CN220522986U - Honeycomb plate module and honeycomb plate - Google Patents

Abstract

The application provides a honeycomb panel module. The honeycomb panel module comprises a receiving structure; the at least two honeycomb plates are connected with the bearing structure, and two adjacent honeycomb plates in the at least two honeycomb plates are arranged in contact and form a cavity at the contact position; and a connecting structure for relatively fixing the adjacent two honeycomb panels; wherein, the cavity is kept away from the one side closure of accepting the structure, and at least part connection structure is located the inside of cavity. Above-mentioned honeycomb panel module can make the honeycomb panel firm installation, also can hide connection structure to reduce the mounting seam width of honeycomb panel greatly, realize truly seamless installation.

Description

Honeycomb plate module and honeycomb plate

Technical Field

The utility model relates to the technical field, in particular to a honeycomb plate module and a honeycomb plate.

Background

The aluminum honeycomb plate is suitable for civil buildings, vehicle and ship decorations and the like, and is an application of aviation and aerospace materials in the field of civil buildings. The honeycomb material has the excellent performances of high wind pressure resistance, shock absorption, sound insulation, heat preservation, flame retardance, high strength and the like.

The conventional honeycomb panel mounting mode is mainly divided into two types of seamless mounting and seamless mounting, however, the seamless mounting mode is not really seamless mounting, and only the width of the mounting seam can be reduced.

Disclosure of Invention

Based on this, the present utility model aims to provide an improved honeycomb panel module and a honeycomb panel, so as to greatly reduce the installation seam width of the honeycomb panel.

In a first aspect, the present application provides a honeycomb panel module comprising: a receiving structure; the at least two honeycomb plates are connected with the bearing structure, and two adjacent honeycomb plates in the at least two honeycomb plates are arranged in contact and form a cavity at the contact position; and a connecting structure for relatively fixing the adjacent two honeycomb panels;

wherein, the cavity is kept away from the one side of accepting the structure is closed, and at least part of the connection structure is located the inside of cavity.

According to the honeycomb plate module, the two adjacent honeycomb plates are relatively fixed through the connecting structure, and the cavity is formed at the contact position of the two adjacent honeycomb plates, so that at least part of the connecting structure is positioned in the cavity, and one side of the cavity, far away from the bearing structure, is closed. Therefore, the honeycomb plate can be stably installed, and the connecting structure can be hidden, so that the installation seam width of the honeycomb plate is greatly reduced, the installation seam width of the honeycomb plate is enabled to approach zero, and the seamless installation in the true sense is realized.

In one embodiment, the connection structure includes: the connecting part is arranged in the cavity and is in butt joint with two adjacent honeycomb plates at different height positions of the honeycomb plates.

In one embodiment, the connection portion includes: a first connecting part which is abutted with two adjacent honeycomb plates; and a second connecting part which is abutted with the two adjacent honeycomb plates; the first connecting part and the second connecting part are arranged at intervals in the height direction of the honeycomb plate.

In one embodiment, the connection portion includes: an abutting surface abutting against both of the adjacent two honeycomb panels; and at least one guide surface connected to the abutment surface and extending toward the interior of the cavity.

In one embodiment, two adjacent honeycomb plates are respectively provided with grooves at contact positions, and the grooves of the two adjacent honeycomb plates are enclosed to form the cavity.

In one embodiment, the honeycomb panel further comprises a fillet which is engaged with the wall of the groove and abuts against the connecting structure in the height direction of the honeycomb panel.

In one embodiment, the surface of the fillet, which is attached to the wall of the groove, is serrated.

In one embodiment, an opening is provided in a side of the cavity adjacent to the receiving structure, and the connecting structure extends from the interior of the cavity to the exterior of the cavity through the opening and is connected with the receiving structure.

In a second aspect, the present application provides a nest plate structure comprising: at least two honeycomb plates, wherein two adjacent honeycomb plates are arranged in contact and a cavity is formed at the contact position; and a connecting structure for relatively fixing the adjacent two honeycomb panels; wherein, in the height direction of the honeycomb panel, at least one side of the cavity is closed; and at least part of the connection structure is located inside the cavity.

According to the honeycomb plate module, the two adjacent honeycomb plates are relatively fixed through the connecting structure, the cavity is formed at the contact position of the two adjacent honeycomb plates, at least part of the connecting structure is located in the cavity, and at least one side of the cavity is closed in the height direction of the honeycomb plates. Therefore, the honeycomb plate can be stably installed, and the connecting structure can be hidden, so that the installation seam width of the honeycomb plate is greatly reduced, the installation seam width of the honeycomb plate is enabled to approach zero, and the seamless installation in the true sense is realized.

In a third aspect, the present application provides a honeycomb panel comprising a recess provided in one side of the honeycomb panel, and when the side of the honeycomb panel is adjacent to the side of another honeycomb panel provided with the recess, the recess of the honeycomb panel and the recess of another honeycomb panel enclose to form a cavity.

The honeycomb plate is provided with the groove at one side so as to form a cavity at a contact position when the honeycomb plate is adjacent to another honeycomb plate, and a connecting structure for enabling two adjacent honeycomb plates to be relatively fixed can be hidden through the cavity, so that the seamless installation of the honeycomb plates is realized.

Drawings

In order to more clearly illustrate the embodiments of the present description or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present description, and that other drawings may be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a schematic front view of an embodiment of the present application;

FIG. 3 is a schematic cross-sectional view of the embodiment of FIG. 2 taken along the A-A plane;

fig. 4 is an enlarged schematic view of the structure in the dashed box P;

FIG. 5 is a schematic structural diagram of a connecting structure according to an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of a connection structure according to an embodiment of the present application.

Description of element numbers:

10. the honeycomb panel module 11, the bearing structure 12 and at least two honeycomb panels;

121-122, honeycomb plates, 123-123', connecting structures, 124 and cavities;

1211. grooves 1212, fillets, 1231, first connection, 1232, second connection, 1233, clamping grooves;

12311. an abutment surface 12312, a guide surface.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Aluminum honeycomb panels have the following several conventional mounting means:

1. lifting lug type: the installation method is characterized in that the lifting lug is separated from the honeycomb plate, the lifting lug is singly processed and then connected to the position of the glue line of the honeycomb plate, and the glue line is suitable for being wider than or equal to 12 mm.

2. Buckling strip type: the node is an aluminum buckle strip, the buckle strip is a specific section bar, the installation is simple, but the method has higher requirements on the processing precision of the plate material. According to the width of the buckle strip, the middle seam of the plate is 20mm, 40mm and the like, so that the mounting seam is wider and is not attractive.

3. Flanging type: the installation mode is that the flange for installation is machined when the aluminum honeycomb panel is machined, the installation is only needed to be arranged and connected at the keel and the glue line, the width of the glue line is suitable to be more than or equal to 10mm, the installation method is convenient to install, the installation line is small, the seamless installation in the true sense can not be realized, the machining is slightly complex, and the installation method is not suitable for modeling curtain wall boards.

Therefore, the conventional mounting manner is difficult to achieve real seamless mounting, and the conventional mounting manner is often provided with obvious mounting seams, so that the appearance is unaesthetic. In addition, traditional mounting methods are low in strength, weak and prone to tilting in large-area mounting.

Based on the above problems, the application provides a honeycomb panel module, so as to solve one or more of the problems, make the installation seam width of the adjacent honeycomb panels approach zero, and realize seamless installation in a true sense.

In one embodiment, as shown in fig. 1-4, a honeycomb panel module 10 includes a receiving structure 11; at least two honeycomb plates 12 connected to the receiving structure 11, adjacent two honeycomb plates 121 and 122 of the at least two honeycomb plates 12 being disposed in contact and formed with a cavity 124 at the contact position; and a connecting structure 123 for relatively fixing the adjacent two honeycomb panels 121 and 122; wherein the side of the cavity 124 remote from the receiving structure 11 is closed, and at least part of the connecting structure 123 is located inside the cavity 124.

It will be appreciated that "one side" of an element or region described in this embodiment may refer to a side edge, side portion, or side wall of the region. Thus, a closed side of cavity 124 may represent a closed side wall of the cavity, that is, no opening or significant gap in the side wall.

Optionally, the honeycomb plate can be made of materials with higher strength, such as steel, iron, aluminum alloy, titanium alloy and the like, so as to better resist compression and bending, improve engineering quality and greatly prolong the service life of the honeycomb plate module.

Alternatively, the contact arrangement of the adjacent two honeycomb plates 121 and 122 means that the side edges of the adjacent two honeycomb plates 121 and 122 are in contact arrangement, for example, in an abutting manner, so that the honeycomb plate module 10 has a larger space contact surface, thereby fully exerting the heat insulation and noise reduction performance of the honeycomb plates. Alternatively, the contact arrangement of adjacent two honeycomb panels 121 and 122 may also represent a partial panel contact arrangement of adjacent two honeycomb panels to meet the installation requirements of different forms of building surfaces, such as undulating building surfaces. Alternatively, the contact arrangement of the two adjacent honeycomb plates 121 and 122 may also represent the entire plate surface contact arrangement of the two adjacent honeycomb plates, for example, in a stacked form, so as to facilitate handling of the honeycomb plate module 10, and avoid the occurrence of the falling of the honeycomb plates.

Alternatively, the cavity 124 may be formed by the honeycomb panel 121 alone, by the honeycomb panel 122 alone, or by both the honeycomb panel 121 and the honeycomb panel 122. Illustratively, the honeycomb panel 121 or the honeycomb panel 122 alone forms the cavity 124, and it may be that the honeycomb panel 121 or the honeycomb panel 122 forms the cavity 124 at its own contact portion. Illustratively, the honeycomb panel 121 and the honeycomb panel 122 together form the cavity 124, and it may be that the honeycomb panel 121 and the honeycomb panel 122 form grooves at contact portions, respectively, so that when the honeycomb panel 121 or the honeycomb panel 122 is disposed in contact, the respective grooves enclose the cavity 124.

Alternatively, the connection structure 123 for fixing the two adjacent honeycomb panels 121 and 122 with respect to each other may be an adhesive structure, an abutting structure, a snap-fit connection structure, a fastener connection structure, or the like, at least a part of which is located in the cavity 124, which is not limited in this application. Illustratively, the adhesive structure may be a glue or adhesive that secures the adjacent two honeycomb panels 121 and 122 relative to each other. Illustratively, the abutting structure may interact with the adjacent two honeycomb panels 121 and 122 in the height direction by an elastic member or an element having a certain elasticity to form an abutment, thereby achieving the relative fixation of the adjacent two honeycomb panels 121 and 122. By way of example, the fastener attachment structure may be a centrally located attachment element within the cavity 124 and through which adjacent two panels 121 and 122 are respectively attached in the form of screw holes.

In the above-mentioned honeycomb panel module, the two adjacent honeycomb panels 121 and 122 are relatively fixed by the connecting structure 123, and the cavity is formed at the contact position of the two adjacent honeycomb panels 121 and 122, so that at least part of the connecting structure 123 is located inside the cavity 124, and one side of the cavity 124 away from the receiving structure 11 is closed. Therefore, the honeycomb board can be stably installed, the connecting structure 123 can be hidden by butt joint connection, and a connection type without folding edges is realized, so that the installation seam width of the honeycomb board is greatly reduced, the installation seam width of the honeycomb board is enabled to approach zero, and seamless installation in the true sense is realized.

In some embodiments, the connection structure includes a connection portion disposed inside the cavity, the connection portion abutting both of the adjacent two honeycomb panels at different height positions of the honeycomb panels. Illustratively, as shown in fig. 4, the connection in the cavity 124 has an abutment surface 12311 that abuts both of the adjacent two honeycomb panels at a first height position, and another abutment surface that abuts both of the adjacent two honeycomb panels at a second height position (below the abutment surface 12311 of fig. 4) that is different from the first height position. Through the arrangement, adjacent honeycomb plates can be effectively fixed, meanwhile, materials such as glue are avoided, and material waste is reduced.

In some embodiments, the connection includes a first connection that abuts both adjacent honeycomb panels; and a second connecting part which is abutted with two adjacent honeycomb plates; the first connecting part and the second connecting part are arranged at intervals in the height direction of the honeycomb plate. Illustratively, as shown in fig. 4, the first connection portions 1231 are abutted with the adjacent honeycomb panels 121 and 122, the second connection portions 1232 are abutted with the adjacent honeycomb panels 121 and 122, and the first connection portions 1231 and the second connection portions 1232 are disposed at intervals in the height direction of the honeycomb panels. Optionally, the connection part further includes an extension part for connecting the first connection part 1231 and the second connection part 1232. Through the mode, the structure of the connecting part can be simplified and the cost is reduced while the adjacent two honeycomb plates are effectively fixed.

In some embodiments, the connection includes an abutment surface that abuts both of the adjacent honeycomb panels; and at least one guide surface connected to the abutment surface and extending toward the interior of the cavity. Illustratively, as shown in fig. 4, the connecting portion includes an abutment surface 12311 that abuts against both of the adjacent two honeycomb panels 121 and 122, and a guide surface 12312 that extends toward the inside of the cavity 124 and is connected to the abutment surface 12311. By providing the guide surface 12312, the assembly of the honeycomb panel is facilitated, thereby reducing the assembly difficulty. Alternatively, as shown in fig. 4, a plurality of guide surfaces may be provided, and a side of the connection portion, which is close to the honeycomb panel 121, is also provided with the guide surfaces, and when the connection portion includes the first connection portion 1231 and the second connection portion 1232, both ends of the first connection portion 1231 are provided with the guide surfaces, and both ends of the second connection portion 1232 are also provided with the guide surfaces, that is, four guide surfaces in total, so that it is advantageous to further facilitate the assembly of the adjacent two honeycomb panels 121 and 122 with the connection structure 123.

In some embodiments, adjacent two honeycomb plates are provided with grooves at the contact positions, respectively, and the grooves of the adjacent two honeycomb plates enclose a cavity. Illustratively, as shown in FIG. 4, the honeycomb panel 121 is provided with grooves 1211 at the contact location and the honeycomb panel 122 is also provided with grooves at the contact location such that the grooves 1211 and the grooves of the honeycomb panel 122 may enclose to form the cavity 124. Through set up the recess in the contact position department of honeycomb panel respectively, can make two adjacent honeycomb panels assemble with connection structure through the mode of block respectively to simplify two adjacent honeycomb panel's assembly methods, promote the assembly rate of honeycomb panel module.

In some embodiments, a fillet is also included that engages the wall of the recess and abuts the connection structure in the height direction of the honeycomb panel. Illustratively, as shown in fig. 4, a molding 1212 is further provided in the recess 1211, and the molding 1212 is fitted to the wall of the recess 1211 and abuts against the connecting structure 123 in the height direction of the honeycomb panel. Alternatively, the molding 1212 may snap directly into the recess 1211 such that the molding 1212 engages the walls of the recess 1211. Alternatively, the profile of the molding matches the profile of the groove, e.g., when groove 1211 is a U-shaped groove, the molding 1212 corresponds to a U-shaped molding, such that the U-shaped molding snaps into full engagement with the walls of the groove 1211. Alternatively, the molding 1212 may abut the connecting structure 123 at one height position, or at a different height position, to further enhance the mounting strength. Optionally, the slug 1212 has a length closer to the closed side of the cavity 124 that is greater than the length farther from the closed side of the cavity, thereby facilitating installation. Alternatively, the slug 1212 may be formed entirely of 1mm to 3mm sheet material.

It should be understood that fillets may also be provided in the grooves of the honeycomb panel 122, which are not shown in FIG. 4 for simplicity of illustration.

In the prior art, because the panel of the aluminum honeycomb panel is thinner, the flatness of the honeycomb panel with larger size is easy to change in the flanging process, and in the bonding process, the honeycomb panel is easy to have positioning errors, so the flatness of the honeycomb panel with larger size is also poorer. The matching of the molding 1212 and the connecting structure 123 is beneficial to improving the mounting strength of the adjacent honeycomb plates 121 and 122 and ensuring the stability of the relative fixation of the adjacent honeycomb plates 121 and 122; meanwhile, since the molding 1212 is a profile processing, the dimensional accuracy is high, so that the molding 1212 can have a certain collimation effect after being adhered to the honeycomb plate 121, which is beneficial to ensuring the flatness of the large-size honeycomb plate and avoiding the tilting phenomenon.

Further, as shown in fig. 4, the surface of the molding 1212 that is in contact with the wall of the recess 1211 is serrated. The surface of the molding 1212, which is attached to the groove wall, is provided with saw teeth, so that the contact area between the glue and the molding 1212 is increased, and the bonding strength is improved; and when receiving the shearing force, the sawtooth structure also can effectively increase the bonding strength of gluing and fillet, makes its structure more stable.

In some embodiments, the cavity is provided with an opening on a side thereof adjacent to the receiving structure, and the connecting structure extends from the interior of the cavity to the exterior of the cavity through the opening and is connected to the receiving structure. Illustratively, as shown in fig. 4, the side of the cavity 124 adjacent to the receiving structure 11 is not fully closed, and an opening is provided, through which the connecting structure 123 extends to the outside of the cavity 124 and is connected to the receiving structure 11. Alternatively, as shown in FIG. 4, the length of the upper groove wall of the groove 1211 is smaller than the length of the lower groove wall, so that an opening can be formed when two adjacent honeycomb plates 121 and 122 are arranged in contact, the arrangement is simplified, and correspondingly, the length of the molding 1212, which is close to the closed side of the cavity 124, can be longer than the length of the molding 1212, which is far from the closed side of the cavity, so as to keep the molding fit with the groove wall. The stability of the overall structure of the honeycomb plate is enhanced by the mode, the installation strength is further improved, and the honeycomb plate module 10 is convenient to install. Alternatively, the receiving structure 11 may be a steel frame.

Alternatively, as shown in fig. 4 and 5, the connecting structure 123 may extend out of the cavity 124 and then bend towards the honeycomb panels 121 and 122, respectively, to form side portions on both sides for connection with the receiving structure 11, respectively. In this way, the honeycomb panel is advantageously connected to the receiving structure 11 more firmly.

Alternatively, as shown in fig. 6, the connecting structure 123 extends out of the cavity 124 and then is bent and extended only toward the honeycomb panel 121 or 122, i.e., only on one side forms a side portion connected to the receiving structure 11. In this way, the honeycomb plates can be positioned and installed in turn, for example, the preparation of the honeycomb plate module 10 can be completed in the order of mounting the connection structure 123 to the receiving structure 11, positioning the honeycomb plates on the connection structure 123, mounting the next connection structure 123 'to the receiving structure 11, positioning the next honeycomb plate on the connection structure 123', wherein the bending extension direction of the connection structure 123 is consistent with the setting sequence direction of the honeycomb plates.

Alternatively, the connecting structure 123 may not extend in a bending manner after extending out of the cavity 124, but may be directly engaged into the receiving structure 11 for fixing. Thus saving materials and reducing cost.

In summary, the connection manner between the connection structure 123 and the receiving structure 11 may be set according to actual needs, and these connection manners are merely examples, which are not limited in this application.

Further, as shown in fig. 5 and 6, the connection structures 123 and 123' may be driven into the receiving structure 11 by self-tapping screws. Optionally, the side portion of the connection structure 123 and 123' connected with the receiving structure 11 is provided with a clamping groove 1233, so as to facilitate the positioning of the screw, and meanwhile, the shape of the clamping groove 1233 is also beneficial to matching with the profile of the screw, so that the end portion of the screw is prevented from being exposed, and the aesthetic degree of the honeycomb panel module 10 is further improved. Optionally, the bending angle of the clamping groove 1233 is 15-20 degrees.

In some embodiments, the overall thickness of the connection structure may range from 1.5mm to 5mm. Within this range, the smaller the thickness, the more advantageous is to reduce material waste, and the greater the thickness, the more advantageous is to promote the strength of the connection structure.

In another embodiment, the application further provides a honeycomb panel module, which comprises at least two honeycomb panels, wherein two adjacent honeycomb panels in the at least two honeycomb panels are arranged in contact and form a cavity at a contact position; and a connecting structure for relatively fixing the adjacent two honeycomb panels; wherein, in the height direction of the honeycomb plate, at least one side of the cavity is closed; and at least part of the connection structure is located inside the cavity.

According to the honeycomb plate module, the two adjacent honeycomb plates are relatively fixed through the connecting structure, the cavity is formed at the contact position of the two adjacent honeycomb plates, at least part of the connecting structure is located in the cavity, and at least one side of the cavity is closed in the height direction of the honeycomb plates. Therefore, the honeycomb plate can be stably installed, and the connecting structure can be hidden, so that the installation seam width of the honeycomb plate is greatly reduced, the installation seam width of the honeycomb plate is enabled to approach zero, and the seamless installation in the true sense is realized.

In another embodiment, the present application further provides a honeycomb panel, the honeycomb panel includes a groove provided on one side of the honeycomb panel, and when the side of the honeycomb panel is adjacent to the side of another honeycomb panel provided with the groove, the groove of the honeycomb panel and the groove of the other honeycomb panel enclose a cavity. The honeycomb plate can be applied to the honeycomb plate module.

The honeycomb plate is provided with the groove at one side so as to form a cavity at a contact position when the honeycomb plate is adjacent to another honeycomb plate, and a connecting structure for enabling two adjacent honeycomb plates to be relatively fixed can be hidden through the cavity, so that the seamless installation of the honeycomb plates is realized.

In some embodiments, the honeycomb panel further comprises a fillet, wherein the fillet is attached to a wall of the groove, and a surface of the fillet attached to the wall of the groove is serrated. The effect of providing the fillet and serrated surface is consistent with the foregoing and will not be described in detail herein.

The technical features of the foregoing embodiments and the embodiments may be arbitrarily combined, and for brevity of description, all of the possible combinations of the technical features of the foregoing embodiments and the embodiments are not described, however, they should be considered as the scope of the description of the present specification as long as there is no contradiction between the combinations of the technical features.

The foregoing examples and embodiments are merely illustrative of the present utility model and are described in more detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A honeycomb panel module, comprising:

a receiving structure;

the at least two honeycomb plates are connected with the bearing structure, and two adjacent honeycomb plates in the at least two honeycomb plates are arranged in contact and form a cavity at the contact position; the method comprises the steps of,

a connecting structure for relatively fixing two adjacent honeycomb plates;

wherein,

the cavity is closed at a side far away from the bearing structure, and at least part of the connecting structure is positioned in the cavity.

2. The cellular board module of claim 1, wherein the connecting structure comprises:

the connecting part is arranged in the cavity and is in butt joint with two adjacent honeycomb plates at different height positions of the honeycomb plates.

3. The honeycomb panel module of claim 2, wherein the connection portion comprises:

a first connecting part which is abutted with two adjacent honeycomb plates; the method comprises the steps of,

a second connecting part which is abutted with two adjacent honeycomb plates;

the first connecting part and the second connecting part are arranged at intervals in the height direction of the honeycomb plate.

4. The honeycomb panel module of claim 2, wherein the connection portion comprises:

an abutting surface abutting against both of the adjacent two honeycomb panels; the method comprises the steps of,

at least one guide surface connected to the abutment surface and extending towards the interior of the cavity.

5. The honeycomb panel module according to any one of claims 1 to 4, wherein adjacent two honeycomb panels are provided with grooves at the contact positions, respectively, and the grooves of the adjacent two honeycomb panels enclose the cavity.

6. The honeycomb panel module of claim 5, further comprising a fillet that engages a wall of the recess and abuts the connection structure in a height direction of the honeycomb panel.

7. The honeycomb panel module of claim 6, wherein the surfaces of the fillets abutting the walls of the recess are serrated.

8. The honeycomb panel module according to any one of claims 1 to 4, wherein an opening is provided in a side of the cavity adjacent to the receiving structure, and the connecting structure extends from an inside of the cavity to an outside of the cavity through the opening and is connected to the receiving structure.

9. A honeycomb panel module, comprising:

at least two honeycomb plates, wherein two adjacent honeycomb plates are arranged in contact and a cavity is formed at the contact position; the method comprises the steps of,

a connecting structure for relatively fixing two adjacent honeycomb plates;

wherein, in the height direction of the honeycomb panel, at least one side of the cavity is closed; and at least part of the connection structure is located inside the cavity.

10. A honeycomb panel, the honeycomb panel comprising a recess provided in one side of the honeycomb panel, and when the side of the honeycomb panel provided with the recess is adjacent to the side of the other honeycomb panel provided with the recess, the recess of the honeycomb panel and the recess of the other honeycomb panel enclose a cavity, the cavity being configured to receive at least part of a connecting structure for fixing two adjacent honeycomb panels relative to each other.