CN215846865U - Reinforcing bar skeleton production line - Google Patents
Reinforcing bar skeleton production line Download PDFInfo
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- CN215846865U CN215846865U CN202121876574.7U CN202121876574U CN215846865U CN 215846865 U CN215846865 U CN 215846865U CN 202121876574 U CN202121876574 U CN 202121876574U CN 215846865 U CN215846865 U CN 215846865U
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Abstract
The utility model relates to the technical field of prefabricated part production, in particular to a steel reinforcement framework production line. The steel bar framework production line comprises a steel bar conveying device and a welding device, the welding device is arranged on one side of the steel bar conveying device, the welding device is used for welding transverse bars and longitudinal bars into a net piece, and the steel bar conveying device comprises: the transverse rib conveying device comprises a transverse rib support and a transverse rib traction mechanism, and the transverse rib traction mechanism drives the transverse rib support to move; indulge muscle conveyor, including indulging muscle support and indulging muscle drive mechanism, indulge the muscle support and be located the top of horizontal muscle support, indulge muscle drive mechanism and indulge muscle support motion. The longitudinal bar support is positioned above the transverse bar support, so that feeding under the transverse bar can be realized, the transverse bar is positioned below the longitudinal bar during welding, a reinforcing mesh does not need to be turned over after welding, the production efficiency is improved, the longitudinal bar support moves above the longitudinal bar support and moves below the transverse bar support in the vertical direction, the upper space is reasonably utilized, and the occupied space is small.
Description
Technical Field
The utility model relates to the technical field of prefabricated part production, in particular to a steel reinforcement framework production line.
Background
With the popularization of prefabricated components, a large number of reinforcement cages and reinforcement meshes are required for the production of prefabricated walls and prefabricated laminated slabs, the types of the reinforcement cages are various, and the forming is complex; most of forms of the reinforcing mesh are that the transverse bars are positioned below the longitudinal bars, but the transverse bars are usually welded above the longitudinal bars and then manually turned, so that the production efficiency is low.
SUMMERY OF THE UTILITY MODEL
The utility model mainly aims to provide a steel reinforcement framework production line, which aims to solve the problem of low production efficiency caused by manual turnover after welding a transverse bar at the upper part in the prior art.
In order to achieve the above object, the present invention provides a steel reinforcement framework production line, including a steel reinforcement conveying device and a welding device, wherein the welding device is arranged at one side of the steel reinforcement conveying device, the welding device is used for welding a transverse bar and a longitudinal bar into a mesh, and the steel reinforcement conveying device includes: the transverse rib conveying device comprises a transverse rib support and a transverse rib traction mechanism, and the transverse rib traction mechanism drives the transverse rib support to move; indulge muscle conveyor, including indulging muscle support and indulging muscle drive mechanism, indulge the muscle support and be located the top of horizontal muscle support, indulge muscle drive mechanism and indulge muscle support motion.
Optionally, the reinforcing cage production line further comprises a net pulling device and a bending device, the welding device, the net pulling device and the bending device are sequentially arranged along the longitudinal direction, the reinforcing cage production line further comprises a turnover grabbing and throwing device and/or a grabbing and throwing assembling device, the net pulling device, the bending device and the turnover grabbing and throwing device are sequentially arranged along the longitudinal direction, the grabbing and throwing assembling device is arranged on the transverse side of the bending device, the net pulling device is used for pulling the net piece from the welding device to the bending device, the bending device is used for bending the net piece, the turnover grabbing and throwing device is used for overturning or grabbing and throwing the bent net piece, and the grabbing and throwing assembling device is used for grabbing and throwing the reinforcing cage and assembling.
Optionally, the transverse rib support comprises a transverse support and a longitudinal support, the transverse rib traction mechanism comprises a transverse traction mechanism and a longitudinal traction mechanism, the transverse traction mechanism drives the transverse support to move transversely, the longitudinal traction mechanism drives the longitudinal support to move longitudinally, the longitudinal rib traction mechanism drives the longitudinal rib support to move transversely, the transverse rib conveying device further comprises a material rotating mechanism, and the material rotating mechanism is used for transferring a transverse rib on the transverse support to the longitudinal support.
Optionally, the transverse rib conveying device further comprises a transverse traction frame, the transverse support is arranged on the transverse traction frame, the transverse traction frame is connected with a transverse traction mechanism, and the transverse traction mechanism drives the transverse traction frame to move transversely.
Optionally, the transverse rib conveying device further comprises a longitudinal traction frame, the longitudinal support is arranged on the longitudinal traction frame, the longitudinal traction frame is connected with the longitudinal traction mechanism, and the longitudinal traction mechanism drives the longitudinal traction frame to move longitudinally.
Optionally, the material transferring mechanism comprises a rotating mechanism and a longitudinal lifting driving member, the rotating mechanism is arranged on the transverse traction frame and connected with the transverse support, the longitudinal lifting driving member is arranged on the longitudinal traction frame, and the longitudinal lifting driving member is connected with the longitudinal support to drive the longitudinal support to lift.
Optionally, horizontal muscle conveyor still includes horizontal elevating system, and horizontal elevating system includes horizontal crane and horizontal lift driving piece, and the horizontal lift driving piece sets up on horizontal traction frame, and the horizontal lift driving piece is connected with horizontal crane, and rotary mechanism sets up on horizontal crane.
Optionally, the transverse support includes a plurality of transverse support plates and a transverse connection beam, one end of each of the plurality of transverse support plates is fixed on the transverse connection beam at intervals, and a plurality of transverse positioning grooves are formed in the transverse support plates.
Optionally, the longitudinal support includes a plurality of longitudinal support plates and a longitudinal connecting beam, the bottoms of the plurality of longitudinal support plates are fixed on the longitudinal connecting beam at intervals, and a plurality of longitudinal positioning grooves are formed in the longitudinal support plates.
Optionally, the steel reinforcement framework production line further comprises a straightening and cutting device, a part of the straightening and cutting device is arranged on the longitudinal side of the longitudinal rib conveying device, and the transverse rib conveying device and the longitudinal rib conveying device share the straightening and cutting device.
The technical scheme of the utility model has the following advantages: indulge the muscle support and be located the top of horizontal muscle support, can realize pay-off under the horizontal muscle, and then horizontal muscle is located the below of indulging the muscle when the welding, then will violently the muscle with indulge the muscle and weld into the net piece through welding equipment, the reinforcing bar net piece that need not overturn after the welding improves production efficiency, and on vertical direction, indulge the muscle support and move in the top, horizontal muscle support moves in the below, rational utilization upper portion space, and occupation space is little.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.
Fig. 1 shows a schematic perspective view of a steel reinforcement cage production line according to an embodiment of the present invention;
fig. 2 shows a perspective view of a reinforcement conveying apparatus of the reinforcement cage production line of fig. 1;
fig. 3 is a perspective view illustrating a lateral transfer device of the reinforcing bar transfer apparatus of fig. 2;
FIG. 4 shows a partial schematic view of the lateral transport device of FIG. 3;
fig. 5 is a perspective view illustrating a longitudinal transfer means of the reinforcing bar transfer apparatus of fig. 2;
FIG. 6 shows a partial schematic view of the longitudinal transport device of FIG. 5;
fig. 7 shows a partial schematic view of the rebar delivery apparatus of fig. 2.
Description of reference numerals:
10. a transverse rib conveying device; 11. a transverse support; 111. a transverse support plate; 112. a transverse connecting beam; 113. a connecting plate; 12. a transverse traction mechanism; 121. a transverse drive; 122. a transverse main sprocket; 123. a transverse chain; 124. a transverse slave sprocket; 13. a transverse traction frame; 14. a transverse lifting frame; 15. a transverse lifting driving member; 16. a rotation mechanism; 161. a rotary drive member; 162. a driving gear; 163. a driven gear; 17. a lateral guide mechanism; 171. a transverse rail; 172. a transverse guide wheel; 18. a second guide mechanism; 21. a longitudinal support; 211. a longitudinal support plate; 212. a longitudinal connecting beam; 22. a longitudinal traction mechanism; 221. a longitudinal drive member; 222. a longitudinal main sprocket; 223. a longitudinal chain; 224. a longitudinal slave sprocket; 23. a longitudinal traction frame; 24. a longitudinal lifting drive member; 27. a longitudinal guide mechanism; 271. a longitudinal rail; 272. a longitudinal guide wheel; 28. a first guide mechanism; 30. a longitudinal rib conveying device; 31. a longitudinal bar support; 311. a frame; 312. a longitudinal bar support plate; 32. a longitudinal rib traction mechanism; 33. a frame; 331. a cross beam; 332. a column; 40. straightening the cutting equipment; 50. a tendon feeding device; 60. welding equipment; 70. a pull-out device; 80. bending equipment; 90. overturning the grabbing and throwing equipment; 100. grabbing and throwing the assembly equipment.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.
As shown in fig. 1, fig. 2, fig. 3 and fig. 5, the steel reinforcement framework production line of this embodiment includes steel reinforcement conveying equipment and welding equipment 60, and welding equipment 60 sets up the one side at steel reinforcement conveying equipment, and welding equipment 60 is used for welding into the net piece with horizontal muscle and vertical muscle, and steel reinforcement conveying equipment includes: the transverse rib conveying device 10 comprises a transverse rib support and a transverse rib traction mechanism, and the transverse rib traction mechanism drives the transverse rib support to move; the longitudinal rib conveying device 30 comprises a longitudinal rib support 31 and a longitudinal rib traction mechanism 32, the longitudinal rib support 31 is located above the transverse rib support, and the longitudinal rib traction mechanism 32 drives the longitudinal rib support 31 to move.
Use the reinforcing bar conveying equipment of this embodiment, indulge muscle support 31 and be located the top of horizontal muscle support, can realize pay-off under the horizontal muscle, and then horizontal muscle is located the below of indulging the muscle when the welding, then will violently the muscle with indulge the muscle and weld into the net piece through welding equipment 60, the reinforcing bar net piece that need not overturn after the welding improves production efficiency, and in vertical direction, indulge muscle support 31 and move in the top, horizontal muscle support moves in the below, rational utilization upper portion space, occupation space is little.
In this embodiment, as shown in fig. 3 to 5, the transverse rib support includes a transverse support 11 and a longitudinal support 21, the transverse rib traction mechanism includes a transverse traction mechanism 12 and a longitudinal traction mechanism 22, the transverse traction mechanism 12 drives the transverse support 11 to move transversely, the longitudinal traction mechanism 22 drives the longitudinal support 21 to move longitudinally, the longitudinal rib traction mechanism 32 drives the longitudinal rib support 31 to move transversely, and the transverse rib conveying device 10 further includes a material transferring mechanism, and the material transferring mechanism is configured to transfer the transverse ribs on the transverse support 11 to the longitudinal support 21. The straightened transverse ribs fall on the transverse support 11, the transverse traction mechanism 12 drives the transverse support 11 to move towards the longitudinal support 21, the transverse support 11 is transferred to the longitudinal support 21 through the material transferring mechanism after moving to a proper position, the longitudinal traction mechanism 22 drives the longitudinal support 21 to move towards the welding equipment, the transverse ribs are further conveyed to the welding equipment, meanwhile, the transverse traction mechanism 12 drives the transverse support 11 to move towards the straightening cutting equipment, and the next batch of transverse ribs are conveyed continuously; after the longitudinal support 21 finishes conveying one batch of transverse ribs, the longitudinal traction mechanism 22 drives the longitudinal support 21 to move towards the direction away from the welding equipment, and the next batch of transverse ribs are conveyed continuously. When vertical support 21 carried a batch of horizontal muscle, horizontal support 11 got off a batch of horizontal muscle, improved conveying efficiency, when carrying horizontal muscle, indulged muscle conveyor 30 and also carried vertical muscle, can carry horizontal muscle simultaneously and indulge the muscle, and conveying efficiency is higher.
In this embodiment, as shown in fig. 4, the transverse tendon conveying device 10 further includes a transverse traction frame 13, the transverse support 11 is disposed on the transverse traction frame 13, the transverse traction frame 13 is connected to a transverse traction mechanism 12, and the transverse traction mechanism 12 drives the transverse traction frame 13 to move transversely. The transverse traction mechanism 12 drives the transverse traction frame 13 to move transversely, so that the transverse support 11 is driven to move transversely, and the transverse traction frame 13 is convenient for arranging parts of the transverse traction mechanism 12 and the transverse support 11.
In this embodiment, the transverse traction mechanism 12 includes a transverse driving member 121 and a transverse transmission mechanism, the transverse driving member 121 is disposed on the transverse traction frame 13, the transverse transmission mechanism is a transverse chain transmission mechanism, the transverse chain transmission mechanism includes a transverse main sprocket 122 and a transverse chain 123, two ends of the transverse chain 123 are fixed on the ground, the transverse main sprocket 122 is meshed with the transverse chain 123 and connected with an output shaft of the transverse driving member 121, the output shaft of the transverse driving member 121 rotates to drive the transverse main sprocket 122 to rotate, and since two ends of the transverse chain 123 are fixed, the transverse main sprocket 122 also moves in the transverse direction while rotating, and further, the transverse traction frame moves in the transverse direction. Preferably, the transverse driving member 121 is a speed reducing motor or the like, and the speed reducing motor can be called a transverse speed reducing motor, so that other speed reducing motors can be distinguished conveniently. As an alternative embodiment, the transverse transmission mechanism is a rack and pinion mechanism or the like, the rack and pinion mechanism comprising a transverse gear and a transverse rack, the transverse rack being fixed to the ground, the transverse gear being connected to the output shaft of the transverse driving member 121.
Preferably, two transverse transmission mechanisms are arranged, so that the transverse traction frame can move more stably. The transverse driving member 121 is provided with one, and the two transverse main chain wheels 122 are driven to rotate by the transverse driving member 121, so that the number of driving members is reduced, and the cost is saved.
In this embodiment, the two ends of the output shaft of the transverse speed reducing motor are provided with the transverse main chain wheels 122, two sides of each transverse main chain wheel 122 are provided with one transverse slave chain wheel 124, one end of the transverse chain 123 bypasses one transverse slave chain wheel 124, the transverse main chain wheel 122 and the other transverse slave chain wheel 124 and is fixed on the ground, the transverse main chain wheel 122 rotates, meanwhile, the transverse chain 123 drives the transverse slave chain wheel 124 to rotate, and the transverse slave chain wheel 124 can ensure that the transverse chain 123 is always meshed with the transverse main chain wheel 122, so that the structural stability is improved.
In this embodiment, the transverse bar conveying device 10 further includes a transverse guiding mechanism 17, and the transverse guiding mechanism 17 guides the transverse movement of the transverse traction frame. Preferably, the transverse guiding mechanism 17 comprises a transverse rail 171 and a transverse guiding wheel 172, the transverse rail 171 is fixed on the ground, the transverse guiding wheel 172 is rotatably arranged on the transverse traction frame, the transverse guiding wheel 172 runs on the transverse rail 171, and the transverse rail 171 and the transverse guiding wheel 172 play a guiding role to improve the movement precision. Specifically, there are two transverse rails 171 and four transverse guide wheels 172, and one transverse rail 171 is engaged with two transverse guide wheels 172. The transverse guide wheel 172 has a rim which cooperates with the side of the transverse rail 171 to limit the transverse traction frame and prevent the transverse traction frame from deviating. As an alternative embodiment, the transverse guiding mechanism 17 comprises a transverse guide rail fixed on the ground and a transverse slider fixed on the transverse traction frame and slidably connected with the transverse guide rail.
In this embodiment, as shown in fig. 5 and 6, the transverse tendon conveying device 10 further includes a longitudinal traction frame 23, the longitudinal support 21 is disposed on the longitudinal traction frame 23, the longitudinal traction frame 23 is connected to the longitudinal traction mechanism 22, and the longitudinal traction mechanism 22 drives the longitudinal traction frame 23 to move longitudinally. The longitudinal traction frame 23 is driven to move longitudinally through the longitudinal traction mechanism 22, so that the longitudinal support 21 is driven to move longitudinally, and the arrangement of the longitudinal traction frame 23 is convenient for arranging parts of the longitudinal traction mechanism 22 and the longitudinal support 21.
In this embodiment, the longitudinal traction mechanism 22 includes a longitudinal driving member 221 and a longitudinal transmission mechanism, the longitudinal driving member 221 is disposed on the longitudinal traction frame 23, the longitudinal transmission mechanism is a longitudinal chain transmission mechanism, the longitudinal chain transmission mechanism includes a longitudinal main sprocket 222 and a longitudinal chain 223, both ends of the longitudinal chain 223 are fixed on the ground, the longitudinal main sprocket 222 is meshed with the longitudinal chain 223 and connected with the output shaft of the longitudinal driving member 221, the output shaft of the longitudinal driving member 221 rotates to drive the longitudinal main sprocket 222 to rotate, and since both ends of the longitudinal chain 223 are fixed, the longitudinal main sprocket 222 also moves in the longitudinal direction while rotating, and further drives the longitudinal traction frame to move in the longitudinal direction. Preferably, the longitudinal driving member 221 is a speed reducing motor or the like, and the speed reducing motor may be referred to as a longitudinal speed reducing motor, so as to be distinguished from other speed reducing motors. As an alternative embodiment, the longitudinal transmission mechanism is a rack and pinion mechanism or the like, the rack and pinion mechanism includes a longitudinal gear and a longitudinal rack, the longitudinal rack is fixed on the ground, and the longitudinal gear is connected with the output shaft of the longitudinal driving member 221.
Preferably, two longitudinal transmission mechanisms are arranged, so that the longitudinal traction frame can move more stably. The longitudinal driving member 221 is provided with one, and the two longitudinal main chain wheels 222 are driven to rotate by the longitudinal driving member 221, so that the number of driving members is reduced, and the cost is saved.
In this embodiment, the longitudinal main sprockets 222 are mounted at two ends of the output shaft of the longitudinal speed reduction motor, one longitudinal slave sprocket 224 is disposed at two sides of each longitudinal main sprocket 222, one end of the longitudinal chain 223 passes around one longitudinal slave sprocket 224, the longitudinal main sprocket 222 and the other longitudinal slave sprocket 224 and then is fixed on the ground, the longitudinal main sprocket 222 rotates, and meanwhile, the longitudinal slave sprocket 224 drives the longitudinal slave sprocket 224 to rotate through the longitudinal chain 223, and the longitudinal slave sprocket 224 can ensure that the longitudinal chain 223 is always meshed with the longitudinal main sprocket 222, so that the structural stability is improved.
In this embodiment, the transverse tendon conveying apparatus 10 further includes a longitudinal guide mechanism 27, and the longitudinal guide mechanism 27 guides the longitudinal movement of the longitudinal traction frame. Preferably, the longitudinal guide mechanism 27 comprises a longitudinal rail 271 and a longitudinal guide wheel 272, the longitudinal rail 271 is fixed on the ground, the longitudinal guide wheel 272 is rotatably arranged on the longitudinal traction frame, the longitudinal guide wheel 272 runs on the longitudinal rail 271, and the longitudinal rail 271 and the longitudinal guide wheel 272 play a role in guiding, so that the movement precision is improved. Specifically, there are two longitudinal rails 271 and four longitudinal guide wheels 272, and one longitudinal rail 271 is engaged with two longitudinal guide wheels 272. The longitudinal guide wheel 272 has a rim which is matched with the side of the longitudinal rail 271, so that the longitudinal traction frame can be limited, and the longitudinal traction frame is prevented from deviating. As an alternative embodiment, the longitudinal guide means 27 comprise a longitudinal rail fixed to the ground and a longitudinal slider fixed to the longitudinal traction frame and slidably connected to the longitudinal rail.
In this embodiment, as shown in fig. 3, 4 and 6, the material transferring mechanism includes a rotating mechanism 16 and a longitudinal lifting driving member 24, the rotating mechanism 16 is disposed on the transverse traction frame 13 and connected to the transverse support 11, the longitudinal lifting driving member 24 is disposed on the longitudinal traction frame 23, and the longitudinal lifting driving member 24 is connected to the longitudinal support 21 to drive the longitudinal support 21 to lift. The horizontal muscle after the alignment falls on horizontal support 11, horizontal muscle perpendicular to horizontal direction this moment, through the rotatory 90 degrees of rotary mechanism 16 drive horizontal support 11, make horizontal muscle along horizontal setting, after horizontal drive mechanism drive horizontal traction frame 13 reachd the assigned position, vertical support 21 is in connecing material position department and waits to connect the material, vertical lift driving piece 24 drive vertical support 21 descends to a take the altitude, make vertical support 21 be located the below of horizontal muscle, vertical traction mechanism 22 drive vertical traction frame 23 moves to suitable position after, vertical lift driving piece 24 drive vertical support 21 rises and catches the horizontal muscle, then vertical traction mechanism 22 drive vertical traction frame moves to welding equipment 60 department, welding equipment 60 welds into the net piece with horizontal muscle and vertical muscle.
In this embodiment, the longitudinal lifting driving member 24 is provided in plural, so as to improve the lifting stability. Preferably, the number of longitudinal lift drives 24 is two. Of course, the number of longitudinal lift drives 24 is not limited thereto and may be selected on a case-by-case basis.
In this embodiment, the longitudinal lifting driving member 24 is a longitudinal lifting cylinder, etc., a cylinder of the longitudinal lifting cylinder is fixed on the longitudinal traction frame 23, a piston rod of the longitudinal lifting cylinder is connected with the longitudinal support 21, and the longitudinal lifting cylinder has a simple structure and is convenient to use. Preferably, the longitudinal lifting cylinder is an oil cylinder or an air cylinder.
In this embodiment, the transverse tendon conveying apparatus 10 further includes a first guide mechanism 28, and the first guide mechanism 28 guides the vertical movement of the longitudinal support 21. The first guide mechanisms 28 are arranged in two and spaced positions, so that the guide precision is improved. Preferably, the first guide means 28 comprise a first vertical rail fixed to the longitudinal traction frame 23 and a first vertical slider fixed to the longitudinal support 21.
In this embodiment, as shown in fig. 3 and 4, the transverse bar conveying device 10 further includes a transverse lifting mechanism, the transverse lifting mechanism includes a transverse lifting frame 14 and a transverse lifting driving member 15, the transverse lifting driving member 15 is disposed on the transverse traction frame 13, the transverse lifting driving member 15 is connected with the transverse lifting frame 14, and the rotating mechanism 16 is disposed on the transverse lifting frame 14. The transverse support 11 moves to the straightening and cutting equipment, the transverse lifting driving piece 15 drives the transverse lifting frame 14 to ascend, so that material receiving is facilitated at the straightening and cutting equipment, and after the material receiving, the transverse lifting driving piece 15 drives the transverse lifting frame 14 to descend so as to facilitate material transferring.
In this embodiment, the plurality of lateral lifting driving members 15 are provided to improve the lifting stability. Preferably, the number of the traverse elevating driving members 15 is two. Of course, the number of the traverse elevating drives 15 is not limited thereto, and may be selected according to circumstances.
In this embodiment, the transverse lifting driving member 15 is a transverse lifting cylinder, etc., the cylinder of the transverse lifting cylinder is fixed on the transverse traction frame, the piston rod of the transverse lifting cylinder is connected with the transverse lifting frame 14, and the transverse lifting cylinder has a simple structure and is convenient to use. Preferably, the transverse lifting cylinder is an oil cylinder or an air cylinder.
In this embodiment, the transverse tendon conveying device 10 further includes a second guide mechanism 18, and the second guide mechanism 18 guides the lifting of the transverse crane 14. The second guide mechanisms 18 are arranged in two and are arranged at intervals, so that the guide precision is improved. Preferably, the second guiding means 18 comprise a second vertical rail fixed to the transversal traction frame 13 and a second vertical slider fixed to the transversal lifting frame 14.
In this embodiment, the rotating mechanism 16 includes a rotating driver 161 and a reduction transmission mechanism, the rotating driver 161 is fixed on the transverse crane 14, the reduction transmission mechanism is a gear transmission mechanism, the gear transmission mechanism includes a driving gear 162 and a driven gear 163, the driven gear 163 is fixed with the transverse bracket 11, and the driving gear 162 is connected with an output shaft of the rotating driver 161. Preferably, the rotary drive 161 is an electric motor. Alternatively, the rotation mechanism 16 is a motor, and in this case, a reduction gear mechanism is not required.
In this embodiment, the transverse support 11 includes a plurality of transverse support plates 111 and transverse connection beam 112, and the one end interval of a plurality of transverse support plates 111 is fixed on transverse connection beam 112, is equipped with a plurality of transverse positioning grooves on the transverse support plate 111, and the transverse positioning groove is fixed a position the horizontal muscle, prevents that the horizontal muscle from taking place the condition of removing in transportation process. Preferably, the lateral positioning groove is a V-shaped groove or the like.
In this embodiment, the transverse bracket 11 further includes a connecting plate 113, the connecting plate 113 is connected to a side of the transverse connecting beam 112 away from the transverse supporting plate 111, the connecting plate 113 is fixed on the driven gear 163, and the connecting plate 113 facilitates connection between the transverse bracket and the driven gear.
In this embodiment, as shown in fig. 5 and 6, the longitudinal support 21 includes a plurality of longitudinal support plates 211 and a longitudinal connecting beam 212, the bottoms of the longitudinal support plates 211 are fixed on the longitudinal connecting beam 212 at intervals, a plurality of longitudinal positioning grooves are disposed on the longitudinal support plates 211, and the longitudinal positioning grooves position the transverse bars, so as to prevent the transverse bars from moving during the conveying process. Preferably, the longitudinal positioning groove is a V-shaped groove or the like.
Preferably, as shown in fig. 4 and 6, the number of the lateral support plates 111 is the same as that of the longitudinal support plates 211, and each longitudinal support plate 211 is located at one side of its corresponding lateral support plate 111 during the transfer of the lateral ribs. The transverse ribs are transferred by driving the longitudinal support 21 to ascend and descend, and the transverse ribs are convenient to transfer due to the specific structure of the transverse support 11 and the longitudinal support 21.
In this embodiment, as shown in fig. 3 and 7, the longitudinal rib traction mechanism 32 and the transverse traction mechanism 12 have similar structures, and details are not repeated herein, the longitudinal rib traction mechanism 32 and the transverse traction mechanism 12 only differ in a transverse transmission mechanism, the transverse transmission mechanism of the longitudinal rib traction mechanism 32 is a gear-rack transmission mechanism, the longitudinal rib conveying device 30 further includes a frame 33, a transverse rack of the longitudinal rib traction mechanism 32 is fixed on the frame 33, and a transverse gear of the longitudinal rib traction mechanism 32 is fixed on the longitudinal rib support 31.
In this embodiment, the rack 33 includes a plurality of beams 331 and a plurality of columns 332, each beam 331 is supported by a plurality of columns 332, a transverse rail 171 is disposed between two adjacent beams 331, and the beams 331 are disposed higher than the transverse rail 171. The transverse rack of the longitudinal rib traction mechanism 32 is fixed on the cross beam 331.
In this embodiment, indulge muscle support 31 and include frame 311 and a plurality of muscle backup pad 312 of indulging of setting on frame 311, indulge and be equipped with a plurality of muscle constant head tanks of indulging on the muscle backup pad 312, indulge the muscle constant head tank and fix a position the muscle of indulging, prevent to indulge the muscle and take place the condition that removes in transportation process. Preferably, the longitudinal rib positioning groove is a V-shaped groove or the like.
In this embodiment, as shown in fig. 1, the steel reinforcement framework production line further includes a straightening and cutting device 40, a part of the straightening and cutting device 40 is disposed on a longitudinal side of the longitudinal bar conveying device 30, the transverse bar conveying device 10 and the longitudinal bar conveying device 30 share the straightening and cutting device 40, a set of straightening and cutting devices is reduced, and the cost is saved.
In this embodiment, straightening cutting equipment 40 includes straightening equipment, cutting equipment and blanking equipment, and straightening equipment is used for straightening the reinforcing bar, and cutting equipment can cut into different sizes with the reinforcing bar according to the processing requirement, and blanking equipment can fall the reinforcing bar after the cutting on horizontal support or indulging the muscle support. The straightening device and the cutting device are arranged on the longitudinal side of the longitudinal rib conveying device 30 and on the transverse side of the welding device. The straightening and cutting device 40 may be constructed as in the prior art, and will not be described in detail herein.
In this embodiment, the welding apparatus 60 includes a rib feeding device 50 and a welding device, one end of the rib feeding device 50 in the longitudinal direction is disposed near the longitudinal rib conveying device, and the other end of the rib feeding device 50 in the longitudinal direction is near the welding device.
In this embodiment, the reinforcing cage production line further includes a net pulling device 70, a bending device 80, a turning grabbing and throwing device 90, a grabbing and throwing pairing device 100, and the like, the welding device 60, the net pulling device 70, the bending device 80 and the turning grabbing and throwing device 90 are sequentially arranged along a longitudinal direction, the grabbing and throwing pairing device 100 is arranged on a transverse side of the bending device 80, that is, the bending device 80 and the grabbing and throwing pairing device 100 are transversely arranged, wherein the net pulling device 70 is used for pulling a net sheet from the welding device 60 to the bending device 80, the bending device 80 is used for bending the net sheet, the turning grabbing and throwing device 90 is used for turning or grabbing and throwing the bent net sheet, the grabbing and throwing pairing device 100 is used for grabbing and throwing a reinforcing cage, and the reinforcing cage production line can produce the net sheet and the reinforcing cage. The grapple and throw assembly is on the same side as the apparatus 100 and the straightening and cutting apparatus 40. As an alternative embodiment, the reinforcing cage production line further includes a net pulling device 70, a bending device 80, and a turning grabbing and throwing device 90, the welding device 60, the net pulling device 70, the bending device 80, and the turning grabbing and throwing device 90 are sequentially arranged along a longitudinal direction, and at this time, the production line can only produce meshes, or the reinforcing cage production line further includes a net pulling device 70, a bending device 80, and a grabbing and throwing pairing device 100, the welding device 60, the net pulling device 70, and the bending device 80 are sequentially arranged along a longitudinal direction, and the grabbing and throwing pairing device 100 is arranged at a lateral side of the bending device 80, and at this time, the production line can only produce cages.
In this embodiment, the steel bar conveying equipment is arranged at the foremost end of the production line, the steel bar conveying equipment includes a transverse bar conveying device and a longitudinal bar conveying device, the transverse bar conveying equipment includes a transverse conveying device and a longitudinal conveying device, as shown in fig. 3 and 4, the transverse conveying device includes a transverse rail 171, a transverse traction frame 13, a transverse support 11, a rotating mechanism 16, a transverse traction mechanism 12, a transverse lifting mechanism and the like; as shown in fig. 5 and 6, the longitudinal conveying device includes a longitudinal rail 271, a longitudinal support 21, a longitudinal traction frame 23, a longitudinal traction mechanism 22, a longitudinal lifting drive 24, and the like, and as shown in fig. 1, the gripper of the rib feeding device 50 is located above one end of the longitudinal conveying device. After straightening the transverse ribs, the transverse ribs fall onto a transverse support 11 of a transverse conveying device through blanking equipment, the transverse support 11 is driven by a transverse traction mechanism 12 to transversely move, meanwhile, the transverse support 11 descends and rotates 90 degrees, after the transverse support 11 transversely moves to a designated position, a longitudinal support 21 waits for receiving the materials at the designated position, the longitudinal support 21 descends to a certain height through a longitudinal lifting driving piece 24, after a V-shaped groove of the longitudinal support 21 is aligned with a V-shaped groove of the transverse support, the longitudinal support 21 is lifted to receive the transverse ribs, and a longitudinal traction mechanism 22 drives the longitudinal support 21 to move to a welding device 60; after straightening the muscle, fall to indulging muscle support 31 of indulging muscle conveyor through blanking equipment on, indulge muscle support 31 and violently move to the one end department of sending muscle device 50 by indulging muscle drive mechanism 32 drive, send the tongs of muscle device 50 portable extremely the top of indulging muscle support 31, send the tongs of muscle device 50 to snatch and indulge the muscle and will indulge the muscle and remove to welding equipment 60 department, welding set sets up at the rear end of sending muscle device 50, welding set will indulge the muscle and weld into the net piece with horizontal muscle.
In the present embodiment, as shown in fig. 1, the net pulling device 70 is disposed at the rear end of the welding device 60, after the first transverse rib of the mesh is welded, the net pulling device 70 grabs the mesh to move, and after the mesh is welded, the mesh is pulled to the bending device 80 by the net pulling device 70 to perform transverse end bending, longitudinal end bending, and longitudinal multiple bending.
In this embodiment, the bending device 80 is disposed at the rear end of the net pulling device 70, the bending device 80 includes a net grabbing device, a transverse bending device, a longitudinal bending device, a supporting platform, and the like, the net grabbing device grabs the mesh on the supporting platform and sends the mesh to the longitudinal bending device for bending, and after the bending process is completed, the mesh is grabbed to the mesh overturning and grabbing device 90 for overturning or grabbing and throwing the mesh; the transverse bending equipment can bend the end parts of the transverse ribs of the mesh sheets with different widths, and can independently bend the end parts of the transverse ribs of the mesh sheets; after the net sheets are grabbed in place, the longitudinal bending equipment can respectively bend the front end and the rear end of the longitudinal rib of the net sheets, and the net sheets can also be bent for multiple times along the longitudinal direction to form a square reinforcement cage.
In this embodiment, the overturning grabbing and throwing device 90 is arranged at the rear end of the bending device 80, the net piece is bent, the overturning grabbing and throwing device 90 grabs the net piece and directly throws the net piece onto the die table, and the net piece can also be grabbed and overturned by 180 degrees and thrown onto the die table.
In this embodiment, grab and throw the horizontal side that equipment 100 set up at equipment 80 of bending, the steel reinforcement cage is bent and is accomplished the back, grabs to throw and snatchs the steel reinforcement cage and right the steel reinforcement cage to equipment 100, can carry out the right of different prefabricated wall cages, treats to snatch the steel reinforcement cage and put in to the mould bench after the group is accomplished.
From the above description, it can be seen that the above-described embodiments of the present invention achieve the following technical effects:
1. after horizontal muscle, indulge the muscle alignment and accomplish, reinforcing bar conveying equipment sends horizontal muscle to indulging the muscle below and welds, has realized net piece automatic weld, has satisfied the form demand of most net pieces, does not need artifical upset, has improved production efficiency.
2. Bending equipment 80 can bend both ends around the vertical muscle of net piece respectively, does to bend many times the square steel reinforcement cage of net piece along longitudinal direction, does simultaneously or carry out the horizontal muscle tip of net piece and bend alone, has realized the automatic shaping of bending of steel reinforcement cage, need not artificial intervention, has improved the shaping efficiency of steel reinforcement cage greatly.
3. After being bent, the reinforcing mesh is placed on the die table through the overturning grabbing and throwing device 90, and the overturning grabbing and throwing module can realize multi-position flexible grabbing of the mesh.
4. After the steel reinforcement cage is bent, the equipment 100 is grabbed, assembled and put in the grabbing and throwing assembly, so that the automatic assembly of the prefabricated wall cage is realized, manual intervention is less, and the steel reinforcement cage assembly speed is high.
5. The bending device 80 can realize bending of mesh flying ribs and bent ribs.
6. The automatic production of mesh sheets and reinforcing steel bars in cages is realized by the reinforcing steel bar skeleton production line, the one-time processing of raw materials directly to finished products is realized, the processing speed is high, the production efficiency is high, the quality of finished products is good, the batch and high-efficiency production is realized, only a small amount of manual operation of personnel is needed in the whole process, and the production cost is greatly reduced.
It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the utility model.
Claims (10)
1. The utility model provides a steel reinforcement framework production line, its characterized in that, includes steel bar conveying equipment and welding equipment (60), welding equipment (60) set up one side of steel bar conveying equipment, welding equipment (60) are used for welding into the net piece with horizontal muscle and vertical muscle, steel bar conveying equipment includes:
the transverse rib conveying device (10) comprises a transverse rib support and a transverse rib traction mechanism, and the transverse rib traction mechanism drives the transverse rib support to move;
indulge muscle conveyor (30), including indulging muscle support (31) and indulging muscle drive mechanism (32), indulge muscle support (31) and be located the top of horizontal muscle support, indulge muscle drive mechanism (32) drive indulge muscle support (31) motion.
2. The steel reinforcement framework production line according to claim 1, further comprising a net pulling device (70) and a bending device (80), wherein the welding device (60), the net pulling device (70) and the bending device (80) are sequentially arranged along a longitudinal direction, the steel reinforcement framework production line further comprises a turning grabbing and throwing device (90) and/or a grabbing and throwing group combining device (100), the net pulling device (70), the bending device (80) and the turning grabbing and throwing device (90) are sequentially arranged along the longitudinal direction, the grabbing and throwing group combining device (100) is arranged at a transverse side of the bending device (80), wherein the net pulling device (70) is used for pulling the mesh from the welding device (60) to the bending device (80), and the bending device (80) is used for bending the mesh, the overturning, grabbing and throwing equipment (90) is used for overturning or grabbing and throwing the bent mesh, and the grabbing and throwing assembly equipment (100) is used for grabbing, throwing and assembling the reinforcement cage.
3. The steel reinforcement framework production line as claimed in claim 1, wherein the transverse rib support comprises a transverse support (11) and a longitudinal support (21), the transverse rib traction mechanism comprises a transverse traction mechanism (12) and a longitudinal traction mechanism (22), the transverse traction mechanism (12) drives the transverse support (11) to move transversely, the longitudinal traction mechanism (22) drives the longitudinal support (21) to move longitudinally, the longitudinal rib traction mechanism (32) drives the longitudinal rib support (31) to move transversely, and the transverse rib conveying device (10) further comprises a material transferring mechanism which is used for transferring the transverse ribs on the transverse support (11) to the longitudinal support (21).
4. The steel reinforcement framework production line as claimed in claim 3, wherein the transverse bar conveying device (10) further comprises a transverse traction frame (13), the transverse support (11) is arranged on the transverse traction frame (13), the transverse traction frame (13) is connected with the transverse traction mechanism (12), and the transverse traction mechanism (12) drives the transverse traction frame (13) to move transversely.
5. The steel reinforcement framework production line as claimed in claim 4, wherein the transverse bar conveying device (10) further comprises a longitudinal traction frame (23), the longitudinal support (21) is arranged on the longitudinal traction frame (23), the longitudinal traction frame (23) is connected with the longitudinal traction mechanism (22), and the longitudinal traction mechanism (22) drives the longitudinal traction frame (23) to move longitudinally.
6. The steel reinforcement framework production line as claimed in claim 5, wherein the material transferring mechanism comprises a rotating mechanism (16) and a longitudinal lifting driving member (24), the rotating mechanism (16) is arranged on the transverse traction frame (13) and connected with the transverse support (11), the longitudinal lifting driving member (24) is arranged on the longitudinal traction frame (23), and the longitudinal lifting driving member (24) is connected with the longitudinal support (21) to drive the longitudinal support (21) to lift.
7. The steel reinforcement framework production line of claim 6, wherein the transverse reinforcement conveying device (10) further comprises a transverse lifting mechanism, the transverse lifting mechanism comprises a transverse lifting frame (14) and a transverse lifting driving piece (15), the transverse lifting driving piece (15) is arranged on the transverse traction frame (13), the transverse lifting driving piece (15) is connected with the transverse lifting frame (14), and the rotating mechanism (16) is arranged on the transverse lifting frame (14).
8. The steel reinforcement framework production line as claimed in claim 3, wherein the transverse support (11) comprises a plurality of transverse support plates (111) and transverse connecting beams (112), one ends of the plurality of transverse support plates (111) are fixed on the transverse connecting beams (112) at intervals, and a plurality of transverse positioning grooves are formed in the transverse support plates (111).
9. The steel reinforcement framework production line as claimed in claim 3, wherein the longitudinal support (21) comprises a plurality of longitudinal support plates (211) and longitudinal connecting beams (212), the bottoms of the longitudinal support plates (211) are fixed on the longitudinal connecting beams (212) at intervals, and a plurality of longitudinal positioning grooves are formed in the longitudinal support plates (211).
10. The steel reinforcement cage production line of claim 1, further comprising a straightening and cutting device (40), wherein a portion of the straightening and cutting device (40) is disposed at a longitudinal side of the longitudinal bar conveying device (30), and the transverse bar conveying device (10) and the longitudinal bar conveying device (30) share the straightening and cutting device (40).
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CN114700677A (en) * | 2022-06-06 | 2022-07-05 | 山西冶金岩土工程勘察有限公司 | Adjustable auxiliary welding tool for cast-in-place pile reinforcement cage |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114700677A (en) * | 2022-06-06 | 2022-07-05 | 山西冶金岩土工程勘察有限公司 | Adjustable auxiliary welding tool for cast-in-place pile reinforcement cage |
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