1. Field of the Invention
This innovation provides a technical method to create a three-dimensional air sealable packaging material by combine using self-adhesive non-reversible air blockage technique (one way valve) and multi-layered functional polyethylene soft plastic resins. This material can be used in areas such as consumer electronics, glassware, high precision instruments and meters, art crafts, printer cartridges and products that are fragile, high consumer values and those requires high safety protection performances. This innovation integrates multiple functions such as direct load resistance, anti-vibration, being sealable and anti-humidity, good shock resistance that provides good protective performance and yet is considered as environmental friendly packaging material. It can be used in product protection, space void filling, product area protection or use as protective isolator cushions that are needed during shipping. Most importantly, it can also be designed as printable and hence can be directly used as sales packaging combining with protective performance.
2. Description of the Related Art
Globalization has increased the distance between the product manufacturing and product consumer market, and this trend has pushed the fast development of protective packaging in order to meet the long distance protection shipping needs. The traditional Expanded Polystyrene (EPS) and EPE products only be shipped to users after foam molding or processing at the supplier's factory location. The formed finish EPS products are large in size, and very inconvenient for transportation and storage. The on-site foaming materials developed for the convenience of transportation mainly use polyurethane foaming plastic materials to expand around the content article and form the protective mould around it. However, it is expensive to use and requires on-site equipment to process. That it also needs skilled workers as well as the working load makes it impossible for application for large scale product lines such as those for electronic products. Most importantly, the drawbacks of the Expandable Polystyrene products have caused many environmental concerns and it is becoming the “white pollution” of this century. Considering the fact that protective products made of EPS material are used in very short time span between manufacturing, shipping, warehousing for the commercial sales and finally to the consumer, EPS products are non-recyclable after use and it is non-degradable that lasts for hundreds of years once it is formed. The large volume of EPS packaging wastes has caused tremendous environmental damages since the incineration causes toxic gas to the atmosphere and sending to waste land fill will shorten the usage design of the waste land fill because these EPS products can not be decomposed for hundreds of years. With increasing concerns about the environmental pollution issues, the development of this foam plastic material is greatly restricted by the governmental regulation and public attentions. At the same time, products available to the protective packaging market are all limited by the large space volume needed to ship and to warehousing these packaging material. Shipping costs and warehouse handling costs have limited the sales of these products within short sales diameter distance. Hence, this innovation has focused on creating a marketable product that is easy for long distance transportation, on-site rapid formation, good protective performance, and yet is great beneficial to the environmental.
With the rapid development of soft plastic material, more and more industries can be benefited from the design and functional expendability by utilizing the properties of this material. The traditional air filling packaging generally uses the heat sealing technique to form simple round shape air bubble (BUBBLE WRAP), blocks or columns. The bubble wrap can be transported in rolls; however, products in other shapes request the installation of complex heat-sealing equipment on site to produce the product. As the protective effects and the transforming shapes of such products are limited, they are often used as padding or for filling space only. At the same time, air cannot be kept inside for long time due to unstable heat sealing quality when produced on site. Therefore, the development of packaging products using air as cushioning media has long been limited.
Literatures such as Walker (1981, U.S. Pat. No. 4,191,211) and Koyanagi (1987, U.S. Pat. No. 4,708,167) have recorded the use of valve structures made of soft plastic material such as rubber or latex. This valve material can be used in designs such as water bag, coffee bean bags and balloon toys. By using this soft plastic valve can provide a passage for air or liquid to enter but prevent the leakage of air and liquid. On the basis of such theory, using different materials may be applicable in different areas such as life-saving jacket and sealed devices to keep liquids such as the bladder. In 2005, Fu Jinfang in “Packaging Engineering” and Liu Gong in “Packaging and Food Machinery” published articles on feasibility study of using air for cushioning, providing the present invention a very good theoretical basis.
China's Patent Application No. 200510025833.4 published in Nov. 22, 2006 demonstrated an air packaging material and its production method by using self-adhesive non reversible air blockage technique. The invention related to an air packaging material and its production method which uses self-adhesive non reversible air blockage technique. Such packaging material, comprising 4 layers of plastic films, formed a space for air storage by heat-sealing at specified locations. The air can be preserved in the space in a long-lasting manner utilizing both the self-adhesive film and the function of air pressure. Air and soft plastic film form a functional material that could be designed to have different functions such as shock-resistance, compression-resistance and moisture blockage.
China's Patent Application No. 200580016507.5 published in Nov. 21, 2007 demonstrated an air packaging device structure with improved shock absorption property. The said device has the air packaging device with improved shock absorption performance for the protection of products inside the container case. The said air packaging device was comprised of: the first and second plastic films, which are adhered by heating at prefabricated locations to produce a number of air chambers; each air container has a number of serially connected air chambers; a number of one-way valves established at the entrances of the corresponding air containers allowing pressurized air to move forward; the air inlet publicly connected with the said one-way valves; the heat-sealing protrusions formed at the lateral edges of the air packaging device. The prefabricated points of the said air container are adhered to the heat-sealing edges. And thus, it created the open-mouth container part, which will wrap the product inside and the padding part in support of the said container part when the air packaging device is filled with pressurized air.
The air packaging device published by the above patent application is as illustrated in
On the other hand, after filling the air, the size of the object that can be contained in the internal space is basically defined. If the article is too big in size, it cannot be placed inside the air packaging device. On the contrary, if the article is too small in size, the article may create motion, shock and piercing of the air packaging device to fail the cushioning protection. In case of articles for packaging with slight differences in size (such as the 14 inch and 15 inch laptop computers), two sets of production techniques and moulds are required, leading to greater production costs. Meanwhile, increasing packaging volume will increase transportation costs, and will greatly increase the costs for end products in case of globalized purchase, manufacturing, transportation and sales. The present invention is therefore intended to obviate or at least alleviate the problems encountered in prior art.
To solve the above problem, the present invention provides an air packaging device with greatly enhanced cushioning effects applicable in packaging of articles of various sizes. The packaging device can reduce the volume of the packaged articles, and thus greatly cut down transportation costs.
To achieve the above objectives, the present invention takes the technology program as follows:
An air packaging device, comprising two layers of thermoplastic films after two steps of heat sealing the plastic film to form a space to store the air, which includes a number of independent sealed air chambers and one main channel. The main channel has an air inlet. Each sealed air chamber is connected with the main channel by a one-way valve made of at least two layers of films. It is featured that parts of/all of the air chambers are installed with two and/or more one-way valves.
Load carrying capacity increases as the diameter of the air chamber increases, which means better protective effects, therefore, increasing the air chamber diameter in limited space can improve the load carrying capacity of the air packaging device. However, the increased air chamber diameter takes long time to fill the air, which may affect the packaging working time needed. Therefore, installation of at least two one-way valves in an air chamber of relatively bigger diameter will solve the problem of the air filling time.
wherein, the said sealed air chamber have different main diameters.
Due to the different main diameters of the air chambers, after being filled with air, the air chambers in bigger main diameter and the air chambers in smaller main diameter on the same surface will take wave-like shapes just like the corrugated paper structure of the packaging cartoons to greatly improve the carrying capacity of the packaging device.
As bigger air chamber diameter makes the bigger carrying capacity, which means better protective effects, therefore, increasing the air chamber diameter in limited space can improve the load carrying capacity of the air packaging device to achieve better protective effects. However, due to the limited space, the main diameters of air chambers in some major areas are increased to improve the load carrying capacity therein while reducing correspondingly the main diameters of the air chambers in less important areas. Another main purpose to increase the air chamber diameter only in most important areas is to reduce the packaging volume. Increasing cushion in major areas and reduce the air chamber diameters in areas requiring less protection can effectively reduce the volume to cut down transport costs correspondingly. The volume will be large if all the air chambers are same in size.
Wherein, preferably, the big and small air chambers of the said packaging device are alternatively distributed. Such structure, after being filled with air, the big and small air chambers will take on wave-like forms with only the air chambers of bigger diameter in touch with the article being wrapped. Like the corrugated paper packaging, its own load carrying capacity is bigger than that of the surface in touch with the basic plane formed by the same air chamber.
Wherein, preferably, the said packaging device is a rectangle bag with opening at one end.
In this way, two packaging devices are required to wrap both sides of the article. Then, the packaging device is applicable only if one side of the rectangle article is suitable in measurements, making the range of application relatively wide.
Wherein, preferably, the said packaging device is bag-shaped.
The bag-shaped packaging device is suitable for articles of relatively higher packaging requirements to provide good all-around protection for the articles.
wherein, preferably, the main diameters of the air chambers at both sides of the packaging device are relatively small while the main diameter of the air chamber at the middle is relatively big.
wherein, preferably, the one-way valves sealed by heat plastic packaging may be used in one or more air chambers of relatively small main diameter to block the air incoming channel therein.
In this way, on the basis of the original products, adding a working procedure of plastic heat sealing of the small air chambers around the lateral pressurized air chamber will get a packaging device for articles in other measurements without the need for new mould, greatly cutting down the production costs. In addition, the working procedures may be adjusted from time to time according to demands, satisfying the actual needs and cutting down inventories.
A packaging device production method, comprising the 1st step plastic heat sealing and the 2nd step plastic heat sealing, is featured that the 1st step plastic heat sealing includes the following steps:
1st heat sealing process to produce semi-finished packaging products having air chambers with a number of one-way valves installed and this semi-finished products are then stored in rolls for future use
Having the above semi-finished products undergone a 2nd time heat sealing process by going through one-step plastic heat sealing machine, further dividing some air chambers with multiple one-way valves into independent, small-diameter air chambers or connected space as required.
Using the production method of the present invention, the one-step plastic packaging machinery may be employed in preparation to process 1st step semi-finished products with a number of one-way valves of big air chamber diameter of various universally standards. When receiving orders, directly process partition lines on the prepared semi-finished products to divide the big air chambers into independent small air chambers. With preparation in spare time, the efficiency of one-step plastic packaging production will be greatly improved when having orders, resulting in greatly improved production of finished products. This will also make it convenient for factories in making production arrangements.
Using on-site direct forming method can greatly reduce the package volume and hence the transportation costs, solving the problem of excessively high costs of long distance transportation of packaging materials. The products are made completely flat prior to use by using the flexible plastic materials and prefabricated design. When using the products, such materials will be formed rapidly by air and form the protective structure around the article to be protected. Comparing with the existing technologies, the air three-dimensional packaging material of the present invention have excellent comprehensive protection functions such as anti-resistance, anti-vibration, anti-compression and cushioning. It can be used for padding packaging of articles, the partition board for local or major areas of articles, the overall external packaging for articles.
The present invention will become clearer in light of the following detailed description of illustrative embodiment of this invention described in connection with the drawings.
The present invention will be described via detailed illustration of the preferred embodiment referring to the drawings.
a is a perspective view of the air packaging device (left) filled with air in
b is a perspective view of the air packaging device (right) filled with air in
The air packaging device of the present invention will be more readily understood upon a further deliberation of the following detailed descriptions of a preferred embodiment of the present invention with reference to the accompanying drawings.
The 1st step heat sealing refers to form a plane bag for air storage by post heat sealing treatment of two layers of thermoplastic films and one-way valve. The 2nd time heat sealing process refers to the heat sealing process of forming the three-dimensional bag for storage along the heat sealing line after the 2nd time heat sealing process based on semi-finished products manufactured from the 1st step heat sealing process.
The number of small diameter air chambers can vary according to the actual design. The sealed air chamber can be one or more according to the actual situation.
More importantly, as depicted in
a and 10b depicts the air packaging device with unsealed small diameter air chambers as depicted in
All of the embodiments of the air packaging device as aforementioned can be made into a wrapping bag with open end as depicted in the above embodiments. As illustrated in
The production method of the present invention of air packaging device employs 1st step and 2nd step heat sealing processes, comprising the following steps:
By using 1st heat sealing process to produce the semi-finished materials having air chambers with a number of one-way valves and these material can be easily re-wind in rolls for future use;
Have the above semi-finished products undergone heat sealing process again in one-step plastic packaging machine, further dividing some air chambers with multiple one-way valves into independent, small-diameter air chambers or connected space as required.
Finally, use the 2nd step heat sealing process machinery to form the finished products.
As the air packaging devices are usually produced according to customers' orders without large number of inventories, the production time will be very short after receiving orders. At the same time, the production of the heat sealing process is relatively slow. The production time will be long if the materials are processed by the first heat sealing and the second heat sealing process in sequence, making it hard for workers who may have to work extra hours for production deadlines. By the production method of the present invention, semi-finished products may be prepared for universally standard big diameter air chambers with a number of one-way valves. When receiving orders, partition lines may be directly processed on the basis of the prefabricated semi-finished products, dividing the big air chamber into independent small air chambers or adding local heat plastic sealing transformations for local protection. Thus, preparations can be made in free time in between orders, and the production efficiency can be greatly improved when the production volume increases suddenly to greatly speed up the production of finished products. This will also make the production arrangement easy for the factory.
Applying the design of the above invention can produce functional packaging materials in various forms with lightproof, waterproof, moisture-proof, anti-wear, anti-compression, and shockproof properties including sealed bag and U-shaped bag. Meanwhile, features of plastic films can provide other features including anti-static, conductive, shock-cushioning, anti-wearing, anti-rusting and printable functions. Being different from the traditional air leakage-proof devices, the design of the present invention needs no external mechanical air stop device. Instead, relying on the specially treated internal and external functional films, by a series of simple local heat sealing processes, the air can be kept in an enclosed space. According to this principle, a series of products and derivative products in relation to functional self-adhesive non reversible air blockage technology to form three dimensional packaging materials can be produced. Any change of product shape and function by changing the heat sealing shape, wrapping pattern, the heat sealing specifications and positions or by different cutting or selection of different plastic film features belongs to the scope of the present invention, subject to the purpose of the present invention.
Deliberative but not limiting descriptions of the embodiment of the present invention have been made. However, it should be understood that the technical staffs in this field may make changes and/or modifications without being away from the related scope of protection as defined in Claims.
Number | Date | Country | Kind |
---|---|---|---|
200810035381.1 | Mar 2008 | CN | national |