CN216865804U - Anti-deformation heat-preservation honeycomb core aluminum pinch plate - Google Patents

Abstract

The utility model discloses an anti-deformation heat-preservation honeycomb core aluminum pinch plate which comprises an aluminum bottom plate, a honeycomb core and an inner cover plate, wherein the periphery of the aluminum bottom plate is bent upwards to form a surrounding plate, the honeycomb core and the inner cover plate are respectively positioned in the surrounding plate, the honeycomb core is clamped between the aluminum bottom plate and the inner cover plate, and the honeycomb core and the aluminum bottom plate, and the honeycomb core and the inner cover plate are respectively bonded through viscose glue. The anti-deformation heat-insulation honeycomb core aluminum pinch plate can be manufactured into large specifications, is not easy to deform and has long service life. The aluminous gusset plate is lighter and thinner, and is convenient to transport and install. The steel keel frame is suitable for being used in places such as a wide auditorium, a large conference room, a workshop, a hospital and a station, and has the advantages of less keel consumption and high installation speed. The aluminum pinch plate with large area improves the aesthetic property of the suspended ceiling.

Description

Anti-deformation heat-preservation honeycomb core aluminum pinch plate

Technical Field

The utility model belongs to the technical field of buckle plates, and particularly relates to an anti-deformation heat-preservation honeycomb core aluminum buckle plate.

Background

The aluminous gusset plate is manufactured by cutting, corner shearing and die pressing by taking an aluminum alloy plate as a substrate, and various aluminous gusset plate products are obtained by processing various coatings on the surface of the aluminous gusset plate. The aluminous gusset plate has the characteristics of light weight, long service life, good sound and heat insulation effect, easiness in processing and the like, and occupies a large share in the field of suspended ceilings. However, the conventional aluminous gusset plate has a specification of 300mm × 300mm, 300 × 450mm.300 × 600mm, and is generally used in the engineering field of 600 × 600mm, 800 × 800mm, 300 × 1200mm, 600 × 1200 mm. The existing aluminum gusset plate has small size and complex installation, needs to be matched with and provided with more keels, and is not suitable for being used in places with wide areas such as auditoriums, large conference rooms, workshops and the like. The aluminum gusset plate is designed to be of a larger size, and due to the material characteristics of the aluminum gusset plate, the aluminum gusset plate is easy to sink, bend and deform, and is difficult to maintain a flat state. The aluminum gusset plate needs to be thick to meet the requirement when the large area is not deformed, but the weight of the unit area is greatly increased, the production cost of the aluminum gusset plate is increased, and the potential safety hazard is also caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model adopts the technical scheme that: the utility model provides a shape heat preservation honeycomb core aluminium buckle of preapring for an unfavorable turn of events, is including aluminium bottom plate, honeycomb core and interior apron, the formation bounding wall of bending up all around of aluminium bottom plate, honeycomb core and interior apron are located the bounding wall respectively, the honeycomb core presss from both sides between aluminium bottom plate and inner cover plate, bond through the viscose respectively between honeycomb core and the aluminium bottom plate, between honeycomb core and the inner cover plate.

Preferably, the honeycomb core is formed by a plurality of aluminum strips which are sequentially arranged, a plurality of honeycomb holes which are sequentially arranged are formed by surrounding adjacent aluminum strips, a plurality of connecting parts are arranged between the adjacent aluminum strips, and the connecting parts are positioned between the two adjacent honeycomb holes.

Preferably, the honeycomb holes are in the shape of one or more of a circle, a diamond, a hexagon, a triangle and an ellipse.

Preferably, all the honeycomb holes in the honeycomb core have the same shape, the lower surface of the inner cover plate has a plurality of upper protrusions, the upper protrusions have the same shape as the honeycomb holes, and the upper protrusions are embedded in the honeycomb holes.

Preferably, the aluminum base plate has a plurality of lower protrusions on an upper surface thereof, the lower protrusions having the same shape as the honeycomb holes, and the lower protrusions being inserted into the honeycomb holes.

Preferably, the two ends of the coaming are respectively provided with abdicating notches.

Preferably, the two ends of the coaming are respectively provided with a hanging hole.

Preferably, the enclosing plates are divided into two pairs of opposite enclosing plates, one enclosing plate of each pair of opposite enclosing plates is provided with a plurality of embedding protrusions protruding outwards, the other enclosing plate is provided with a plurality of embedding grooves recessed inwards, and the embedding protrusions correspond to the embedding grooves.

The utility model has the beneficial effects that: the anti-deformation heat-preservation honeycomb core aluminum buckle plate and the production method thereof have the following advantages:

1. the aluminous gusset plate can be designed into the specifications of 1200mm multiplied by 1200mm, 1200mm multiplied by 1800mm, 1200mm multiplied by 2100mm, 1200mm multiplied by 2400mm and the like, has large area, is not easy to deform and has long service life;

2. the weight of the aluminous gusset plate per unit area is 230g/m2, so that the aluminous gusset plate is lighter and thinner and is convenient to transport and install;

3. the large-area aluminum gusset plate is convenient to use in places such as a wide auditorium, a large conference room, a workshop, a station and a hospital, the number of used keels is small, and the installation speed is high;

4. the aluminum pinch plate with large area improves the aesthetic property of the suspended ceiling.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional structure of the present invention;

FIG. 3 is a schematic structural view of a honeycomb core;

FIG. 4 is a schematic view of another configuration of a honeycomb core;

figure 5 is another schematic of a honeycomb core structure.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in figures 1-3, an anti-deformation heat-preservation honeycomb core aluminum buckle plate comprises an aluminum base plate 1, a honeycomb core 2 and an inner cover plate 3, wherein the periphery of the aluminum base plate 1 is upwards bent to form a surrounding plate 4, the honeycomb core 2 and the inner cover plate 3 are respectively located in the surrounding plate 4, the honeycomb core 2 is clamped between the aluminum base plate 1 and the inner cover plate 3, and the honeycomb core 2 and the aluminum base plate 1 and the honeycomb core 2 and the inner cover plate 3 are respectively bonded through viscose glue. Therefore, the aluminum bottom plate 1, the honeycomb core 2 and the inner cover plate 3 form a whole, the deformation is not easy to occur under the condition of large size, and the aluminum bottom plate 1 can be thinner and thinner. The honeycomb core 2 enables the interior of the aluminum gusset plate to form a plurality of mutually independent hollow structures, improves the deformation resistance of the aluminum gusset plate, and increases the heat insulation performance and the sound insulation effect. The inner cover plate 3 is made of a light and thin aluminum plate or a plastic plate.

Further, the honeycomb core 2 is composed of a plurality of aluminum strips 5 which are arranged in sequence, a plurality of honeycomb holes 6 which are arranged in sequence are formed by surrounding the adjacent aluminum strips 5, a plurality of connecting parts 7 are arranged between the adjacent aluminum strips 5, and the connecting parts 7 are positioned between the two adjacent honeycomb holes 6. The aluminum strip 5 is formed by bonding or welding the light and thin aluminum strip 5, and is bonded with the aluminum bottom plate 1 and the inner cover plate 3 through viscose glue to play a role of a framework and improve the structural strength of the aluminum gusset plate. Therefore, the aluminum bottom plate 1 can be designed to be lighter and thinner, and the aluminum gusset plate can be processed into a larger size.

Further, all the honeycomb holes 6 in the honeycomb core 2 have the same shape, and in the present embodiment, the honeycomb holes 6 are hexagonal, as shown in fig. 3. The lower surface of the inner deck 3 has a plurality of upper protrusions having the same shape as the honeycomb holes 6, the upper protrusions being embedded in the honeycomb holes 6. The upper surface of the aluminum base plate 1 is provided with a plurality of lower protrusions, the lower protrusions have the same shape as the honeycomb holes 6, and the lower protrusions are embedded in the honeycomb holes 6. Thus, a groove for embedding the upper end of the aluminum strip 5 can be formed between the adjacent upper protrusions, and a groove for embedding the lower end of the aluminum strip 5 can be formed between the adjacent lower protrusions. More glue can be left in the groove, and the combination of the honeycomb core 2 and the aluminum bottom plate 1 and the inner cover plate 3 is firmer. Go up the arch and during the arch imbeds honeycomb core 2 respectively down, honeycomb core 2 forms the whole of non-deformable more with aluminium bottom plate 1 and inner decking 3. Of course, the honeycomb holes 6 are not limited to the hexagonal shape. And may be any one or more of circular, diamond-shaped, hexagonal, triangular, and oval, as shown in fig. 4-5. When the shapes of the honeycomb holes 6 in the honeycomb core 2 are different and the arrangement is irregular, the upper bulges and the lower bulges are difficult to align with the honeycomb holes 6, the upper bulges matched with the upper bulges are not suitable to be arranged on the inner cover plate 3, and the lower bulges matched with the upper bulges are also not suitable to be designed on the aluminum bottom plate 1.

Furthermore, the two ends of the coaming 4 are respectively provided with a abdicating notch 8. The abdication gap 8 is used for the keel to pass through.

Furthermore, hanging holes 9 are respectively arranged at two ends of the coaming 4. The hanging holes 9 are used for hanging the aluminous gusset plate through ropes and the like, and the use safety of the aluminous gusset plate is improved.

Furthermore, the coaming 4 is divided into two pairs of opposite coamings, one coaming 4 of each pair of opposite coamings is provided with a plurality of scarf convex protrusions 10 formed by protruding outwards, the other coamings 4 are provided with a plurality of scarf concave grooves 11 formed by sinking inwards, and the scarf convex protrusions 10 correspond to the scarf concave grooves 11. When the aluminous gusset plate is installed, the scarf joint bulge 10 on one side of the aluminous gusset plate is embedded into the scarf joint groove 11 on one side of the adjacent aluminous gusset plate, the adjacent aluminous gusset plates can be connected into a whole, the structural strength of the aluminous gusset plate ceiling is improved, gaps between the adjacent aluminous gusset plates are reduced, and the attractiveness is improved.

The production method of the deformation-preventing heat-insulating honeycomb core aluminum buckle plate comprises the following steps: and cutting the aluminum plate and then punching and forming the aluminum base plate 1. And sequentially bonding the aluminum strips 5 and then stretching to form the honeycomb core 2. The honeycomb core 2 is placed on the aluminum bottom plate 1, the inner cover plate 3 is cut and molded and then coated with a layer of adhesive, a second layer of adhesive is coated when the inner cover plate is dried to be in a semi-dry state, then the surface of the inner cover plate 3 coated with the adhesive is quickly covered on the honeycomb core 2 in a downward mode, and the anti-deformation heat-preservation honeycomb core aluminum buckling plate is obtained after natural cooling and drying. When the inner cover plate 3 is coated with the viscose for the first time and dried to a semi-dry state, the viscose can be uniformly applied to the inner cover plate 3, the inner cover plate is quickly covered on the honeycomb core 2 after coated with the viscose for the second time, and due to gravity factors, the viscose coated for the second time partially slides down to the aluminum bottom plate 1 along the aluminum strip 5. The coating amount of the two times of the adhesive is controlled, so that the adhesive on the aluminum bottom plate 1 can substantially fill the groove formed between the lower protrusions. Compare like this in the mode of coating the viscose simultaneously on aluminium bottom plate 1 and inner cover plate 3, can effectively reduce the viscose quantity, improve the area of contact of viscose and honeycomb core 2 simultaneously, improve the bonding strength who combines viscose and honeycomb core 2, and then improve the structural strength and the anti deformability of whole aluminous gusset plate to and keep warm, heat-proof quality. The glue can be common glue with certain fluidity, and is preferably green and pollution-free glue.

According to the steps, an aluminum plate with the thickness of 0.5 mm is selected to manufacture the aluminum bottom plate 1 with the width of 1200mm multiplied by 2400 mm. Meanwhile, the honeycomb core 2 with the corresponding specification is manufactured by adopting the aluminum strip 5 with the thickness of 0.035 mm, the thickness of the honeycomb core 2 is 7 mm, and the side length of the regular hexagon is 6 mm. The inner cover plate 3 with the corresponding specification is made of an aluminum plate with the thickness of 0.5 mm. The aluminous gusset plate is made of commercially available AB glue, and the unit area weight of the aluminous gusset plate is 230g/m 2. The aluminum plate with the same specification after 0.5 mm is used as a comparative example, the middle of the upper single aluminum plate has obvious sinking and protruding phenomena through tests, and the honeycomb core aluminum buckle plate manufactured by the embodiment is flat and smooth and has no obvious sinking and protruding phenomena. The smoothness of the surface honeycomb core aluminum buckle plate is greatly improved.

It should be noted that the technical features of the present invention, such as the adhesive and the stamping, should be regarded as the prior art, and the specific components, the operation principle, the control mode and the spatial arrangement mode that may be involved of the technical features should be selected conventionally in the field, and should not be regarded as the utility model point of the present invention, and the present invention is not further specifically described in detail.

Having described preferred embodiments of the present invention in detail, it is to be understood that modifications and variations may be resorted to without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (8)

1. The utility model provides a shape heat preservation honeycomb core aluminium buckle of preapring for an unfavorable turn of events, a serial communication port, including aluminium bottom plate, honeycomb core and interior apron, bend upwards around the aluminium bottom plate and form the bounding wall, honeycomb core and interior apron are located the bounding wall respectively, the honeycomb core presss from both sides between aluminium bottom plate and interior apron, bond through the viscose respectively between honeycomb core and the aluminium bottom plate, between honeycomb core and the interior apron.

2. The anti-deformation heat-preservation honeycomb core aluminum buckle plate according to claim 1, wherein the honeycomb core is composed of a plurality of aluminum strips which are arranged in sequence, a plurality of honeycomb holes which are arranged in sequence are formed by surrounding adjacent aluminum strips, a plurality of connecting parts are arranged between the adjacent aluminum strips, and the connecting parts are positioned between the two adjacent honeycomb holes.

3. The anti-deformation heat-preservation honeycomb core aluminum buckle plate according to claim 2, wherein the honeycomb holes are in any one or more of a circle, a diamond, a hexagon, a triangle and an oval.

4. The anti-deformation heat-insulating honeycomb core aluminum buckle plate according to claim 3, wherein the lower surface of the inner cover plate is provided with a plurality of upper protrusions, the upper protrusions have the same shape as the honeycomb holes, and the upper protrusions are embedded in the honeycomb holes.

5. The anti-deformation heat-insulating honeycomb core aluminum gusset plate according to claim 4, wherein the aluminum bottom plate has a plurality of lower protrusions on an upper surface thereof, the lower protrusions having the same shape as the honeycomb holes, the lower protrusions being embedded in the honeycomb holes.

6. The anti-deformation heat-preservation honeycomb core aluminum buckle plate according to claim 5, wherein abdicating notches are respectively formed at two ends of the enclosing plate.

7. The anti-deformation heat-preservation honeycomb core aluminum buckle plate according to claim 6, wherein hanging holes are respectively formed at two ends of the enclosing plate.

8. The anti-deformation heat-insulating honeycomb core aluminum buckle plate according to claim 7, wherein the surrounding plates are divided into two pairs of opposite surrounding plates, one of the surrounding plates in each pair is provided with a plurality of embedding protrusions protruding outwards, the other surrounding plate is provided with a plurality of embedding grooves recessed inwards, and the embedding protrusions correspond to the embedding grooves.

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