CN219509170U - Supporting structure capable of preventing top plate from deforming and serving as bottom die - Google Patents

Abstract

The utility model discloses a supporting structure capable of preventing a top plate from deforming and serving as a bottom die, which comprises a supporting substrate assembly, a supporting piece and a supporting upper plate, wherein the supporting substrate assembly is connected between a wall body and the top plate, the supporting piece is detachably connected to the supporting substrate assembly, and the supporting upper plate is connected to the supporting substrate assembly and the top of the supporting piece. The utility model is beneficial to ensuring the bottom support and installation of the support piece through the arrangement of the support substrate assembly, and saves the time of temporary support on the other hand; through the arrangement of the supporting pieces, the deformation of the top plate is prevented through vertical densely distributed supporting, and the two sides of the supporting pieces are fixed through the supporting side clamping plates, so that the lateral stress can be effectively resisted; through the setting of supporting the upper plate, do benefit to the even atress of guaranteeing top support roof and can also be as pouring die block or die block backup pad, do benefit to the construction of pouring of roof.

Description

Supporting structure capable of preventing top plate from deforming and serving as bottom die

Technical Field

The utility model belongs to the technical field of top plate supporting structures, and particularly relates to a supporting structure which can prevent a top plate from deforming and also serves as a bottom die.

Background

With the rapid development of reinforced concrete buildings, the concrete wallboard industry is also vigorously developed. When cast-in-situ construction is adopted, a template is required to be arranged at the joint of the top of the wall body and the top plate, and when the length of the top plate is too long, a temporary support is required to be additionally arranged. The existing roof construction adopts a full scaffold to support or temporarily support the templates, so that not only is space occupied, but also working hours are wasted. How to ensure the casting of the cast-in-situ roof, and simultaneously save space, and the space is saved, and the specific design is needed.

Disclosure of Invention

The utility model provides a supporting structure for preventing a top plate from deforming and serving as a bottom die, which is used for solving the technical problems of temporary support at a long top plate, space saving, installation of the bottom die and the like.

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

a supporting structure for preventing a top plate from deforming and serving as a bottom die comprises a supporting substrate assembly, a supporting piece and a supporting upper plate, wherein the supporting substrate assembly is connected between a wall body and the top plate;

the support substrate assembly and the support upper plate are arranged at intervals in the width direction of the top plate;

the support substrate assembly comprises a support main bottom plate, a support connecting plate connected between the bottom of the support main bottom plate and a wall body, a support vertical bearing plate connected to the top of the support main bottom plate, a support side clamping plate connected to the long upward direction of the support main bottom plate, and support connecting shafts connected to two ends of the bottom of the support side clamping plate; the supporting side clamping plates are clamped with the supporting pieces;

the support upper plate comprises a support main plate, support wall side plates connected to the middle of the support main plate and arranged corresponding to two sides of the wall body, support division plates arranged on the long direction of the support main plate and support angle plates connected to two long direction ends of the support main plate;

the support division plates are connected with the support piece in a clamping mode, and the lower portions of the support angle plates are in compression joint with the support vertical support plates.

Furthermore, the wall body and the top plate are arranged in a T shape, and the length of one side of the top plate is more than 3 times of the height; the top plate is of a cast-in-situ reinforced concrete structure.

Further, the supporting piece is a plate body, and the plate body is arranged in a through length manner within the width range of the top plate; the support piece is the body of rod, and bracing piece cross section adaptation top and bottom connect and the interval sets up in roof width within range.

Further, the supporting main bottom plate is an L-shaped piece, wherein the transverse part is obliquely arranged, the vertical part is vertically arranged, and the angle between the transverse part and the vertical part is adapted to the length of the supporting upper plate to be supported.

Further, the supporting connecting plate is a rectangular steel plate, and the rectangular steel plate is fixedly connected with a supporting embedded rod embedded with the wall body; the support embedded rod is fixedly connected with the steel bars and/or the concrete in the wall body.

Further, the supporting vertical bearing plate is a cube or a cuboid block, a groove is formed in the bottom of the supporting vertical bearing plate, and the groove is correspondingly inserted into the top of the supporting main bottom plate; the top of the supporting vertical bearing plate is horizontally provided with a supporting upper plate.

Further, the inner sides of the supporting side clamping plates are provided with rough surfaces, and the supporting side clamping plates are arranged corresponding to the supporting pieces one by one; the outer side of the supporting side clamping plate is also provided with a supporting connecting shaft, and the supporting connecting shaft is a protruding rod piece; and a support reinforcing plate is detachably connected between the adjacent support connecting shafts.

Further, the width of the supporting main board is adapted to the width of the top plate, the supporting main board is a strip-shaped board, and the upper part of the strip-shaped board is connected with a bottom die to be poured of the supporting main board; or the support main board is a panel, and the panel is arranged corresponding to the support main board to be poured.

Furthermore, the supporting wall side plates are a group of parallel vertical plates, and the supporting wall side plates are arranged corresponding to the wall body beam body and are also provided with sealing plates at the end parts.

Further, the support main plates are provided with support division plates at intervals in the long direction, and gaps between the support division plates are arranged corresponding to the support pieces; and supporting angle plates are detachably arranged at the two ends of the supporting main plate, are angle steel pieces, and are fixedly connected with the corresponding supporting vertical bearing plates.

The beneficial effects of the utility model are as follows:

1) The utility model is beneficial to ensuring the bottom support and installation of the support piece through the arrangement of the support substrate assembly, and saves the time of temporary support on the other hand;

2) According to the utility model, through the arrangement of the supporting pieces, the deformation of the top plate is prevented by vertical dense supporting, and the two sides of the supporting pieces are fixed by the supporting side clamping plates, so that the lateral stress can be effectively resisted;

3) The support upper plate is arranged, so that uniform stress of the top support top plate is guaranteed, the support upper plate can be used as a pouring bottom die or a bottom die support plate, and pouring construction of the top plate is facilitated.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model; the primary object and other advantages of the utility model may be realized and attained by means of the instrumentalities and particularly pointed out in the specification.

Drawings

FIG. 1 is a schematic view of a support structure for preventing deformation of a top plate and serving as a bottom die;

FIG. 2 is a schematic view of a support substrate assembly;

FIG. 3 is a schematic diagram of a support substrate assembly coupled to a support;

fig. 4 is a schematic view of a supporting top plate structure.

Reference numerals: 1-wall body, 2-roof, 3-supporting base plate subassembly, 31-supporting main bottom plate, 32-supporting link plate, 33-supporting vertical bearing plate, 34-supporting side clamping plate, 35-supporting link shaft, 36-supporting reinforcing plate, 37-supporting embedded rod, 4-supporting piece, 5-supporting upper plate, 51-supporting main plate, 52-supporting wall side plate, 53-supporting grid plate and 54-supporting angle plate.

Detailed Description

Taking a certain reinforced concrete building construction as an example, in order to ensure the construction of the wall body and the top plate of the top of the wall body, the deformation exceeding the top plate is prevented, and the construction is performed through the supporting structure which prevents the top plate from deforming and also serves as a bottom die. As shown in fig. 1 to 4, the support structure includes a support base assembly 3 connected between a wall body 1 and a top plate 2, a support 4 detachably connected to the support base assembly 3, and a support upper plate 5 connected to the support base assembly 3 and the top of the support 4.

Wherein the wall body 1 and the top plate 2 are arranged in a T shape, and the length of one side of the top plate 2 is more than 3 times of the height; the top plate 2 is a cast-in-situ reinforced concrete structure.

In the present embodiment, the support substrate assembly 3 and the support upper plate 5 are arranged at intervals in the width direction of the top plate 2; the supporting base plate assembly 3 comprises a supporting main base plate 31, a supporting connecting plate 32 connected between the bottom of the supporting main base plate 31 and the wall body 1, a supporting vertical bearing plate 33 connected to the top of the supporting main base plate 31, a supporting side clamping plate 34 connected to the long upward direction of the supporting main base plate 31, and supporting connecting shafts 35 connected to two ends of the bottom of the supporting side clamping plate 34; the supporting pieces 4 are clamped between the supporting side clamping plates 34. The supporting main bottom plate 31, the supporting connecting plate 32, the supporting vertical bearing plate 33, the supporting side clamping plate 34, the supporting connecting shaft 35 and the supporting reinforcing plate 36 are all manufactured by steel pieces and are manufactured by welding connection through steel plates or section steel.

In this embodiment, the supporting upper plate 5 comprises a supporting main plate 51, supporting wall side plates 52 connected to the middle of the supporting main plate 51 and disposed corresponding to two sides of the wall 1, supporting grid plates 53 disposed on the supporting main plate 51 in the longitudinal direction, and supporting corner plates 54 connected to two ends of the supporting main plate 51 in the longitudinal direction; the supporting division plates 53 are connected with the supporting pieces 4 in a clamping way, and the lower parts of the supporting angle plates 54 are pressed and connected with the supporting vertical bearing plates 33.

In this embodiment, the supporting member 4 is a plate body, and the plate body is arranged in a through length within the width range of the top plate 2; the support 4 is a steel rod body, and the cross section of the support rod is adapted to the connection between the top and the bottom and is arranged at intervals within the width range of the top plate 2.

In this embodiment, the supporting main bottom plate 31 is an L-shaped member, the supporting main bottom plate 31 is a steel plate or a wooden plate, and the top surface is disposed on the demolding layer. The transverse part of the supporting main bottom plate 31 is obliquely arranged, the vertical part is vertically arranged, and the angle between the transverse part and the vertical part is adapted to the length of the supporting upper plate 5 to be supported. The supporting connecting plate 32 is a rectangular steel plate which is fixedly connected with a supporting embedded rod 37 embedded with the wall body 1; the supporting embedded bars 37 are fixedly connected with the steel bars and/or the concrete in the wall body 1. The supporting vertical bearing plate 33 is a cube or a cuboid block, the bottom of the supporting vertical bearing plate 33 is provided with a groove, and the groove is correspondingly inserted and connected with the top of the supporting main bottom plate 31; the top of the supporting vertical bearing plate 33 is horizontally provided with a supporting upper plate 5. The supporting embedded rod 37 is made of a screw.

In the embodiment, the supporting side clamping plates 34 are steel plates, the inner sides of the supporting side clamping plates 34 are rough surfaces, and the supporting side clamping plates 34 are arranged corresponding to the supporting pieces 4 one by one; the outer side of the supporting side clamping plate 34 is also provided with a supporting connecting shaft 35, and the supporting connecting shaft 35 is a protruding rod piece; a support reinforcing plate 36 is detachably connected between the adjacent support connecting shafts 35.

In the embodiment, the width of the supporting main board 51 is adapted to the width of the top plate 2, the supporting main board 51 is a strip-shaped board, and the upper part of the strip-shaped board is connected with a bottom die for pouring the supporting main board 51; or the supporting main board 51 is a panel, and the panel is arranged corresponding to the supporting main board 51 to be poured. The supporting wall side plates 52 are a group of parallel vertical plates, and the supporting wall side plates 52 are arranged corresponding to the beam body of the wall body 1 and are also provided with sealing plates at the end parts. The support main plate 51 is provided with support division plates 53 at intervals in the long direction, and gaps between the support division plates 53 are provided corresponding to the support pieces 4; support angle plates 54 are detachably mounted at two ends of the support main plate 51, and the support angle plates 54 are angle steel members which are fixedly connected with the support vertical bearing plates 33 correspondingly.

The foregoing is merely illustrative of preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any changes or substitutions that would occur to those skilled in the art within the scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. The supporting structure for preventing the top plate from deforming and serving as the bottom die is characterized by comprising a supporting substrate assembly (3) connected between a wall body (1) and the top plate (2), a supporting piece (4) detachably connected to the supporting substrate assembly (3) and a supporting upper plate (5) connected to the tops of the supporting substrate assembly (3) and the supporting piece (4);

the supporting substrate assembly (3) and the supporting upper plate (5) are arranged at intervals in the width direction of the top plate (2);

the support substrate assembly (3) comprises a support main bottom plate (31), a support connecting plate (32) connected between the bottom of the support main bottom plate (31) and the wall body (1), a support vertical bearing plate (33) connected to the top of the support main bottom plate (31), a support side clamping plate (34) connected to the long upward direction of the support main bottom plate (31), and support connecting shafts (35) connected to two ends of the bottom of the support side clamping plate (34); the supporting side clamping plates (34) are clamped with the supporting pieces (4);

the upper supporting plate (5) comprises a main supporting plate (51), supporting wall side plates (52) connected to the middle of the main supporting plate (51) and arranged corresponding to two sides of the wall body (1), supporting grid plates (53) arranged on the main supporting plate (51) in the long direction and supporting corner plates (54) connected to two ends of the main supporting plate (51) in the long direction;

the supporting grid plates (53) are connected with the supporting pieces (4) in a clamping mode, and the vertical supporting plates (33) are pressed and connected below the supporting angle plates (54).

2. The supporting structure for preventing deformation of the top plate and serving as the bottom die as claimed in claim 1, wherein the wall body (1) and the top plate (2) are arranged in a T shape, and the length of one side of the top plate (2) is more than 3 times of the height; the top plate (2) is of a cast-in-situ reinforced concrete structure.

3. A supporting structure for preventing deformation of top plate and serving as bottom die as claimed in claim 2, wherein the supporting member (4) is a plate body which is arranged in a through length within the width range of the top plate (2); the supporting piece (4) is a rod body, and the cross section of the supporting rod

Is adapted to the connection of the top and the bottom and is arranged at intervals within the width of the top plate (2).

4. A supporting structure for preventing deformation of a top plate and serving as a bottom mold as claimed in claim 3, wherein the supporting main bottom plate (31) is an L-shaped member in which a lateral portion is provided obliquely and a vertical portion is provided vertically, and an angle between the lateral portion and the vertical portion is adapted to a length of the supporting upper plate (5) to be supported.

5. The supporting structure for preventing deformation of the top plate and serving as the bottom die as claimed in claim 4, wherein the supporting connecting plate (32) is a rectangular steel plate fixedly connected with a supporting embedded rod (37) embedded with the wall body (1); the supporting embedded rod (37) is fixedly connected with the steel bars and/or the concrete in the wall body (1).

6. The supporting structure for preventing deformation of top plate and serving as bottom die according to claim 5, wherein the supporting vertical supporting plate (33) is a cube or a cuboid block, the bottom of the supporting vertical supporting plate (33) is provided with a groove, and the groove is correspondingly inserted and connected with the top of the supporting main bottom plate (31); the top of the supporting vertical bearing plate (33) is horizontally provided with a supporting upper plate (5).

7. The supporting structure for preventing deformation of top plate and serving as bottom die as claimed in claim 6, wherein the inner sides of the supporting side clamping plates (34) are provided with rough surfaces, and the supporting side clamping plates (34) are arranged one by one corresponding to the supporting pieces (4); the outer side of the supporting side clamping plate (34) is also provided with a supporting connecting shaft (35), and the supporting connecting shaft (35) is a protruding rod piece; and a support reinforcing plate (36) is detachably connected between the adjacent support connecting shafts (35).

8. The supporting structure for preventing deformation of the top plate and serving as the bottom die as claimed in claim 4, wherein the width of the supporting main plate (51) is adapted to the width of the top plate (2), the supporting main plate (51) is a strip-shaped plate, and the upper part of the strip-shaped plate is connected with the bottom die to be poured of the supporting main plate (51); or the supporting main board (51) is a panel, and the panel is arranged corresponding to the supporting main board (51) to be poured.

9. The supporting structure for preventing deformation of top plate and serving as bottom die as claimed in claim 8, wherein the supporting wall side plates (52) are a set of parallel vertical plates, and the supporting wall side plates (52) are arranged corresponding to the beam body of the wall body (1) and are further provided with sealing plates at the end parts.

10. The supporting structure for preventing deformation of the top plate and serving as the bottom die according to claim 9, wherein the supporting main plates (51) are provided with supporting dividing plates (53) at intervals in the longitudinal direction, and gaps between the supporting dividing plates (53) are provided corresponding to the supporting members (4); and supporting angle plates (54) are detachably arranged at two ends of the supporting main plate (51), the supporting angle plates (54) are angle steel members, and the angle steel members are fixedly connected with the supporting vertical bearing plates (33) correspondingly.