CN115142676A - Supporting and positioning mechanism for inner barrel formwork of elevator shaft - Google Patents

Abstract

The application discloses support positioning mechanism of elevartor shaft inner tube formwork relates to alarm device's technical field. The inner cylinder supporting mechanism is arranged in the hollow cube structure of the four-block inner cylinder supporting mold and comprises a supporting component and a driving supporting component, the supporting component is used for supporting the inner cylinder supporting mold, the driving supporting component is far away from or close to the supporting component of the inner cylinder supporting mold. A pouring space is formed between the four inner barrel supporting molds and the outer template, the supporting assembly can support the inner barrel supporting molds, the supporting driving assembly can drive the supporting assembly, the labor intensity of workers is reduced when the inner barrel supporting molds are installed, the workers can conveniently disassemble the inner barrel supporting mold supporting structure and the inner barrel supporting molds, and the assembly efficiency of the inner barrel supporting molds of the elevator shaft is improved.

Description

Supporting and positioning mechanism for inner barrel formwork of elevator shaft

Technical Field

The application relates to the technical field of alarm devices, in particular to a supporting and positioning mechanism for an elevator shaft inner cylinder formwork.

Background

The elevator shaft is a shaft for installing the elevator, the size of the shaft is determined according to the selection of the elevator, and the shaft wall is provided with an elevator track and a counterweight track, wherein the shaft of the elevator shaft needs to be poured by adopting concrete, and a support device which limits a concrete template and supports and fixes the template is needed when the concrete is poured.

In the related art, the formwork is usually supported by a mode that a plurality of steel pipes are mutually overlapped, and the time consumption for assembling and disassembling the plurality of steel pipes in the related art is too much, and the supporting effect on the formwork can be achieved only by assembling more steel pipes, so that the assembling efficiency of the elevator inner cylinder formwork is influenced.

Disclosure of Invention

In order to improve the assembly efficiency of elevartor shaft inner tube formwork, this application provides a support positioning mechanism of elevartor shaft inner tube formwork.

The application provides a pair of supporting positioning mechanism of elevartor shaft inner tube formwork adopts following technical scheme:

the utility model provides an elevator shaft inner tube formwork support's support positioning mechanism, includes four inner tube formwork and inner tube formwork supporting mechanism, four the inner tube formwork encloses and establishes into upper and lower open-ended hollow cube structure, four the inner tube formwork outside is provided with the exterior sheathing, the exterior sheathing with form between the inner tube formwork and pour the space, inner tube formwork supporting mechanism sets up four in the hollow cube structure of inner tube formwork, inner tube formwork supporting mechanism is including being used for supporting the supporting component and the drive of inner tube formwork the supporting component is kept away from or is close to the support drive assembly of inner tube formwork.

Through adopting above-mentioned technical scheme, form between four blocks of inner tube formwork and the exterior sheathing and pour the space, supporting component can support the inner tube formwork, support drive assembly can drive supporting component, staff's intensity of labour when having reduced installation inner tube formwork, also be convenient for simultaneously after pouring, staff dismantles inner tube formwork bearing structure and inner tube formwork, make inner tube formwork bearing structure can used repeatedly, improve the assembly efficiency of elevartor shaft inner tube formwork.

Optionally, the supporting assembly includes four first supporting members and four second supporting members, the four first supporting members are respectively abutted to the four inner tube supporting forms, and are configured to respectively support the four inner tube supporting forms, the four second supporting members are respectively abutted to the two adjacent inner tube supporting forms, and are configured to simultaneously support the two adjacent inner tube supporting forms, each first supporting member includes a first supporting rod and a first supporting plate disposed at one end of the first supporting rod, which is far away from the first supporting rod, is connected to the supporting driving assembly, and one side of the first supporting plate, which is far away from the first supporting rod, can be abutted to the inner side of the inner tube supporting form.

Through adopting above-mentioned technical scheme, four first support pieces can support the direction of four interior section of thick bamboo braced forms towards the exterior sheathing respectively and press, improved when pouring the stability of interior section of thick bamboo braced forms when pouring with between the exterior sheathing, support the direction removal that the first bracing piece orientation of drive assembly is close to the interior section of thick bamboo braced form, first bracing piece drives first bracing piece and interior section of thick bamboo braced form butt, staff's intensity of labour when having reduced the interior section of thick bamboo braced form of making, the assembly efficiency of the interior section of thick bamboo braced form of elevator shaft is improved.

Optionally, the second supporting member includes a second supporting rod, a second supporting plate and a third supporting plate, the second supporting plate and the third supporting plate are disposed at one end of the second supporting rod, one end of the second supporting rod is connected to the supporting driving assembly, the other end of the second supporting rod is connected to the second supporting plate, the third supporting plate is abutted to the second supporting rod, the third supporting plate is detachably connected to the second supporting plate, the second supporting plate can be abutted to the inner cylinder support mold, and the third supporting plate can be abutted to the inner cylinder support mold close to the second supporting plate.

Through adopting above-mentioned technical scheme, four second support piece can respectively with two adjacent inner tube formwork butts, further improve the inner tube formwork when pouring and the outer formword between stable.

Optionally, the number of the first supporting pieces is four, one side of each of the four first supporting pieces, which is far away from the inner cylinder inner mold supporting mechanism, is abutted to the four inner cylinder supporting molds, the number of the second supporting pieces is four, and one side of each of the four second supporting pieces, which is far away from the inner cylinder inner mold supporting mechanism, is abutted to the inner included angles of the four adjacent inner cylinder supporting molds.

Through adopting above-mentioned technical scheme, four first support pieces can make the inner tube formwork be close to the exterior sheathing, and four second support pieces can improve the convenience of installation between four angle templates and the inner tube formwork, have further improved the assembly efficiency of elevartor shaft inner tube formwork.

Optionally, support drive assembly and include stand, cover and establish the carousel of stand circumference side, cover are established the locating plate and the setting of carousel circumference side are in the rotary driving spare of the one end of stand, the stand runs through along vertical direction the center of carousel, the carousel with stand mutually perpendicular sets up, the carousel runs through the center of locating plate, the circumference side of carousel with the locating plate rotates to be connected, the rotary driving spare drive the stand is followed the axial rotation of stand, the stand drives the carousel is rotatory, the carousel drives first support piece with the second support piece orientation is kept away from support drive assembly's direction removes.

Through adopting above-mentioned technical scheme, the rotation driving piece drive stand is rotatory, and the stand drives the carousel and rotates, and along with the rotation of carousel, first support piece and second support piece orientation keep away from the carousel, and the direction removes, and the supporting component of being convenient for supports the inner tube formwork, has further improved the assembly efficiency of elevartor shaft inner tube formwork.

Optionally, the support driving assembly and the support assembly are provided with a connection assembly, and the support driving assembly is connected to the support assembly through the connection assembly.

Through adopting above-mentioned technical scheme, support drive assembly drive coupling assembling and move towards the direction that is close to inner tube formwork, coupling assembling drives the direction that the support assembly orientation is close to inner tube formwork and moves, has further improved the stability of being connected between support assembly and the support drive assembly to the accuracy of first support piece with second support piece moving direction has been improved, and then the assembly efficiency of elevator shaft inner tube formwork is improved.

Optionally, coupling assembling includes connecting plate, first spliced pole and second spliced pole, the one end of first spliced pole with the top surface of carousel is connected, first spliced pole is provided with eight, eight first spliced pole is followed the even interval of circumferencial direction of carousel sets up, the connecting plate is provided with eight, eight the connecting plate respectively with eight first spliced pole is connected, the second spliced pole sets up on the locating plate, the second spliced pole is provided with eight, four first bracing piece and four the second bracing piece is connected with eight second spliced poles respectively, first spout has been seted up on the locating plate, the second spliced pole passes through first spout with locating plate sliding connection, first spout is provided with eight, eight first spout is followed the even interval of circumferencial direction of carousel sets up, and is double-phase adjacent contained angle between the first spout is 45.

Through adopting above-mentioned technical scheme, the connecting plate is connected with first spliced pole, the rotary driving spare drives the carousel rotation, the carousel drives the connecting plate and removes along first spout through the second spliced pole, first bracing piece is connected with the second spliced pole with the second bracing piece, first support piece removes along the extending direction of first spout respectively with second support piece, the stability that first support piece and second support piece removed has been improved, the stability of inner tube formwork has been improved, the assembly efficiency of elevartor shaft inner tube formwork has further been improved.

Optionally, an angle template is arranged between two adjacent inner cylinder supporting forms, and the angle template is connected with the inner cylinder supporting forms in a sliding manner.

Through adopting above-mentioned technical scheme, the angle template can improve the stability of connecting between the inner tube formwork, has further improved the assembly efficiency of elevartor shaft inner tube formwork.

Optionally, be provided with on the inner tube formwork supporting mechanism and be used for control the lifting unit that inner tube formwork supporting mechanism goes up and down, lifting unit is including setting up the holding ring at locating plate top and setting are in the lift driving piece of holding ring portion, the lift driving piece is used for the drive the locating plate removes along vertical direction.

Through adopting above-mentioned technical scheme, when needing to use inner tube formwork supporting mechanism, the lifting drive piece drive inner tube formwork supporting mechanism gets into between the inner tube formwork of four blocks, has saved staff's labour, and after the construction, the lifting drive piece can take inner tube formwork supporting structure out of between the inner tube formwork of four blocks, makes inner tube formwork supporting mechanism can used repeatedly, has improved the assembly efficiency that the inner tube formwork was propped up to the elevartor shaft.

In summary, the present application includes at least one of the following beneficial technical effects:

1. a pouring space is formed between the four inner barrel supporting forms and the outer template, the supporting assembly can support the inner barrel supporting forms, the supporting driving assembly can drive the supporting assembly, the labor intensity of workers during installation of the inner barrel supporting forms is reduced, and meanwhile, after pouring is finished, the workers can disassemble the inner barrel supporting form supporting structure and the inner barrel supporting forms, so that the inner barrel supporting form supporting structure can be repeatedly used, and the assembling efficiency of the inner barrel supporting forms of the elevator shaft is improved;

2. the four first supporting pieces can respectively press the four inner barrel supporting molds towards the direction of the outer template, so that the stability of the inner barrel supporting molds between the inner barrel supporting molds and the outer template during pouring is improved, the supporting driving assembly drives the first supporting rods to move towards the direction close to the inner barrel supporting molds, the first supporting rods drive the first supporting plates to abut against the inner barrel supporting molds, the labor intensity of workers during manufacturing of the inner barrel supporting molds is reduced, and the assembly efficiency of the inner barrel supporting molds of the elevator shaft is improved;

3. the supporting driving assembly drives the connecting assembly to move towards the direction close to the inner barrel formwork, and the connecting assembly drives the supporting assembly to move towards the direction close to the inner barrel formwork, so that the stability of connection between the supporting assembly and the supporting driving assembly is further improved, the accuracy of the moving direction of the first supporting piece and the second supporting piece is improved, and the assembling efficiency of the inner barrel formwork of the elevator shaft is further improved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the embodiment of the present application.

Fig. 2 is a schematic structural diagram mainly showing a support driving assembly according to an embodiment of the present application.

Fig. 3 is an enlarged schematic view of a portion a in fig. 1.

Fig. 4 is a cross-sectional view of the embodiment of the present application, mainly showing the buffer.

Description of the reference numerals:

11. supporting a formwork by an inner cylinder; 12. a corner template; 2. an outer template; 3. a support assembly; 31. a first support member; 311. a first support bar; 312. a first support plate; 32. a second support member; 321. a second support bar; 322. a second support plate; 323. a third support plate; 3231. a T-shaped slider; 4. supporting a drive assembly; 41. a column; 42. a turntable; 43. positioning a plate; 44. a rotary drive member; 5. a connecting assembly; 51. a connecting plate; 511. a first chute; 52. a first connecting column; 53. a second connecting column; 6. A positioning ring; 7. a buffer assembly; 71. a buffer rod; 711. a stopper; 72. an elastic member.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses supporting and positioning mechanism of an elevator shaft inner cylinder formwork.

Referring to fig. 1 and 2, the supporting and positioning mechanism of the elevator shaft inner tube formwork 11 includes four inner tube formworks 11, a corner formwork 12 disposed between two adjacent inner tube formworks 11, an outer formwork 2 surrounding the periphery of the four inner tube formworks 11, and an inner tube formwork supporting mechanism for supporting the inner tube formworks 11.

Wherein, four blocks of inner tube formwork 11 enclose to establish and form upper and lower open-ended hollow cube structure, and inner tube formwork 11 is vertical to be set up, and inner tube formwork supporting mechanism sets up in hollow cube structure, and angle template 12 is provided with four angle templates 12 and butts with two adjacent inner tube formwork 11 respectively, forms between outer formword 2 and four blocks of inner tube formwork 11 and four angle templates 12 and pours the space.

Referring to fig. 1 and 2, the inner cylinder formwork supporting mechanism includes a supporting component 3 for supporting the inner cylinder formwork 11 and a supporting driving component 4 for driving the supporting component 3 to be far away from or close to the inner cylinder formwork 11, a connecting component 5 is arranged between the supporting component 3 and the supporting driving component 4, and the supporting component 3 is slidably connected with the supporting driving component 4 through the connecting component 5.

Referring to fig. 1 and 2, the supporting assembly 3 includes four first supporting members 31 and four second supporting members 32, the four first supporting members 31 can be abutted to the four inner cylinder supports 11 respectively, and the four second supporting members 32 are abutted to two adjacent inner cylinder supports 11 respectively.

The first support member 31 includes a first support rod 311 slidably connected to the support driving assembly 4 and a first support plate 312 disposed at an end of the first support rod 311 away from the support driving assembly 4, one side of the first support plate 312 is fixedly connected to the first support rod 311, and the other side can abut against the inner side of the inner cylinder support 11; the second supporting member 32 includes a second supporting rod 321 slidably connected to the supporting driving assembly 4, and a second supporting plate 322 and a third supporting plate 323 disposed at an end of the second supporting rod 321 far away from the supporting driving assembly 4, one side of the second supporting plate 322 is fixedly connected to the second supporting rod 321, an included angle between the second supporting plate 322 and the third supporting plate 323 is 90 °, one side of the second supporting plate 322 far away from the second supporting rod 321 can abut against the inner cylinder formwork 11 and the corner formwork 12, and one side of the third supporting plate 323 far away from the second supporting rod 321 can abut against the inner cylinder formwork 11 and the corner formwork 12.

Referring to fig. 1 and 3, a T-shaped slider 3231 is fixedly connected to one side of the third support plate 323 close to the second support plate 322, the T-shaped slider 3231 extends in the vertical direction, a T-shaped chute matched with the T-shaped slider 3231 is formed in one side of the second support plate 322 close to the third support plate 323, the T-shaped chute extends in the vertical direction, an opening of the T-shaped chute faces the third support plate 323, a baffle is fixedly connected to one end of the T-shaped chute close to the ground, the third support plate 323 is slidably connected with the second support plate 322 through the T-shaped slider 3231, and one side of the third support plate 323 close to the second support rod 321 can abut against the second support rod 321.

Referring to fig. 1, in order to improve the supporting and positioning effect of the inner cylinder formwork support mechanism on the inner cylinder formwork 11, four first support members 31 are provided, one side of each of the four first support members 31, which is far away from the inner cylinder formwork support mechanism, is abutted to each of the four inner cylinder formworks 11, four second support members 32 are provided, one side of each of the four second support members 32, which is far away from the inner cylinder formwork support mechanism, is abutted to each of the four adjacent inner cylinder formworks 11 and the corner formwork 12 abutted to each of the two adjacent inner cylinder formworks 11, the first support members 31 are provided between the two adjacent second support members 32, and an included angle between each of the first support rods 311 and the adjacent second support rods 321 is 45 °.

Referring to fig. 2, the supporting and driving assembly 4 includes a vertical column 41 vertically disposed, a rotating plate 42 disposed on the circumference of the vertical column 41, a positioning plate 43 disposed on the circumference of the rotating plate 42, and a rotating driving member 44 disposed at the bottom end of the vertical column 41, the vertical column 41 penetrates through the center of the rotating plate 42 in the vertical direction, the vertical column 41 and the rotating plate 42 are perpendicular to each other, the rotating plate 42 is fixedly connected to the circumference of the vertical column 41, the rotating plate 42 penetrates through the center of the positioning plate 43, a sliding block is disposed on the circumference of the rotating plate 42 near the positioning plate 43, the sliding block extends in the circumferential direction of the rotating plate 42, a second sliding slot adapted to the sliding block is disposed on one side of the positioning plate 43 near the rotating plate 42, the second sliding slot extends in the circumferential direction of the positioning plate 43, the rotating driving member 44 is rotatably connected to the rotating plate 42 through the sliding block and the positioning plate 43 to drive the vertical column 41 to rotate along the axial direction of the vertical column 41, the fixed end of the rotating driving member 44 is fixedly connected to the bottom of the positioning plate 43, the driving end is fixedly connected to the vertical column 41, and the rotating driving member 44 is a rotating motor.

Referring to fig. 2, coupling assembling 5 sets up on supporting drive assembly 4, coupling assembling 5 and supporting drive assembly 4 sliding connection, coupling assembling 5 includes connecting plate 51, set up first spliced pole 52 and the second spliced pole 53 of setting on locating plate 43 top side on carousel 42 top side, the one end and the carousel 42 fixed connection of first spliced pole 52, first spliced pole 52 is provided with eight, eight first spliced poles 52 set up along the even interval of circumferencial direction of carousel 42, connecting plate 51 and first spliced pole 52 fixed connection.

Wherein, set up the first spout 511 with second spliced pole 53 looks adaptation on the locating plate 43, second spliced pole 53 is through first spout 511 and locating plate 43 sliding connection, connecting plate 51 and second spliced pole 53 fixed connection, the one end and the second spliced pole fixed connection of inner tube formwork 11 are kept away from to the head rod and second connecting rod, first spout 511 is provided with eight, eight first spouts 511 set up along the even interval of the circumferencial direction of carousel 42, the contained angle between two adjacent first spouts 511 is 45.

In order to improve the stability that inner tube formwork supporting mechanism supported inner tube formwork 11, carousel 42 and locating plate 43 are provided with threely respectively, three carousel 42 and three locating plate 43 set up along stand 41's vertical direction even interval, all be provided with coupling assembling on every carousel 42, all be provided with supporting component 3 on every locating plate 43, four edges on the locating plate 43 top side at top are provided with the lift subassembly that is used for controlling inner tube formwork supporting mechanism to go up and down, lift subassembly is including setting up the holding ring 6 at locating plate 43 top and setting up the lift driving piece at 6 ring portions of holding ring, holding ring 6 and locating plate 43 fixed connection, holding ring 6 is provided with four, four holding ring 6 set up four edges at locating plate 43 respectively, the lift driving piece can be dismantled with holding ring 6 and be linked, the lift driving piece is used for driving inner tube formwork supporting mechanism to remove along vertical direction.

Referring to fig. 2 and 4, in order to improve the stability of connecting between the adjacent locating plates 43, be provided with buffer assembly 7 between two adjacent locating plates 43, buffer assembly 7 includes the buffer rod 71 of vertical setting and the elastic component 72 of cover at buffer rod 71 periphery, the both ends and the locating plate 43 sliding connection of buffer rod 71, locating plate 43 is inserted along vertical direction at the both ends of buffer rod 71, the both ends fixedly connected with dog 711 of buffer rod 71, be provided with the dashpot on locating plate 43, dog 711 can slide along vertical direction in the dashpot, the one side that two dogs 711 are close to each other can respectively with two locating plates 43 butt, the vertical setting of elastic component 72, the both sides fixed connection that the both ends of elastic component 72 are close to each other with two adjacent locating plates 43 respectively, in this embodiment, compression spring is chooseed for use to elastic component 72.

The implementation principle of the supporting and positioning mechanism of the elevator shaft inner cylinder supporting formwork 11 in the embodiment of the application is as follows: when the elevator shaft inner cylinder supporting formwork 11 needs to be positioned, a worker firstly uses a lifting driving piece to place an inner cylinder supporting formwork supporting mechanism in a hollow cube structure formed between the four inner cylinder supporting formworks 11 and the corner formwork 12, then the supporting driving piece is opened, the supporting driving piece drives the upright post 41 to rotate, the upright post 41 drives the turntable 42 to rotate, the turntable 42 drives the connecting plate 51 to move along the first sliding groove 511, the connecting assembly 5 drives the first supporting piece 31 and the second supporting piece 32 to move towards the direction of the inner cylinder supporting formwork 11 and abut against the inner cylinder supporting formwork 11, at the moment, the inner cylinder supporting formwork 11 is supported, when the inner cylinder supporting formwork 11 needs to be detached, the rotating driving piece 44 is opened, the first supporting piece 31 and the second supporting piece 32 move towards the direction far away from the inner cylinder supporting formwork 11, then the inner cylinder supporting formwork supporting mechanism is taken out by using the lifting driving piece, then the inner cylinder supporting formwork 11 can be detached, the supporting positioning mechanism of the elevator shaft supporting formwork 11 can reduce labor force of the worker, and improve the assembly efficiency of the elevator shaft supporting formwork 11.

The above is the preferred embodiment of the present application, and the protection scope of the present application is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a support positioning mechanism of elevartor shaft inner tube formwork which characterized in that: including four inner tube formwork (11) and inner tube formwork supporting mechanism, four inner tube formwork (11) enclose and establish into upper and lower open-ended hollow cube structure, four the inner tube formwork (11) outside is provided with exterior sheathing (2), exterior sheathing (2) with form between the inner tube formwork (11) and pour the space, inner tube formwork supporting mechanism sets up four in the hollow cube structure of inner tube formwork (11), inner tube formwork supporting mechanism is including being used for supporting component (3) and the drive of inner tube formwork (11) supporting component (3) are kept away from or are close to supporting drive component (4) of inner tube formwork (11).

2. The supporting and positioning mechanism of the elevator shaft inner barrel formwork of claim 1, characterized in that: the supporting component (3) comprises four first supporting pieces (31) and four second supporting pieces (32), four the first supporting pieces (31) are respectively abutted with four inner tube supporting molds (11) and used for supporting four inner tube supporting molds (11) respectively, four the second supporting pieces (32) are respectively abutted with two adjacent inner tube supporting molds (11) and used for simultaneously supporting two adjacent inner tube supporting molds (11), each first supporting piece (31) comprises a first supporting rod (311) and is arranged on a first supporting plate (312) at one end of the first supporting rod (311), the first supporting rod (311) is far away from one end of the first supporting rod (312) and connected with the supporting driving component (4), and the first supporting rod (312) is far away from one side of the first supporting rod (311) and abutted against the inner side of the inner tube supporting molds (11).

3. The supporting and positioning mechanism of the elevator shaft inner barrel formwork of claim 2, characterized in that: the second supporting piece (32) comprises a second supporting rod (321), a second supporting plate (322) and a third supporting plate (323), wherein the second supporting plate (322) and the third supporting plate (323) are arranged at one end of the second supporting rod (321), one end of the second supporting rod (321) is connected with the supporting and driving assembly (4), the other end of the second supporting rod is connected with the second supporting plate (322), the third supporting plate (323) is abutted to the second supporting rod (321), the third supporting plate (323) is detachably connected with the second supporting plate (322), the second supporting plate (322) can be abutted to the inner barrel supporting mold (11), and the third supporting plate (323) can be abutted to the inner barrel supporting mold (11) close to the second supporting plate (322).

4. The supporting and positioning mechanism of the elevator shaft inner barrel formwork of claim 3, wherein: the number of the first supporting pieces is four, one side, far away from the inner cylinder inner mold supporting mechanism, of each first supporting piece (31) is abutted to four inner cylinder supporting molds (11), the number of the second supporting pieces (32) is four, and one side, far away from the inner cylinder inner mold supporting mechanism, of each second supporting piece (32) is abutted to inner included angles of four adjacent inner cylinder supporting molds (11).

5. The supporting and positioning mechanism of the elevator shaft inner barrel formwork of claim 1, characterized in that: support drive assembly (4) and establish including stand (41), cover and establish carousel (42), the cover of stand (41) circumference side are established locating plate (43) and the setting of carousel (42) circumference side are in the rotatory driving piece (44) of the one end of stand (41), stand (41) run through along vertical direction the center of carousel (42), carousel (42) with stand (41) mutually perpendicular sets up, carousel (42) run through the center of locating plate (43), the circumference side of carousel (42) with locating plate (43) rotate and are connected, rotatory driving piece (44) drive stand (41) are followed the axial rotation of stand (41), stand (41) drive carousel (42) are rotatory, carousel (42) drive first support piece (31) with second support piece (32) orientation is kept away from the direction of support drive assembly (4) removes.

6. The supporting and positioning mechanism of the elevator shaft inner barrel formwork of claim 1, characterized in that: support drive assembly (4) with supporting component (3) are provided with coupling assembling (5), support drive assembly (4) pass through coupling assembling (5) with supporting component (3) are connected.

7. The supporting and positioning mechanism of the elevator shaft inner barrel formwork of claim 3, wherein: coupling assembling (5) include connecting plate (51), first spliced pole (52) and second spliced pole (53), the one end of first spliced pole (52) with the top surface of carousel (42) is connected, first spliced pole (52) are provided with eight, eight first spliced pole (52) are followed the even interval in circumferencial direction of carousel (42) sets up, connecting plate (51) with first spliced pole (52) are connected, second spliced pole (53) set up on locating plate (43), second spliced pole (53) are provided with eight, four first bracing piece (311) and four second connecting rod (321) are connected with eight second spliced pole (53) respectively, first spout (511) have been seted up on locating plate (43), second spliced pole (53) pass through first spout (511) with locating plate (43) sliding connection, first spout (511) are provided with eight first spout (511) are followed the even interval in circumferencial direction of carousel (42) sets up, and first spout (511) are two-phase adjacent spout (45).

8. The supporting and positioning mechanism of the elevator shaft inner barrel formwork of claim 1, characterized in that: an angle template (12) is arranged between two adjacent inner cylinder supporting templates (11), and the angle template (12) is connected with the inner cylinder supporting templates (11) in a sliding manner.

9. The supporting and positioning mechanism of the elevator shaft inner barrel formwork of claim 4, wherein: be provided with on the inner tube formwork supporting mechanism and be used for control the lifting unit that inner tube formwork supporting mechanism goes up and down, lifting unit is including setting up holding ring (6) at locating plate (43) top and setting up the lift driving piece of holding ring (6) ring portion, the lift driving piece is used for the drive locating plate (43) remove along vertical direction.

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