CN214739239U - Sintered wallboard - Google Patents

Abstract

The utility model discloses a sintered wallboard relates to sintered plate technical field, piles up through the sintered plate, and the installation of being convenient for and connect firmly, including the wallboard body, the wallboard body includes a plurality of sintered plate group of connecting side by side, sintered plate group is including a plurality of sintered plates that connect gradually along same straight line, the sintered plate is for opening the cuboid structure that has a plurality of through-holes along the axial, all in the same sintered plate group corresponding through-hole on the sintered plate communicates in proper order and forms a plurality of and run through the slot hole of sintered plate group, be provided with the connecting piece that can connect two adjacent sintered plates in the slot hole. The utility model discloses a set up in connecting piece in the slot hole makes all sintering plate blocks that are in same sintering plate block group form a whole, improves its whole bearing capacity.

Description

Sintered wallboard

Technical Field

The utility model relates to a sintered plate technical field, concretely relates to sintered wallboard.

Background

The assembled sintered plate is formed by the evolution of sintered bricks, shale and engineering waste soil are used as raw materials and are roasted at high temperature to form an assembled batten with multiple hole rates, and the assembled sintered plate is forged at high temperature, so that the assembled plate is stable in material performance, free of moisture regain and high in strength, and can solve the problem of cracking of a prefabricated partition board. Meanwhile, the assembled sintered plate is an important direction for the high-quality development of the industrial layout in the construction industry of our province.

The existing connection mode of the sintered wallboard using the sintered plate is that the two adjacent sintered plates are directly connected through mortar or a bonding agent, and the overall performance of the sintered plates connected through the mode is poor.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the sintering wallboard is designed, and is convenient to install and stable in connection by stacking the sintering plates. The utility model provides a solve a sintering wallboard of above-mentioned problem.

The utility model discloses a following technical scheme realizes:

the utility model provides a sintering wallboard, includes the wallboard body, the wallboard body includes a plurality of sintering plate groups that connect side by side, sintering plate group is including a plurality of sintering plate blocks that connect gradually along same straight line, the sintering plate block is for opening the cuboid structure that has a plurality of through-holes along the axial, and is all in same sintering plate group corresponding through-hole on the sintering plate block communicates in proper order and forms a plurality of and runs through the slot hole of sintering plate group, be provided with the connecting piece that can connect two adjacent sintering plate blocks in the slot hole.

In the scheme: the sintering plate is provided with a plurality of through holes arranged at corresponding positions, the sintering plate located in the same sintering plate group is connected end to form a long hole with the same axis when being spliced, the through holes arranged on the sintering plate are connected end to form a long hole with the same axis, the connecting pieces in the long holes are connected with adjacent sintering wallboards and are connected with a plurality of sintering plate groups connected by the connecting pieces in sequence along the same straight line to form a strip-shaped sintering plate group, and the plurality of sintering plate groups are arranged side by side to form the wallboard body. All the sintering plate blocks in the same sintering plate block group form a whole through the connecting piece arranged in the long hole, and the whole bearing capacity of the sintering plate block group is improved.

Preferably, the through hole of the sintered wallboard is of a cuboid structure.

Further preferably, the connecting piece includes well core plate, well core plate's both sides face is fixed with a plurality of vertical plate groups that can insert respectively the through-hole, vertical plate group includes two risers side by side, the width of riser with the width of through-hole equals, two the interval of the face of keeping away from the other side of the body of riser with the length of through-hole equals.

In the scheme: the connecting piece includes well core plate and sets up the riser group of well core plate both sides, when connecting two sintering plate blocks, will be located the riser group of well core plate both sides is inserted two respectively in the through-hole of sintering plate block, because two in the riser group the width of riser and the interval that faces back on the back of the body respectively with the width and the length of through-hole equal, work as the connecting piece will when sintering plate block connects, two the riser just with two sintering plate block, sintering plate block's position receives the restriction relatively fixed of riser has improved the wholeness of sintering wallboard.

Preferably, the connecting piece is a steel bar capable of penetrating through the sintered plate set.

In the scheme, reinforcing steel bars can be used as connecting pieces, and when the sintering plate block group is assembled, the reinforcing steel bars penetrate into the corresponding through holes of the sintering plate blocks, so that the sintering plate blocks are connected together to form the sintering plate block group.

Further preferably, the through hole is filled with mortar.

Preferably, the same side of all the sintering plate blocks, which is attached to another sintering plate block group, is provided with a groove with the same cross section shape, the other side of the sintering plate blocks extends to form a bump matched with the groove, and the groove on the sintering plate block group is mutually overlapped with the bump in the adjacent sintering plate block group.

In this scheme, in arbitrary sintering plate group sintering plate with one side open flutedly, the opposite side open have with the recess of lug adaptation, when arbitrary sintering plate group splices with another sintering plate group side by side, on it lug or recess and another sintering plate group's recess or lug overlap joint are in the same place, through this kind of mode, make adjacent two connect between the sintering plate group is enough inseparable, and the power that single sintering plate group received is transmitted to adjacent sintering plate group on through mutual lapped recess and lug, and then improves sintering plate group's bearing capacity improves the wholeness of sintering wallboard.

Further preferably, the cross-sectional shape of the groove is a trapezoid, wherein the upper bottom surface is a groove bottom.

In the scheme, the cross section of the groove is trapezoidal, wherein the upper bottom surface is a groove bottom, the upper bottom surface is the bottom surface of one side with shorter length in the trapezoid, namely the groove width of the groove is gradually expanded along the outside, and the cross section of the lug is the same as that of the groove due to the fact that the lug is matched with the groove, so that the adjacent sintering plate groups are conveniently spliced.

Further preferably, the sintering plate in any one of the sintering plate groups is spliced with the sintering plate in any adjacent sintering plate group in a staggered manner.

In this scheme, divide two sintering plate blocks that are arranged in two adjacent sintering plate block groups to be the stagger joint concatenation, arbitrary sintering plate block splices with two sintering plate blocks in arbitrary adjacent sintering plate block group simultaneously promptly, and the lug card on arbitrary sintering plate block this moment establishes in the recess of two adjacent sintering plate blocks, through this kind of mode, strengthens the connection between the adjacent sintering plate block group, and then improves the wholeness of sintering wallboard.

Preferably, still include a plurality of antidetonation connecting piece, the antidetonation connecting piece is including setting up fixed plate between wallboard body and ground or the roof beam body, the fixed plate can be fixed on ground or the roof beam body, the both sides of fixed plate extend the wallboard body and be provided with the fixed fastener of laminating wallboard body both sides face respectively along the direction of perpendicular to ground or the roof beam body.

In the scheme: the sintering wallboard sets up usually between the roof beam body or floor and ground, for avoiding the sintering wallboard to produce and topple over, is lieing in the roof beam body of wallboard body top and the ground of below set up antidetonation connecting piece, antidetonation connecting piece passes through fixed plate and ground or roof beam body coupling, and through with fixed fastener laminates wallboard body both sides face respectively, is used for the restriction the slope of sintering plate group improves the quality of use of sintering wallboard increases the stability between the adjacent sintering plate group simultaneously.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a schematic front view of embodiment 1 of the present invention;

FIG. 2 is a schematic view of the connection between the sintering plates in the same sintering plate group in example 1 of the present invention;

FIG. 3 is a schematic view of a sintered plate in example 1 of the present invention;

fig. 4 is a schematic view of a connector in embodiment 1 of the present invention;

fig. 5 is a schematic view of an earthquake-resistant connector according to embodiment 1 of the present invention.

Reference numbers and corresponding part names in the drawings:

1-wallboard body, 11-sintered plate, 111-through hole, 112-groove, 113-lug, 12-connecting piece, 121-central plate, 122-vertical plate group, 2-anti-seismic connecting piece, 21-fixing plate and 22-fixing clamping piece.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example 1:

the utility model provides a sintered wallboard, as shown in fig. 1-5, includes wallboard body 1, wallboard body 1 includes a plurality of sintering plate group that connect side by side, sintering plate group includes a plurality of sintering plates 11 that connect gradually along same straight line, sintering plate 11 is for having the cuboid structure of a plurality of through-holes 111 along the axial, and is all in the same sintering plate group corresponding through-hole 111 on the sintering plate 11 communicates in proper order and forms a plurality of and runs through the slot hole of sintering plate group, be provided with the connecting piece 12 that can connect two adjacent sintering plates 11 in the slot hole.

In the scheme: open on the sintering plate 11 and have a plurality of settings at the through-hole 111 that corresponds the position, be located the sintering plate 11 of same sintering plate group when splicing, the through-hole 111 end to end connection that sets up on it forms the slot hole that has same axis, is in through the setting connecting piece 12 in the slot hole connects adjacent sintering wallboard, receives a plurality of sintering plates 11 that connecting piece 12 connects connect gradually along same straight line, form banding sintering plate group, and a plurality of sintering plate groups set up side by side and form wallboard body 1. All the sintering plates 11 in the same sintering plate group form a whole through the connecting pieces 12 arranged in the long holes, and the whole bearing capacity of the sintering plate group is improved.

The shape of the through hole 111 of the sintered plate 11 may be cylindrical or rectangular structure as required.

When the through hole 111 of the sintered plate 11 is rectangular, for one or more embodiments, the connecting member 12 includes a central plate 121, a plurality of riser groups 122 capable of being inserted into the through hole 111 are respectively fixed on two side plates of the central plate 121, each of the riser groups 122 includes two side-by-side risers, a width of each of the risers is equal to a width of the through hole 111, and a distance between opposite plates of the two risers is equal to a length of the through hole 111.

In the scheme: the connecting piece 12 comprises a central plate 121 and vertical plates arranged on two sides of the central plate 121, when two sintering plate blocks 11 are connected, the vertical plate groups 122 on two sides of the central plate 121 are respectively inserted into the through holes 111 of the two sintering plate blocks 11, because the widths of the two vertical plates and the distance between the back surfaces of the two vertical plates are respectively equal to the width and the length of the through holes 111, when the connecting piece 12 is used for connecting the sintering plate blocks 11, the two vertical plates are just clamped with the two sintering plate blocks 11, the sintering plate blocks 11 are relatively fixed under the limitation of the vertical plates, the integrity of the sintering plate blocks is improved, meanwhile, the positions of the sintering plate blocks 11 on two sides of the central plate 121 are determined, and the positions of the sintering plate blocks 11 are not required to be adjusted.

The positions of the vertical plate groups 122 on the single-side plate surface of the central plate 121 correspond to the positions of the through holes 111 on the sintering plate 11, the number of the vertical plate groups 122 is set according to requirements, as shown in fig. 3 to 4, the through holes 111 on the sintering plate 11 are three in one row and two in total, the number of the vertical plate groups 122 on the two sides of the central plate 121 is two, as shown in fig. 2, the two connecting members 12 are simultaneously inserted into the through holes 111 on the two rows beside the sintering plate 11, and the connecting strength and stability of the two sintering plates 11 connected by the connecting members 12 are ensured.

The connecting member 12 may also be a common steel bar, the steel bar passes through all the sintered plates 11 in the same sintered plate group through the through holes 111 of the sintered plates 11 at the same time, and the sintered plates 11 are connected in series to form a whole, and the shape of the through holes 111 is not limited at this time.

In order to improve the connection between the connecting member 12 and the adjacent sintered plate 11 and to improve the strength of the wall panel body 1, the through hole 111 is filled with mortar.

In order to ensure that the connecting member 12 does not move in the through hole 111 of the sintered plate 11 to cause connection failure, the length of the central plate 121 is set to be greater than that of the through hole 111, and at this time, the central plate 121 is fixed between the two sintered plates 11, and in order to ensure the connection strength and the appearance, a connection mortar is applied between the sintered plates 11, and the gap between the two sintered plates 11 is filled with the mortar.

For one or more embodiments, the same side of the sintering plate 11, which is attached to another sintering plate group, is provided with a groove 112 having a uniform cross-sectional shape, and the other side is extended with a protrusion 113 adapted to the groove 112, and the groove 112 on the sintering plate group and the protrusion 113 in the adjacent sintering plate group are overlapped with each other.

In this scheme, the same side of the sintering plate 11 in any sintering plate group is provided with a groove 112, and the other side is provided with a groove 112 matched with the projection 113, when any sintering plate group is spliced with another sintering plate group side by side, the projection 113 or the groove 112 on the sintering plate group is lapped with the groove 112 or the projection 113 of another sintering plate group, by this way, the connection between two adjacent sintering plate groups is tight enough, the force applied to a single sintering plate group is transmitted to the adjacent sintering plate group through the mutually lapped groove 112 and projection 113, and then the bearing capacity of the sintering plate group is improved, and the integrity of the sintering wall plate is improved.

Because the sintered wallboard is usually arranged between columns or shear walls and is extruded by the columns or the shear walls, at the moment, the sintered wallboard groups perform inclined movement, further, for one or more embodiments, the cross section of the groove 112 is trapezoidal, the upper bottom surface is a groove bottom, the groove width of the groove 112 is gradually expanded outwards, the cross section of the bump 113 is the same as the cross section of the groove 112 in size and structure, and the top surface is the upper bottom surface, at the moment, the bump 113 can be easily inserted into the groove 112 and spliced, by means of the mode, splicing of adjacent sintered wallboard groups is facilitated, meanwhile, the position between two sintered wallboard groups after splicing is determined to be fixed, and operation is facilitated.

Further, for one or more embodiments, the sintering plate 11 in any one of the sintering plate groups is spliced with the sintering plate 11 in any adjacent sintering plate group in a staggered manner.

In this scheme, two sintering plate 11 that divide to be located two adjacent sintering plate group are the stagger joint concatenation, and arbitrary sintering plate 11 splices with two sintering plate 11 in arbitrary adjacent sintering plate group simultaneously promptly, and lug 113 on arbitrary sintering plate 11 blocks and establishes in the recess 112 of two adjacent sintering plate 11 this moment, through this kind of mode, strengthens the connection between the adjacent sintering plate group, and then improves the wholeness of sintering wallboard.

The length of the staggered joint of the sintering plate blocks 11 is half of the overall length of the sintering plate blocks 11, so that the balance of the connection strength between any sintering plate block 11 and two sintering plate blocks 11 in any adjacent sintering plate block group is ensured.

For one or more embodiments, the wall panel further comprises a plurality of anti-seismic connecting pieces 2, each anti-seismic connecting piece 2 comprises a fixing plate 21 arranged between the wall panel body 1 and the ground or the beam body, each fixing plate 21 can be fixed on the ground or the beam body, and two sides of each fixing plate 21 extend out of the wall panel body 1 and are respectively provided with fixing clamping pieces 22 attached to the plate surfaces on two sides of the wall panel body 1 along the direction perpendicular to the ground or the beam body.

In the scheme: sintering wallboard sets up usually between the roof beam body or floor and ground, for avoiding sintering wallboard to produce and empting, is lieing in the roof beam body of 1 top of wallboard body and the ground of below set up antidetonation connecting piece 2, antidetonation connecting piece 2 passes through fixed plate 21 and ground or roof beam body coupling, and through with on the 1 both sides face of wallboard body is laminated respectively to fixed fastener 22, be used for the restriction the slope of sintering plate group improves the quality of use of sintering wallboard increases the stability between the adjacent sintering plate group simultaneously, improves the wholeness of whole sintering wallboard.

The anti-seismic connecting piece 2 can be arranged on the periphery of the binding surfaces of the two adjacent sintering plate block groups, and the two sintering plate block groups are clamped simultaneously through the fixing clamping pieces 22, so that the stability of the wallboard body 1 is improved, and the connection strength of the sintering plate block groups is also improved.

The fixing plate 21 may be connected to the ground or the beam body by bolts.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. The utility model provides a sintering wallboard, its characterized in that, includes wallboard body (1), wallboard body (1) includes a plurality of sintering plate group that connect side by side, sintering plate group is including a plurality of sintering plate (11) that connect gradually along same straight line, sintering plate (11) are for opening the cuboid structure that has a plurality of through-holes (111) along the axial, all in the same sintering plate group corresponding through-hole (111) on sintering plate (11) communicate in proper order and form a plurality of and run through the slot hole of sintering plate group, be provided with connecting piece (12) that can connect two adjacent sintering plate (11) in the slot hole.

2. A sintered wall panel according to claim 1, wherein the through-holes (111) of the sintered wall panel have a rectangular parallelepiped structure.

3. A sintered wall panel as claimed in claim 2, wherein said connecting member (12) comprises a central plate (121), said central plate (121) having a plurality of riser groups (122) fixed to its two side faces, said riser groups (122) being insertable into said through hole (111), said riser groups (122) comprising two side-by-side risers having a width equal to the width of said through hole (111) and the distance between the opposite faces of said two risers being equal to the length of said through hole (111).

4. A sintered wall panel according to claim 1, wherein said connectors (12) are reinforcing bars capable of being inserted through said set of sintered plates.

5. A sintered wall panel according to any of claims 3 or 4, wherein said through holes (111) are filled with mortar.

6. A sintered wall panel according to claim 1, wherein all the sintered plates (11) have a groove (112) with a uniform cross-sectional shape on the same side to be attached to another sintered plate group, and a protrusion (113) matching with the groove (112) extends from the other side, and the groove (112) of the sintered plate group overlaps with the protrusion (113) of the adjacent sintered plate group.

7. A sintered wall panel according to claim 6 wherein said grooves (112) are trapezoidal in cross-sectional shape with the upper base being the bottom of the groove.

8. A sintered wall panel according to claim 6 wherein the sintered plates (11) of any one of said sets of sintered plates are joined together with the sintered plates (11) of any adjacent set of sintered plates in staggered arrangement.

9. The sintered wallboard according to claim 1, further comprising a plurality of anti-seismic connecting members (2), wherein the anti-seismic connecting members (2) comprise fixing plates (21) arranged between the wallboard body (1) and the ground or the beam body, the fixing plates (21) can be fixed on the ground or the beam body, and fixing fasteners (22) attached to the board surfaces on two sides of the wallboard body (1) are respectively arranged on two sides of each fixing plate (21) and extend out of the wallboard body (1) along a direction perpendicular to the ground or the beam body.

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