article to be transported is packed generally by forming the cushioning member according to the shape of the article, and under the current circumstances, the cost and time for the investment for equipment and the designing for the packaging material are required for each article. Furthermore, to perform such designing and management, the kinds of parts are increased, and the parts control is complicated accordingly.
Therefore, it is desired to handle various articles having different shapes with fewer types of cushioning materials, which can be used repeatedly. That is, such a form is desired that after the article is delivered to the user, the packaging device is returned to the factory or the like and used repeatedly.
It is an object of the present invention to at least solve the problems in the conventional technology.
According to an aspect of the present invention, a packaging device includes a bottom plate; a mounting plate arranged above the bottom plate at a specific distance form the bottom plate for mounting an article; a cushioning member arranged in a space between the bottom plate and the mounting plate; and a reinforcing unit arranged on the bottom plate in the space between the bottom plate and the mounting plate, the reinforcing unit including a plurality of reinforcing members arranged at positions that are substantially below points where support members of the article mounted on the mounting plate are located.
According to another aspect of the present invention, a packaging device includes a bottom plate; a plurality of support members arranged on the bottom plate orthogonal to the bottom plate; a first member detachably attached to the bottom plate orthogonal to the bottom plate between two adjoining first support members; a second member firmly attached to the bottom plate orthogonal to the bottom plate between two adjoining second support members that are different from the first support members; a plurality of transverse members attached between a support member of the first support member and adjoining support member of the second support member; a cushioning unit arranged on the bottom plate in a space enclosed by the support members, the cushioning unit including a plurality of airtight containers filled with gas; and a mounting plate arranged above the cushioning unit in the space enclosed by the support members for mounting an article.
According to still another aspect of the present invention, a buffer comprising a cushioning unit arranged between at least one member of an article and a packaging device for packing the article, the cushioning unit including a plurality of box-shaped airtight containers filled with gas.
The above and other objects, features, advantages and technical and industrial significance of this invention will be better understood by reading the following detailed description of presently preferred embodiments of the invention, when considered in connection with the accompanying drawings.
Exemplary embodiments of the present invention are explained below with reference to the accompanying drawings.
The front side of the packaging device 1 can be opened for loading and unloading a product. That is, a front member 7 arranged between the left and right support members 2, 2 on the front side is supported rotatably by a shaft to the left and right support members 2 at the bottom part, and as shown by a broken line in
In the configuration of the conventional packaging device, a product is loaded on the bottom plate. However, when a heavy product is loaded, there is a problem such that the bottom plate can be bent or deformed due to impacts when the product is loaded.
Therefore, in the packaging device 1 according to the first embodiment, a cushioning member is provided on the bottom plate 9, and a mounting base 21, which is a base plate for loading the product thereon, is placed on the cushioning member. According to the first embodiment, a reinforced plastic plate is used as the mounting base 21. Empty PET bottles 20 arranged as the cushioning member in the first embodiment. The PET bottles are wasted after the content drink or the like has been consumed. By using the PET bottles as the cushioning member, the cost required for the cushioning member can be largely reduced. Furthermore, the PET bottles 20 can be easily obtained.
If an impact is applied to the mounting base 21 when the product is loaded on the mounting base 21, or a heavy product, for example, a large-scale copying machine is unloaded, in the configuration in which the cushioning members arranged on the bottom plate 9 and the mounting base 21 is mounted thereon, the impact is dispersed by the cushioning members. Accordingly, it can be prevented that the mounting base 21 or the bottom plate 9 is bent or deformed.
In the packaging device 1 according to the first embodiment, as shown in
According to the first embodiment, a double-cross shape reinforcing member 22 is arranged. The reinforcing member 22 is obtained by joining an iron square pipe steel to the bottom plate 9 by welding or the like in the first embodiment. The end of the reinforcing member 22 is joined to the frame 3 by welding or the like. In the packaging device 1 according to the first embodiment, the areas or regions where the casters or legs of the product are placed are shown by circles drawn by a one-dot chain line in FIG. 3. The number of the reinforcing members 22 in the vertical direction and the lateral direction is optional, and more reinforcing members 22 can be provided.
By arranging the reinforcing member 22, the deflection of the mounting base 21 or the bottom plate 9 at the time of loading the product decreases, as compared to the case that there is no reinforcing member 22. Accordingly, it is effective to prevent deformation or damage of the mounting base 21 or the bottom plate 9. Particularly, in the first embodiment, since the reinforcing member 22 is situated below the area (region), to which the product load is applied, it is effective to prevent deformation or damage of the bottom plate 9. Furthermore, since the reinforcing member 22 is situated in two directions (vertical and lateral directions) below the area (region), to which the product load is applied, deformation or damage of the bottom plate 9 can be prevented more reliably.
In the packaging device 1 according to the first embodiment, since the reinforcing member 22 is arranged between the PET bottles 20 as the cushioning member on the bottom plate 9, movements of the PET bottles 20 are suppressed by the reinforcing member 22, thereby efficiently preventing movements of the PET bottles 20 due to impacts when the product is loaded or impacts during transport.
For example, the PET bottles 20 can be arranged as shown in
The PET bottles 20 can be arranged, with the longer side of the PET bottle 20 directed toward the vertical direction as shown on the right side in
Since the reinforcing member 22 is arranged in an installation space of the cushioning member between the bottom plate 9 and the mounting base 21, there is no increase in the height due to providing the reinforcing member 22, and the height from the floor to the mounting base 21 is suppressed, thereby facilitating the unloading operation of the product. In the packaging device 1 according to the first embodiment, the front member 7 is opened and used as the slope, which makes the inclination of the slope gentle, and facilitates the unloading operation of a heavy product.
A second embodiment of the present invention is explained next.
In the packaging device 1B according to the second embodiment, since the PET bottles 20 as the cushioning member are present on the reinforcing member 22, in addition to the same effect as that of the packaging device 1 according to the first embodiment, the load at the time of loading the product 50 on the mounting base 21 is dispersed more efficiently and applied to the reinforcing member 22. Accordingly, deformation and damage of the bottom plate 9 can be prevented more efficiently by the reinforcing member 22.
According to the second embodiment, since the reinforcing member 22 is provided on the underside of the bottom plate 9, the upper surface of the bottom plate 9 becomes a flat cushioning member arranging space having no obstacle. Therefore, the PET bottles 20 can be arranged without a gap on the bottom plate 9.
A third embodiment of the present invention is explained next.
The reinforcing member 22 on the upper and lower surfaces of the bottom plate 9 can be arranged at the same position in the vertical direction (so as to be overlapped as viewed in the vertical direction), or can be arranged at different positions (so as not to be overlapped as viewed in the vertical direction). In the example shown in
As the arrangement of the PET bottles 20 according to the third embodiment, since there is the reinforcing member 22 on the upper surface of the bottom plate 9, the arrangement of the PET bottles 20 the same as in the packaging device 1 according to the first embodiment can be adopted. In the packaging device 1C according to the third embodiment, as shown in
In the second and the third embodiments, as in the first embodiment, by arranging the reinforcing member 22 in two directions (vertical and lateral directions) below the area (region), to which the product load is applied, deformation and damage of the bottom plate 9 can be prevented more reliably. The number and the arrangement position of the reinforcing member 22, or the shape and the material of the reinforcing member 22 can be appropriately set. The end of the reinforcing member 22 is joined to the frame member 3 by welding or the like in the respective embodiments.
The first to the third embodiments are not limited to the above arrangement, and for example, the material and the shape of the respective member can be optionally set. Furthermore, the number and the arrangement method of the PET bottles 20 used as the cushioning member are only an example, and the PET bottles 20 can be arranged differently from the example shown in
The PET bottles 20 as the cushioning member can be square or circle. Cushioning members other than the PET bottles 20 can be also used.
A fourth embodiment of the present invention is explained next.
In the fourth to the seventh embodiments explained below, the object to be loaded is a copying machine and the cushioning member is the PET bottles. However, the object to be loaded can be anything that requires a buffer with respect to vibrations, impacts, and the like. The cushioning member is not limited to the PET bottles, and various types of cushioning member can be employed, so long as it has the same or similar structure and effect. The cushioning member can be produced for exclusive use. The PET bottle has a bottle shape having a hollow part and a bottom, and is an airtight container having a body having at least one opening, and a closing body detachable from the opening of the body, which closes the opening.
There are various types as the PET bottles used as the cushioning member, including (1) bottles for carbonated beverages (cola, soda, and the like), (2) bottles for high-temperature filled beverages (fruit drink, sports drink, tea, coffee, and the like), (3) bottles for light carbonated beverages, which are subjected to sterilization after filling (light carbonated fruit drink or lactic drink), and (4) bottles for aseptic filling. Furthermore, the external shape or cross section includes circular, square (mainly a square shape with four corners rounded, or a deformed octagon obtained by cutting the four corners and then rounding all corners), and a mixed type of circle and square. Any of these can be employed for the PET bottles used as the cushioning member.
The bottle for carbonated beverages is referred to as a pressure resistant bottle and the like, which can endure internal pressure increased due to the gas generated from the beverages. The bottle for high-temperature filled beverages is used for a beverage not containing carbon dioxide, and is referred to as a heat resistant bottle and the like, whose neck can resist deformation due to the heat when the content is filled. The bottle for light carbonated beverages is referred to as a pressure and heat resistant bottle having both pressure resistant and heat resistant properties. The bottle for aseptic filling is used for a method in which the content and the bottles are separately sterilized before filling, and after the content is filled in a sterile room, the bottles are closed by sterilized caps (aseptic filling), and is referred to as an aseptic bottle or the like, and every bottle is normally transparent.
The packaging device 100 according to the fourth embodiment packs, as shown in
In the packaging device 100 according to the fourth embodiment, a rocking locking device 190 that fixes the front member 130 to the support members 121 and 124 is provided between the front member 130, and the support members 121 and 124.
The bottom base 110 is made of a steel material, and formed of a bottom plate 111 and frame members 112, 113, 114, and 115 provided at the four corners of the bottom plate 111. The support members 121, 122, 123, and 124 formed of a square pipe is arranged in an upright manner at the four corners of the bottom base 110.
The lower part of the support members 121, 122, 123, and 124 protrude downward from the bottom plate 111 to form legs. Therefore, a space for inserting the fork of a forklift is formed below the bottom base 110.
The bottom base 110 includes the cushioning member 170 in which the PET bottles 171 are regularly arranged, and the flat mounting base 180 is arranged on the cushioning member 170. A product 10 is mounted on the mounting base 180 and packed. It is desired that the mounting base 180 be formed of a hard material having rigidity and moderate elasticity such as resin. Therefore, by using a hard material for the mounting base 180, the load of the product 10 is dispersed to the PET bottles 171 in a wide area, thereby obtaining moderate cushioning performance. By using a hard material for the mounting base 180, the loading surface of the product 10 is smoothed, thereby smoothing unloading of the product 10. Furthermore, a metal, wood, or the like can be used for the mounting base 180, other than the resin.
According to the fourth embodiment, partitions 118 are arranged, as shown in
In
Furthermore, a crosspiece 143 forming the rear member 140 and two vertical-pieces 141 and 142 connecting the crosspiece 143 and the frame member 114 are provided between the support members 122 and 123.
Likewise, a crosspiece 163 forming the left transverse member 160 and two vertical-pieces 161 and 162 connecting the crosspiece 163 and the frame member 115 are provided between the support members 123 and 124.
The front member 130 includes a shaft 133, as shown in
The front member 130 and the support members 121 and 124 include, as shown in
By such a locking device 190, the front member 130 can be switched to a locked state (
According to the packaging device 100 of the fourth embodiment, not only impact to the product 10 that can happen during transport is eased by the cushioning member, but also the packaging device 100 can be used several times. Accordingly, the investment for a plant and equipment, the cost, and the time for packaging can be reduced, and parts control and the like can be facilitated.
Furthermore, since the mounting base 180 can be formed by using the PET bottles 171 or materials having a similar shape to that the PET bottles 171, the PET bottles 171 and the like can be reused instead of disposing them as waste.
A fifth embodiment of the present invention is explained below.
The packaging device 200 according to the fifth embodiment is made of steel, and includes a bottom base 210, a lower transverse member 230, an upper transverse member 240, the front member 250, the rear member 270, and the top panel member 280. According to the fifth embodiment, the left and right upper transverse members 240, the front member 250, the rear member 270, and the top panel member 280 are constructed so as to be able to be assembled or disassembled with respect to the bottom base 210. According to the fifth embodiment, the configurations of the mounting base and the cushioning member are the same as in the fourth embodiment, and hence, the explanation thereof is omitted.
In the bottom base 210, as shown in
According to the fifth embodiment, the support member includes lower pillar members 231, 232, 233, and 234 arranged on the bottom base 210, and two pairs, in total, four upper pillar members 241 and 242 (two upper pillar members forming the right transverse member are not shown in the drawings, and hence reference numeral therefor is omitted) forming the upper transverse member 240 provided detachably on the lower pillar members.
The right lower transverse member includes a lower transverse member 230 provided between the lower pillar members 231 and 232 on the bottom base 210 and the detachable upper transverse member 240. The left lower transverse member is formed in the same manner.
The lower pillar members 231, 232, 233, and 234 made of a square pipe are arranged in a standing condition at the four corners of the bottom base 210. The lower pillar members 231, 232, 233, and 234 form a lower part of the support member arranged at four corners of the packaging device 200.
The lower transverse member 230 includes a beam 237 provided between the upper ends of the lower pillar members 231 and 232, and five linear members 238 provided between the beam 237 and the frame member 213. Reference numeral 239 in
The front member 250 is formed, as shown in
The upper transverse member 240 is formed, as shown in
As shown in
The rear member 270 is formed, as shown in
The top panel member 280 is formed of, as shown in
According to the packaging device 200 of the fifth embodiment, in addition to the functional effect of the packaging device 100 according to the fourth embodiment, with an unpacked state of the product 10, the front member 250, the rear member 270, the transverse member 240, and the top panel member 280 detached from the bottom base 180 can be mounted on the mounting base 180, thereby achieving a compact form.
A sixth embodiment of the present invention is explained next. In the sixth embodiment, the packaging device 100 according to the fourth embodiment and the packaging device 200 according to the fifth embodiment pack the product 10 by using a buffer 300.
Although the bottles have been shown to be arranged with gaps therebetween in the figures, it is not limited to such arrangement. The bottles can also be arranged without any gap between vertically or horizontally adjacent bottles.
As the packaging device according to the sixth embodiment, the packaging devices 100 and 200 shown in the fourth and the fifth embodiments can be used.
According to the sixth embodiment, as shown in
According to the sixth embodiment, the box-like member 310 is formed by notching and bending one plate made of synthetic resin, for example, a plastic cardboard material. The box-like member 310 includes, as shown in
As shown in
Arrows shown on respective surfaces of the box-like member 310 shown in
The box-like member 310 is made of plastic cardboard material. The box-like member 310 is formed by bending one plate material cut as shown in
(A) Bend the plate material, designating XY as an axis from the right toward the left in
(B) Bond margins (shaded portions) on both sides together.
(C) Insert d between c and c at the top and the bottom in
(D) Insert the protrusion h on the b side into the slit l on the a side, insert the protrusion i on the b side into the slit m on the a side, and insert the protrusion j on the b side into the slit n on the a side.
The buffer 300 substantially in an L shape is completed in this manner.
The buffer 300 is then arranged in the packaging device 100 (200) so that the surfaces α and β abut on the corner of the product 10, with the surfaces a and b in
According to the sixth embodiment, to facilitate the replacement of the PET bottles 330, the protrusions h, I, and j are simply inserted into the slits l, m, and n and not bonded together. Therefore, when the corner of the product 10 presses the surfaces α and β of the buffer, a force of the protrusions h, I, and j slipping out from the slits l, m, and n is applied. Particularly, when the box-like member 310 is arranged longitudinally, the protrusion h located at the top can slip out. In the sixth embodiment, to prevent this, the buffer is formed in the following manner, from (E) to (H):
(E) The protrusion h has a longer length toward the slit insertion direction, as compared to the length of other protrusions I and j.
(F) An engagement portion 345 of the protrusion h, which is hooked by the internal circumference of the slit l, is formed in a curved shape, and the left end of the protrusion h is located on the left side of the left guide hole of the slit l.
(G) The height of the slit l is made higher than that of the slit m.
(H) Right guide holes of the slits l, m, and n are extended toward the right further than the right end of the protrusions h, i, and j.
In
According to the sixth embodiment, the PET bottles 330 are arranged in the same direction longitudinally as shown in
To use the buffer 300 according to the sixth embodiment, as shown in
While the buffer 300 is substantially in the L shape in the sixth embodiment, as shown in
A seventh embodiment of the present invention is explained next.
The schematic configuration of the packaging device 600 according to the seventh embodiment is the same as that of the packaging device 200 according to the fifth embodiment, except that the top panel member 610 can be slid and detached. Therefore, like parts are denoted by like reference numerals, and the explanation thereof is omitted.
In the top panel member 610 of the packaging device 600 according to the seventh embodiment, the frame 284 includes the engagement member 287, as in the top panel member 280 shown in
In the top panel member 610 according to the seventh embodiment, as shown in
According to this configuration, the worker places one side of the guide 612 or the locking protrusion 611 on the guide face of the sliding guide 622 on the front side of the packaging device 600, slides the top panel member 610 toward the other side of the packaging device 600 along the sliding guide 622, to guide the top panel member 610 to the position engaging with the hole 623 in the sliding guide 622, and thereafter, engages the locking protrusion 611 with the hole 623 to fix the top panel member 610.
The position in the height direction of the sliding guide 622 is set such that it is higher than the upper face of the front member 250 on the front side of the packaging device 600 as shown in
A protrusion 613 is provided, as shown in
Furthermore, as shown in
When the product 10 is packed using the packaging device 600 according to the seventh embodiment, the product 10 wrapped in a bag (of a reusable or recyclable material) is mounted on the mounting base 180, and as shown in
Thus, the product 10 is mounted on the mounting base 180, positioned by two sides, of the four sides, pressed against the two sides, and fixed by the belt 640.
The opening procedure is explained below based on
After the unpacking is finished, in a case that an old copying machine is collected from the delivery destination, the old machine can be packed and collected by tracing back the above procedure. As an example, it is assumed that there is no product to be collected at the delivery destination, and only the packaging device 600 is collected. As shown in
According to the seventh embodiment, the front member 250, the upper transverse member 240, the top panel member 610, and the rear member 270 are formed in a size housed within the surface of the mounting base 180. These members are overlapped on each other, and the uppermost position when the buffer 300 and the box 700 are further overlapped thereon is equal to or lower than the position of the beam 237. When the two buffers 300 back to back and the other one buffer 300 are arranged with a space therebetween, and the box 700, which has been mounted on the top panel member 610, is arranged in the space, the length between the ends of the buffers 300 is smaller than the width of the mounting base 180, or smaller than the width of the front member 250, the upper transverse member 240, the top panel member 610, and the rear member 270. Accordingly, these members can be locked by the belt 640 and reliably collected without falling down from the packaging device 600.
According to this configuration, an excess space is not created, and even the box 700 for carrying the attachments to be mounted on the top panel member 610 can be placed within the packaging device 600. As a result, the collection efficiency can be improved. At the time of collection, the legs 261 and 263 are mounted on the guide plate 235 of the beam 237 of the folded packaging device 600, overlapped and collected, thereby realizing space saving of the packaging device 600. The assembled packaging device 600 can be piled up.
Although the invention has been described with respect to a specific embodiment for a complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art that fairly fall within the basic teaching herein set forth.
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