CN105215237A

CN105215237A - Bar-mat reinforcement weldering production line

Info

Publication number: CN105215237A
Application number: CN201510681436.6A
Authority: CN
Inventors: 丁国民
Original assignee: Tianjin Yinfeng Machinery System Engineering Co Ltd
Current assignee: Tianjin Yinfeng Machinery System Engineering Co Ltd
Priority date: 2015-10-14
Filing date: 2015-10-14
Publication date: 2016-01-06
Anticipated expiration: 2035-10-14
Also published as: CN105215237B

Abstract

A kind of bar-mat reinforcement weldering production line, comprise line sending part, aligning part, collecting frame, vertical muscle arrangement of reinforcement machine, vertical muscle cloth muscle machine, vertical muscle traction alignment machine, bonding machine, traction arch bender, bender, discharging machine, it is characterized in that, described line sending part, aligning part, collecting frame, vertical muscle arrangement of reinforcement machine, vertical muscle cloth muscle machine, vertical muscle traction alignment machine, bonding machine, traction arch bender, bender, discharging machine connect successively.Its beneficial effect is: produce smooth and easy from raw material to finished product, is connected smooth between each production technology, easy to connect between numerical control assembly and control appliance in equipment, and Control System Design is compatible strong.Feature richness, can complete techniques such as Edge Bend, four Edge Bends, the welderings of many merits net.

Description

Bar-mat reinforcement weldering production line

Technical field

The present invention relates to metal building material manufacture field, particularly a kind of metal building material welding, Bending Processing equipment.

Background technology

The welding of reinforcing bar, bending production line are not very general at home, mostly still adopt human weld, bending.Some enterprise adopts production equipment to be spliced into production line and defeats steel bar meter completely, but structure is comparatively simple, and function ratio is more single, and equipment is all generally purchase separately, enterprise oneself splices, compatible bad, and can not unify by Systematical control, efficiency is low, poor product quality.

Summary of the invention

The object of the invention is to solve the problem, devising a kind of bar-mat reinforcement weldering production line.Specific design scheme is:

A kind of bar-mat reinforcement weldering production line, comprise line sending part, aligning part, collecting frame, vertical muscle arrangement of reinforcement machine, vertical muscle cloth muscle machine, vertical muscle traction alignment machine, bonding machine, traction arch bender, bender, discharging machine, it is characterized in that, described line sending part, aligning part, collecting frame, vertical muscle arrangement of reinforcement machine, vertical muscle cloth muscle machine, vertical muscle traction alignment machine, bonding machine, traction arch bender, bender, discharging machine connect successively

Described vertical muscle arrangement of reinforcement machine is positioned at immediately below described collecting frame, and described vertical muscle cloth muscle machine is positioned at directly over described vertical muscle traction alignment machine, and described vertical muscle cloth muscle machine is positioned at the side of described vertical muscle arrangement of reinforcement machine,

Described line sending part comprises vertical muscle wire dispenser, horizontal bar wire dispenser, described vertical muscle wire dispenser, horizontal bar wire dispenser are multiple, described multiple vertical muscle wire dispenser is all connected with vertical muscle storage rack by vertical muscle lead frame, and described multiple horizontal bar wire dispenser is connected with horizontal bar storage rack by horizontal bar lead frame

Described aligning part comprises vertical muscle aligning part, horizontal bar aligning part, cutter, described vertical muscle aligning part comprises vertical muscle rotating and straightening hauling machine, vertical muscle rotary straightener, vertical muscle vertically align hauling machine, the vertical vertical straightener of muscle, described vertical muscle rotating and straightening hauling machine, vertical muscle rotary straightener, the vertical vertical straightener of muscle, vertical muscle are vertically aligned hauling machine and are connected successively

The quantity of described vertical muscle aligning part is multiple, described multiple vertical muscle aligning part linearly array distribution in the horizontal direction, the vertical muscle rotating and straightening hauling machine that described vertical muscle storage rack and multiple vertical muscle are aligned in part is connected, described vertical muscle is vertically aligned hauling machine and is connected with described collecting frame by cutter

Described horizontal bar aligning part comprises horizontal bar rotating and straightening hauling machine, horizontal bar rotary straightener, horizontal bar level aligning hauling machine, the vertical straightener of horizontal bar, the horizontal straightener of horizontal bar, described horizontal bar rotary straightener, the quantity of the vertical straightener of horizontal bar is multiple, described horizontal bar rotary straightener, the quantity of the vertical straightener of horizontal bar is equal, described horizontal bar rotary straightener, horizontal bar rotating and straightening hauling machine, the horizontal straightener of horizontal bar, horizontal bar level aligning hauling machine, the vertical straightener of horizontal bar connects successively, the vertical straightener of described horizontal bar is connected with described bonding machine by described cutter,

Hauling machine vertically aligned by described vertical muscle storage rack, vertical muscle rotating and straightening hauling machine, vertical muscle rotary straightener, vertical muscle, the vertical vertical straightener of muscle, collecting frame are located along the same line, described horizontal bar rotating and straightening hauling machine, horizontal bar rotary straightener, horizontal bar level aligning hauling machine, the vertical straightener of horizontal bar, the horizontal straightener of horizontal bar, bonding machine are located along the same line, and described vertical muscle cloth muscle machine, vertical muscle traction alignment machine, bonding machine, traction arch bender, bender are located along the same line.

Described vertical muscle wire dispenser, horizontal bar wire dispenser, vertical muscle lead frame, horizontal bar lead frame are installed on wire-unfolding rack, the quantity of described vertical muscle wire dispenser, horizontal bar wire dispenser, vertical muscle lead frame, horizontal bar lead frame is multiple, wherein said vertical muscle wire dispenser is equal with the quantity of described vertical muscle lead frame, described horizontal bar wire dispenser is equal with the quantity of described horizontal bar lead frame

Described discharging machine comprises lift master, the both sides of described lift master are provided with discharge guide, described lift master is provided with lifting frame, the quantity of described lifting frame is multiple, and described multiple lifting frame linearly array distribution on described lift master, described discharge guide is provided with tractor, and described tractor is positioned at the top of described lifting frame.

Described vertical muscle rotary straightener, horizontal bar rotary straightener comprises rotating and straightening main shaft, the two ends of described rotating and straightening main shaft are fixed by rotating and straightening bearing, one end of described rotating and straightening main shaft is provided with rotating and straightening drive pulley, on described rotating and straightening main shaft, cover has multiple bias adjustment assembly, described bias adjustment assembly is between the rotating and straightening bearing at described rotating and straightening main shaft two ends, described multiple bias adjustment assembly is along described rotating and straightening major axes orientation linearly array distribution, described bias adjustment assembly is provided with eccentric throw adjustment bolt, described eccentric throw adjustment bolt embeds in described rotating and straightening main shaft, eccentric pivot hole is provided with in described rotating and straightening main shaft, described eccentric throw adjustment bolt contacts with described eccentric pivot hole,

Described cutter comprises cutter support, comprise the subframe of two " L " shape structures, two " L " shape subframes are the overall structure of a welding fabrication, and the subframe of described " L " shape is left and right distribution, the described subframe being positioned at right side is provided with and shears conveying traction wheel, shear conveying contact roller, shear conveying contact roller cylinder, described shearing conveying traction wheel, shear conveying contact roller, shear conveying contact roller cylinder to be fixed on successively from top to bottom on the subframe on described right side, described shearing conveying contact roller cylinder, shear conveying traction wheel to be fixedly connected with the subframe on described right side, described shearing conveying contact roller and described right side subframe are slidably connected, described side of shearing conveying traction wheel is provided with shears delivery hydraulic pressure motor,

The subframe in described left side is provided with shear and pushes cylinder, described shearing propelling movement cylinder runs through cutter support and is connected with propelling movement support, and described propelling movement support is inverted "L" shaped structure, described propelling movement support is provided with and shears oil cylinder, cutting knife,

Described shearing conveying traction wheel drives by shearing delivery hydraulic pressure motor,

The side of cutter is connected with horizontal bar and cuts off feed arrangement, described horizontal bar cuts off the middle part that feed arrangement is positioned at described bonding machine, described horizontal bar cuts off feed arrangement and comprises material transmitting portions of laying across, described material transmitting portions of laying across is driving-belt, described below of laying across material transmitting portions is provided with electrode batch turning transmitting portions, the quantity of described electrode batch turning transmitting portions is multiple, described multiple electrode batch turning transmitting portions linearly array distribution, described end of laying across material transmitting portions is provided with blanking rack group, the side of described blanking rack group is provided with oscillating oil cylinder, described blanking rack group is provided with blanking transfer conveyor belt, described blanking is transmitted driving-belt and is provided with loading frame, described blanking transfer conveyor belt side is provided with splicing blowing vibrating shaft, described blanking transfer conveyor belt lower end is provided with discharging support, stock support,

Described discharging support can be driven by discharging bracket gas cylinder and move up and down, and described stock support is driven can be moved horizontally by blanking bracket gas cylinder.

Described collecting frame is " C " shape structure, and the two ends up and down of " C " shape structure of described collecting frame are all fixed by reinforcing tripod, for being welded to connect between described reinforcing tripod and collecting frame,

The quantity of described collecting frame is multiple, is welded to connect between described multiple collecting frame by arrangement of reinforcement connecting rod of support, described collecting frame along described arrangement of reinforcement connecting rod of support linearly array distribution,

Described collecting frame is provided with multiple clamping bar link, described clamping bar link comprises fixing clamping bar, open and close clamping bar, described fixing clamping bar, open and close clamping bar and be " L " shape structure, described fixing clamping bar, open and close the closed formation of clamping bar " mouth " word structure, described fixing clamping bar is welded to connect by fixing clamping bar weld holder and described collecting frame, described keying clamping bar is by clamping bar crowbar, be rotationally connected with described fixing clamping bar weld holder, described clamping bar crowbar is " C " shape structure, described clamping bar crowbar is connected with clamping bar cylinder by clamping bar arm, described clamping bar cylinder is fixed on described collecting frame.

Vertical muscle arrangement of reinforcement machine comprises vertical muscle arrangement of reinforcement machine support, described vertical muscle arrangement of reinforcement machine support is provided with vertical muscle arrangement of reinforcement chain, singe screw conveyer, described vertical muscle arrangement of reinforcement chain is driven by vertical muscle arrangement of reinforcement chain motor, described singe screw conveyer is driven by singe screw conveying motor, described vertical muscle arrangement of reinforcement chain motor, singe screw conveying motor is all fixed on described vertical muscle arrangement of reinforcement machine support

The motor shaft of described vertical muscle arrangement of reinforcement chain motor is towards vertical with described vertical muscle arrangement of reinforcement chain, and the motor shaft direction of described singe screw conveying motor is parallel with described chain,

The quantity of described vertical muscle arrangement of reinforcement chain, singe screw conveyer is multiple, described multiple vertical muscle arrangement of reinforcement chain, singe screw conveyer are along described vertical muscle arrangement of reinforcement chain motor direction of principal axis linearly array distribution, the quantity of described vertical muscle arrangement of reinforcement chain motor, singe screw conveying motor is at least one

Connected by vertical muscle arrangement of reinforcement connecting axle between described multiple vertical muscle arrangement of reinforcement chain, described vertical muscle arrangement of reinforcement chain is connected with key between vertical muscle arrangement of reinforcement connecting axle, and described vertical muscle arrangement of reinforcement connecting axle is connected with described vertical muscle arrangement of reinforcement chain motor by vertical muscle arrangement of reinforcement drive sprocket,

Described singe screw conveying motor carries motor to be connected by singe screw conveying reductor with described singe screw, and described singe screw conveying reductor comprises singe screw drive sprocket,

Described singe screw conveyer comprises screw rod, screw case, the two ends of described screw rod are all connected with described screw case by bearing, the two ends of described screw case are provided with down joins supporting plate, supporting plate is joined for " V " shape structure under described, join supporting plate under described to be connected with described screw case by leading muscle bar, join supporting plate under described, lead muscle bar and be all rotationally connected with described screw case, be provided with lower distribution cylinder under described screw case, described lower distribution cylinder is connected with described muscle bar of leading.

Described vertical muscle cloth muscle machine comprises vertical muscle cloth muscle support, described vertical muscle cloth muscle support is provided with vertical muscle cloth muscle chain, cloth muscle chain drive connecting axle, cloth muscle chain cloth muscle connecting axle, the quantity of described vertical muscle cloth muscle chain is multiple, described multiple vertical muscle cloth muscle chain is along the axial linearly array distribution of described cloth muscle chain drive connecting axle, described cloth muscle chain drive connecting axle is positioned at the below of described cloth muscle chain cloth muscle connecting axle

Described cloth muscle chain drive connecting axle, cloth muscle chain cloth muscle connecting axle are all connected with vertical muscle cloth muscle motor, described vertical muscle cloth muscle motor is connected with described cloth muscle chain drive connecting axle, cloth muscle chain cloth muscle connecting axle by vertical muscle cloth muscle travelling gear, vertical muscle cloth muscle reductor

Described every two of vertical muscle cloth muscle chain is one group, distribute in left and right, wherein, the vertical muscle cloth muscle chain being positioned at left side is connected with described cloth muscle chain drive connecting axle bearing, the vertical muscle cloth muscle chain in left side is connected axle key with described cloth muscle chain cloth muscle and connects, the vertical muscle cloth muscle chain on right side is connected axle key with described cloth muscle chain drive and connects, and the vertical muscle cloth muscle chain on right side is connected with described cloth muscle chain cloth muscle connecting axle bearing

Often organize and described vertical muscle cloth muscle chain is equipped with at least one group indulges muscle block tongue, described vertical muscle block tongue comprises two tongue pieces, two tongue pieces are " C " shape structure, form the vertical muscle block tongue of " O " shape structure when described two tongue pieces close, described two block tongues lay respectively on two, the left and right vertical muscle cloth muscle chain of the vertical muscle cloth muscle chain of often group.

Described vertical muscle traction alignment machine comprises hauling machine support, described hauling machine support is provided with many group traction gag lever posts, the both sides of described hauling machine support are provided with traction track, between the traction track of the described left and right sides, upper end is provided with traction push pedal, the lower end of described traction track is provided with traction track motor, be connected by transmission component between described traction track with traction track motor, traction biteplate, porous traction alignment plate are installed above described traction push pedal

Described transmission component is Timing Belt, described Timing Belt, described traction track is rack-track, the lower end of described traction push pedal is provided with traction alignment cylinder, described traction biteplate is provided with traction occlusion cylinder, described porous traction alignment plate and described traction biteplate are rotationally connected, and described traction gag lever post is provided with multiple spacing metal derby.

Described bonding machine comprises bonding machine support, in described bonding machine support, many bond pads cylinder is installed, the upper end of described bonding machine support is provided with bonding machine cylinder, upper welding arm, the lower end of described bonding machine support is provided with lower welding arm, described lower welding arm is positioned at immediately below described upper welding arm, and described lower welding arm is provided with calibration banking stop.

Described traction arch bender comprises the curved undertaking support of arch, encircle curved towing bracket, described bender is positioned at the curved undertaking support of described arch, encircle between curved towing bracket, the curved undertaking support of described arch, encircle on curved towing bracket and the curved supporting plate of arch is all installed, the curved supporting plate of described arch and the curved undertaking support of described arch, encircle curved towing bracket to be rotationally connected, the curved supporting plate of described arch is by the curved air cylinder driven of arch, the curved undertaking support of described arch, encircle on curved towing bracket and be equipped with multiple traction positive stop strip, described multiple traction positive stop strips linearly array distribution, described traction positive stop strip and the curved undertaking support of described arch, encircle curved towing bracket insert embedding after be welded to connect.

Described bender comprises bending cabinet, bending transverse shifting servomotor is installed in described bending cabinet, described bending transverse shifting servomotor is connected with backstay by positioning transmission gear train, the both sides that described backstay runs through described bending cabinet are connected with bending adjustment gear, the top of described bending adjustment gear is provided with bending adjustment tooth bar, bending adjustment slideway, described bending adjustment tooth bar adjusts gears meshing with described bending and is connected, described bending cabinet adjusts slideway by bending adjustment pulley with described bending and is connected

In described bending cabinet, bending oil cylinder, foldable component are also installed, described bending oil cylinder is connected with foldable component, described foldable component runs through the top of described bending cabinet, the side of described foldable component is provided with reinforcing bar fixation kit, described reinforcing bar fixation kit is fixedly connected with described bending cabinet, and described reinforcing bar fixation kit is in " own " character form structure, and the side of described reinforcing bar fixation kit is provided with reinforcing bar card, described reinforcing bar card and described reinforcing bar fixation kit are rotationally connected

The bottom of described bending oil cylinder is provided with bending tooth sector, and described bending tooth sector is connected with bending by bending reduction gear box and turns to servomotor.

The bar-mat reinforcement weldering production line obtained by technique scheme of the present invention, its beneficial effect is:

Produce smooth and easy from raw material to finished product, be connected smooth between each production technology, easy to connect between numerical control assembly and control appliance in equipment, Control System Design is compatible strong.

Feature richness, can complete techniques such as Edge Bend, four Edge Bends, the welderings of many merits net.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of bar-mat reinforcement of the present invention weldering production line;

Fig. 2 is the plan structure schematic diagram of discharging machine of the present invention;

Fig. 3 be vertical muscle rotary straightener of the present invention, horizontal bar rotary straightener etc. axle geodesic structure schematic diagram;

Fig. 4 is vertical muscle rotary straightener of the present invention, horizontal bar rotary straightener face structural representation;

Fig. 5 is 45 ° of adjusting devices of the present invention, the schematic diagram such as geodesic structure such as axle such as grade of-45 ° of adjusting devices;

Fig. 6 is the vertical straightener of vertical muscle of the present invention, the vertical straightener of horizontal bar face structural representation;

Fig. 7 is 45 ° of adjusting devices of the present invention, the side-looking structural representation of-45 ° of adjusting devices;

Fig. 8 is 45 ° of adjusting devices of the present invention, the plan structure schematic diagram of-45 ° of adjusting devices;

Fig. 9 is the schematic diagram such as geodesic structure such as axle such as grade of cutter of the present invention;

Figure 10 be cutter of the present invention face structural representation;

Figure 11 is the side-looking structural representation of cutter of the present invention;

Figure 12 is the plan structure schematic diagram of cutter of the present invention;

Figure 13 be horizontal bar of the present invention cut off feed arrangement face structural representation;

Figure 14 is the side-looking structural representation of blanking rack group of the present invention;

Figure 15 be collecting frame of the present invention the axle geodesic structure schematic diagram such as to look up;

Figure 16 is the side-looking structural representation of collecting frame of the present invention;

Figure 17 is the side-looking structural representation of clamping bar arm of the present invention;

Figure 18 is the schematic diagram such as geodesic structure such as axle such as grade of vertical muscle arrangement of reinforcement machine of the present invention;

Figure 19 be vertical muscle arrangement of reinforcement machine of the present invention face structural representation;

Figure 20 is the plan structure schematic diagram of vertical muscle arrangement of reinforcement machine of the present invention;

Figure 21 is the side-looking structural representation of vertical muscle arrangement of reinforcement machine of the present invention;

Figure 22 is the schematic diagram such as geodesic structure such as axle such as grade of screw rod conveyor of the present invention;

Figure 23 is the side elevational cross-section structural representation of screw rod conveyor of the present invention;

Figure 24 is the schematic diagram such as geodesic structure such as axle such as grade of vertical muscle cloth muscle machine of the present invention;

Figure 25 be vertical muscle cloth muscle machine of the present invention face structural representation;

Figure 26 is the side-looking structural representation of vertical muscle cloth muscle machine of the present invention;

Figure 27 is the structural representation of unwrapping wire part of the present invention;

Figure 28 be vertical muscle of the present invention traction alignment machine the axle geodesic structure schematic diagram such as to look up;

Figure 29 is the side-looking structural representation of vertical muscle traction alignment machine of the present invention;

Figure 30 be vertical muscle of the present invention traction alignment machine face structural representation;

Figure 31 be bonding machine of the present invention face structural representation;

Figure 32 is the side-looking structural representation of bonding machine of the present invention;

Figure 33 is the schematic diagram such as geodesic structure such as axle such as grade of traction arch bender of the present invention;

Figure 34 is the side-looking structural representation of traction arch bender of the present invention;

Figure 35 is the schematic diagram such as geodesic structure such as axle such as grade of bender of the present invention;

Figure 36 is the side-looking structural representation of bender of the present invention;

Figure 37 be bender of the present invention face structural representation;

Figure 38 is the structural representation of vertical muscle aligning part of the present invention;

Figure 39 is the structural representation of horizontal bar aligning part of the present invention;

Figure 40 is the plan structure schematic diagram of bar folder of the present invention;

In figure, 1, line sending part; 11, wire-unfolding rack; 1a, vertical muscle wire dispenser; 1a1, vertical muscle lead frame; 1a2, vertical muscle storage rack; 1b, horizontal bar wire dispenser; 1b1, horizontal bar lead frame; 1b2, horizontal bar storage rack, 2, aligning part; 21, rotating and straightening main shaft; 22, rotating and straightening bearing; 23, rotating and straightening drive pulley; 24, eccentric adjustment assembly; 25, eccentric throw adjustment bolt; 26, eccentric pivot hole; 27,45 ° of adjusting devices; 28 ,-45 ° of adjusting devices; 29, longitudinal adjusting device; 210, transverse adjustment device; 211, vertical aligning adjustment plate; 212, vertical aligning adjustment plate fixed mount; 213, direction adjusting pole is aligned; 214, direction aligning regulating wheel; 215, aligning adjustment pivot pin; 216, set bolt; 2a, vertical muscle aligning part; 2a1, vertical muscle rotating and straightening hauling machine; 2a2, vertical muscle rotary straightener; 2a3, vertical muscle vertically align hauling machine; 2a4, the vertical vertical straightener of muscle; 2b, horizontal bar aligning part; 2b1, horizontal bar rotating and straightening hauling machine; 2b2, horizontal bar rotary straightener; 2b3, horizontal bar level aligning hauling machine; The vertical straightener of 2b4, horizontal bar; The horizontal straightener of 2b5, horizontal bar; 2c, cutter; 2c1, cutter support; 2c2, shearing conveying traction wheel; 2c3, shearing conveying contact roller; 2c4, shearing conveying contact roller cylinder; 2c5, shearing delivery hydraulic pressure motor; 2c6, shearing push cylinder; 2c7, propelling movement support; 2c8, shearing oil cylinder; 2c9, cutting knife; 2d, horizontal bar cut off feed arrangement; 2d1, material transmitting portions of laying across; 2d2, electrode batch turning transmitting portions; 2d3, blanking rack group; 2d4, oscillating oil cylinder; 2d5, blanking transfer conveyor belt; 2d6, loading frame; 2d7, splicing blowing vibrating shaft; 2d8, discharging support; 2d9, stock support; 2d10, blanking bracket gas cylinder; 2d11, discharging bracket gas cylinder; 3, collecting frame; 31, tripod is reinforced; 32, arrangement of reinforcement connecting rod of support; 33, fixing clamping bar; 34, clamping bar is opened and closed; 35, fixing clamping bar weld holder; 36, clamping bar crowbar; 37, clamping bar arm; 38, clamping bar cylinder; 4, vertical muscle arrangement of reinforcement machine; 41, vertical muscle arrangement of reinforcement machine support; 42, vertical muscle arrangement of reinforcement chain; 43, singe screw conveyer; 44, vertical muscle arrangement of reinforcement chain motor; 45, singe screw conveying motor; 46, vertical muscle arrangement of reinforcement connecting axle; 47, vertical muscle arrangement of reinforcement drive sprocket; 48, singe screw conveying reductor; 49, singe screw drive sprocket; 410, screw rod; 411, screw case; 412, supporting plate is joined under; 413, muscle bar is led; 414, lower distribution cylinder; 5, vertical muscle cloth muscle machine; 51, vertical muscle cloth muscle support; 52, vertical muscle cloth muscle chain; 53, cloth muscle chain drive connecting axle; 54, cloth muscle chain cloth muscle connecting axle; 55, vertical muscle cloth muscle motor; 56, vertical muscle cloth muscle travelling gear; 57, vertical muscle cloth muscle reductor; 58, vertical muscle block tongue; 6, vertical muscle traction alignment machine; 61, hauling machine support; 62, gag lever post is drawn; 63, traction track; 64, push pedal is drawn; 65, traction track motor; 66, transmission component; 67, biteplate is drawn; 68, porous traction alignment plate; 69, traction alignment cylinder; 610, traction occlusion cylinder; 611, spacing metal derby; 7, bonding machine; 71, bonding machine support; 72, cylinder is welded; 73, bonding machine cylinder; 74, upper welding arm; 75, lower welding arm; 76, banking stop is calibrated; 8, traction arch bender; 81, curved undertaking support is encircleed; 82, curved towing bracket is encircleed; 83, curved supporting plate is encircleed; 84, curved cylinder is encircleed; 85, positive stop strip is drawn; 9, bender; 91, bending cabinet; 92, bending transverse shifting servomotor; 93, positioning transmission gear train; 94, backstay; 95, bending adjustment gear; 96, bending adjustment tooth bar; 97, bending adjustment slideway; 98, bending adjustment pulley; 99, bending oil cylinder; 910, foldable component; 911, reinforcing bar fixation kit; 912, reinforcing bar card; 913, bending tooth sector; 914, bending reduction gear box; 915, bending turns to servomotor; 10, discharging machine; 101, lift master; 102, discharge guide; 103, lifting frame; 104, tractor.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is specifically described.

Fig. 1 is the process flow diagram of bar-mat reinforcement of the present invention weldering production line, as shown in Figure 1, a kind of bar-mat reinforcement weldering production line, comprise line sending part 1, aligning part 2, collecting frame 3, vertical muscle arrangement of reinforcement machine 4, vertical muscle cloth muscle machine 5, vertical muscle traction alignment machine 6, bonding machine 7, traction arch bender 8, bender 9, discharging machine 10, described line sending part 1, aligning part 2, collecting frame 3, vertical muscle arrangement of reinforcement machine 4, vertical muscle cloth muscle machine 5, vertical muscle traction alignment machine 6, bonding machine 7, traction arch bender 8, bender 9, discharging machine 10 connect successively

Described vertical muscle arrangement of reinforcement machine 4 is positioned at immediately below described collecting frame 3, and described vertical muscle cloth muscle machine 5 is positioned at directly over described vertical muscle traction alignment machine 6, and described vertical muscle cloth muscle machine 5 is positioned at the side of described vertical muscle arrangement of reinforcement machine 4,

Described line sending part 1 comprises vertical muscle wire dispenser 1a, horizontal bar wire dispenser 1b, described vertical muscle wire dispenser 1a, horizontal bar wire dispenser 1b are multiple, described multiple vertical muscle wire dispenser 1a is all connected with vertical muscle storage rack 1a2 by vertical muscle lead frame 1a1, described multiple horizontal bar wire dispenser 1b is connected with horizontal bar storage rack 1b2 by horizontal bar lead frame 1b1

Figure 38 is the structural representation of vertical muscle aligning part of the present invention; Figure 39 is the structural representation of horizontal bar aligning part of the present invention, as shown in Figure 38,39, described aligning part 2 comprises vertical muscle aligning part 2a, horizontal bar aligning part 2b, cutter 2c, it is described that vertical muscle aligning part 2a comprises vertical muscle rotating and straightening hauling machine 2a1, vertical muscle rotary straightener 2a2, vertical muscle vertically aligns hauling machine 2a3, the vertical vertical straightener 2a4 of muscle, described vertical muscle rotating and straightening hauling machine 2a1, vertical muscle rotary straightener 2a2, the vertical vertical straightener 2a4 of muscle, vertical muscle are vertically aligned hauling machine 2a3 and are connected successively

The quantity of described vertical muscle aligning part 2a is multiple, described multiple vertical muscle aligning part 2a linearly array distribution in the horizontal direction, the vertical muscle rotating and straightening hauling machine 2a1 that described vertical muscle storage rack 1a2 and multiple vertical muscle are aligned in part 2a is connected, described vertical muscle is vertically aligned hauling machine 2a3 and is connected with described collecting frame 3 by cutter 2c

Described horizontal bar aligning part 2b comprises horizontal bar rotating and straightening hauling machine 2b1, horizontal bar rotary straightener 2b2, horizontal bar level aligning hauling machine 2b3, the vertical straightener 2b4 of horizontal bar, the horizontal straightener 2b5 of horizontal bar, described horizontal bar rotary straightener 2b2, the quantity of horizontal bar vertical straightener 2b4 is multiple, described horizontal bar rotary straightener 2b2, the quantity of horizontal bar vertical straightener 2b4 is equal, described horizontal bar rotary straightener 2b2, horizontal bar rotating and straightening hauling machine 2b1, the horizontal straightener 2b5 of horizontal bar, horizontal bar level aligning hauling machine 2b3, the vertical straightener 2b4 of horizontal bar connects successively, described horizontal bar vertical straightener 2b4 is connected with described bonding machine 7 by described cutter 2c,

Described vertical muscle storage rack 1a2, vertical muscle rotating and straightening hauling machine 2a1, vertical muscle rotary straightener 2a2, vertical muscle vertically align hauling machine 2a3, the vertical vertical straightener 2a4 of muscle, collecting frame 3 is located along the same line, described horizontal bar rotating and straightening hauling machine 2b1, horizontal bar rotary straightener 2b2, horizontal bar level aligning hauling machine 2b3, horizontal bar vertical straightener 2b4, the horizontal straightener 2b5 of horizontal bar, bonding machine 7 are located along the same line, and described vertical muscle cloth muscle machine 5, vertical muscle traction alignment machine 6, bonding machine 7, traction arch bender 8, bender 9 are located along the same line.

Fig. 2 is the plan structure schematic diagram of discharging machine of the present invention, as shown in Figure 2, described discharging machine 10 comprises lift master 101, the both sides of described lift master 101 are provided with discharge guide 102, described lift master 101 is provided with lifting frame 103, and the quantity of described lifting frame 103 is multiple, and described multiple lifting frame 103 linearly array distribution on described lift master 101, described discharge guide 102 is provided with tractor 104, and described tractor is positioned at the top of described lifting frame 103.

Fig. 3 be vertical muscle rotary straightener of the present invention, horizontal bar rotary straightener etc. axle geodesic structure schematic diagram, Fig. 4 is vertical muscle rotary straightener of the present invention, horizontal bar rotary straightener face structural representation, as Fig. 3, shown in Fig. 4, described vertical muscle rotary straightener 2a2, horizontal bar rotary straightener 2b2 comprises rotating and straightening main shaft 21, the two ends of described rotating and straightening main shaft 21 are fixed by rotating and straightening bearing 22, one end of described rotating and straightening main shaft 21 is provided with rotating and straightening drive pulley 23, on described rotating and straightening main shaft 21, cover has multiple bias adjustment assembly 24, described bias adjustment assembly 24 is between the rotating and straightening bearing 22 at described rotating and straightening main shaft 21 two ends, described multiple bias adjustment assembly 24 is along described rotating and straightening main shaft 21 direction linearly array distribution, described bias adjustment assembly 24 is provided with eccentric throw adjustment bolt 25, described eccentric throw adjustment bolt 25 embeds in described rotating and straightening main shaft 21, eccentric pivot hole 26 is provided with in described rotating and straightening main shaft 21, described eccentric throw adjustment bolt 25 contacts with described eccentric pivot hole 26.

Fig. 5 is 45 ° of adjusting devices of the present invention, the schematic diagram such as geodesic structure such as axle such as grade of-45 ° of adjusting devices, Fig. 6 is the vertical straightener of vertical muscle of the present invention, the vertical straightener of horizontal bar face structural representation, Fig. 7 is 45 ° of adjusting devices of the present invention, the side-looking structural representation of-45 ° of adjusting devices, Fig. 8 is 45 ° of adjusting devices of the present invention, the plan structure schematic diagram of-45 ° of adjusting devices, as viewed in figures 5-8, the vertical straightener 2a4 of described vertical muscle, the vertical straightener 2b4 of horizontal bar comprises 45 ° of adjusting devices 27,-45 ° of adjusting devices 28, longitudinal adjusting device 29, transverse adjustment device 210, described 45 ° of adjusting devices 27,-45 ° of adjusting devices 28, longitudinal adjusting device 29, transverse adjustment device 210 is many group directive wheel adjusting devices, described direction adjustment member comprises vertical aligning adjustment plate 211, described vertical aligning adjustment plate 211 is vertically aligned adjustment plate fixed mount 212 by direction and is fixed on aligning direction adjusting pole 213,

The quantity of described vertical aligning adjustment plate 211 is multiple, and described multiple vertical aligning adjustment plate 211 is in two groups of linear array distributions, and described two groups of linear arrays are left and right distribution, and described vertical aligning adjustment plate 211 is fixed with direction aligning regulating wheel 214,

Aligning regulating wheel 214 direction be positioned on the vertical aligning adjustment plate 211 of the linear array in left side is advanced, after aligning regulating wheel 214 direction be positioned on the vertical aligning adjustment plate 211 of the linear array on right side surpasses, the vertical aligning adjustment plate 211 being positioned at the linear array in left side turns forward 45 °, the vertical aligning adjustment plate 211 being positioned at the linear array on right side tilts backwards 45 °

Aligning regulating wheel 214 quantity on each described vertical aligning adjustment plate 211 is 5, wherein two are positioned on the left of described vertical aligning adjustment plate 211, one is positioned in the middle part of described vertical aligning adjustment plate 211, two are positioned on the right side of described vertical aligning adjustment plate 211, described aligning regulating wheel 214 is adjusted plate 211 by aligning adjustment pivot pin 215, set bolt 216 be connected with described vertical aligning

The aligning adjustment pivot pin 215 being positioned at the aligning regulating wheel 214 of described vertical aligning adjustment plate 211 left and right sides embeds described vertical aligning adjustment plate 211 from top to bottom, and the aligning adjustment pivot pin 215 being positioned at the aligning regulating wheel 214 in the middle part of described vertical aligning adjustment plate 211 embeds described vertical aligning adjustment plate 211 from bottom to top.

Fig. 9 is the schematic diagram such as geodesic structure such as axle such as grade of cutter of the present invention, Figure 10 be cutter of the present invention face structural representation, Figure 11 is the side-looking structural representation of cutter of the present invention, Figure 12 is the plan structure schematic diagram of cutter of the present invention, as shown in figs9-12, described cutter 2c comprises cutter support 2c1, comprise the subframe of two " L " shape structures, two " L " shape subframes are the overall structure of a welding fabrication, and the subframe of described " L " shape is left and right distribution, the described subframe being positioned at right side is provided with and shears conveying traction wheel 2c2, shear conveying contact roller 2c3, shear conveying contact roller cylinder 2c4, described shearing conveying traction wheel 2c2, shear conveying contact roller 2c3, shear conveying contact roller cylinder 2c4 to be fixed on successively from top to bottom on the subframe on described right side, described shearing conveying contact roller cylinder 2c4, shear conveying traction wheel 2c2 to be fixedly connected with the subframe on described right side, described shearing conveying contact roller 2c3 and described right side subframe are slidably connected, described side of shearing conveying traction wheel 2c2 is provided with shears delivery hydraulic pressure motor 2c5,

The subframe in described left side is provided with shear and pushes cylinder 2c6, described shearing propelling movement cylinder 2c6 runs through cutter support 2c1 and is connected with propelling movement support 2c7, described propelling movement support 2c7 is inverted "L" shaped structure, described propelling movement support 2c7 is provided with and shears oil cylinder 2c8, cutting knife 2c9

Described shearing conveying traction wheel 2c2 drives by shearing delivery hydraulic pressure motor 2c5.

Figure 13 be horizontal bar of the present invention cut off feed arrangement face structural representation, Figure 14 is the side-looking structural representation of blanking rack group of the present invention, as Figure 13, shown in Figure 14, the side of cutter 2c is connected with horizontal bar and cuts off feed arrangement 2d, described horizontal bar cuts off the middle part that feed arrangement 2d is positioned at described bonding machine 7, described horizontal bar cuts off feed arrangement 2d and comprises the material transmitting portions 2d1 that lays across, the described material transmitting portions 2d1 that lays across is driving-belt, described below of laying across material transmitting portions 2d1 is provided with electrode batch turning transmitting portions 2d2, the quantity of described electrode batch turning transmitting portions 2d2 is multiple, described multiple electrode batch turning transmitting portions 2d2 linearly array distribution, described end of laying across material transmitting portions 2d1 is provided with blanking rack group 2d3, the side of described blanking rack group 2d3 is provided with oscillating oil cylinder 2d4, described blanking rack group 2d3 is provided with blanking transfer conveyor belt 2d5, described blanking is transmitted driving-belt 2d5 and is provided with loading frame 2d6, described blanking transfer conveyor belt 2d5 side is provided with splicing blowing vibrating shaft 2d7, described blanking transfer conveyor belt 2d5 lower end is provided with discharging support 2d8, stock support 2d9,

Described discharging support 2d8 can be driven by discharging bracket gas cylinder 2d11 and move up and down, and described stock support 2d9 is driven can be moved horizontally by blanking bracket gas cylinder 2d10.

Figure 15 be collecting frame of the present invention the axle geodesic structure schematic diagram such as to look up; Figure 16 is the side-looking structural representation of collecting frame of the present invention; Figure 17 is the side-looking structural representation of clamping bar arm of the present invention, as seen in figs. 15-17, described collecting frame 3 is " C " shape structure, and the two ends up and down of " C " shape structure of described collecting frame are all fixed by reinforcing tripod 31, for being welded to connect between described reinforcing tripod 31 and collecting frame 3

The quantity of described collecting frame 3 is multiple, is welded to connect between described multiple collecting frame 3 by arrangement of reinforcement connecting rod of support 32, described collecting frame 3 along described arrangement of reinforcement connecting rod of support 32 linearly array distribution,

Described collecting frame 3 is provided with multiple clamping bar link, described clamping bar link comprises fixing clamping bar 33, open and close clamping bar 34, described fixing clamping bar 33, open and close clamping bar 34 and be " L " shape structure, described fixing clamping bar 33, open and close clamping bar 34 closed formation " mouth " word structure, described fixing clamping bar 33 is welded to connect with described collecting frame 3 by fixing clamping bar weld holder 35, described keying clamping bar 34 is by clamping bar crowbar 36, be rotationally connected with described fixing clamping bar weld holder 35, described clamping bar crowbar 36 is " C " shape structure, described clamping bar crowbar 36 is connected with clamping bar cylinder 38 by clamping bar arm 37, described clamping bar cylinder 38 is fixed on described collecting frame 3.

Figure 18 is the schematic diagram such as geodesic structure such as axle such as grade of vertical muscle arrangement of reinforcement machine of the present invention; Figure 19 be vertical muscle arrangement of reinforcement machine of the present invention face structural representation; Figure 20 is the plan structure schematic diagram of vertical muscle arrangement of reinforcement machine of the present invention; Figure 21 is the side-looking structural representation of vertical muscle arrangement of reinforcement machine of the present invention, as shown in figs. 18-21, vertical muscle arrangement of reinforcement machine 4 comprises vertical muscle arrangement of reinforcement machine support 41, described vertical muscle arrangement of reinforcement machine support 41 is provided with vertical muscle arrangement of reinforcement chain 42, singe screw conveyer 43, described vertical muscle arrangement of reinforcement chain 42 is driven by vertical muscle arrangement of reinforcement chain motor 44, described singe screw conveyer 43 is driven by singe screw conveying motor 45, described vertical muscle arrangement of reinforcement chain motor 44, singe screw conveying motor 45 is all fixed on described vertical muscle arrangement of reinforcement machine support 41

The motor shaft of described vertical muscle arrangement of reinforcement chain motor 44 is towards vertical with described vertical muscle arrangement of reinforcement chain 42, and the motor shaft direction of described singe screw conveying motor 45 is parallel with described chain,

The quantity of described vertical muscle arrangement of reinforcement chain 42, singe screw conveyer 43 is multiple, described multiple vertical muscle arrangement of reinforcement chain 42, singe screw conveyer 43 are along described vertical muscle arrangement of reinforcement chain motor 44 motor shaft direction linearly array distribution, the quantity of described vertical muscle arrangement of reinforcement chain motor 44, singe screw conveying motor 45 is at least one

Connected by vertical muscle arrangement of reinforcement connecting axle 46 between described multiple vertical muscle arrangement of reinforcement chain 42, described vertical muscle arrangement of reinforcement chain 42 is connected with key between vertical muscle arrangement of reinforcement connecting axle 46, described vertical muscle arrangement of reinforcement connecting axle 46 is connected with described vertical muscle arrangement of reinforcement chain motor 44 by vertical muscle arrangement of reinforcement drive sprocket 47

Described singe screw conveying motor 45 carries motor 45 to be connected by singe screw conveying reductor 48 with described singe screw, and described singe screw conveying reductor 48 comprises singe screw drive sprocket 49.

Figure 22 is the schematic diagram such as geodesic structure such as axle such as grade of screw rod conveyor of the present invention, Figure 23 is the side elevational cross-section structural representation of screw rod conveyor of the present invention, as Figure 22, shown in Figure 23, described singe screw conveyer 43 comprises screw rod 410, screw case 411, the two ends of described screw rod 410 are all connected with described screw case 411 by bearing, the two ends of described screw case 411 are provided with down joins supporting plate 412, supporting plate 412 is joined for " V " shape structure under described, join supporting plate 412 under described to be connected with described screw case 411 by leading muscle bar 413, supporting plate 412 is joined under described, lead muscle bar 413 to be all rotationally connected with described screw case 411, described screw case is provided with lower distribution cylinder 414 for 411 times, described lower distribution cylinder 414 is connected with described muscle bar 413 of leading.

Figure 24 is the schematic diagram such as geodesic structure such as axle such as grade of vertical muscle cloth muscle machine of the present invention; Figure 25 be vertical muscle cloth muscle machine of the present invention face structural representation; Figure 26 is the side-looking structural representation of vertical muscle cloth muscle machine of the present invention, as shown in figs 24-26, described vertical muscle cloth muscle machine 5 comprises vertical muscle cloth muscle support 51, described vertical muscle cloth muscle support 51 is provided with vertical muscle cloth muscle chain 52, cloth muscle chain drive connecting axle 53, cloth muscle chain cloth muscle connecting axle 54, the quantity of described vertical muscle cloth muscle chain 52 is multiple, described multiple vertical muscle cloth muscle chain 52 is along the axial linearly array distribution of described cloth muscle chain drive connecting axle 53, described cloth muscle chain drive connecting axle 53 is positioned at the below of described cloth muscle chain cloth muscle connecting axle 54

Described cloth muscle chain drive connecting axle 53, cloth muscle chain cloth muscle connecting axle 54 are all connected with vertical muscle cloth muscle motor 55, described vertical muscle cloth muscle motor 55 is connected with described cloth muscle chain drive connecting axle 53, cloth muscle chain cloth muscle connecting axle 54 by vertical muscle cloth muscle travelling gear 56, vertical muscle cloth muscle reductor 57

Described every two of vertical muscle cloth muscle chain 52 is one group, distribute in left and right, wherein, the vertical muscle cloth muscle chain 52 being positioned at left side is connected with described cloth muscle chain drive connecting axle 53 bearing, the vertical muscle cloth muscle chain 52 in left side is connected with described cloth muscle chain cloth muscle connecting axle 54 key, the vertical muscle cloth muscle chain 52 on right side is connected with described cloth muscle chain drive connecting axle 53 key, and the vertical muscle cloth muscle chain 52 on right side is connected with described cloth muscle chain cloth muscle connecting axle 54 bearing

Often organize and described vertical muscle cloth muscle chain 52 is equipped with at least one group indulges muscle block tongue 58, described vertical muscle block tongue 58 comprises two tongue pieces, two tongue pieces are " C " shape structure, form the vertical muscle block tongue 58 of " O " shape structure when described two tongue pieces close, described two block tongues lay respectively on two, the left and right vertical muscle cloth muscle chain 52 of the vertical muscle cloth muscle chain 52 of often group.

Figure 28 be vertical muscle of the present invention traction alignment machine the axle geodesic structure schematic diagram such as to look up, Figure 29 is the side-looking structural representation of vertical muscle traction alignment machine of the present invention, Figure 30 be vertical muscle of the present invention traction alignment machine face structural representation, as shown in figs. 28-30, described vertical muscle traction alignment machine 6 comprises hauling machine support 61, described hauling machine support 61 is provided with many group traction gag lever posts 62, the both sides of described hauling machine support 61 are provided with traction track 63, between the traction track 63 of the described left and right sides, upper end is provided with traction push pedal 64, the lower end of described traction track 63 is provided with traction track motor 65, described traction track 63 is connected by transmission component 66 with between traction track motor 65, traction biteplate 67 is installed above described traction push pedal 64, porous traction alignment plate 68,

Described transmission component 66 is Timing Belt, described Timing Belt, described traction track 63 is rack-track, the lower end of described traction push pedal 64 is provided with traction alignment cylinder 69, described traction biteplate 67 is provided with traction occlusion cylinder 610, described porous traction alignment plate 68 is rotationally connected with described traction biteplate 67, and described traction gag lever post 62 is provided with multiple spacing metal derby 611.

Figure 31 be bonding machine of the present invention face structural representation; Figure 32 is the side-looking structural representation of bonding machine of the present invention, as shown in Figure 31, Figure 32, described bonding machine 7 comprises bonding machine support 71, in described bonding machine support 71, many bond pads cylinder 72 is installed, the upper end of described bonding machine support 71 is provided with bonding machine cylinder 73, upper welding arm 74, the lower end of described bonding machine support 71 is provided with lower welding arm 75, and described lower welding arm 75 is positioned at immediately below described upper welding arm 74, and described lower welding arm 75 is provided with calibration banking stop 76.

Figure 33 is the schematic diagram such as geodesic structure such as axle such as grade of traction arch bender of the present invention, Figure 34 is the side-looking structural representation of traction arch bender of the present invention, as Figure 33, shown in Figure 34, described traction arch bender 8 comprises the curved undertaking support 81 of arch, encircle curved towing bracket 82, described bender 9 is positioned at the curved undertaking support 81 of described arch, encircle between curved towing bracket 82, the curved undertaking support 81 of described arch, encircle on curved towing bracket 82 and the curved supporting plate 83 of arch is all installed, the curved supporting plate of described arch 83 and the curved undertaking support 81 of described arch, encircle curved towing bracket 82 to be rotationally connected, the curved supporting plate of described arch 83 is driven by the curved cylinder 84 of arch, the curved undertaking support 81 of described arch, encircle on curved towing bracket 82 and be equipped with multiple traction positive stop strip 85, described multiple traction positive stop strips 85 linearly array distribution, described traction positive stop strip 85 and the curved undertaking support 81 of described arch, encircle curved towing bracket 82 insert embedding after be welded to connect.

Figure 35 is the schematic diagram such as geodesic structure such as axle such as grade of bender of the present invention, Figure 36 is the side-looking structural representation of bender of the present invention, Figure 37 be bender of the present invention face structural representation, Figure 40 is the plan structure schematic diagram of bar folder of the present invention, as Figure 35-37, shown in 40, described bender 9 comprises bending cabinet 91, bending transverse shifting servomotor 92 is installed in described bending cabinet 91, described bending transverse shifting servomotor 92 is connected with backstay 94 by positioning transmission gear train 93, the both sides that described backstay 94 runs through described bending cabinet 91 are connected with bending adjustment gear 95, the top of described bending adjustment gear 95 is provided with bending adjustment tooth bar 96, bending adjustment slideway 97, described bending adjustment tooth bar 96 adjusts gear 95 with described bending and is connected with a joggle, described bending cabinet 91 adjusts slideway 97 by bending adjustment pulley 98 with described bending and is connected,

Bending oil cylinder 99, foldable component 910 are also installed in described bending cabinet 91, described bending oil cylinder 99 is connected with foldable component 910, described foldable component 910 runs through the top of described bending cabinet 91, the side of described foldable component 910 is provided with reinforcing bar fixation kit 911, described reinforcing bar fixation kit 911 is fixedly connected with described bending cabinet 91, described reinforcing bar fixation kit 911 is in " own " character form structure, the side of described reinforcing bar fixation kit 911 is provided with reinforcing bar card 912, described reinforcing bar card 912 is rotationally connected with described reinforcing bar fixation kit 911

The bottom of described bending oil cylinder 99 is provided with bending tooth sector 913, and described bending tooth sector 913 is connected with bending by bending reduction gear box 914 and turns to servomotor 915.

Figure 27 is the structural representation of unwrapping wire part of the present invention, as shown in figure 27, described vertical muscle wire dispenser 1a, horizontal bar wire dispenser 1b, vertical muscle lead frame 1a1, horizontal bar lead frame 1b1 are installed on wire-unfolding rack 11, the quantity of described vertical muscle wire dispenser 1a, horizontal bar wire dispenser 1b, vertical muscle lead frame 1a1, horizontal bar lead frame 1b1 is multiple, wherein said vertical muscle wire dispenser 1a is equal with the quantity of described vertical muscle lead frame 1a1, and described horizontal bar wire dispenser 1b is equal with the quantity of described horizontal bar lead frame 1b1.

Equipment workflow:

Embodiment 1 line sending

1a. indulges muscle line sending

1.1a indulge muscle from wire-unfolding rack 11 around;

1.2a indulges muscle and ensures that throughput direction is correct by vertical muscle wire dispenser 1a, and ensures that vertical muscle delivery head is correct;

1.3a indulges muscle and enters vertical muscle storage rack, and the direction of the vertical muscle of adjustment and height, ensure that it can be aligned smoothly;

1.4a indulges muscle, and by indulging, muscle rotating and straightening hauling machine 2a1 enters vertical muscle rotary straightener 2a2, the vertical vertical straightener 2a4 of muscle successively, vertical muscle is vertically aligned hauling machine 2a3 and aligned;

In the straightening process of vertical muscle rotary straightener 2a2, vertical muscle through rotating and straightening main shaft 21, and by vertical muscle rotary straightener 2a2 rotary course, realizes aligning by the bias adjustment assembly 24 of inside;

1.5a indulges muscle and exports after aligning;

1.1b horizontal bar from wire-unfolding rack 11 around;

By horizontal bar wire dispenser 1b, 1.2b horizontal bar ensures that throughput direction is correct, and ensure that horizontal bar delivery head is correct;

1.3b horizontal bar enters horizontal bar storage rack, and the direction of adjustment horizontal bar and height, ensure that it can be aligned smoothly;

1.4b horizontal bar enters horizontal bar rotary straightener 2b2 successively by horizontal bar rotating and straightening hauling machine 2b1, horizontal bar level aligning hauling machine 2b3, the vertical straightener 2b4 of horizontal bar align;

In the straightening process of horizontal bar rotary straightener 2b2, horizontal bar through rotating and straightening main shaft 21, and by horizontal bar rotary straightener 2b2 rotary course, realizes aligning by the bias adjustment assembly 24 of inside;

1.5b horizontal bar exports after aligning.

Embodiment 2 is sheared (described vertical muscle and horizontal bar all complete shearing step by cutter 2c, and it is identical that the two shears step)

2a indulges muscle and shears

2a.1 indulges muscle through described shearing conveying traction wheel 2c2, shearing conveying contact roller 2c3, now need to ensure that vertical muscle and described shearing are carried traction wheel 2c2, sheared and carry contact roller 2c3 Interference contact, so need by shearing conveying contact roller cylinder 2c4 adjustment described shearings conveying contact roller 2c3 highly;

2a.2, along with the described rotation of shearing conveying traction wheel 2c2, shearing conveying contact roller 2c3, makes vertical muscle continue to be moved into cutting knife 2c9 place;

Shear oil cylinder 2c8 described in 2a.3 to press down, muscle will be indulged and cut off;

2a.4 shears the vertical muscle of propelling movement cylinder 2c6 promotion and enters collecting frame;

2b horizontal bar is sheared

2b.1 horizontal bar is through described shearing conveying traction wheel 2c2, shearing conveying contact roller 2c3, now need to ensure that horizontal bar carry traction wheel 2c2 with described shearing, sheared and carry contact roller 2c3 Interference contact, carry contact roller 2c3 highly so contact roller cylinder 2c4 need be carried to adjust described shearing by shearing;

2b.2, along with the described rotation of shearing conveying traction wheel 2c2, shearing conveying contact roller 2c3, makes horizontal bar continue to be moved into cutting knife 2c9 place;

Shear delivery hydraulic pressure motor 2c8 described in 2b.3 to press down, horizontal bar is cut off;

2b.4 shears propelling movement cylinder 2c6 promotion horizontal bar and enters horizontal bar cut-out feed arrangement;

Embodiment 3 indulges muscle line concentration

3.1 vertical muscle are through fixing clamping bar 33, keying clamping bar 34;

3.2 clamping bar cylinders 38 start, by the transmission components such as clamping bar crowbar 36, clamping bar arm 37 make described fixing clamping bar 33, open and close clamping bar 34 open;

3.3 vertical muscle fall automatically, fall on vertical muscle MM 4;

Embodiment 4 indulges muscle coupling

4.1 vertical muscle are fallen on vertical muscle arrangement of reinforcement chain 42;

4.2 vertical muscle arrangement of reinforcement chain motors 44 rotate, and drive vertical muscle to move to described singe screw conveyer 43 by vertical muscle arrangement of reinforcement chain 42;

4.3 vertical muscle are fallen on singe screw conveyer 43, and described singe screw conveying motor 45 drives described screw rod 410 to rotate, and the most vertical muscle is transported to screw case 411 foremost, and drop to down and join on supporting plate 412;

Described in 4.4, lower distribution cylinder 414 joins supporting plate 412 under promoting, and by leading gusset 413 rotation, vertical muscle is fallen.

Embodiment 5 indulges muscle cloth muscle

5.1 vertical muscle drop on vertical muscle cloth muscle chain 52;

5.2 vertical muscle drop between two vertical muscle block tongues 58;

5.3 vertical muscle cloth muscle motors 55 drive vertical muscle cloth muscle chain 52 to rotate;

5.4 vertical muscle move to the below of described vertical muscle cloth muscle chain 52, but still are fixed between vertical muscle block tongue 58;

There is speed discrepancy in 5.4 two vertical muscle cloth muscle motors 55, makes two adjacent vertical muscle cloth muscle chains 52 occur speed discrepancy;

Separately, the vertical muscle be positioned on the downside of described vertical muscle cloth muscle chain 52 drops to the traction of vertical muscle on its machine 6 to 5.5 two vertical muscle block tongues 58;

Embodiment 6 indulges muscle traction alignment

6.1 vertical muscle are fallen on traction gag lever post 62

6.2 vertical muscle are between two adjacent spacing metal derbies 611;

6.3 traction track motors 65 drive traction push pedal to move to away from vertical muscle direction;

6.4 traction occlusion cylinders 610 drive traction biteplate 67 to fall;

6.5 traction track motors 65 drive traction push pedal to move near vertical muscle direction, and porous traction alignment plate 68 is contacted with vertical muscle, make it align;

6.5.a, when the net welding steel muscle needing welding middle part with mesopore, turnover traction biteplate 67 is installed, completes the welding of the net welding steel muscle with mesopore.

6.6 traction track motors 65 drive traction push pedal to move to away from vertical muscle direction;

6.7 traction occlusion cylinders 610 drive traction biteplate 67 to lift;

6.8 traction track motors 65 drive traction push pedal to move near vertical muscle direction, and make vertical muscle draw between alignment plate 68 at traction biteplate 67 and porous;

6.9 traction occlusion cylinders 610 drive traction biteplate 67 to fall, and clamp vertical muscle;

6.10 traction track motors 65 drive traction push pedal to move near vertical muscle direction, will indulge muscle and send into bonding machine 7;

The feeding of embodiment 7 horizontal bar

7.1 horizontal bars drop on after cutting off lays across on material transmitting portions 2d1;

7.2 horizontal bars lay across material transmitting portions 2d1 on move at described blanking rack group 2d3 place; ;

7.3 blanking transfer conveyor belt 2d5 drive loading frame 2d6 to rotate, and hold up horizontal bar;

7.4 horizontal bars are lifted on splicing blowing vibrating shaft 2d7 from loading frame 2d6;

7.5 horizontal bars are re-applied on loading frame 2d6 from splicing blowing vibrating shaft 2d7;

7.6 horizontal bars are placed on stock support 2d9 from loading frame 2d6;

7.7 blanking bracket gas cylinder 2d10 promote stock support 2d9 moves, and make described stock support 2d9 higher than described discharging support 2d8;

7.8 discharging bracket gas cylinder 2d11 promote discharging support 2d8 and move, and make immediately below described discharging support-moving to horizontal bar;

7.9 blanking bracket gas cylinder 2d10 promote stock support 2d9 and move down, and horizontal bar and stock support 2d9 depart from and stay on described discharging support 2d8;

Embodiment 8 is welded

8.1 vertical muscle are indulged muscle traction alignment machine 6 and are delivered between upper welding arm 74 and lower welding arm 75;

8.2 horizontal bars are positioned at the below of described vertical muscle;

8.3 bonding machine cylinders 73 promote upper welding arm 74 and complete welding;

Embodiment 9 bending

9a indulges muscle bending

9a.1 bending transverse shifting servomotor 92 is by driving rotation or the movement of bending adjustment gear 95, bending adjustment tooth bar 96, bending adjustment slideway 97, bending adjustment pulley 98, adjust the position of described reinforcing bar fixation kit 911, thus ensure that vertical muscle can be fixed smoothly;

9a.2 treats that the upside of muscle through reinforcing bar fixation kit 911 " " character form structure is indulged in bending;

9a.3 reinforcing bar card 912 will treat that bend reinforcement is fixed, and this process is moved down by bending oil cylinder 99, and reinforcing bar fixation kit 911 has been moved down, and when reinforcing bar fixation kit 911 moves down, reinforcing bar card 912 relatively rotates with it, and it is stuck to indulge muscle;

9a.4 foldable component 910 pairs of reinforcing bars carry out bending, and this embodiment is completed by bending oil cylinder 99, and bending oil cylinder 99 drives reinforcing bar fixation kit 911 to move down or promote foldable component 910 and moves up, and relative position change occurs therebetween, will indulge muscle bending;

The bending of 9b horizontal bar

9b.1 bending transverse shifting servomotor 92, by driving rotation or the movement of bending adjustment gear 95, bending adjustment tooth bar 96, bending adjustment slideway 97, bending adjustment pulley 98, makes bar folder 9 move to the left and right sides of described horizontal bar;

9b.2 bending turns to servomotor 915 to start, and makes foldable component 910, reinforcing bar fixation kit 911, reinforcing bar card 912 synchronous rotary 90 degree by bending tooth sector 913;

9b.3 traction arch bender promotes horizontal bar and moves forward, and makes horizontal bar aim at the upside of described reinforcing bar fixation kit 911 " " structure voluntarily;

9b.4 reinforcing bar card 912 will treat that bend reinforcement is fixed, and this process is moved down by bending oil cylinder 99, and reinforcing bar fixation kit 911 has been moved down, and when reinforcing bar fixation kit 911 moves down, reinforcing bar card 912 relatively rotates with it, and horizontal bar is stuck;

9b.5 foldable component 910 pairs of reinforcing bars carry out bending, and this embodiment is completed by bending oil cylinder 99, and bending oil cylinder 99 drives reinforcing bar fixation kit 911 to move down or promote foldable component 910 and moves up, and relative position change occur, by horizontal bar bending therebetween.

Embodiment 10 discharging

The steel bar welding net of 10.1 net postweldings is transported on lift master 101;

10.2 lift masters 101 are transported to by discharge guide 102 correspondingly to be deposited a little;

10.3 lifting frames 103 lift, and are lifted by steel bar welding net;

Weldering net is transported to appointment and is deposited a little by 10.4 tractors 104.

Technique scheme only embodies the optimal technical scheme of technical solution of the present invention, and those skilled in the art all embody principle of the present invention to some variations that wherein some part may be made, and belong within protection scope of the present invention.

Claims

1. a bar-mat reinforcement weldering production line, comprise line sending part (1), aligning part (2), collecting frame (3), vertical muscle arrangement of reinforcement machine (4), vertical muscle cloth muscle machine (5), vertical muscle traction alignment machine (6), bonding machine (7), traction arch bender (8), bender (9), discharging machine (10), it is characterized in that, described line sending part (1), aligning part (2), collecting frame (3), vertical muscle arrangement of reinforcement machine (4), vertical muscle cloth muscle machine (5), vertical muscle traction alignment machine (6), bonding machine (7), traction arch bender (8), bender (9), discharging machine (10) connects successively,

Described vertical muscle arrangement of reinforcement machine (4) is positioned at immediately below described collecting frame (3), described vertical muscle cloth muscle machine (5) is positioned at directly over described vertical muscle traction alignment machine (6), described vertical muscle cloth muscle machine (5) is positioned at the side of described vertical muscle arrangement of reinforcement machine (4)

Described line sending part (1) comprises vertical muscle wire dispenser (1a), horizontal bar wire dispenser (1b), described vertical muscle wire dispenser (1a), horizontal bar wire dispenser (1b) are multiple, described multiple vertical muscle wire dispenser (1a) is all connected with vertical muscle storage rack (1a2) by vertical muscle lead frame (1a1), and described multiple horizontal bar wire dispenser (1b) is connected with horizontal bar storage rack (1b2) by horizontal bar lead frame (1b1).

Described aligning part (2) comprises vertical muscle aligning part (2a), horizontal bar aligning part (2b), cutter (2c), described vertical muscle aligning part (2a) comprises vertical muscle rotating and straightening hauling machine (2a1), vertical muscle rotary straightener (2a2), vertical muscle vertically align hauling machine (2a3), the vertical vertical straightener of muscle (2a4), described vertical muscle rotating and straightening hauling machine (2a1), vertical muscle rotary straightener (2a2), the vertical vertical straightener of muscle (2a4), vertical muscle are vertically aligned hauling machine (2a3) and are connected successively

The quantity of described vertical muscle aligning part (2a) is multiple, described multiple vertical muscle aligning part (2a) linearly array distribution in the horizontal direction, the vertical muscle rotating and straightening hauling machine (2a1) that described vertical muscle storage rack (1a2) and multiple vertical muscle are aligned in part (2a) is connected, described vertical muscle is vertically aligned hauling machine (2a3) and is connected with described collecting frame (3) by cutter (2c)

Described horizontal bar aligning part (2b) comprises horizontal bar rotating and straightening hauling machine (2b1), horizontal bar rotary straightener (2b2), horizontal bar level aligning hauling machine (2b3), the vertical straightener of horizontal bar (2b4), the horizontal straightener of horizontal bar (2b5), described horizontal bar rotary straightener (2b2), the quantity of the vertical straightener of horizontal bar (2b4) is multiple, described horizontal bar rotary straightener (2b2), the quantity of the vertical straightener of horizontal bar (2b4) is equal, described horizontal bar rotary straightener (2b2), horizontal bar rotating and straightening hauling machine (2b1), the horizontal straightener of horizontal bar (2b5), horizontal bar level aligning hauling machine (2b3), the vertical straightener of horizontal bar (2b4) connects successively, the vertical straightener of described horizontal bar (2b4) is connected with described bonding machine (7) by described cutter (2c),

Described vertical muscle storage rack (1a2), vertical muscle rotating and straightening hauling machine (2a1), vertical muscle rotary straightener (2a2), vertical muscle vertically aligns hauling machine (2a3), the vertical vertical straightener of muscle (2a4), collecting frame (3) is located along the same line, described horizontal bar rotating and straightening hauling machine (2b1), horizontal bar rotary straightener (2b2), horizontal bar level aligning hauling machine (2b3), the vertical straightener of horizontal bar (2b4), the horizontal straightener of horizontal bar (2b5), bonding machine (7) is located along the same line, described vertical muscle cloth muscle machine (5), vertical muscle traction alignment machine (6), bonding machine (7), traction arch bender (8), bender (9) is located along the same line.

2. according to the bar-mat reinforcement weldering production line described in claim 1, it is characterized in that, described vertical muscle wire dispenser (1a), horizontal bar wire dispenser (1b), vertical muscle lead frame (1a1), horizontal bar lead frame (1b1) is installed on wire-unfolding rack (11), described vertical muscle wire dispenser (1a), horizontal bar wire dispenser (1b), vertical muscle lead frame (1a1), the quantity of horizontal bar lead frame (1b1) is multiple, wherein said vertical muscle wire dispenser (1a) is equal with the quantity of described vertical muscle lead frame (1a1), described horizontal bar wire dispenser (1b) is equal with the quantity of described horizontal bar lead frame (1b1),

Described discharging machine (10) comprises lift master (101), the both sides of described lift master (101) are provided with discharge guide (102), described lift master (101) is provided with lifting frame (103), the quantity of described lifting frame (103) is multiple, and described multiple lifting frame (103) linearly array distribution on described lift master (101), described discharge guide (102) is provided with tractor (104), and described tractor is positioned at the top of described lifting frame (103).

3. according to the bar-mat reinforcement weldering production line described in claim 1, it is characterized in that, described vertical muscle rotary straightener (2a2), horizontal bar rotary straightener (2b2) comprises rotating and straightening main shaft (21), the two ends of described rotating and straightening main shaft (21) are fixed by rotating and straightening bearing (22), one end of described rotating and straightening main shaft (21) is provided with rotating and straightening drive pulley (23), the upper cover of described rotating and straightening main shaft (21) has multiple bias adjustment assembly (24), described bias adjustment assembly (24) is positioned between the rotating and straightening bearing (22) at described rotating and straightening main shaft (21) two ends, described multiple bias adjustment assembly (24) is along described rotating and straightening main shaft (21) direction linearly array distribution, described bias adjustment assembly (24) is provided with eccentric throw adjustment bolt (25), described eccentric throw adjustment bolt (25) embeds in described rotating and straightening main shaft (21), eccentric pivot hole (26) is provided with in described rotating and straightening main shaft (21), described eccentric throw adjustment bolt (25) contacts with described eccentric pivot hole (26),

Described cutter (2c) comprises cutter support (2c1), comprise the subframe of two " L " shape structures, two " L " shape subframes are the overall structure of a welding fabrication, and the subframe of described " L " shape is left and right distribution, the described subframe being positioned at right side is provided with and shears conveying traction wheel (2c2), shear conveying contact roller (2c3), shear conveying contact roller cylinder (2c4), described shearing conveying traction wheel (2c2), shear conveying contact roller (2c3), shear conveying contact roller cylinder (2c4) to be fixed on successively from top to bottom on the subframe on described right side, described shearing conveying contact roller cylinder (2c4), shear conveying traction wheel (2c2) to be fixedly connected with the subframe on described right side, described shearing conveying contact roller (2c3) is slidably connected with described right side subframe, described side of shearing conveying traction wheel (2c2) is provided with shears delivery hydraulic pressure motor (2c5),

The subframe in described left side is provided with shear and pushes cylinder (2c6), described shearing propelling movement cylinder (2c6) is run through cutter support (2c1) and is connected with propelling movement support (2c7), described propelling movement support (2c7) is in inverted "L" shaped structure, described propelling movement support (2c7) is provided with and shears oil cylinder (2c8), cutting knife (2c9)

Described shearing conveying traction wheel (2c2) drives by shearing delivery hydraulic pressure motor (2c5),

The side of described cutter (2c) is connected with horizontal bar and cuts off feed arrangement (2d), described horizontal bar cuts off the middle part that feed arrangement (2d) is positioned at described bonding machine (7), described horizontal bar cuts off feed arrangement (2d) and comprises material transmitting portions (2d1) of laying across, described material transmitting portions (2d1) of laying across is driving-belt, described below of laying across material transmitting portions (2d1) is provided with electrode batch turning transmitting portions (2d2), the quantity of described electrode batch turning transmitting portions (2d2) is multiple, described multiple electrode batch turning transmitting portions (2d2) linearly array distribution, described end of laying across material transmitting portions (2d1) is provided with blanking rack group (2d3), the side of described blanking rack group (2d3) is provided with oscillating oil cylinder (2d4), described blanking rack group (2d3) is provided with blanking transfer conveyor belt (2d5), described blanking is transmitted driving-belt (2d5) and is provided with loading frame (2d6), described blanking transfer conveyor belt (2d5) side is provided with splicing blowing vibrating shaft (2d7), described blanking transfer conveyor belt (2d5) lower end is provided with discharging support (2d8), stock support (2d9),

Described discharging support (2d8) can be driven by discharging bracket gas cylinder (2d11) and move up and down, and described stock support (2d9) is driven can be moved horizontally by blanking bracket gas cylinder (2d10).

4. according to the bar-mat reinforcement weldering production line described in claim 1, it is characterized in that, described collecting frame (3) is " C " shape structure, the two ends up and down of " C " shape structure of described collecting frame are all fixed by reinforcing tripod (31), for being welded to connect between described reinforcing tripod (31) and collecting frame (3)

The quantity of described collecting frame (3) is multiple, be welded to connect by arrangement of reinforcement connecting rod of support (32) between described multiple collecting frame (3), described collecting frame (3) is along described arrangement of reinforcement connecting rod of support (32) linearly array distribution

Described collecting frame (3) is provided with multiple clamping bar link, described clamping bar link comprises fixing clamping bar (33), open and close clamping bar (34), described fixing clamping bar (33), open and close clamping bar (34) and be " L " shape structure, described fixing clamping bar (33), open and close the closed formation of clamping bar (34) " mouth " word structure, described fixing clamping bar (33) is welded to connect with described collecting frame (3) by fixing clamping bar weld holder (35), described keying clamping bar (34) is by clamping bar crowbar (36), be rotationally connected with described fixing clamping bar weld holder (35), described clamping bar crowbar (36) is " C " shape structure, described clamping bar crowbar (36) is connected with clamping bar cylinder (38) by clamping bar arm (37), described clamping bar cylinder (38) is fixed on described collecting frame (3).

5. according to the bar-mat reinforcement weldering production line described in claim 1, it is characterized in that, vertical muscle arrangement of reinforcement machine (4) comprises vertical muscle arrangement of reinforcement machine support (41), described vertical muscle arrangement of reinforcement machine support (41) is provided with vertical muscle arrangement of reinforcement chain (42), singe screw conveyer (43), described vertical muscle arrangement of reinforcement chain (42) is driven by vertical muscle arrangement of reinforcement chain motor (44), described singe screw conveyer (43) carries motor (45) to drive by singe screw, described vertical muscle arrangement of reinforcement chain motor (44), singe screw conveying motor (45) is all fixed on described vertical muscle arrangement of reinforcement machine support (41),

The motor shaft of described vertical muscle arrangement of reinforcement chain motor (44) is towards vertical with described vertical muscle arrangement of reinforcement chain (42), and the motor shaft direction of described singe screw conveying motor (45) is parallel with described chain,

The quantity of described vertical muscle arrangement of reinforcement chain (42), singe screw conveyer (43) is multiple, described multiple vertical muscle arrangement of reinforcement chain (42), singe screw conveyer (43) are along described vertical muscle arrangement of reinforcement chain motor (44) motor shaft direction linearly array distribution, the quantity of described vertical muscle arrangement of reinforcement chain motor (44), singe screw conveying motor (45) is at least one

Connected by vertical muscle arrangement of reinforcement connecting axle (46) between described multiple vertical muscle arrangement of reinforcement chain (42), described vertical muscle arrangement of reinforcement chain (42) is connected with key between vertical muscle arrangement of reinforcement connecting axle (46), described vertical muscle arrangement of reinforcement connecting axle (46) is connected with described vertical muscle arrangement of reinforcement chain motor (44) by vertical muscle arrangement of reinforcement drive sprocket (47)

Described singe screw conveying motor (45) carries reductor (48) and described singe screw to carry motor (45) to be connected by singe screw, described singe screw conveying reductor (48) comprises singe screw drive sprocket (49)

Described singe screw conveyer (43) comprises screw rod (410), screw case (411), the two ends of described screw rod (410) are all connected with described screw case (411) by bearing, the two ends of described screw case (411) are provided with down joins supporting plate (412), supporting plate (412) is joined for " V " shape structure under described, join supporting plate (412) under described to be connected with described screw case (411) by leading muscle bar (413), supporting plate (412) is joined under described, lead muscle bar (413) to be all rotationally connected with described screw case (411), lower distribution cylinder (414) is installed under described screw case (411), described lower distribution cylinder (414) is connected with described muscle bar (413) of leading.

6. according to the bar-mat reinforcement weldering production line described in claim 1, it is characterized in that, described vertical muscle cloth muscle machine (5) comprises vertical muscle cloth muscle support (51), described vertical muscle cloth muscle support (51) is provided with vertical muscle cloth muscle chain (52), cloth muscle chain drive connecting axle (53), cloth muscle chain cloth muscle connecting axle (54), the quantity of described vertical muscle cloth muscle chain (52) is multiple, described multiple vertical muscle cloth muscle chain (52) is along the axial linearly array distribution of described cloth muscle chain drive connecting axle (53), described cloth muscle chain drive connecting axle (53) is positioned at the below of described cloth muscle chain cloth muscle connecting axle (54),

Described cloth muscle chain drive connecting axle (53), cloth muscle chain cloth muscle connecting axle (54) are all connected with vertical muscle cloth muscle motor (55), described vertical muscle cloth muscle motor (55) is connected with described cloth muscle chain drive connecting axle (53), cloth muscle chain cloth muscle connecting axle (54) by vertical muscle cloth muscle travelling gear (56), vertical muscle cloth muscle reductor (57)

Every two of described vertical muscle cloth muscle chain (52) is one group, distribute in left and right, wherein, vertical muscle cloth muscle chain (52) being positioned at left side is connected with described cloth muscle chain drive connecting axle (53) bearing, vertical muscle cloth muscle chain (52) in left side is connected with described cloth muscle chain cloth muscle connecting axle (54) key, vertical muscle cloth muscle chain (52) on right side is connected with described cloth muscle chain drive connecting axle (53) key, vertical muscle cloth muscle chain (52) on right side is connected with described cloth muscle chain cloth muscle connecting axle (54) bearing

Often organize and described vertical muscle cloth muscle chain (52) is equipped with at least one group indulges muscle block tongue (58), described vertical muscle block tongue (58) comprises two tongue pieces, two tongue pieces are " C " shape structure, form the vertical muscle block tongue (58) of " O " shape structure when described two tongue pieces close, described two block tongues lay respectively on two, the left and right vertical muscle cloth muscle chain (52) of vertical muscle cloth muscle chain (52) of often group.

7. according to the bar-mat reinforcement weldering production line described in claim 1, it is characterized in that, described vertical muscle traction alignment machine (6) comprises hauling machine support (61), described hauling machine support (61) is provided with many groups traction gag lever post (62), the both sides of described hauling machine support (61) are provided with traction track (63), between the traction track (63) of the described left and right sides, upper end is provided with traction push pedal (64), the lower end of described traction track (63) is provided with traction track motor (65), be connected by transmission component (66) between described traction track (63) with traction track motor (65), described traction push pedal (64) top is provided with traction biteplate (67), porous traction alignment plate (68),

Described transmission component (66) is Timing Belt, described Timing Belt, described traction track (63) is rack-track, the lower end of described traction push pedal (64) is provided with traction alignment cylinder (69), described traction biteplate (67) is provided with traction occlusion cylinder (610), described porous traction alignment plate (68) is rotationally connected with described traction biteplate (67), and described traction gag lever post (62) is provided with multiple spacing metal derby (611).

8. according to the bar-mat reinforcement weldering production line described in claim 1, it is characterized in that, described bonding machine (7) comprises bonding machine support (71), in described bonding machine support (71), many bond pads cylinder (72) is installed, the upper end of described bonding machine support (71) is provided with bonding machine cylinder (73), upper welding arm (74), the lower end of described bonding machine support (71) is provided with lower welding arm (75), described lower welding arm (75) is positioned at immediately below described upper welding arm (74), and described lower welding arm (75) is provided with calibration banking stop (76).

9. according to the bar-mat reinforcement weldering production line described in claim 1, it is characterized in that, described traction arch bender (8) comprises the curved undertaking support (81) of arch, encircle curved towing bracket (82), described bender (9) is positioned at the curved undertaking support (81) of described arch, encircle between curved towing bracket (82), the curved undertaking support (81) of described arch, encircle on curved towing bracket (82) and the curved supporting plate of arch (83) is all installed, the curved supporting plate of described arch (83) and the curved undertaking support (81) of described arch, encircle curved towing bracket (82) to be rotationally connected, the curved supporting plate of described arch (83) is driven by the curved cylinder of arch (84), the curved undertaking support (81) of described arch, encircle on curved towing bracket (82) and be equipped with multiple traction positive stop strip (85), described multiple traction positive stop strips (85) linearly array distribution, described traction positive stop strip (85) and the curved undertaking support (81) of described arch, encircle curved towing bracket (82) insert embedding after be welded to connect.

10. according to the bar-mat reinforcement weldering production line described in claim 1, it is characterized in that, described bender (9) comprises bending cabinet (91), in described bending cabinet (91), bending transverse shifting servomotor (92) is installed, described bending transverse shifting servomotor (92) is connected with backstay (94) by positioning transmission gear train (93), the both sides that described backstay (94) runs through described bending cabinet (91) are connected with bending adjustment gear (95), the top of described bending adjustment gear (95) is provided with bending adjustment tooth bar (96), bending adjustment slideway (97), described bending adjustment tooth bar (96) adjusts gear (95) with described bending and is connected with a joggle, described bending cabinet (91) adjusts pulley (98) by bending and adjusts slideway (97) with described bending and be connected,

In described bending cabinet (91), bending oil cylinder (99) is also installed, foldable component (910), described bending oil cylinder (99) is connected with foldable component (910), described foldable component (910) runs through the top of described bending cabinet (91), the side of described foldable component (910) is provided with reinforcing bar fixation kit (911), described reinforcing bar fixation kit (911) is fixedly connected with described bending cabinet (91), described reinforcing bar fixation kit (911) is in " own " character form structure, the side of described reinforcing bar fixation kit (911) is provided with reinforcing bar card (912), described reinforcing bar card (912) and described reinforcing bar fixation kit (911) are rotationally connected,

The bottom of described bending oil cylinder (99) is provided with bending tooth sector (913), and described bending tooth sector (913) is connected with bending by bending reduction gear box (914) and turns to servomotor (915).