CN216553062U - Building device of building element - Google Patents

Abstract

The utility model relates to the technical field of building construction, and discloses a building device for building components. The building device of the building component comprises a supporting mechanism, a lower template component, a prefabricated component, an upper template component and an adjusting component, wherein the supporting mechanism is arranged on a fixed structure, the lower template component is supported on the supporting mechanism, the prefabricated component comprises a first body part and a second body part, the first body part is supported on the supporting mechanism, the first end of the second body part is connected with the first body part, the second end is supported on the lower template component in an extending mode and is embedded with a first sleeve, one end of the upper template component is connected with the first end, the other end of the upper template component and the second end are arranged at intervals, a pouring space is formed among the lower template component, the prefabricated component and the upper template component, one end of the adjusting component is connected with the upper template component, the other end of the adjusting component can be matched with the first sleeve, and the matching depth of the adjusting component and the first sleeve is adjustable. The building device of the building component can directly form a certain gradient and has high construction efficiency.

Description

Building device of building element

Technical Field

The utility model relates to the technical field of building construction, in particular to a building device of a building component.

Background

With the progress of society, people have higher and higher requirements on the functions and shapes of houses. The balcony is taken as an example, and the shape of the outwards-facing side of the balcony is generally complex due to the requirement of installing guardrails or the requirement of modeling, so that the construction efficiency is low if the shapes are machined and formed through the working procedures of later smearing, chiseling, adhering and the like, and the modeling quality cannot be guaranteed.

In the prior art, in order to solve the above technical problems, a prefabricated balcony with a certain shape is generally processed, and then the prefabricated balcony is assembled at a position to be installed. The assembly method is generally two, wherein one assembly method is to directly connect the prefabricated balcony with the position to be installed through a mechanical structure, the connection structure is complex, and the problem of water leakage is easy to occur in the later period; the aluminum alloy formwork is fixed at the position to be installed, the aluminum alloy formwork is provided with a certain cavity, at least part of the prefabricated balcony extends into the cavity and is supported on the aluminum alloy formwork, the aluminum alloy formwork and the prefabricated balcony form a cavity, and after concrete is poured into the cavity to form the balcony cover plate, the prefabricated balcony can be connected with the position to be installed. However, in this method, the slope of the upper surface of the cast portion is difficult to adjust, and further processing is required at a later stage, which leads to a low construction efficiency.

Therefore, a construction device for building elements is needed to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a building component construction device, which is convenient for realizing the connection with a part to be installed, can directly form a certain gradient and has high construction efficiency.

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

a building device of a building component comprises a supporting mechanism, a lower template assembly, a prefabricated member, an upper template assembly and an adjusting assembly, wherein the supporting mechanism is arranged on a fixed structure, the lower template assembly is supported on the supporting mechanism, the prefabricated member comprises a first body part and a second body part, the first body part is supported on the supporting mechanism, the first end of the second body part is connected with the first body part, the second end of the second body part extends and is supported on the lower template assembly, a first sleeve is embedded in the second end of the second body part, one end of the upper template assembly is connected with the first end of the second body part, the other end of the upper template assembly is arranged at a distance from the second end of the second body part, a pouring space is formed among the lower template assembly, the prefabricated member and the upper template assembly, and one end of the adjusting assembly is connected with the upper template assembly, the other end can with first sleeve cooperation, just adjusting part with the cooperation degree of depth of first sleeve is adjustable.

When the building device for the building component is used, the lower template component is butted with a position to be installed, and a pouring space is formed among the lower template component, the prefabricated component and the upper template component for pouring concrete, so that the prefabricated component can be conveniently installed at the position to be installed, the upper template component can be supported on one hand by arranging the adjusting component, the distance between the upper template component and the second end of the prefabricated component can be adjusted by adjusting the matching depth of the adjusting component and the first sleeve, and the other end of the upper template component is fixed, so that the inclination angle of the upper template component relative to the prefabricated component can be adjusted, the surface with the slope of the building component at the position can be directly formed, the subsequent construction process is reduced, and the construction efficiency is improved; in addition, pre-buried first sleeve's mode of setting can avoid trompil on the prefab to can reduce the risk of follow-up leaking.

As an implementable scheme, the adjusting assembly comprises a bearing and a screw rod, one end of the screw rod is rotatably connected with the upper plate assembly through the bearing, the inner wall of the first sleeve is provided with internal threads, and the other end of the screw rod can be in threaded fit with the first sleeve. The inclination angle of the upper die plate component relative to the prefabricated part can be adjusted by rotating the screw rod, and the structure is simple and the operation is convenient.

As an implementation, the building element construction device further comprises a support sleeve, and the support sleeve is sleeved on the screw rod and abuts between the upper plate component and the second body part. The supporting sleeve can play a supporting role for the upper plate assembly, the stability of the inclination angle of the upper plate assembly is guaranteed, and a good construction effect is guaranteed.

As an implementation solution, a second sleeve is embedded in the first end of the second body portion, and the building apparatus of the building element further includes a first fastener, the first fastener penetrates through the upper plate assembly and is matched with the second sleeve to lock the first end of the second body portion and the upper plate assembly. Through the cooperation of second fastener and second sleeve can conveniently realize being connected of cope match-plate pattern subassembly and prefab, and can avoid trompil on the prefab through pre-buried second sleeve to can reduce the follow-up risk of leaking.

As an implementation solution, the first body part is perpendicular to the second body part, and the building device of the building element further includes a cable-stayed connector, the cable-stayed connector is disposed obliquely, and one end of the cable-stayed connector is connected to the first body part, and the other end of the cable-stayed connector is connected to the bottom of the second body part. The inclined-pulling connecting piece, the first body part and the second body part form a triangular supporting structure, so that the prefabricated part can be reinforced, and the structural stability of the whole building device is better.

As an implementation solution, the construction apparatus of the building element further includes a diagonal bracing component, the diagonal bracing component is arranged obliquely, one end of the diagonal bracing component is installed on the fixed structure, and the other end of the diagonal bracing component is connected with the first body part. The diagonal bracing assembly, the fixing structure and the supporting mechanism can form a triangular supporting structure, and the structural stability of the whole building device is further improved.

As an implementable scheme, the inclined strut assembly includes a first mounting seat, a second mounting seat and an inclined strut, the first mounting seat is connected with the first body portion, the second mounting seat is connected with the fixing structure, one end of the inclined strut is hinged to the first mounting seat, the other end of the inclined strut is hinged to the second mounting seat, and the length of the inclined strut is adjustable. By arranging the diagonal bracing assembly as a length-adjustable structure, not only can the position of the prefabricated member be adjusted, but also the problem of eversion of the final building element can be prevented.

As an implementable scheme, the supporting mechanism includes a plurality of length-adjustable supporting rods, a longitudinal supporting member and a transverse supporting member, the plurality of length-adjustable supporting rods are distributed in a matrix and are respectively supported on the fixed structure, the longitudinal supporting member extends along a first horizontal direction and is connected with two or more supporting rods arranged at intervals along the first direction, the transverse supporting member extends along a second horizontal direction and is connected with two or more supporting rods arranged at intervals along the second direction, the lower template assembly is supported by the longitudinal supporting member and/or the transverse supporting member, and the prefabricated member is supported by the longitudinal supporting member and/or the transverse supporting member. The prefabricated member and the lower template assembly can be uniformly and stably supported by the matching of the supporting rods, the longitudinal supporting members and the transverse supporting members, the construction safety is guaranteed, and the supporting rods are arranged into a length-adjustable structure, so that the height of the prefabricated member and the height of the lower template assembly can be conveniently and accurately adjusted, and good construction precision is guaranteed.

As an implementable scheme, the prefabricated member further comprises an upper flanging and a lower flanging which are respectively connected to two ends of the first body part, the lower flanging is abutted to the supporting mechanism, and a water dripping groove is formed in the lower side surface of the upper flanging and/or the lower side surface of the lower flanging. Through directly setting up the drip on the prefab, can effectively separate the flow of water on the prefab surface to avoid water to flow to the position that is not expected to flow, the drip directly sets up on the prefab and does not need to be under construction once more in the work progress, can further improve the efficiency of construction.

As an implementable solution, an installation groove is provided on the upper side surface of the upper flange. When other components are installed on the prefabricated member subsequently, the components can be installed in the installation grooves, so that the installation stability of the components is improved, and the attractiveness is improved.

The utility model has the beneficial effects that:

when the prefabricated member is used, the lower template component is butted with a position to be installed, a pouring space is formed among the lower template component, the prefabricated member and the upper template component for pouring concrete, the prefabricated member can be conveniently installed at the position to be installed, on one hand, the upper template component can be supported by arranging the adjusting component, on the other hand, the distance between the upper template component and the second end of the prefabricated member can be adjusted by adjusting the matching depth of the adjusting component and the first sleeve, and the other end of the upper template component is fixed, so that the inclination angle of the upper template component relative to the prefabricated member can be adjusted, the surface with the slope of a building component at the position can be directly formed, the subsequent construction processes are reduced, and the construction efficiency is improved; in addition, pre-buried first sleeve's mode of setting can avoid trompil on the prefab to can reduce the risk of follow-up leaking.

Drawings

FIG. 1 is a schematic structural view of a construction apparatus for a building element according to an embodiment of the present invention;

FIG. 2 is a sectional view A-A of FIG. 1;

FIG. 3 is a partially enlarged view of a construction apparatus for a building element according to an embodiment of the present invention;

fig. 4 is a schematic view of a balcony to be built by the construction device of the building member according to the embodiment of the present invention.

In the figure:

100-a rail; 200-balcony;

1-a support mechanism; 11-a support bar; 12-a transverse support; 13-a longitudinal support; 14-longitudinal connecting rods; 15-transverse tie bars;

2-lower template component; 21-side plate; 22-internal corner template;

3-a prefabricated member; 31-a first body portion; 32-a second body portion; 33-flanging; 34-downward flanging; 35-a drip; 36-a mounting groove;

4-an upper template component; 41-top plate; 42-square plate;

51-a first sleeve; 52-an adjustment assembly; 521-a bearing; 522-screw rod; 53-a support sleeve; 54-a second sleeve; 55-a first fastener; 56-a third sleeve;

6-diagonal tension connecting piece;

7-a diagonal bracing assembly; 71-a first mount; 72-a second mount; 73-diagonal brace.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not to be construed as limiting the utility model. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless expressly stated or limited otherwise, the recitation of a first feature "on" or "under" a second feature may include the recitation of the first and second features being in direct contact, and may also include the recitation that the first and second features are not in direct contact, but are in contact via another feature between them. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

The embodiment provides a building element construction device, which can be used in the technical field of building construction. Wherein the building element may be, but is not limited to, a balcony 200, a composite panel, etc. The present embodiment will be described by taking an example in which the balcony 200 is a building member, and the balcony 200 is constructed and molded by the construction apparatus of the present embodiment and installed in the living room of a house.

As shown in fig. 1 to 4, the building apparatus for building a building element includes a supporting mechanism 1, a lower formwork assembly 2, a prefabricated member 3, an upper formwork assembly 4, and an adjusting assembly 52, wherein a fixed structure is a structure that can ensure stable position and support relative to the ground, in this embodiment, the fixed structure may be a balcony 200 constructed on a lower floor, and in other embodiments, the fixed structure may be the ground, etc. The supporting mechanism 1 is arranged on a fixed structure, the lower template component 2 is supported on the supporting mechanism 1 and is butted with a position where a balcony 200 is to be installed, namely a living room, the prefabricated part 3 comprises a first body part 31 and a second body part 32, the first body part 31 is supported on the supporting mechanism 1, a first end of the second body part 32 is connected with the first body part 31, a second end of the second body part 32 extends and is supported on the lower template component 2, a first sleeve 51 is embedded in the second end of the second body part 32, one end of the upper template component 4 is connected with the first end of the second body part 32, the other end of the upper template component 4 is arranged at a distance from the second end of the second body part 32, and the lower template component 2, a pouring space is formed between the prefabricated part 3 and the upper template component 4, one end of the adjusting component 52 is connected to the upper template component 4, the other end of the adjusting component can be matched with the first sleeve 51, and the matching depth of the adjusting component 52 and the first sleeve 51 is adjustable.

When the building device for the building component is used, the lower template component 2 is butted with a position to be installed, a pouring space is formed among the lower template component 2, the prefabricated component 3 and the upper template component 4 for pouring concrete, the concrete is fully contacted with the prefabricated component 3, so that the prefabricated component 3 can be conveniently installed at the position to be installed, the upper template component 4 can be supported on one hand by arranging the adjusting component 52, the distance between the upper template component 4 and the second end of the prefabricated component 3 can be adjusted by adjusting the matching depth of the upper template component and the first sleeve 51, the other end of the upper template component 4 is fixed, the inclination angle of the upper template component 4 relative to the prefabricated component 3 can be adjusted, the surface with the slope of the building component can be directly formed, the subsequent construction process is reduced, and the building efficiency is improved; in addition, the pre-buried first sleeve 51 can be prevented from being perforated on the prefabricated part 3, so that the subsequent water leakage risk can be reduced. The prefabricated member 3 is used as a standard member, can be produced in batches, has high production efficiency, can be directly molded into a complex shape, can be directly used after being installed, does not need to be subjected to shape construction, and ensures the construction efficiency of the building member.

As shown in fig. 1 and 2, the supporting mechanism 1 includes a plurality of supporting rods 11 with adjustable lengths, a longitudinal supporting member 13 and a transverse supporting member 12, the supporting rods 11 with adjustable lengths are distributed in a matrix and are respectively supported on the fixed structure, the longitudinal supporting member 13 extends along a first horizontal direction and is connected to two or more supporting rods 11 arranged at intervals along the first direction, the transverse supporting member 12 extends along a second horizontal direction and is connected to two or more supporting rods 11 arranged at intervals along the second direction, in this embodiment, the first direction represents a longitudinal direction, and the second direction represents a transverse direction. The lower template assembly 2 is supported by longitudinal supports 13 and/or transverse supports 12, and the preforms 3 are supported by the longitudinal supports 13 and/or transverse supports 12. The prefabricated member 3 and the lower template component 2 can be uniformly and stably supported through the matching of the supporting rod 11, the longitudinal supporting member 13 and the transverse supporting member 12, the construction safety is ensured, the supporting rod 11 is set to be of a structure with adjustable length, the height of the prefabricated member 3 and the height of the lower template component 2 can be conveniently and accurately adjusted, and therefore good construction precision is ensured.

It is understood that the transverse support 12 may be directly connected to the support rod 11, or the transverse support 12 may be connected to the longitudinal support 13 and/or the lower template assembly 2 to support each other after the longitudinal support 13 and/or the lower template assembly 2 are mounted on the support rod 11, which is not limited herein. The support rod 11 may be any rod with adjustable length in the prior art without departing from the inventive concept of the present application, and is not limited herein.

Preferably, as shown in fig. 1 and 2, the supporting mechanism 1 further includes a longitudinal connecting rod 14 and a transverse connecting rod 15, the longitudinal connecting rod 14 extends along a first direction and is located in the middle of the supporting rod 11, the longitudinal connecting rod 14 can connect two or more supporting rods 11 arranged at intervals along the first direction, the transverse connecting rod 15 extends along a second direction and is located in the middle of the supporting rod 11, the transverse connecting rod 15 can connect two or more supporting rods 11 arranged at intervals along the second direction, and the arrangement of the longitudinal connecting rod 14 and the transverse connecting rod 15 can make the structure of the supporting mechanism 1 more stable and reliable.

Optionally, in this embodiment, as shown in fig. 1, the lower template assembly 2 includes a plurality of flat side plates 21 and a plurality of L-shaped internal corner templates 22, and in practical use, according to the actual shape of the balcony 200, a plurality of side plates 21, internal corner templates 22, longitudinal supporting members 13 and transverse supporting members 12 may be spliced with one another to meet the shape requirement of the lower surface portion of the balcony 200.

In this embodiment, as shown in fig. 1, the prefabricated member 3 includes a first main body 31, a second main body 32, an upper flange 33 and a lower flange 34, where the first main body 31 is vertically disposed, the upper flange 33 and the lower flange 34 are respectively disposed at upper and lower ends of the first main body 31, the second main body 32 is horizontally disposed, a first end of the second main body 32 is connected to a middle position of the first main body 31, a stepped structure is disposed at one end of the second main body 32 connected to the first main body 31, and the lower flange 34 is fixed on the supporting mechanism 1 through a longitudinal supporting member 13 corresponding to the position of the lower flange, so that the supporting mechanism 1 stably supports the prefabricated member 3.

Further, the upper plate assembly 4 includes a flat top plate 41 and a right-angle plate 42 in an L shape, and the top plate 41, the right-angle plate 42 and the prefabricated member 3 are spliced together to meet the shape requirement of the upper surface of the balcony 200. Specifically, the lower surface of the first body portion 31 abuts on the lateral support 12 and the lower template assembly 2, one end of the upper surface of the first body portion 31 provided with the step structure is connected with the upper template assembly 4, and a gap is formed between the other end and the upper template assembly 4 for pouring concrete to form the upper surface shape of the balcony 200.

Preferably, as shown in fig. 1, the construction apparatus of the building element further includes a diagonal connection member 6, and the diagonal connection member 6 is obliquely disposed and has one end connected to the first body part 31 and the other end connected to the bottom of the second body part 32. The diagonal draw connecting member 6, the first body part 31 and the second body part 32 constitute a triangular support structure, so that the prefabricated member 3 itself can be reinforced, and the structural stability of the whole construction device is better. Specifically, in the present embodiment, the diagonal connector 6 may be connected to the first body 31 by being connected to the longitudinal support 13 connected to the turned-down edge 34, and in other embodiments, the diagonal connector 6 may be directly connected to the first body 31, which is not limited herein.

Preferably, as shown in fig. 1, the construction apparatus of the building element further comprises a diagonal bracing assembly 7, the diagonal bracing assembly 7 being disposed obliquely and having one end mounted on the fixed structure and the other end connected with the first body portion 31. The bracing assembly 7, the fixed structure and the support mechanism 1 can form a triangular support structure, further improving the structural stability of the entire construction apparatus.

Specifically, the inclined strut assembly 7 includes a first mounting seat 71, a second mounting seat 72 and an inclined strut 73, the first mounting seat 71 is connected with the first body 31, the second mounting seat 72 is connected with the fixed structure, one end of the inclined strut 73 is hinged with the first mounting seat 71, the other end of the inclined strut 73 is hinged with the second mounting seat 72, and the length of the inclined strut 73 is adjustable. Through the length of adjusting diagonal brace 73, under the unchangeable condition in fixed knot structure position, can not only make the position of fine setting prefab 3, and can play the effect that the structure is strengthened to prefab 3 to prevent that the problem that turns up from appearing in prefab 3, and then guarantee that final fashioned balcony 200 precision is high, safe and reliable.

In this embodiment, as shown in fig. 1 and 3, the third sleeve 56 is embedded in the first body 31, an internal thread is provided in the third sleeve 56, and the first mounting seat 71 is connected to the third sleeve 56 through a second fastening member, so as to connect the first mounting seat 71 to the preform 3. Optionally, the diagonal brace 73 comprises a first threaded rod, a second threaded rod and a sleeve with an internal thread, the first threaded rod is hinged to the first mounting seat 71, the second threaded rod is hinged to the second mounting seat 72, two ends of the sleeve with the internal thread are respectively sleeved on the first threaded rod and the second threaded rod, and when the sleeve with the internal thread is rotated, the length of the whole diagonal brace 73 can be conveniently adjusted.

In order to realize that the adjusting assembly 52 adjusts the distance between the upper plate assembly 4 and the second body part 32 of the preform 3, as shown in fig. 3, the adjusting assembly 52 comprises a bearing 521 and a screw 522, one end of the screw 522 is rotatably connected with the upper plate assembly 4 through the bearing 521, the inner wall of the first sleeve 51 is provided with internal threads, and the other end of the screw 522 can be in threaded fit with the first sleeve 51. The inclination angle of the upper plate component 4 relative to the prefabricated component 3 can be adjusted by rotating the screw 522, and the structure is simple and the operation is convenient.

Preferably, as shown in fig. 3, the building element construction device further comprises a support sleeve 53, the support sleeve 53 is sleeved on the screw rod 522 and abuts between the upper plate assembly 4 and the second body part 32. The supporting sleeve 53 can support the upper plate assembly 4, so that the stability of the inclination angle of the upper plate assembly 4 is ensured, and a good construction effect is ensured. In this embodiment, as shown in fig. 2, a plurality of first sleeves 51 are embedded on the second body portion 32 at intervals along the extending direction of the longitudinal supporting member 13, and a plurality of adjusting assemblies 52 are correspondingly connected to the upper plate assembly 4, so that the distance between the upper plate assembly 4 and the second body portion 32 is uniform along the first direction, and the precision of the finally formed balcony 200 is ensured.

In this embodiment, as shown in fig. 3, a second sleeve 54 is embedded in the first end of the second body portion 32, and the building device of the building element further includes a first fastener 55, wherein the first fastener 55 penetrates through the upper plate assembly 4 and is matched with the second sleeve 54 to lock the first end of the second body portion 32 and the upper plate assembly 4. The connection of cope match-plate pattern subassembly 4 and prefab 3 can conveniently be realized through the cooperation of second fastener with second sleeve 54, and can avoid trompil on prefab 3 through pre-buried second sleeve 54 to can reduce the follow-up risk of leaking. In other embodiments, the connection between the first end of the second body portion 32 and the upper plate assembly 4 may be achieved in other manners, which are not limited herein.

Preferably, as shown in fig. 3, the lower side surface of the upper flange 33 and the lower side surface of the lower flange 34 are provided with drip grooves 35. In the process that the rainwater on the surface of the prefabricated member 3 flows along the surface of the prefabricated member, when the rainwater flows to the position of the water dripping groove 35, the rainwater cannot flow upwards, so that the water dripping groove 35 can effectively prevent the rainwater from flowing on the surface of the prefabricated member 3, and the rainwater is prevented from flowing indoors along the surface of the prefabricated member 3; and the drip 35 is directly set up on prefab 3 and does not need to be under construction again in the work progress, can further improve the efficiency of construction. Alternatively, the drip groove 35 may be a groove having a circular arc or a trapezoid cross section, which is not particularly limited herein.

Preferably, as shown in fig. 3 and 4, the upper flange 33 is provided on an upper side surface thereof with a mounting groove 36. Therefore, after the balcony 200 is formed, when the balustrade 100 is required to be installed on the edge of the balcony 200, the base of the balustrade 100 can be directly installed in the installation groove 36, so that the installation stability of the balustrade 100 is improved, and the base of the balustrade 100 can be prevented from protruding out of the upper surface of the upturned edge 33, thereby improving the overall aesthetic degree.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the utility model and are not to be construed as limitations of the embodiments of the present invention, but may be modified in various embodiments and applications by those skilled in the art according to the spirit of the present invention, and the content of the present description should not be construed as a limitation of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A building element construction apparatus comprising:

a support mechanism (1) arranged on the fixed structure;

the lower template component (2) is supported on the supporting mechanism (1);

the prefabricated part (3) comprises a first body part (31) and a second body part (32), the first body part (31) is supported on the supporting mechanism (1), a first end of the second body part (32) is connected with the first body part (31), a second end of the second body part extends and is supported on the lower template component (2), and a first sleeve (51) is embedded in a second end of the second body part (32);

one end of the upper plate component (4) is connected with the first end of the second body part (32), the other end of the upper plate component is arranged at a distance from the second end of the second body part (32), and a pouring space is formed among the lower plate component (2), the prefabricated part (3) and the upper plate component (4);

and one end of the adjusting component (52) is connected to the upper plate component (4), the other end of the adjusting component can be matched with the first sleeve (51), and the matching depth of the adjusting component (52) and the first sleeve (51) is adjustable.

2. The building element construction device according to claim 1, wherein the adjustment assembly (52) comprises a bearing (521) and a screw (522), one end of the screw (522) is rotatably connected with the upper plate assembly (4) through the bearing (521), the inner wall of the first sleeve (51) is provided with an internal thread, and the other end of the screw (522) can be screw-engaged with the first sleeve (51).

3. The building element construction device according to claim 2, further comprising a support sleeve (53), wherein the support sleeve (53) is sleeved on the threaded rod (522) and abuts between the upper plate assembly (4) and the second body portion (32).

4. The building element construction device according to claim 1, wherein a second sleeve (54) is embedded in the first end of the second body portion (32), the building element construction device further comprising a first fastener (55), the first fastener (55) passing through the upper plate assembly (4) and cooperating with the second sleeve (54) to lock the first end of the second body portion (32) and the upper plate assembly (4).

5. A building element construction unit according to any one of claims 1-4, c h a r a c t e r i z e d in that the first body part (31) is arranged perpendicular to the second body part (32), and that the building element construction unit further comprises diagonal draw connectors (6), which diagonal draw connectors (6) are arranged obliquely and have one end connected to the first body part (31) and the other end connected to the bottom of the second body part (32).

6. A building element construction unit according to any one of claims 1-4, c h a r a c t e r i z e d in that the building element construction unit further comprises a diagonal brace member (7), which diagonal brace member (7) is arranged obliquely and is mounted to the fixed structure at one end and connected to the first body part (31) at the other end.

7. Construction device for building elements according to claim 6, characterized in that the bracing assembly (7) comprises:

a first mounting seat (71) connected to the first body section (31);

a second mounting seat (72) connected with the fixed structure;

one end of the inclined strut (73) is hinged with the first mounting seat (71), the other end of the inclined strut is hinged with the second mounting seat (72), and the length of the inclined strut (73) is adjustable.

8. A building element construction unit according to any one of claims 1-4, characterised in that the support means (1) comprises:

a plurality of length-adjustable support rods (11) which are distributed in a matrix and are respectively supported on the fixed structure;

a longitudinal support member (13) extending in a first horizontal direction and connecting two or more support rods (11) spaced apart in the first direction;

a transverse support (12) extending in a second horizontal direction and connecting two or more of the support bars (11) spaced apart in the second direction;

the lower plate assembly (2) is supported on the longitudinal supports (13) and/or the transverse supports (12);

the preforms (3) are supported on the longitudinal supports (13) and/or the transverse supports (12).

9. The building element construction device according to any one of claims 1-4, wherein the prefabricated member (3) further comprises an upper flange (33) and a lower flange (34) connected to both ends of the first body portion (31), respectively, the lower flange (34) abutting against the support mechanism (1), and a drip groove (35) is provided on a lower side surface of the upper flange (33) and/or a lower side surface of the lower flange (34).

10. The construction device of a building element as claimed in claim 9, wherein the upper flange (33) is provided at an upper side surface thereof with a mounting groove (36).

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