CN215629414U - Hang basket centre form and hang basket - Google Patents

Hang basket centre form and hang basket Download PDF

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Publication number
CN215629414U
CN215629414U CN202121396576.6U CN202121396576U CN215629414U CN 215629414 U CN215629414 U CN 215629414U CN 202121396576 U CN202121396576 U CN 202121396576U CN 215629414 U CN215629414 U CN 215629414U
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China
Prior art keywords
telescopic cylinder
mold plate
sub
hinged
plate
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CN202121396576.6U
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Chinese (zh)
Inventor
王利鹏
伍树华
许营
李文武
杜金生
管宠宠
罗洋洋
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Road and Bridge International Co Ltd
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Road and Bridge International Co Ltd
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Priority to CN202121396576.6U priority Critical patent/CN215629414U/en
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Abstract

The utility model provides a hanging basket internal mold and a hanging basket, which relate to the technical field of construction devices and comprise the following components: the top template, the first side template, the second side template, the first telescopic cylinder and the second telescopic cylinder are hinged to two ends of the top template respectively, the first side template and the second side template are arranged oppositely, the first telescopic cylinder is hinged to the first side template, and the second telescopic cylinder is hinged to the second side template. Constructors drive the side templates to move in a direction far away from the side templates through the telescopic cylinders, and then the internal mold of the hanging basket can be installed; the telescopic cylinder drives the side templates to move towards the direction close to each other, and the inner die of the hanging basket can be detached. In the whole construction process, a constructor does not need to use a fixing tool to fix the internal mold of the hanging basket, so that the construction efficiency is effectively improved, and the safety of the constructor is ensured; meanwhile, the hanging basket inner die can not leave construction marks such as holes on poured concrete, and construction quality is further guaranteed.

Description

Hang basket centre form and hang basket
Technical Field
The utility model relates to the technical field of construction devices, in particular to a hanging basket internal mold and a hanging basket.
Background
At present, in the work progress of box roof beam, use the basket of hanging more and carry out the construction of box roof beam to the construction of guaranteeing the box roof beam is not influenced by environmental factor such as topography.
In the construction process of using the hanging basket to carry out the construction of the box body beam, the inner die of the box body beam is usually formed by webs of two adjacent box chambers in a mode of anchoring through split bolts and keels. However, in the construction process, the installation and the disassembly of the keel usually require a large amount of time and labor, and the construction efficiency is low; after the construction is finished, long holes are left in the solidified concrete and on the surface of the solidified concrete, so that the construction quality of the poured concrete is influenced; in addition, in the whole construction process, the opposite-pulling screw rods need to be installed and detached by constructors, and the operation risk degree of the constructors is high.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a hanging basket internal mold and a hanging basket, and aims to solve the technical problems that in the prior art, the construction efficiency of the hanging basket method construction is low, the construction quality is poor and the operation risk degree of constructors is high.
The utility model provides a hanging basket internal mold which comprises a top template, a first side template, a second side template, a first telescopic cylinder and a second telescopic cylinder, wherein the first side template and the second side template are respectively hinged to two ends of the top template, the first side template and the second side template are oppositely arranged, the first telescopic cylinder is hinged to the first side template, and the second telescopic cylinder is hinged to the second side template.
Further, still include drive control mechanism, drive control mechanism includes mount and telescoping cylinder actuating system, the telescoping cylinder actuating system is installed on the mount, the mount is connected the downside of top template, the one end of first telescoping cylinder with the mount is articulated, the other end of first telescoping cylinder with first side template is articulated, the one end of second telescoping cylinder with the mount is articulated, the other end of second telescoping cylinder with second side template is articulated, the telescoping cylinder actuating system with first telescoping cylinder with the second telescoping cylinder is connected respectively.
Further, the top template comprises a first top template and a second top template which are arranged at intervals, the first top template is hinged to the first side template, the second top template is hinged to the second side template, the first top template and the second top template can be close to or far away from each other, the internal mold of the hanging basket further comprises a matching board, the matching board is used for being arranged between the first top template and the second top template, and the matching board can be connected with the first top template and the second top template in a detachable mode.
The truss is arranged between the top template and the drive control mechanism and comprises a first sub-frame and a second sub-frame which are arranged at intervals, the first top template is fixedly connected with the first sub-frame, the second top template is fixedly connected with the second sub-frame, a third telescopic cylinder is arranged between the first sub-frame and the second sub-frame and is a bidirectional telescopic cylinder, an output rod at one end of the third telescopic cylinder is connected with the first sub-frame, and an output rod at the other end of the third telescopic cylinder is connected with the second sub-frame.
Further, first side form board includes the first side formwork board of polylith, and the polylith first side formwork board is along keeping away from the direction of top template is articulated in proper order, first telescoping cylinder is a plurality of, and is a plurality of first telescoping cylinder sets up with a plurality of first side formwork board one-to-one, second side form board includes polylith second side formwork board, polylith second side formwork board is along keeping away from the direction of top template is articulated in proper order, the second telescoping cylinder is a plurality of, and is a plurality of the second telescoping cylinder sets up with a plurality of second side formwork board one-to-one.
Further, the first side form plate comprises a plurality of first side form unit plates, the first side form unit plates are sequentially detachably connected along the direction far away from the top template, the first telescopic cylinder can be hinged with any one of the first side form plates corresponding to the first telescopic cylinder, the second side form plate comprises a plurality of second side form unit plates, the second side form unit plates are sequentially detachably connected along the direction far away from the top template, and the second telescopic cylinder can be hinged with any one of the second side form plates corresponding to the second telescopic cylinder.
Further, still include head rod, second connecting rod, third connecting rod and fourth connecting rod, the head rod is connected the upside of first top formwork daughter board, the second connecting rod is connected the upside of second top formwork daughter board, the connection can be dismantled to the third connecting rod is in the first side template is kept away from one side of second side template, the connection can be dismantled to the fourth connecting rod is in the second side template is kept away from one side of first side template, the third connecting rod with the head rod is articulated, the fourth connecting rod with the second connecting rod is articulated.
Further, the third connecting rod includes a plurality of third connecting sub-rods, and is a plurality of the third connecting sub-rods are articulated in proper order, and are a plurality of the third connecting sub-rods are arranged with a plurality of first side mold plate one-to-one, the fourth connecting rod includes a plurality of fourth connecting sub-rods, and is a plurality of the fourth connecting sub-rods are articulated in proper order, and are a plurality of the fourth connecting sub-rods are arranged with a plurality of second side mold plate one-to-one, the third connecting sub-rods include a plurality of third connecting sub-unit rods, and are a plurality of the third connecting sub-unit rods can be dismantled in proper order and connected, the fourth connecting sub-rods include a plurality of fourth connecting sub-unit rods, and are a plurality of the fourth connecting sub-unit rods can be dismantled in proper order and connected.
Furthermore, the driving control mechanism further comprises a driving wheel and a moving driving mechanism, the driving wheel is connected with the fixed frame, and the moving driving mechanism is connected with the driving wheel.
The hanging basket provided by the utility model comprises a hanging basket inner mold.
The utility model provides a hanging basket internal mold, which comprises: the top template, the first side template, the second side template, the first telescopic cylinder and the second telescopic cylinder are hinged to two ends of the top template respectively, the first side template and the second side template are arranged oppositely, the first telescopic cylinder is hinged to the first side template, and the second telescopic cylinder is hinged to the second side template. When a constructor needs to install the internal mold of the hanging basket, the constructor places the internal mold of the hanging basket in the box body beam, then controls the first telescopic cylinder and the second telescopic cylinder to extend outwards, at the moment, a first side template hinged with the first telescopic cylinder and a second side template hinged with the second telescopic cylinder move towards directions away from each other under the driving action of the first telescopic cylinder and the second telescopic cylinder, and after the first side template and the second side template are respectively abutted to a web plate of the box body beam, the internal mold of the hanging basket is kept stable under the supporting action of the first telescopic cylinder and the second telescopic cylinder, and at the moment, the installation is completed; when constructors need to dismantle the internal mold of the hanging basket, the constructors control the first telescopic cylinder and the second telescopic cylinder to contract, and the first side formwork and the second side formwork can move towards one side close to each other under the traction action of the first telescopic cylinder and the second telescopic cylinder, so that the disassembly can be completed. Therefore, in the process of mounting and dismounting the whole internal hanging basket mold, a constructor does not need to enter the internal hanging basket mold and fix the internal hanging basket mold by using a fixing tool, the construction efficiency is effectively improved, and the safety of the constructor is effectively ensured; simultaneously, in the work progress of using string basket centre form, hang basket centre form butt and fix on the web of box roof beam to can not leave construction vestige such as hole on the concrete of pouring, and then guaranteed construction quality.
The hanging basket provided by the utility model comprises the hanging basket inner mold, has the same beneficial effects as the hanging basket provided by the utility model, and is not repeated.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.
Fig. 1 is an extended schematic view of an inner mold of a hanging basket according to an embodiment of the present invention;
fig. 2 is a schematic drawing illustrating the contraction of the inner mold of the hanging basket according to the embodiment of the present invention;
fig. 3 is an extension schematic view of an embodiment of an inner mold of a hanging basket according to an embodiment of the present invention;
FIG. 4 is a schematic front view of a combination of a first connecting rod and a third connecting rod according to an embodiment of the present invention;
FIG. 5 is a left side view of a combination of a first connecting rod and a third connecting rod according to an embodiment of the present invention;
fig. 6 is a top view schematically illustrating a combination of a first connecting rod and a third connecting rod according to an embodiment of the present invention.
Icon: 100-top template; 210-a first side form; 211-a first side form panel; 220-second side template; 221-a second side form panel; 300-a drive control mechanism; 410-a first telescoping cylinder; 420-a second telescoping cylinder; 430-a third telescopic cylinder; 500-truss; 510-a first subrack; 520-a second subrack; 610-a first connecting rod; 620-second connecting rod; 630-a third connecting rod; 640-fourth connecting rod.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in fig. 1 to 5, the present embodiment provides a hanging basket internal mold, which includes a top mold plate 100, a first side mold plate 210, a second side mold plate 220, a first telescopic cylinder 410 and a second telescopic cylinder 420, wherein the first side mold plate 210 and the second side mold plate 220 are respectively hinged to two ends of the top mold plate 100, the first side mold plate 210 and the second side mold plate 220 are oppositely disposed, the first telescopic cylinder 410 is hinged to the first side mold plate 210, and the second telescopic cylinder 420 is hinged to the second side mold plate 220.
Specifically, in the present embodiment, the first telescopic cylinder 410 may be a hydraulic cylinder, an air cylinder or an electric cylinder, and the second telescopic cylinder 420 may be a hydraulic cylinder, an air cylinder or an electric cylinder.
The first side template 210 and the first telescopic cylinder 410 can be hinged in a detachable mode or in a non-detachable mode; the second side mold plate 220 and the second telescopic cylinder 420 may be hinged in a detachable manner or in a non-detachable manner. In this embodiment, an embodiment in which the first side mold plate 210 is detachably hinged to the first telescopic cylinder 410 and an embodiment in which the second side mold plate 220 is detachably hinged to the second telescopic cylinder 420 are selected.
The first side formworks 210, the second side formworks 220 and the top formworks 100 are all made of steel, and specifically, the first side formworks 210 are made of a steel plate with a thickness of 5 mm or 6 mm, the second side formworks 220 are made of a steel plate with a thickness of 5 mm or 6 mm, and the top formworks 100 are made of a steel plate with a thickness of 6 mm.
Preferably, all be provided with many brace rods on top template, first side form and second side form to improve the intensity of top template, first side form and second side form, the brace rod can be for reinforcing bar, steel band or channel-section steel etc..
When a constructor needs to install the internal mold of the hanging basket, the constructor places the internal mold of the hanging basket in the box body beam, then controls the first telescopic cylinder 410 and the second telescopic cylinder 420 to extend outwards, at the moment, the first side template 210 hinged with the first telescopic cylinder 410 and the second side template 220 hinged with the second telescopic cylinder 420 move towards the directions away from each other under the pushing action of the first telescopic cylinder 410 and the second telescopic cylinder 420, and after the first side template 210 and the second side template 220 are respectively abutted to the web plate of the box body beam, the internal mold of the hanging basket is kept stable under the supporting action of the first telescopic cylinder 410 and the second telescopic cylinder 420, and at the moment, the installation is completed; when the constructor needs to dismantle the internal mold of the hanging basket, the constructor controls the first telescopic cylinder 410 and the second telescopic cylinder 420 to contract, the first side formwork 210 and the second side formwork 220 can move to one side close to each other under the traction action of the first telescopic cylinder 410 and the second telescopic cylinder 420, and the disassembly can be completed. Therefore, in the process of mounting and dismounting the whole internal mold of the hanging basket, a constructor does not need to use a fixing tool to fix the internal mold of the hanging basket, the construction efficiency is effectively improved, and the safety of the constructor is effectively ensured; simultaneously, in the work progress of using string basket centre form, hang basket centre form butt and fix on the web of box roof beam to can not leave construction vestige such as hole on the concrete of pouring, and then guaranteed construction quality.
Further, as shown in fig. 1 to 3, the inner mold of the cradle further includes a driving control mechanism 300, the driving control mechanism 300 includes a fixing frame and a telescopic cylinder driving system, the telescopic cylinder driving system is installed on the fixing frame, the fixing frame is connected to the lower side of the top mold plate 100, one end of the first telescopic cylinder 410 is hinged to the fixing frame, the other end of the first telescopic cylinder 410 is hinged to the first side mold plate 210, one end of the second telescopic cylinder 420 is hinged to the fixing frame, the other end of the second telescopic cylinder 420 is hinged to the second side mold plate 220, and the telescopic cylinder driving system is connected to the first telescopic cylinder 410 and the second telescopic cylinder 420 respectively.
Specifically, the first telescopic cylinder 410 and the second telescopic cylinder 420 are both hydraulic cylinders, and then the telescopic cylinder driving system is a hydraulic driving system; the first telescopic cylinder 410 and the second telescopic cylinder 420 are both air cylinders, and the telescopic cylinder driving system is a pneumatic driving system; the first telescopic cylinder 410 and the second telescopic cylinder 420 are both electric cylinders, and the telescopic cylinder driving system is an electric driving system.
The fixing frame is attached to an arbitrary position of the lower side of the top mold plate 100, and particularly, the fixing frame may be attached to the middle of the lower side of the top mold plate 100, or may be attached to one end of the lower side of the top mold plate 100.
Further, the top die plate 100 comprises a first top die plate and a second top die plate which are arranged at intervals, the first top die plate is hinged to the first side die plate 210, the second top die plate is hinged to the second side die plate 220, the first top die plate and the second top die plate can be close to or relatively far away from each other, the hanging basket inner die further comprises a matching plate, the matching plate is used for being arranged between the first top die plate and the second top die plate, and the matching plate can be detachably connected with the first top die plate and the second top die plate.
Specifically, the top die plate 100 is divided into a first top die plate and a second top die plate, the first top die plate and the second top die plate can be close to or relatively far away from each other along the left-right direction shown in fig. 1-3, the horizontal size adaptation of the cross section of the box girder and the internal die of the hanging basket can be guaranteed, and then the first side die plate 210 and the second side die plate 220 can be completely abutted to the web plate of the box girder.
Preferably, when the distance between the first top formwork and the second top formwork is shortest, that is, the first top formwork and the second top formwork are located at the limit distance close to each other, the minimum cross sections of the inner formwork of the hanging basket and the box body beam are adapted to prevent the situation that the inner formwork of the hanging basket cannot enter the box body beam due to the fact that the cross section of the box body beam is too small.
It should be noted that the matching plate is a plurality of, and the size diverse, and the matching plate is made by 6 millimeters thick steel sheet, and the matching plate can be connected with first top formwork daughter board and second top formwork daughter board dismantlement simultaneously. After the first top formwork plate and the second top formwork plate are relatively far away from each other and move to a certain distance, the matching plate with the corresponding size is connected between the first top formwork plate and the second top formwork plate, the first top formwork plate and the second top formwork plate can be recombined through the matching plate to form the whole top formwork 100, and further deformation of the box body beam caused by gaps between the first top formwork plate and the second top formwork plate is effectively prevented.
The specific process of adjusting the distance between the first top formwork plate and the second top formwork plate to enable the inner formwork of the hanging basket to be matched with the box body beam with different cross sections is as follows: when removing the basket centre form, when the condition that the horizontal dimension of roof template 100 and box roof beam cross section is different appears, constructor tears the matching board between first top template and the second top template open, then control first top template and second top template to the direction removal of being close to each other or keeping away from relatively, when first top template and second top template remove the position of the whole horizontal dimension adaptation with the box roof beam cross section of roof template 100, the staff selects the matching board that the size is the same with the distance between first top template and the second top template this moment, and with matching board simultaneously with first top template and second top template fixed connection, this moment, basket and box roof beam adaptation.
Further, the inner hanging basket mold further comprises a truss 500, the truss 500 is arranged between the top mold plate 100 and the drive control mechanism 300, the truss 500 comprises a first sub-frame 510 and a second sub-frame 520 which are arranged at intervals, the first top mold plate is fixedly connected with the first sub-frame 510, the second top mold plate is fixedly connected with the second sub-frame 520, a third telescopic cylinder 430 is arranged between the first sub-frame 510 and the second sub-frame 520, the third telescopic cylinder 430 is a bidirectional telescopic cylinder, an output rod at one end of the third telescopic cylinder 430 is connected with the first sub-frame 510, and an output rod at the other end of the third telescopic cylinder 430 is connected with the second sub-frame 520.
Specifically, as shown in fig. 1-3, the provision of the truss 500 between the top die plate 100 and the drive control mechanism 300 ensures that the top die plate 100 is subjected to a sufficiently large and uniform support force to better abut the top of the box girder.
Preferably, the fixing frame of the driving control mechanism 300 is disposed at the middle of the truss 500 to ensure that the system setup of the telescopic cylinder driving system is the simplest, and the fixing frame is respectively in threaded connection with the first sub-frame 510 and the second sub-frame 520 to ensure that the fixing frame can be stably connected with the truss 500 when the first top formwork and the second top formwork are relatively fixed; when the first top formwork and the second top formwork need to be close to each other or be far away from each other, the first top formwork and the second top formwork can be moved relatively in a mode that the fixing frame is detached from the truss 500.
A third telescopic cylinder 430 is arranged between the first sub-frame 510 and the second sub-frame 520 to drive the first sub-frame 510 and the second sub-frame 520 to respectively drive the first top formwork panel and the second top formwork panel to approach to each other or to be away from each other; specifically, a plurality of third telescopic cylinders 430 are arranged between the first sub-frame 510 and the second sub-frame 520, and the plurality of third telescopic cylinders 430 are uniformly arranged between the first sub-frame 510 and the second sub-frame 520, so that when the first sub-frame 510 and the second sub-frame 520 drive the first top formwork panel and the second top formwork panel to move, the connection between the first sub-frame 510 and the second sub-frame is more stable.
The telescoping cylinder driving system acts on the third telescoping cylinder 430 to ensure that a constructor can directly control the third telescoping cylinder 430 through the telescoping cylinder driving system.
The third telescopic cylinder 430 is a bidirectional telescopic cylinder so that the first sub-frame 510 and the second sub-frame 520 can be moved simultaneously.
Further, the first side form plate 210 includes a plurality of first side form plates 211, the plurality of first side form plates 211 are sequentially hinged along a direction away from the top form plate 100, the plurality of first stretching cylinders 410 are provided in a plurality, the plurality of first stretching cylinders 410 are arranged in one-to-one correspondence with the plurality of first side form plates 211, the second side form plate 220 includes a plurality of second side form plates 221, the plurality of second side form plates 221 are sequentially hinged along a direction away from the top form plate 100, the plurality of second stretching cylinders 420 are provided in a plurality, and the plurality of second stretching cylinders 420 are arranged in one-to-one correspondence with the plurality of second side form plates 221.
In this embodiment, first side form board 210 is that polylith first side form board 211 articulates in proper order and forms, and second side form board 220 is that polylith second side form board 221 articulates in proper order and forms, has guaranteed that first side form board 210 is whole can be crooked with second side form board 220 is whole, makes first side form board 210 and second side form board 220 better with the effect of box beam web butt.
Each first side formwork 211 is provided with a first telescopic cylinder 410 as a support, each second side formwork 221 is provided with a second telescopic cylinder 420 as a support, and each first side formwork 211 and each second side formwork 221 can be supported against the web of the box body beam and can be kept relatively fixed.
Further, the first side form panel 211 includes a plurality of first side form unit panels, the plurality of first side form unit panels are sequentially detachably connected along a direction away from the top mold plate 100, the first telescopic cylinder 410 can be hinged to any one of the first side form unit panels 211 corresponding thereto, the second side form panel 221 includes a plurality of second side form unit panels, the plurality of second side form unit panels are sequentially detachably connected along a direction away from the top mold plate 100, and the second telescopic cylinder 420 can be hinged to any one of the second side form unit panels 221 corresponding thereto.
Specifically, in this embodiment, the first side form panel 211 is formed by sequentially splicing a plurality of first side form unit panels, and the second side form panel 221 is formed by sequentially splicing a plurality of second side form unit panels, so that it is ensured that a constructor can change the sizes of the first side form panel 211 and the second side form panel 221 according to the size of the box girder web; and then combine the whole structural feature that can bend of first side form board 210 and the whole homoenergetic of second side form board 220, make the whole butt area with the whole and box roof beam's of first side form board 210 and the whole and box roof beam's of second side form board 220 bigger to it is better with the butt effect of box roof beam to make the whole butt of side form board.
As shown in fig. 3 to 6, in an implementation manner of this embodiment, the inner mold of the hanging basket further includes a first connecting rod 610, a second connecting rod 620, a third connecting rod 630 and a fourth connecting rod 640, the first connecting rod 610 is connected to an upper side of the first top mold plate, the second connecting rod 620 is connected to an upper side of the second top mold plate, the third connecting rod 630 is detachably connected to a side of the first side mold plate 210 away from the second side mold plate 220, the fourth connecting rod 640 is detachably connected to a side of the second side mold plate 220 away from the first side mold plate 210, the third connecting rod 630 is hinged to the first connecting rod 610, and the fourth connecting rod 640 is hinged to the second connecting rod 620.
That is, the top mold plate 100 and the first side mold plate 210, the top mold plate 100 and the second side mold plate 220, and the plurality of first side mold plates 211 and the plurality of second side mold plates 221 are hinged to each other by connecting rods.
Further, the third connecting rod 630 includes a plurality of third connecting sub-rods, the plurality of third connecting sub-rods are sequentially hinged, the plurality of third connecting sub-rods are arranged in a one-to-one correspondence with the plurality of first side mold plates 211, the fourth connecting rod 640 includes a plurality of fourth connecting sub-rods, the plurality of fourth connecting sub-rods are sequentially hinged, the plurality of fourth connecting sub-rods are arranged in a one-to-one correspondence with the plurality of second side mold plates 221, the third connecting sub-rods include a plurality of third connecting sub-unit rods, the plurality of third connecting sub-unit rods are sequentially detachably connected, the fourth connecting sub-rods include a plurality of fourth connecting sub-unit rods, and the plurality of fourth connecting sub-unit rods are sequentially detachably connected.
In this embodiment, the third and fourth connecting rods are formed by sequentially splicing a plurality of unit rods, so that the third and fourth connecting rods can be matched with the first and second side mold plates 211 and 221 to change the length when the lengths of the first and second side mold plates 211 and 221 are changed.
In another embodiment of this embodiment, the first side mold plate 210 and the second side mold plate 220 are coupled to the top mold plate 100 by hinge shafts, any one of the first side mold plates 211 and the first side mold plate 211 adjacent thereto are coupled by hinge shafts, and any one of the second side mold plates 221 and the second side mold plate 221 adjacent thereto are coupled by hinge shafts.
That is, the top mold plate 100 is directly hinged to the first side mold plate 210, the top mold plate 100 is directly hinged to the second side mold plate 220, and the plurality of first side mold plates 211 and the plurality of second side mold plates 221 are directly hinged to each other by means of hinge shafts.
Further, the driving control mechanism 300 further includes a driving wheel connected to the fixing frame and a moving driving mechanism connected to the driving wheel.
Specifically, the movement driving mechanism is an engine, and the engine can act on the driving wheel to rotate the driving wheel.
The driving wheels are arranged on the lower side of the fixing frame, the driving wheels are arranged on a driving track of a construction site, the extending direction of the driving track is perpendicular to the drawing surface of the drawing 1-3, the moving driving mechanism acts on at least one driving wheel, the driving wheel moves on the driving track along the extending direction of the driving track, and then the whole hanging basket internal mold can move along the drawing surface direction perpendicular to the drawing surface of the drawing 1-3 under the driving of the driving wheels, so that the hanging basket internal mold can conveniently move from one box chamber of the box body beam to another box chamber.
The specific implementation of this example is as follows: when a constructor needs to use the internal hanging basket mold to pour the concrete of the box body beam, the constructor controls the internal hanging basket mold to move to a proper position of a box chamber in the box body beam through the moving driving mechanism, then the fixing frame is detached from the truss 500, the matching plates are detached from the first top formwork plate and the second top formwork plate at the same time, the third telescopic cylinder 430 is controlled by the telescopic cylinder driving system to drive the first sub-frame 510 and the second sub-frame 520 to move towards the direction close to each other or away from each other, after the whole top formwork 100 formed by the first top formwork plate and the second top formwork plate is matched with the horizontal dimension of the cross section of the box body beam, the constructor connects the fixing frame with the truss 500 again, and the matching plates with corresponding dimensions are fixedly connected with the first top formwork plate and the second top formwork plate at the same time. Then, the worker controls the first telescopic cylinder 410 and the second telescopic cylinder 420 to drive the first side template 210 and the second side template 220 to move towards the direction far away from each other through the telescopic cylinder driving system, and the first side template 210 and the second side template 220 are respectively abutted against the web of the box girder, so that the mounting of the internal mold of the hanging basket is completed; after the construction is completed, the constructor controls the first telescopic cylinder 410 and the second telescopic cylinder 420 to drive the first side formwork 210 and the second side formwork 220 to move towards the direction of approaching each other, so as to complete the disassembly of the internal formwork of the hanging basket.
The basket that this embodiment provided includes the basket internal mold that this embodiment provided, and it has the same beneficial effect with this embodiment basket internal mold, and no longer the description here.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A basket internal mold is characterized by comprising: the side formwork comprises a top formwork (100), a first side formwork (210), a second side formwork (220), a first telescopic cylinder (410) and a second telescopic cylinder (420), wherein the first side formwork (210) and the second side formwork (220) are hinged to two ends of the top formwork (100) respectively, the first side formwork (210) and the second side formwork (220) are arranged oppositely, the first telescopic cylinder (410) is hinged to the first side formwork (210), and the second telescopic cylinder (420) is hinged to the second side formwork (220).
2. The hanging basket internal mold according to claim 1, further comprising a driving control mechanism (300), wherein the driving control mechanism (300) comprises a fixing frame and a telescopic cylinder driving system, the telescopic cylinder driving system is installed on the fixing frame, the fixing frame is connected to the lower side of the top mold plate (100), one end of the first telescopic cylinder (410) is hinged to the fixing frame, the other end of the first telescopic cylinder (410) is hinged to the first side mold plate (210), one end of the second telescopic cylinder (420) is hinged to the fixing frame, the other end of the second telescopic cylinder (420) is hinged to the second side mold plate (220), and the telescopic cylinder driving system is respectively connected with the first telescopic cylinder (410) and the second telescopic cylinder (420).
3. The hanging basket internal mold according to claim 2, characterized in that the top mold plate (100) comprises a first top mold plate and a second top mold plate which are arranged at intervals, the first top mold plate is hinged with the first side mold plate (210), the second top mold plate is hinged with the second side mold plate (220), the first top mold plate and the second top mold plate can be close to or relatively far away from each other, the hanging basket internal mold further comprises a matching plate, the matching plate is arranged between the first top mold plate and the second top mold plate, and the matching plate can be detachably connected with the first top mold plate and the second top mold plate at the same time.
4. The hanging basket inner die as claimed in claim 3, further comprising a truss (500), wherein the truss (500) is arranged between the top die plate (100) and the driving control mechanism (300), the truss (500) comprises a first sub-frame (510) and a second sub-frame (520) which are arranged at intervals, the first top die plate is fixedly connected with the first sub-frame (510), the second top die plate is fixedly connected with the second sub-frame (520), a third telescopic cylinder (430) is arranged between the first sub-frame (510) and the second sub-frame (520), the third telescopic cylinder (430) is a bidirectional telescopic cylinder, an output rod at one end of the third telescopic cylinder (430) is connected with the first sub-frame (510), and an output rod at the other end of the third telescopic cylinder (430) is connected with the second sub-frame (520).
5. The internal mold of a hanging basket according to claim 3, wherein the first side mold plate (210) comprises a plurality of first side mold plates (211), the plurality of first side mold plates (211) are sequentially hinged along a direction away from the top mold plate (100), the plurality of first telescopic cylinders (410) are arranged in a plurality of first telescopic cylinders (410) and a plurality of first side mold plates (211) in a one-to-one correspondence manner, the second side mold plate (220) comprises a plurality of second side mold plates (221), the plurality of second side mold plates (221) are sequentially hinged along a direction away from the top mold plate (100), the plurality of second telescopic cylinders (420) are arranged in a plurality of second telescopic cylinders (420) and a plurality of second side mold plates (221) in a one-to-one correspondence manner.
6. The inner basket mold according to claim 5, wherein the first side mold plate (211) comprises a plurality of first side mold unit plates which are detachably connected in sequence in a direction away from the top mold plate (100), the first telescoping cylinder (410) can be hinged to any one of the first side mold unit plates (211) corresponding to the first side mold plate, the second side mold plate (221) comprises a plurality of second side mold unit plates which are detachably connected in sequence in a direction away from the top mold plate (100), and the second telescoping cylinder (420) can be hinged to any one of the second side mold unit plates (221) corresponding to the second side mold plate.
7. The hanging basket inner mold according to claim 6, further comprising a first connecting rod (610), a second connecting rod (620), a third connecting rod (630) and a fourth connecting rod (640), wherein the first connecting rod (610) is connected to the upper side of the first top mold plate, the second connecting rod (620) is connected to the upper side of the second top mold plate, the third connecting rod (630) is detachably connected to the side of the first side mold plate (210) far away from the second side mold plate (220), the fourth connecting rod (640) is detachably connected to the side of the second side mold plate (220) far away from the first side mold plate (210), the third connecting rod (630) is hinged to the first connecting rod (610), and the fourth connecting rod (640) is hinged to the second connecting rod (620).
8. The hanging basket internal mold according to claim 7, wherein the third connecting rod (630) comprises a plurality of third connecting sub-rods, the third connecting sub-rods are sequentially hinged, the third connecting sub-rods are arranged in a one-to-one correspondence with the first side form sub-plates (211), the fourth connecting rod (640) comprises a plurality of fourth connecting sub-rods, the fourth connecting sub-rods are sequentially hinged, the fourth connecting sub-rods are arranged in a one-to-one correspondence with the second side form sub-plates (221), the third connecting sub-rods comprise a plurality of third connecting sub-unit rods, the third connecting sub-unit rods are sequentially detachably connected, the fourth connecting sub-rods comprise a plurality of fourth connecting sub-unit rods, and the fourth connecting sub-unit rods are sequentially detachably connected.
9. The inner basket mould as recited in claim 3, wherein the driving control mechanism (300) further comprises a driving wheel and a moving driving mechanism, the driving wheel is connected with the fixed frame, and the moving driving mechanism is connected with the driving wheel.
10. A hanging basket comprising the hanging basket inner mold of any one of claims 1 to 9.
CN202121396576.6U 2021-06-22 2021-06-22 Hang basket centre form and hang basket Active CN215629414U (en)

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Application Number Priority Date Filing Date Title
CN202121396576.6U CN215629414U (en) 2021-06-22 2021-06-22 Hang basket centre form and hang basket

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121396576.6U CN215629414U (en) 2021-06-22 2021-06-22 Hang basket centre form and hang basket

Publications (1)

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CN202121396576.6U Active CN215629414U (en) 2021-06-22 2021-06-22 Hang basket centre form and hang basket

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