CN220747429U - Steel wire net rack - Google Patents

Abstract

The application discloses steel wire mesh frame includes: the device comprises a heat insulation board, a right truss, a left truss, a right net rack, a left net rack, a plurality of connecting rods and a plurality of supporting pieces; a right truss is arranged on the right side of the heat insulation board, and a first right spacing distance is reserved between the right truss and the right side of the heat insulation board; a left truss is arranged on the left side of the heat insulation board, and a first left spacing distance is reserved between the left truss and the left side of the heat insulation board; the right side of the right truss is provided with a right net rack, and the right net rack and the right side of the right truss are provided with a second right interval distance; the left side of the left truss is provided with a left net rack, and the left side of the left net rack and the left side of the left truss are provided with a second left interval distance; each connecting piece penetrates through the heat insulation board, the right end of each connecting piece is connected with the right net rack and the right truss respectively, and the left end of each connecting piece is connected with the left net rack and the left truss respectively; one end of the supporting piece is connected with the right truss or the left truss, and the other end of the supporting piece is connected with the right side of the heat insulation board or the left side of the heat insulation board. The method and the device can improve the structural stability and safety of the poured wall body.

Description

Steel wire net rack

Technical Field

The application relates to the technical field of building construction, in particular to a steel wire net rack.

Background

The rural building is usually a lower-layer building with few layers and low overall height, a large number of rural buildings are built by adopting a mode of adding red brick walls and precast floor slabs or pouring floor slabs, the whole structure is not stable enough, the building process is complicated, more manpower is required for building, the building time is long, and the heat preservation performance of brick walls in living is poor.

In addition, in order to improve the heat insulation performance, it is common to directly install a heat insulation board on the inner side or the outer side of a wall body, but the heat insulation board installed on the inner side or the outer side is liable to cause fire.

Disclosure of Invention

The utility model aims at providing a steel wire mesh frame, it is convenient to build, and can improve the structural stability and the security of the required wall body of pouring.

To achieve the above object, the present application provides a wire rack comprising: the device comprises a heat insulation board, a right truss, a left truss, a right net rack, a left net rack, a plurality of connecting rods and a plurality of supporting pieces; a right truss is arranged on the right side of the heat insulation plate, and a first right spacing distance is reserved between the right truss and the right side of the heat insulation plate; the left side of the heat preservation plate is provided with a left truss, and the left truss and the left side of the heat preservation plate are provided with a first left interval distance; the right side of the right truss is provided with a right net rack, and the right net rack and the right side of the right truss are provided with a second right interval distance; the left side of the left truss is provided with a left net rack, and the left net rack and the left side of the left truss are provided with a second left interval distance; each connecting piece penetrates through the heat insulation board, the right end of each connecting piece is connected with the right net rack and the right truss respectively, and the left end of each connecting piece is connected with the left net rack and the left truss respectively; one end of the supporting piece is connected with the right truss or the left truss, and the other end of the supporting piece is connected with the right side of the heat insulation board or the left side of the heat insulation board.

As above, wherein the left truss includes at least: a plurality of left cross members and a plurality of left side members; the left cross beams are uniformly arranged at intervals in the longitudinal direction, the left longitudinal beams are uniformly arranged at intervals in the transverse direction, and each left cross beam is perpendicular to the left longitudinal beams.

As above, wherein the right truss includes at least: a plurality of right cross members and a plurality of right side rails; the right cross beams are uniformly arranged at intervals in the longitudinal direction, the right longitudinal beams are uniformly arranged at intervals in the transverse direction, and each right cross beam is perpendicular to the right longitudinal beams.

As above, wherein the support comprises at least: the device comprises a first connecting plate, a first material leakage plate, a second connecting plate, a second material leakage plate and a fixed plate; the bottom end of the first connecting plate is connected with the front end of the fixed plate, the left end of the first connecting plate is connected with the front end of the first material leakage plate, and the right end of the first connecting plate is connected with the front end of the second material leakage plate; the bottom end of the second connecting plate is connected with the rear end of the fixed plate, the left end of the second connecting plate is connected with the rear end of the first material leakage plate, and the right end of the second connecting plate is connected with the rear end of the second material leakage plate; the bottom end of the first material leakage plate is connected with the left end of the fixed plate, and the bottom end of the second material leakage plate is connected with the right end of the fixed plate; the first connecting plate is provided with a first connecting groove, the second connecting plate is provided with a second connecting groove, the shape of the first connecting groove is the same as that of the second connecting groove, and the first connecting groove and the second connecting groove are mutually aligned; the fixing plate is provided with a third connecting groove, one end of the third connecting groove is communicated with one end of the first connecting groove, and the other end of the third connecting groove is communicated with one end of the second connecting groove; one end of the supporting piece is clamped with the right truss or the left truss through the first connecting groove, the second connecting groove and the third connecting groove; a plurality of connecting nails are arranged on one side of the fixed plate, which is far away from the first connecting plate, the first material leakage plate, the second connecting plate and the second material leakage plate; the other end of the supporting piece is connected with the left side of the heat insulation board or the right side of the heat insulation board through a plurality of connecting nails; the first material leakage plate is provided with a first material leakage hole, the second material leakage plate is provided with a second material leakage hole, the shape of the first material leakage hole is the same as that of the second material leakage hole, and the first material leakage hole and the second material leakage hole are mutually aligned.

As above, wherein the first connection groove and the second connection groove each include: long longitudinal grooves, transverse grooves and short longitudinal grooves; one end of the long longitudinal groove is communicated with the third connecting groove, the other end of the long longitudinal groove is communicated with one end of the transverse groove, the other end of the transverse groove is communicated with one end of the short longitudinal groove, and after the long longitudinal groove, the transverse groove and the short longitudinal groove are communicated, an L-shaped connecting groove is formed; when the device is used, the left beam or the right beam is clamped at the other end of the short longitudinal groove after sequentially passing through the third connecting groove, the long longitudinal grooves of the first connecting groove and the second connecting groove, the transverse grooves of the first connecting groove and the second connecting groove and the short longitudinal grooves of the first connecting groove and the second connecting groove, and the second material leakage plate close to one side of the long longitudinal beam faces towards the foundation after being clamped; the connecting nails are inserted into the left side of the heat insulation board or the right side of the heat insulation board.

As above, the first and second weep holes are all arched.

As above, wherein the connecting nails are four, four connecting nails are evenly spaced and arranged on one side of the fixed plate far away from the first connecting plate, the first material leakage plate, the second connecting plate and the second material leakage plate.

As above, wherein the insulation board is EPS or GEPS.

As above, the right net frame is a fish scale net, and the left net frame is a fish scale net.

As above, wherein the first right separation distance is equal to the first left separation distance; the second right separation distance is equal to the second left separation distance.

The steel wire net rack is convenient to construct, and the structural stability and safety of a poured required wall body can be improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following description will briefly introduce the drawings that are required to be used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings may also be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of one embodiment of a wire rack;

FIG. 2 is a schematic diagram of an embodiment of a left truss;

FIG. 3 is a perspective view of one embodiment of a support;

fig. 4 is a front view of an embodiment of a support.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-4, the present application provides a wire mesh frame comprising: the heat preservation board 1, the right truss 2, the left truss 3, the right net rack 4, the left net rack 5, a plurality of connecting rods 6 and a plurality of supporting pieces 7. The right side of the heat insulation board 1 is provided with a right truss 2, and the right truss 2 and the right side of the heat insulation board 1 are provided with a first right interval distance; the left side of heated board 1 is provided with left truss 3, and left truss 3 has first left interval distance with the left side of heated board 1. The right side of the right truss 2 is provided with a right net rack 4, and the right net rack 4 and the right side of the right truss 2 are provided with a second right interval distance; the left side of left truss 3 is provided with left rack 5, and left rack 5 has the left side of second left interval distance with left truss 3. Each connecting piece 6 penetrates through the heat insulation board 1, the right end of each connecting piece 6 is connected with the right net rack 4 and the right truss 2 respectively, and the left end of each connecting piece 6 is connected with the left net rack 5 and the left truss 3 respectively. One end of the supporting piece 7 is connected with the right truss 2 or the left truss 3, and the other end of the supporting piece 7 is connected with the right side of the heat insulation board 1 or the left side of the heat insulation board 1.

Specifically, after the steel wire mesh frame is arranged on the foundation, cement needs to be poured into the steel wire mesh frame, after cement pouring is completed, one side of a required wall body is formed by plastering cement on the left side of the left mesh frame 5, and the other side of the required wall body is formed by plastering cement on the right side of the right mesh frame 4. The heat-insulating board 1 is arranged in the required wall body, so that the condition of fire is difficult to occur, and the safety of the required wall body is improved under the condition of ensuring the heat-insulating effect of the required wall body.

Further, the first right spacing distance is equal to or unequal to the first left spacing distance, and the first right spacing distance is preferably equal to the first left spacing distance.

Further, the second right spacing distance is equal to or unequal to the second left spacing distance, and the second right spacing distance is preferably equal to the second left spacing distance.

Further, the connecting member 6 is a metal rod, but is not limited to a metal rod, and is preferably a metal rod in the present application.

Further, the connection member 6 is welded to the left truss 3 or the right truss 2, but is not limited to welding, and is preferably welding in this application.

Further, the connecting member 6 is welded to the right net frame 4 or the left net frame 5, but not limited to welding, and is preferably welding in this application.

Further, as an embodiment, the connecting pieces 6 are obliquely penetrated through the insulation board 1, the right end of each connecting piece 6 is respectively connected with the right net rack 4 and the right truss 2, the left end of each connecting piece 6 is respectively connected with the left net rack 5 and the left truss 3, and after connection, an inclination angle is formed between the connecting piece 6 and the foundation, so that connection stability is improved.

Further, the inclination direction of each connecting member 6 may be the same or different, and is preferably different in this application.

Further, the inclination angle of each connecting member 6 may be the same or different, and is preferably different in this application.

Further, as another embodiment, the connecting pieces 6 are parallel to penetrate through the insulation board 1, the right end of each connecting piece 6 is connected with the right net rack 4 and the right truss 2 respectively, the left end of each connecting piece 6 is connected with the left net rack 5 and the left truss 3 respectively, and after connection, the connecting pieces 6 are parallel to the foundation.

Specifically, the specific number of the connecting pieces 6 depends on the actual situation.

Further, as shown in fig. 2, the left truss 3 includes at least: a plurality of left cross members 31 and a plurality of left side members 32; the plurality of left cross members 31 are arranged at regular intervals in the longitudinal direction, the plurality of left side members 32 are arranged at regular intervals in the transverse direction, respectively, and each left cross member 31 is perpendicular to the plurality of left side members 32, respectively.

Specifically, the plurality of left cross members 31 are arranged at intervals in the longitudinal direction, and the interval distance between the adjacent left cross members 31 may be equal or unequal, and the application is preferably equal. The plurality of left side members 32 are arranged at intervals in the lateral direction, and the interval distance between the adjacent left side members 32 may be equal or unequal, and in this application, the interval distance is preferably equal.

Further, the right truss 2 includes at least: a plurality of right cross members and a plurality of right side rails; the right cross beams are uniformly arranged at intervals in the longitudinal direction, the right longitudinal beams are uniformly arranged at intervals in the transverse direction, and each right cross beam is perpendicular to the right longitudinal beams.

Specifically, the plurality of right cross beams are arranged at intervals in the longitudinal direction, and the interval distances between the adjacent right cross beams can be equal or unequal, and the right cross beams are preferably equal. The right longitudinal beams are arranged at intervals in the transverse direction respectively, and the interval distances between the adjacent right longitudinal beams can be equal or unequal, and the right longitudinal beams are preferably equal.

Further, as shown in fig. 3 to 4, the support 7 comprises at least: a first connection plate 71, a first leakage plate 72, a second connection plate 73, a second leakage plate 74 and a fixing plate 75. The bottom end of the first connecting plate 71 is connected with the front end of the fixed plate 75, the left end of the first connecting plate 71 is connected with the front end of the first material leakage plate 72, and the right end of the first connecting plate 71 is connected with the front end of the second material leakage plate 74; the bottom end of the second connecting plate 73 is connected with the rear end of the fixed plate 75, the left end of the second connecting plate 73 is connected with the rear end of the first material leakage plate 72, and the right end of the second connecting plate 73 is connected with the rear end of the second material leakage plate 74; the bottom end of the first discharge plate 72 is connected to the left end of the fixed plate 75, and the bottom end of the second discharge plate 74 is connected to the right end of the fixed plate. The first connection plate 71 is provided with a first connection groove 711, the second connection plate 73 is provided with a second connection groove 731, the shape of the first connection groove 711 is the same as that of the second connection groove 731, and the first connection groove 711 and the second connection groove 731 are mutually aligned; the fixing plate 75 is provided with a third connection groove 751, one end of the third connection groove 751 is communicated with one end of the first connection groove 711, and the other end of the third connection groove 751 is communicated with one end of the second connection groove 731; one end of the supporting member 7 is engaged with the right truss 2 or the left truss 3 through the first connection groove 711, the second connection groove 731, and the third connection groove 751. The side of the fixing plate 75 away from the first connection plate 71, the first leakage plate 72, the second connection plate 73 and the second leakage plate 74 is provided with a plurality of connection nails 752; the other end of the support 7 is connected to the left side of the thermal insulation board 1 or the right side of the thermal insulation board 1 by a plurality of connection nails 752. The first material leakage plate 72 is provided with a first material leakage hole 721, the second material leakage plate 74 is provided with a second material leakage hole 741, the shape of the first material leakage hole 721 is the same as that of the second material leakage hole 741, and the first material leakage hole 721 and the second material leakage hole 741 are mutually aligned.

Specifically, the shape of the first leakage hole 721 and the shape of the second leakage hole 741 may be the same or different, and are preferably the same in this application. By arranging the support piece 7 to fix the position of the heat insulation board 1, the heat insulation board 1 is stably positioned in the middle of a required wall body and cannot move due to external force. The specific number of the supporting members 7 depends on the actual situation.

Further, the support 7 is of a unitary or split construction, preferably of a unitary construction.

Further, the support 7 is made of plastic, but is not limited to plastic, and is preferably plastic in this application.

Further, the first connection groove 711 and the second connection groove 731 each include: long longitudinal grooves 7111, transverse grooves 7112 and short longitudinal grooves 7113; one end of the long vertical groove 7111 is communicated with the third connecting groove 751, the other end of the long vertical groove 7111 is communicated with one end of the transverse groove 7112, the other end of the transverse groove 7112 is communicated with one end of the short vertical groove 7113, and after the long vertical groove 7111, the transverse groove 7112 and the short vertical groove 7113 form an L-shaped connecting groove; when in use, the left beam 31 or the right beam passes through the third connecting groove 751, the long longitudinal groove 7111 of the first connecting groove 711 and the second connecting groove 731, the transverse groove 7112 of the first connecting groove 711 and the second connecting groove 731, and the short longitudinal groove 7113 of the first connecting groove 711 and the second connecting groove 731 in sequence, then the left beam 31 or the right beam is clamped at the other end of the short longitudinal groove 7113, and after being clamped, the second material leakage plate 74 close to one side of the long longitudinal beam 7111 faces to the foundation; a plurality of connecting nails 752 are inserted into the left side of the thermal insulation board 1 or the right side of the thermal insulation board 1.

Specifically, the first connecting groove 711 and the second connecting groove 731 are set to be L-shaped connecting grooves, so that the left beam 31 or the right beam is clamped conveniently, and after the clamping is completed, the left beam 31 or the right beam is not easy to displace, namely: is convenient for connection and is stable in connection.

Further, the first material leakage holes 721 and the second material leakage holes 741 are all arched, but not limited to the arches, and the arch is preferred in the application, so that the bearing capacity of the supporting piece 7 can be improved and the blocking of the supporting piece 7 to the poured cement can be avoided when the cement is poured, and the required wall body pouring can be ensured to be complete.

Further, the number of the connecting nails 752 is four, and the four connecting nails 752 are uniformly arranged on one side of the fixing plate 75 away from the first connecting plate 71, the first material leakage plate 72, the second connecting plate 73 and the second material leakage plate 74 at intervals.

Specifically, the number of the connecting nails 752 is preferably four according to the actual situation.

Further, the connecting pin 752 is conical, but not limited to conical, and is preferably conical in shape for ease of insertion.

Further, the heat-insulating board 1 is EPS (polystyrene foam) or GEPS (graphite polystyrene), but is not limited to EPS or GEPS, and the present application is preferably EPS or GEPS.

Further, as an example, the right net frame 4 is a fish scale net, but not limited to a fish scale net, and the present application is preferably a fish scale net, and is used for preventing cement leakage when cement is poured.

Further, as another embodiment, the right net frame 4 is a steel window sand net, but not limited to a steel window sand net, and is used for preventing cement leakage when cement is poured.

Further, as still another embodiment, the right net frame 4 is a steel wire mesh, but not limited to a steel wire mesh, for preventing cement leakage when cement is poured.

Further, as an example, the left net frame 5 is a fish scale net, but not limited to the fish scale net, and the present application is preferably a fish scale net, and is used for preventing cement leakage when cement is poured.

Further, as another embodiment, the left net frame 5 is a steel window sand net, but not limited to a steel window sand net, and is used for preventing cement leakage when cement is poured.

Further, as still another embodiment, the left net frame 5 is a steel net, but not limited to a steel net, for preventing cement leakage when cement is poured.

The steel wire net rack is convenient to construct, and the structural stability and safety of a poured required wall body can be improved.

While preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the scope of the present application be interpreted as including the preferred embodiments and all alterations and modifications that fall within the scope of the present application. It will be apparent to those skilled in the art that various modifications and variations can be made in the present application without departing from the spirit or scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the protection of the present application and the equivalents thereof, the present application is intended to cover such modifications and variations.

Claims (10)

1. A wire mesh frame, comprising: the device comprises a heat insulation board, a right truss, a left truss, a right net rack, a left net rack, a plurality of connecting rods and a plurality of supporting pieces;

a right truss is arranged on the right side of the heat insulation plate, and a first right spacing distance is reserved between the right truss and the right side of the heat insulation plate; the left side of the heat preservation plate is provided with a left truss, and the left truss and the left side of the heat preservation plate are provided with a first left interval distance;

the right side of the right truss is provided with a right net rack, and the right net rack and the right side of the right truss are provided with a second right interval distance; the left side of the left truss is provided with a left net rack, and the left net rack and the left side of the left truss are provided with a second left interval distance;

each connecting piece penetrates through the heat insulation board, the right end of each connecting piece is connected with the right net rack and the right truss respectively, and the left end of each connecting piece is connected with the left net rack and the left truss respectively;

one end of the supporting piece is connected with the right truss or the left truss, and the other end of the supporting piece is connected with the right side of the heat insulation board or the left side of the heat insulation board.

2. The wire mesh frame of claim 1, wherein the left truss comprises at least: a plurality of left cross members and a plurality of left side members; the left cross beams are uniformly arranged at intervals in the longitudinal direction, the left longitudinal beams are uniformly arranged at intervals in the transverse direction, and each left cross beam is perpendicular to the left longitudinal beams.

3. The wire mesh frame of claim 2, wherein the right truss comprises at least: a plurality of right cross members and a plurality of right side rails; the right cross beams are uniformly arranged at intervals in the longitudinal direction, the right longitudinal beams are uniformly arranged at intervals in the transverse direction, and each right cross beam is perpendicular to the right longitudinal beams.

4. A wire rack according to claim 3, wherein the support comprises at least: the device comprises a first connecting plate, a first material leakage plate, a second connecting plate, a second material leakage plate and a fixed plate;

the bottom end of the first connecting plate is connected with the front end of the fixed plate, the left end of the first connecting plate is connected with the front end of the first material leakage plate, and the right end of the first connecting plate is connected with the front end of the second material leakage plate;

the bottom end of the second connecting plate is connected with the rear end of the fixed plate, the left end of the second connecting plate is connected with the rear end of the first material leakage plate, and the right end of the second connecting plate is connected with the rear end of the second material leakage plate;

the bottom end of the first material leakage plate is connected with the left end of the fixed plate, and the bottom end of the second material leakage plate is connected with the right end of the fixed plate;

the first connecting plate is provided with a first connecting groove, the second connecting plate is provided with a second connecting groove, the shape of the first connecting groove is the same as that of the second connecting groove, and the first connecting groove and the second connecting groove are mutually aligned; the fixing plate is provided with a third connecting groove, one end of the third connecting groove is communicated with one end of the first connecting groove, and the other end of the third connecting groove is communicated with one end of the second connecting groove; one end of the supporting piece is clamped with the right truss or the left truss through the first connecting groove, the second connecting groove and the third connecting groove;

a plurality of connecting nails are arranged on one side of the fixed plate, which is far away from the first connecting plate, the first material leakage plate, the second connecting plate and the second material leakage plate; the other end of the supporting piece is connected with the left side of the heat insulation board or the right side of the heat insulation board through a plurality of connecting nails;

the first material leakage plate is provided with a first material leakage hole, the second material leakage plate is provided with a second material leakage hole, the shape of the first material leakage hole is the same as that of the second material leakage hole, and the first material leakage hole and the second material leakage hole are mutually aligned.

5. The wire rack of claim 4, wherein the first and second attachment slots each comprise: long longitudinal grooves, transverse grooves and short longitudinal grooves;

one end of the long longitudinal groove is communicated with the third connecting groove, the other end of the long longitudinal groove is communicated with one end of the transverse groove, the other end of the transverse groove is communicated with one end of the short longitudinal groove, and after the long longitudinal groove, the transverse groove and the short longitudinal groove are communicated, an L-shaped connecting groove is formed;

when the device is used, the left beam or the right beam is clamped at the other end of the short longitudinal groove after sequentially passing through the third connecting groove, the long longitudinal grooves of the first connecting groove and the second connecting groove, the transverse grooves of the first connecting groove and the second connecting groove and the short longitudinal grooves of the first connecting groove and the second connecting groove, and the second material leakage plate close to one side of the long longitudinal beam faces towards the foundation after being clamped; the connecting nails are inserted into the left side of the heat insulation board or the right side of the heat insulation board.

6. The wire mesh frame of claim 5, wherein the first weep hole and the second weep hole are each arcuate.

7. The wire mesh frame of claim 6, wherein the number of connecting nails is four, and the four connecting nails are uniformly spaced on a side of the fixed plate away from the first connecting plate, the first material leakage plate, the second connecting plate and the second material leakage plate.

8. The wire rack of claim 7, wherein the insulation board is EPS or GEPS.

9. The wire mesh frame of claim 8, wherein the right mesh frame is a fish scale mesh and the left mesh frame is a fish scale mesh.

10. The wire rack of claim 9, wherein the first right separation distance is equal to the first left separation distance; the second right separation distance is equal to the second left separation distance.