CN218803008U - Modular prefabricated unit forming die - Google Patents

Abstract

The utility model discloses a modular prefabricated unit forming die, which comprises a bottom die component for forming a bottom plate of a modular prefabricated unit and two groups of first vertical die components for forming a wall body of the modular prefabricated unit respectively; the bottom die assembly is provided with a bottom plate die cavity; the two groups of first vertical die assemblies are vertically arranged on the bottom die assembly and are respectively positioned on two opposite end sides of the bottom plate die cavity to be opposite at intervals; and each first vertical mold component is internally provided with a wall body mold cavity, and the wall body mold cavity is communicated with the bottom plate mold cavity. The utility model discloses a prefabricated unit forming die of modularization through the cooperation concatenation of die block subassembly and upright mould subassembly, forms the mould that is used for making whole modularization prefabricated unit, realizes the whole prefabrication of modularization prefabricated unit, need not to pour the assembly at the scene again, improves site architecture's assembly speed and quality, saves the manual work to reduce building rubbish's production.

Description

Modular prefabricated unit forming die

Technical Field

The utility model relates to a building technical field especially relates to a prefabricated unit forming die of modularization.

Background

The assembly type building adopts a brand-new building technology, components for the building are processed and manufactured in a factory and then transported to a construction site for assembly, and the assembly type building is the mainstream of the development of the international building industry at present. The assembly type building can greatly improve the building speed, effectively control the engineering quality, save the labor and reduce the generation of building rubbish. However, at present, fabricated concrete members are only used in urban high-rise buildings, many single-function component parts, such as prefabricated columns, prefabricated staircases, prefabricated composite slabs, prefabricated shear walls, etc., are produced in batches in factories, and few molds and production methods are used for modular members (i.e., each room is used as an individual module unit, and a structure forming a main body of each room is produced in one member in a unified manner, so that each room is an integrated box-type prefabricated member).

Meanwhile, the conventional steel die cannot meet the requirement of flexible and variable structure form of the modular member, and the limitation is brought to the realization of the diversification of the building functions of the modular unit.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in providing a realize the whole prefabricated unit forming die of prefabricated unit of modularization.

The utility model provides a technical scheme that its technical problem adopted is: the forming die comprises a bottom die assembly and two groups of first vertical die assemblies, wherein the bottom die assembly is used for forming a bottom plate of a modular prefabricated unit;

the bottom die assembly is provided with a bottom plate die cavity; the two groups of first vertical die assemblies are vertically arranged on the bottom die assembly and are respectively positioned on two opposite end sides of the bottom plate die cavity to be opposite at intervals;

and each first vertical mold component is internally provided with a wall body mold cavity, and the wall body mold cavity is communicated with the bottom plate mold cavity.

Preferably, the bottom die assembly comprises a bottom die table and two first side baffles; the two first edge baffles are respectively parallel to the two long edges of the bottom die table and are oppositely arranged on the bottom die table at intervals, and the bottom die cavity between the two first edge baffles is defined on the bottom die table;

each first vertical mould assembly comprises an outer mould plate and an inner mould plate; the outer template is vertically arranged on the bottom template table and connected between the end parts of the two first edge baffles; the inner die plates are arranged on one side, facing the other die erecting assembly, of the outer die plate at intervals, are vertical to the bottom die table and are arranged on the two first side baffles; the space between the outer formwork and the inner formwork forms the wall body die cavity.

Preferably, the bottom die assembly further comprises a plurality of support legs which are distributed at intervals and supported below the bottom die table.

Preferably, the first formwork assembly further comprises at least one cavity housing for forming a hand hole at an upper end or a lower end of the wall body;

the cavity housing is mounted at an upper end or a lower end of a surface of the inner mold plate facing the outer mold plate.

Preferably, the first vertical die assembly further comprises a frame body for forming a door opening or a window; the frame body is arranged in the wall body die cavity.

Preferably, the modular precast unit forming mold further comprises at least one set of second vertical mold assemblies for forming a partition wall of the modular precast unit;

the second vertical die assembly is vertically arranged on the bottom die assembly and is positioned between the two first vertical die assemblies in parallel;

and a partition wall mold cavity is arranged in the second vertical mold assembly and communicated with the bottom plate mold cavity.

Preferably, the second formwork assembly comprises a first formwork and a second formwork;

the first template and the second template are oppositely arranged at intervals and are supported on the bottom template platform through a supporting assembly, and the partition wall mold cavity is formed by the intervals between the first template and the second template.

Preferably, the modular precast unit forming mold further comprises a top mold assembly installed at the top of the wall body for forming a top plate of the modular precast unit.

Preferably, the top die assembly comprises a fixed support arranged at the top of the wall body, an overhead die table transversely arranged between two adjacent wall bodies and two second side baffles;

two ends of the overhead mold table are respectively connected to the two fixing supports, the two second side baffles are oppositely arranged on two opposite sides of the overhead mold table at intervals, and a top plate mold cavity is defined on the overhead mold table.

Preferably, the top die assembly further comprises a construction platform connected to at least one side of the overhead die table.

Preferably, the modular precast unit forming mold further comprises a top mold assembly installed at the top of the wall body for forming a top plate of the modular precast unit.

Preferably, the top die assembly comprises a fixed support arranged at the top of the wall body, an overhead die table transversely arranged between two adjacent wall bodies and two second side baffles;

two ends of the overhead mold table are respectively connected to the two fixing supports, the two second side baffles are oppositely arranged on two opposite sides of the overhead mold table at intervals, and a top plate mold cavity is defined on the overhead mold table.

Preferably, the top die assembly further comprises a construction platform connected to at least one side of the overhead die table.

The utility model has the advantages that: the die for manufacturing the integral modular prefabricated unit is formed by matching and splicing the bottom die assembly and the vertical die assembly, so that the integral prefabrication of the modular prefabricated unit is realized, pouring and assembling are not required on site, the assembling speed and quality of a site building are improved, labor is saved, and the generation of construction waste is reduced.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic structural view of a modular prefabricated unit forming die according to a first embodiment of the present invention;

fig. 2 is a schematic structural view of a frame body on an outer formwork in the modular prefabricated unit forming die according to the first embodiment of the invention;

fig. 3 is a schematic structural view of a modular prefabricated unit manufactured by the modular prefabricated unit forming die according to the first embodiment of the invention;

fig. 4 is a schematic structural view of a top mold assembly of a modular prefabricated unit forming mold according to a second embodiment of the invention on a wall;

fig. 5 is a top view of the top die assembly of the modular prefabricated unit forming die according to the second embodiment of the present invention;

FIG. 6 is an exploded view of the mounting bracket of FIG. 5;

fig. 7 is a schematic perspective view of the top mold assembly of the modular prefabricated unit forming mold according to the second embodiment of the present invention on a wall;

fig. 8 is a schematic structural view of a modular prefabricated unit manufactured by the modular prefabricated unit forming die according to a second embodiment of the present invention.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the utility model discloses prefabricated unit forming die of modularization of first embodiment, as the mould of the prefabricated unit of modularization, through the shaping for the prefabricated unit of modularization behind the concreting, this prefabricated unit forming die of modularization can include die block subassembly 10, two sets of perpendicular two sets of first upright mould subassemblies 20 that set up on the relative both ends of die block subassembly 10 respectively.

The bottom die assembly 10 is used for forming a bottom plate of the modular prefabricated unit, and the first vertical die assembly 20 is used for forming a wall of the modular prefabricated unit. The bottom die assembly 10 is provided with a bottom plate die cavity; the two sets of first vertical mold assemblies 20 are vertically arranged on the bottom mold assembly 10 and are respectively positioned at two opposite end sides of the bottom plate mold cavity to be opposite at intervals. Each first vertical mold assembly 20 is internally provided with a wall mold cavity, and the wall mold cavity is communicated with the bottom plate mold cavity.

Structurally, the bottom die assembly 10 may include a bottom die table 11, two first side dams 12, and a plurality of legs 13. The base mold 11 is a polygonal base made of metal such as steel material, for example, a rectangular base having long and short sides. A plurality of stabilizer blades 13 are distributed at intervals and supported below the bottom die platform 11, the bottom die platform 11 is supported above the ground for a certain distance, and the height and the levelness of the bottom die platform 11 can be adjusted through the lifting arrangement of the stabilizer blades 13, so that the precision of the prefabricated part production is ensured. The two first edge baffles 12 are respectively arranged on the bottom die table 11 correspondingly and parallel to the two long edges of the bottom die table 11 at intervals, and define a bottom plate die cavity on the bottom die table 11. The bottom plate can be formed after curing by placing reinforcing steel bars in the bottom plate mold cavity and pouring concrete.

First side baffle 12 passes through coupling assembling such as bolt assembly and can dismantle to be fixed on end mould platform 11, makes things convenient for the dismouting. The first edge dams 12 on each side of the bottom mold table 11 may be formed of a unitary steel plate or may be formed of a plurality of steel plates joined together. The first edge baffle 12 formed by connecting a plurality of steel plates is convenient to disassemble and transport.

The two sets of first vertical mold assemblies 20 are respectively arranged on the bottom mold table 11 corresponding to the short sides of the bottom mold table 11 at intervals, and simultaneously, the two opposite sides of the bottom plate mold cavity except the side where the first side baffle 12 is located are sealed, and the two sets of first vertical mold assemblies can also be used as the boundaries of the bottom plate mold cavity.

Specifically, each first formwork assembly 20 may include an outer formwork 21, an inner formwork 22 and a first mouth plate 23. The outer template 21 is vertically arranged on the bottom die table 11 and connected between the end parts of the two first side baffles 12, the inner template 22 is arranged on one side of the outer template 21 facing the other vertical die assembly 20 at intervals, and the two first side baffles 12 are vertically arranged and simultaneously cross over the two first side baffles 12; the space between the outer and inner forms 21, 22 forms the wall cavity. The first closing plates 23 correspond to two sides of the wall body mold cavity in the height direction, are arranged between the outer mold plate 21 and the inner mold plate 22, and close the two sides of the wall body mold cavity in the height direction.

On the bottom die table 11, the bottom of the outer die plate 21 and the bottom of the inner die plate 22 are detachably connected to the bottom die table 11 through bolt assemblies and the like, and are detachable after use, thereby facilitating transportation, storage and the like. The outer and inner formworks 21 and 22, respectively, may be formed of a truss structure.

The space between the inner formwork 22 and the outer formwork 21 is set according to the thickness of the wall to be formed, and the first closing plate 23 has a corresponding width corresponding to the space. The first closing plates 23 are provided in two sets corresponding to two sides of the wall mold cavity in the height direction, and each set of the first closing plates 23 is arranged on one side of the wall mold cavity in the height direction. Also, the first closing plate 23 detachably connects the outer form 21 and the inner form 22 by a bolt assembly or the like.

In addition, since the inner form 22 is disposed above the first edge dam 12, in order to prevent the bottom surface of the inner form 22 from contacting the poured concrete and affecting the shape and appearance of the bottom plate, the inner form 22 can be supported by the supporting member 24 at a certain distance above the first edge dam 12, and the distance does not need to be too large, and only needs to make the bottom surface of the inner form 22 and the top surface of the first edge dam 12 not be on the same horizontal plane. The support assembly 24 is preferably supported and fixed to the base mold table 11 and located outside the first edge dam 12. The support assembly 24 may comprise a steel tube or rod.

According to the requirement of having doors and windows on the wall, the first vertical mold assembly 20 further comprises a frame 25 for forming a door opening or window. As shown in fig. 1 and 2, the frame 25 is mounted in the wall cavity, and may be fixed to a surface of the outer form 21 facing the inner form 22 or a surface of the inner form 22 facing the outer form 21, for example.

Further, according to the modular prefabricated unit having the partition wall, the modular prefabricated unit forming mold of the present embodiment may further include a second vertical mold assembly 30 for forming the partition wall of the modular prefabricated unit. The second vertical mold assembly 30 has one or more sets according to one or more partition walls.

The second vertical mold assembly 30 is vertically disposed on the bottom mold assembly 10 and is positioned between the two first vertical mold assemblies 20 in parallel. The second vertical mold assembly 30 has a partition cavity therein, and the partition cavity is communicated with the bottom plate cavity of the bottom mold assembly 10.

The second vertical die assembly 30 may specifically include a first die plate 31, a second die plate 32, and a second closing plate 33.

The first template 31 and the second template 32 are oppositely arranged at intervals and are respectively supported on the bottom die table 11 through a support assembly 34, and the intervals between the first template 31 and the second template 32 form a partition wall die cavity. The second closing plates 33 correspond to both sides in the height direction of the partition wall cavity and are disposed between the first and second mold plates 31 and 32 to close both sides in the height direction of the partition wall cavity.

The second closing plates 33 have two sets corresponding to both sides in the height direction of the partition wall cavity, and each set of the second closing plates 33 is provided on one side in the height direction of the partition wall cavity. And, the second closing plate 33 detachably connects the first template 31 and the second template 32 by a bolt assembly or the like.

The first and second formworks 31 and 32, respectively, may be formed of a truss structure. The support assembly 34 supports the first formwork 31 and the second formwork 32, so that the bottom surfaces of the first formwork 31 and the second formwork 32 are supported a certain distance above the first edge fence 12 and are not on the same horizontal plane with the top surface of the first edge fence 12, and the bottom surfaces of the first formwork 31 and the second formwork 32 are prevented from contacting poured concrete to affect the forming and appearance of the bottom plate.

The second vertical mold assembly 30 further includes a frame (not shown) for forming a door opening or window according to the requirement of a door or window on the partition wall. The frame is mounted in the cavity of the partition wall and may be fixed to the surface of the first form 31 facing the second form 32 or to the surface of the second form 32 facing the first form 31, for example.

The modular precast unit forming die of the first embodiment is used to produce a modular precast unit as a floor of a building. As shown in fig. 3, the modular prefabricated unit 100 manufactured by the modular prefabricated unit forming mold of the first embodiment includes a base plate 110, two walls 120 integrally formed at opposite lateral ends of the base plate 110, and a partition wall 130 integrally formed on the base plate 110 and positioned between the two walls 120. The wall 120 is provided with a window or a door opening, and the partition 130 is provided with a window or a door opening.

In order to facilitate the assembly of other modular prefabricated units above the bottom modular prefabricated unit 100, the top surface of each wall 120 is provided with a connecting hole 102 extending downwards, and the upper end of the inner surface of each wall 120 is provided with a hand hole 101 communicated with the connecting hole 102. Bolts are arranged in the connecting holes 102 and can be communicated with the connecting holes of the modular prefabricated units above, and the hand holes 101 are convenient for workers to operate the bolts and lock nuts on the bolts.

Referring to fig. 1 to 3, in the modular prefabricated unit forming mold of the first embodiment corresponding to the formation of the hand hole in the wall 120, the first vertical mold assembly 20 further includes at least one cavity housing (not shown) for forming the hand hole 102 at the upper end or the lower end of the wall 120. The cavity housing may be mounted at an upper end or a lower end of a surface of the inner mold plate 22 facing the outer mold plate 21.

The cavity shell can be a middle shell and closed shell structure formed by welding steel plates, and one surface of the cavity shell can be provided with a through hole. In the wall mold cavity, the cavity shell is placed with the side with the through hole facing upwards. Before the wall concrete is cast, the surface of the cavity shell is coated with a release agent, so that the cavity shell can be conveniently separated after the subsequent wall is formed. The through hole is used for being communicated with a connecting hole 102 formed in a subsequent wall body, and further communicating the connecting hole 102 with a hand hole 101 formed at the position of the cavity shell.

In addition, in order to facilitate the assembly adjustment of the first formwork assemblies 20 and the adjustment after the subsequent concrete pouring, an operation platform 26 may be provided on the outer side of each first formwork assembly 20, and a worker may operate the platform 26 up and down through stairs.

Referring to fig. 1 and 4, the second embodiment of the present invention provides a modular prefabricated unit forming mold, which comprises a bottom mold assembly 10, two sets of first vertical mold assemblies 20 respectively vertically disposed at two opposite ends of the bottom mold assembly 10, a second vertical mold assembly 30 vertically disposed at the bottom mold assembly 10 and disposed between the two first vertical mold assemblies 20, and a top mold assembly 40. The top die assembly 40 is installed on the top of the formed wall body and used for forming the top plate of the modular prefabricated unit to realize that the top plate is integrally connected to the wall body.

The bottom mold assembly 10, the first mold erecting assembly 20, the second mold erecting assembly 30, and the like can all refer to the first embodiment, and are not described herein again.

In this embodiment, the top mold assembly 40 includes a fixing bracket 41 installed on the top of the wall 120, an overhead mold table 42 transversely disposed between two adjacent walls 120, and two second side guards 43.

The two ends of the overhead mold 41 are respectively connected to the two fixed brackets 41, and the two second side baffles 43 are oppositely arranged at two opposite sides of the overhead mold 41 at intervals to define a top plate mold cavity on the overhead mold 41.

In one embodiment, when two walls 120 are formed on the bottom side of the modular prefabricated unit, and the two walls 120 are spaced apart from each other, the fixing bracket 41 is installed on the top of each wall 120, and the formwork 42 is transversely disposed between the two walls 120 and parallel to the bottom plate 110. Two ends of the overhead mold table 42 are respectively fastened and fixed to the two fixing brackets 41 by fasteners such as bolts. The two second side baffles 43 are parallel to the two long sides of the bottom plate 110 and are fastened to the two opposite sides of the overhead mold 41 by fasteners such as bolts.

In another embodiment, when two walls 120 spaced apart from each other and a partition 130 between the walls 120 are formed on the bottom side of the modular prefabricated units, the fixing brackets 41 are installed on the top of each wall 120 and the partition 130, and the overhead mold table 42 is transversely disposed between the adjacent walls 120 and the partition 130 and parallel to the bottom plate 110. Two ends of each overhead mold table 42 are respectively fastened and fixed to two adjacent fixing brackets 41 by fasteners such as bolts. The two second side baffles 43 are parallel to the two long sides of the bottom plate 110 and are fastened to the two opposite sides of the overhead mold 41 by fasteners such as bolts.

Wherein the fixing bracket 41 is fixed on the top of the wall 120 in a counter-pulling manner by a fastener such as a bolt. The overhead mold table 42 is suspended on the top of the wall 120, and through the connection with the fixing bracket 41, the self weight and the upper load are transmitted to the wall 120, and the wall 120 supports the overhead mold table to a certain extent.

As shown in fig. 5 to 7, the fixing bracket 41 may specifically include an inner mold base 411, an outer mold base 412, a positioning support 414, and two sideforms 413. The inner die holder 411 is integrally in a strip-shaped structure and is locked at the upper end of the inner side of the wall 120 facing the other wall 120 through a fastener such as a bolt; the outer die holder 412 is fastened to the upper end of the outer side of the wall 120, which faces away from the other wall 120, by a fastener such as a bolt. The two sideforms 413 are fastened to the upper ends of the two opposite sides (the sides corresponding to the thickness) of the wall 120 by bolts or other fastening members. The upper end of the wall 120 is provided with a connection hole penetrating through two opposite surfaces, so that the inner die holder 411 and the outer die holder 412 can be locked at both sides of the upper end of the wall 120 in a counter-pulling manner by bolts. The inner die holder 411 and the outer die holder 412 are both of a long strip structure, and are made of steel plates or the like, and the lengths of the inner die holder and the outer die holder are both equal to the length of the wall 120 (the length of the wall spanning the bottom plate 110).

The positioning pedestal 414 is attached to the wall 120 by a fastener such as a bolt and is located immediately below the inner die holder 411. The end of the overhead die table 41 can be inserted into the inner die holder 411 and connected to the inner die holder 411 by bolts or the like.

Further, the top die assembly 40 may also include a construction platform 44 attached to at least one side of the overhead die table 42. Construction platform 44 and second side baffle 43 are located the homonymy of built on stilts mould platform 42 to construction platform 44 still is located the outside of second side baffle 43, makes things convenient for the staff to adjust top mould assembly 40 in the top, places operations such as reinforcing bar in the roof die cavity.

The modular precast unit forming mold of the second embodiment is used to produce modular precast units forming a single story building or to produce modular precast units forming a second or higher story of the building. As shown in fig. 8, the modular prefabricated unit 200 manufactured by the modular prefabricated unit forming mold of the second embodiment includes a base plate 210, two walls 220 integrally formed at opposite lateral ends of the base plate 210, a partition wall 230 integrally formed on the base plate 210 between the two walls 220, and a top plate 240 integrally formed on the top of the wall 120 and the partition wall 130. The wall 220 is provided with a window or a door opening, and the partition 230 is provided with a window or a door opening.

In order to facilitate the assembly of other modular prefabricated units below the modular prefabricated unit 200, a connecting hole 202 extending upwards is formed in the bottom surface of each wall 220, and a hand hole 201 communicated with the connecting hole 202 is formed in the upper end of the inner surface of each wall 220. Bolts are arranged in the connecting holes 202 and can be communicated with the connecting holes of the modular prefabricated units below, and the hand holes 201 are convenient for workers to operate the bolts and lock nuts on the bolts.

Referring to fig. 1 to 3, in the modular prefabricated unit forming mold of the second embodiment corresponding to the formation of the hand hole 201 in the wall 220, the first vertical mold assembly 20 further includes at least one cavity housing (not shown) for forming the hand hole 202 at the upper or lower end of the wall 220. The cavity housing may be mounted at an upper end or a lower end of a surface of the outer mold plate 21 facing the inner mold plate 22.

The cavity shell can be a middle shell and closed shell structure formed by welding steel plates, and one surface of the cavity shell can be provided with a through hole. In the wall molding cavity, the cavity shell is placed with the side having the through-hole facing downward. Before the wall concrete is cast, the surface of the cavity shell is coated with a release agent, so that the cavity shell can be conveniently separated after the subsequent wall is formed. The through hole is used for being communicated with a connecting hole 202 formed in a subsequent wall body, and further communicating the connecting hole 202 with a hand hole 201 formed at the position of the cavity shell.

According to the utility model discloses an among the prefabricated unit forming die of modularization, the size of die block subassembly, the size quantity of founding the mould subassembly etc. all can adjust the setting according to actual required prefabricated unit of modularization, realize that the structural style flexibility and the function of the prefabricated unit of modularization are diversified.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (9)

1. A modular prefabricated unit forming die is characterized by comprising a bottom die assembly for forming a bottom plate of a modular prefabricated unit and two groups of first vertical die assemblies for forming a wall of the modular prefabricated unit respectively;

the bottom die assembly is provided with a bottom plate die cavity; the two groups of first vertical die assemblies are vertically arranged on the bottom die assembly and are respectively positioned on two opposite end sides of the bottom plate die cavity to be opposite at intervals; the bottom die assembly comprises a bottom die table and two first side baffles; the two first edge baffles are respectively parallel to the two long edges of the bottom die table and are oppositely arranged on the bottom die table at intervals, and the bottom die cavity between the two first edge baffles is defined on the bottom die table;

each first vertical die assembly is internally provided with a wall die cavity, and the wall die cavity is communicated with the bottom plate die cavity; each first vertical mould assembly comprises an outer mould plate and an inner mould plate; the outer template is vertically arranged on the bottom template table and connected between the end parts of the two first edge baffles; the inner die plates are arranged on one side, facing the other die erecting assembly, of the outer die plate at intervals, are vertical to the bottom die table and are arranged on the two first side baffles; and the space between the outer template and the inner template forms the wall body die cavity.

2. The modular precast unit forming die of claim 1, wherein the bottom die assembly further comprises a plurality of support legs spaced apart and supported below the bottom die table.

3. The modular precast unit forming mold according to claim 1, wherein the first vertical mold assembly further comprises at least one cavity housing for forming a hand hole at an upper end or a lower end of the wall body;

the cavity housing is mounted at an upper end or a lower end of a surface of the inner mold plate facing the outer mold plate.

4. The modular precast unit forming die of claim 1, wherein the first vertical die assembly further comprises a frame for forming a door opening or a window; the frame body is arranged in the wall body die cavity.

5. The modular precast unit forming mold according to claim 1, further comprising at least one set of second vertical mold assemblies for forming a partition wall of the modular precast unit;

the second vertical die assembly is vertically arranged on the bottom die assembly and is positioned between the two first vertical die assemblies in parallel;

and a partition wall mold cavity is arranged in the second vertical mold assembly and communicated with the bottom plate mold cavity.

6. The modular precast unit forming die of claim 5, wherein the second vertical die assembly comprises a first die plate, a second die plate;

the first template and the second template are oppositely arranged at intervals and are supported on the bottom template platform through a supporting assembly, and the partition wall mold cavity is formed by the intervals between the first template and the second template.

7. A modular precast unit forming die according to any one of claims 1 to 6, further comprising a top die assembly installed on top of the wall body for forming a top plate of the modular precast unit.

8. The modular precast unit forming die of claim 7, wherein the top die assembly comprises a fixed bracket mounted on the top of the wall body, an overhead die table transversely arranged between two adjacent wall bodies, and two second side baffles;

two ends of the overhead mold table are respectively connected to the two fixing supports, the two second side baffles are oppositely arranged on two opposite sides of the overhead mold table at intervals, and a top plate mold cavity is defined on the overhead mold table.

9. The modular precast unit forming die of claim 8, wherein the top die assembly further comprises a construction platform connected to at least one side of the overhead die table.

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