CN104944230B - Buckle armoring machine - Google Patents

Abstract

The invention discloses a buckle armoring machine. By the adoption of the buckle armoring machine, a special-shaped steel bar can be converted into the state that the steel bar is erected perpendicularly relative to the horizontal plane and advances along the vertical plane from the state that the steel bar is parallel to the horizontal plane and advances along the horizontal plane, the whole process is quite simple, the special-shaped steel bar is erected gradually through the gradual reduction of the width of peripheral grooves and will not be damaged, conversion is quite rapid, and therefore rapid damage-free state conversion of the spherical-shaped steel bar is achieved; besides, steering wheels are adopted, the steering wheels rotate continuously, so that continuous conveyance is achieved, and therefore the work efficiency is improved. The special-shaped steel bar enters a first forming gap and a second forming gap, the special-shaped steel bar is in a circular ring shape after leaving out of the first forming gap and the second forming gap, the special-shaped steel bar extends frontwards and backwards in a screw mode and then is buckled to another special-shaped steel bar, and then buckle armoring of ocean hoses can be achieved. The whole process is completed quite rapidly, continuous buckle armoring can be achieved through continuous rotation of all the wheels, and work efficiency is improved.

Description

A kind of lock armoring machine

Technical field

The present invention relates to lock armouring technical field, particularly to a kind of lock armoring machine.

Background technology

The application of current oil pipeline flexible pipe is more and more wider, and especially exploitation is increasingly poor by land, and submarine oil is opened Adopting proportion will be increasing, and the demand of ocean flexible pipe will certainly will be continued to increase.

When making bearing course, need special-shaped steel bar is incorporated on armoring machine, special-shaped steel bar includes s section steel bar and z The species such as section steel bar, special-shaped steel bar is that rolling is placed in itself, during introducing, needs by special-shaped steel bar endlessly Be wound on the flexible pipe of ocean, need special-shaped steel bar to change state in this process, need special-shaped steel bar commutation, from horizontal plane State Transferring that is parallel and advancing along the horizontal plane is with respect to the horizontal plane to hold up state that is vertical and advancing along vertical, this Conversion is extremely complex, and easily produces loss in itself to special-shaped steel bar.

Simultaneously for the protective case being formed after special-shaped steel bar armouring, the shaping efficiency of special-shaped steel bar itself is relatively low, and When being applied to the armouring on the flexible pipe of ocean, packaging efficiency is relatively low, and flexible pipe existing bearing course in ocean adopts steel band, flat wire, makes Bearing capacity is relatively low afterwards, may be only available for shallower marine site, and deeper marine site is not all right.

Therefore, how to provide a kind of lock armoring machine, changed with the quick nondestructive realizing profile iron bar state and improve life Produce efficiency, be the current technical issues that need to address of those skilled in the art.

Content of the invention

It is an object of the invention to provide a kind of lock armoring machine, changed with the quick nondestructive realizing profile iron bar state and carry High efficiency.

For solving above-mentioned technical problem, the present invention following scheme of offer:

A kind of lock armoring machine, including armoring machine body, feed wheel and conduction band commutation shaped device, wherein, described ribbon supply Take turns as two, be located at the upper and lower of described armoring machine body respectively, described conduction band commutation shaped device is two, positioned at institute State the top of armoring machine body and be distributed up and down, use cooperatively with two described feed wheels, described conduction band commutation shaped device bag Include reversing arrangement, molding wheel body and support, described reversing arrangement and described molding wheel body are arranged on described support, wherein, institute State reversing arrangement and include being divided into spaced first row deflecting roller and second row deflecting roller up and down, described second row deflecting roller bag Include multiple deflecting rollers with circumferential slot, the width of the circumferential slot on deflecting roller in described second row deflecting roller is from A-P successively Reduce, the circumferential well width on first deflecting roller of described second row deflecting roller is not less than the width of described abnormity steel bar, institute State the thickness that circumferential well width on last deflecting roller of second row deflecting roller is not less than described abnormity steel bar, described first Row's deflecting roller and described second row deflecting roller are all to switch to be vertically arranged by being horizontally disposed with from A-P, and described molding wheel body includes First briquetting roller, the second briquetting roller and the 3rd briquetting roller, on described first briquetting roller, radial center face is to the right is provided with the first ring Shape is raised, and on described second briquetting roller, radial center face is to the left is provided with the second annular protrusion, on described 3rd briquetting roller radially Median plane is to the right to be provided with the 3rd annular protrusion, and the center of circle of described first briquetting roller and described 3rd briquetting roller is positioned at same vertical On line, described second briquetting roller is located at the side of described first briquetting roller and described 3rd briquetting roller and part cuts described first Between briquetting roller and described 3rd briquetting roller, described first briquetting roller and described second briquetting roller form the first forming gap, institute State the second briquetting roller and described 3rd briquetting roller forms the second forming gap, described first row deflecting roller and described second row turn to The outlet of wheel is used cooperatively up and down with described first forming gap, the reversing arrangement of one of described conduction band commutation shaped device Upper, molding wheel body under, conduction band described in another one commutate shaped device reversing arrangement under, molding wheel body upper, and Second forming gap of two described conduction band commutation shaped devices is correspondingly arranged.

Preferably, above-mentioned first row deflecting roller and described second row deflecting roller are all to switch to hang down by being horizontally disposed with from A-P Into arc setting at the changing of straight setting.

Preferably, between the outlet of above-mentioned first row deflecting roller and described second row deflecting roller and described first forming gap Be additionally provided with alignment wheel body, described alignment wheel body includes at least three straightening-wheels, the respectively first straightening-wheel, the second straightening-wheel and 3rd straightening-wheel, the center of circle of described first straightening-wheel and described 3rd straightening-wheel is located on same vertical line, described second alignment Wheel is located at the side of described first straightening-wheel and described 3rd straightening-wheel and part cuts described first straightening-wheel and the described 3rd Between straightening-wheel, described first straightening-wheel and described second straightening-wheel form the first alignment gap, described second straightening-wheel and institute State the 3rd straightening-wheel and form the second alignment gap.

Preferably, above-mentioned alignment wheel body also includes the 4th straightening-wheel and the 5th straightening-wheel, the center of circle of described 5th straightening-wheel It is located on same vertical line with the center of circle of described first straightening-wheel, described 3rd straightening-wheel, described 4th straightening-wheel and described the Two straightening-wheels are located on same vertical line and described 4th straightening-wheel part cuts described 3rd straightening-wheel and described 5th alignment Between wheel, described 4th straightening-wheel and described 3rd straightening-wheel form the 3rd alignment gap, described 4th straightening-wheel and described the Five straightening-wheels form the 4th alignment gap.

Preferably, above-mentioned 4th straightening-wheel is provided with the first threaded rod, described support is provided with the first screwed hole, institute State the first threaded rod to be arranged in described first screwed hole.

Preferably, above-mentioned second straightening-wheel is provided with the second threaded rod, described support is provided with the second screwed hole, institute State the second threaded rod to be arranged in described second screwed hole.

Preferably, above-mentioned first briquetting roller is provided with the 3rd threaded rod, described support is provided with the 3rd screwed hole, institute State the 3rd threaded rod to be arranged in described 3rd screwed hole, described 3rd briquetting roller is provided with the 4th threaded rod, described support On be provided with the 4th screwed hole, described 4th threaded rod is arranged in described 4th screwed hole.

Preferably, it is additionally provided with cord grip between above-mentioned alignment wheel body and described reversing arrangement, described cord grip bag Include tension disc and two fabric wheels being arranged on described tension disc, two described fabric wheel interval settings, form line ball gap.

Preferably, it is provided with the 5th threaded rod, described pressure on one of described fabric wheel in above-mentioned lock armoring machine 5th screwed hole is provided with line plate, described 5th threaded rod is arranged in described 5th screwed hole.

The lock armoring machine that the invention described above is provided, including armoring machine body, feed wheel and conduction band commutation shaped device, Wherein, described feed wheel is two, is located at the upper and lower of described armoring machine body, described conduction band commutation shaped device respectively For two, it is distributed positioned at the top of described armoring machine body and up and down, use cooperatively with two described feed wheels, described conduction band changes Include reversing arrangement, molding wheel body and support to shaped device, described reversing arrangement and described molding wheel body are arranged on described On frame, wherein, described reversing arrangement includes being divided into spaced first row deflecting roller and second row deflecting roller up and down, and described Two row's deflecting rollers include multiple deflecting rollers with circumferential slot, the width of the circumferential slot on deflecting roller in described second row deflecting roller Reduce successively from A-P, the circumferential well width on first deflecting roller of described second row deflecting roller is not less than described profile iron The width of bar, the circumferential well width on last deflecting roller of described second row deflecting roller is not less than the thickness of described abnormity steel bar Degree, described first row deflecting roller and described second row deflecting roller are all to switch to be vertically arranged by being horizontally disposed with from A-P, described Molding wheel body includes the first briquetting roller, the second briquetting roller and the 3rd briquetting roller, and on described first briquetting roller, radial center face is to the right It is provided with first annular projection, on described second briquetting roller, radial center face is to the left is provided with the second annular protrusion, the described 3rd On briquetting roller, radial center face is to the right is provided with the 3rd annular protrusion, the center of circle of described first briquetting roller and described 3rd briquetting roller On same vertical line, described second briquetting roller is located at side and the part of described first briquetting roller and described 3rd briquetting roller Cut between described first briquetting roller and described 3rd briquetting roller, described first briquetting roller and described second briquetting roller form first Forming gap, described second briquetting roller and described 3rd briquetting roller form the second forming gap, described first row deflecting roller and institute State the outlet of second row deflecting roller and described first forming gap uses cooperatively up and down, one of described conduction band commutation molding dress The reversing arrangement put upper, molding wheel body under, conduction band described in another one commutate shaped device reversing arrangement under, molding Wheel body is upper, and commutate the second forming gap of shaped devices of two described conduction bands is correspondingly arranged.

During use, feed wheel provides special-shaped steel bar, and special-shaped steel bar turns to from described first row deflecting roller and described second row The front end of wheel enters in interval in the state with plane-parallel, the circumferential slot on first deflecting roller of second row deflecting roller Width is not less than the width of special-shaped steel bar, and the entrance of convenient abnormity steel bar, with deflecting roller in described second row deflecting roller The width of circumferential slot reduces successively from A-P, and special-shaped steel bar is gradually holded up, and overturns 90 °, turns from the state with plane-parallel It is changed to the state parallel with vertical, the circumferential well width on last deflecting roller of second row deflecting roller is not less than described different The thickness of shape steel bar, the passing of convenient abnormity steel bar, and, due to first row deflecting roller and described second row deflecting roller from front extremely It is all to switch to be vertically arranged by being horizontally disposed with afterwards, then the direction of advance of special-shaped steel bar switchs to vertically advance by horizontally advancing, from And achieve special-shaped steel bar from plane-parallel and the state advanced along the horizontal plane to respect to the horizontal plane hold up vertical and The conversion of the state advanced along water vertical, whole process is very simple, using circumferential well width be gradually reduced make special-shaped Steel bar gradually hold up come, special-shaped steel bar will not be caused damage, and change very fast it is achieved that profile iron bar state fast The lossless conversion of speed, and use deflecting roller, all of deflecting roller persistently rotates and can achieve and persistently convey, and improves work Efficiency.

Then, special-shaped steel bar enters in molding wheel body, actually enters the first forming gap and the second forming gap In, it is provided with first annular projection because radial center face is to the right on the first briquetting roller, on the second briquetting roller, radial center face is inclined A left side is provided with the second annular protrusion, and on the 3rd briquetting roller, radial center face is to the right is provided with the 3rd annular protrusion, and special-shaped steel bar exists In first forming gap and the second forming gap out after, molding can form toroidal and in spiral extension in front and back, Another special-shaped steel bar button out when the shaped device that commutated with another group of conduction band provided by the present invention more afterwards is used cooperatively It is combined, you can form the lock armouring to ocean flexible pipe, whole process is very quick, all of wheel persistently rotates can be real Now persistently latch armouring, improve work efficiency.

And, one of described conduction band commutate shaped device reversing arrangement upper, molding wheel body under, another one Described conduction band commutate shaped device reversing arrangement under, molding wheel body is upper, and two described conduction bands commutate shaped devices Second forming gap is correspondingly arranged, when two special-shaped steel bars are respectively from the second forming gap that two conduction bands commutate shaped device After passing, it is respectively formed toroidal and in spiral extension in front and back, armouring is covered to complete, you can realize the lock to ocean flexible pipe Armouring.

Brief description

Alignment wheel body that Fig. 1 is provided by the embodiment of the present invention and the side structure schematic view that molding wheel body uses cooperatively；

The forward sight knot that alignment wheel body, molding wheel body and the belt pressing device that Fig. 2 is provided by the embodiment of the present invention uses cooperatively Structure schematic diagram；

The cross section structure diagram of the cord grip that Fig. 3 is provided by the embodiment of the present invention；

The structural representation that the s shape steel bar that Fig. 4 is provided by the embodiment of the present invention is used cooperatively with molding wheel body；

The structural representation of the reversing arrangement that Fig. 5 is provided by the embodiment of the present invention；

The structural representation of the conduction band commutation shaped device that Fig. 6 is provided by the embodiment of the present invention；

The structural representation of the lock armoring machine that Fig. 7 is provided by the embodiment of the present invention；

The structural representation that two conduction bands commutation shaped devices that Fig. 8 is provided by the embodiment of the present invention use cooperatively.

In figure 1 above -8:

First straightening-wheel 11, the second straightening-wheel 12, the 3rd straightening-wheel 13, the 4th straightening-wheel 14, the 5th straightening-wheel 15, first Briquetting roller 21, the second briquetting roller 22, the 3rd briquetting roller 23, first annular raised 24, the second annular protrusion 25, the 3rd annular protrusion 26th, the first threaded rod 31, the second threaded rod 32, the 3rd threaded rod 33, the 4th threaded rod 34, the 5th threaded rod 35, support 4, pressure Line apparatus 5, fabric wheel 51, fabric wheel 52, tension disc 53, special-shaped steel bar 6, s shape steel bar 7, first row deflecting roller 81, second row turn To wheel 82, fixed plate 83, upwarp portion 84, feed wheel 9.

Specific embodiment

In order that those skilled in the art more fully understand the present invention program, below in conjunction with the accompanying drawings and be embodied as The present invention is described in further detail for mode.

Refer to Fig. 1-Fig. 8, the alignment wheel body that Fig. 1 is provided by the embodiment of the present invention and the side that molding wheel body uses cooperatively Depending on structural representation；Before alignment wheel body, molding wheel body and the belt pressing device that Fig. 2 is provided by the embodiment of the present invention uses cooperatively Depending on structural representation；The cross section structure diagram of the cord grip that Fig. 3 is provided by the embodiment of the present invention；Fig. 4 is that the present invention is real The structural representation that the s shape steel bar that applying example is provided is used cooperatively with molding wheel body；Fig. 5 is changing that the embodiment of the present invention is provided Structural representation to device；The structural representation of the conduction band commutation shaped device that Fig. 6 is provided by the embodiment of the present invention；Fig. 7 The structural representation of the lock armoring machine being provided by the embodiment of the present invention；There is provided by the embodiment of the present invention two of Fig. 8 lead The structural representation using cooperatively with commutation shaped device.

The embodiment of the present invention provides a kind of lock armoring machine, including armoring machine body, feed wheel and conduction band commutation molding dress Put, wherein, feed wheel 9 is two, be located at the upper and lower of armoring machine body respectively, conduction band commutation shaped device is two, It is distributed positioned at the top of armoring machine body and up and down, uses cooperatively with two feed wheels 9, conduction band commutation shaped device includes commutating Device, molding wheel body and support, reversing arrangement and molding wheel body are arranged on support, and wherein, reversing arrangement includes being divided into up and down Spaced first row deflecting roller 81 and second row deflecting roller 82, second row deflecting roller 82 include multiple have circumferential slot turn To wheel, wherein, the width of the circumferential slot on deflecting roller in second row deflecting roller 82 reduces successively from A-P, wherein, second row Circumferential well width on first deflecting roller of deflecting roller 82 is not less than the width of special-shaped steel bar 6, and second row deflecting roller 82 is Circumferential well width on a deflecting roller is not less than thickness, first row deflecting roller 81 and the second row deflecting roller of special-shaped steel bar 6 afterwards 82 is all to switch to be vertically arranged by being horizontally disposed with from A-P, one of conduction band commutate shaped device reversing arrangement upper, Molding wheel body under, another one conduction band commutate shaped device reversing arrangement under, molding wheel body is upper, and two conduction bands change It is correspondingly arranged to the second forming gap of shaped device.

During use, feed wheel 9 provides special-shaped steel bar 6, and special-shaped steel bar 6 is from first row deflecting roller 81 and second row deflecting roller 82 Front end be in enter in interval with the state of plane-parallel, the circumferential slot on first deflecting roller of second row deflecting roller 82 Width is not less than the width of special-shaped steel bar 6, and the entrance of convenient abnormity steel bar 6, with deflecting roller in second row deflecting roller 82 The width of circumferential slot reduces successively from A-P, and special-shaped steel bar 6 is gradually holded up, and overturns 90 °, turns from the state with plane-parallel It is changed to the state parallel with vertical, the circumferential well width on last deflecting roller of second row deflecting roller 82 is not less than abnormity The thickness of steel bar 6, the passing of convenient abnormity steel bar 6, and, due to first row deflecting roller 81 and second row deflecting roller 82 from front extremely It is all to switch to be vertically arranged by being horizontally disposed with afterwards, then the direction of advance of special-shaped steel bar 6 switchs to vertically advance by horizontally advancing, from And achieve special-shaped steel bar 6 from plane-parallel and the state advanced along the horizontal plane to respect to the horizontal plane hold up vertical and It is achieved that dual commutation, whole process is very simple for the conversion of the state advanced along water vertical, using circumferential well width by Tapered little so that special-shaped steel bar 6 gradually hold up come, special-shaped steel bar 6 will not be caused damage, and change very fast it is achieved that The quick nondestructive conversion of special-shaped steel bar 6 state, and use deflecting roller, all of deflecting roller persistently rotates i.e. achievable holding Continuous conveying, improves work efficiency.

And molding wheel body includes the first briquetting roller 21, the second briquetting roller 22 and the 3rd briquetting roller 23, on the first briquetting roller 21 Radial center face is to the right to be provided with first annular raised 24, and on the second briquetting roller 22, radial center face is to the left is provided with the second annular Raised 25, on the 3rd briquetting roller 23, radial center face is to the right is provided with the 3rd annular protrusion 26, and the first briquetting roller 21 becomes with the 3rd The center of circle of type wheel 23 is located on same vertical line, and the second briquetting roller 22 is located at the side of the first briquetting roller 21 and the 3rd briquetting roller 23 And between part incision the first briquetting roller 21 and the 3rd briquetting roller 23, the first briquetting roller 21 forms first with the second briquetting roller 22 and becomes Type gap, the second briquetting roller 22 and the 3rd briquetting roller 23 form the second forming gap, and first row deflecting roller 81 and second row turn to The outlet of wheel 82 is used cooperatively up and down with the first forming gap.As shown in figure 4, because special-shaped steel bar 6 includes s section steel bar 7 and z The species such as section steel bar, the structural representation that the s shape steel bar that Fig. 4 is provided by the embodiment of the present invention is used cooperatively with molding wheel body, Actually z shape steel bar is also possible.Then, special-shaped steel bar 6 enters in molding wheel body, actually enters between the first molding In gap and the second forming gap, that is, out enter into afterwards from the outlet of first row deflecting roller 81 and second row deflecting roller 82 In one forming gap, it is provided with first annular raised 24 because radial center face is to the right on the first briquetting roller 21, the second briquetting roller On 22, radial center face is to the left is provided with the second annular protrusion 25, and on the 3rd briquetting roller 23, radial center face is to the right is provided with the 3rd Annular protrusion 26, special-shaped steel bar 6 in the first forming gap and the second forming gap out after, can molding formed annular Shape and in spiral extension in front and back, when being used cooperatively with another group of conduction band commutation shaped device provided by the present invention more afterwards Another special-shaped steel bar 6 coming snaps together, you can form the lock armouring to ocean flexible pipe, whole process is very quick, All of wheel persistently rotates and can achieve persistently lock armouring, improves work efficiency.

And, one of conduction band commutate shaped device reversing arrangement upper, molding wheel body under, another one conduction band The reversing arrangement of commutation shaped device under, molding wheel body is upper, and two conduction bands commutate the second forming gap of shaped devices It is correspondingly arranged, after two special-shaped steel bars 6 pass respectively from the second forming gap that two conduction bands commutate shaped device, equal shape Become toroidal and in spiral extension in front and back, armouring is covered to complete, you can realize the lock armouring to ocean flexible pipe.

Wherein, first row deflecting roller 81 and second row deflecting roller 82 are all to switch to be vertically arranged by being horizontally disposed with from A-P Change at into arc setting.So, when special-shaped steel bar 6 from the state advanced along the horizontal plane to the state advanced along water vertical Conversion when, can be very smooth, will not lead to block because corner is too small, and, for the profile iron meanwhile carrying out Bar 6 is also very favorable from the state with plane-parallel to the conversion with respect to the horizontal plane holding up vertical state.Best It is that arc has the portion of upwarping 84, that is, arc setting is actually the arc setting of a tilting, significantly increases turning Radius is so that the conversion of the state of special-shaped steel bar 6 is more smooth.

Wherein, it is additionally provided with school between the outlet of first row deflecting roller 81 and second row deflecting roller 82 and the first forming gap Through ship body, alignment wheel body includes at least three straightening-wheels, the respectively first straightening-wheel 11, the second straightening-wheel 12 and the 3rd straightening-wheel 13, the center of circle of the first straightening-wheel 11 and the 3rd straightening-wheel 13 is located on same vertical line, and the second straightening-wheel 12 is located at the first alignment Between the side of wheel 11 and the 3rd straightening-wheel 13 and part incision the first straightening-wheel 11 and the 3rd straightening-wheel 13, the first straightening-wheel 11 Form the first alignment gap with the second straightening-wheel 12, the second straightening-wheel 12 and the 3rd straightening-wheel 13 form the second alignment gap, first First it is contemplated that the special-shaped steel bar 6 used by when armouring is when guider comes, special-shaped steel bar 6 is not completely in itself Smooth, typically have some bendings or tilt, and there is some steering forces or other active force impact profile iron Bar 6 smooth, behind the first alignment gap and the second alignment gap, the first straightening-wheel 11, the second straightening-wheel 12 and the 3rd Straightening-wheel 13 persistently carries out to special-shaped steel bar 6 extruding alignment, ensure that the position of special-shaped steel bar 6 is smooth, and eliminates The impact of other active forces, the special-shaped steel bar 6 after alignment enters in the first forming gap and the second forming gap.

Certainly, alignment wheel body also includes the 4th straightening-wheel 14 and the 5th straightening-wheel 15, the center of circle of the 5th straightening-wheel 15 and One straightening-wheel 11, the center of circle of the 3rd straightening-wheel 13 are located on same vertical line, and the 4th straightening-wheel 14 and the second straightening-wheel 12 are located at On same vertical line and between the 4th straightening-wheel 14 part incision the 3rd straightening-wheel 13 and the 5th straightening-wheel 15, the 4th straightening-wheel 14 Form the 3rd alignment gap with the 3rd straightening-wheel 13, the 4th straightening-wheel 14 and the 5th straightening-wheel 15 form the 4th alignment gap.Increase Plus two alignment gaps, more preferably multiple alignment can be carried out to special-shaped steel bar 6.

Wherein, the second straightening-wheel 12 is provided with the second threaded rod 32, support 4 is provided with the second screwed hole, the second spiral shell Rasp bar 32 is arranged in the second screwed hole, the 4th straightening-wheel 14 is provided with the first threaded rod 31, support 4 is provided with the first spiral shell Pit, the first threaded rod 31 is arranged in the first screwed hole.Special-shaped steel bar 6 by being adopted during actual production is different , its width, hardness, length etc. its data is different it is therefore desirable to be adjusted between the first alignment according to practical situation Gap, the size in the second alignment gap, the 3rd alignment gap and the 4th alignment gap, then can be by rotating the first threaded rod 31 To realize with the second threaded rod 32.When the first threaded rod 31 and the second threaded rod 32 rotate, the second straightening-wheel 12 and the 4th school Through ship 14 can move left and right, thus reaching regulation the first alignment gap, the second alignment gap, the 3rd alignment gap and the 4th alignment The purpose of the size in gap.In order to reduce cost of manufacture, the first straightening-wheel 11, the 3rd straightening-wheel 13 and the 5th straightening-wheel 15 are permissible Be immovable can only rotate be arranged on support 4.

So, meanwhile, the size of the first forming gap and the second forming gap is also intended to the difference of special-shaped steel bar 6 enter The corresponding regulation of row, then the 3rd threaded rod 33 is provided with the first briquetting roller 21, support 4 is provided with the 3rd screwed hole, 3rd threaded rod 33 is arranged in the 3rd screwed hole, the 3rd briquetting roller 23 is provided with the 4th threaded rod 34, support 4 is provided with 4th screwed hole, the 4th threaded rod 34 is arranged in the 4th screwed hole.By rotating the 3rd threaded rod 33 and the 4th threaded rod 34 To realize adjusting.When the 3rd threaded rod 33 and the 4th threaded rod 34 rotate, the first briquetting roller 21 and the 3rd briquetting roller 23 can be left Move right, thus reach adjust between the first molding and the second forming gap size purpose, and, the first forming gap and the The size adjustment of two forming gap is implemented separately.In order to reduce cost of manufacture, the second briquetting roller 22 can be immovable Can only rotate is arranged on support 4.

Meanwhile, it is also provided with cord grip between alignment wheel body and reversing arrangement it is contemplated that working as different used by armouring When guider comes, special-shaped steel bar 6 is not completely smooth to shape steel bar 6 in itself, typically has some bendings Or tilt, and there is the smooth of some steering forces or the special-shaped steel bar 6 of other active force impact, then in special-shaped steel bar Before 6 enter alignment wheel body, cord grip 5 can also be provided with above alignment wheel body, as shown in Fig. 2 cord grip 5 wraps Include tension disc 53 and two fabric wheels being arranged on tension disc 53, two fabric wheel interval settings, form line ball gap.Pass through Two fabric wheels carry out finishing operations to special-shaped steel bar 6, then the effect of alignment can be more preferable, and in order to adapt to the different of different size Shape steel bar 6, one of fabric wheel 51 is provided with the 5th threaded rod 55, and tension disc 53 is provided with the 5th screwed hole, and the 5th Threaded rod 55 is arranged in the 5th screwed hole, rotates the 5th threaded rod 55, this fabric wheel 51 can move left and right, and another line ball Wheel 52 can be constant with holding position, then the gap between two fabric wheels can adjust, thus adapting to the abnormity of different size Steel bar 6.

Specific case used herein is set forth to the principle of the present invention and embodiment, the saying of above example Bright it is only intended to help and understands the method for the present invention and its core concept.It should be pointed out that the ordinary skill for the art For personnel, under the premise without departing from the principles of the invention, the present invention can also be carried out with some improvement and modify, these improvement Also fall in the protection domain of the claims in the present invention with modifying.

Claims (9)

1. one kind latches armoring machine it is characterised in that including armoring machine body, feed wheel and conduction band commutation shaped device,

Wherein, described feed wheel is two, is located at the upper and lower of described armoring machine body, described conduction band commutation molding respectively Device is two, is distributed positioned at the top of described armoring machine body and up and down, uses cooperatively with two described feed wheels,

Described conduction band commutation shaped device includes reversing arrangement, molding wheel body and support, described reversing arrangement and described briquetting roller Body arranges on the bracket,

Wherein, described reversing arrangement includes being divided into spaced first row deflecting roller and second row deflecting roller up and down, and described Two row's deflecting rollers include multiple deflecting rollers with circumferential slot,

The width of the circumferential slot on deflecting roller in described second row deflecting roller reduces successively from A-P, described second row deflecting roller First deflecting roller on circumferential well width be not less than the width of special-shaped steel bar, last of described second row deflecting roller turns It is not less than the thickness of described abnormity steel bar to the circumferential well width on wheel,

Described first row deflecting roller and described second row deflecting roller are all to switch to be vertically arranged by being horizontally disposed with from A-P,

Described molding wheel body includes the first briquetting roller, the second briquetting roller and the 3rd briquetting roller, in radial direction on described first briquetting roller Heart face is to the right to be provided with first annular projection, and on described second briquetting roller, radial center face is to the left is provided with the second annular protrusion, On described 3rd briquetting roller, radial center face is to the right is provided with the 3rd annular protrusion,

The center of circle of described first briquetting roller and described 3rd briquetting roller is located on same vertical line, and described second briquetting roller is located at institute State the side of the first briquetting roller and described 3rd briquetting roller and part cut described first briquetting roller and described 3rd briquetting roller it Between, described first briquetting roller and described second briquetting roller form the first forming gap, and described second briquetting roller becomes with the described 3rd Type wheel forms the second forming gap,

The outlet of described first row deflecting roller and described second row deflecting roller is used cooperatively up and down with described first forming gap,

One of described conduction band commutate shaped device reversing arrangement upper, molding wheel body under, conduction band described in another one The reversing arrangement of commutation shaped device under, molding wheel body is upper, and two described conduction bands commutate the second molding of shaped devices Gap is correspondingly arranged.

2. lock armoring machine according to claim 1 is it is characterised in that described first row deflecting roller and described second row turn To wheel from A-P be all by be horizontally disposed with switch to vertically disposed change into arc setting.

3. lock armoring machine according to claim 1 is it is characterised in that described first row deflecting roller and described second row turn It is additionally provided with alignment wheel body between the outlet of wheel and described first forming gap, described alignment wheel body includes at least three alignments Wheel, the respectively first straightening-wheel, the second straightening-wheel and the 3rd straightening-wheel, the circle of described first straightening-wheel and described 3rd straightening-wheel The heart is located on same vertical line, and described second straightening-wheel is located at side and the portion of described first straightening-wheel and described 3rd straightening-wheel Cut between described first straightening-wheel and described 3rd straightening-wheel, described first straightening-wheel and described second straightening-wheel form the One alignment gap, described second straightening-wheel and described 3rd straightening-wheel form the second alignment gap.

4. according to claim 3 lock armoring machine it is characterised in that described alignment wheel body also include the 4th straightening-wheel and 5th straightening-wheel, the center of circle of described 5th straightening-wheel and described first straightening-wheel, the center of circle of described 3rd straightening-wheel are located at same On vertical line, on same vertical line and described 4th straightening-wheel part is cut for described 4th straightening-wheel and described second straightening-wheel Enter between described 3rd straightening-wheel and described 5th straightening-wheel, described 4th straightening-wheel forms the 3rd school with described 3rd straightening-wheel Straight gap, described 4th straightening-wheel forms the 4th alignment gap with described 5th straightening-wheel.

5. lock armoring machine according to claim 4 is it is characterised in that be provided with the first screw thread on described 4th straightening-wheel Bar, described support is provided with the first screwed hole, and described first threaded rod is arranged in described first screwed hole.

6. lock armoring machine according to claim 3 is it is characterised in that be provided with the second screw thread on described second straightening-wheel Bar, described support is provided with the second screwed hole, and described second threaded rod is arranged in described second screwed hole.

7. lock armoring machine according to claim 1 is it is characterised in that be provided with the 3rd screw thread on described first briquetting roller Bar, described support is provided with the 3rd screwed hole, and described 3rd threaded rod is arranged in described 3rd screwed hole,

It is provided with the 4th threaded rod on described 3rd briquetting roller, described support is provided with the 4th screwed hole, described 4th screw thread Bar is arranged in described 4th screwed hole.

8. lock armoring machine according to claim 3 is it is characterised in that between described alignment wheel body and described reversing arrangement It is additionally provided with cord grip, described cord grip includes tension disc and two fabric wheels being arranged on described tension disc, two Described fabric wheel interval setting, forms line ball gap.

9. lock armoring machine according to claim 8 is it is characterised in that be provided with the 5th on one of described fabric wheel Threaded rod, described tension disc is provided with the 5th screwed hole, and described 5th threaded rod is arranged in described 5th screwed hole.