CN219175855U - Connection structure and template frame - Google Patents

Abstract

The application relates to the field of buildings, and particularly provides a connecting structure and a template frame. The first end of pre-buried portion is used for supporting hanging the mould structure, and the second end of pre-buried portion is used for contradicting with the floor template. The first connecting portion is arranged at the first end of the embedded portion and is used for being connected with the hanging die structure. The second connecting portion is arranged at the second end of the embedded portion and used for being connected with the floor template. The water stopping part is arranged on the embedded part and used for stopping water from flowing between the first end of the embedded part and the second end of the embedded part. The embedded part is arranged between the floor template and the hanging die structure, and the embedded part can be connected with the hanging die structure and the floor template through the first connecting part and the second connecting part, so that the relative position of the hanging die structure and the floor template is limited. The positioning mode between the hanging die structure and the floor template is simple and convenient to install, and the deviation condition can not occur. Through the setting of stagnant water portion, can promote waterproof ability effectively.

Description

Connection structure and template frame

Technical Field

The application relates to the field of buildings, in particular to a connecting structure and a template frame.

Background

In the related art, a hanging die structure is arranged above a floor template, positioning steel bars are arranged between the hanging die structure and the floor template, and positioning of the hanging die structure is realized by welding the positioning steel bars. Because the mode of above-mentioned location hanging die structure is based on the location of locating steel bar and realizes hanging die structure's location, and locating steel bar is usually manual work and lays, because the problem such as construction error, locating steel bar self straightness accuracy is not high, leads to the easy off tracking's of appearance condition when installing hanging die structure.

Disclosure of Invention

In view of this, it is necessary to provide a connection structure and a formwork frame with high accuracy of mounting positions.

An embodiment of the application provides a connection structure, is applied to the template system, connection structure includes pre-buried portion, first connecting portion, second connecting portion and stagnant water portion. The first end of pre-buried portion is used for supporting hanging the mould structure, the second end of pre-buried portion is used for contradicting with the floor template. The first connecting portion is arranged at the first end of the embedded portion and is used for being connected with the hanging die structure. The second connecting part is arranged at the second end of the embedded part and is used for being connected with the floor template. The water stopping part is arranged on the embedded part and used for stopping water from flowing between the first end of the embedded part and the second end of the embedded part.

In the connection structure of the above embodiment, the pre-buried portion is disposed between the floor formwork and the hanging formwork structure, and the pre-buried portion can be connected with the hanging formwork structure and the floor formwork through the first connection portion and the second connection portion, so as to define the relative position of the hanging formwork structure and the floor formwork. Because the flatness of the floor template is higher than that of the positioning steel bars, the position accuracy of the hanging die structure is higher compared with that of the positioning steel bars by taking the floor template as a reference, and the occurrence of the deviation of the hanging die structure can be reduced. The positioning mode is connected through the connecting structure, and the positioning mode is simpler, more convenient and quicker without connecting through a mode of welding positioning reinforcing steel bars. In the mounting process, the position of the hanging die structure is not set based on the positioning steel bars, so that the connecting structure and the hanging die structure can be mounted first and then the positioning steel bars are paved, and the condition that the connecting structure and the hanging die structure are affected due to interference of the positioning steel bars is reduced. Through the setting of stagnant water portion, can promote waterproof ability effectively, prevent that water from oozing through pouring structure.

In at least one embodiment, the first connecting portion and the first end of the pre-buried portion press against opposite sides of the hanging die structure, and the second connecting portion and the second end of the pre-buried portion press against opposite sides of the floor form.

In the connection structure of the above embodiment, the connection structure is used for pressing the floor template and the hanging die structure, so that the relative positioning of the floor template and the hanging die structure is realized, the positioning mode is simple, and the pressing positioning can be realized by adjusting the positions of the first connection part, the second connection part and the embedded part even if the thicknesses of the floor template and the hanging die structure are different, so that the application range is wider.

In at least one embodiment, the first connecting portion is provided with a first external thread, the second connecting portion is provided with a second external thread, the first end of the embedded portion is provided with a first internal thread matched with the first external thread, the second end of the embedded portion is provided with a second internal thread matched with the second external thread, and the first connecting portion and the second connecting portion are in threaded connection with the embedded portion.

In the connection structure of the above embodiment, the lifting of the first connection portion can be controlled by the relative rotation of the first connection portion and the embedded portion, so as to realize the abutting and pressing of the first connection portion on the hanging die structure. The lifting of the second connecting part can be controlled through the relative rotation of the second connecting part and the embedded part, so that the second connecting part is pressed against the floor template. Even if the thickness of the hanging die structure and the thickness of the floor template are different, the positions of the first connecting part and the second connecting part can be controlled through screw thread fit, so that the hanging die structure, the connecting structure and the floor template are connected.

In at least one embodiment, the first internal thread and the second internal thread of the pre-buried part are solid.

In the connection structure of the above embodiment, compared with the case that the embedded part is hollow, the strength of the embedded part can be increased, the deformation of the embedded part is reduced, and the connection structure is solid, so that water can be prevented from passing through the pouring structure through the embedded part, and the waterproof performance can be improved.

In at least one embodiment, the material of the pre-buried part is metal.

In the connection structure of the above embodiment, the metal has better strength, compared with the rubber material, the hanging die structure can be stably supported, deformation of the embedded portion is reduced, and the first internal thread and the second internal thread are made of metal, so that the metal is convenient to stably match with the first connection portion and the second connection portion. The material of the embedded part is metal, so that the embedded part has better corrosion resistance, and the occurrence of the condition that the embedded part is corroded and deformed can be reduced.

In at least one embodiment, the distance between the water stop portion and the first end of the embedded portion is equal to the distance between the water stop portion and the second end of the embedded portion.

In the connection structure of the above embodiment, the water stop portion is located in the middle of the embedded portion, and the connection structure is a central symmetry structure, so that the distance of water flowing when water flows from the first end of the embedded portion to the second end of the embedded portion is the same as the distance of water flowing when water flows from the second end of the embedded portion to the first end of the embedded portion to be blocked.

The embodiment of the application also provides a template frame, which comprises a floor template and a hanging die structure, wherein the template frame further comprises a connecting structure, and the connecting structure is connected with the floor template and the hanging die structure so as to form a space between the floor template and the hanging die structure.

In the template frame of the embodiment, the floor template and the hanging die are connected through the connecting structure, the installation mode is simple, the positioning is accurate, and the die cannot run.

In at least one embodiment, the hanging die structure comprises a fixing piece, a first template group and a second template group, wherein the first template group and the second template group are oppositely arranged, the fixing piece is connected with the first template group and the second template group, the fixing piece is supported by the first end of the embedded part of the connecting structure, and the first connecting part of the connecting structure is connected with the fixing piece.

In the template frame of the above embodiment, the fixing member connects the first template set and the second template set so as to define the relative positions of the first template set and the second template set. The first fixing part of the connecting structure is connected with the fixing piece, so that the embedded part can support the fixing piece, and the connecting structure is connected with the hanging die structure.

In at least one embodiment, the fixing piece comprises a first fixing portion and a second fixing portion which are connected, the first template set and the second template set are arranged between the first fixing portion and the second fixing portion, one connecting structure is connected with the first fixing portion, and the other connecting structure is connected with the second fixing portion.

In the above embodiment, the first template set and the second template set are disposed between the first fixing portion and the second fixing portion, so as to improve the stability of the first template set and the second template set. The first fixing part and the second fixing part are respectively provided with a connecting structure, so that the two sides of the first template group and the second template group are respectively provided with a connecting structure support, and the connecting stability is improved.

In at least one embodiment, the floor form is provided with a connecting hole, the position of the embedded part of the connecting structure is opposite to the connecting hole, and the second connecting part of the connecting structure is arranged in the connecting hole in a penetrating manner and is connected with the second end of the embedded part.

In the formwork frame of the above embodiment, the floor formwork is provided with the connecting holes, the connecting structures can be correspondingly installed according to the positions of the connecting holes, and the second connecting portions can penetrate through the connecting holes and cooperate with the second ends of the embedded portions to press the two opposite sides of the floor formwork.

The utility model provides a connection structure and template frame, template frame include hanging mould structure, connection structure and floor template. The embedded part in the connecting structure is arranged between the hanging die structure and the floor template and supports the hanging die structure. The first connecting part is arranged at the first end of the embedded part and is connected with the lifting die structure, and the second connecting part is arranged at the second end of the embedded part and is connected with the floor template, so that the positioning of the lifting die structure and the floor template is realized, the mounting of the template frame is simple, and the positioning of the lifting die structure is accurate and the die cannot run. Through setting up stagnant water portion at pre-buried portion, after pouring the structure and pouring the shaping, can stop water from pouring the gap infiltration between structure and the pre-buried portion and pass and pour the structure, promote the waterproof nature of pouring the structure.

Drawings

Fig. 1 is a perspective view of a form frame according to an embodiment of the present application.

Fig. 2 is a cross-sectional view of a portion of the formwork frame and a portion of the casting structure of fig. 1.

Fig. 3 is an exploded view of the fixed angle, connecting structure, and floor form of fig. 2.

Description of the main element

Connection structure 100

Built-in portion 10

First end 11

Second end 12

First internal thread 13

Second internal thread 14

First connecting portion 20

First external thread 21

Second connecting portion 30

Second external screw thread 31

Water stop 40

Template frame 001

Hanging die structure 200

First template group 51

Second template set 52

Fastener 60

First fixing portion 61

Connecting angle 611

Fixed angle 612

Second fixing portion 62

Fixing hole 63

Floor form 300

Connection hole 301

Pouring structure 002

Detailed Description

The following description of the technical solutions in the embodiments of the present application will be made with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments.

It should be noted that when one group is considered to be "connected" to another group, it may be directly connected to another group or there may be an intervening group at the same time. When a cluster is considered to be "disposed" on another cluster, it may be disposed directly on the other cluster or there may be a intervening cluster. The terms "top," "bottom," "upper," "lower," "left," "right," "front," "rear," and the like are used herein for illustrative purposes only.

When the two-part (plane, line) is arranged in parallel, it is understood that the relationship between the two-part includes both parallel and substantially parallel. Wherein substantially parallel is understood to mean that there may be an angle between the two elements, the angle of the angle being greater than 0 ° and less than or equal to 10 °.

When the two-part (plane, line) is disposed vertically, it is understood that the relationship between the two-part includes both vertically and substantially vertically. Wherein substantially perpendicular is understood to mean that the angle between the two elements is greater than or equal to 80 ° and less than 90 °.

When a parameter is greater than, equal to, or less than a certain endpoint, it is understood that the endpoint allows for a tolerance of + -10%, e.g., a to B greater than 10, it is understood to include cases where a to B is greater than 9, as well as cases where a to B is greater than 11.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Some embodiments of the present application provide a connection structure, which is applied to a template system, and the connection structure includes a pre-buried portion, a first connection portion, a second connection portion, and a water stop portion. The first end of pre-buried portion is used for supporting hanging the mould structure, the second end of pre-buried portion is used for contradicting with the floor template. The first connecting portion is arranged at the first end of the embedded portion and is used for being connected with the hanging die structure. The second connecting part is arranged at the second end of the embedded part and is used for being connected with the floor template. The water stopping part is arranged on the embedded part and used for stopping water from flowing between the first end of the embedded part and the second end of the embedded part.

In the connection structure of the above embodiment, the pre-buried portion is disposed between the floor formwork and the hanging formwork structure, and the pre-buried portion can be connected with the hanging formwork structure and the floor formwork through the first connection portion and the second connection portion, so as to define the relative position of the hanging formwork structure and the floor formwork. Because the flatness of the floor template is higher than that of the positioning steel bars, the position accuracy of the hanging die structure is higher compared with that of the positioning steel bars by taking the floor template as a reference, and the occurrence of the deviation of the hanging die structure can be reduced. The positioning mode is connected through the connecting structure, and the positioning mode is simpler, more convenient and quicker without connecting through a mode of welding positioning reinforcing steel bars. In the installation procedure, the position of the hanging die structure is not set based on the positioning steel bars, so that the connecting structure and the hanging die structure can be installed first and then the positioning steel bars are paved, and the situation that the positioning steel bars influence the installation of the connecting structure and the hanging die structure is reduced. Through the setting of stagnant water portion, can promote waterproof ability effectively, prevent that water from oozing through pouring structure.

Some embodiments of the present application will be described below with reference to the accompanying drawings. The embodiments described below and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1, an embodiment of the present application provides a formwork frame 001, where the formwork frame 001 includes a floor formwork 300, a hanging formwork structure 200 and a connecting structure 100, the hanging formwork structure 200 is connected with the floor formwork 300 through the connecting structure 100, and a space is formed between the hanging formwork structure 200 and the floor formwork 300. The casting structure 002 can be formed by casting concrete in the suspended formwork structure 200 and between the suspended formwork structure 200 and the floor form 300.

Referring to fig. 2 and 3, the connection structure 100 includes an embedded portion 10, a first connection portion 20, a second connection portion 30, and a water stop portion 40. The first end 11 of the pre-buried part 10 and the supporting hanging die structure 200, the first connecting part 20 is disposed at the first end 11 of the pre-buried part 10, and the first connecting part 20 can be connected with the hanging die structure 200. The second end 12 of the pre-buried part 10 abuts against the floor form 300, the second connection part 30 is disposed at the second end 12 of the pre-buried part 10, and the second connection part 30 can be connected with the floor form 300. The water stop portion 40 is provided at the embedded portion 10 and can prevent water from flowing from the first end 11 of the embedded portion 10 to the second end 12 of the embedded portion 10 or from the second end 12 of the embedded portion 10 to the first end 11 of the embedded portion 10.

The pre-buried part 10 is disposed between the floor form 300 and the suspended formwork structure 200, and the pre-buried part 10 can be connected with the suspended formwork structure 200 and the floor form 300 through the first connecting part 20 and the second connecting part 30, thereby defining the relative positions of the suspended formwork structure 200 and the floor form 300. Because the flatness of the floor form 300 is higher than that of the positioning steel bars, compared with the floor form 300 serving as a reference and the positioning steel bars serving as a reference, the position accuracy of the floor form 300 serving as a reference of the hanging form structure 200 is higher, and the occurrence of deviation of the hanging form structure 200 can be reduced. The positioning mode is connected through the connecting structure 100, and the positioning mode is simpler, more convenient and quicker without connecting through welding positioning steel bars. In the installation process, since the position of the hanging die structure 200 is not set based on the positioning steel bar, the installation order of the positioning steel bar and the hanging die structure 200 is not hard defined, and the connection structure 100 and the hanging die structure 200 can be installed first and then the positioning steel bar can be laid, so that the occurrence of the condition that the installation of the connection structure 100 and the hanging die structure 200 is affected due to the interference of the positioning steel bar is reduced. By providing the water stop portion 40, the water stop capability can be effectively improved, and water can be prevented from penetrating through the pouring structure 002.

It should be understood that the first connection portion 20 and the second connection portion 30 may be represented as a virtual body or a solid body, that is, the first connection portion 20 and the second connection portion 30 may be configured as holes, slots, or the like, or may be configured as components, pieces, blocks, or the like. For example, the first connecting portion 20 and the second connecting portion 30 are grooves formed in the pre-buried portion 10, the hanging die structure 200 and the floor form 300 are provided with protrusions adapted to the grooves, and the protrusions are inserted into the grooves, so that the pre-buried portion 10 can be connected with the hanging die structure 200 and the floor form 300.

In some embodiments, the first connecting portion 20 and the second connecting portion 30 are of a solid structure, the first connecting portion 20 is detachably connected to the first end 11 of the pre-embedded portion 10, and the second end 12 of the second connecting portion 30 is detachably connected to the pre-embedded portion 10. The hanging die structure 200 is provided with a fixing hole 63, the floor template 300 is provided with a connecting hole 301, and the first connecting part 20 penetrates through the fixing hole 63 and is matched with the first end 11 of the embedded part 10 to press the two opposite sides of the hanging die structure 200, so that the relative positions of the connecting structure 100 and the hanging die structure 200 are positioned. The second connecting portion 30 is disposed through the connecting hole 301 and is matched with the second end 12 of the pre-embedded portion 10 to press against two opposite sides of the floor form 300, so as to realize positioning of the relative positions of the connecting structure 100 and the floor form 300.

The floor form 300 and the hanging die structure 200 are pressed by the connecting structure 100, so that the floor form 300 and the hanging die structure 200 are relatively positioned, the positioning mode is simple, and even if the thicknesses of the floor form 300 and the hanging die structure 200 are different, the pressing and positioning can be realized by adjusting the positions of the first connecting part 20, the second connecting part 30 and the embedded part 10, so that the application range is wider.

In some embodiments, the first connection portion 20 is provided with a first external thread 21 and the second connection portion 30 is provided with a second external thread 31. The first end 11 of the pre-buried part 10 is provided with a first internal thread 13, the second end 12 of the pre-buried part 10 is provided with a second internal thread 14, the first external thread 21 is matched with the first internal thread 13, and the second external thread 31 is matched with the second internal thread 14. The lifting of the first connection part 20 can be controlled by the relative rotation of the first connection part 20 and the embedded part 10, so that the first connection part 20 is pressed against the hanging die structure 200. The second connecting portion 30 can be controlled to be lifted and lowered by the relative rotation of the second connecting portion 30 and the embedded portion 10, so that the second connecting portion 30 can be pressed against the floor form 300. Even if the thickness of the hanging die structure 200 and the thickness of the floor form 300 are different, the positions of the first connection portion 20 and the second connection portion 30 can be controlled by screw-fitting so that the hanging die structure 200, the connection structure 100 and the floor form 300 are connected. Optionally, the first connecting portion 20 and the second connecting portion 30 are bolts.

Alternatively, the first internal thread 13 and the second internal thread 14 have the same diameter and the same depth. The first connection portion 20 and the second connection portion 30 can be replaced with each other, and the first connection portion 20 and the second connection portion 30 can be provided in the same configuration to reduce the number of kinds of parts.

The connection mode is simple through the threaded fit connection, the hanging die structure 200 and the floor formwork 300 can be pressed stably, and the stable relative position between the hanging die structure 200 and the floor formwork 300 can be kept.

It can be understood that the first connection portion 20, the second connection portion 30 and the pre-embedded portion 10 are not limited to be detachably connected by threaded engagement, but may be other manners, for example, the first end 11 and the second end 12 of the pre-embedded portion 10 are provided with pin holes, and the first connection portion 20 and the second connection portion 30 are pins that press against the corresponding hanging die structure 200 or the floor form 300 and are inserted into the pin holes to realize connection.

In some embodiments, the first internal thread 13 and the second internal thread 14 of the pre-embedded portion 10 are in a solid arrangement, compared with the hollow arrangement of the pre-embedded portion 10, the strength of the pre-embedded portion 10 can be increased, the deformation condition of the pre-embedded portion 10 is reduced, and the pre-embedded portion 10 can be blocked from penetrating through the pouring structure 002 by the solid arrangement, so that the waterproof performance can be improved.

Optionally, the length of the portion of the pre-embedded part 10 is twice that of the first internal thread 13, so that the pre-embedded part 10 has better strength, and the first internal thread 13 has enough depth to be stably connected with the first connecting part 20.

In some embodiments, the material of the pre-embedded portion 10 is metal, which has better strength, compared with the material of rubber, the hanging die structure 200 can be stably supported, the deformation of the pre-embedded portion 10 is reduced, and the first internal thread 13 and the second internal thread 14 are metal, so that the first connecting portion 20 and the second connecting portion 30 can be stably matched. The embedded part 10 needs to be embedded in the pouring structure 002, in order to keep the long-term stability of the embedded part 10, the material of the embedded part 10 is metal, so that the embedded part 10 has better corrosion resistance, and the occurrence of the condition that the embedded part 10 is corroded and deformed can be reduced. Optionally, the material of the pre-embedded part 10 is an aluminum alloy. The material of the first connection part 20 and the second connection part 30 is the same as that of the embedded part 10.

After the pre-buried part 10 is disposed between the floor form 300 and the hanging form structure 200 through the first connection part 20 and the second connection part 30, concrete can be poured to form a pouring structure 002 between the hanging form structure 200 and the floor form 300. The water stop portion 40 of the connection structure 100 is disposed at the pre-buried portion 10 so as to block water from passing through the casting structure 002.

Alternatively, the pre-buried part 10 is cylindrical in shape, the water stop part 40 is disc-shaped, the pre-buried part 10 and the water stop part 40 are coaxially arranged, and the diameter of the water stop part 40 is larger than that of the pre-buried part 10. It is to be understood that the shape of the water stop portion 40 is not limited to a disc shape, but may be other shapes capable of blocking the flow of water, such as a square shape, a conical shape, and the like.

In some embodiments, the distance between the water stop portion 40 and the first end 11 of the pre-buried portion 10 is equal to the distance between the water stop portion 40 and the second end 12 of the pre-buried portion 10, so that the water stop portion 40 is located in the middle of the pre-buried portion 10, and the connection structure 100 is a central symmetrical structure, so that the distance that water flows when water flows from the first end 11 of the pre-buried portion 10 to the second end 12 of the pre-buried portion 10 is blocked is the same as the distance that water flows from the second end 12 of the pre-buried portion 10 to the first end 11 of the pre-buried portion 10. Alternatively, the water stop portion 40 is made of metal and is connected to the pre-buried portion 10 by welding.

Referring to fig. 1 and 2, when installing the formwork frame 001, the connection structure 100 is first installed on the floor formwork 300, and then the hanging die structure 200 is connected with the connection structure 100. The hanging die structure 200 comprises a fixing piece 60, a first die plate set 51 and a second die plate set 52. The first template set 51 and the second template set 52 are disposed opposite to each other, and the first template set 51 and the second template set 52 are located at the same height and spaced apart from the floor template 300. The fixing member 60 connects the first template set 51 and the second template set 52 so as to define the relative positions of the first template set 51 and the second template set 52.

In some embodiments, the fixing hole 63 through which the first connecting portion 20 passes is disposed on the fixing piece 60, and the first end 11 of the pre-embedded portion 10 supports the fixing piece 60 and is matched with the first connecting portion 20 to press against opposite sides of the fixing piece 60. It should be understood that the fixing hole 63 is not limited to be disposed on the fixing member 60, and may be disposed on the first template set 51 or the second template set 52, and the embedded portion 10 correspondingly supports the first template set 51 and the second template set 52. The fixing hole 63 is not limited to one structure, and may be provided in a plurality of structures, for example, the fixing hole 63 may be provided in the fixing member 60 and the first template group 51 at the same time.

The fixing member 60 includes a first fixing portion 61 and a second fixing portion 62, and the first fixing portion 61 is connected to the second fixing portion 62, so that the fixing member 60 is substantially "table" shaped, and the first template set 51 and the second template set 52 are disposed between the first fixing portion 61 and the second fixing portion 62, so that the relative positions of the first template set 51 and the second template set 52 are kept stable. One connection structure 100 is connected to the first fixing portion 61, and the other connection structure 100 is connected to the second fixing portion 62, so that the connection structure 100 can support the hanging die structure 200.

In some embodiments, the first fixing portion 61 includes a connection angle 611 and a fixing angle 612, the connection angle 611 is disposed on a side of the first template set 51 and the second template set 52 away from the floor template 300, and the connection structure 100 can connect the first template set 51 and the second template set 52 that are relatively disposed. Fixed angle steel 612 is connected with one end of connecting angle steel 611, fixed angle steel 612 is arranged on the outer side of first template group 51, and optionally, the shape of connecting angle steel 611 is a straight line shape, and the shape of fixed angle steel 612 is an L shape. The second fixing portion 62 is disposed opposite to the fixing angle 612, and the second fixing portion 62 is connected to the other end of the connecting angle 611. Alternatively, the second securing portion 62 is L-shaped such that the securing member 60 is generally "table" shaped. The fixing hole 63 is formed in the fixing angle 612 and the second fixing portion 62, one connecting structure 100 is connected to the fixing angle 612, and the other connecting structure 100 is connected to the second fixing portion 62. Optionally, the shape of the fixing angle 612 is the same as the shape of the second fixing portion 62. Since the angle steel has better strength, the first template group 51 and the second template group 52 which are oppositely arranged can be kept stable, and the angle steel is used as a general structure in the building field, besides being used as the first fixing part 61 or the second fixing part 62, the angle steel is also applicable to other places of the building frame 001, for example, when the second template group 52 is bent, the bent position can be connected through the angle steel, so that the number of types of parts for building the building frame 001 can be reduced by arranging the angle steel as the first fixing part 61 or the second fixing part 62.

It is understood that the first fixing portion 61 is not limited to include the connecting angle 611 and the fixing angle 612, but may be other, for example, the first fixing portion 61 includes only the connecting angle 611 and does not include the fixing angle 612, the fixing member 60 includes one first fixing portion 61 and two second fixing portions 62, and the two second fixing portions 62 are disposed at opposite ends of the first fixing portion 61.

The first template group 51 includes a plurality of first templates, which are arranged in a predetermined direction, and adjacent first templates are connected. Optionally, the first template group 51 further includes a corner template, and when the preset direction is bent, the corner template is disposed between two adjacent first templates, so as to realize the bending of the first templates. The second template set 52 includes a plurality of second templates, which are disposed opposite to the corresponding second templates, and the plurality of second templates are arranged along a predetermined direction, so that when concrete is poured, the concrete is formed between the first templates and the second templates to form a reverse bank of the pouring structure 002.

The floor form 300 includes a plate body and a side rib disposed around the plate body. The connecting hole 301 is disposed on the board body, and the second connecting portion 30 penetrates through the connecting hole 301 on the board body and is matched with the second end 12 of the embedded portion 10 to abut against two opposite sides of the board body, so that the floor form 300 is connected with the connecting structure 100.

Since the hanging die structure 200 is connected with the floor form 300 through the connection structure 100, the hanging die structure 200 is not connected with the positioning steel bars, so the installation process of the form frame 001 can be as follows: the second connecting portion 30 and the pre-embedded portion 10 are installed in the connecting hole 301 of the floor form 300, the first form and the second form are installed, the relative positions of the first form and the second form are reinforced by the first fixing portion 61 and the second fixing portion 62, and the first connecting portion 20 is inserted into the fixing hole 63 and connected with the pre-embedded portion 10, so as to complete the setting of the form frame 001. And the subsequent procedures of setting reinforcing steel bars, pouring concrete and the like can be performed. By installing the connection structure 100 and the hanging die structure 200 before setting the positioning steel bars, the situation that the positioning steel bars interfere with the connection structure 100 and the hanging die structure 200 or the positioning steel bars are inconvenient to install due to the obstruction of the positioning steel bars can be reduced.

In summary, the embodiment of the present application provides a formwork frame 001, which includes a hanging mold structure 200, a connecting structure 100 and a floor formwork 300. The embedded parts in the connection structure 100 are disposed between the hanging die structure 200 and the floor form 300 and support the hanging die structure 200. The first connecting part 20 is arranged at the first end 11 of the embedded part and is connected with the hanging die structure 200, and the second connecting part 30 is arranged at the second end 12 of the embedded part and is connected with the floor template 300, so that the hanging die structure 200 and the floor template 300 are positioned, the template frame 001 is simple to install, and the hanging die structure 200 is positioned accurately and cannot deviate. Through setting up stagnant water portion 40 at pre-buried portion 10, after pouring structure 002 pours the shaping, can block that water from pouring the gap infiltration between structure 002 and the pre-buried portion 10 and pass pouring structure 002, promote the waterproof nature of pouring structure 002.

In addition, those of ordinary skill in the art will recognize that the above embodiments are presented for purposes of illustration only and are not intended to be limiting, and that suitable modifications and variations of the above embodiments are within the scope of the disclosure of the present application.

Claims (10)

1. A connection structure for use in a formwork system, the connection structure comprising:

the first end of the embedded part is used for supporting the hanging die structure, and the second end of the embedded part is used for abutting against the floor template;

the first connecting part is arranged at the first end of the embedded part and is used for being connected with the hanging die structure;

the second connecting part is arranged at the second end of the embedded part and is used for being connected with the floor template;

the water stopping part is arranged on the embedded part and used for stopping water from flowing between the first end of the embedded part and the second end of the embedded part.

2. The connection structure of claim 1, wherein the first connection portion abuts against opposite sides of the hanging die structure with the first end of the embedded portion, and the second connection portion abuts against opposite sides of the floor form with the second end of the embedded portion.

3. The connecting structure according to claim 2, wherein the first connecting portion is provided with a first external thread, the second connecting portion is provided with a second external thread, the first end of the embedded portion is provided with a first internal thread matched with the first external thread, the second end of the embedded portion is provided with a second internal thread matched with the second external thread, and the first connecting portion and the second connecting portion are in threaded connection with the embedded portion.

4. A connection structure according to claim 3, wherein the first internal thread and the second internal thread of the pre-buried part are disposed in a solid state.

5. The connection structure according to claim 1, wherein the material of the pre-buried portion is metal.

6. The connection structure according to claim 1, wherein a distance between the water stop portion and the first end of the pre-buried portion is equal to a distance between the water stop portion and the second end of the pre-buried portion.

7. A formwork frame comprising a floor formwork and a suspended formwork structure, wherein the formwork frame further comprises a connecting structure as claimed in any one of claims 1 to 6, the connecting structure being connected to the floor formwork and the suspended formwork structure such that a space is formed between the floor formwork and the suspended formwork structure.

8. The formwork frame of claim 7, wherein the hanging formwork structure comprises a fixing member, a first formwork set and a second formwork set, the first formwork set and the second formwork set are arranged opposite to each other, the fixing member is connected with the first formwork set and the second formwork set, a first end of the embedded portion of the connecting structure supports the fixing member, and the first connecting portion of the connecting structure is connected with the fixing member.

9. The formwork frame as in claim 8, wherein the securing member comprises a first securing portion and a second securing portion connected, the first formwork set and the second formwork set being disposed between the first securing portion and the second securing portion, one of the connecting structures being connected to the first securing portion and the other connecting structure being connected to the second securing portion.

10. The formwork frame as in claim 7, wherein the floor formwork is provided with a connection hole, the pre-buried portion of the connection structure is located opposite to the connection hole, and the second connection portion of the connection structure is disposed through the connection hole and connected to the second end of the pre-buried portion.

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