CN217343340U - Full-automatic production device mechanism for box girder top beam steel bars - Google Patents
Full-automatic production device mechanism for box girder top beam steel bars Download PDFInfo
- Publication number
- CN217343340U CN217343340U CN202221213785.7U CN202221213785U CN217343340U CN 217343340 U CN217343340 U CN 217343340U CN 202221213785 U CN202221213785 U CN 202221213785U CN 217343340 U CN217343340 U CN 217343340U
- Authority
- CN
- China
- Prior art keywords
- reinforcing bar
- workstation
- workbench
- bending
- steel bars
- 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.)
- Active
Links
Images
Landscapes
- Bending Of Plates, Rods, And Pipes (AREA)
Abstract
The utility model provides a full automatic production device mechanism of case roof beam reinforcing bar belongs to reinforcing bar processing equipment technical field. Including the platform of placing of bending apparatus and being used for bearing reinforcing bar, place the platform and be located the outside of bending apparatus, the bending apparatus is including setting up subaerial track and two at least workstations, and the workstation slides and sets up on the track, and the mutual symmetry of workstation at both sides edge is provided with the crooked subassembly that is used for crooked reinforcing bar of liftable on the track, is provided with in the workstation and is used for restricting the gliding spacing subassembly of workstation. When the staff will wait to bend the reinforcing bar and put on bending device, with the reinforcing bar card between two fixed poles of cover half, remove the workstation to the reinforcing bar middle part through successively twice, utilize the bull stick to rotate around the cover half with crooked reinforcing bar after removing at every turn to the bull stick is located the reinforcing bar difference side during twice crooked reinforcing bar respectively, can be with the reinforcing bar bending to appointed "Z" word shape, has the advantage of using manpower sparingly, improvement back timber reinforcing bar's machining efficiency.
Description
Technical Field
The utility model relates to a reinforcing bar processing equipment technical field discloses a full automatic production device mechanism of case roof beam reinforcing bar.
Background
With the investment of the country in the urban road construction direction, the domestic road and bridge construction technology is continuously improved. The box girder is as the indispensable structure in road and bridge construction, and its manufacturing technology is constantly maturing.
There is the back timber reinforcing bar in the case roof beam, and the middle part of back timber reinforcing bar is a plurality of platforms of Z word bending out, and reinforcing bar both ends head all bends out and have the crotch. In the prior art, workers typically bend the bars by means of a bar bender.
However, because the reinforcing steel bars are too long, workers are required to manually hold the reinforcing steel bars in the whole process of bending the reinforcing steel bars, and then the bending parts on the reinforcing steel bars are bent one by the reinforcing steel bar bending machine.
SUMMERY OF THE UTILITY MODEL
In view of the above problem, the utility model provides a full automatic production device mechanism of case roof beam reinforcing bar.
In order to achieve the above object, the utility model adopts the following technical scheme:
the utility model provides a full automatic production device mechanism of case roof beam reinforcing bar, including the platform of placing of bending apparatus and being used for the bearing reinforcing bar, place the outside that the platform is located bending apparatus, bending apparatus is including setting up subaerial track and two at least workstations, and the workstation slides and sets up on the track, and the mutual symmetry of workstation at both sides edge is provided with the crooked subassembly that is used for crooked reinforcing bar of liftable on the workstation, is provided with in the workstation to be used for restricting the gliding spacing subassembly of workstation.
Further, the bending assembly comprises a fixed die and a rotating rod, the fixed die comprises a fixed rod used for abutting against two sides of a reinforcing steel bar, the fixed die is vertically arranged on a workbench in a sliding mode, a turntable is arranged on the workbench in a rotating mode around the fixed die, the rotating rod is vertically arranged on the turntable in a sliding mode, a first driving source used for driving the turntable to rotate is arranged on the workbench, and a lifting assembly used for driving the fixed die and the rotating rod to vertically lift is arranged on the workbench.
Further, spacing subassembly includes first cylinder, and fixed the setting is by the skid proof head on the piston rod of first cylinder, and the skid proof head can the butt on the track.
Furthermore, one side of the placing table, which is far away from the bending device, is provided with a discharging area, the workbench is provided with a first transferring assembly used for transferring the reinforcing steel bars to the placing table, and the placing table is provided with a second transferring assembly used for transferring the reinforcing steel bars to the discharging area.
Further, the first subassembly of transferring includes first installation piece and second installation piece, and first installation piece slides and sets up in first workstation, is provided with in the first workstation and is used for ordering about the vertical gliding second cylinder of first installation piece, and second installation piece horizontal slip sets up on first installation piece, is provided with in the first workstation and is used for ordering about the second installation piece to be close to or keep away from the second driving source who places the platform, and one side that the top of second installation piece is close to and places the platform is provided with the bearing platform that is used for holding up the reinforcing bar.
Further, the subassembly is transferred to the second includes third driving source, chain and two sprockets, places the bench and has run through downwards along the direction of transferring of placing bench reinforcing bar and seted up the bar hole, and two sprocket rotations set up in the below of placing the platform, and the chain is around establishing on two sprockets, and the third driving source is used for ordering about arbitrary sprocket reciprocating rotation, and the fixed push rod that is provided with on the chain upwards stretches out the bar hole to the push rod on the chain upper strata.
Further, be provided with clamping component on the workstation, clamping component includes fixing base, sliding seat and third cylinder, and fixing base and sliding seat set up at the top of workstation, and the third cylinder is used for ordering about the sliding seat and keeps away from or be close to the fixing base.
Furthermore, a driving motor is arranged in the workbench, a rack is fixedly arranged on the track along the length direction of the track, and an output shaft of the driving motor is meshed with the rack through a gear.
Further, the lifting plate is arranged on one side, away from each other, of the workbench on the edges of the two sides of the rail in a sliding mode along the vertical direction, and a fourth cylinder used for driving the lifting plate to vertically lift is arranged in the workbench.
The utility model discloses at least, include following beneficial effect:
the embodiment of the application provides a full automatic production device mechanism of case roof beam reinforcing bar, including the platform of placing of bending apparatus with being used for the bearing reinforcing bar, place the platform and be located the outside of bending apparatus, bending apparatus is including setting up subaerial track and two at least workstations, the workstation slides and sets up on the track, the mutual symmetry of workstation at both sides edge on the track, be provided with the crooked subassembly that is used for crooked reinforcing bar of liftable on the workstation, be provided with in the workstation and be used for restricting the gliding spacing subassembly of workstation.
When the staff will be waited to bend the reinforcing bar and put on bending device, through with the reinforcing bar card between two fixed poles of cover half, the rethread bull stick rotates around the cover half, can make the reinforcing bar crooked around the cover half, when "Z" word is crooked to the reinforcing bar, remove the workstation to the reinforcing bar middle part through succeeding and twice, utilize the bull stick to rotate around the cover half with crooked reinforcing bar after removing at every turn, and the bull stick is located the reinforcing bar difference side respectively during twice crooked reinforcing bar, can be with the reinforcing bar bending to appointed "Z" word shape, the reinforcing bar need not artifical the holding in the in-process of buckling, the manpower is saved, realize the automatic process of buckling of case roof beam back timber reinforcing bar, the machining efficiency of back timber reinforcing bar has been improved.
Drawings
Fig. 1 is a schematic overall structure diagram of a device mechanism according to an embodiment of the present application.
Fig. 2 is a schematic view of an internal structure of a workbench at two side edges of a track according to an embodiment of the present application.
FIG. 3 is a schematic structural diagram of a limiting assembly and a power assembly in a workbench according to an embodiment of the present disclosure.
Fig. 4 is a partial sectional structural schematic view of a placing table according to an embodiment of the application.
Fig. 5 is an enlarged schematic view of a portion a in fig. 4.
Fig. 6 is a schematic structural diagram of a first transfer assembly according to an embodiment of the present disclosure.
Wherein, 1, bending device; 11. a track; 12. a work table; 13. a bending assembly; 131. fixing a mold; 132. a rotating rod; 133. a turntable; 134. a first drive source; 135. a lifting assembly; 1351. a fixed die air cylinder; 1352. A rotating rod cylinder; 14. a limiting component; 141. a first cylinder; 142. an anti-slip head; 15. a clamping assembly; 151. a fixed seat; 152. a movable seat; 153. a third cylinder; 154. a lifting cylinder; 155. a lifting platform; 16. a power assembly; 161. a drive motor; 162. a rack; 163. a gear; 17. an alignment assembly; 171. a lifting plate; 172. a fourth cylinder; 2. a placing table; 21. a discharge area; 22. a first transfer assembly; 221. A first mounting piece; 222. a second mounting piece; 2221. a support platform; 223. a second cylinder; 224. a second drive source; 23. a second transfer assembly; 231. a third drive source; 232. a chain; 233. a sprocket; 234. A strip-shaped hole; 235. a push rod.
Detailed Description
For better understanding of the above technical solutions, the above technical solutions will be described in detail with reference to fig. 1 to 6 and specific embodiments of the specification.
The embodiment of the utility model provides a through providing a full automatic production device mechanism of case roof beam reinforcing bar, refer to 1, 2 and 3, including bending apparatus 1 and the outside that is located bending apparatus 1 be used for bearing reinforcing bar place the platform 2. Wherein, complete device is including setting up track 11 and at least two workstations 12 on ground, and workstation 12 slidable mounting is on track 11, and the workstation 12 of track 11 both sides edge is symmetrical each other. In the embodiment of the present application, four work tables 12 are provided, and the four work tables 12 are divided into two work tables 12 on the left and right sides, and the work tables 12 on the left and right sides are symmetrical to each other. All be equipped with the crooked subassembly 13 that is used for crooked reinforcing bar on the top mesa of every workstation 12, and crooked subassembly 13 can be relative workstation 12 faces vertical lift, all be equipped with in every workstation 12 and be used for restricting workstation 12 gliding spacing subassembly 14 on track 11.
When a worker bends a steel bar, the steel bar is lifted to a placing table 2 of a bending device 1, then the workbench 12 at the edges of the left side and the right side simultaneously utilizes a bending component 13 to bend two ends of the steel bar to form hooks, then the bending components 13 on the workbench 12 at the edges of the two sides are downwards lowered to be below the table surface of the workbench 12, the bending components 13 on the two workbenches 12 at the inner sides start to act to bend the steel bar one time, the steel bar extends out of the workbench 12 after being bent to be supported by the placing table 2, then the positions of the two workbenches 12 at the inner sides are adjusted to enable the two workbenches 12 to continuously approach to the previous positions, the steel bar is reversely bent through the bending components 13 on the two workbenches 12, a Z-shaped step can be bent on the steel bar, the bending process of the box girder top beam steel bar is completed, and the steel bar is not supported manually by the worker, the operation is labor-saving and convenient.
In other embodiments, when there are three work tables 12, after bending the steel bar out of the hook through the work tables 12 at the left and right edge positions, the bending assembly 13 on the work table 12 at one edge is lowered, the remaining two work tables 12 may be operated simultaneously, or only the work table 12 at the inner side is operated, after bending the steel bar once, the steel bar is closed to the other work table 12, and bending is performed once in the opposite direction, so that a plurality of "Z" patterns are gradually bent on the steel bar.
In the embodiment of the present application, the bending assembly 13 includes a fixed mold 131 and a rotating rod 132, the fixed mold 131 includes fixed rods for abutting against two sides of the reinforcing steel bar, and the lower ends of the two fixed rods are connected into a whole and vertically slidably inserted on the workbench 12. The worktable 12 is also rotatably provided with a turntable 133, the turntable 133 is annular, the fixed die 131 is positioned at the hollow-out position in the middle of the turntable 133, and the rotating rod 132 vertically slides and penetrates through the turntable 133. The worktable 12 is provided with a first driving source 134 for driving the turntable 133 to rotate, the first driving source 134 may be a servo motor, and the first driving source 134 may drive the turntable 133 to rotate on the worktable 12 through a gear 163. The working table 12 is further provided with a lifting assembly 135 for driving the fixed die 131 and the rotating rod 132 to vertically lift, in the embodiment of the application, the lifting assembly 135 comprises a fixed die air cylinder 1351 and a rotating rod air cylinder 1352, the fixed die air cylinder 1351 is fixedly connected with the working table 12, a piston rod of the fixed die air cylinder 1351 is vertically connected to the bottom of the fixed die 131, the rotating rod air cylinder 1352 is fixedly connected with the rotating disc 133, and a piston rod of the rotating rod air cylinder 1352 is vertically connected to the bottom of the rotating rod 132.
When the staff is laying the reinforcing bar, through placing the reinforcing bar between two fixed poles on the cover half 131, order about the bull stick 132 again and rotate around the cover half 131, because on the crooked subassembly 13 of reinforcing bar rest joint on other workstation 12, the fixed pole with the head laminating cover half 131 of reinforcing bar bends out the crotch. Through adopting controllers such as PLC to edit servo motor's rotation number of turns and slew velocity in advance, can the bending angle and the deformation rate of accurate control reinforcing bar, reinforcing bar bending is accurate.
According to the needs, can withdraw by cover half cylinder 1351 or bull stick cylinder 1352 piston rod among the lifting unit 135, make cover half 131 or bull stick 132 descend under the workstation 12 mesa, but make things convenient for other workstations 12 to the reinforcing bar normal buckling deformation of reinforcing bar man-hour to and the convenient both sides from the reinforcing bar carry out bending, the reinforcing bar bending process is laborsaving, and the bending pattern is various.
In this embodiment, the limiting assembly 14 includes a first cylinder 141, the first cylinder 141 is fixed on the worktable 12 by means of bolts, etc., a piston head of the first cylinder 141 faces the track 11 vertically, a piston rod of the first cylinder 141 is connected with an anti-slip head 142, and the anti-slip head 142 may be made of rubber. After the staff moves the workstation 12 to suitable position, start first cylinder 141, can support tight track 11 through skid proof head 142 to the restriction first workstation 12 or second workstation 12 move on track 11, spacing effect is reliable, and spacing operation is simple quick.
Referring to fig. 1, 4 and 5, in order to facilitate stacking of the bent reinforcing bars and improve the efficiency of the reinforcing bar bending production, in the embodiment of the present invention, a discharge area 21 is provided on the placing table 2 on a side away from the bending apparatus 1, a first transfer unit 22 for transferring the reinforcing bars to the placing table 2 is provided on the table 12, and a second transfer unit 23 for transferring the reinforcing bars to the discharge area 21 is provided on the placing table 2. After bending apparatus 1 bent the reinforcing bar and formed, transfer the reinforcing bar to placing on the platform 2 from workstation 12 through first transfer assembly 22, transfer assembly 23 again by the second and will place the reinforcing bar propelling movement on the platform 2 like unloading in regional 21, liberation staff realizes automatic the unloading, has improved production efficiency greatly.
Referring to fig. 6, in the present embodiment, the first transfer assembly 22 on the table 12 includes a first mounting piece 221 and a second mounting piece 222. Specifically, a mounting plate perpendicular to the arrangement direction of the workbench 12 is arranged on one side of the bending assembly 13 close to another workbench 12 in the workbench 12, a first sliding rail is vertically mounted on the mounting plate, the first mounting piece 221 is slidably mounted on the first sliding rail, a second sliding rail is horizontally mounted on the first mounting piece 221, and the second mounting piece 222 is slidably mounted on the first sliding rail. The workbench 12 is internally provided with a second cylinder 223 for driving the first mounting piece 221 to vertically slide, the second cylinder 223 is fixedly connected with the workbench 12 through a bolt, and the first mounting piece 221 of the piston rod of the second cylinder 223 is connected. The workbench 12 is further provided with a second driving source 224 for driving the second installation piece 222 to slide, one side of the top of the second installation piece 222 close to the placing platform 2 is provided with a supporting platform 2221 for lifting the first installation piece 221, and when the second installation piece 222 moves towards the placing platform 2, the reinforcing steel bar on the fixed die 131 of the first workbench 12 is lifted by the supporting platform 2221, and the reinforcing steel bar can be pushed to move towards the placing platform 2.
In the embodiment of the present application, the second driving source 224 may adopt a servo motor, a rack 162 is disposed on the first mounting piece 221 along the length direction of the second slide rail, and the second driving source 224 is engaged with the rack 162 through a gear 163 to drive the second mounting piece 222 to move horizontally relative to the first mounting piece 221. In other embodiments, the sliding directions of the first mounting piece 221 and the second mounting piece 222 can be exchanged, and the sliding driving manner of the first mounting piece 221 and the second mounting piece 222 can be combined in various manners. For example, in one embodiment, the first mounting piece 221 may be slidably mounted on a mounting plate in the workbench 12 in a horizontal direction, the second mounting piece 222 may be slidably mounted on the first mounting piece 221 in a vertical direction, and both the first mounting piece 221 and the second mounting piece 222 may be slidably mounted by an air cylinder.
In this embodiment, after the bending mechanism finishes bending the reinforcing steel bars, an operator sequentially starts the second cylinder 223 and the second driving source 224 through programming of a PLC or a computer, so that the second mounting piece 222 on the workbench 12 is lifted, the bent reinforcing steel bars between the two fixed rods of the fixed mold 131 on the workbench 12 are lifted upwards by using the supporting platform 2221 on the second mounting piece 222, then the second mounting piece 222 moves towards the placing platform 2 and sends the reinforcing steel bars to the placing platform 2, finally, the second cylinder 223 and the second driving source 224 are reset, and the second mounting piece 222 returns to the original position in the workbench 12 after sequentially placing the reinforcing steel bars on the placing platform 2. The reinforcing bar is transferred through transferring the subassembly, reducible staff's work load, and in time empty the reinforcing bar on the bending apparatus 1, also can be convenient for the staff to continue crooked next reinforcing bar, improve reinforcing bar bending efficiency.
In the embodiment of the present application, a strip-shaped hole 234 penetrates through the placing table 2 downward along the transferring direction of the reinforcing steel bars on the placing table 2, the second transferring assembly 23 includes a third driving source 231, a chain 232 and two chain wheels 233, the two chain wheels 233 are arranged along the length direction of the strip-shaped hole 234, the two chain wheels 233 are both rotatably mounted below the placing table 2, the chain 232 is wound on the two chain wheels 233, the third driving source 231 is used for driving any one chain wheel 233 to rotate in a reciprocating manner, specifically, the third driving source 231 may be a servo motor, and an output shaft of the third driving source 231 may be connected with one chain wheel 233 in the second transferring assembly 23 through chain transmission. A plurality of push rods 235 are distributed at intervals along the circumferential direction of the chain 232 on the outer side of the chain 232, the push rods 235 are fixed with one chain link of the chain 232 through welding and the like, and the push rods 235 on the upper layer of the chain 232 wound on the chain wheel 233 extend upwards from the strip-shaped holes 234.
After the reinforcing bar is transferred and is placed on platform 2, start the third driving source 231 who places 2 below of platform, order about sprocket 233 and rotate to push rod 235 on the chain 232 through the operation, stir the reinforcing bar on workstation 12 and transfer to unloading region 21, and make the back timber reinforcing bar that takes shape drop and deposit in unloading region 21, thereby realize the continuous automated production process of apparatus for producing structure, improve the crooked production efficiency of box roof beam reinforcing bar.
In order to further improve the safety of bending apparatus 1 in the reinforcing bar bending process and the reinforcing bar bending accuracy, in the embodiment of the present application, each workbench 12 is provided with a clamping assembly 15, each clamping assembly 15 includes a fixed base 151, a movable base 152 and a third cylinder 153, the fixed base 151 and the movable base 152 are disposed at the top of the workbench 12, and the third cylinder 153 is used for driving the movable base 152 to be far away from or close to the fixed base 151. Specifically, the clamping assembly 15 is located on one side of the bending assembly 13 on the workbench 12 close to the symmetric centers of the plurality of the workbench 12, and when the workbench 12 is singular in number, the clamping assembly 15 on the middle workbench 12 is located on one side of the bending assembly 13 close to any one of the adjacent workbench 12.
When the staff places the reinforcing bar on workstation 12, make the reinforcing bar be located between fixing base 151 and the sliding seat 152 simultaneously, restart third cylinder 153, the promotion sliding seat 152 of third cylinder 153 removes to fixing base 151 to the reinforcing bar between fixing base 151 and the sliding seat 152 is pressed from both sides tightly. After clamping the reinforcing bar, carry out the bending operation to the reinforcing bar again, effectively prevent that the reinforcing bar from bursting out from crooked subassembly 13 in bending process, improved the security of apparatus for producing structure.
Furthermore, a lifting table 155 is further arranged in the workbench 12, a lifting cylinder 154 is vertically arranged in the workbench 12, a piston rod of the lifting cylinder 154 is connected with the lifting table 155, and the clamping assembly 15 on the workbench 12 is arranged on the lifting table 155. By program control, when the number of the work tables 12 is three or more, the work tables 12 bend the inside of the steel bars, and the steel bars in bending interfere with the clamping assemblies 15 on the work tables 12 at the edges, the lifting cylinders 154 are operated to lower the clamping assemblies 15 on the lifting tables 155 and 155 to below the table top of the work tables 12, so that the steel bars can be effectively prevented from being blocked by the fixed seats 151 or the movable seats 152 on the work tables 12, and the automation degree of the structure of the full-automatic steel bar bending production device is improved.
In order to realize the full-automatic steel bar bending production, in the embodiment of the present application, a power assembly 16 for driving the workbench 12 to move on the rail 11 is further disposed in the workbench 12, in the embodiment of the present application, the power assembly 16 includes a driving motor 161, a gear 163 and a rack 162, the rack 162 is fixed on the rail 11 along the length direction of the rail 11, the driving motor 161 is fixed on the workbench 12 by means of a bolt connection or the like, an output shaft of the driving motor 161 is connected with the gear 163, and the gear 163 is engaged with the rack 162. By controlling the operation of the driving motor 161 with a program, the table 12 can be moved linearly on the rail 11 while being guided by the rail 11, thereby further reducing the work content of the worker.
In order to improve the bending accuracy of the steel bar, in this embodiment of the application, the alignment assemblies 17 are respectively disposed on the work tables 12 at the two side edges of the rail 11, specifically, the alignment assemblies 17 include a lifting plate 171 and a fourth cylinder 172, a slide rail is mounted along the vertical direction on one side of each of the two work tables 12 at the two side edges of the rail 11, the lifting plate 171 is slidably mounted on the slide rail along the vertical direction, the fourth cylinder 172 is mounted in the work table 12, and a piston rod of the fourth cylinder 172 is connected with the lifting plate 171.
Before the bending apparatus 1 starts the bending work of the reinforcing bars, the elevating plate 171 is lifted by the operation of the fourth air cylinders 172 on the two outermost tables 12 on the rail 11, and the two tables 12 are moved closer to each other to a predetermined position. Utilize the lifter plate 171 butt at the both ends of reinforcing bar, support the reinforcing bar tight and align, reuse the clamping component 15 that is located on the workstation 12 of inboard on track 11 and press from both sides the reinforcing bar, or under the condition of only two workstations 12, two workstations 12 utilize clamping component 15 to press from both sides the reinforcing bar in turn, and remaining workstation 12 moves to and moves the reinforcing bar tip to the position that is close to crooked subassembly 13 on workstation 12. The automatic aligning production of the reinforcing steel bars is realized, and the bending precision of the reinforcing steel bars is improved.
The utility model discloses a working process does: an operator manually puts a steel bar to be bent into the bending device 1, the steel bar is simultaneously positioned between two fixed rods of the fixed mould 131 on each workbench 12, in the bending device 1, the two workbench 12 positioned at the outermost side are respectively positioned at positions close to the end parts of the two ends of the steel bar, then, the first driving source 134 is started to drive the rotating rod 132 to rotate around the fixed mould 131, so that hooks are bent at the two ends of the steel bar, then, the workbench 12 is moved to the middle part of the steel bar, after the rotating rod 132 is lifted on the workbench 12 according to the requirements of the steel bar bending process, the rotating rod 132 is positioned at the back side of the direction in which the steel bar needs to be bent, then, the rotating rod 132 rotates around the fixed mould 131 to bend the steel bar to one side, then, the workbench 12 is repeatedly moved, the rotating rod 132 is moved to the other side of the steel bar, and then, the rotating rod 132 rotates around the fixed mould 131 to bend a Z shape on the steel bar, workstation 12 can be moved by a folk prescription, and the bending goes out the shape on the reinforcing bar one by one, can also be drawn close gradually by two, bends out the shape simultaneously from the both sides of reinforcing bar, has realized the whole bending operation of case roof beam back timber reinforcing bar, need not the staff and continuously lifts up the reinforcing bar, uses manpower sparingly, realizes reinforcing bar bending forming automated process.
It should be apparent to those skilled in the art that while the preferred embodiments of the present invention have been described, additional variations and modifications to these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the technical range equivalent to the machine of the claims, the present invention is also intended to include such modifications and variations.
Claims (9)
1. The utility model provides a full automatic production device mechanism of case roof beam reinforcing bar which characterized in that: including bending apparatus (1) and be used for bearing platform (2) of placing of reinforcing bar, place platform (2) and be located the outside of bending apparatus (1), bending apparatus (1) is including setting up track (11) and two at least workstation (12) subaerial, workstation (12) slide and set up on track (11), workstation (12) the mutual symmetry at both sides edge on track (11), be provided with the crooked subassembly (13) that are used for crooked reinforcing bar of liftable on workstation (12), be provided with in workstation (12) and be used for restricting gliding spacing subassembly (14) of workstation (12).
2. A box girder top beam reinforcing steel bar full-automatic production device mechanism according to claim 1, characterized in that the bending assembly (13) includes a fixed die (131) and a rotating rod (132), the fixed die (131) includes a fixed rod for abutting against both sides of the reinforcing steel bar, the fixed die (131) is vertically slidably disposed on the workbench (12), a rotating disc (133) is rotatably disposed on the workbench (12) around the fixed die (131), the rotating rod (132) is vertically slidably disposed on the rotating disc (133), a first driving source (134) for driving the rotating disc (133) to rotate is disposed on the workbench (12), and a lifting assembly (135) for driving the fixed die (131) and the rotating rod (132) to vertically lift is disposed on the workbench (12).
3. The mechanism of the full-automatic production device for the steel bar of the box girder top beam according to claim 1, wherein the limiting assembly (14) comprises a first air cylinder (141), a piston rod of the first air cylinder (141) is fixedly provided with an anti-skid head (142), and the anti-skid head (142) can abut against the track (11).
4. The mechanism of the full-automatic production device for the steel bars of the box girder top beam according to claim 1, wherein a discharging area (21) is arranged on one side, away from the bending device (1), of the placing table (2), a first transferring assembly (22) for transferring the steel bars to the placing table (2) is arranged on the working table (12), and a second transferring assembly (23) for transferring the steel bars to the discharging area (21) is arranged on the placing table (2).
5. The mechanism of the full-automatic production device of the steel bars of the box girder top beam according to claim 4, wherein the first transfer assembly (22) comprises a first installation piece (221) and a second installation piece (222), the first installation piece (221) is slidably arranged in a first workbench (12), a second cylinder (223) for driving the first installation piece (221) to vertically slide is arranged in the first workbench (12), the second installation piece (222) is horizontally slidably arranged on the first installation piece (221), a second driving source (224) for driving the second installation piece (222) to be close to or far away from the placing table (2) is arranged in the first workbench (12), and a supporting table (2221) for supporting the steel bars is arranged on one side, close to the placing table (2), of the top of the second installation piece (222).
6. The full-automatic production device mechanism of box girder top beam reinforcing steel bars according to claim 4, characterized in that the second transfer assembly (23) comprises a third driving source (231), a chain (232) and two chain wheels (233), a strip-shaped hole (234) is formed in the placing table (2) in a downward penetrating mode along the transfer direction of the reinforcing steel bars on the placing table (2), the two chain wheels (233) are rotatably arranged below the placing table (2), the chain (232) is wound on the two chain wheels (233), the third driving source (231) is used for driving any one chain wheel (233) to rotate in a reciprocating mode, a push rod (235) is fixedly arranged on the chain (232), and the push rod (235) on the upper layer of the chain (232) extends out of the strip-shaped hole (234) upwards.
7. The mechanism of the full-automatic production device for the steel bars of the box girder top beam according to claim 1, wherein a clamping assembly (15) is arranged on the workbench (12), the clamping assembly (15) comprises a fixed seat (151), a movable seat (152) and a third cylinder (153), the fixed seat (151) and the movable seat (152) are arranged at the top of the workbench (12), and the third cylinder (153) is used for driving the movable seat (152) to be far away from or close to the fixed seat (151).
8. The mechanism of the full-automatic production device for the steel bars of the box girder top beam according to claim 1, wherein a driving motor (161) is arranged in the workbench (12), a rack (162) is fixedly arranged on the track (11) along the length direction of the track, and an output shaft of the driving motor (161) is meshed with the rack (162) through a gear (163).
9. The mechanism of the full-automatic production device for the steel bars of the box girder top beam according to claim 8, wherein the lifting plates (171) are arranged on the sides, far away from each other, of the working tables (12) on the edges of the two sides of the rail (11) in a sliding manner along the vertical direction, and fourth cylinders (172) for driving the lifting plates (171) to vertically lift are arranged in the working tables (12).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202221213785.7U CN217343340U (en) | 2022-05-20 | 2022-05-20 | Full-automatic production device mechanism for box girder top beam steel bars |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202221213785.7U CN217343340U (en) | 2022-05-20 | 2022-05-20 | Full-automatic production device mechanism for box girder top beam steel bars |
Publications (1)
Publication Number | Publication Date |
---|---|
CN217343340U true CN217343340U (en) | 2022-09-02 |
Family
ID=83013550
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202221213785.7U Active CN217343340U (en) | 2022-05-20 | 2022-05-20 | Full-automatic production device mechanism for box girder top beam steel bars |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN217343340U (en) |
-
2022
- 2022-05-20 CN CN202221213785.7U patent/CN217343340U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106115569A (en) | Three-dimensional transfer loading equipment | |
CN206494690U (en) | Three-dimensional transfer loading equipment | |
CN102756302A (en) | Operating platform exchange device, laser cutting machine with same and operating method | |
CN219113405U (en) | Gantry machining center with movable walking lifting points for electromechanical installation | |
CN217343340U (en) | Full-automatic production device mechanism for box girder top beam steel bars | |
CN111604444B (en) | Be used for prefabricated reinforcement production line of segmental beam | |
CN112607607B (en) | Automatic arrangement system, cache vehicle and lifting demoulding system | |
CN113530253A (en) | Semi-automatic steel bar truss building carrier plate assembly line | |
CN114749582A (en) | Full-automatic production device mechanism for U-shaped steel bars of box girder | |
CN116394393B (en) | Drying rack dispatching system for production of dismantling-free templates | |
CN202726616U (en) | Working-platform exchange device and laser cutting machine comprising same | |
CN114749581A (en) | Full-automatic production device mechanism for box girder top beam steel bars | |
CN112572938A (en) | Through type longmen labeller | |
CN209491273U (en) | A kind of full-automatic reinforcing bar shear-bow device | |
CN110340735B (en) | Multi-station offline adjustment complete machine quick-change device | |
CN108500874B (en) | Centering assembly for matching taper points of tires | |
CN215055262U (en) | Automatic die assembling device for overturning of superposed shear wall | |
CN217343341U (en) | Full-automatic production device mechanism for U-shaped steel bars of box girder | |
CN112878666B (en) | Superimposed shear wall turn-over assembly system and method | |
CN205702718U (en) | A kind of cage guide chamfer processing method and device | |
CN209936173U (en) | Guide rail welding mechanism of injection molding machine base | |
CN215358995U (en) | Superimposed shear wall turn-over device | |
CN112109218A (en) | Cutting device is used in hollow brick production | |
JPS58196952A (en) | Pallet exchanger | |
JP4054135B2 (en) | Mold changing apparatus and mold changing method |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |