KR20090046440A - Packing assembly - Google Patents

Abstract

The present invention relates to a packaging assembly for packaging a product, the packaging box forming the appearance and the product is received; At least one pair of support rods installed outside the product to support stresses applied during the clamping operation; And a plurality of compression rods installed between the support rods to transfer the stress applied to the support rods.

According to the present invention, while the stress applied during the clamping operation is widely distributed to the long side of the support rod, it is possible to prevent the packaging box in the direction of the clamping operation is damaged. In addition, since a part of the stress applied during the clamping operation is applied to the cushioning material protecting the product, the product can be effectively fixed during transportation.

Clamping, Packaging Assembly, Support Rod, Compression Rod

Description

Packing assembly

The present invention relates to a packaging assembly for packaging a product, and more particularly, to a packaging assembly in which the lower packaging is fitted to the upper packaging with the lower side opened.

In general, the packaging assembly includes a sealed packaging box 10 containing a product, and protects the product from both the upper and lower sides, and front and rear sides of the product, and moisture and dust flow into the space in which the product is accommodated. To prevent them.

The packaging assembly as described above undergoes a distribution process from production to sale of a product, and may be repeatedly clamped during loading and transporting.

1 is a perspective view illustrating a packaging assembly in which a clamping operation is performed. As shown in FIG. 1, the packaging assembly is pressed by two clamps of the clamping machine 1 to exert a stress. And vertical and horizontal movements are made in a pressurized state by the clamp.

At this time, the packaging box 10 of the packaging assembly is generally made of a feeder such as corrugated cardboard, there is a risk that the packaging and products are damaged while being pressed by the stress applied during the clamping operation. Therefore, a packaging assembly including a support structure capable of supporting the stress applied during the clamping operation has emerged.

2 is a schematic view showing a stress supporting structure of a conventional packaging assembly.

Conventional packaging assembly has a guard for supporting the stress on the side of the packaging box 10 by using a member having a predetermined rigidity. In this case, in order to prevent the weight from increasing, the guard is generally made of a plurality of rods.

And, as shown in FIG. 2, the guard was formed to form a pair of structures respectively corresponding to the facing surface, it was configured to support the stress applied during the clamping operation at both ends. Therefore, it was possible to prevent the product from being damaged by the stress applied during the clamping operation.

However, according to the conventional packaging assembly, as the clamping operation is repeated, there is a problem that damage occurs in the packaging box 10 such that the portion of the packaging box 10 that is in contact with both ends of the protector is torn or cut off.

In addition, when the packaging box 10 is torn and the protector is detached to the outside, the stress applied during the clamping operation is applied to the product, resulting in a problem that the product is damaged.

The present invention has been made to solve the above-mentioned conventional problems, and provides a packaging assembly that can protect the product from the stress acting during the clamping operation, and can support the stress without damage to the appearance of the packaging box, etc. To do this.

An object of the present invention as described above, the packaging box to form the appearance and the product is received; At least one pair of support rods installed outside the product to support stresses applied during the clamping operation; And a plurality of compression rods installed between the support rods to transfer the stress applied to the support rods.

Here, the support rod may be installed perpendicular to the direction of the stress on both sides of the clamping, the compression rod may be installed in the direction of the stress between the support rod.

At this time, it is preferable that both ends of the compression rod are in contact with one surface of the support rod during clamping operation to receive a force applied to the support rod.

In addition, the support rods are formed parallel to each other on both sides of the clamping rod, the compression rods may be provided at both ends of the support rods, respectively.

On the other hand, it is provided in each corner of the inner packing box further includes a buffer to protect the product, the support structure may be installed between the buffer and the packing box.

At this time, the buffer member is preferably formed with a groove in which the support rod and the compression rod is fixed.

And, both ends of the compression rod is preferably fixed to be spaced apart from the support rod.

In the case of the packaging assembly according to the present invention, while the stress applied during the clamping operation is widely distributed to the long side of the support rod, it is possible to prevent the packaging box in the direction of the clamping operation from being damaged.

Furthermore, since part of the stress applied during the clamping operation is applied to the cushioning material protecting the product, the product can be effectively fixed during transportation.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

3 is a perspective view showing the configuration of a packaging assembly according to a preferred embodiment of the present invention. Referring to FIG. 3, an embodiment of a packaging assembly according to the present invention will be described.

The packaging box 10 forms the appearance of the packaging assembly according to the present invention and houses the product. And it is installed in the packaging box 10 may be provided with a cushioning material 20 to protect the product from external impact. In addition, the support rod 30 for supporting the stress applied to the packaging assembly during the clamping operation on the outside of the product and the compression rod 40 to transfer the stress applied to the support rod 30 may be installed.

Hereinafter, each component described above will be described in detail.

The packaging box 10 is made of a paper material such as corrugated cardboard, and is generally configured in the shape of a square pillar that can cover the front and rear and both sides of the product. In addition, the upper and lower foldable wing parts may be installed to cover the upper and lower surfaces. Therefore, the packaging box 10 may be sealed to prevent moisture or dust from entering the inside when the wing parts are joined. It is preferable to configure so that.

On the other hand, the cushioning material 20 is installed inside the packaging box 10, and protects the product from the outside of the product to be accommodated. The shock absorbing material 20 is preferably formed of an elastic body that absorbs an impact applied from the outside. Therefore, it is common to use expanded polystyrene, such as styrofoam.

The cushioning material 20 is preferably installed so that the product is fixed on the outside of the product. Therefore, the outer side of the shock absorbing material 20 is installed to contact the inner wall of the packaging box 10, the inner side is preferably provided with a predetermined concave-convex 22 so that the product can be fitted and fixed.

As shown in Figure 3, in the present embodiment, the shock absorbing material 20 is installed in four corners of the packing box 10 in the shape of a pillar to fix the product. This is because it is preferable to install only a predetermined portion necessary for fixing the product in the packaging box 10 in terms of material savings. However, this is only one embodiment, it is also possible that the shock absorbing material 20 is formed so as to completely fill the space between the outer side of the product and the packaging box 10.

In addition, a support rod 30 for supporting the stress applied to the packaging assembly during the clamping operation and a compression rod 40 through which the stress applied to the support rod 30 is transmitted to the outside of the product are installed.

4 is a schematic view showing a coupling state of the support rod 30 and the compression rod 40 according to the present embodiment.

In the present embodiment, a plurality of compression rods are installed between at least one pair of support rods 30 and the support rods 30 that are installed on the outside of the product to support the stress applied during the clamping operation. It is preferably configured to include a rod 40.

At this time, the support rod 30 is respectively installed on both sides of the clamping operation, it is preferable to support the stress while being directly pressed from the clamping machine 1 with the packaging box 10 therebetween. . That is, one side of the long side of the support rod 30 is configured to abut the inner surface of the packaging box 10, to support the stress through a large area.

Packaging boxes are generally used using a paper material to facilitate the manufacture and assembly. Therefore, the durability is weak against the force applied to the outer surface such as the clamping operation. Therefore, as in the conventional stress supporting structure described above (see FIG. 2), when the force pressurized by the clamping machine 1 is concentrated to a predetermined portion of the packaging box 10, the packaging box 10 It may be damaged and torn.

However, the present invention, as shown in Figure 4 bar pressure is distributed through the long side of the support bar 30, bar damage to the packing box 10 by reducing the stress applied to the packing box 10 You can prevent it.

In addition, the compression rod 40 includes a compression rod 40 that receives the stress applied to the support rod 30 between the support rod 30. The support rod 30 is installed perpendicular to the direction of the stress on both sides of the pressing bar, in order not to transfer the stress to the product is required to receive and support the stress applied to the support rod 30 Because.

Here, the support rod 30 and the compression rod 40 is preferably formed of a separate member, respectively. This is because it is easy to package and dispose separately of each rod member. However, it is a matter of course that the supporting rod 30 and the compression rod 40 are integrally formed.

At this time, both ends of the compression rod 40 is preferably configured to abut one surface of the support rod 30, respectively. When the support rod 30 and the compression rod 40 are in close contact with each other during the clamping operation, the force applied to the support rod 30 can be efficiently transmitted to the compression rod 40.

In this embodiment, as shown in Figure 4, the support rod 30 is provided with at least one pair, it is preferable that each pair is formed to be parallel to each other at the corresponding position on both sides. In this embodiment, as shown in FIG. 4, two pairs of supporting bars 30 are provided, and are installed to be parallel to corresponding positions on both sides.

In addition, it is preferable that the compression rods 40 are respectively provided between both ends of the pair of support rods 30 corresponding to each other. In this case, it is possible to secure a sufficient space for the product can be accommodated, there is an advantage that the assembly of the packaging assembly is easy.

However, the present invention is not limited by installing the positions of the compression rods 40 at both ends, and are installed on the intermediate portion of the support rod 30 as necessary and applied to the support rod 30. It is also possible to receive. It is also possible to have one or a plurality of compression bars 40 corresponding to the pair of support bars 30.

FIG. 5 is an enlarged view enlarging a shape in FIG. 3. Hereinafter, a method of fixing the support rod 30 and the compression rod 40 will be described with reference to FIG. 5.

As described above, in the present embodiment, it is preferable to include a cushioning material 20 provided at each corner of the inner side of the packing box 10 to protect a product. It is further preferred to have a groove 21 to which the rod 30 and the compression rod 40 are fixed.

Therefore, in the present embodiment, the cushioning material 20 forms grooves 21 having the same height in each of the parts in contact with the inner surface of the packing box, so that both ends of the compression rod 40 and the support rod 30 are the same. It may be inserted into the groove 21 formed in the buffer material (20).

In this embodiment, the support rod 30 is provided in two pairs, and two grooves are formed in the middle portion of the buffer material 20 to fix the support rod 30 and the compression rod 40. However, it is also possible to have several grooves according to the packaging process of the product, it is also possible to include a groove 21 including the top or bottom of the cushioning material (20).

In addition, in the present embodiment, as shown in Figure 5, the groove 21 formed in the buffer material 20 preferably has a depth corresponding to the thickness of the support rod 30 and the compression rod 40. . In this case, the support rod 30 and the compression rod 40 may be inserted into the groove to contact the inner surface of the packaging box 10.

On the other hand, both ends of the compression rod 40 may be installed so as to be spaced apart from the support rod 30 by a predetermined interval (D). At this time, the clamping rod 30 presses the cushioning material 20 by the predetermined interval during the clamping operation, and then contacts the compression rod 40 to transmit the pressurized force. Therefore, the support bar 30 presses the buffer material 20 with a part of the force, and thus, there is an advantage of more firmly fixing the product during the clamping operation.

However, when both ends of the compression bar 40 passes the interval (D) spaced apart from the support bar 30, the force applied to the support bar 30 is transmitted to the product received through the buffer material (20) Because it can be, considering the elasticity of the cushioning material 20, an appropriate spacing should be selected. In the case of using the cushioning material 20 used in the packaging structure of a general drum washing machine, it is preferable that the compression rod 40 is installed at a distance of about 5 mm.

As described above, the present invention has been described with respect to a packaging assembly having a cushioning material 20 inside the packing box 10 and wherein the supporting rod 30 and the compression rod 40 are fixed to the buffering material 20. However, this is only one embodiment, and the present invention is not limited thereto. For example, the support rod 30 and the compression rod 40 may be provided without the buffer material 20, and the support rod 30 and the compression rod 40 may be used. A configuration fixed to the outside of the packing box 10 is also possible.

1 is a perspective view illustrating a packaging assembly in which a conventional clamping operation is performed;

2 is a schematic view showing a stress supporting structure of a conventional packaging assembly;

3 is a perspective view showing the configuration of a packaging assembly according to a preferred embodiment of the present invention;

4 is a schematic view showing a coupling state of the support rod and the compression rod according to the present embodiment, and

FIG. 5 is an enlarged view enlarging a shape in FIG. 3.

<Description of Major Symbols in Drawing>

1: clamping machine 10: packing box

20: cushioning material 21: groove

22: unevenness 30: support rod

40: compression rod D: spacing

Claims (7)

A packaging box forming an appearance and containing a product; At least one pair of support rods installed outside the product to support stresses applied during the clamping operation; And a plurality of compression rods installed between the support rods to transfer the stresses applied to the support rods. The method of claim 1, The support rod is installed on both sides of the clamping perpendicular to the direction of the stress, the compression rod is a packaging assembly, characterized in that installed in the direction of the stress between the support rod. The method of claim 2, Both ends of the compression rod is a packaging assembly, characterized in that for receiving the force applied to the support rod in contact with each surface of the support rod during the clamping operation. The method of claim 3, The support rod is formed parallel to each other on both sides of the clamping rod, the compression rod is a packaging assembly, characterized in that each provided at both ends of the support rod. The method according to claim 3 or 4, And a cushioning material provided at each corner of the inner side of the packaging box to protect the product, wherein the support structure is installed between the cushioning material and the packaging box. The method of claim 5, The cushioning material is a packaging assembly, characterized in that the groove is fixed to the support rod and the compression rod is formed. The method of claim 6, Both ends of the compression rod is a packaging assembly, characterized in that fixed to be spaced apart from the support rod.

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