CN106807857A - Modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation - Google Patents

Modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation Download PDF

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Publication number
CN106807857A
CN106807857A CN201710051290.6A CN201710051290A CN106807857A CN 106807857 A CN106807857 A CN 106807857A CN 201710051290 A CN201710051290 A CN 201710051290A CN 106807857 A CN106807857 A CN 106807857A
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CN
China
Prior art keywords
ball
sychronisation
steel reinforcement
reinforcement cage
coiling
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201710051290.6A
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Chinese (zh)
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CN106807857B (en
Inventor
倪志军
彭勇
夏金平
蒲述
汪洋
姚慧
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Chongqing Hengjia Engineering Consulting Co Ltd
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Chongqing Hengjia Engineering Consulting Co Ltd
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Priority to CN201710051290.6A priority Critical patent/CN106807857B/en
Publication of CN106807857A publication Critical patent/CN106807857A/en
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F3/00Coiling wire into particular forms
    • B21F3/02Coiling wire into particular forms helically
    • B21F3/04Coiling wire into particular forms helically externally on a mandrel or the like

Abstract

The present invention discloses a kind of modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation, including the linear slide be arrangeding in parallel and synchronous screw, active roller is installed in the linear slide, screw thread is arranged with driven nut on the synchronous screw, synchronous axial system part is provided between the active roller and driven nut, synchronous slide keeper is provided between the active roller and driven nut.Using modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation of the invention, stirrup is on cylinder during coiling, active roller moves along a straight line while rotating along linear slide, so that stirrup is linearly moved while coiling, multi-circle spiral flow muscle is obtained, is easy to follow-up cutting;The program can rely on the own rotation of coiling cylinder, directly obtain spiral reinforcement.

Description

Modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation
Technical field
The present invention relates to a kind of modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation.
Background technology
The modern assembled architecture classification such as including factory, warehouse, house, railroad construction, bridge, refers to prefabricated component In the building of assemble in site.The advantage of this building is fast construction speed, and climate conditionality is small, saves labour simultaneously Construction quality can be improved.And in bridges and culverts or high-building construction, basis is may require as requested is driven piles, method is Drilled with using machine punching and water mill, and hole depth reaches design requirement, then transfers steel reinforcement cage to stake holes, is inserted into conduit Carry out concrete cast.In steel reinforcement cage, stirrup is used for meeting anti-shear intensity, and is coupled stress cage bar and the mixed muscle of compressive region The reinforcing bar of skeleton.Divide single hoop muscle, open rectangle stirrup, enclosing square stirrup, rhombus stirrup, polygon u stirrup, groined type hoop Muscle and circular stirrups etc..Using manually more than the machine-shaping of circular stirrups, this mode of production labour intensity is big, operating efficiency It is low, waste time and energy, while the artificial size for beaing the stirrup being made often has larger deviation with the size being actually needed, make In the form work engineering of post-production, thickness of protection tier is difficult to control, it is difficult to ensure the quality of template.Later someone designs A kind of aid, helps workman to complete the coiling of circular stirrups, but stills need more labour, inefficient.It is circular The main contents of stirrup processing and forming have a coiling of annulus, and reinforcing bar cuts, welding of termination etc..Mechanized Processing circular, hoop Muscle is, it is necessary to take into full account above content.
The content of the invention
In view of this, to solve above-mentioned one or individual many technical problems, the present invention provides a kind of modern assembled Architectural engineering steel reinforcement cage tie hoop coiling sychronisation.
Technical scheme is as follows:
A kind of modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation, it is critical only that:Including parallel The linear slide and synchronous screw of setting, are provided with active roller, on the synchronous screw in the linear slide Screw thread is arranged with driven nut, is provided with synchronous axial system part between the active roller and driven nut, the active roller and from Synchronous slide keeper is provided between dynamic nut.
Using above technical scheme, stirrup during coiling, makes active roller be adjacent to reinforcing bar on cylinder, so as to drive actively Roller is rolled, and by synchronous axial system part, drives driven nut to be rotated on synchronous screw, driven nut edge in rotation process Synchronous screw moves along a straight line, so as to drive synchronous slide keeper to move along a straight line, makes active roller along linear slide straight line Motion;Finally, active roller moves along a straight line while rotating along linear slide, so that stirrup edge while coiling Rectilinear direction is moved, and obtains multi-circle spiral flow muscle, is easy to follow-up cutting.The program can rely on the own rotation of coiling cylinder, directly Connect and obtain spiral reinforcement;Synchronous axial system part can adjust gearratio.
The roller shaft of above-mentioned active roller is parallel to each other with the synchronous screw, and the synchronous axial system part is gear pair, should The driving gear of gear pair is solidly set on the roller shaft, and the driven gear of the gear pair is solidly set in the driven nut, main Moving gear and driven gear are intermeshed.
Above-mentioned synchronous slide keeper includes two chucks, and two chucks are solidly set on the rolling of the driving gear both sides On wheel shaft, two chucks are folded in the driven gear both sides.In the design, driven gear with driven nut rotation, and Chuck is promoted, so that being slided in linear slide from chuck, driving gear, active roller.
Ball being offered in the medial surface of above-mentioned chuck and annular groove being installed, the bottom land of ball installation annular groove is circumferentially distributed many Individual ball positioning counterbore, the inwall of the ball positioning counterbore is arcwall face, and chuck rolling is respectively equipped with the ball positioning counterbore Pearl, the ball installs annular groove overlying and is stamped ball bezel ring, circumferentially distributed on the ball bezel ring, to have ball spacing hole, the ball Spacing hole is corresponded with ball positioning counterbore, the diameter of the aperture less than the chuck ball of the ball spacing hole, described Chuck ball stretches out the ball spacing hole, and chuck ball is rolled in the end face of the driven gear.The program can reduce chuck Friction and driven gear between.
It is speed reducing gear pair that said gear is secondary.
Ring is provided with deep-slotted chip breaker on the outer circumference surface of above-mentioned active roller.During stirrup coiling, reinforcing bar is fastened in deep-slotted chip breaker, Rotated with active roller and moved along a straight line.
Above-mentioned deep-slotted chip breaker inwall is fitted with rubber layer.Rubber layer can increase the friction with reinforcing bar.
Above-mentioned linear slide includes line slideway, and sliding block is sliding combined with the line slideway, just right on the sliding block Two journal stirrups are provided with, the roller shaft is provided between two journal stirrups;The two ends of the synchronous screw are separately mounted on bearing.
Beneficial effect:Using modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation of the invention, hoop On cylinder during coiling, active roller moves along a straight line muscle while rotating along linear slide, so that stirrup is in coiling While linearly move, obtain multi-circle spiral flow muscle, be easy to follow-up cutting;The program can rely on itself of coiling cylinder Rotate, directly obtain spiral reinforcement.
Brief description of the drawings
Fig. 1 is structural representation of the invention;
Fig. 2 is the top view of Fig. 1;
Fig. 3 is the structural representation of chuck b71;
Fig. 4 is the cross-sectional view of chuck b71 when being not provided with chuck ball b93;
Fig. 5 is the cross-sectional view of chuck b71 when setting chuck ball b93;
Fig. 6 is the state diagram when present invention is used.
Specific embodiment
With reference to embodiment and accompanying drawing, the invention will be further described.
As shown in Fig. 1 to Fig. 5, a kind of modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation, including Base, being arranged with linear slide b1 and synchronous screw b2, the linear slide b1 on the base in parallel includes straight line Guide rail, sliding block is sliding combined with the line slideway, and just roller is provided between two journal stirrups to being provided with two journal stirrups on the sliding block Axle b8;The two ends of the synchronous screw b2 are separately mounted on bearing, and the roller shaft b8 and synchronous screw b2 mutually puts down OK;
Active roller b4 is installed, screw thread is arranged with driven nut b5 on the synchronous screw b2 on the roller shaft b8, Synchronous axial system part b6 is provided between the active roller b4 and driven nut b5, between the active roller b4 and driven nut b5 Synchronous slide keeper b7 is provided with, ring is provided with deep-slotted chip breaker b41 on the outer circumference surface of the active roller b4;Deep-slotted chip breaker b41 Inwall is fitted with rubber layer.
The synchronous axial system part b6 is gear pair, and the gear pair is speed reducing gear pair, and the driving gear of the gear pair covers admittedly On the roller shaft b8, the driven gear of the gear pair is solidly set on the driven nut b5, driving gear and driven gear Intermeshing.
The synchronous slide keeper b7 is solidly set on the driving gear including two chucks b71, two chuck b71 On the roller shaft b8 of both sides, two chuck b71 are folded in the driven gear both sides.
Ball being offered in the medial surface of the chuck b71 and annular groove b91 being installed, the ball installs the bottom land ring of annular groove b91 To multiple ball positioning counterbore b92 are distributed with, the inwall of ball positioning counterbore b92 is arcwall face, the ball positioning counterbore Chuck ball b93 is respectively equipped with b92, the ball to be installed and be coated with ball bezel ring, b94 on annular groove b91, ball bezel ring, b94 Above circumferentially distributed to have ball spacing hole, the ball spacing hole is corresponded with ball positioning counterbore b92, the ball spacing hole Diameter of the aperture less than the chuck ball b93, the chuck ball b93 stretches out the ball spacing hole, chuck ball b93 Rolled in the end face of the driven gear.
From fig. 6, it can be seen that tie hoop coiling roller a1 active rotations, active roller b4 and tie hoop coiling roller Reinforcing bars with rolling area is formed between a1, meanwhile, active roller b4 linear slides, reinforcing bar is turned on tie hoop coiling roller a1 Tie hoop.
Finally it should be noted that foregoing description is only the preferred embodiments of the present invention, the ordinary skill people of this area Member on the premise of without prejudice to present inventive concept and claim, can make table as multiple types under enlightenment of the invention Show, such conversion is each fallen within protection scope of the present invention.

Claims (8)

1. a kind of modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation, it is characterised in that:Set including parallel The linear slide (b1) and synchronous screw (b2) put, active roller (b4) is provided with the linear slide (b1), Screw thread is arranged with driven nut (b5) on the synchronous screw (b2), is set between the active roller (b4) and driven nut (b5) There is synchronous axial system part (b6), synchronous slide keeper (b7) is provided between the active roller (b4) and driven nut (b5).
2. modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation according to claim 1, its feature It is:The roller shaft (b8) of the active roller (b4) is parallel to each other with the synchronous screw (b2), the synchronous axial system part (b6) it is gear pair, the driving gear of the gear pair is solidly set on the roller shaft (b8), and the driven gear of the gear pair covers admittedly In the driven nut (b5), driving gear and driven gear are intermeshed.
3. modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation according to claim 2, its feature It is:The synchronous slide keeper (b7) includes two chucks (b71), and two chucks (b71) are solidly set on the active On the roller shaft (b8) of gear both sides, two chucks (b71) are folded in the driven gear both sides.
4. modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation according to claim 3, its feature It is:Ball being offered in the medial surface of the chuck (b71) and annular groove (b91) being installed, the ball installs the bottom land of annular groove (b91) Circumferentially distributed to have multiple ball positioning counterbores (b92), the inwall of the ball positioning counterbore (b92) is arcwall face, and the ball is determined Chuck ball (b93) is respectively equipped with position counterbore (b92), the ball to be installed and be coated with ball bezel ring, on annular groove (b91) (b94) it is, circumferentially distributed on the ball bezel ring, (b94) to have ball spacing hole, the ball spacing hole and ball positioning counterbore (b92) Correspond, the diameter of the aperture less than the chuck ball (b93) of the ball spacing hole, the chuck ball (b93) is stretched Go out the ball spacing hole, chuck ball (b93) is rolled in the end face of the driven gear.
5. the modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation according to claim 2,3 or 4, its It is characterised by:The gear pair is speed reducing gear pair.
6. the modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation according to claim 1,2,3 or 4, It is characterized in that:Ring is provided with deep-slotted chip breaker (b41) on the outer circumference surface of the active roller (b4).
7. modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation according to claim 6, its feature It is:Deep-slotted chip breaker (b41) inwall is fitted with rubber layer.
8. modern assembled architecture engineering steel reinforcement cage tie hoop coiling sychronisation according to claim 2, its feature It is:The linear slide (b1) includes line slideway, and sliding block is sliding combined with the line slideway, just right on the sliding block Two journal stirrups are provided with, the roller shaft (b8) is provided between two journal stirrups;The two ends of the synchronous screw (b2) are separately mounted to On bearing.
CN201710051290.6A 2017-01-23 2017-01-23 Modern assembled architecture engineering steel reinforcement cage tie hoop coiling synchronizing device Active CN106807857B (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB481377A (en) * 1937-03-27 1938-03-10 Ryo Catteau Sa Ets Improvements relating to the winding of thread and yarn
CN2271516Y (en) * 1996-11-06 1997-12-31 丹东市房屋建设总公司建工机械厂 Electrical cable winding appts
DE202009016214U1 (en) * 2009-11-27 2010-03-04 Ruf, Harry Device for winding and unwinding strand-like winding material
CN204588574U (en) * 2015-04-24 2015-08-26 中核武汉核电运行技术股份有限公司 A kind ofly be applicable to the automatic winding displacement apparatus that spentnuclear fuel associated component switches gripping apparatus
CN206509450U (en) * 2017-01-23 2017-09-22 重庆恒佳工程技术咨询有限公司 Modern assembled architecture engineering steel reinforcement cage circular stirrups helically coiling synchronizer

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB481377A (en) * 1937-03-27 1938-03-10 Ryo Catteau Sa Ets Improvements relating to the winding of thread and yarn
CN2271516Y (en) * 1996-11-06 1997-12-31 丹东市房屋建设总公司建工机械厂 Electrical cable winding appts
DE202009016214U1 (en) * 2009-11-27 2010-03-04 Ruf, Harry Device for winding and unwinding strand-like winding material
CN204588574U (en) * 2015-04-24 2015-08-26 中核武汉核电运行技术股份有限公司 A kind ofly be applicable to the automatic winding displacement apparatus that spentnuclear fuel associated component switches gripping apparatus
CN206509450U (en) * 2017-01-23 2017-09-22 重庆恒佳工程技术咨询有限公司 Modern assembled architecture engineering steel reinforcement cage circular stirrups helically coiling synchronizer

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