CN110757626B - A prefabricated building tower base production mold - Google Patents

Abstract

The present invention discloses a mold for making a prefabricated building tower base, comprising a mold bottom plate, a mold side support plate with mirror distribution on the mold bottom plate, a mold top plate on one end of the mold side support plate, a steel support bracket top plate on the other end of the mold side support plate, a pre-buried pipe fixing rod on the upper end of the mold side support plate, a first support rail distributed in an array at the lower end of the mold bottom plate, a second support rail distributed in an array at the lower end of the mold bottom plate, a third support rail distributed in an array between the first support rails at both ends, and side clamp fixing plates distributed in an array on both sides of the mold bottom plate. The prefabricated tower base is made between the mold bottom plate, the mold side support plate, the mold top plate and the steel support bracket top plate. The present invention is simple to operate, convenient for operators to make and hoist, and improves production efficiency. At the same time, the mold is quick to disassemble and install, which reduces the labor intensity of operators, and the pre-buried support is convenient, which reduces the working difficulty of operators.

Description

Prefabricated building tower foundation manufacturing mold

Technical Field

The invention relates to the field of assembled buildings, in particular to a prefabricated building tower foundation manufacturing die.

Background

A building assembled from prefabricated parts at a worksite is called an assembled building. The prefabricated building is divided into five types of block buildings, plate buildings, box type buildings, framework plate buildings and lifting plate and layer buildings according to the form and construction method of the prefabricated components, the prefabricated building is planned to be comprehensively popularized and assembled nationally in 2016 years, breakthrough progress is made, a large number of building parts of the prefabricated building are manufactured and processed by workshops, the types of the components mainly include external wallboards, internal wallboards, superimposed plates, balconies, air-conditioning plates, stairs, prefabricated beams, prefabricated columns and the like, a large number of on-site assembly operations are greatly reduced compared with the original cast-in-place operation, the integrated design and construction of the building and decoration are adopted, the decoration can be synchronously carried out along with the main body construction, the standardized and managed informatization of the design is achieved, the higher the standard of the components is, the production efficiency is, the corresponding component cost is reduced, the digital management of a factory is matched, the cost performance of the whole prefabricated building is higher and higher, the carbon emission is reduced. The main forming tool of the prefabricated building is a die, the design of the die determines the building efficiency of the prefabricated building, and aiming at the situation, a prefabricated building tower foundation manufacturing die is provided.

Disclosure of Invention

The invention aims to provide a prefabricated building tower foundation manufacturing die which is simple to operate, convenient for operators to manufacture and lift, and capable of improving production efficiency, and meanwhile, the die is rapid to detach and install, so that the labor intensity of the operators is reduced, the pre-buried support is convenient, and the working difficulty of the operators is reduced.

The aim of the invention can be achieved by the following technical scheme:

The utility model provides a prefabricated building tower foundation preparation mould, which comprises a die bottom plate, be equipped with the mould side backup pad that the mirror image distributes on the mould bottom plate, mould side backup pad one end is equipped with the mould roof jointly, the mould side backup pad other end is equipped with the reinforcing bar support roof jointly, mould side backup pad upper end still is equipped with pre-buried pipe dead lever jointly, the mould bottom plate lower extreme is equipped with the first supporting rail of array distribution, the mould bottom plate lower extreme still is equipped with the second supporting rail of array distribution, the both sides on the mould bottom plate still are equipped with the first mounting hole of array distribution, still be equipped with the third supporting rail of array distribution between the first supporting rail in both ends, be equipped with the groove of array distribution on the third supporting rail, be equipped with first supporting diaphragm between two first supporting rails in the middle, the mould bottom plate lower extreme still is equipped with the second supporting diaphragm of array distribution, first supporting rail both ends all are equipped with first towing the dress hole, the mould bottom plate both ends still are equipped with the second mounting hole of array distribution, the mould bottom plate both sides still are equipped with the side splint fixed plate of array distribution, mould bottom plate, mould side backup pad, prefabricated tower foundation is made between mould roof and the support roof.

Further, mould side backup pad one side is equipped with first lightweight groove, first lightweight groove one side outside still is equipped with the side splint of array distribution, both sides all are equipped with the third mounting hole of array distribution about the first lightweight groove, first lightweight groove both sides are equipped with the fourth mounting hole of array distribution, be equipped with the second on the side splint and drag the dress hole, the second drags the dress hole top and is equipped with the threaded rod hole of array distribution, mould side backup pad top is equipped with the hoist and mount hook dead lever fixed column of array distribution, be equipped with hoist and mount hook dead lever groove on the hoist and mount hook dead lever fixed column, mould side backup pad upper end still is equipped with the handling hanging piece of array distribution, be equipped with the lifting hook hole on the handling hanging piece, handling hanging piece both sides still are equipped with supplementary reinforcing block, still be equipped with circular trompil in the mould side backup pad.

Further, be equipped with hollow cylinder in the circular trompil, hollow cylinder one side is equipped with the side trompil that runs through hollow cylinder, and hollow cylinder one side still is equipped with the tie rod hole that runs through hollow cylinder, is equipped with circular baffle in the circular trompil, is equipped with the square iron plate slot of second on the circular baffle, ties up downthehole tie rod that is equipped with of tie rod, ties up rod hole both ends and all is equipped with first fastening screw, and both sides still are equipped with the auxiliary fixing board that mirror image distributes about the hollow cylinder, and auxiliary fixing board both sides still are equipped with the reinforcing plate, tie rod pass auxiliary fixing board.

Further, the embedded pipe dead lever lower extreme is equipped with the embedded pipe fixed plate, and embedded pipe dead lever both ends are equipped with fixed foot, and fixed foot lower extreme is equipped with fixed film, still is equipped with the fifth mounting hole that the array distributes on the fixed film, still is equipped with the supporting shoe on the fixed film, and embedded pipe dead plate upper end is equipped with supplementary dead lever, still is equipped with the connection piece of fixing on the embedded pipe dead lever on the supplementary dead lever, and supplementary dead lever both sides still are equipped with the horizontal piece, are equipped with the embedded pipe fixed hole of array distribution on the embedded pipe dead lever.

Further, reinforcing bar support roof one side is equipped with the second lightweight groove, be equipped with the first steel sheet of orthogonal staggered distribution in the second lightweight groove, be equipped with the reinforcing bar retainer plate groove in the second lightweight groove, first steel sheet and reinforcing bar support roof outside are equipped with the third of array distribution and drag the dress hole, still be equipped with interior reinforcing bar retainer plate on the first steel sheet and wear the groove, be equipped with the reinforcing bar retainer plate in the reinforcing bar retainer plate groove, be equipped with the reinforcing bar fixed orifices of axial array distribution on the reinforcing bar retainer plate, still be equipped with the arm-tie in the reinforcing bar retainer plate, be equipped with the lifting hook reinforcing bar groove of array distribution on the arm-tie, reinforcing bar support roof lower extreme is equipped with the sixth mounting hole of array distribution, still be equipped with the second steel sheet of staggered distribution on the arm-tie, all be equipped with the fourth on the second steel sheet and drag the dress hole, reinforcing bar support roof openly still is equipped with first square iron piece slot, the arm-tie openly still is equipped with the fifth of axial array distribution.

Further, the die top plate and the steel bar bracket top plate have the same structure except for the central position structure.

Further, the prefabricated tower foundation upper end is equipped with the reinforcing bar that axial array distributes, still is equipped with the reinforcing bar net on the prefabricated tower foundation, and prefabricated tower foundation upper end is equipped with the first lifting hook reinforcing bar that axial array distributes, and prefabricated tower foundation one side is equipped with the second lifting hook reinforcing bar that array distributes, and second lifting hook reinforcing bar and first lifting hook reinforcing bar bury prefabricated tower foundation inside top and all are equipped with reinforcer, and prefabricated tower foundation upper end is equipped with first square iron piece, and prefabricated tower foundation both sides are equipped with the square iron piece of second.

Further, a tensioning rod is arranged in the threaded rod hole, second fastening screws are arranged at two ends of the tensioning rod, and a hoisting hook fixing rod is arranged in the hoisting hook fixing rod groove.

The invention has the beneficial effects that:

1. the invention has simple operation, is convenient for the manufacture and lifting of operators, improves the production efficiency, and has quick die disassembly and installation;

2. the invention reduces the labor intensity of operators, has convenient pre-buried support and reduces the working difficulty of the operators.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a prefabricated building foundation making mold structure according to the present invention;

FIG. 2 is a schematic view of a portion of a prefabricated building foundation making mold according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present invention;

FIG. 4 is a die of the invention a schematic structural diagram of the bottom plate;

FIG. 5 is a die of the invention a schematic structural diagram of the bottom plate;

Fig. 6 is a schematic view of the top plate structure of the reinforcing bar bracket of the present invention;

fig. 7 is a schematic view of the top plate structure of the reinforcing bar bracket of the present invention;

FIG. 8 is a schematic view of the tower foundation structure of the present invention;

FIG. 9 is a schematic view of a tower foundation lifting hook burying structure according to the present invention;

FIG. 10 is a schematic view of the structure of the embedded pipe fixing rod of the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientation or positional relationships, merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the components or elements 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.

The utility model provides a prefabricated building tower foundation preparation mould, including mould bottom plate 1, as shown in fig. 1, fig. 4, fig. 5, be equipped with mould side backup pad 2 that mirror image distributes on the mould bottom plate 1, mould side backup pad 2 one end is equipped with mould roof 3 jointly, mould side backup pad 2 other end is equipped with reinforcing bar support roof 6 jointly, mould side backup pad 2 upper end still is equipped with pre-buried pipe dead lever 5 jointly, mould bottom plate 1 lower extreme is equipped with array distribution's first backing rail 11, mould bottom plate 1 lower extreme still is equipped with array distribution's second backing rail 12, mould bottom plate 1 upper both sides still are equipped with array distribution's first mounting hole 13, still be equipped with array distribution's third backing rail 14 between the first backing rail 11 in both ends, be equipped with array distribution's through groove 15 on the third backing rail 14, be equipped with first support diaphragm 16 between two first backing rails 11 in the middle, mould bottom plate 1 lower extreme still is equipped with array distribution's second backing plate 161, first backing rail 11 both ends all are equipped with first support hole 17, mould bottom plate 1 both ends still are equipped with array distribution's second mounting hole 18, mould bottom plate 1 both ends are equipped with array distribution's second backing plate 12, mould bottom plate 1 both sides are equipped with array distribution's backing plate, mould side backing plate 1, prefabrication tower foundation preparation tower foundation plate 7, between the side top plate 3, prefabrication tower foundation preparation is equipped with.

The die side support plate 2 is equipped with first light-weight groove 21 on one side, as shown in fig. 2,3, the outside of one side of first light-weight groove 21 still is equipped with the side splint 22 of array distribution, both sides all are equipped with the third mounting hole 211 of array distribution about the first light-weight groove 21, the both sides of first light-weight groove 21 are equipped with the fourth mounting hole 212 of array distribution, be equipped with the second on the side splint 22 and drag the dress hole 221, the second drags the threaded rod hole 222 that the dress hole 221 top was equipped with array distribution, die side support plate 2 top is equipped with the hoist and mount hook dead lever fixed column 23 of array distribution, be equipped with hoist and mount hook dead lever groove 231 on the hoist and mount hook dead lever fixed column 23, die side support plate 2 upper end still is equipped with the hoist and mount piece 24 of array distribution, be equipped with lifting hook hole 241 on the hoist and mount piece 24 both sides still are equipped with supplementary reinforcing block 242, still be equipped with circular trompil 26 on the die side support plate 2.

The circular opening 26 is internally provided with a hollow cylinder 27, as shown in fig. 2 and 3, one side of the hollow cylinder 27 is provided with a side opening 271 penetrating through the hollow cylinder 27, one side of the hollow cylinder 27 is also provided with a binding rod hole 273 penetrating through the hollow cylinder 27, the circular opening 26 is internally provided with a circular baffle 25, the circular baffle 25 is provided with a second square iron block slot 272, the binding rod hole 273 is internally provided with a binding rod 274, two ends of the binding rod hole 273 are respectively provided with a first fastening screw 275, the upper side and the lower side of the hollow cylinder 27 are also provided with auxiliary fixing plates 28 in mirror image distribution, two sides of the auxiliary fixing plates 28 are also provided with reinforcing plates 281, and the binding rod 274 penetrates through the auxiliary fixing plates 28.

The lower extreme of pre-buried pipe dead lever 5 is equipped with pre-buried pipe dead plate 51, as shown in fig. 10, pre-buried pipe dead lever 5 both ends are equipped with fixed foot 52, fixed foot 52 lower extreme is equipped with fixed film 53, still be equipped with array distribution's fifth mounting hole 531 on the fixed film 53, still be equipped with supporting shoe 54 on the fixed film 53, pre-buried pipe dead plate 51 upper end is equipped with auxiliary fixing lever 511, still be equipped with the connection piece 512 of fixing on pre-buried pipe dead lever 5 on the auxiliary fixing lever 511, auxiliary fixing lever 511 both sides still are equipped with horizontal piece 513, be equipped with array distribution's pre-buried pipe fixed hole 55 on the pre-buried pipe dead plate 51.

The second light-weight groove 61 is arranged on one side of the steel bar support top plate 6, as shown in fig. 6 and 7, the first steel plates 62 which are orthogonally and alternately distributed are arranged in the second light-weight groove 61, the steel bar fixing ring grooves 63 are arranged in the second light-weight groove 61, the third dragging holes 621 which are distributed in an array manner are arranged on the outer sides of the first steel plates 62 and the steel bar support top plate 6, the inner steel bar fixing ring penetrating grooves 622 are also arranged on part of the first steel plates 62, the steel bar fixing rings 64 are arranged in the steel bar fixing ring grooves 63, the steel bar fixing holes 65 which are axially distributed in an array manner are arranged on the steel bar fixing rings 64, the pull plates 67 are also arranged in the steel bar fixing rings 64, the lifting hook steel bar grooves 651 which are distributed in an array manner are arranged on the pull plates 67, the sixth installation holes 66 which are distributed in an array manner are arranged at the lower end of the steel bar support top plate 6, the second steel plates 68 which are alternately distributed are also arranged on the pull plates 67, the fourth dragging holes 69 are respectively arranged on the second steel plates 68, the front face of the steel bar support top plate 6 is also provided with the first square iron block slots 611, and the fifth dragging holes 671 which are axially distributed in an array manner.

The die top plate 3 and the steel bar bracket top plate 6 have the same structure except the central position structure.

The prefabricated tower footing 7 upper end is equipped with the reinforcing bar 71 of axial array distribution, as shown in fig. 8, fig. 9, still be equipped with the reinforcing bar net 73 on the prefabricated tower footing 7, the prefabricated tower footing 7 upper end is equipped with the first lifting hook reinforcing bar 72 of axial array distribution, prefabricated tower footing 7 one side is equipped with the second lifting hook reinforcing bar 74 of array distribution, second lifting hook reinforcing bar 74 buries into prefabricated tower footing 7 inside top with first lifting hook reinforcing bar 72 and all is equipped with reinforcing bar 76, prefabricated tower footing 7 upper end is equipped with first square iron plate 75, prefabricated tower footing 7 both sides are equipped with second square iron plate 77.

The threaded rod hole 222 is provided with a tensioning rod 223, as shown in fig. 1, both ends of the tensioning rod 223 are provided with second fastening screws 224, and the hoisting hook fixing rod groove 231 is provided with a hoisting hook fixing rod 29.

When the prefabricated tower foundation 7 is used, a separation film is paved among the die bottom plate 1, the die side supporting plate 2, the die top plate 3 and the steel bar bracket top plate 6, the lifting hook fixing rod 29 penetrates through the second lifting hook steel bar 74, when an embedded pipe needs to be placed, the embedded pipe is placed into the embedded pipe fixing hole 55, maintenance is carried out after pouring is finished, the die is disassembled after maintenance is finished, and the prefabricated tower foundation 7 is lifted away.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (6)

1. A prefabricated building tower foundation production mold, comprising a mold bottom plate (1), characterized in that the mold bottom plate (1) is provided with a mold side support plate (2) distributed in a mirror image, one end of the mold side support plate (2) is commonly provided with a mold top plate (3), the other end of the mold side support plate (2) is commonly provided with a steel bar bracket top plate (6), the upper end of the mold side support plate (2) is also commonly provided with a pre-buried pipe fixing rod (5), the lower end of the mold bottom plate (1) is provided with a first support rail (11) distributed in an array, the lower end of the mold bottom plate (1) is also provided with a second support rail (12) distributed in an array, the mold bottom plate (1) is also provided with first mounting holes (13) distributed in an array on both sides, and the first support rails (11) at both ends are connected to each other. A third support rail (14) distributed in an array is also provided between the two middle first support rails (11); a through groove (15) distributed in an array is provided on the third support rail (14); a first support cross plate (16) distributed in an array is provided between the two middle first support rails (11); a second support cross plate (161) distributed in an array is also provided at the lower end of the mold bottom plate (1); first drag holes (17) are provided at both ends of the first support rail (11); second mounting holes (18) distributed in an array are also provided at both ends of the mold bottom plate (1); side clamp fixing plates (19) distributed in an array are also provided on both sides of the mold bottom plate (1); a prefabricated tower base (7) is made between the mold bottom plate (1), the mold side support plate (2), the mold top plate (3) and the steel bar support top plate (6); A second lightweight groove (61) is provided on one side of the top plate (6) of the steel bar support, a first steel plate (62) arranged orthogonally and staggeredly is provided in the second lightweight groove (61), a steel bar fixing ring groove (63) is provided in the second lightweight groove (61), an array-distributed third towing hole (621) is provided on the outer side of the first steel plate (62) and the top plate (6) of the steel bar support, an inner steel bar fixing ring through groove (622) is further provided on part of the first steel plate (62), a steel bar fixing ring (64) is provided in the steel bar fixing ring groove (63), and an axial array-distributed third towing hole (621) is provided on the steel bar fixing ring (64). A steel bar fixing hole (65) is provided in the steel bar fixing ring (64), a pull plate (67) is provided in the pull plate (67), hook steel bar grooves (651) are arranged in an array, a sixth mounting hole (66) is arranged in an array at the lower end of the steel bar support top plate (6), a staggered second steel plate (68) is provided on the pull plate (67), and a fourth dragging hole (69) is provided on each of the second steel plates (68), a first square iron block slot (611) is provided on the front of the steel bar support top plate (6), and a fifth dragging hole (671) is arranged in an axial array on the front of the pull plate (67); The upper end of the prefabricated tower base (7) is provided with steel bars (71) distributed in an axial array, the prefabricated tower base (7) is also provided with a steel mesh (73), the upper end of the prefabricated tower base (7) is provided with a first hook steel bar (72) distributed in an axial array, one side of the prefabricated tower base (7) is provided with a second hook steel bar (74) distributed in an array, the second hook steel bar (74) and the first hook steel bar (72) are embedded in the prefabricated tower base (7) and are both provided with reinforcing steel bars (76) at the top end, the upper end of the prefabricated tower base (7) is provided with a first square iron block (75), and second square iron blocks (77) are provided on both sides of the prefabricated tower base (7). 2. A prefabricated building tower foundation manufacturing mold according to claim 1, characterized in that a first lightweight groove (21) is provided on one side of the mold side support plate (2), and an array-distributed side clamping plate (22) is also provided on the outer side of one side of the first lightweight groove (21), and third mounting holes (211) are provided on both upper and lower sides of the first lightweight groove (21) and array-distributed, and fourth mounting holes (212) are provided on both sides of the first lightweight groove (21), and a second dragging hole (221) is provided on the side clamping plate (22), and the second dragging hole ( 221), threaded rod holes (222) are arranged in an array above the mold side support plate (2), lifting hook fixing rod fixing columns (23) are arranged in an array above the mold side support plate (2), and lifting hook fixing rod fixing columns (23) are provided with lifting hook fixing rod grooves (231), and a lifting block (24) is also arranged in an array at the upper end of the mold side support plate (2), and a lifting block (24) is provided with a lifting hook hole (241), and auxiliary reinforcement blocks (242) are also arranged on both sides of the lifting block (24), and a circular opening (26) is also provided on the mold side support plate (2). 3. A prefabricated building tower foundation production mold according to claim 2, characterized in that a hollow cylinder (27) is provided in the circular opening (26), a side opening (271) penetrating the hollow cylinder (27) is provided on one side of the hollow cylinder (27), a rod binding hole (273) penetrating the hollow cylinder (27) is also provided on one side of the hollow cylinder (27), a circular baffle (25) is provided in the circular opening (26), a second square iron block slot (272) is provided on the circular baffle (25), a rod binding hole (274) is provided in the rod binding hole (273), first fastening screws (275) are provided at both ends of the rod binding hole (273), and auxiliary fixing plates (28) distributed in a mirror image are also provided on the upper and lower sides of the hollow cylinder (27), reinforcing plates (281) are also provided on both sides of the auxiliary fixing plate (28), and the binding rod (274) passes through the auxiliary fixing plate (28). 4. A prefabricated building tower foundation production mold according to claim 1, characterized in that the lower end of the embedded pipe fixing rod (5) is provided with an embedded pipe fixing plate (51), both ends of the embedded pipe fixing rod (5) are provided with fixing feet (52), the lower end of the fixing feet (52) is provided with a fixing bottom plate (53), the fixing bottom plate (53) is also provided with a fifth mounting hole (531) distributed in an array, the fixing bottom plate (53) is also provided with a support block (54), the upper end of the embedded pipe fixing plate (51) is provided with an auxiliary fixing rod (511), the auxiliary fixing rod (511) is also provided with a connecting piece (512) fixed to the embedded pipe fixing rod (5), horizontal pieces (513) are also provided on both sides of the auxiliary fixing rod (511), and the embedded pipe fixing plate (51) is provided with embedded pipe fixing holes (55) distributed in an array. 5. A prefabricated building tower foundation production mold according to claim 1, characterized in that the mold top plate (3) and the steel bar support top plate (6) have the same structure except for the center position structure. 6. A prefabricated building tower foundation production mold according to claim 2, characterized in that a tensioning rod (223) is provided in the threaded rod hole (222), second fastening screws (224) are provided at both ends of the tensioning rod (223), and a lifting hook fixing rod (29) is provided in the lifting hook fixing rod groove (231).