CN106862430B - Modern assembled architecture engineering steel reinforcement cage synchronizes coiling device - Google Patents

Modern assembled architecture engineering steel reinforcement cage synchronizes coiling device Download PDF

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Publication number
CN106862430B
CN106862430B CN201710050477.4A CN201710050477A CN106862430B CN 106862430 B CN106862430 B CN 106862430B CN 201710050477 A CN201710050477 A CN 201710050477A CN 106862430 B CN106862430 B CN 106862430B
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CN
China
Prior art keywords
cylinder
ball
coiling
synchronous
driving roller
Prior art date
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.)
Expired - Fee Related
Application number
CN201710050477.4A
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Chinese (zh)
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CN106862430A (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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Application filed by Chongqing Hengjia Engineering Consulting Co Ltd filed Critical Chongqing Hengjia Engineering Consulting Co Ltd
Priority to CN201710050477.4A priority Critical patent/CN106862430B/en
Publication of CN106862430A publication Critical patent/CN106862430A/en
Application granted granted Critical
Publication of CN106862430B publication Critical patent/CN106862430B/en
Expired - Fee Related legal-status Critical Current
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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
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F11/00Cutting wire

Abstract

The present invention discloses a kind of modern assembled architecture engineering steel reinforcement cage synchronization coiling device, including coiling cartridge module, is equipped with synchronizer close to the coiling cartridge module;Coiling cartridge module includes cylinder, and the barrel of cylinder is equipped with bar shaped and cuts mouth, and bar shaped, which is cut, is provided along its length inner cutter in mouth;Synchronizer includes linear slide and synchronous screw, driving roller is installed in linear slide, thread bush is equipped with driven nut on synchronous screw, is equipped between driving roller and driven nut and rotates synchronously part, and synchronous slide holder is equipped between driving roller and driven nut.It is that stirrup moves along a straight line in coiling on cylinder with driving roller using remarkable result of the invention, by the own rotation of coiling cylinder, directly obtains multi-circle spiral flow muscle;After the completion of coiling, then by cutting knife and the inner cutter cooperation of peripheral hardware, directly spiral reinforcement is cut in cylinder, to obtain the molding annulus of multiple coilings, is greatly improved the efficiency.

Description

Modern assembled architecture engineering steel reinforcement cage synchronizes coiling device
Technical field
The present invention relates to a kind of synchronous coiling devices of modern assembled architecture engineering steel reinforcement cage.
Background technique
Modern assembled architecture includes the classifications such as factory, warehouse, house, railroad construction, bridge, is referred to prefabricated component It is built made of assemble in site.The advantages of this building is that construction speed is fast, and climate conditionality is small, saves labour simultaneously Construction quality can be improved.And in bridges and culverts or high-building construction, drive piles according to requiring to may require basis, method is It is drilled with using machine punching and water mill, and hole depth reaches design requirement, then transfers steel reinforcement cage to stake holes, be inserted into conduit Carry out concrete casting.In steel reinforcement cage, stirrup is used to meet anti-shear intensity, and is coupled stress main reinforcement and the mixed muscle of compressive region The reinforcing bar of skeleton.Divide single hoop muscle, open rectangle stirrup, enclosing square stirrup, diamond shape stirrup, polygon u stirrup, groined type hoop Muscle and circular stirrups etc..The machine-shaping of circular stirrups mostly uses manually, this production method large labor intensity, working efficiency It is low, it is time-consuming and laborious, while the size of stirrup made of manually beaing is often and size actually required is there are biggish deviation, makes In the form work engineering of post-production, thickness of protection tier is not easy to control, it is difficult to guarantee the quality of template.Later someone designs A kind of auxiliary tool helps worker to complete the coiling of circular stirrups, but there is still a need for more labour, inefficient.It is round Stirrup processing and forming the main contents include the coiling of annulus, reinforcing bar is cut, the welding etc. of end.Mechanized Processing circular, hoop Muscle needs to fully consider the above content.
Summary of the invention
In view of this, to solve above-mentioned one or a more technical problems, the present invention provides a kind of modern assembled Architectural engineering steel reinforcement cage synchronizes coiling device.
Technical solution is as follows:
A kind of modern assembled architecture engineering steel reinforcement cage synchronization coiling device, key are: including coiling cartridge module, leaning on The nearly coiling cartridge module is equipped with synchronizer;
The coiling cartridge module includes cylinder, and cylinder shaft is equipped in the cylinder, and the barrel of the cylinder is equipped with item Shape cuts mouth, and the length direction which cuts mouth is parallel with the cylinder heart line of cylinder, which cuts in mouth along its length Equipped with inner cutter, which is fixed on cylinder, and the edge of a knife of the inner cutter is radially;
The synchronizer includes the linear slide and synchronous screw for being parallel to the cylinder shaft setting, the straight line Driving roller is installed, the roller shaft of the driving roller is parallel to each other with the synchronous screw, the driving roller on carriage Thread bush is equipped with driven nut on the cylinder body outer wall, the synchronous screw, between the driving roller and driven nut Equipped with part is rotated synchronously, synchronous slide holder is equipped between the driving roller and driven nut.
Using above technical scheme, stirrup is adjacent to reinforcing bar with driving roller in coiling on cylinder, to drive actively Idler wheel rolls, and by rotating synchronously part, drives driven nut to rotate on synchronous screw, driven nut edge during rotation Synchronous screw linear motion makes driving roller along linear slide straight line so that synchronous slide holder be driven to move along a straight line Movement;Finally, driving roller moves along a straight line while rotation along linear slide, to make stirrup edge while coiling Rectilinear direction movement, obtains multi-circle spiral flow muscle, and the program can rely on the own rotation of coiling cylinder, directly obtain spiral reinforcement; After the completion of coiling, then by cutting knife and the inner cutter cooperation of peripheral hardware, directly spiral reinforcement is cut in cylinder, thus To the molding annulus of multiple coilings, greatly improve the efficiency.
The barrel of the cylinder is equipped with steel bar end spliced eye, any of the steel bar end spliced eye close to the cylinder End.Before coiling, steel bar end is plugged in steel bar end spliced eye, reinforcing bar pitch of the laps is driven when barrel body rotation.
Above-mentioned linear slide includes linear guide, which is equipped with sliding block, and the both ends of the roller shaft are logical It crosses support installation on the slide block, is equipped with leading arm close to the driving roller on the sliding block, is offered on the leading arm Reinforcing bar pilot hole forms reinforcing bars with rolling area, the reinforcing bar pilot hole between the periphery of the driving roller and the outer wall of cylinder Towards the reinforcing bars with rolling area.Reinforcing bar is threaded through in reinforcing bar pilot hole, and leading arm drives reinforcing bar linear motion.
Above-mentioned synchronous rotation part is gear pair, which is speed reducing gear pair, and the driving gear of the gear pair is solidly set on On the roller shaft, the driven gear of the gear pair is solidly set in the driven nut, and driving gear and driven gear are mutually nibbled It closes.
The synchronous slide holder includes two chucks, and two chucks are solidly set on the rolling of the driving gear two sides On wheel shaft, two chucks are folded in the driven gear two sides.In the design, driven gear is rotated with driven nut, and Chuck is pushed, to make to slide in linear slide from chuck, driving gear, driving roller.
The medial surface of the chuck offer ball installation annular groove, the ball installation annular groove slot bottom it is circumferentially distributed have it is more A ball positioning counterbore, the inner wall of the ball positioning counterbore are arcwall face, and chuck rolling is respectively equipped in the ball positioning counterbore Pearl, the ball is installed and is covered with ball bezel ring, on annular groove, circumferentially distributed on the ball bezel ring, to have ball limit hole, the ball Limit hole and ball positioning counterbore correspond, and the aperture of the ball limit hole is less than the diameter of the chuck ball, described Chuck ball stretches out the ball limit hole, and chuck ball is rolled in the end face of the driven gear.The program can reduce chuck Friction between driven gear.
Circumferential on the outer circumference surface of above-mentioned driving roller to be equipped with arc groove, which is fitted with rubber layer.Stirrup When coiling, reinforcing bar is fastened in arc groove, is kept stablizing, be moved along a straight line with driving roller, rubber layer can increase and reinforcing bar Friction.
The both ends that above-mentioned bar shaped cuts mouth are all closed, and two are radially provided on the cylinder and cuts lock hole, described in two The both ends that lock hole cuts mouth respectively close to the bar shaped are cut, described one end for cutting lock hole is radially pierced by the cylinder Barrel.Lock hole is cut above for keeping stabilization when cutting for cylinder position and lock.
Above-mentioned cylinder shaft is equipped at least two star-shaped supports, and the star-shaped support is axially distributed in cylinder shaft, It is solidly set at the center of the star-shaped support in cylinder shaft, the extension end end of the star-shaped support is respectively equipped with cylinder reinforcement Arc panel, the outer surface that the cylinder reinforces arc panel are fixedly connected with the inner wall of the cylinder respectively, the same star It is respectively equipped with bracket reinforcing rod between two adjacent cantilever arms of bracket, the inner cutter is fixed on bracket reinforcing rod.
The length direction that bar shaped described in lateral edge cuts mouth in above-mentioned cylinder is equipped with tool apron, which cuts out close to the bar shaped Notch, the tool apron are fixedly connected with the bracket reinforcing rod, and the inner cutter is fixedly connected with the tool apron, the knife of the inner cutter Outer wall of the mouth close to the cylinder.
The utility model has the advantages that stirrup is in cylinder using modern assembled architecture engineering steel reinforcement cage of the invention synchronous coiling device It when upper coiling, is adjacent to reinforcing bar with driving roller, so that driving roller be driven to roll, and by rotating synchronously part, drives driven Nut rotates on synchronous screw, and driven nut moves along a straight line along synchronous screw during rotation, to drive synchronous slide Holder linear motion, makes driving roller move along a straight line along linear slide;Finally, driving roller is while rotation along straight Line carriage linear motion, so that stirrup be made linearly to move while coiling, obtains multi-circle spiral flow muscle, the program The own rotation that coiling cylinder can be relied on, directly obtains spiral reinforcement;After the completion of coiling, then pass through the cutting knife and inscribe of peripheral hardware Knife cooperation, directly cuts spiral reinforcement in cylinder, to obtain the molding annulus of multiple coilings, substantially increases effect Rate.
Detailed description of the invention
Fig. 1 is the structural diagram of the present invention;
Fig. 2 is the structural schematic diagram of coiling cartridge module a;
Fig. 3 is the schematic diagram of the section structure of coiling cartridge module a;
Fig. 4 is the portion the A enlarged drawing of Fig. 3;
Fig. 5 is the structural schematic diagram of synchronizer b;
Fig. 6 is the top view of Fig. 6;
Fig. 7 is the structural schematic diagram of chuck b71;
The schematic diagram of the section structure of chuck b71 when Fig. 8 is not set chuck ball b93;
Fig. 9 is the schematic diagram of the section structure of chuck b71 when chuck ball b93 is arranged.
Specific embodiment
Below with reference to embodiment and attached drawing, the invention will be further described.
As shown in Fig. 1 to Fig. 9, a kind of modern assembled architecture engineering steel reinforcement cage synchronization coiling device, including coiling cylinder group Part a is equipped with synchronizer b close to the coiling cartridge module a;
The coiling cartridge module a includes cylinder a1, and cylinder shaft a5, the barrel of the cylinder a1 are equipped in cylinder a1 It is equipped with bar shaped and cuts a mouthful a2, the length direction which cuts mouthful a2 is parallel with the cylinder heart line of cylinder a1, which cuts mouth Inner cutter a3 is provided along its length in a2, inner cutter a3 is fixed on cylinder a1, the edge of a knife of inner cutter a3 radially towards Outside;
The synchronizer b includes the linear slide b1 and synchronous screw b2 for being parallel to the cylinder shaft a5 setting, Driving roller b4 is installed on the linear slide b1, the roller shaft b8 of driving roller b4 and the synchronous screw b2 phase Mutually parallel, driving roller b4 thread bush on the cylinder a1 outer wall, the synchronous screw b2 is equipped with driven nut b5, institute It states to be equipped between driving roller b4 and driven nut b5 and rotates synchronously part b6, set between the driving roller b4 and driven nut b5 There is synchronous slide holder b7.
The barrel of the cylinder a1 is equipped with steel bar end spliced eye, and the steel bar end spliced eye is close to the cylinder a1's Either end.
The linear slide b1 includes linear guide, the linear guide be equipped with sliding block, the two of the roller shaft b8 End on the slide block, is equipped with leading arm b3, the leading arm close to the driving roller b4 on the sliding block by support installation Reinforcing bar pilot hole is offered on b3, and reinforcing bars with rolling area is formed between the periphery of the driving roller b4 and the outer wall of cylinder a1, The reinforcing bar pilot hole is towards the reinforcing bars with rolling area.
The synchronous rotation part b6 is gear pair, which 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 holder b7 includes that two chucks b71, two chuck b71 are solidly set on the driving gear On the roller shaft b8 of two sides, two chuck b71 are folded in the driven gear two sides.
Ball installation annular groove b91 is offered in the medial surface of the chuck b71, which installs the slot bottom ring of annular groove b91 To multiple ball positioning counterbore b92 are distributed with, the inner wall of ball positioning counterbore b92 is arcwall face, the ball positioning counterbore It is respectively equipped with chuck ball b93 in b92, is covered with ball bezel ring, b94 on the ball installation annular groove b91, ball bezel ring, b94 Above circumferentially distributed to have ball limit hole, the ball limit hole and ball positioning counterbore b92 are corresponded, the ball limit hole Aperture be less than the diameter of the chuck ball b93, the chuck ball b93 stretches out the ball limit hole, chuck ball b93 It is rolled in the end face of the driven gear.
Circumferential on the outer circumference surface of the driving roller b4 to be equipped with arc groove b41, arc groove b41 inner wall is fitted with rubber Layer.
The both ends that the bar shaped cuts mouthful a2 are all closed, and two are radially provided on the cylinder a1 and cuts lock hole a4, and two The both ends that lock hole a4 cuts mouthful a2 respectively close to the bar shaped are cut described in a, described one end for cutting lock hole a4 is radially worn The barrel of the cylinder a1 out.
The cylinder shaft a5 is equipped at least two star-shaped support a61, and the star-shaped support a61 is on cylinder shaft a5 It is axial to be distributed, it is solidly set on cylinder shaft a5 at the center of the star-shaped support a61, the extension end end of the star-shaped support a61 Portion is respectively equipped with cylinder and reinforces arc panel a62, and the cylinder reinforces the outer surface of arc panel a62 respectively and in the cylinder a1 Wall is fixedly connected, and is respectively equipped with bracket reinforcing rod a63, institute between two adjacent cantilever arms of the same star-shaped support a61 Inner cutter a3 is stated to be fixed on bracket reinforcing rod a63.
The length direction that bar shaped described in lateral edge cuts mouthful a2 in the cylinder a1 is equipped with tool apron a7, and tool apron a7 is close to institute It states bar shaped and cuts a mouthful a2, tool apron a7 is fixedly connected with the bracket reinforcing rod a63, and the inner cutter a3 is fixed with tool apron a7 Connection, the outer wall of the edge of a knife of the inner cutter a3 close to the cylinder a1.
Finally, it should be noted that foregoing description is only the preferred embodiment of the present invention, the ordinary skill people of this field Member under the inspiration of the present invention, without prejudice to the purpose of the present invention and the claims, can make multiple similar tables Show, such transformation is fallen within the scope of protection of the present invention.

Claims (6)

1. a kind of synchronous coiling device of modern assembled architecture engineering steel reinforcement cage, it is characterised in that: including coiling cartridge module (a), Synchronizer (b) is equipped with close to the coiling cartridge module (a);
The coiling cartridge module (a) includes cylinder (a1), is equipped with cylinder shaft (a5) in the cylinder (a1), the cylinder (a1) Barrel be equipped with bar shaped cut mouth (a2), the length direction which cuts mouth (a2) is parallel with the cylinder heart line of cylinder (a1), The bar shaped cuts in mouth (a2) and is provided along its length inner cutter (a3), which is fixed on cylinder (a1), should The edge of a knife of inner cutter (a3) is radially;
The synchronizer (b) includes the linear slide (b1) and synchronous screw for being parallel to cylinder shaft (a5) setting (b2), driving roller (b4) is installed on the linear slide (b1), the roller shaft (b8) of the driving roller (b4) and institute It states synchronous screw (b2) to be parallel to each other, the driving roller (b4) is on the cylinder (a1) outer wall, the synchronous screw (b2) Thread bush is equipped with driven nut (b5), is equipped between the driving roller (b4) and driven nut (b5) and rotates synchronously part (b6), Synchronous slide holder (b7) is equipped between the driving roller (b4) and driven nut (b5);
The barrel of the cylinder (a1) is equipped with steel bar end spliced eye, and the steel bar end spliced eye is close to the cylinder (a1) Either end;
The synchronous rotation part (b6) is gear pair, which is speed reducing gear pair, and the driving gear of the gear pair is solidly set on On the roller shaft (b8), the driven gear of the gear pair is solidly set on the driven nut (b5), driving gear and driven tooth Wheel intermeshing;
The synchronous slide holder (b7) includes two chucks (b71), and two chucks (b71) are solidly set on the driving tooth On the roller shaft (b8) for taking turns two sides, two chucks (b71) are folded in the driven gear two sides;
Ball installation annular groove (b91) is offered in the medial surface of the chuck (b71), which installs the slot bottom of annular groove (b91) Circumferentially distributed to have multiple ball positioning counterbores (b92), the inner wall of the ball positioning counterbore (b92) is arcwall face, and the ball is fixed It is respectively equipped with chuck ball (b93) in position counterbore (b92), is covered with ball bezel ring, on ball installation annular groove (b91) (b94), circumferentially distributed on the ball bezel ring, (b94) to have a ball limit hole, the ball limit hole and ball positioning counterbore (b92) It corresponds, the aperture of the ball limit hole is less than the diameter of the chuck ball (b93), and the chuck ball (b93) is stretched The ball limit hole out, chuck ball (b93) are rolled in the end face of the driven gear.
2. the synchronous coiling device of modern assembled architecture engineering steel reinforcement cage according to claim 1, it is characterised in that: described Linear slide (b1) includes linear guide, which is equipped with sliding block, and the both ends of the roller shaft (b8) pass through branch Support installation on the slide block, is equipped with leading arm (b3) close to the driving roller (b4) on the sliding block, the leading arm (b3) On offer reinforcing bar pilot hole, form reinforcing bars with rolling between the periphery of the driving roller (b4) and the outer wall of cylinder (a1) Area, the reinforcing bar pilot hole is towards the reinforcing bars with rolling area.
3. the synchronous coiling device of modern assembled architecture engineering steel reinforcement cage according to claim 1 or 2, it is characterised in that: Circumferential on the outer circumference surface of the driving roller (b4) to be equipped with arc groove (b41), which is fitted with rubber Layer.
4. the synchronous coiling device of modern assembled architecture engineering steel reinforcement cage according to claim 1 or 2, it is characterised in that: The both ends that the bar shaped cuts mouth (a2) are all closed, and are radially provided with two on the cylinder (a1) and are cut lock hole (a4), and two The both ends for cutting lock hole (a4) and cutting mouth (a2) respectively close to the bar shaped, one end diameter for cutting lock hole (a4) To the barrel for being pierced by the cylinder (a1).
5. the synchronous coiling device of modern assembled architecture engineering steel reinforcement cage according to claim 1 or 2, it is characterised in that: The cylinder shaft (a5) is equipped at least two star-shaped supports (a61), and the star-shaped support (a61) is on cylinder shaft (a5) It is axial to be distributed, it is solidly set on cylinder shaft (a5) at the center of the star-shaped support (a61), star-shaped support (a61's) stretches Outlet end is respectively equipped with cylinder and reinforces arc panel (a62), the cylinder reinforce the outer surface of arc panel (a62) respectively with it is described The inner wall of cylinder (a1) is fixedly connected, and is respectively equipped with branch between two adjacent cantilever arms of the same star-shaped support (a61) Frame reinforcing rod (a63), the inner cutter (a3) are fixed on bracket reinforcing rod (a63).
6. the synchronous coiling device of modern assembled architecture engineering steel reinforcement cage according to claim 5, it is characterised in that: in institute It states bar shaped described in cylinder (a1) interior lateral edge and cuts the length direction of mouth (a2) equipped with tool apron (a7), the close item of the tool apron (a7) Shape cuts mouth (a2), which is fixedly connected with the bracket reinforcing rod (a63), the inner cutter (a3) and the tool apron (a7) it is fixedly connected, the outer wall of the edge of a knife of the inner cutter (a3) close to the cylinder (a1).
CN201710050477.4A 2017-01-23 2017-01-23 Modern assembled architecture engineering steel reinforcement cage synchronizes coiling device Expired - Fee Related CN106862430B (en)

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Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109834458B (en) * 2017-11-27 2020-11-10 中国电子科技集团公司第四十八研究所 Assembly correction equipment and method for multi-circle part wound by long bar
CN111229987B (en) * 2020-01-18 2021-09-10 浙江奕乌侬食品有限公司 Heating coil winding device

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2130324A (en) * 1934-10-02 1938-09-13 Firestone Steel Products Co Method of making metal rings
US4365492A (en) * 1980-06-25 1982-12-28 Intercole Bolling Corp. Ring former and cutoff
JP2002086310A (en) * 2000-09-12 2002-03-26 Kobe Steel Ltd Wire rod coil cutting device
DE202009016214U1 (en) * 2009-11-27 2010-03-04 Ruf, Harry Device for winding and unwinding strand-like winding material
CN106001322A (en) * 2016-07-30 2016-10-12 陕西大润福门业有限公司 Spiral stirrup continuously and synchronously machining machine and machining method

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2130324A (en) * 1934-10-02 1938-09-13 Firestone Steel Products Co Method of making metal rings
US4365492A (en) * 1980-06-25 1982-12-28 Intercole Bolling Corp. Ring former and cutoff
JP2002086310A (en) * 2000-09-12 2002-03-26 Kobe Steel Ltd Wire rod coil cutting device
DE202009016214U1 (en) * 2009-11-27 2010-03-04 Ruf, Harry Device for winding and unwinding strand-like winding material
CN106001322A (en) * 2016-07-30 2016-10-12 陕西大润福门业有限公司 Spiral stirrup continuously and synchronously machining machine and machining method

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