CN201189969Y - Composite container of moulding pulp - Google Patents

Abstract

The utility model relates to a paper pulp mould composite container which comprises a die cavity body, wherein, the outer surface of the die cavity body is covered by a paper pulp mould layer, and the material hardness of the die cavity body is larger than that of the paper pulp mould layer. The paper pulp mould composite container has good mechanical processing performance, good tactility and shock resistance, and can be widely applied to various fields needing to pack containers.

Description

Pulp Molded Composite Containers

technical field

The utility model relates to a container, in particular to a pulp molded composite container.

Background technique

Pulp molded products are a rising star in the paper packaging family, which originated from papermaking and has its own advantages. Pulp molded parts have many significant advantages over EPS cushioning parts, such as: 1) The raw materials of pulp molded packaging products are waste paper and various fiber materials, which are widely sourced and easy to collect, and will not cause obstacles to the environment and recycling; 2) Pulp molded packaging products have a wide range of applications, and the products that use foam as the inner lining can basically be replaced by pulp molded products; 3) Pulp molded products can be stacked and stored, which is less than the storage space occupied by foamed plastics. 1/2-2/5 of the space is small, and the freight and storage costs are small; 4) Paper products have good anti-static properties, and foamed plastics are prone to static electricity when rubbed, which plays a better role in protecting electronic products and home appliances; 5) When plastic products are packaged, the food moisture is not easy to volatilize, and it is easy to mold and rot, while paper products have water vapor permeability, so as to achieve anti-corrosion effect.

However, most of the current pulp molded products are used as substitutes for foamed plastic products, and the material hardness of pulp molded products is relatively poor. In addition, due to the limitation of the process, there is a certain demoulding slope, and the size of the products after molding varies greatly. , resulting in poor opening and closing of its products, and it is difficult to have high-hardness connectors, such as rivets, bolts, loose-leaf connectors or fasteners, so it is difficult to prepare independent containers with good airtight performance. However, some traditional materials for making containers, such as glass, metal, bamboo and wood, etc. have high cost, poor thermal insulation, high hardness, and strong electrical conductivity of metal materials, which limit the containers made of the above materials. scope of application. There is an urgent need in this field to develop new products that can overcome the respective shortcomings of the above two prior arts.

utility model

The technical problem to be solved by the utility model is to provide a pulp molded composite container which not only has good mechanical processing performance but also has good texture and impact resistance.

The technical solution of the utility model to solve the above-mentioned technical problems is: a pulp molded composite container, including a cavity body, characterized in that: the outer surface of the cavity body is covered with a pulp molding layer, and the material hardness of the cavity body is greater than that of pulp molding The material hardness of the layer.

As an embodiment, the above-mentioned pulp molding layer is compounded on the outer surface of the cavity body through a pulp molding process.

As another embodiment, the pulp molding layer and the cavity body may also be connected by at least one of bonding, riveting or tenon jointing.

As a further improvement of the above-mentioned technical solution, the outer surface of the above-mentioned mold cavity body is provided with an anti-loosening structure.

Further, the above-mentioned detachment-preventing structure is a groove or a protrusion provided on the surface of the cavity body.

Wherein, a pulp molding layer may also be arranged in the interlayer of the cavity body.

Further, the inner surface of the cavity body may also be provided with a pulp molding layer.

Wherein, the above-mentioned mold cavity body can be made of at least one material among bamboo, wood, metal, glass, ceramics, plastic, stone or purple sand.

The beneficial effect of the utility model lies in: creatively combining the emerging pulp molding with the traditional container, using a material with a hardness greater than that of the pulp molding layer to make the cavity body, and overcoming the poor mechanical processing performance of the pulp molding material, which is difficult to Defects such as precision closure. The pulp molding layer covering the outer surface of the cavity body has good texture and impact resistance, so that the container has the advantages of pulp molding materials such as good toughness, lightness, heat resistance and non-conductivity, and good environmental affinity. , also has better mechanical processing performance and mechanical strength, which can make the closure better and meet the requirements of the packaged objects. It can also install various connectors and fasteners, which greatly expands the application range of pulp molding. Can be applied to various containers and packages.

Description of drawings

Figure 1 is a cross-sectional view of the pulp molded composite container of the present invention; wherein 1 is the cavity body, 2 is the pulp molded layer, and 3 is the anti-detachment structure.

Fig. 2 is a cross-sectional view of the pulp molded composite container of the present invention, wherein 1 is the cavity body, 2 is the pulp molding layer, and 4 is the hinge device.

Detailed ways

The pulp molding composite container of the utility model is that the outer surface of the cavity body 1 is covered with a pulp molding layer 2 , and the material hardness of the cavity body 1 is greater than that of the pulp molding layer 2 . For example, the cavity body 1 can be made of at least one material among bamboo, wood, metal, glass, ceramics, plastic, stone or purple sand. The cavity body 1 can be a structure of a single cavity, or a structure of multiple cavities.

The combination between the outer surface of the cavity body 1 and the pulp molding layer 2 can adopt the method of compounding the pulp molding layer 2 on the outer surface of the cavity body 1 through a pulp molding process, or can use a common connection method, for example, for The connection can be made tighter, and the outer surface of the cavity body 1 and the pulp molding layer 2 can be connected by means of adhesive bonding, rivet riveting, tenon joint and the like. The pulp molding layer 2 can be one layer, or a multi-layer composite structure. The multi-layer composite structure may be a composite of multi-layer pulp molding layers, or a multi-layer structure in which pulp molding layers are combined with other materials.

In order to make the combination between the outer surface of the cavity body 1 and the pulp molding layer 2 tighter, an anti-off structure 3 can be provided on the outer surface of the cavity body 1, and these anti-off structures 3 can be grooves or protrusions, etc. , this not only increases the bonding area between the outer surface of the cavity body 1 and the pulp molding layer 2, but also uses structures such as grooves or protrusions to prevent the pulp molding layer 2 from falling off. The pulp molded composite container can also have the function of opening and closing by setting the hinge device 4 .

For the same reason, the pulp molding layer 2 can also be arranged in the interlayer of the cavity body and on the inner surface according to the above method. During production, the cavity body 1 is processed and prepared first, and then the required surface of the cavity body 1 is covered with a pulp molding layer 2 by a pulp molding process. As required, the outer surface of the cavity body 1 can be covered, On the inner surface or in the interlayer.

When the pulp molding layer 2 is compounded on the outer surface, inner surface, etc. During this process, it is naturally tightly socketed and fitted with the cavity body 1 . At this time, the use of anti-slip structures such as grooves or protrusions on the outer surface of the cavity body 1 can achieve the effect of making the connection between the two tighter and less likely to fall off.

Claims (9)

1, paper mould clad vessel comprises die cavity body (1), it is characterized in that: the outside face of die cavity body (1) is coated with paper mould layer (2), and the material hardness of die cavity body (1) is greater than the material hardness of paper mould layer (2).

2, paper mould clad vessel according to claim 1 is characterized in that: paper mould layer (2) is compounded in the outside face of die cavity body (1) by paper pulp moulding technology.

3, paper mould clad vessel according to claim 1 is characterized in that: be connected by at least a mode in bonding, riveted joint or the joggle between the outside face of paper mould layer (2) and die cavity body (1).

4, according to claim 1,2 or 3 described paper mould clad vessels, it is characterized in that: die cavity body (1) outside face is provided with disconnecting prevention structure (3).

5, paper mould clad vessel according to claim 4 is characterized in that: described disconnecting prevention structure (3) is for being arranged on the groove or the projection of die cavity body surface.

6, paper mould clad vessel according to claim 1 is characterized in that: be provided with paper mould layer (2) in the interlayer of die cavity body (1).

7, paper mould clad vessel according to claim 1 is characterized in that: the inside face of die cavity body (1) is provided with paper mould layer (2).

8, paper mould clad vessel according to claim 1 is characterized in that: die cavity body (1) adopts at least a material in bamboo and wood, metal, glass, pottery, plastics, stone or the boccaro to make.

9, paper mould clad vessel according to claim 1 is characterized in that: paper mould layer (2) is a multi-layer compound structure.

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