KR100367308B1 - An assembly of Panel for Freezing, Refrigeration, Heat Insulation and Method Thereof - Google Patents

Abstract

The present invention relates to a panel assembly for manufacturing a refrigeration box for a container for freezing, refrigeration or thermal insulation or a freezer, in detail, a panel in which one side of the upper plate (1) and the lower plate (2) is bent, and the panel is mutually When fabricating the panel assembly by foaming polyurethane 6, which is a heat insulating material, after assembling the connection, the upper plate 1 and the lower plate 2 are connected with each other in a state where the bent parts are opposed to each other. 3b) (3c), but together with the partition material (4) and the clamp plate (5) are connected to each other by the rivets (3a) (3b) (3c) to support the upper plate (1) and lower plate (2) The present invention relates to a panel assembly and a method of manufacturing the same, the outer surface of which is formed as one surface.

Description

Panel assembly for refrigeration, refrigeration or insulation and its manufacturing method {An assembly of Panel for Freezing, Refrigeration, Heat Insulation and Method Thereof}

The present invention relates to a panel assembly for manufacturing a refrigeration box for a container for a refrigeration, refrigeration or thermal insulation, or a freezing truck, in detail, a panel in which both sides of the upper and lower plates are bent, and the panel assembly is connected and assembled to each other. When manufacturing the panel assembly to be connected to each other by the inside of the panel assembly, the outer surface is made as one integral surface and relates to a panel assembly and a method of manufacturing the same.

Refrigeration, refrigeration or insulation container or a freezing box of a freezer truck is a panel assembly by fabricating a panel assembly by assembling the panels made of insulation so as to prevent the warmth or cold air from escaping to the outside, the panel assembly using a conventional method Is manufactured in the form of a box.

By the way, the manufacturing method of such a panel assembly is carried out in most countries, as shown in Figure 6, after applying the adhesive on the upper and lower surfaces of the foamed polyurethane 60 used as a heat insulating material, the upper plate 10 and the lower plate 20 ) In close contact with the joints of the upper plate 10 and the lower plate 20 using a double-sided adhesive tape 40, or the upper plate 10 'and the lower plate 20 as shown in FIG. ') Is connected to the assembly to secure the joint portion with a rivet (30), one side of the support plate 50 made of plastic extrusions or plywood made of plywood to the inside of the joint portion of the top plate and the rivet (30) The upper plate 10 'and the lower plate 20' are supported on the other side of the support plate 50 and the supporting plate 70 fixed by the rivet 30 'together with the seam of the lower plate. In the space between the top plate 10 'and the bottom plate 20' A method of firing a shot (60 ').

Thus, the production method of the panel assembly using the foamed polyurethane using aluminum, iron plate, FRP, etc. as the upper and lower plates, and the internal insulation material using a polyurethane, polystyrene or plastic material, adhesive And the upper and lower plates are in close contact with the upper and lower surfaces of the heat insulating material by using a double-sided adhesive tape, and then left for a long time (usually one day) under pressure applied using a press and then dismantled.

In addition, a method of manufacturing a panel assembly by foaming polyurethane is foamed into a foam press mold in a predetermined amount and density of a heat insulating material such as polyurethane, polystyrene, plastic in the upper and lower panels assembled from the above-described material to form a panel assembly I produce it.

However, the first method using foamed polyurethane as a heat insulating material is to cut a heat insulating material to a certain standard, and then apply an adhesive on both sides to continuously connect several sheets of top and bottom plates, which leads to a lot of time and labor, and productivity. Since it was lowered, there was a burden of increasing manufacturing costs.

In addition, when the container or the freezer is shaken or the time elapses, the panel and the polyurethane are separated from each other due to the change of the adhesive, and this phenomenon is more severe the longer the width and length.

In addition, since a double-sided adhesive tape is put on and bonded to the joint portion, two pieces of thickness overlap each other, resulting in streaks, resulting in poor appearance and deterioration of the load force and the longitudinal force.

In addition, the second method of foaming the polyurethane inevitably forms a joint according to the material when the upper and upper plates or the lower and lower plates are connected to each other, so that the joint is joined by rivets, the appearance is not beautiful.

That is, in order to foam the polyurethane between the upper plate and the lower plate, there must be a support material for supporting the upper plate and the lower plate separately, and after tightening the rivet, foaming the polyurethane and putting it in a foam press for a long time to compress as much as the head thickness of the rivet. As the head of the rivet enters the upper and lower plates, wrinkles occur on the outer wall of the panel assembly.

In particular, when the aluminum plate is used as the material of the upper plate and the lower plate, the plate produced in Korea is produced only at the maximum width of 1680㎜ at the price of 4,500 won per kilogram. It is easy to manufacture panels because it produces up to ㎜, but since the price difference is about 8,500 won per kilogram, the price difference is close to twice that of domestic, so foreign boards naturally have a big impact on the cost. Domestic products are used, but as described above, there is a problem in that the domestic plate materials having a small size must be continuously connected and assembled.

In addition, the method of using the FRP as a double-sided plate is a high price of the FRP plate and the adhesive is injected a lot, such a conventional panel assembly is weak in strength due to problems such as bonding in some cases the top plate or top plate And the use of the plywood bonded to the inner surface of the lower plate, that is, between the plate and the polyurethane, has become a factor of cost increase.

The present invention has been made in order to improve the problems of the conventional panel assembly as described above, when one side of the bent plate is connected to each other when assembled, the part where the bent side of the plate and the plate in contact with the inside of the connected plate by rivets The purpose of the present invention is to provide a panel assembly in which the entire surface is beautifully configured as one side by fixing.

1 is an assembly cross-sectional view of a panel assembly according to the present invention,

Figure 2 is a side view and a plan view of the clamp plate applied to the panel assembly according to the invention, Figure 3 is a cross-sectional view illustrating a method of manufacturing a panel assembly according to the invention, Figure 4 is a connection applied to the panel assembly of another embodiment according to the present invention 5A, 5B and 5C are cross-sectional views illustrating a method of manufacturing a panel assembly using the connection member of FIG. 4 according to the present invention.

6 is a cross-sectional view illustrating a method of manufacturing a conventional panel assembly;

7 is a cross-sectional view illustrating a method for manufacturing a conventional panel assembly according to another embodiment;

(Explanation of reference numerals)

1 ... top, 2 ... bottom,

3a, 3b, 3c, 3d ...

5 ... clamp plate, 6,6 '... polyurethane,

7,7 '... blocking member, 8 ... upper mold,

9 ... Holded, 10 ... Connector, 11,11 '... Vertical groove, 12,12' ... Wings.

In order to achieve the object as described above, the present invention is to produce a top plate and a lower plate in a state in which a portion of both sides of the bent, and to connect the upper plate and the lower plate in a state in which the bent parts to each other fixed with rivets in the However, after supporting the upper plate and the lower plate together with the partition material and the clamp plate, it is characterized in that the panel assembly is produced by foaming a polyurethane used as a heat insulating material therebetween.

Hereinafter, a panel assembly and a method of manufacturing the same according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the assembly of the panel assembly according to the present invention, as shown,

'T' shaped upper and lower plates (1) and lower plate (2), which faced each other with their sides bent in a 'b' and 'b' shape and faced each other at predetermined intervals, and the upper plate ( 1) and the partition member 4 attached to one side of the bent portion of the lower plate 2 and fixed by rivets 3a, and one end thereof is formed on one side while the middle portion is bent to form a step as shown in FIG. Bent, but the middle part is fixed in the middle of the partition member 4 and the rivets 3b so that the bent portion is attached in the bent direction of the lower plate 2, together with the partition member 4 to the rivets 3c. It consists of the clamp plate 5 which is being fixed, and the polyurethanes 6 and 6 'foamed in the space between the upper plate 1 and the lower plate 2 thus assembled.

Here, the upper plate and the lower plate are made of aluminum or iron plate, and the partition material attached to the bent portion of the upper plate and the lower plate is made of plywood or plastic material, and the heat transfer between the bent portion of the upper plate and the lower plate and the partition material. In order to prevent the foamed polyurethane may be placed in place with rivets.

In addition, the partition material serves to adjust the gap between the two-sided sheet material and the role of the partition to form the foam space and the column to support the upper and lower plates. Next, the manufacturing process of the panel assembly configured as described above The steps are as follows.

Step 1: Connect the bent portions of the upper plate 1 in which portions of both sides are bent together.

Step 2: Place one side of the partition material (4) on one side of the bent portion where the 'a' shaped upper plate (1) is facing each other and fix it with a rivet (3a).

Step 3: Hold the clamp plate 5 so that the bent portion of the upper plate 1 and the bent portion on the one side of the partition member 4 are directed downward, together with the partition member 4 to the rivet 3b. Fix the clamp plate (5).

Step 4: The 'b' shaped lower plate 2 is bent to each other and pressed to the space between the partition member 4 and the clamp plate 5 while being in close contact with the bent side of the clamp plate 5. .

Step 5: The bent portions of the clamp plate 5 and the lower plate 2 and the partition member 4 are simultaneously fixed together with the rivets 3c.

At this time, the bent portion and the partition member (4) at the top and bottom of the panel assembly is connected with the clamp plate (5) and fixed with rivets (3a) (3b) (3c), but the lower plate inside the panel assembly The bent portion and the partition member 4 are inserted into the panel assembly using an industrial stapler attached to a long rod and fixed with a staple fired by the operation of the industrial stapler. It may be.

Step 6: Repeat the above assembly process by connecting the upper plate 1 and the lower plate 2 together, and the upper plate 1 while changing the assembling directions of the partition material 4 and the clamp plate 5 from each other. And the lower plate 2 are assembled.

Step 7: FIG. 3 shows a method of manufacturing a final product using the panel assembly assembled as described above. The upper mold is formed by blocking both sides of the assembled panel assembly with the blocking members 7 and 7 '. While pressing the upper plate (1) and the lower plate (2) with (8) and the lower mold (9) while foaming the polyurethane (6) by skipping one space into the space between the panel assembly, the remaining space not foamed after The final panel assembly is completed by foaming the polyurethane 6 '. FIG. 4 shows a perspective view of a connecting member 10 applied to the panel assembly of another embodiment according to the present invention. And the lower portion is formed in the middle of the vertical grooves (11, 11 ') into which the bent butted portion of the panel is inserted while supporting the panel on both sides, wings extending to the opposite side relative to the center line in the width direction ( 12) Form 12 ' The wings are configured such that one extends directly above the centerline and the other extends just below the centerline, i.e., the bottom of one wing and the top of the other wing coincide with the centerline. Referring to (a), (b) and (c) of FIG. 5, the manufacturing process of the panel assembly constituted by the connecting member of the present invention will be described below step by step. (B), but the upper parts are fixed by spot welding (SW) the connected inner parts as shown in FIG. 5 (b). Step 2: Bending of the upper plate 1 While the abutted portion is inserted into the vertical groove 11 formed on the upper portion of the connecting member 10, the connecting member 10 is pushed in, but the bent portion is bent with both ends of the connecting member is shown in Figure 5a As shown in Fig. 6), the rivets 3d Step 3: After connecting the lower plate 2 to each other while bending the bent portion, the vertical grooves 11 'of the lower plate 2 are formed using the same method as that of connecting the connecting member 10 to the upper plate 1. Step 4: The end of the continuously connected panel is a rectangular frame (13) formed with a support standing up on one side of the upper portion of the upper portion as shown in (c) of Figure 5, In order to finish the panel assembly, the panel assembly is finished, and finally, the panel assembly is completed by foaming polyurethane in the same manner as in the manufacturing method (step 7) as shown in FIG. 3. The panel is mainly fixed to the riveting operation, the above embodiment is a more perfect and durable panel assembly by combining the connecting member in the state of spot welding the butted portion, and then only riveting at both ends of the connecting member, In addition, the connecting member is made of PVC extruded material with minimum thermal conductivity as its material, and its entire length secures both the upper and lower panels of the panel, and serves as a perfect partition, and the wing of the middle part. (12) (12 ') The positions are shifted from each other with respect to the center line. When joining the panel assembly and the ends of the panel assembly at right angles, it is necessary to cut a part of one end of the connecting member, Cutting the connecting member 10 'is to allow the lower wing 12' to serve as a support for supporting the panel.

In the above embodiment, the reason for foaming polyurethane while skipping one by one is that by foaming the polyurethane first in the space of the partition member facing each other in the interior of the panel assembly, the polyurethane to be foamed by the partition member further forces. To receive it.

Further, by foaming the polyurethane with the plywood inside the upper plate or the upper plate and the lower plate before foaming the polyurethane, it is possible to make the panel assembly more durable.

Therefore, when the panel assembly is manufactured in this way, even when the top and bottom plates are connected to each other, the rivet does not appear outward, so that the lines are not generated due to the rivets on the outer wall.

Since the panel assembly according to the present invention performs foaming by itself, the density, strength, and the like can be arbitrarily selected, and thus the tensile strength and load are superior to conventional products, and the appearance is beautiful because there is no seam due to riveting or bonding. .

According to the panel assembly of the present invention having the above object and configuration, it is possible to use domestic materials and workability is good, the cost is reduced and the price is low, and the panel assembly is more rigid because the clamp plate is embedded in the middle of polyurethane. Becomes

In addition, as described above, since it is a product that completely complements the conventional manufacturing method used in most countries as well as in our country, the best quality and price satisfaction can be expected.

In addition, the conventional panel assembly has a phenomenon that the refrigerant leaks through the gap, but the panel assembly according to the present invention is produced in the correct dimensions by the program, so the airtightness is maintained, the density, load and tensile strength, etc., excellent cold temperature Has the advantage of being well preserved.

Moreover, when producing a 20PT or 40PT refrigerated container with a panel assembly according to the present invention, the production time is greatly reduced, cost and manpower is reduced, productivity is increased, and the installation area can be reduced to reduce the equipment cost. There is an advantage.

Claims (2)

'T' shaped upper and lower plates (1) and lower plate (2), which faced each other with their sides bent in a 'b' and 'b' shape and faced each other at predetermined intervals, and the upper plate ( 1) and the partition member 4 attached to one side of the bent portion of the lower plate 2 and fixed with rivets 3a, and one end bent to one side while the middle part is bent to form a step, but the middle part is the partition part. Clamp plate 5 having the middle of the ash 4 and the bent portion fixed by the rivets 3b attached in the bent direction of the lower plate 2, and fixed together with the partition material 4 by the rivets 3c. And, a panel assembly for refrigeration, refrigeration or heat insulation, characterized in that consisting of polyurethane (6) (6 ') foamed in the space between the assembled upper plate (1) and the lower plate (2). Connecting parts of both sides to each other while facing the bent portion of the bent top plate (1); A step of fixing one side of the partition member 4 to one side of the bent portion in which the a'-shaped upper plate 1 is opposed to each other and fixed by rivets 3a; The clamp plate 5 is held together with the partition member 4 by the clamp plate 5 so that the bent portion of the upper plate 1 and the bent portion of the partition member 4 which are connected to each other face downward. (5) fixing; Pushing the portions of the 'b'-shaped lower plate 2 which are bent to each other and abutting each other into the space between the partition member 4 and the clamp plate 5 while being in close contact with the bent side of the clamp plate 5; Fixing the bent portions of the clamp plate 5 and the lower plate 2 and the partition member 4 together with rivets 3c at the same time; The above assembly process is repeatedly performed while connecting the upper plate 1 and the lower plate 2 to each other, and the upper plate 1 and the lower plate (when the assembly direction of the partition member 4 and the clamp plate 5 are different from each other). 2) connecting and assembling; Both panels of the panel assembly assembled as described above are blocked by the blocking members 7 and 7 'and the upper and lower panels 1 and 2 are pressed with the upper mold 8 and the lower mold 9, respectively. Foaming the polyurethane 6 while skipping one space into the space between the assemblies, and then foaming the polyurethane 6 'into the remaining space not foamed to complete the final panel assembly; Method for producing a panel assembly for refrigeration, refrigeration or insulation, characterized in that consisting of.