CN203508882U - Full automatic steel bar arranging forming machine - Google Patents

Abstract

The utility model discloses a full automatic steel bar arranging forming machine which comprises a strip tidying mechanism, a feeding mechanism, a bending mechanism, a discharging mechanism and a control mechanism. The control mechanism enables the feeding mechanism, the bending mechanism and the discharging mechanism to sequentially automatically work by controlling an oil line. The whole process from feeding to bending and dismantling of steel bars is automatically performed through the full automatic steel bar arranging forming machine, production efficiency is greatly improved, labor force of workers is saved, and the full automatic steel bar arranging forming machine has a wide development space. In addition, the control mechanism is in an oil line control mode, the whole control process is finished by adopting a mechanical module, the cost of the full automatic steel bar arranging forming machine is greatly reduced in comparison with the numerical control device cost, the control mode is more stable than a control mode of adopting a relay and a solenoid valve, a control principle is simple, operation is popular and easy to understand, and workers do not need to pass professional training before using the machine; the mechanical module is simultaneously stable in performance and convenient to maintain, and the service life of a device is effectively prolonged.

Description

Full-automatic reinforcing bar row row forming machine

Technical field

The utility model relates to process equipment, particularly a kind of full-automatic reinforcing bar row row forming machine.

Background technology

In architectural engineering, usually use various reinforcing bars, stirrup is also a kind of of reinforcing bar, be mainly used in the position of fixing main reinforcement and make the various reinforcing bars of building element inside form frameworks of steel reinforcement, stirrup for building has various shape, apply very extensive, wherein the most commonly by vertical bar reinforcing bar, be bent into the stirrup skeleton frame of rectangle, this stirrup skeleton frame has five bent angles, as a rule need two bent angles of first bending, reverse end for end again two bent angles of the bending other end, last manual at last bent angle of the middle part of reinforcing bar bending, carrying out altogether five Bending Processing makes reinforcing bar be bent into rectangular shaped rim to obtain stirrup skeleton frame, its labour intensity is large, inefficiency.

Applicant has solved the problems referred to above in first to file " 201310098561.5-is for the automatic moulding machine of bar one-time moulding ".A kind of forming machine with 5 bending mechanisms is disclosed in this utility model patent, 5 bending mechanisms are driven by hydraulic jack, be respectively used to bend 5 bent angles of stirrup skeleton frame, realized reinforcing bar on same machine to five angle bending formings, flow process simplifies the operation, reduce workman's workload, improved the efficiency of reinforcing bar bending simultaneously.But above-mentioned automatic moulding machine is in charging, discharging and automatically still have the space of significant improvement aspect control.

Utility model content

In order to solve the problems of the technologies described above, the purpose of this utility model is to provide and a kind ofly from charging, arranges bending reinforcing steel bar and to discharging overall process, automatically control the full-automatic reinforcing bar row row forming machine carrying out again.

The technical scheme that the utility model adopts is:

Full-automatic reinforcing bar row row forming machine, comprises billot dressing mechanism, feed mechanism, bending mechanism, shedding mechanism and controlling organization, wherein:

Described feed mechanism comprises hydraulic pressure feeding oil cylinder, cradle and is arranged on the hopper on cradle, and feeding actuator cylinder drives cradle action to make hopper that the reinforcing bar holding is delivered to bending mechanism;

Described bending mechanism comprise hydraulic pressure bending oil cylinder and by hydraulic pressure bending hydraulic oil cylinder driving for bending reinforcing steel bar bending assembly;

Described bending mechanism is provided with more than one;

Described controlling organization is by making feed mechanism, bending mechanism, shedding mechanism automatic operation in order to the control of oil circuit, controlling organization comprises multipath hydraulic control valve, linkage and a plurality of opener;

Described multipath hydraulic control valve is arranged in the working oil path of each hydraulic jack that comprises hydraulic pressure feeding oil cylinder and hydraulic pressure bending oil cylinder, multipath hydraulic control valve switches for controlling the working oil path of each hydraulic jack, makes each hydraulic jack move in order and regain;

On described multipath hydraulic control valve, be provided with for changing the reversing valve core of the hydraulic jack oil circuit flow direction and switch the conversion spool that oil circuit connects between a plurality of hydraulic jacks;

Described linkage is arranged between multipath hydraulic control valve and each hydraulic jack, linkage is driven by the piston rod action of hydraulic jack, the piston rod of hydraulic jack stretches out rear drive linkage and promotes reversing valve core, change oil circuit and flow to the piston rod recovery that makes hydraulic jack, after the piston rod of higher level's hydraulic jack reclaims, drive linkage to promote conversion spool, make the piston rod action of subordinate's hydraulic jack;

Described opener is arranged on linkage and/or feed mechanism, shedding mechanism, and connecting multipath hydraulic control valve to the oil circuit of each hydraulic jack, described opener is for being accurately delivered to subordinate's oil cylinder by higher level's cylinder movement state or controlling that other device is opened or provide instruction and execution for other device action.

Further improvement as technique scheme, described billot dressing mechanism comprises clean up panel, between described clean up panel and hopper, arrange and need flitch, describedly treat that flitch front end is provided with inner recess, described hopper is arranged on inner recess below and can passes through from inner recess, treats that flitch is upwards bent to form striker plate foremost.

As the further improvement of technique scheme, described cradle comprises that feeding push rod, swinging axle, horizontal guide rail and hopper slide bar, wherein,

Described feeding push rod is connected with hydraulic pressure feeding oil cylinder piston rod;

Described swinging axle middle part is rotatable fixing, and one end of swinging axle connects feeding push rod, and the other end is arranged on horizontal guide rail and slides bar with hopper and is connected; When feeding push rod moves, by swinging axle transmission and horizontal guide rail, limit, make hopper slide bar and move to the direction contrary with feeding push rod;

Described hopper is arranged on hopper and slides on bar, hopper slides the adjustable opener of lifting that is provided with the lifting of control hopper on bar, hopper is positioned at and treats flitch below at ordinary times, and during opener action that lifting is adjustable, hopper rises and when passing through until flitch, takes away the reinforcing bar for the treatment of on flitch.

Further improvement as technique scheme, the central pin shaft that described bending assembly comprises rotating disk, is fixed on the rotary pin shaft on rotating disk and is arranged on center of turntable position, between rotary pin shaft and central pin shaft, be provided with the room of placing reinforcing bar, described hydraulic pressure bending oil cylinder drives rotating disk to rotate around central pin shaft by driving gear set.

As the further improvement of technique scheme, described bending mechanism is provided with five, and described each bending mechanism is provided with a hydraulic pressure bending oil cylinder.

As the further improvement of technique scheme, described multipath hydraulic control valve is provided with two, and each multipath hydraulic control valve connects controls two or three hydraulic pressure bending oil cylinders.

As the further improvement of technique scheme, described linkage includes:

Be arranged on the stroke support on each hydraulic cylinder piston rod, stroke support below is provided with adjustable stroke collision block, and stroke support top is provided with the first opener;

Be arranged between multipath hydraulic control valve and stroke support can axial rotation rocking bar, rocking bar is corresponding one by one with multipath hydraulic control valve, on rocking bar, be provided with movable collision block, movable collision block is between stroke collision block and the first opener, when the piston rod of hydraulic jack stretches out, stroke collision block is from below and the collision of movable collision block, and when piston rod is regained, the spool that the first opener stretches out is from top and the collision of movable collision block;

On described rocking bar, be provided with the commutation plate of rotating with rocking bar, commutation plate connects reversing valve core;

On rocking bar, be provided with the opener fixed head rotating with rocking bar, be fixed with the second opener on opener fixed head, the spool of the second opener is over against conversion spool;

The first above-mentioned opener and the second opener are arranged on multipath hydraulic control valve to the oil circuit of corresponding hydraulic jack.

As the further improvement of technique scheme, described opener comprises series connection opener and opener in parallel.

Further improvement as technique scheme, described opener in parallel comprises the cylinder barrel of hollow cylindrical, described cylinder barrel top end opening, in cylinder barrel, be movably set with the oil column stretching out from opening, oil column bottom is provided with boss, the cross-sectional area of boss is less than the cross-sectional area of oil column, and boss periphery forms oil pressure pushing surface; In cylinder barrel, be provided with the stage clip of oil column being pushed to cylinder barrel bottom, cylinder barrel sidewall/cylinder barrel bottom is provided with oil supplying hole.

Further improvement as technique scheme, described series connection opener comprises the cylinder barrel of hollow cylindrical, described cylinder barrel top end opening, in cylinder barrel, be movably set with the oil column stretching out from opening, on oil column, be provided with the separation block with cylinder barrel madial wall close contact, separate block cylinder barrel inside is divided into upper oil cavitie and lower oil cavitie, in upper oil cavitie, be provided with the stage clip of oil column being pushed to cylinder barrel bottom, on cylinder barrel wall, be provided with oil supplying hole, connecting hole and spill port, wherein oil supplying hole is positioned at lower oil cavitie for supply/unloading power oil, spill port is positioned at upper oil cavitie and directly connects fuel tank, connecting hole is positioned at upper oil cavitie usually, when oil column reaches maximum, separating block reach makes connecting hole be positioned at lower oil cavitie.

The beneficial effects of the utility model are:

Full-automatic reinforcing bar row row forming machine of the present utility model has been realized reinforcing bar and to the full process automatization of discharging, has been carried out from being fed to bending again, enhances productivity greatly, saves workman labour, has wide development space.

In addition, the mode that the controlling organization of full-automatic reinforcing bar row row forming machine of the present utility model adopts oil circuit to control, adopt mechanical component to complete whole control procedure, numerical control equipment cost significantly reduces relatively, also more stable than adopting the control mode of relay and magnetic valve, control principle is simple, operates easy-to-understandly, before workman uses, does not need through professional training; Mechanical component stable performance, easy to maintenance simultaneously, the effectively service life of extension device.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 is the structural representation of the utility model the first embodiment;

Fig. 2 is the structural representation of billot dressing mechanism;

Fig. 3 is the structural representation of feed mechanism;

Fig. 4 is the side view of feed mechanism;

Fig. 5 to Fig. 6 is the schematic diagram of feed mechanism feeding process;

Fig. 7 is the structural representation of bending mechanism;

Fig. 8 to Figure 11 is the process schematic diagram of five bending mechanism bending reinforcing steel bars;

Schematic diagram when Figure 12 to Figure 14 is shedding mechanism work;

Figure 15 is the perspective view of multipath hydraulic control valve;

Figure 16 is the structural representation of multipath hydraulic control valve and linkage;

Figure 17 is the structural representation of opener in parallel;

Figure 18 is the structural representation of series connection opener;

Figure 19 is the structural representation of the utility model the second embodiment;

Figure 20 to Figure 23 is each step schematic diagram of the second embodiment bending reinforcing steel bar.

The specific embodiment

Below in conjunction with accompanying drawing and preferred embodiment, full-automatic reinforcing bar row row forming machine of the present utility model is described in further detail.

Embodiment mono-:

With reference to Fig. 1, an embodiment of the full-automatic reinforcing bar row row forming machine that the utility model provides, includes billot dressing mechanism 1, feed mechanism 2, bending mechanism 3, shedding mechanism 4 and controlling organization 5.

As shown in Figure 2, described billot dressing mechanism 1 comprises clean up panel 10, and clean up panel 10 the place aheads are provided with the downward-sloping flitch 100 for the treatment of, clean up panel 10 is supported by many panel forks 11, and clean up panel 10 bottoms are provided with electromagnetic shaker 12.Panel fork 11 is installed on the axle sleeve 101 of clean up panel 10 bottoms by being horizontally installed on the rotating shaft 111 on panel fork 11 tops, panel fork 11 underside connect for fixing bearing block 112, and one of them panel fork 11 drives the circumference of doing by a small margin to shake by motor 13.Motor 13 drives eccentric shaft 15 to rotate by belt wheel transmission system 14, and a vibrations push rod 16 connects eccentric shaft 15 and panel fork 11; Belt wheel transmission system 14 is comprised of with the big belt pulley 142 that is connected eccentric shaft 15 small belt pulley 141 that connects machine shaft, between small belt pulley 141 and big belt pulley 142, passes through belt transmission.Motor 13 rotates, and drives panel fork 11 to do circumference vibrations by a small margin, is aided with the vibrations of electromagnetic shaker 12 simultaneously, and reinforcing bar automatic arranging in vibrations of placing on clean up panel 10 is arranged, and enters and treat flitch 100.Describedly treat that flitch 100 front ends are provided with two inner recess, treat that flitch 100 is upwards bent to form the striker plate that stops reinforcing bar foremost.

As shown in Figure 3, Figure 4, shown in feed mechanism 2 comprise hydraulic pressure feeding oil cylinder 20, shown in the piston rod of hydraulic pressure feeding oil cylinder 20 connect feeding push rod 21, the other end of feeding push rod 21 connects swinging axle 22.Swinging axle 22 middle parts are rotatable fixing, and its lower end connects feeding push rod 21, and upper end is arranged on slides bar 24 with hopper on horizontal guide rail 23 and be connected, and by the upper end of horizontal guide rail 23 restriction swinging axles 22, can only make translational sideways movement.Hopper 25 is arranged on hopper and slides on bar 24, hopper slides the adjustable opener 26 of lifting that is provided with 25 liftings of control hopper on bar 24, hopper 25 is positioned at the inner recess below for the treatment of flitch 100, the width of hopper 25 is less than the width of inner recess, hopper 25 can be risen or be declined by inner recess, and hopper 25 tops are provided with holding pad 28.On feeding push rod 21, be provided with horizontal stroke support 51, the front end of described stroke support 51 is provided with feeding opener 27, the rear end of stroke support 51 is provided with stroke collision block 511, one rocking bars 52 and passes between feeding opener 27 and stroke collision block 511, is provided with movable collision block 521 on rocking bar 52.With reference to Fig. 5 to Fig. 6, be illustrated as feed mechanism 2 and reinforcing bar delivered to the feeding process of bending mechanism 3, first, lifting is adjustable, and opener 26 actions are risen hopper 25, and hopper 25 is taken away the reinforcing bar for the treatment of on flitch 100 when passing through until flitch 100; The piston rod of hydraulic pressure feeding oil cylinder 20 stretches out, and feeding push rod 21 promotes swinging axle 22 lower end reaches, and swinging axle 22 is around the rotation of middle part bearing, and its upper end drives hopper to slide bar 24 translation on horizontal guide rail 23, and hopper 25 is delivered to bending mechanism 3 places reinforcing bar; After feeding completes, lifting is adjustable, and opener 26 drives hopper 25 to decline, and reinforcing bar has been stayed on bending mechanism 3, and the piston rod of being regained by hydraulic pressure feeding oil cylinder 20 again after hopper 25 declines drives gets back to original position.

With reference to Fig. 7, Fig. 8, on the full-automatic reinforcing bar of the present embodiment row row forming machine, be provided with five bending mechanisms 3 that are arranged in a linear.Described bending mechanism 3 comprise hydraulic pressure bending oil cylinder 30 and by hydraulic pressure bending oil cylinder 30 drive for bending reinforcing steel bar bending assembly 31.The central pin shaft 313 that described bending assembly 31 comprises rotating disk 311, is fixed on the rotary pin shaft 312 on rotating disk 311 and is arranged on rotating disk 311 centers, between rotary pin shaft 312 and central pin shaft 313, be provided with the room of placing reinforcing bar, further, central pin shaft 313 is set to telescopic structure, when turnover reinforcing bar, may compress into rotating disk below 311, when work, stretch out the bending reinforcing steel bar that matches with rotary pin shaft 312.Hydraulic pressure bending oil cylinder 30 drives rotating disk 311 to rotate by driving gear set, and rotary pin shaft 312 rotates around central pin shaft 313, makes reinforcing bar be placed on the reinforcing bar bending between rotary pin shaft 312 and central pin shaft 313.Five bending mechanisms 3 in the present embodiment are respectively used to bend five bent angles of stirrup skeleton frame, and the bending mechanism 3 of the present embodiment bending reinforcing steel bar that all makes progress, and have saved equipment occupation of land space in the horizontal direction.As shown in Figs. 8 to 11 is the process schematic diagram of five bending mechanism 3 bending reinforcing steel bars.As shown in Figure 8, first reinforcing bar is placed on bending mechanism 3, reinforcing bar is arranged between the rotary pin shaft 312 and central pin shaft 313 on each bending mechanism 3; As shown in Figure 9, two angles of bending reinforcing steel bar outermost end, bending angle is about 135 °; As shown in figure 10, a right angle on bending stirrup skeleton frame; As shown in figure 11, two right angles remaining on stirrup skeleton frame are bent simultaneously, two bending mechanisms 3 revolve and incline in the process of bending reinforcing steel bar by a small margin, stirrup skeleton frame can be closed up smoothly, the stirrup skeleton frame that obtains having bent.

With reference to Figure 12, the shedding mechanism 4 of the present embodiment comprises for guiding stirrup skeleton frame to slide into stock guide 40, the discharging guide rod 41 of stacking place.Stock guide 40 is slidably arranged on vertical discharging guide rail 42, and stock guide 40 stretches out forward for having accepted the stirrup skeleton frame of bending, the upper end of the corresponding discharging guide rod 41 of stock guide 40 front ends.On discharging guide rail 42, being provided with can the fixing spacing adjustable plate 43 of discharging of up-down adjustment, the spacing adjustable plate 43 of discharging is positioned at stock guide 40 tops, the top margin below of the stirrup skeleton frame in bending just after the height that the spacing adjustable plate of discharging 43 restriction stock guides 40 rise rises stock guide 40.Stock guide 40 belows arrange stock guide rising opener 44, and the piston rod of stock guide rising opener 44 connects the slide 45 rising for promoting stock guide 40.Figure 12 to Figure 14 is the schematic diagram that 4 pairs of stirrup skeleton frames of shedding mechanism carry out discharging, after stirrup skeleton frame has bent, 44 actions of stock guide rising opener, slide 45 is upwards promoted to stock guide 40 along discharging guide rail 42, stock guide 40 rises, and tilt when encountering the spacing adjustable plate 43 of discharging, the front end of stock guide 40 is connected with the upper end of discharging guide rod 41 downwards, stirrup skeleton frame is because the effect of self gravitation slides into discharging guide rod 41 from stock guide 40, and slides into accumulation place downwards along discharging guide rod 41.

Described controlling organization 5 comprises multipath hydraulic control valve 50, linkage and a plurality of opener.With reference to Figure 15, in the present embodiment, described multipath hydraulic control valve 50 is provided with two.

Multipath hydraulic control valve 50 switches for controlling the working oil path of each hydraulic jack, makes each hydraulic jack move in order and reclaim.Described multipath hydraulic control valve 50 comprises valve body 501, on valve body 501, be provided with oil-in with unloading port for being connected fuel tank, wherein between oil-in and fuel tank, be provided with oil pump.Multipath hydraulic control valve 50 connects at least two hydraulic jacks, and described hydraulic jack is hydraulic pressure feeding oil cylinder 20 and/or hydraulic pressure bending oil cylinder 30.By multipath hydraulic control valve 50, controlled and made the hydraulic jack of its connection be communicated with respectively formation working oil path with fuel tank, be only that a hydraulic jack is connected to fuel tank by multipath hydraulic control valve 50 at every turn, thereby obtain fuel feeding, carries out work.On described multipath hydraulic control valve 50, be provided with for changing the reversing valve core 502 of the hydraulic jack oil circuit flow direction and switch the conversion spool 503 that oil circuit connects between a plurality of hydraulic jacks, wherein changing spool 503 can be provided with a plurality of according to the hydraulic jack quantity of multipath hydraulic control valve 50 connections.Reversing valve core 502 and conversion spool 503 stretch out outside valve body 501, coordinate linkage to control adjustment to the state of multipath hydraulic control valve 50.In addition, in valve body 501, be also provided with unloader, and on multipath hydraulic control valve 50, be provided with the switch 504 of controlling unloader keying.

With reference to Figure 16, described linkage is arranged between multipath hydraulic control valve 50 and each hydraulic jack, and described linkage comprises stroke support 51, rocking bar 52.Described stroke support 51 is arranged on each hydraulic cylinder piston rod, and stroke support 51 one end are provided with adjustable stroke collision block 511, and stroke support 51 other ends are provided with the first opener 512.Described rocking bar 52 is arranged between multipath hydraulic control valve 50 and stroke support 51, and rocking bar 52 is corresponding one by one with multipath hydraulic control valve 50.Rocking bar 52 can axial rotation, is provided with movable collision block 521, commutation plate 522 and the opener fixed head 523 of following rocking bar 52 and rotating on rocking bar 52.Movable collision block 521 is between stroke collision block 511 and the first opener 512; Commutation plate 522 connects reversing valve core 502; On opener fixed head 523, be fixed with the spool of the second opener 524, the second openers 524 over against conversion spool 503.Above-mentioned the first opener 512 and the second opener 524 are separately positioned on multipath hydraulic control valve 50 to the oil circuit of corresponding hydraulic jack.

One cycling process of linkage is as follows: when the piston rod of hydraulic jack stretches out, drive stroke support 51 to move, stroke collision block 511 and movable collision block 521 collisions, rocking bar 52 is rotated, commutation plate 522 drives reversing valve core 502 actions, the oil circuit commutation of this hydraulic jack makes to flow through, piston rod starts to reclaim under oil pressure effect, and at this moment the spool of the first opener 512 and the second opener 524 stretches out; When the piston rod of hydraulic jack is regained, stroke support 51 oppositely moves, the spool that the first opener 512 stretches out and 521 collisions of movable collision block, rocking bar 52 is rotated backward, commutation plate 522 drives reversing valve core 502 to reset, meanwhile, the spool collision conversion spool 503 that the second opener 524 stretches out, makes multipath hydraulic control valve 50 switch the hydraulic jack that is connected to next stage.

Opener is the fuel tap for switch or booster action, is arranged on the oil circuit between multipath hydraulic control valve 50 and each hydraulic jack.The opener adopting in the design can be divided into three classes according to function, and the one, for other mechanism action provides the opener of instruction and execution, comprise the adjustable opener 26 of above-mentioned lifting, stock guide rising opener 44; Two are arranged on the opener that on linkage, higher level's hydraulic pressure bending oil cylinder 30 motion states in bending mechanism 3 is accurately delivered to subordinate's hydraulic pressure bending oil cylinder 30, comprise the first opener 512 and the second opener 524; The 3rd, control the opener that other mechanism starts or stops, comprise feeding opener 27 and discharging opener 46.

In addition, the opener adopting in the design can be divided into opener 561 in parallel and series connection opener 562 by structure, and above-mentioned various openers can need to adopt opener 561 in parallel and/or series connection opener 562 according to controlling.

Opener 561 in parallel is generally to use separately or a plurality of use that is connected in parallel, and while being characterized in parallel use, each opener 561 in parallel moves simultaneously.With reference to Figure 17, described opener in parallel 561 comprises the cylinder barrel 5611 of hollow cylindrical, described cylinder barrel 5611 top end openings, in cylinder barrel 5611, be movably set with the oil column 5612 stretching out from opening, oil column 5612 bottoms are provided with boss 5613, the cross-sectional area of boss 5613 is less than the cross-sectional area of oil column 5612, and boss 5613 peripheries form oil pressure pushing surface 5614; In cylinder barrel 5611, be provided with the stage clip 5616 of oil column 5612 being pushed to cylinder barrel 5611 bottoms, cylinder barrel 5611 sidewalls/cylinder barrel 5611 bottoms are provided with oil supplying hole 5617.

Normally a plurality of series connection of series connection opener 562 are used, and while being characterized in using, each opener of series connection moves in order, can play the effect of sequential control.With reference to Figure 18, described series connection opener 562 comprises the cylinder barrel 5611 of hollow cylindrical, described cylinder barrel 5611 top end openings, in cylinder barrel 5611, be movably set with the oil column 5612 stretching out from opening, on oil column 5612, be provided with the separation block 5623 with cylinder barrel 5611 madial wall close contacts, separate block 5623 cylinder barrel 5611 inside are divided into upper oil cavitie 5624 and lower oil cavitie 5625, in upper oil cavitie 5624, be provided with the stage clip 5616 of oil column 5612 being pushed to cylinder barrel 5611 bottoms, on cylinder barrel 5611 walls, be provided with oil supplying hole 5617, connecting hole 5628 and spill port 5629, wherein oil supplying hole 5617 is positioned at lower oil cavitie 5625 for supply/unloading power oil, spill port 5629 is positioned at upper oil cavitie 5624 and directly connects fuel tank, connecting hole 5628 is positioned at upper oil cavitie 5624 usually, when oil column 5612 reaches maximum, separating block 5623 reaches makes connecting hole 5628 be positioned at lower oil cavitie 5625.

The course of work of the full-automatic reinforcing bar row row forming machine of the present embodiment is as follows:

1) blowing, billot dressing mechanism 1 is made in order and the reinforcing bar of strip is put into and treated flitch 100;

2) starting switch 504, close the unloader of multipath hydraulic control valve 50, multipath hydraulic control valve 50 is normally worked, and first to hydraulic pressure feeding oil cylinder 20 and adjustable opener 26 fuel feeding of lifting, feed mechanism 2 action is treating that the reinforcing bar on flitch 100 delivers to bending mechanism 3;

3) the hydraulic pressure bending oil cylinder 30 of being controlled respectively in bending mechanism 3 by two multipath hydraulic control valves 50 moves successively, by five bent angles of flow process bending stirrup skeleton frame;

4) after stirrup skeleton frame has bent, by multipath hydraulic control valve 50 to discharging opener 46 fuel feeding, make shedding mechanism 4 actions, stock guide rising opener 44 promotes stock guide 40 and rises, when stock guide 40 is encountered the spacing adjustable plate 43 of discharging, tilt, the front end of stock guide 40 is connected with the upper end of discharging guide rod 41 downwards, stirrup skeleton frame is because the effect of self gravitation slides into discharging guide rod 41 from stock guide 40, and slide into accumulation place downwards along discharging guide rod 41, complete discharging.

Embodiment bis-:

With reference to Figure 19, the second embodiment that the utility model provides, the difference of itself and the first embodiment is that bending mechanism 3 is downward bending reinforcing steel bars, shedding mechanism 4 is more simplified simultaneously, only have two discharging guide rods 41 under being tilted to for discharging, in addition, other structures of the full-automatic reinforcing bar of the present embodiment row row forming machine are identical with the first embodiment.Figure 20 to 23 is depicted as the process of the full-automatic reinforcing bar row row forming machine bending reinforcing steel bar of the present embodiment.The benefit of the full-automatic reinforcing bar row row forming machine of the present embodiment two is by being set to downward bending reinforcing steel bar, simplifies shedding mechanism 4, and discharging is convenient; But its aspect design and charging less than the structure of embodiment mono-.

Full-automatic reinforcing bar row row forming machine of the present utility model has been realized reinforcing bar and to the full process automatization of discharging, has been carried out from being fed to bending again, enhances productivity greatly, saves workman labour, has wide development space.In addition, the mode that the controlling organization 5 of full-automatic reinforcing bar row row forming machine of the present utility model adopts oil circuit to control, adopt mechanical component to complete whole control procedure, numerical control equipment cost significantly reduces relatively, also more stable than adopting the control mode of relay and magnetic valve, control principle is simple, operates easy-to-understandly, before workman uses, does not need through professional training; Mechanical component stable performance, easy to maintenance simultaneously, the effectively service life of extension device.

These are only preferential embodiment of the present utility model, as long as within the technical scheme that realizes the utility model object with basic identical means all belongs to protection domain of the present utility model.

Claims (10)

1. full-automatic reinforcing bar row row forming machine, is characterized in that: described reinforcing bar shaper comprises billot dressing mechanism, feed mechanism, bending mechanism, shedding mechanism and controlling organization, wherein:

Described feed mechanism comprises hydraulic pressure feeding oil cylinder, cradle and is arranged on the hopper on cradle, and feeding actuator cylinder drives cradle action to make hopper that the reinforcing bar holding is delivered to bending mechanism;

Described bending mechanism comprise hydraulic pressure bending oil cylinder and by hydraulic pressure bending hydraulic oil cylinder driving for bending reinforcing steel bar bending assembly;

Described bending mechanism is provided with more than one;

Described shedding mechanism comprises discharging guide rod;

Described controlling organization is by making feed mechanism, bending mechanism, shedding mechanism automatic operation in order to the control of oil circuit, controlling organization comprises multipath hydraulic control valve, linkage and a plurality of opener;

Described multipath hydraulic control valve is arranged in the working oil path of each hydraulic jack that comprises hydraulic pressure feeding oil cylinder and hydraulic pressure bending oil cylinder, multipath hydraulic control valve switches for controlling the working oil path of each hydraulic jack, makes each hydraulic jack move in order and regain;

On described multipath hydraulic control valve, be provided with for changing the reversing valve core of the hydraulic jack oil circuit flow direction and switch the conversion spool that oil circuit connects between a plurality of hydraulic jacks;

Described linkage is arranged between multipath hydraulic control valve and each hydraulic jack, linkage is driven by the piston rod action of hydraulic jack, the piston rod of hydraulic jack stretches out rear drive linkage and promotes reversing valve core, change oil circuit and flow to the piston rod recovery that makes hydraulic jack, after the piston rod of higher level's hydraulic jack reclaims, drive linkage to promote conversion spool, make the piston rod action of subordinate's hydraulic jack;

Described opener is arranged on linkage and/or feed mechanism, shedding mechanism, and connecting multipath hydraulic control valve to the oil circuit of each hydraulic jack, described opener is for being accurately delivered to subordinate's oil cylinder by higher level's cylinder movement state or controlling that other device is opened or provide instruction and execution for other device action.

2. full-automatic reinforcing bar row according to claim 1 are arranged forming machine, it is characterized in that: described billot dressing mechanism comprises clean up panel, between described clean up panel and hopper, arrange and need flitch, describedly treat that flitch front end is provided with inner recess, described hopper is arranged on inner recess below and can passes through from inner recess, treats that flitch is upwards bent to form striker plate foremost.

3. full-automatic reinforcing bar row row forming machine according to claim 2, is characterized in that: described cradle comprises that feeding push rod, swinging axle, horizontal guide rail and hopper slide bar, wherein,

Described feeding push rod is connected with hydraulic pressure feeding oil cylinder piston rod;

Described swinging axle middle part is rotatable fixing, and one end of swinging axle connects feeding push rod, and the other end is arranged on horizontal guide rail and slides bar with hopper and is connected; When feeding push rod moves, by swinging axle transmission and horizontal guide rail, limit, make hopper slide bar and move to the direction contrary with feeding push rod;

Described hopper is arranged on hopper and slides on bar, and hopper slides and on bar, is provided with the adjustable opener of lifting of controlling hopper lifting, and hopper is positioned at treats flitch below, and during opener action that lifting is adjustable, hopper rises and taking away the reinforcing bar for the treatment of on flitch when until flitch.

4. full-automatic reinforcing bar row according to claim 1 are arranged forming machine, it is characterized in that: the central pin shaft that described bending assembly comprises rotating disk, is fixed on the rotary pin shaft on rotating disk and is arranged on center of turntable position, between rotary pin shaft and central pin shaft, be provided with the room of placing reinforcing bar, described hydraulic pressure bending oil cylinder drives rotating disk to rotate around central pin shaft by driving gear set.

5. full-automatic reinforcing bar row row forming machine according to claim 1, is characterized in that: described bending mechanism is provided with five, and described each bending mechanism is provided with a hydraulic pressure bending oil cylinder.

6. full-automatic reinforcing bar row row forming machine according to claim 5, is characterized in that: described multipath hydraulic control valve is provided with two, and each multipath hydraulic control valve connects controls two or three hydraulic pressure bending oil cylinders.

7. full-automatic reinforcing bar row according to claim 1 are arranged forming machine, it is characterized in that: described linkage includes:

Be arranged on the stroke support on each hydraulic cylinder piston rod, stroke support below is provided with adjustable stroke collision block, and stroke support top is provided with the first opener;

Be arranged between multipath hydraulic control valve and stroke support can axial rotation rocking bar, rocking bar is corresponding one by one with multipath hydraulic control valve, on rocking bar, be provided with movable collision block, movable collision block is between stroke collision block and the first opener, when the piston rod of hydraulic jack stretches out, stroke collision block is from below and the collision of movable collision block, and when piston rod is regained, the spool that the first opener stretches out is from top and the collision of movable collision block;

On described rocking bar, be provided with the commutation plate of rotating with rocking bar, commutation plate connects reversing valve core;

On rocking bar, be provided with the opener fixed head rotating with rocking bar, be fixed with the second opener on opener fixed head, the spool of the second opener is over against conversion spool;

The first above-mentioned opener and the second opener are arranged on multipath hydraulic control valve to the oil circuit of corresponding hydraulic jack.

8. full-automatic reinforcing bar row row forming machine according to claim 1, is characterized in that: described opener comprises series connection opener and opener in parallel.

9. full-automatic reinforcing bar row according to claim 8 are arranged forming machine, it is characterized in that: described opener in parallel comprises the cylinder barrel of hollow cylindrical, described cylinder barrel top end opening, in cylinder barrel, be movably set with the oil column stretching out from opening, oil column bottom is provided with boss, the cross-sectional area of boss is less than the cross-sectional area of oil column, and boss periphery forms oil pressure pushing surface; In cylinder barrel, be provided with the stage clip of oil column being pushed to cylinder barrel bottom, cylinder barrel sidewall or cylinder barrel bottom are provided with oil supplying hole.

10. full-automatic reinforcing bar row according to claim 8 are arranged forming machine, it is characterized in that: described series connection opener comprises the cylinder barrel of hollow cylindrical, described cylinder barrel top end opening, in cylinder barrel, be movably set with the oil column stretching out from opening, on oil column, be provided with the separation block with cylinder barrel madial wall close contact, separate block cylinder barrel inside is divided into upper oil cavitie and lower oil cavitie, in upper oil cavitie, be provided with the stage clip of oil column being pushed to cylinder barrel bottom, on cylinder barrel wall, be provided with oil supplying hole, connecting hole and spill port, wherein oil supplying hole is positioned at lower oil cavitie for supply/unloading power oil, spill port is positioned at upper oil cavitie and directly connects fuel tank, connecting hole is positioned at upper oil cavitie, when oil column reaches maximum, separating block reach makes connecting hole be positioned at lower oil cavitie.

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