CN219033885U - Integral hanging structure for honeycomb stone unit plates - Google Patents

Abstract

The utility model provides a whole dress structure of hanging of honeycomb stone material cell board, includes honeycomb stone material panel, steel joist subassembly and wall support of bending, and the back side at honeycomb stone material panel is connected to the fossil fragments subassembly, and fossil fragments subassembly articulates on the wall support, and the steel joist subassembly of bending includes vertical joist and horizontal fossil fragments, and the wall support includes wall connecting plate and hanger plate, and the hanger breach is by supreme insert portion and the card portion that includes the intercommunication down, and the insert portion holds the top and the hanger plate of wall connecting plate, and the hanger breach articulates on the wall support. The utility model adopts the method that the honeycomb stone panel and the steel keel bending component are prefabricated into the unit board in a factory, the on-site cutting and welding of the keels are not needed, the whole body is directly hung in a hanging manner, the material cost is low, the construction period is shortened, the process is simplified, and the overhaul and the maintenance are more convenient.

Description

Integral hanging structure for honeycomb stone unit plates

Technical Field

The utility model belongs to the technical field of assembly type decoration, and particularly relates to an integral hanging structure of a honeycomb stone unit plate.

Background

The stone is an indispensable material in the decoration industry, has the characteristics of noble, elegant, natural, atmospheric, attractive and durable, is popular with people, and the honeycomb stone composite board overcomes the defects of heavy weight, low strength and high brittleness of the traditional stone and becomes a novel green decoration material. The existing honeycomb stone composite panel mounting technology is as follows: firstly, a support is made on the wall surface, a vertical keel is installed, then a transverse keel is installed, a nut or a back bolt is embedded in a honeycomb aluminum plate, and then the whole panel is connected to the keel in a switching mode through an adapter. The installation process is complex, the keels are cut and welded on site, so that the construction period is prolonged, the material waste is more, most keels and the adapter are aluminum profiles, the aluminum products are high in price, and the decoration cost is increased. The later maintenance is torn open and is traded inconvenient, panel and part after the dismantlement hardly reuse.

The assembly type decoration is a necessary trend of the development of the decoration industry, and most of the current honeycomb stone decoration stays on the traditional construction process, so that the development of the assembly type decoration and the concept of green, healthy and sustainable development are not facilitated. For this reason, a new technology is urgently needed to replace the conventional mounting process.

Disclosure of Invention

The utility model aims to provide an integral hanging structure of a honeycomb stone unit plate, which aims to solve the problems that the existing honeycomb stone installation process needs to cut and weld keels on site and has a long construction period; the aluminum profile is more in material waste and high in cost when being cut; the maintenance is inconvenient, and the panel and the part after the dismantlement are difficult to reuse.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the integral hanging structure of the honeycomb stone unit plate comprises a honeycomb stone panel, a steel keel bending component and a wall support, wherein the keel component is connected to the rear side of the honeycomb stone panel and is hung on the wall support,

the honeycomb stone panel is a rectangular panel, panel connecting bolts are pre-buried in holes on the rectangular panel,

the steel keel bending component comprises two vertical keels, the two vertical keels are respectively arranged corresponding to the rear sides of the two long side end parts of the rectangular panel and are equal in height with the long sides, the vertical keels are strip-shaped keels with right angles in cross sections, the right angle opening directions of the vertical keels on the two sides are oppositely arranged inwards, the vertical keels comprise vertical keel second bending edges which are clung to the rear side surfaces of the rectangular panel and vertical keel third bending edges which are perpendicular to the vertical keel second bending edges and extend towards the rear sides, the edges of the vertical keel third bending edges are provided with hanging lug notches, the hanging lug notches are vertically arranged at intervals along the length direction of the vertical keel third bending edges, the hanging lug notches corresponding to the vertical keel third bending edges on the left side and the right side are equal in quantity and are arranged in groups with equal elevation,

the steel keel bending component also comprises at least two transverse keels, wherein the transverse keels are vertical to the vertical keels and are arranged between the two vertical keels at intervals along the length direction of the vertical keels, the transverse keels are bar-shaped keels with right-angle cross sections, the steel keel bending component comprises a transverse keel first bending edge with two ends clung to the vertical keel second bending edge and a transverse keel second bending edge which is vertical to the transverse keel first bending edge and extends towards the rear side, the right-angle opening direction of the transverse keels is downward, a fourth round hole is formed in the transverse keel first bending edge, at least two fourth round holes are uniformly formed in each transverse keel,

the embedded position of the panel connecting bolt corresponds to the arrangement position of the fourth round hole and passes through the hole to be anchored on the surface of the first bending edge of the transverse keel through a nut,

the connection mode between the two ends of the transverse keels and the vertical keels is detachable bolting, fixed welding or corner code adding connection,

the wall surface support comprises a wall surface connecting plate and a hanging lug plate, the wall surface connecting plate is fixedly connected with a wall surface, the bottom of the hanging lug plate is fixedly connected with the top of the wall surface connecting plate, the hanging lug plate is far away from the wall surface relative to the wall surface connecting plate and vertically tilted,

the hanger notch comprises an inserting part and a clamping part which are communicated from bottom to top, the inserting part is used for accommodating the top of the wall surface connecting plate and the hanger plate, the clamping part extends outwards relative to the inserting part, the shape of the clamping part is matched with the outline shape of the hanger plate, and the hanger notch is hung on the wall surface support.

The wall connecting plate is provided with a first round hole, and a wall connecting bolt anchored into a wall surface penetrates through the first round hole.

The bolting form is that vertical keel second flange and horizontal keel first flange coincide and hug closely the position and open respectively has third round hole and third oblong hole, also the trompil is pre-buried to have panel connecting bolt on the rectangle panel that corresponds this position, and the panel connecting bolt of this position passes third round hole and third oblong hole in proper order and through the surface of nut anchor at horizontal keel first flange.

The transverse keel further comprises a transverse keel third bending edge, wherein the transverse keel third bending edge is formed by inwards extending and bending right angles at the left end and the right end of the transverse keel first bending edge or the transverse keel second bending edge, and the transverse keel third bending edge is clung to the vertical keel third bending edge and is bolted with the vertical keel third bending edge.

The vertical keel further comprises a first vertical keel bending edge, the first vertical keel bending edge is formed by respectively extending inwards and bending at right angles at the top end and the bottom end of a third vertical keel bending edge, and a group of second round holes are formed in each first vertical keel bending edge.

The steel keel bending component also comprises an edge keel which is a strip-shaped keel with a right angle cross section, a parallel transverse keel is arranged at the rear side of the top end of the rectangular panel,

the first flange of vertical joist first flange of hugging closely and the second flange of vertical joist first flange and stretching out towards the upside are folded to the limit fossil fragments, two sets of first slotted holes have been opened to the both ends of the first flange of limit fossil fragments symmetry respectively, and the second round hole on the first flange of vertical joist of left and right sides corresponds respectively to first slotted hole, through limit fossil fragments connecting bolt anchor between first slotted hole and the second round hole, the even a set of second slotted hole that opens of limit fossil fragments second flange, wear to have the wall connecting bolt of anchor into the wall in the second slotted hole.

The side keels are also arranged at the rear side of the bottom end of the rectangular panel, and the side keels at the bottom end and the side keels at the top end are identical in structure and are arranged in an up-down symmetry mode.

The wall support is a corner brace, angle steel or a wall connecting plate is a plane steel plate, and the hanger plate is a non-plane steel plate with arc bending at the top.

Compared with the prior art, the utility model has the following characteristics and beneficial effects:

the utility model adopts the method that the honeycomb stone panel and the steel joist bending component are prefabricated into the unit board in a factory, the joists do not need to be cut and welded on site, after the unit board is transported to the site, only the wall surface support is required to be installed, the unit board is directly hung and installed integrally in a hanging manner, no waste of residual materials is caused, decoration garbage is reduced, the construction period is shortened, the installation process is simplified, and the problems of complex process, long construction period and more material waste are solved.

The keel and the support are formed by bending steel plates, the punching and perforating mode is adopted, the structure is simple, the material cost is low, and the problem of high cost of the aluminum profile is solved. When the unit plates are installed, the wall surface connecting bolts are hung on the wall surface support to be locked, and when the unit plates are disassembled, the bolts are loosened to integrally take out the unit plates, so that the unit plates are more convenient to overhaul and maintain, the unit plates are recycled, and the problem of inconvenient maintenance is solved.

Drawings

The utility model is described in further detail below with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of the front structure of the honeycomb stone cell board of the present utility model.

Fig. 2 is a schematic view of the back structure of a cellular stone slab.

Figure 3 is a schematic view of the edge runner structure.

Fig. 4 is a schematic view of the wall mount structure.

Fig. 5 is a schematic view of a vertical keel structure.

Fig. 6 is a schematic view of a cross runner structure.

Reference numerals: 1-honeycomb stone panel, 2-edge keel, 21-first long round hole, 22-second long round hole, 23-edge keel first bending edge, 24-edge keel second bending edge, 3-wall support, 31-first round hole, 32-wall connecting plate, 33-hanging plate, 4-vertical keel, 41-vertical keel first bending edge, 411-second round hole, 42-vertical keel second bending edge, 421-third round hole, 43-vertical keel third bending edge, 431-hanging edge notch, 4311-inserting part, 4312-clamping part, 5-horizontal keel, 51-third long round hole, 52-fourth round hole, 53-horizontal keel first bending edge, 54-horizontal keel second bending edge, 6-panel connecting bolt, 7-wall connecting bolt and 8-edge keel connecting bolt.

Detailed Description

The embodiment is shown in fig. 1-6, and the integral hanging structure of the honeycomb stone unit plate comprises a honeycomb stone panel 1, a steel keel bending assembly and a wall support 3, wherein the keel assembly is connected to the rear side of the honeycomb stone panel 1, and is hung on the wall support 3.

The honeycomb stone panel 1 is a rectangular panel, and a panel connecting bolt 6 is embedded in an opening hole on the rectangular panel.

The steel joist bending assembly comprises two vertical joists 4, the two vertical joists 4 are respectively corresponding to the rear sides of two long edge end parts of the rectangular panel and are equally high with the long edges, the vertical joists 4 are right-angle strip-shaped joists with cross sections, right-angle opening directions of the vertical joists on two sides are oppositely arranged inwards, the vertical joists 4 comprise vertical joist second bending edges 42 which are tightly attached to the rear side surface of the rectangular panel and vertical keel second bending edges 42 and vertical keel third bending edges 43 which extend towards the rear sides, hanging lug notches 431 are formed in the edges of the vertical keel third bending edges 43, the hanging lug notches 431 are vertically arranged at intervals along the length direction of the vertical keel third bending edges 43, and the hanging lug notches 431 corresponding to the vertical keel third bending edges 43 on the left side and the right side are equal in quantity and are arranged in groups at equal elevations. In the embodiment, three hanging lug notches are uniformly formed on each vertical keel.

In this embodiment, the vertical keel 4 further includes a first vertical keel bending edge 41, the first vertical keel bending edge 41 is formed by respectively extending inward from the top end and bending the bottom end of a third vertical keel bending edge 43 at right angles, and each first vertical keel bending edge 41 is provided with a set of second round holes 411. In this embodiment, two second round holes 411 are formed on each first bending edge 41 of the vertical keel.

The steel joist bending assembly further comprises at least two transverse joists 5, wherein the transverse joists 5 are perpendicular to the vertical joists 4 and are arranged between the two vertical joists 4 at intervals transversely along the length direction of the vertical joists 4, the transverse joists 5 are bar-shaped keels with right-angle cross sections, each bar-shaped keel comprises a transverse joist first bending edge 53 with two ends clung to the vertical joist second bending edge 42 and a transverse joist second bending edge 54 with two ends clung to the vertical transverse joist first bending edge 53 and extending towards the rear side, right-angle opening directions of the transverse joists 5 are downward, fourth round holes 52 are formed in the transverse joist first bending edges 53, and at least two fourth round holes 52 are uniformly formed in each transverse joist 5. In this embodiment, the number of the cross runners is two, and each cross runner is provided with two fourth round holes 52.

The embedded position of the panel connecting bolt 6 corresponds to the arrangement position of the fourth round hole 52 and is anchored on the surface of the first bending edge 53 of the transverse keel through the hole by a nut.

The connection form between the two ends of the transverse keels 5 and the vertical keels 4 is detachable bolting, fixed welding or corner code connection. The bolting mode is that a third round hole 421 and a third long round hole 51 are respectively formed in the overlapping and clinging position of the vertical keel second bending edge 42 and the transverse keel first bending edge 53, a panel connecting bolt 6 is pre-buried in a hole on a rectangular panel corresponding to the position, and the panel connecting bolt 6 in the position sequentially penetrates through the third round hole 421 and the third long round hole 51 and is anchored on the surface of the transverse keel first bending edge 53 through a nut.

In other embodiments, the transverse keel further comprises a transverse keel third bending edge, wherein the transverse keel third bending edge is formed by inwards extending and bending right angles at the left end and the right end of the transverse keel first bending edge or the transverse keel second bending edge, and the transverse keel third bending edge is tightly clung to the vertical keel third bending edge and is bolted with the vertical keel third bending edge.

The wall support 3 comprises a wall connecting plate 32 and a hanging lug plate 33, wherein the wall connecting plate 32 is fixedly connected with a wall, the bottom of the hanging lug plate 33 is fixedly connected with the top of the wall connecting plate 32, and the hanging lug plate 33 is far away from the wall relative to the wall connecting plate 32 and vertically tilted. The wall support 3 is a corner brace, angle steel or the wall connecting plate 32 is a planar steel plate, and in this embodiment, the hanger plate 33 is a non-planar steel plate with an arc bend at the top.

The hanging hole 431 comprises an inserting portion 4311 and a clamping portion 4312 which are communicated from bottom to top, the inserting portion 4311 accommodates the top of the wall surface connecting plate 32 and the hanging plate 33, the clamping portion 4312 extends outwards relative to the inserting portion 4311, the shape of the clamping portion 4312 is matched with the outline shape of the hanging plate 33, and the hanging hole 431 is hung on the wall surface support 3.

The wall connecting plate 32 is provided with a first round hole 31, and the wall connecting bolt 7 anchored into the wall surface penetrates through the first round hole 31. In this embodiment, each wall connecting plate 32 is provided with two first round holes 31.

When the safety requirement precision is higher, the steel joist bending component is additionally provided with an edge joist 2. The side keels 2 are strip keels with right angles in cross section, and parallel transverse keels 5 are arranged on the rear side of the top end of the rectangular panel. The edge keel 2 comprises an edge keel first folding edge 23 which is tightly attached to the vertical keel first folding edge 41 and an edge keel second folding edge 24 which is perpendicular to the edge keel first folding edge 23 and extends towards the upper side, two groups of first oblong holes 21 are symmetrically formed in two ends of the edge keel first folding edge 23 respectively, the first oblong holes 21 correspond to second round holes 411 in the vertical keel first folding edge 41 on the left side and the right side respectively, the first oblong holes 21 are anchored with the second round holes 411 through edge keel connecting bolts 8, a group of second oblong holes 22 are uniformly formed in the edge keel second folding edge 24, and wall connecting bolts 7 anchored into a wall face penetrate through the second oblong holes 22. In this embodiment, each side keel second flange 24 is provided with three second oblong holes 22.

The side keels 2 can be further arranged at the rear side of the bottom end of the rectangular panel, and the side keels 2 at the bottom end and the side keels 2 at the top end are identical in structure and are arranged in an up-down symmetrical mode.

In this embodiment, the third oblong hole 51 is a vertical oblong hole, and the panel connecting bolt 6 in the hole has a function of adjusting the relative position of the horizontal keel and the vertical keel up and down. The first oblong hole 21 is a slot hole perpendicular to the wall surface, and the side keel connecting bolt 8 in the hole has the function of adjusting the relative position of the unit plate and the wall surface from front to back.

The construction process of this embodiment is as follows: the honeycomb stone panel 1 with the embedded panel connecting bolt 6 is connected with the fourth round hole 52 of the transverse keel 5 through nuts, the wall support 3 is installed on the wall, the wall connecting bolt 7 is fixed on the wall through the first round hole 31 of the wall support 3, the honeycomb stone panel 1, the transverse keel 5, the edge keel 2 and the vertical keel 4 are assembled into an integral unit plate, the honeycomb stone panel 1 is hung on the wall support 3 through the hanging ring notch 431 on the third bending edge 43 of the vertical keel, the second oblong hole 22 of the edge keel 2 is fixed with the wall connecting bolt 7, and before the wall is not fixed, the hanging ring notch 431 structure on the vertical keel 4 can enable the unit plate to move left and right on the wall support.

Embodiment one:

referring to fig. 1-2, the honeycomb stone unit board is assembled in a factory, the honeycomb stone is formed by compounding natural stone and a honeycomb aluminum plate, panel connecting bolts 6 are pre-embedded in the honeycomb aluminum plate, and then the stone and the honeycomb aluminum plate are compounded to form the honeycomb stone panel 1. The honeycomb stone panel 1 is connected with the transverse keels 5 through panel connecting bolts 6, the transverse keels 5 are connected with the vertical keels 4 through bolts, and the vertical keels 4 are connected with the side keels 2 through bolts to form an integral unit plate. After the unit plates are coded and packaged in factories and transported to sites, the wall surfaces on which the unit plates are required to be installed are payed out and provided with wall supports 3, the unit plate product packages are disassembled, the unit plates are orderly ordered according to the numbers, the unit plates are integrally hung on the wall supports 3, the positions of the unit plates, up, down, left, right, front, back, right and front are adjusted through adjusting bolts at the positions of the oblong holes, and locking nuts are fixed after the unit plates are in place, so that the installation is completed. When the unit board needs to be disassembled and replaced, the bolts on the side keels 2 are loosened, the unit board can be taken out integrally, the unordered installation and disassembly are realized, and the unit board needs to be replaced to disassemble and has no installation influence on other unit boards.

Embodiment two:

referring to fig. 1-6, in the place with low earthquake load requirement, the honeycomb stone slab can be installed indoors by only arranging the side keels 2 on the upper side, or without the side keels, only by combining the horizontal keels and the vertical keels, and hanging the honeycomb stone slab on the wall support, so that the installation and the disassembly of the slab are more convenient, and the front and rear positions can be adjusted by adding a cushion plate for thickening.

The unit hanging structure is not only suitable for honeycomb stone, but also suitable for other plates, and the structure of the wall support 3 is only schematic and is not limited to the structural shape in the description.

Claims (8)

1. The utility model provides a whole dress structure of hanging of honeycomb stone material cell board which characterized in that: comprises a honeycomb stone panel (1), a steel keel bending component and a wall support (3), wherein the keel component is connected to the rear side of the honeycomb stone panel (1), is hung on the wall support (3),

the honeycomb stone panel (1) is a rectangular panel, a panel connecting bolt (6) is pre-buried in an opening of the rectangular panel,

the steel keel bending assembly comprises two vertical keels (4), the two vertical keels (4) are respectively arranged corresponding to the rear sides of the two long edge ends of the rectangular panel and are equal in height to the long edge, the vertical keels (4) are strip keels with right-angle cross sections, the right-angle opening directions of the vertical keels on the two sides are oppositely arranged inwards, the vertical keels (4) comprise vertical keel second bending edges (42) which are clung to the rear side surface of the rectangular panel and vertical keel second bending edges (42) and vertical keel third bending edges (43) which extend towards the rear side, hanging lug notches (431) are formed in the edges of the vertical keel third bending edges (43) at intervals in the vertical direction of the length direction of the vertical keel third bending edges (43), the hanging lug notches (431) corresponding to the vertical keel third bending edges (43) on the left side and the right side are identical in quantity and are arranged in groups with equal elevation,

the steel joist bending assembly further comprises at least two transverse joists (5), wherein the transverse joists (5) are perpendicular to the vertical joists (4) and are arranged between the two vertical joists (4) along the length direction of the vertical joists (4) at intervals in the transverse direction, the transverse joists (5) are bar-shaped keels with right angles in cross section, each bar-shaped keels comprises a transverse joist first bending edge (53) with two ends clung to a vertical joist second bending edge (42) and a transverse joist second bending edge (54) with the perpendicular transverse joist first bending edge (53) extending towards the rear side, the right angle opening direction of the transverse joists (5) is downward, fourth round holes (52) are formed in the transverse joist first bending edge (53), at least two fourth round holes (52) are uniformly formed in each transverse joist (5),

the embedded position of the panel connecting bolt (6) corresponds to the arrangement position of the fourth round hole (52) and passes through the hole to be anchored on the surface of the first bending edge (53) of the transverse keel through a nut,

the connection mode between the two end parts of the transverse keels (5) and the vertical keels (4) is detachable bolting, fixed welding or corner code adding connection,

the wall support (3) comprises a wall connecting plate (32) and a hanging lug plate (33), the wall connecting plate (32) is fixedly connected with the wall, the bottom of the hanging lug plate (33) is fixedly connected with the top of the wall connecting plate (32), the hanging lug plate (33) is far away from the wall relative to the wall connecting plate (32) and vertically tilted,

the hanging ring notch (431) comprises an inserting portion (4311) and a clamping portion (4312) which are communicated from bottom to top, the inserting portion (4311) is used for accommodating the top of the wall surface connecting plate (32) and the hanging ring plate (33), the clamping portion (4312) extends outwards relative to the inserting portion (4311), the shape of the clamping portion (4312) is matched with the outline shape of the hanging ring plate (33), and the hanging ring notch (431) is hung on the wall surface support (3).

2. The honeycomb stone cell board integral hanging structure according to claim 1, wherein: the wall connecting plate (32) is provided with a first round hole (31), and a wall connecting bolt (7) anchored into a wall surface penetrates through the first round hole (31).

3. The honeycomb stone cell board integral hanging structure according to claim 1, wherein: the bolting form is that vertical joist second crimp (42) and horizontal joist first crimp (53) coincide and hug closely the position and open respectively have third round hole (421) and third slotted hole (51), and also the trompil is pre-buried to have panel connecting bolt (6) on the rectangle panel of corresponding this position, and panel connecting bolt (6) of this position pass third round hole (421) and third slotted hole (51) in proper order and anchor at the surface of horizontal joist first crimp (53) through the nut.

4. A honeycomb stone cell board integral hanging structure according to claim 1 or 3, characterized in that: the transverse keel further comprises a transverse keel third bending edge, wherein the transverse keel third bending edge is formed by inwards extending and bending right angles at the left end and the right end of the transverse keel first bending edge or the transverse keel second bending edge, and the transverse keel third bending edge is clung to the vertical keel third bending edge and is bolted with the vertical keel third bending edge.

5. A honeycomb stone cell board integral hanging structure according to claim 3, wherein: the vertical keels (4) further comprise vertical keel first bending edges (41), the vertical keel first bending edges (41) are formed by respectively extending inwards and bending right angles at the top end and the bottom end of the vertical keel third bending edges (43), and a group of second round holes (411) are formed in each vertical keel first bending edge (41).

6. The honeycomb stone cell board integral hanging structure according to claim 5, wherein: the steel keel bending component also comprises an edge keel (2), the edge keel (2) is a strip-shaped keel with a right angle cross section, a parallel transverse keel (5) is arranged at the rear side of the top end of the rectangular panel,

the edge keel (2) comprises edge keel first folding edges (23) which are tightly attached to the vertical keel first folding edges (41) and edge keel second folding edges (24) which are perpendicular to the edge keel first folding edges (23) and extend towards the upper side, two groups of first long round holes (21) are respectively symmetrically formed in two ends of the edge keel first folding edges (23), the first long round holes (21) respectively correspond to second round holes (411) in the vertical keel first folding edges (41) on the left side and the right side, the first long round holes (21) are anchored with the second round holes (411) through edge keel connecting bolts (8), a group of second long round holes (22) are uniformly formed in the edge keel second folding edges (24), and wall connecting bolts (7) which are anchored into a wall face are penetrated in the second long round holes (22).

7. The honeycomb stone cell board integral hanging structure according to claim 6, wherein: the side keel (2) is further arranged at the rear side of the bottom end of the rectangular panel, and the side keel (2) at the bottom end and the side keel (2) at the top end are identical in structure and are arranged in an up-down symmetry mode.

8. The honeycomb stone cell board integral hanging structure according to claim 1, wherein: the wall support (3) is a corner brace, angle steel or a wall connecting plate (32) is a plane steel plate, and the hanging lug plate (33) is a non-plane steel plate with arc bending at the top.

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