CN220373507U - Assembled building concrete mould - Google Patents

Abstract

The utility model relates to the technical field of civil engineering equipment, in particular to an assembled building concrete mold, which comprises a template assembly and a reinforcing assembly, wherein the template assembly comprises a plurality of templates which are connected with each other, a concrete pouring space is formed by surrounding the templates, the reinforcing assembly comprises a plurality of reinforcing plates which are arranged on the periphery of the template assembly, each reinforcing plate is positioned at the joint of two templates, each reinforcing plate is simultaneously connected with the two templates, a weight reduction groove is formed in each reinforcing plate, and reinforcing ribs are arranged in the weight reduction groove. The reinforcing plate sets up in the periphery of template subassembly, can improve the structural strength of template subassembly, guarantees the stability of template subassembly. The weight reduction groove is formed in the reinforcing plate, so that the overall weight of the reinforcing plate can be reduced. The reinforcing ribs are arranged on the inner wall of the weight reduction groove, so that the use strength of the reinforcing plate is ensured while the integral weight of the reinforcing plate is reduced.

Description

Assembled building concrete mould

Technical Field

The utility model relates to the technical field of civil engineering equipment, in particular to an assembled building concrete mold.

Background

In civil engineering, the construction of the engineering is carried out by firstly installing a concrete template and then pouring concrete. The template required in civil engineering mainly comprises three parts, namely a template, a supporting structure and a connecting piece. After several templates are mutually spliced through the inserting blocks, the templates are fixed together through the connecting pieces, and at the moment, the templates are spliced, the supporting structure is used for supporting the templates, and the templates are used for directly contacting concrete, so that the connection stability of the templates is extremely important.

When the existing assembly type building concrete mould is assembled, limiting and fixing are carried out only through the limiting grooves and the inserting blocks, connection is not firm, and assembly stability is low. And the connecting strength of the connecting part of the template component is low, and the template component is easy to separate hard due to external force. And the overall weight of the concrete form is too large, which may cause inconvenience in use, and the overall weight of the concrete form is too small, which may cause insufficient use strength.

Accordingly, there is a need for a fabricated building concrete mold to solve the above-described problems.

Disclosure of Invention

The utility model aims at: the utility model provides an assembled building concrete mould can consolidate the protection to the template subassembly, improves the joint strength of template subassembly, can also lighten the whole weight of template to guarantee that the intensity of use is stronger.

To achieve the purpose, the utility model adopts the following technical scheme:

there is provided a fabricated building concrete mould comprising:

the formwork assembly comprises a plurality of formworks which are connected with each other, and a concrete pouring space is formed by surrounding the formworks;

the reinforcing assembly comprises a plurality of reinforcing plates arranged on the periphery of the template assembly, each reinforcing plate is located at the joint of two templates, each reinforcing plate is connected with two templates at the same time, a weight-reducing groove is formed in each reinforcing plate, and reinforcing ribs are arranged in the weight-reducing grooves.

As a preferred scheme of the fabricated building concrete mold, the formwork assembly comprises a first formwork and a second formwork which are connected, and the reinforcing plate is connected with both the first formwork and the second formwork.

As a preferable scheme of the assembled building concrete mold, a first connecting part is arranged on the first template, a second connecting part is arranged on the second template, and the first connecting part is in plug-in fit with the second connecting part.

As a preferred scheme of the assembled building concrete mould, the first connecting parts and the second connecting parts are all provided with a plurality of first inserting and connecting bulges, the first connecting parts are provided with first inserting and connecting grooves, the second connecting parts are provided with second inserting and connecting bulges, the first inserting and connecting bulges are matched with the second inserting and connecting grooves, and the first inserting and connecting grooves are matched with the second inserting and connecting bulges.

As a preferred scheme of the fabricated building concrete mold, two first templates are oppositely arranged, two second templates are oppositely arranged, two first connecting portions are arranged on each first template to be in plug-in fit with second connecting portions on two adjacent second templates respectively, and two second connecting portions are arranged on each second template to be in plug-in fit with first connecting portions on two adjacent first templates respectively.

As a preferable scheme of the fabricated building concrete mold, the formwork assembly further comprises a connecting piece, a first hole is formed in the first formwork, the first inserting groove is communicated with the first hole, a second hole is formed in the second inserting protrusion, and the connecting piece is inserted into the first hole and the second hole;

and/or a third hole is formed in the second template, the second inserting groove is communicated with the third hole, a fourth hole is formed in the first inserting protrusion, and the connecting piece is inserted into the third hole and the fourth hole.

As a preferable scheme of the fabricated building concrete mold, two third connecting portions are arranged on the reinforcing plate, a fourth connecting portion is arranged on the first template along the depth direction, a fifth connecting portion is arranged on the second template along the depth direction, and the two third connecting portions are respectively in plug-in fit with the fourth connecting portion and the fifth connecting portion.

As a preferable scheme of the assembled building concrete mold, the third connecting parts are all third splicing protrusions, and the height directions of the two third connecting parts are vertical.

As a preferable scheme of the fabricated building concrete mold, the cross sections of the third connecting part, the fourth connecting part and the fifth connecting part are all T-shaped.

As a preferable scheme of the assembled building concrete mould, the weight reducing groove is formed in a penetrating manner along the thickness direction of the reinforcing plate.

The utility model has the beneficial effects that:

the utility model provides an assembled building concrete mold, which comprises a template assembly and a reinforcing assembly, wherein the template assembly comprises a plurality of templates which are connected with each other, and a concrete pouring space which is formed inside is enclosed by the templates, the reinforcing assembly comprises a plurality of reinforcing plates which are arranged on the periphery of the template assembly, each reinforcing plate is positioned at the joint of two templates, and each reinforcing plate is connected with two templates at the same time. Through establishing the periphery at the template subassembly with reinforcing assembly, can improve the structural strength of template subassembly to improve the steadiness of template subassembly. Through seting up the heavy groove that subtracts on the gusset plate, can alleviate the whole weight of gusset plate, set up the strengthening rib in subtracting heavy inslot, can guarantee that the structural strength of gusset plate itself can not reduce to guarantee the reinforcement effect of gusset plate to the module.

Drawings

FIG. 1 is a schematic structural view of an assembled building concrete mold provided by an embodiment of the utility model;

FIG. 2 is an exploded view of a first template and connector provided in an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a second template according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a template assembly according to an embodiment of the present utility model;

fig. 5 is a schematic structural view of a reinforcement plate according to an embodiment of the present utility model.

In the figure:

1. a template assembly; 11 a first template; 111. a first connection portion; 1111. the first plug-in protrusion; 11101. a first insertion groove; 1101. a first hole; 111101, fourth hole; 1102. a fourth connecting portion; 12. a second template; 121. a second connecting portion; 1211. the second plug-in protrusion; 12101. the second inserting groove; 121101, a second hole; 1201. a third hole; 1202. a fifth connecting portion; 13. a connecting piece;

2. a reinforcing plate; 201. a weight reduction groove; 21. reinforcing ribs; 22. and a third connecting part.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and the embodiments. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the drawings related to the present utility model are shown.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixed or removable, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

As shown in fig. 1, the fabricated building concrete mold in this embodiment includes a formwork assembly 1 and a reinforcing assembly, the formwork assembly 1 includes a plurality of formworks connected to each other, an internal casting space is formed by enclosing, the reinforcing assembly includes a plurality of reinforcing plates 2 disposed at the periphery of the formwork assembly 1, each reinforcing plate 2 is connected with two formworks at least simultaneously, so as to improve the stability of the formwork assembly 1, a weight-reducing groove 201 is formed in the reinforcing plate 2, and reinforcing ribs 21 are disposed in the weight-reducing groove 201. The reinforcing plate 2 can strengthen and protect the template assembly 1, can also improve the joint strength of the template assembly 1, and the weight reduction groove 201 is also formed in the reinforcing plate 2, so that the whole weight of the reinforcing plate 2 can be reduced, inconvenience in use of concrete can be avoided, the reinforcing ribs 21 are added on the weight reduction groove 201, and the use strength of the reinforcing plate 2 can be ensured while the whole weight of the reinforcing plate 2 is reduced.

Preferably, the formwork assembly 1 includes a first formwork 11 and a second formwork 12 connected, and the reinforcement plate 2 is connected to both the first formwork 11 and the second formwork 12. The reinforcement plate 2 can increase the connection area between the first and second formworks 11 and 12, thereby increasing the connection strength of the formwork assembly 1.

As shown in fig. 2 and 3, preferably, the first template 11 is provided with a first connecting portion 111, and the second template 12 is provided with a second connecting portion 121, and the first connecting portion 111 and the second connecting portion 121 are in plug-in fit. The first template 11 and the second template 12 are mutually inserted and fixed, so that the template assembly 1 is convenient to assemble and disassemble, and the construction efficiency is high.

Specifically, the first connection portion 111 and the second connection portion 121 are provided in plurality, and among the plurality of first connection portions 111, part of the first connection portion 111 is a first insertion protrusion 1111, part of the first connection portion 111 is a first insertion groove 11101, and among the plurality of second connection portions 121, part of the second connection portion 121 is a second insertion groove 12101, and part of the second connection portion 121 is a second insertion protrusion 1211. The first mating projection 1111 mates with the second mating recess 12101 and the first mating recess 11101 mates with the second mating projection 1211. The first template 11 and the second template 12 are provided with splicing protrusions and splicing grooves, and can be mutually spliced and fixed.

In this embodiment, the plurality of first inserting protrusions 1111 and the plurality of first inserting grooves 11101 on the first template 11 are alternately arranged, the plurality of second inserting protrusions 1211 and the plurality of second inserting grooves 12101 on the second template 12 are alternately arranged, the first inserting protrusions 1111 are matched with the second inserting grooves 12101, and the second inserting protrusions 1211 are matched with the first inserting grooves 11101, so that the first template 11 and the second template 12 are convenient to install when connected. Optionally, for easy processing, the first inserting protrusion 1111 and the second inserting protrusion 1211 are rectangular protruding parts, the first inserting recess 11101 and the second inserting recess 12101 are rectangular grooves, and can facilitate the splicing and the disassembly between the first template 11 and the second template 12, so that the construction efficiency is higher, and in other embodiments, other forms can be adopted, which are not limited herein.

Preferably, two first templates 11 are oppositely arranged, two second templates 12 are oppositely arranged, two first connecting parts 111 are arranged on each first template 11 to be respectively in plug-in fit with second connecting parts 121 on two adjacent second templates 12, and two second connecting parts 121 are arranged on each second template 12 to be respectively in plug-in fit with first connecting parts 111 on two adjacent first templates 11. The formwork assembly 1 is mutually spliced through two first formworks 11 and two second formworks 12 to form a concrete pouring space. The splicing mode is simple to install and easy to assemble and disassemble, so that the construction efficiency can be improved.

Preferably, the formwork assembly 1 further comprises a connecting piece 13, the first formwork 11 is provided with a first hole 1101, the first inserting groove 11101 is communicated with the first hole 1101, the second inserting protrusion 1211 is provided with a second hole 121101, and the connecting piece 13 is inserted into the first hole 1101 and the second hole 121101 to form a first reinforcement of the adjacent first formwork 11 and second formwork 12. Preferably, the second template 12 is provided with a third hole 1201, the second inserting recess 12101 is communicated with the third hole 1201, the first inserting protrusion 1111 is provided with a fourth hole 111101, and the connecting piece 13 is inserted into the third hole 1201 and the fourth hole 111101 to form a second reinforcement of the adjacent first template 11 and second template 12. After the first template 11 and the second template 12 are inserted, the connecting rod 23 can prevent the first connecting part 111 and the second connecting part 121 from being separated from each other, so as to ensure the connection strength of the connecting part.

In this embodiment, as shown in fig. 2 to 4, first, a first module 11 is vertically fixed, and both ends of the inner side plate surface of the first module 11 have first connection portions 111. Then two second templates 12 are vertically placed at two ends of the first template 11 respectively, two side plate surfaces of the second templates 12 are respectively provided with a second connecting part 121, and the two first connecting parts 111 of the first template 11 are respectively assembled with the second connecting parts 121 of the two second templates 12 in an inserting way. And then the second first templates 11 and the two second templates 12 are spliced and assembled at the same time. Finally, the connecting piece 13 is vertically inserted from the first hole 1101 on the first template 11, the connecting piece 13 passes through the first inserting recess 11101 and the second hole 121101 on the second inserting protrusion 1211, and similarly, the connecting piece 13 is vertically inserted from the third hole 1201 on the second template 12, and the connecting piece 13 passes through the second inserting recess 12101 and the fourth hole 111101 on the first inserting protrusion 1111, so as to fix the template assembly 1. Preferably, the length of the connecting member 13 is the same as the lengths of the first and second templates 11 and 12 to ensure consistent connection strength of the first and second templates 11 and 12 throughout the length direction. The length is the distance along the bottom surface of the first template 11 to the top surface of the first template 11. In other embodiments, the length of the connecting member 13 may also be changed according to practical needs, which is not limited in particular.

Preferably, as shown in fig. 5, two third connecting portions 22 are disposed on the reinforcing plate 2, a fourth connecting portion 1102 is disposed on the first template 11 along the depth direction, a fifth connecting portion 1202 is disposed on the second template 12 along the depth direction, and the two third connecting portions 22 are respectively in plug-in fit with the fourth connecting portion 1102 and the fifth connecting portion 1202. The reinforcing plate 2 is used for reinforcing and protecting the connection between the first template 11 and the second template 12, so that the hard separation of the connection part of the first template 11 and the second template 12 caused by external force is avoided, and the use safety of the template assembly 1 is improved. In this embodiment, the reinforcing plate 2 is an integrally formed L-shaped plate, and the two third connecting portions 22 are respectively disposed on two portions of the L-shaped plate surface, and the two portions of the reinforcing plate 2 are respectively connected with the two connected first templates 11 and the second templates 12.

Preferably, the two third connecting portions 22 are both third plugging protrusions, and the height directions of the two third connecting portions 22 are perpendicular to each other, and the height direction is the protruding direction of the third connecting portion 22. The two third connecting portions 22 can just be mated with the fourth connecting portion 1102 and the fifth connecting portion 1202, respectively, which are perpendicular to each other. When the side surfaces of the two third connecting portions 22 are in contact with the side surfaces of the fourth connecting portion 1102 and the fifth connecting portion 1202, only the reinforcing plate 2 and the formwork assembly 1 can be separated from each other by moving relatively along the length direction, and the reinforcing plate 2 and the formwork assembly 1 cannot move relatively in other directions, so that the reinforcing plate 2 and the formwork assembly 1 are not easy to separate, and the connection of the connecting portions of the formwork assembly 1 is tighter.

Preferably, the weight-reducing groove 201 is opened therethrough in the thickness direction of the reinforcing plate 2. The weight of the reinforcing plate 2 can be reduced, and the reinforcing plate 2 is more convenient to use. And the reinforcing ribs 21 are the partition plates of the adjacent weight-reducing grooves 201, and the reinforcing ribs 21 can be formed while the weight-reducing grooves 201 are opened, so that the processing process is simplified.

In the present embodiment, the length of the third connecting portion 22 is the same as the length of the reinforcing plate 2 to secure the structural strength of the third connecting portion 22 itself. The third connecting portion 22 is a third inserting protrusion, the fourth connecting portion 1102 and the fifth connecting portion 1202 are third inserting grooves, and the reinforcing plate 2 is respectively inserted into the fourth connecting portion 1102 and the fifth connecting portion 1202 from top to bottom through the two third connecting portions 22 until the lower end of the reinforcing plate 2 and the lower end of the template assembly 1 are located on the same horizontal plane, so that inserting assembly of the reinforcing plate 2 and the first template 11 and the second template 12 is achieved. In other embodiments, welding, riveting, etc. may be used, and is not particularly limited.

It is to be understood that the above examples of the present utility model are provided for clarity of illustration only and are not limiting of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. The assembled building concrete mould, its characterized in that includes:

the formwork assembly (1), the formwork assembly (1) comprises a plurality of mutually connected formworks, and an internal concrete pouring space is formed by surrounding;

the reinforcing assembly comprises a plurality of reinforcing plates (2) arranged on the periphery of the template assembly (1), each reinforcing plate (2) is located at the joint of two templates, each reinforcing plate (2) is connected with two templates at the same time, a weight-reducing groove (201) is formed in each reinforcing plate (2), and reinforcing ribs (21) are arranged in the weight-reducing groove (201).

2. The fabricated building concrete mould according to claim 1, characterized in that the formwork assembly (1) comprises a first formwork (11) and a second formwork (12) connected, the reinforcement plate (2) being connected to both the first formwork (11) and the second formwork (12).

3. The fabricated building concrete mold according to claim 2, wherein a first connecting portion (111) is provided on the first mold plate (11), a second connecting portion (121) is provided on the second mold plate (12), and the first connecting portion (111) is in plug-in fit with the second connecting portion (121).

4. A fabricated building concrete mold according to claim 3, wherein the first connecting portion (111) and the second connecting portion (121) are each provided in plurality, a portion of the plurality of first connecting portions (111) is a first insertion protrusion (1111), a portion is a first insertion groove (11101), a portion of the plurality of second connecting portions (121) is a second insertion groove (12101), a portion is a second insertion protrusion (1211), the first insertion protrusion (1111) is engaged with the second insertion groove (12101), and the first insertion groove (11101) is engaged with the second insertion protrusion (1211).

5. A fabricated building concrete mould according to claim 3, wherein two first templates (11) are oppositely arranged, two second templates (12) are oppositely arranged, two first connecting parts (111) are arranged on each first template (11) so as to be respectively matched with the second connecting parts (121) on two adjacent second templates (12) in a plugging manner, and two second connecting parts (121) are arranged on each second template (12) so as to be respectively matched with the first connecting parts (111) on two adjacent first templates (11) in a plugging manner.

6. The fabricated building concrete mold according to claim 4, wherein the formwork assembly (1) further comprises a connecting piece (13), a first hole (1101) is formed in the first formwork (11), the first insertion groove (11101) is communicated with the first hole (1101), a second hole (121101) is formed in the second insertion protrusion (1211), and the connecting piece (13) is inserted into the first hole (1101) and the second hole (121101);

and/or, a third hole (1201) is formed in the second template (12), the second inserting groove (12101) is communicated with the third hole (1201), a fourth hole (111101) is formed in the first inserting protrusion (1111), and the connecting piece (13) is inserted into the third hole (1201) and the fourth hole (111101).

7. The fabricated building concrete mold according to any one of claims 3 to 6, wherein two third connecting portions (22) are provided on the reinforcing plate (2), a fourth connecting portion (1102) is provided on the first formwork (11) in the depth direction, a fifth connecting portion (1202) is provided on the second formwork (12) in the depth direction, and the two third connecting portions (22) are respectively in plug-in fit with the fourth connecting portion (1102) and the fifth connecting portion (1202).

8. The fabricated building concrete mold according to claim 7, wherein the third connection portions (22) are third insertion protrusions, and the height directions of the two third connection portions (22) are perpendicular.

9. The fabricated building concrete mold according to claim 7, wherein the third connection portion (22), the fourth connection portion (1102) and the fifth connection portion (1202) are each T-shaped in cross section.

10. The fabricated building concrete mold according to claim 1, wherein the weight-reducing groove (201) is formed through in a thickness direction of the reinforcing plate (2).