CN203495392U - Rotary electric pole steel reinforcement skeleton locating machine and automatic electric pole steel reinforcement skeleton welding forming machine - Google Patents

Abstract

The utility model discloses a rotary electric pole steel reinforcement skeleton locating machine which comprises a rotating portion and an auxiliary rotating portion. The utility model further provides an automatic electric pole steel reinforcement skeleton welding forming machine which comprises the rotary electric pole steel reinforcement skeleton locating machine and an electric pole steel reinforcement skeleton weld point welding machine, wherein the rotary electric pole steel reinforcement skeleton locating machine is used for rotating and locating main reinforcements and frame strength rings, which form an electric pole steel reinforcement skeleton, and the electric pole steel reinforcement skeleton weld point welding machine is used for welding the main reinforcements and the frame strength rings together so as to form the electric pole steel reinforcement skeleton. The locating machine and the welding forming machine have the main advantages that through resistance welding, the welding of all weld points is firm, and the welding quality is stable; the verticality between the frame strength rings and the main reinforcements can be guaranteed; the production efficiency is high; the cost is low; the structure is simpler, the maintenance is convenient, and the maintenance cost is low; the pollution to environment is not caused, and the injury to welders and other workers is avoided; cramp welding can be carried out; the work environment is clean and fresh, and the potential safety hazards are reduced; the spacing of the main reinforcements is accurate; electric pole steel reinforcement skeletons of different diameters, different lengths, different main reinforcement numbers and different main reinforcement diameters can be welded.

Description

Electric pole framework of steel reinforcement rotation localization machine and electric pole framework of steel reinforcement automatic welding forming machine

Technical field

The utility model relates to welding fabrication production technical field, is specifically related to the welding fabrication equipment of electric pole framework of steel reinforcement.

Background technology

At electric pole, manufacture field, comprise that the manufacture of reinforced concrete pole all or mainly be take manual operation as main.On several tooth moulds that form a line, put before this closely main muscle of half; main muscle comprises elongated arrangement of reinforcement and elongated arrangement of reinforcement; well in advances all; then head and the tail are placed booster circle; midfeather certain distance---as 500mm---is placed a booster circle; then Welder welds together the contact point of each reinforcing bar and each booster circle one by one by carbon-dioxide arc welding or arc welding, after completing, these semi-finished product is put into another row and puts continuation welding on the tooth mould of reinforcing bar well.Then the electric pole framework of steel reinforcement welding is hung in to mould, concrete perfusion.

At present, electric pole framework of steel reinforcement has two kinds, and a kind of is the electric pole framework of steel reinforcement that main muscle adds built-in booster circle welding fabrication, forms at present by manual welding, is traditional ripe skeleton; The second is the electric pole framework of steel reinforcement that main muscle adds cold drawn silk spiral roll moulding outside main muscle, and in this, skeleton is that same seam welder is welded, and is to occur at the mid-80, comparatively novel skeleton.

It is high that the first skeleton has 2 intensity, relatively the low advantage of the second skeleton cost.

The second skeleton is owing to being machining, therefore labour intensity is relatively low, but owing to adopting thicker cold drawn silk, and solder joint is a lot, so cost is higher, and can not process the less skeleton in tip footpath, can't use the main muscle that postwelding is had to welding point because the diameter of welding point is greater than the main muscle of main muscle, welding point can not be smoothly by leading muscle hole in welded disc, if will lead muscle hole, strengthen, what the welded disc of top end direction can not cloth deposits sufficient amount leads muscle hole.So seam welder is not also promoted in electric pole industry so far.

There is following defect in the manufacturing process of traditional manual welding electric pole framework of steel reinforcement:

1, the technique of whole electric pole framework of steel reinforcement is all manually in operation, whether each solder joint welds fastness, the whether guaranteed full personal experience by Welder of perpendicularity between booster circle and reinforcing bar, can not have fine qualities by every electric pole framework of steel reinforcement of uniform assurance.If solder joint has rosin joint or insufficient strength, will form weak spot, when being subject to improper external force---as typhoon, vehicle collision, by the improper tractive of cable etc.---just easily because this weak spot causes electric pole, completely even fracture, cause unnecessary accident and loss.In like manner, if the perpendicularity of booster circle and reinforcing bar can not guarantee,, electric pole framework of steel reinforcement cross section at this place is exactly an ellipse, and the spacing of each reinforcing bar can be dwindled herein, opens rubble when concrete perfusion because spacing is inadequate, form cavity, the intensity that has a strong impact on electric pole becomes waste product.

2, the technique of whole electric pole framework of steel reinforcement is all manually to operate, and production efficiency is low, because Welder's qualification is different, has certain difference weld interval.Artificial two people are per hour does four electric pole frameworks of steel reinforcement.

3, arc welding and carbon-dioxide arc welding have arc light, metallic dust etc., and environment is had to pollution, though take to establish the measures such as ventilating fan, air-introduced machine in factory building, it is so more severe that working environment is appointed more, and how many Welders and other workmans are had to harm.In production scene, welding machine, welding wire, welding rod and gas cylinder etc. are deposited on the spot, and power line also tows on ground, is that scene is comparatively mixed and disorderly, form potential safety hazard.

4, arc welding and carbon-dioxide arc welding can consume the consumptive materials such as welding rod, welding wire and carbon dioxide, more according to different single such consumptive materials of the condition of production, just need to need expenditure 10～300,000 every year.

Utility model content

The technical problems to be solved in the utility model is:

1, provide electric pole framework of steel reinforcement rotation localization machine, rotation electric pole framework of steel reinforcement is to the angle needing, to coordinate electric pole framework of steel reinforcement solder joint weldering knot machine to realize the moulding of automatic welding electric pole framework of steel reinforcement.

2, provide electric pole framework of steel reinforcement automatic welding forming machine, realize the automatic welding moulding of electric pole framework of steel reinforcement, fill up the blank that electric pole framework of steel reinforcement does not have automatic producing device.

For reaching above-mentioned utility model object, the technical scheme that the utility model adopts is:

A kind of electric pole framework of steel reinforcement rotation localization machine is provided, has it is characterized in that, comprised rotating part and auxiliary rotary part;

Described rotating part comprises: two servomotors, two motor columns, large index dial and little index dials;

Two servomotors, for driving respectively large index dial and little index dial to rotate;

Two motor columns, for servomotor is installed, lower end is flexibly connected with casing, and motor column can be along electric pole framework of steel reinforcement rotation localization machine length direction way moving, and two motor columns are arranged at respectively the two ends on casing length direction;

Large index dial, for the butt of fixing electric pole framework of steel reinforcement and rotate electric pole framework of steel reinforcement, at circumferential edges, be provided with the reinforcing bar breach that several block the main muscle T1 of reinforcing bar, after the main muscle T1 of reinforcing bar of electric pole framework of steel reinforcement and booster lap welding connect, large index dial blocks the end of the main muscle T1 of butt reinforcing bar by reinforcing bar breach;

Little index dial, for the top end of fixing electric pole framework of steel reinforcement and rotate electric pole framework of steel reinforcement, at circumferential edges, be provided with the reinforcing bar breach that several block the main muscle T1 of reinforcing bar, after the main muscle T1 of reinforcing bar of electric pole framework of steel reinforcement and booster lap welding connect, little index dial blocks the end of the main muscle T1 of top end reinforcing bar by reinforcing bar breach;

Described auxiliary rotary part, partly rotates for auxiliary rotary, is at least provided with a set ofly, comprising: toggle mechanism and bracing frame;

Toggle mechanism, for the auxiliary main muscle T1 of reinforcing bar, the auxiliary rotary electric pole framework of steel reinforcement stirred;

Bracing frame, for keeping the perpendicularity between the main muscle T1 of booster circle and reinforcing bar, epimere stretches out casing, and hypomere is liftable to be arranged in casing;

Described toggle mechanism comprises: plectrum and stir cylinder;

Plectrum, for stirring the main muscle T1 of reinforcing bar, auxiliary rotary partly rotates the electric pole framework of steel reinforcement in welding;

Stir cylinder, for driving plectrum, plectrum is arranged at the top of the piston rod of stirring cylinder, stirs cylinder and is arranged in casing.

Support frame as described above comprises: clamping plate and support wheel;

Clamping plate are provided with two in a set of auxiliary rotary part, for keeping the perpendicularity between the main muscle T1 of booster circle and reinforcing bar;

Support wheel, for below booster circle, booster circle being provided support, and the rotation of auxiliary booster circle, between setting and two clamping plate; The lower end of clamping plate is connected with casing.

Described electric pole framework of steel reinforcement rotation localization machine also comprises adjustment member, and for adjusting the height of rotating part and bracing frame, to adapt to the electric pole framework of steel reinforcement of different-diameter, described adjustment member is arranged in casing;

Described adjustment member comprises: index dial guiding mechanism and elevating mechanism;

Index dial guiding mechanism, be provided with two covers, be respectively used to adjust the height of large index dial and little index dial and with respect to the position on casing length direction, the top of two cover index dial guiding mechanisms is connected respectively at the bottom of two motor columns, and bottom is connected with casing;

Elevating mechanism, is used for adjusting the height of bracing frame while using separately, during as index dial guiding mechanism a part of for adjusting the height of large index dial and little index dial;

Described index dial guiding mechanism comprises: index dial separating mechanism and elevating mechanism;

Index dial separating mechanism, for adjusting large index dial or little index dial with respect to the position on casing length direction, to block or to deviate from electric pole framework of steel reinforcement;

Index dial separating mechanism comprises: horizontal dolly and separation cylinder;

Horizontal dolly, for elevating mechanism is set, laterally dolly, by being horizontally disposed with slide rail and casing is slidably connected, is provided with elevating mechanism on it, and the top of this elevating mechanism is connected with the bottom of motor column;

Separation cylinder, for driving horizontal dolly to move, separation cylinder bottom is connected with casing, and the other end is connected with horizontal dolly; Described elevating mechanism comprises: lift cylinder, and for the power source as Height Adjustment, its upper end is connected with the lower end of bracing frame, and its lower end is connected with casing; Elevating mechanism is during as index dial guiding mechanism a part of, and the upper end of lift cylinder is wherein connected with motor column, and lower end is connected with casing.

Described elevating mechanism also comprises lifting micro-adjusting mechanism, for the height that elevating mechanism is regulated, finely tunes;

Described lifting micro-adjusting mechanism comprises contiguous block, elevating screw and lower connecting block; The two ends up and down of elevating screw are connected with lower connecting block with upper contiguous block respectively; Upper contiguous block upper end is connected with the lower end of bracing frame, and the lower end of lower connecting block is connected with lift cylinder; Elevating mechanism is during as index dial guiding mechanism a part of, and upper contiguous block upper end is connected with the lower end of motor column, and the lower end of lower connecting block is connected with lift cylinder.

Two clamping plate in described a set of auxiliary rotary part have the spacing that is greater than booster circle width X～Ymm0.5～10mm; Servomotor is arranged on motor cabinet, and motor cabinet is slidably connected by motor slide rail and casing.

The utility model also provides a kind of electric pole framework of steel reinforcement automatic welding forming machine, it is characterized in that, comprising:

Above-mentioned electric pole framework of steel reinforcement rotation localization machine, for rotating and locating the main muscle T1 of reinforcing bar and the booster circle that forms electric pole framework of steel reinforcement, and electric pole framework of steel reinforcement solder joint weldering knot machine, for the main muscle T1 of reinforcing bar and booster lap welding are connected together, make the moulding of electric pole framework of steel reinforcement; Platform electric pole framework of steel reinforcement solder joint weldering knot machine is arranged at electric pole framework of steel reinforcement rotation localization machine on one side.

Described electric pole framework of steel reinforcement solder joint weldering knot machine comprises: some resistance welders and adjustable jig;

Resistance welder is for welding electric pole framework of steel reinforcement solder joint; Be arranged at the top of welding machine casing;

Adjustable jig, for supplemental support electric pole framework of steel reinforcement, is arranged at welding machine casing towards a side of electric pole framework of steel reinforcement rotation localization machine.

Described resistance welder comprises: positive electrode, negative electrode, negative pole drive cylinder, anodal cylinder and the welding machine main frame of driving;

Positive electrode is electrically connected to welding machine main frame, and positive electrode is connected with the anodal cylinder piston rod that drives, and positive electrode comprises hook portion and shank, and shank one end is connected with hook portion one end, and the other end is connected with the anodal cylinder piston rod that drives; Hook portion higher than be wider than shank, form and laterally to exceed portion and upwards to exceed portion, described formation laterally exceeds portion for catching on booster circle, the described portion that upwards exceeds is for coordinating negative electrode to form enough extruding forces to the main muscle T1 of reinforcing bar and booster circle; Described shank is provided with insulating part for avoiding the direct conducting both positive and negative polarity of the main muscle T1 of reinforcing bar to cause welding unsuccessfully towards the upper surface of one end of hook portion;

The anodal cylinder that drives is used for driving positive electrode along electric pole framework of steel reinforcement solder joint weldering knot machine length direction way moving, to catch on or to deviate from booster circle;

Negative electrode is electrically connected to welding machine main frame, and negative electrode drives cylinder piston rod to be connected with negative pole;

Negative pole drives cylinder to be used for driving negative electrode along electric pole framework of steel reinforcement solder joint weldering knot machine width way moving, to approach or away from positive electrode;

Described plectrum is arranged between adjacent two positive electrodes or negative electrode.

Described laterally exceeding in portion is provided with for holding the permanent magnet of booster circle; Above described insulating part, be also provided with wear-resistant protection part.

Described electric pole framework of steel reinforcement solder joint weldering knot machine also comprises diameter adjusting mechanism, for resistance welder and positive and negative electrode thereof are welded to knot machine width way moving along electric pole framework of steel reinforcement solder joint, to adapt to the electric pole framework of steel reinforcement of different-diameter;

Described diameter adjusting mechanism comprises: base plate and slide rail; Resistance welder is arranged on base plate, and base plate is slidably matched by slide rail and welding machine casing, and base plate is also useful on and drives its adjusting screw mandrel moving or adjustable cylinder to be connected.

Described adjustable jig comprises: jig, support chains and screw lift;

Jig, for support chains is set, jig is arranged at a side of rotating localization machine on electric pole framework of steel reinforcement solder joint weldering knot machine by electric pole framework of steel reinforcement; Jig is provided with some windows, bracing frame, stirs cylinder through these windows; Bracing frame and plectrum, when lifting position, bracing frame, are stirred cylinder the first half and are positioned on jig; Bracing frame and plectrum are when down position, and bracing frame top and plectrum and jig maintain an equal level or lower than jig;

Support chains, for auxiliary sliding support electric pole framework of steel reinforcement, is arranged on the corresponding jig in electric pole framework of steel reinforcement bottom, between adjacent two positive electrodes or negative electrode;

Screw lift, for adjusting jig height and gradient, makes to adjust the electric pole framework of steel reinforcement that jig adapts to different-diameter; At least be provided with two, top and jig are hinged, and bottom is fixedly connected with welding machine casing.

This practical beneficial effect is:

1, by electric resistance welding, each solder joint firm welding, welding quality stable;

2, the perpendicularity of booster circle T2 and main muscle T1 can guarantee;

While 3, adopting pointwise welding, two skilled workers per hour just can produce more than ten, and production efficiency is high, if solder joint welds simultaneously, just energy production efficiency can be higher for two skilled workers per hour, if operative employee increases, speed is faster;

4, except changing the electrode of one of dozens of yuan, without other consumptive materials, annual only need changed electrode one to twice, and cost is very cheap comparatively speaking;

5, the parts that there is no quick loss, machine life is long, and structure is simpler, easy to maintenance, and maintenance cost is low;

6, scene does not have unnecessary welding machine, gas cylinder, welding wire, welding rod and power line, and environment is clean and tidy, salubrious, has also reduced potential safety hazard;

7, resistance welded is polluted without arc light and metallic dust, and the operating environments such as on-the-spot air quality are obviously improved, and environment is not polluted, and has also avoided Welder and other workmans harm;

8, rotation accurate positioning, has toggle mechanism auxiliary, guarantees that main muscle spacing is accurate;

What 9, produce is the electric pole framework of steel reinforcement that main muscle adds built-in booster circle welding fabrication, on the basis that does not increase skeleton one-tenth cost itself, has also reduced labour intensity, has also retained all advantages of this tradition skeleton.

10, can do the welding of knotting;

11, can weld different-diameter, length and main muscle quantity and comprise the different electric pole framework of steel reinforcement of main muscle diameter.

Accompanying drawing explanation

Fig. 1 is the structural representation of electric pole framework of steel reinforcement rotation localization machine 100;

Fig. 2 is the cutaway view along A-A line in Fig. 1;

Fig. 3 is the cutaway view along B-B line in Fig. 1;

Fig. 4 is the cutaway view along C-C line in Fig. 1;

Fig. 5 is the cutaway view along D-D line in Fig. 1;

Fig. 6 (a) and Fig. 6 (b) are the structural representation of support wheel B202;

Fig. 7 is the structural representation of electric pole framework of steel reinforcement automatic welding forming machine;

Fig. 8 is the structural representation of electric pole framework of steel reinforcement solder joint weldering knot machine 200;

Fig. 9 is the plan structure schematic diagram of Fig. 8;

The main TV structure figure that Figure 10 (a) is positive electrode;

The face upwarding assumption diagram that Figure 10 (b) is positive electrode;

Figure 11 is cramp schematic diagram.

Wherein,

T, electric pole framework of steel reinforcement; Ta, top end; Tb, butt; T1, main muscle; T1a, elongated arrangement of reinforcement; T1b, non-elongated arrangement of reinforcement;

T2, booster circle;

100, electric pole framework of steel reinforcement rotation localization machine;

A: rotating part;

A1, servomotor;

A2, motor column;

A3, large index dial;

A4, little index dial;

A5, motor cabinet;

A6, motor slide rail;

A7, reinforcing bar breach;

B, auxiliary rotary part;

B1, toggle mechanism; B101, plectrum; B102, stir cylinder;

B2, bracing frame; B201, clamping plate; B202, support wheel;

C, adjustment member

C1, index dial guiding mechanism (C2+C101); C101, index dial separating mechanism; C101a, horizontal dolly; C101b, separation cylinder;

C2, elevating mechanism; C201, lifting micro-adjusting mechanism; C201a, upper contiguous block; C201b, elevating screw; C201c, lower connecting block; C202, lift cylinder;

10, casing;

200, electric pole framework of steel reinforcement solder joint weldering knot machine;

D, resistance welder;

D1, positive electrode; D1a, hook portion; D1b, shank; D1b1, laterally exceed portion; D1a2, upwards exceed portion; D101, permanent magnet; D102, wear-resistant protection part; D103, insulating part;

D2, negative electrode;

D3, negative pole drive cylinder;

D4, the anodal cylinder that drives;

D5, welding machine main frame

D6, diameter adjusting mechanism; D6a, base plate; D6b, slide rail;

F, adjustable jig

F1, jig;

F2, support chains;

F3, screw lift; F3a; Handle;

20, welding machine casing.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present utility model is described in detail:

The first embodiment of electric pole framework of steel reinforcement rotation localization machine 100:

Shown in Fig. 5 and Fig. 7.This electric pole framework of steel reinforcement rotation localization machine 100, comprises rotating part A and auxiliary rotary part B;

Described rotating part A comprises: two servomotor A1, two motor column A2, large index dial A3 and little index dial A4; Two servomotor A1, for driving respectively large index dial A3 and little index dial A4 to rotate;

Two motor column A2, for servomotor A1 is installed, lower end is flexibly connected with casing 10, and motor column A2 can be along electric pole framework of steel reinforcement rotation localization machine 100 length direction way movings, and two motor column A2 are arranged at respectively the two ends on casing 10 length directions;

Large index dial A3, for the butt Tb of fixing electric pole framework of steel reinforcement T and rotate electric pole framework of steel reinforcement T, at circumferential edges, be provided with the reinforcing bar breach A7 that several block main muscle T1, after the main muscle T1 and booster circle T2 welding of electric pole framework of steel reinforcement T, large index dial A3 blocks the end of the main muscle T1 of butt Tb by reinforcing bar breach A7;

Little index dial A4, for the top end Ta of fixing electric pole framework of steel reinforcement T and rotate electric pole framework of steel reinforcement T, at circumferential edges, be provided with the reinforcing bar breach A7 that several block main muscle T1, after the main muscle T1 and booster circle T2 welding of electric pole framework of steel reinforcement T, little index dial A3 blocks the end of the main muscle T1 of top end Ta by reinforcing bar breach A7;

Described auxiliary rotary part B, rotates for auxiliary rotary part A, is at least provided with a set ofly, comprising: toggle mechanism B1 and bracing frame B2;

Toggle mechanism B1, for the auxiliary main muscle T1, auxiliary rotary electric pole framework of steel reinforcement T of stirring;

Bracing frame B2, for keeping the perpendicularity between booster circle T2 and main muscle T1, epimere stretches out casing 10, and hypomere is liftable to be arranged in casing 10;

Described toggle mechanism B1 comprises: plectrum B101 and stir cylinder B102;

Plectrum B101, for stirring main muscle T1, auxiliary rotary part A rotates the electric pole framework of steel reinforcement T in welding;

Stir cylinder B102, for driving plectrum B101, plectrum B101 is arranged at the top of the piston rod of stirring cylinder B102, stirs cylinder B102 and is arranged in casing 10;

Support frame as described above B2 comprises: clamping plate B201 and support wheel B202;

Clamping plate B201 is provided with two in a set of auxiliary rotary part B, for keeping the perpendicularity between booster circle T2 and main muscle T1;

Support wheel B202, for below booster circle T2, booster circle T2 being provided support, and the rotation of auxiliary booster circle T2, between setting and two clamping plate B201;

The lower end of clamping plate B201 is connected with casing 10.

Electric pole framework of steel reinforcement rotation localization machine 100 described in this embodiment is when coordinating electric pole framework of steel reinforcement solder joint weldering knot machine 200, large index dial A3 and little index dial A4 move to the inside, the reinforcing bar breach A7 of so large index dial A3 and little index dial A4 can block respectively the two ends of the main muscle T1 of current welding, after booster circle T2 and main muscle T1 welding, large index dial A3 and little index dial A4 can not only rotate electric pole framework of steel reinforcement T semi-finished product provides impetus, and also fixedly electric pole framework of steel reinforcement T semi-finished product rotate the position on localization machine 100 length directions at electric pole framework of steel reinforcement.When rotation electric pole framework of steel reinforcement T semi-finished product, toggle mechanism B2 also participates in simultaneously, and wherein the plectrum B102 cylinder B102 that is struck drives, and moves up, stir the current main muscle T1 having welded, until large index dial A3 stops while turning to next reinforcing bar breach A7.After having welded, large index dial A3 and little index dial A4 move laterally, and electric pole framework of steel reinforcement T can be deviate from.

Because the diameter of electric pole framework of steel reinforcement T changes, by butt Tb, to top end Ta, dwindled gradually, so the stroke of respectively stirring cylinder B102 by the diameter of the electric pole framework of steel reinforcement T of its correspondence position, determined, therefore, stir cylinder B102 and need type selecting, or adopt adjustable cylinder.

In like manner, bracing frame B2 also can be set to different height, can be suitable by the Height Adjustment of support wheel B202.

As shown in Fig. 6 a and Fig. 6 b, because form the wire rod cross section of booster circle T2, be circular, for better this cross sectional shape of coupling, support wheel B202 is provided with the groove of arc.

During welding, if fruit does not need the operation of knotting, large index dial A3 and little index dial A4 turn to next reinforcing bar breach A7 simultaneously.While needing to knot operation, carry out following operation:

The first step, large index dial A3 turns to next reinforcing bar breach A7, and little index dial A4 turns to current reinforcing bar breach A7 and next reinforcing bar breach A7 centre position;

Second step, welding is knotted;

The 3rd step, large index dial A3 turns to next reinforcing bar breach A7, and little index dial A4 turns to next reinforcing bar breach A7, recovers normal, can continue to weld the main muscle T1 of complete length.

As shown in figure 11, described cramp is the non-elongated arrangement of reinforcement T1b that electric pole framework of steel reinforcement T butt Tb extends to top end Ta, is exactly the main muscle T1 that does not extend to top end Ta.Because top end Ta diameter is less than butt Tb, more approach the main muscle T1 of top end Ta spacing less, but the main muscle T1 of standard regulation spacing can not be less than 25mm.Therefore, need to take out some elongated arrangement of reinforcement T1a in the part towards top end Ta, guarantee the not little 25mm of spacing of main muscle T1.As having the electric pole framework of steel reinforcement T of 12 main muscle T1, a kind of butt Tb at top end, only can retain the main muscle T1 of eight or ten complete lengths, elongated arrangement of reinforcement T1a namely, and other four can be pumped to a part, becomes non-elongated arrangement of reinforcement T1b.

To sum up, the rotation of the electric pole framework of steel reinforcement described in this embodiment localization machine 100 can coordinate rotation and the location that electric pole framework of steel reinforcement solder joint weldering knot machine 200 is realized the electric pole framework of steel reinforcement T of fixed diameter.Large index dial A3 and little index dial A4 are controlled by servomotor A1, rotation accurate positioning, and efficiency is high.

If need are for other diameters with the electric pole framework of steel reinforcement T in footpath, be included in the main muscle T1 that changes different-diameter, to change large index dial A3 and little index dial A4, and the position of changing clamping plate B201 or the adjustment support wheel B202 of different size, toggle mechanism B2 stirs the stroke that cylinder B102 selects as required, also can select adjustable cylinder, coordinate different sleeves, realize location fast.Therefore, adjust cumbersomely, relatively waste time and energy.When need to be for the electric pole framework of steel reinforcement T of different length, this position that becomes rotating part A and index dial guiding mechanism C1 just.

The second embodiment of electric pole framework of steel reinforcement rotation localization machine 100:

Shown in Fig. 5.This embodiment is on the basis of the first embodiment, and the constant problem of adjustment existing for the first embodiment has been made improvement, has increased adjustment member C.

Described adjustment member C, for adjusting the height of rotating part A and bracing frame B2, to adapt to the electric pole framework of steel reinforcement T of different-diameter, comprises that adaptation top end Ta and butt Tb are with the electric pole framework of steel reinforcement T in footpath.Described adjustment member C is arranged in casing.

Described adjustment member C comprises: index dial guiding mechanism C1 and elevating mechanism C2;

Index dial guiding mechanism C1, be provided with two covers, be respectively used to adjust the height of large index dial A3 and little index dial A4 and with respect to the position on casing 10 length directions (for blocking and deviating from electric pole framework of steel reinforcement T), the top of two cover index dial guiding mechanism C1 is connected respectively at the bottom of two motor column A2, and bottom is connected with casing 10;

Elevating mechanism C2, is used for adjusting the height of bracing frame B2 while using separately, during as index dial guiding mechanism C1 a part of for adjusting the height of large index dial A3 and little index dial A4;

Described index dial guiding mechanism C1 comprises: index dial separating mechanism C101 and elevating mechanism C2;

Index dial separating mechanism C101, for adjusting large index dial A3 or little index dial A4 with respect to the position on casing 10 length directions, to block or to deviate from electric pole framework of steel reinforcement T;

Index dial separating mechanism C101 comprises: horizontal dolly C101a and separation cylinder C101b;

Horizontal dolly C101a, for elevating mechanism C2 is set, laterally dolly, by being horizontally disposed with slide rail and casing 10 is slidably connected, is provided with elevating mechanism C2 on it, and the top of this elevating mechanism C2 is connected with the bottom of motor column A2;

Separation cylinder C101b, for driving horizontal dolly C101a to move, separation cylinder C101b bottom is connected with casing 10, and the other end is connected with horizontal dolly C101a;

Described elevating mechanism C2 comprises: lift cylinder C202, and for the power source as Height Adjustment, its upper end is connected with the lower end of bracing frame B2, and its lower end is connected with casing 10; Elevating mechanism C2 is during as index dial guiding mechanism C1 a part of, and the upper end of lift cylinder C202 is wherein connected with motor column A2, and lower end is connected with casing 10.

As further this enters, described elevating mechanism C2 also comprises lifting micro-adjusting mechanism 201, for the height that elevating mechanism C2 is regulated, finely tunes;

Described lifting micro-adjusting mechanism 201 comprises contiguous block C201a, elevating screw C201b and lower connecting block C201c; The two ends up and down of elevating screw C201b are connected with lower connecting block C201c with upper contiguous block C201a respectively; Upper contiguous block C201a upper end is connected with the lower end of bracing frame B2, and the lower end of lower connecting block C201c is connected with lift cylinder C202; Elevating mechanism C2 is during as index dial guiding mechanism C1 a part of, and upper contiguous block C201a upper end is connected with the lower end of motor column A2, and the lower end of lower connecting block C201c is connected with lift cylinder C202.

To sum up, increase after adjustment member C, the height of large index dial A3, little index dial A4 and clamping plate B201 can be adjusted easily, can adjust support wheel B202 again.The lift cylinder C202 adjustable cylinder of can hanking, coordinates different sleeves, realizes location fast.The adjustment precision that lifting micro-adjusting mechanism C201 also further guarantees.

The 3rd embodiment of electric pole framework of steel reinforcement rotation localization machine 100:

Shown in Fig. 5.This embodiment is that in order to guarantee the perpendicularity of booster circle T2 and main muscle T1, two clamping plate B201 in described a set of auxiliary rotary part B have the spacing that is greater than booster circle T2 width 0.5～10mm on the basis of first and second or four embodiment.When 0.5mm, can at utmost guarantee perpendicularity.But what can rationally infer is that the spacing of two clamping plate is can be as required, what as formed, the diameter of wire rod of booster circle T2 or customer requirement adjusted.

The 4th embodiment of electric pole framework of steel reinforcement rotation localization machine 100:

Shown in Fig. 5.This embodiment is on the basis of first and second or three embodiment, it is more smooth-going and stable when servomotor A1, motor column A2 and the large index dial A3 being connected with motor column A2 or little index dial A4 are moved simultaneously, it is upper that servomotor A1 is arranged at motor cabinet A5, and motor cabinet A5 is slidably connected by motor slide rail A6 and casing 10.

The first embodiment of electric pole framework of steel reinforcement automatic welding forming machine:

Mainly, with reference to shown in Fig. 7 to Fig. 9, also please refer to Fig. 1 to Fig. 6 simultaneously.

Electric pole framework of steel reinforcement automatic welding forming machine that this embodiment provides has comprised the electric pole framework of steel reinforcement rotation localization machine 100 that in first to fourth embodiment of electric pole framework of steel reinforcement rotation localization machine 100, any embodiment provides.

Described electric pole framework of steel reinforcement rotation localization machine 100, for rotating and locate main muscle T1 and the booster circle T2 of formation electric pole framework of steel reinforcement T,

With electric pole framework of steel reinforcement solder joint weldering knot machine 200, for main muscle T1 and booster circle T2 are welded together, make the moulding of electric pole framework of steel reinforcement;

Platform electric pole framework of steel reinforcement solder joint weldering knot machine 200 is arranged at electric pole framework of steel reinforcement rotation localization machine 100 on one side.

In fact described platform electric pole framework of steel reinforcement solder joint weldering knot machine 200 can be the welding machine of any type, as long as can main muscle T1 and booster circle T2 be welded and be carried out.Therefore, use as manipulator or as all right in the solid any welders such as arc welding, carbon-dioxide arc welding or electric resistance welder that surely carry out.

During welding, first booster circle T2 is installed, put again main muscle T1, main muscle T1 locates under the effect of large index dial A3, little index dial A4 and plectrum B101, after electric pole framework of steel reinforcement solder joint weldering knot machine 200 butt welding point are welded, electric pole framework of steel reinforcement rotation localization machine 100 is rotated once, and then add main muscle T1, in welding, repeat above flow process until after having welded, large index dial A3, little index dial A4 outwards move, and plectrum B101 declines simultaneously, and electric pole framework of steel reinforcement T will deviate from electric pole framework of steel reinforcement automatic welding forming machine and complete welding fabrication.

Booster circle T2 and main muscle T1 are located by machinery, accurate positioning, and the perpendicularity of booster circle T2 and main muscle T1 can guarantee, the cavity therefore forming while avoiding concrete perfusion, the waste product of avoiding so producing.

The second embodiment of electric pole framework of steel reinforcement automatic welding forming machine:

Mainly, with reference to shown in Fig. 7 to Fig. 9, also please refer to Fig. 1 to Fig. 6 simultaneously.

This embodiment is on the basis of the first embodiment, for electric pole framework of steel reinforcement solder joint weldering knot machine 200 provides a preferred embodiment.

Electric pole framework of steel reinforcement solder joint weldering knot machine 200 comprises: some resistance welder D and adjustable jig F;

Resistance welder D is for welding electric pole framework of steel reinforcement solder joint; Be arranged at the top of welding machine casing 20;

Adjustable jig, for supplemental support electric pole framework of steel reinforcement T, is arranged at welding machine casing 20 towards a side of electric pole framework of steel reinforcement rotation localization machine 100.

Described resistance welder D comprises: positive electrode D1, negative electrode D2, negative pole drive cylinder D3, the anodal cylinder D4 of driving and welding machine main frame D5;

Positive electrode D1 is electrically connected to welding machine main frame D5, positive electrode D1 is connected with the anodal cylinder D4 piston rod that drives, positive electrode D1 comprises hook portion D1a and shank D1b, and shank D1b one end is connected with hook portion D1a one end, and the other end is connected with the anodal cylinder D4 piston rod that drives; Hook portion D1a higher than be wider than shank D1b, form and laterally exceed the D1a1 of portion and upwards exceed the D1a2 of portion, described formation laterally exceeds the D1a1 of portion for catching on booster circle T2, and the described D1a2 of portion that upwards exceeds is for coordinating negative electrode D2 to form enough extruding forces to main muscle T1 and booster circle T2; Described shank D1b is provided with insulating part D103 for avoiding the direct conducting both positive and negative polarity of main muscle T1 to cause welding unsuccessfully towards the upper surface of one end of hook portion D1a;

The anodal cylinder D4 that drives is used for driving positive electrode D1 along electric pole framework of steel reinforcement solder joint weldering knot machine 200 length direction way movings, to catch on or to deviate from booster circle T2;

Negative electrode D2 is electrically connected to welding machine main frame D5, and negative electrode D2 drives cylinder D3 piston rod to be connected with negative pole;

Negative pole drives cylinder D3 to be used for driving negative electrode D2 along electric pole framework of steel reinforcement solder joint weldering knot machine 200 width way movings, to approach or away from positive electrode D1;

Described plectrum B101 is arranged between adjacent two positive electrode D1 or negative electrode D2.

During welding, operation as follows:

The first step, guarantees that positive electrode D1 is in coordinating the operating position of negative electrode D2, and large index dial A3 and little index dial A4 are in operating position;

Second step, booster circle T2 puts into bracing frame B2 after hanging up positive electrode D1;

The 3rd step is put main muscle T1 on positive electrode D1;

The 4th step, negative electrode D2 moves to positive electrode D1, promotes reinforcing bar T2 and relies on and be close to booster circle T2, carries out postwelding negative electrode D2 away from positive electrode D1, and main muscle T1 butt Tb or two ends snap in reinforcing bar breach A7 simultaneously;

The 5th step, large index dial A3 and little index dial A4 rotate, and toggle mechanism B1 upwards stirs the main muscle T1 of firm welding simultaneously, has stirred rear toggle mechanism B1 playback;

The 6th step, repeats the 3rd step to the five steps;

The 7th step, when the main muscle T1 connecing when the first root bead approaches bracing frame B2, fall bracing frame B2 to not affecting the position that this main muscle T1 is rotated further, because having welded after several main muscle T1, because of electric pole framework of steel reinforcement, T has had some strength, now also bracing frame B2 can be fallen, rely on adjustable jig F to support;

The 8th step, so after main muscle T1 welds, large index dial A3 and little index dial A4 move respectively laterally, positive electrode D1 moves, and breaks off relations, and deviates from electric pole framework of steel reinforcement T.

The deviation that in national standard, electric pole framework of steel reinforcement T size allows is as follows:

Main muscle (Reinforcement) spacing: ± 5mm

Booster circle spacing: ± 20mm

Booster circle perpendicularity: 1/40 booster loop diameter

The electric pole framework of steel reinforcement T dimensional discrepancy that this electric pole framework of steel reinforcement automatic welding forming machine is produced is as follows:

Main muscle (Reinforcement) spacing :≤± 2mm

Booster circle spacing :≤± 2mm

Booster circle perpendicularity: 1/80～1/200 booster loop diameter (drawing according to booster circle different-diameter)

To sum up, the electric pole framework of steel reinforcement automatic welding forming machine tool that this embodiment provides has the following advantages:

1, by electric resistance welding, each solder joint firm welding, welding quality stable;

2, the perpendicularity of booster circle T2 and main muscle T1 can guarantee;

While 3, adopting pointwise welding, two skilled workers per hour just can produce more than ten, and production efficiency is high, if solder joint welds simultaneously, two skilled workers per hour just can produce more than 13, and some operative employees increase, and speed is faster;

4, except changing the electrode of one of dozens of yuan, without other consumptive materials, annual only need changed electrode one to twice, and cost is very cheap comparatively speaking;

5, the parts that there is no quick loss, machine life is long, and structure is simpler, easy to maintenance, and maintenance cost is low;

6, scene does not have unnecessary welding machine, gas cylinder, welding wire, welding rod and power line, and environment is clean and tidy, salubrious, has also reduced potential safety hazard;

7, resistance welded is polluted without arc light and metallic dust, and the operating environments such as phenomenon air quality are obviously improved, and environment is not polluted, and has also avoided Welder and other workmans harm.

The 3rd embodiment of electric pole framework of steel reinforcement automatic welding forming machine:

This embodiment be second or the basis of the 4th embodiment on, positive electrode D1 has been made to this and has entered.

Described laterally exceeding on the D1a1 of portion is provided with for holding the permanent magnet D101 of booster circle T2; Above described insulating part D103, be also provided with wear-resistant protection part D102.

Permanent magnet D101 and wear-resistant protection part D102 must possess simultaneously, and the technical problem that both solve is not identical yet.

The 4th embodiment of electric pole framework of steel reinforcement automatic welding forming machine:

This embodiment be second or the basis of the 3rd embodiment on, electric pole framework of steel reinforcement solder joint weldering knot machine 200 has been increased to diameter adjusting mechanism D6, for adjustable jig F provides a preferred embodiment, so that electric pole framework of steel reinforcement solder joint weldering knot machine 200 is applicable to different-diameter, comprise the electric pole framework of steel reinforcement T in same footpath.

Diameter adjusting mechanism D6 is for resistance welder D and positive and negative electrode thereof are welded to knot machine 200 width way movings along electric pole framework of steel reinforcement solder joint, to adapt to the electric pole framework of steel reinforcement T of different-diameter; Adjustable jig F can better support electric pole framework of steel reinforcement T

Described diameter adjusting mechanism D6 comprises: base plate D6a and slide rail D6b; It is upper that resistance welder D is arranged at base plate D6a, and base plate D6a is slidably matched by slide rail D6b and welding machine casing 20, and base plate D6a is also useful on and drives its adjusting screw mandrel moving or adjustable cylinder to be connected.

While adapting to minor diameter, diameter adjusting mechanism D6 shifts to electric pole framework of steel reinforcement T by resistance welder D and positive and negative electrode thereof; While adapting to minor diameter, by resistance welder D and positive and negative electrode thereof away from electric pole framework of steel reinforcement T.

Described adjustable jig F comprises: jig F1, support chains F2 and screw lift F3;

Jig F1, for support chains F2 is set, jig F1 is arranged at a side of rotating localization machine 100 on electric pole framework of steel reinforcement solder joint weldering knot machine 200 by electric pole framework of steel reinforcement; Jig F1 is provided with some windows, bracing frame B2, stirs cylinder through these windows; Bracing frame B2 and plectrum B101, when lifting position, bracing frame B2, stir cylinder the first half and are positioned on jig F1; Bracing frame B2 and plectrum B101 are when down position, and bracing frame B2 top and plectrum B101 and jig F1 maintain an equal level or lower than jig F1;

Support chains F2, for auxiliary sliding support electric pole framework of steel reinforcement T, is arranged at the corresponding jig F1 in electric pole framework of steel reinforcement T bottom upper, between adjacent two positive electrode D1 or negative electrode D2;

Screw lift F3, for adjusting jig F1 height and gradient, makes to adjust the electric pole framework of steel reinforcement T that jig F1 adapts to different-diameter; At least be provided with two, top and jig F1 are hinged, and bottom is fixedly connected with welding machine casing 20.

Height and the gradient of the adjustable jig F1 of screw lift F3, make adjustable jig F be applicable to different-diameter, comprises the electric pole framework of steel reinforcement T in same footpath.

After bracing frame B2 declines, the main muscle T1 of electric pole framework of steel reinforcement T below supports by support chains F2, and during energy, electric pole framework of steel reinforcement T rotates more smoothly and stable.

The utility model is not limited to above-mentioned example, and in claims limited range of the present utility model, the various distortion that those skilled in the art can make without creative work or modification are all subject to the protection of this patent.

Claims (10)

1. electric pole framework of steel reinforcement rotation localization machine (100), is characterized in that, comprises rotating part (A) and auxiliary rotary part (B);

Described rotating part (A) comprising: two servomotors (A1), two motor columns (A2), large index dial (A3) and little index dial (A4);

Two servomotors (A1), for driving respectively large index dial (A3) and little index dial (A4) to rotate;

Two motor columns (A2), be used for installing servomotor (A1), lower end is flexibly connected with casing (10), motor column (A2) can be along electric pole framework of steel reinforcement rotation localization machine (100) length direction way moving, and two motor columns (A2) are arranged at respectively the two ends on casing (10) length direction;

Large index dial (A3), for the butt (Tb) of fixing electric pole framework of steel reinforcement (T) and rotate electric pole framework of steel reinforcement (T), at circumferential edges, be provided with the reinforcing bar breach (A7) that several block main muscle (T1), after the main muscle (T1) and booster circle (T2) welding of electric pole framework of steel reinforcement (T), large index dial (A3) blocks the end of the main muscle of butt (Tb) (T1) by reinforcing bar breach (A7);

Little index dial (A4), for the top end (Ta) of fixing electric pole framework of steel reinforcement (T) and rotate electric pole framework of steel reinforcement (T), at circumferential edges, be provided with the reinforcing bar breach (A7) that several block main muscle (T1), after the main muscle (T1) and booster circle (T2) welding of electric pole framework of steel reinforcement (T), little index dial (A3) blocks the end of the main muscle of top end (Ta) (T1) by reinforcing bar breach (A7);

Described auxiliary rotary part (B), rotates for auxiliary rotary part (A), is at least provided with a set ofly, comprising: toggle mechanism (B1) and bracing frame (B2);

Toggle mechanism (B1), for the auxiliary main muscle (T1), auxiliary rotary electric pole framework of steel reinforcement (T) stirred;

Bracing frame (B2), for keeping the perpendicularity between booster circle (T2) and main muscle (T1), epimere stretches out casing (10), and hypomere is liftable to be arranged in casing (10);

Described toggle mechanism (B1) comprising: plectrum (B101) and stir cylinder (B102);

Plectrum (B101), for stirring main muscle (T1), auxiliary rotary part (A) is rotated the electric pole framework of steel reinforcement (T) in welding;

Stir cylinder (B102), for driving plectrum (B101), plectrum (B101) is arranged at the top of the piston rod of stirring cylinder (B102), stirs cylinder (B102) and is arranged in casing (10);

Support frame as described above (B2) comprising: clamping plate (B201) and support wheel (B202);

Clamping plate (B201) are provided with two, for keeping the perpendicularity between booster circle (T2) and main muscle (T1) in a set of auxiliary rotary part (B);

Support wheel (B202), in booster circle (T2) below, booster circle (T2) being provided support, and the rotation of auxiliary booster circle (T2), between setting and two clamping plate (B201);

The lower end of clamping plate (B201) is connected with casing (10).

2. electric pole framework of steel reinforcement as claimed in claim 1 rotates localization machine (100), it is characterized in that, described electric pole framework of steel reinforcement rotation localization machine (100) also comprises adjustment member (C), be used for adjusting the height of rotating part (A) and bracing frame (B2), to adapt to the electric pole framework of steel reinforcement (T) of different-diameter, described adjustment member (C) is arranged in casing;

Described adjustment member (C) comprising: index dial guiding mechanism (C1) and elevating mechanism (C2);

Index dial guiding mechanism (C1), be provided with two covers, be respectively used to adjust the height of large index dial (A3) and little index dial (A4) and with respect to the position on casing (10) length direction, the top of two cover index dial guiding mechanisms (C1) is connected respectively at the bottom of two motor columns (A2), and bottom is connected with casing (10);

Elevating mechanism (C2), is used for adjusting the height of bracing frame (B2) while using separately, be used for adjusting the height of large index dial (A3) and little index dial (A4) during as index dial guiding mechanism (C1) a part of;

Described index dial guiding mechanism (C1) comprising: index dial separating mechanism (C101) and elevating mechanism (C2);

Index dial separating mechanism (C101), for adjusting large index dial (A3) or little index dial (A4) with respect to the position on casing (10) length direction, to block or to deviate from electric pole framework of steel reinforcement (T);

Index dial separating mechanism (C101) comprising: horizontal dolly (C101a) and separation cylinder (C101b);

Horizontal dolly (C101a), be used for arranging elevating mechanism (C2), laterally dolly is slidably connected by being horizontally disposed with slide rail and casing (10), is provided with elevating mechanism (C2) on it, and the top of this elevating mechanism (C2) is connected with the bottom of motor column (A2);

Separation cylinder (C101b), for driving horizontal dolly (C101a) mobile, separation cylinder (C101b) bottom is connected with casing (10), and the other end is connected with horizontal dolly (C101a);

Described elevating mechanism (C2) comprising: lift cylinder (C202), and for the power source as Height Adjustment, its upper end is connected with the lower end of bracing frame (B2), and its lower end is connected with casing (10); Elevating mechanism (C2) is during as index dial guiding mechanism (C1) a part of, and the upper end of lift cylinder wherein (C202) is connected with motor column (A2), and lower end is connected with casing (10).

3. electric pole framework of steel reinforcement rotation localization machine (100) as claimed in claim 2, is characterized in that, described elevating mechanism (C2) also comprises lifting micro-adjusting mechanism (201), for the height that elevating mechanism (C2) is regulated, finely tunes;

Described lifting micro-adjusting mechanism (201) comprises contiguous block (C201a), elevating screw (C201b) and lower connecting block (C201c); The two ends up and down of elevating screw (C201b) are connected with lower connecting block (C201c) with upper contiguous block (C201a) respectively; Upper contiguous block (C201a) upper end is connected with the lower end of bracing frame (B2), and the lower end of lower connecting block (C201c) is connected with lift cylinder (C202); Elevating mechanism (C2) is during as index dial guiding mechanism (C1) a part of, and upper contiguous block (C201a) upper end is connected with the lower end of motor column (A2), and the lower end of lower connecting block (C201c) is connected with lift cylinder (C202).

4. the rotation of the electric pole framework of steel reinforcement as described in claim 1,2 or 3 localization machine (100), is characterized in that, two clamping plate (B201) in described a set of auxiliary rotary part (B) have the spacing that is greater than booster circle (T2) width 0.5～10mm; It is upper that servomotor (A1) is arranged at motor cabinet (A5), and motor cabinet (A5) is slidably connected by motor slide rail (A6) and casing (10).

5. electric pole framework of steel reinforcement automatic welding forming machine, is characterized in that, comprising:

Electric pole framework of steel reinforcement rotation localization machine (100) as described in claim 1 to 4, for main muscle (T1) and the booster circle (T2) of rotation and location formation electric pole framework of steel reinforcement (T),

Electric pole framework of steel reinforcement solder joint weldering knot machine (200), for main muscle (T1) and booster circle (T2) are welded together, makes the moulding of electric pole framework of steel reinforcement;

Electric pole framework of steel reinforcement solder joint weldering knot machine (200) is arranged at electric pole framework of steel reinforcement rotation localization machine (100) on one side.

6. electric pole framework of steel reinforcement automatic welding forming machine according to claim 5, is characterized in that, described electric pole framework of steel reinforcement solder joint weldering knot machine (200) comprising: some resistance welders (D) and adjustable jig (F);

Resistance welder (D) is for welding electric pole framework of steel reinforcement solder joint; Be arranged at the top of welding machine casing (20);

Adjustable jig, for supplemental support electric pole framework of steel reinforcement (T), is arranged at welding machine casing (20) towards a side of electric pole framework of steel reinforcement rotation localization machine (100).

7. electric pole framework of steel reinforcement automatic welding forming machine as claimed in claim 6, it is characterized in that, described resistance welder (D) comprising: positive electrode (D1), negative electrode (D2), negative pole drive cylinder (D3), anodal cylinder (D4) and the welding machine main frame (D5) of driving;

Positive electrode (D1) is electrically connected to welding machine main frame (D5), positive electrode (D1) is connected with anodal cylinder (D4) piston rod that drives, positive electrode (D1) comprises hook portion (D1a) and shank (D1b), shank (D1b) one end is connected with hook portion (D1a) one end, and the other end is connected with anodal cylinder (D4) piston rod that drives; Hook portion (D1a) higher than be wider than shank (D1b), form and laterally exceed portion (D1a1) and upwards exceed portion (D1a2), described formation laterally exceeds portion (D1a1) for catching on booster circle (T2), and the described portion (D1a2) that upwards exceeds is for coordinating negative electrode (D2) to form enough extruding forces to main muscle (T1) and booster circle (T2); Described shank (D1b) is provided with insulating part (D103) for avoiding the direct conducting both positive and negative polarity of main muscle (T1) to cause welding unsuccessfully towards the upper surface of one end of hook portion (D1a);

The anodal cylinder (D4) that drives is for driving positive electrode (D1) along electric pole framework of steel reinforcement solder joint weldering knot machine (200) length direction way moving, to catch on or to deviate from booster circle (T2);

Negative electrode (D2) is electrically connected to welding machine main frame (D5), and negative electrode (D2) drives cylinder (D3) piston rod to be connected with negative pole;

Negative pole drives cylinder (D3) for driving negative electrode (D2) along electric pole framework of steel reinforcement solder joint weldering knot machine (200) width way moving, to approach or away from positive electrode (D1);

Described plectrum (B101) is arranged between adjacent two positive electrodes (D1) or negative electrode (D2).

8. electric pole framework of steel reinforcement automatic welding forming machine as claimed in claim 7, is characterized in that, described laterally exceeding is provided with the permanent magnet (D101) for holding booster circle (T2) in portion (D1a1); Described insulating part (D103) is also provided with wear-resistant protection part (D102) above.

9. electric pole framework of steel reinforcement automatic welding forming machine as claimed in claim 6, it is characterized in that, described electric pole framework of steel reinforcement solder joint weldering knot machine (200) also comprises diameter adjusting mechanism (D6), for resistance welder (D) and positive and negative electrode thereof are welded to knot machine (200) width way moving along electric pole framework of steel reinforcement solder joint, to adapt to the electric pole framework of steel reinforcement (T) of different-diameter;

Described diameter adjusting mechanism (D6) comprising: base plate (D6a) and slide rail (D6b); It is upper that resistance welder (D) is arranged at base plate (D6a), and base plate (D6a) is slidably matched by slide rail (D6b) and welding machine casing (20), and base plate (D6a) is also useful on and drives its adjusting screw mandrel moving or adjustable cylinder to be connected.

10. electric pole framework of steel reinforcement automatic welding forming machine as claimed in claim 6, is characterized in that, described adjustable jig (F) comprising: jig (F1), support chains (F2) and screw lift (F3);

Jig (F1), for support chains (F2) is set, jig (F1) is arranged at the upper side by electric pole framework of steel reinforcement rotation localization machine (100) of electric pole framework of steel reinforcement solder joint weldering knot machine (200); Jig (F1) is provided with some windows, bracing frame (B2), stirs cylinder through these windows; Bracing frame (B2) and plectrum (B101), when lifting position, bracing frame (B2), are stirred cylinder the first half and are positioned on jig (F1); Bracing frame (B2) and plectrum (B101) are when down position, and bracing frame (B2) top and plectrum (B101) and jig (F1) maintain an equal level or lower than jig (F1);

Support chains (F2), for auxiliary sliding support electric pole framework of steel reinforcement (T), is arranged at the corresponding jig in electric pole framework of steel reinforcement (T) bottom (F1) upper, between adjacent two positive electrodes (D1) or negative electrode (D2);

Screw lift (F3), for adjusting jig (F1) height and gradient, makes to adjust the electric pole framework of steel reinforcement (T) that jig (F1) adapts to different-diameter; At least be provided with two, (F1) is hinged for top and jig, and bottom is fixedly connected with welding machine casing (20).

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