CN209578301U - Skirtboard slitting conveying integrated machine - Google Patents

Abstract

It includes the cutting mechanism for coiled steel disc to be cut into the skirtboard blank of strip that the utility model, which discloses a kind of skirtboard slitting conveying integrated machine,；The surrounding of skirtboard blank for cutting cutting mechanism is aligned, and the skirtboard blank that surrounding is aligned is delivered to the arrangement conveying mechanism of subsequent processing.Since coiled steel disc can be cut into the skirtboard blank of strip by cutting mechanism, arrange the surrounding alignment of the strip skirtboard blank formed after conveying mechanism can cut cutting mechanism, and the skirtboard blank that surrounding is aligned is delivered to subsequent processing, the processing such as edge rolling, welding and molding is carried out to skirtboard blank convenient for next manufacturing procedure, with process can be with the skirtboard of end plate connection, consequently facilitating realizing the automation of skirtboard production, the efficiency of skirtboard production is improved.

Description

Skirtboard slitting conveying integrated machine

Technical field

The utility model relates to machine components processing equipment field, a kind of specific skirtboard slitting conveying integrated machine.

Background technique

It is needed in tubular pole molding at its both ends for the ease of the connection of tubular pole (PHC piles) It places and is machined with the end plate (also known as pile end board) of screw hole, after concrete setting for forming tubular pole, concrete and end plate It is connected to form tubular pole.In order to avoid concrete leakage, while avoid tubular pole during using and transport end plate with mix Solidifying soil separation, skirtboard is also connected on end plate, and (also known as steel hoop or pile protection hoop are welded using strip steel disc as blank edge rolling Connect), skirtboard is located at one end towards concrete of end plate.

It since the dosage of tubular pole is larger, and is needed on a tubular pole using two end plates and two skirtboards, i.e. skirtboard makes Dosage is also very huge, also quite huge accordingly, for the demand of this skirtboard blank for being used to prepare skirtboard of strip steel disc Greatly.But it is unfavorable for the automation of skirtboard production without the equipment of batch production skirtboard blank in the prior art.

Utility model content

In order to meet the needs of skirtboard output, one aspect according to the present utility model, providing one kind being capable of batch The skirtboard slitting conveying integrated machine of skirtboard blank is produced, in order to realize the automation of skirtboard production.

The skirtboard slitting conveying integrated machine includes the cutting for coiled steel disc to be cut into the skirtboard blank of strip Mechanism；The surrounding of skirtboard blank for cutting cutting mechanism is aligned, and the skirtboard blank that surrounding is aligned is delivered to next The arrangement conveying mechanism of process.Since coiled steel disc can be cut into the skirtboard blank of strip by cutting mechanism, arrange defeated The surrounding of the strip skirtboard blank formed after sending mechanism that can cut cutting mechanism is aligned, and the skirtboard base that surrounding is aligned Material is delivered to subsequent processing, the processing such as edge rolling, welding and molding is carried out to skirtboard blank convenient for next manufacturing procedure, to process , consequently facilitating realizing the automation of skirtboard production, the efficiency of skirtboard production can be improved with the skirtboard of end plate connection.

In some embodiments, which further includes the skirtboard base for cutting cutting mechanism Material is delivered to the transshipment acitivity on the conveyor surface for arranging conveying mechanism.It, can be by turning as a result, when cutting mechanism cuts steel disc Mechanism supports steel disc is transported, avoids cutting mechanism because no component supports steel disc to be cut, and steel disc is cut out askew；In addition, conveyance The skirtboard blank for completing to cut can also be delivered on the conveyor surface for arranging conveying mechanism by structure, will be complete convenient for arranging conveying mechanism At the surrounding alignment of the skirtboard blank of cutting, and the skirtboard blank that surrounding is aligned is delivered to subsequent processing.

In some embodiments, which further includes rack；Transshipment acitivity includes the first push plate With the first rotating mechanism, the first rotating mechanism is set on the rack, and the first push plate is located at the discharge end of cutting mechanism, the first rotating machine Structure for driving the first push plate rotation, with support steel disc wait cut or by cutting after the skirtboard blank that is formed be turned to arrange it is defeated It send on the conveyor surface of mechanism.As a result, when cutting mechanism cuts steel disc, the first push plate can support steel disc to be cut, to keep away Exempt from steel disc to be cut to be subjected to displacement due to the gravity by itself during the cutting process, the skirtboard blank for causing cutting mechanism to cut Notch be not a straight line perpendicular to skirtboard blank extending direction, and then cause subsequent processing to volume circle skirtboard blank into When row welding, the both ends of skirtboard blank can not be completely combined, and reduce the qualification rate of skirtboard production.

In some embodiments, rotating mechanism further includes the length adjusting mechanism for adjusting the length of skirtboard blank, Length adjusting mechanism is located in the first push plate.Thus, it is possible to adjust the length of skirtboard blank, by length adjusting mechanism to pass through The skirtboard slitting conveying integrated machine cuts out the skirtboard blank of different length.

In some embodiments, rotating mechanism further includes for providing buffer function to the steel disc for being delivered to rotating mechanism Buffer gear, the first push plate and cutting mechanism are set on the rack by buffer gear.Thus, it is possible to be given by buffer gear It is transported to steel disc buffering to be cut in the first push plate, warpage occurs because of impact to avoid steel disc, leads to the skirtboard after cutting Billet size is inconsistent.

In some embodiments, transshipment acitivity further includes cover board, and cover board is set on the rack, and is located at the back of the first push plate From the side for arranging conveying mechanism, one end close to cutting mechanism of cover board is set towards away from the direction inclination for arranging conveying mechanism It sets.Since cutting mechanism is when starting to cut steel disc or when completing to cut, steel disc may be because being pushed away by cutting mechanism and/or first The active force of plate and swing, cover board is set away from the side for arranging conveying mechanism in the first push plate, can be to avoid steel disc Amplitude of fluctuation is too big during the cutting process, and the section out-of-flatness for the skirtboard blank for causing cutting mechanism to cut reduces cutting mechanism Cutting quality.

In some embodiments, the skirtboard slitting conveying integrated machine further include for will be to be cut steel disc leveling it is whole Flattening mechanism, flattening mechanism will be delivered to cutting mechanism by the steel disc to be cut of leveling and cut.Can both it guarantee as a result, The flatness for the steel disc that cutting mechanism is cut, steel disc is distorted during cutting mechanism can also be avoided to cut steel disc.

In some embodiments, the skirtboard slitting conveying integrated machine further include for accommodating coiled steel disc, and will be to The steel disc of leveling is delivered to the feeding mechanism that flattening mechanism is flattened.Since the raw material of skirtboard blank are generally coiled steel Steel disc can be delivered to flattening mechanism by feeding mechanism and flattened by piece, to realize the skirtboard slitting conveying integrated machine Automation.

In some embodiments, cutting mechanism includes knife rest, the first cutter, the second cutter and first movement unit；The Two cutters and first movement unit are located on knife rest, the tangent setting of the knife face of the first cutter and the second cutter, and the blade of the two It is oppositely arranged, first movement unit drives the first cutter to the direction movement to become close or remote from the second cutter.Thus, it is possible to pass through First movement unit drives the first cutter mobile towards the second cutter, and skirtboard blank is cut from coiled steel disc.

In some embodiments, the edge tilted setting of the first cutter, the blade of the second cutter are horizontally disposed. As a result, under the driving of first movement unit, the first cutter and the second cutter first cut out notch in shear-steel on piece to be cut, so Afterwards, continue to drive with first movement unit, with the increase of the first cutter and the contact length of the second cutter, the two to The notch length cut on the steel disc of cutting is increasingly longer, until steel disc and coiled steel disc disconnect forming skirtboard blank, completes one The cutting of secondary skirtboard blank；Since the first cutter and the second cutter are slowly to cut skirtboard blank from coiled steel disc , the blade of the first cutter and the second cutter and the instant contact area of steel disc to be cut are smaller, and steel disc to be cut is by The pressure of the blade of one cutter and the second cutter is larger, consequently facilitating the first cutter and the second cutter cut steel disc.

In some embodiments, which further includes shaking for limiting steel disc to be cut Position-limit mechanism, position-limit mechanism are located on knife rest, and are located at the feed end of cutting mechanism.Thus, it is possible to which shear-steel piece to be cut is avoided to exist It is shaken during cropped and causes the port sanction of cutting mechanism steel disc askew.

In some embodiments, conveying mechanism is arranged to include the second push plate, third push plate, frame and be each provided on frame Baffle, conveying mechanism, the second mobile unit and third mobile unit, baffle, the second push plate and third push plate are encircled into and are used for Accommodate the accommodating chamber of the skirtboard blank after cutting；Second push plate, the lower edge of third push plate and baffle and conveying mechanism conveyor surface Concordantly, the second push plate and baffle plate setting are at the conveyor surface perpendicular to conveying mechanism, and are parallel to the conveying direction of conveying mechanism, the Two mobile units drive the second push plate mobile towards or away from baffle；Third push plate is arranged perpendicular to the conveyor surface of conveying mechanism And conveying direction, and third push plate, between baffle and the second push plate, third mobile unit drives third push plate along conveyer The conveying direction of structure moves back and forth.As a result, when skirtboard blank is located on conveying mechanism, it can be driven by the second mobile unit Second push plate pushes skirtboard blank to baffle, until the second push plate and baffle are born against in the opposite two sides of skirtboard blank On；It can also drive third push plate on the another side of skirtboard blank by third mobile mechanism, thus by skirtboard blank Surrounding alignment；Blank can be conveyed by conveying mechanism prior to, concurrently with, or after by the alignment of the surrounding of skirtboard blank, when After the surrounding alignment of skirtboard blank, conveying mechanism is transported to next manufacturing procedure.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the skirtboard slitting conveying integrated machine of one embodiment of the utility model；

Fig. 2 is partial enlargement diagram at the A of skirtboard slitting conveying integrated machine shown in Fig. 1；

Fig. 3 is partial enlargement diagram at the B of skirtboard slitting conveying integrated machine shown in Fig. 1；

Fig. 4 is the structural schematic diagram at another visual angle of skirtboard slitting conveying integrated machine shown in Fig. 1；

Fig. 5 is partial enlargement diagram at the D of skirtboard slitting conveying integrated machine shown in Fig. 4；

Fig. 6 is partial enlargement diagram at the E of skirtboard slitting conveying integrated machine shown in Fig. 4；

Fig. 7 is the structural schematic diagram at the another visual angle of skirtboard slitting conveying integrated machine shown in Fig. 1；

Fig. 8 is the overall structure diagram of the skirtboard slitting conveying integrated machine of another embodiment of the utility model；

Fig. 9 is another viewing angle constructions schematic diagram of skirtboard slitting conveying integrated machine shown in Fig. 8；

Figure 10 is partial enlargement diagram at the C of skirtboard slitting conveying integrated machine shown in Fig. 9.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing.

Fig. 1 to Fig. 7 schematically shows a kind of skirtboard slitting conveying integrated of embodiment according to the present utility model Machine.As shown in Figure 1, the skirtboard slitting conveying integrated machine includes the skirtboard blank for coiled steel disc to be cut into strip Cutting mechanism 20；The surrounding of skirtboard blank for cutting cutting mechanism 20 is aligned, and the skirtboard blank that surrounding is aligned is defeated It send to the arrangement conveying mechanism 40 of subsequent processing.

Since coiled steel disc can be cut into the skirtboard blank of strip by cutting mechanism 20, arranging conveying mechanism 40 can With the surrounding alignment of the strip skirtboard blank formed after cutting cutting mechanism, and the skirtboard blank that surrounding is aligned is delivered to Subsequent processing carries out the processing such as edge rolling, welding and molding to skirtboard blank convenient for next manufacturing procedure, with process can be with end The skirtboard of plate connection improves the efficiency of skirtboard production consequently facilitating realizing the automation of skirtboard production.

Fig. 1, Fig. 2, Fig. 4 and Fig. 7 show a kind of specific embodiment of cutting mechanism 20, as shown, cutting mechanism 20 include knife rest 21, the first cutter 22, the second cutter 23 and first movement unit 24；Second cutter 23 and first movement unit 24 It is mounted on knife rest 21, the first cutter 22 is mounted on first movement unit 24, and the knife of the first cutter 22 and the second cutter 23 The blade of the tangent setting in face and the two is oppositely arranged, and first movement unit 24 drives the first cutter 22 to becoming close or remote from the The direction of two cutters 23 is mobile；When first movement unit 24 drives the first cutter 22 to be moved to first towards 23 direction of the second cutter When the blade of cutter 22 and the second cutter 23 is in contact, it will be located at the blade contact point of the first cutter 22 and the second cutter 23 Coiled steel disc severing is opened；When completing the cutting of one block of skirtboard blank, first can be driven to cut by first movement unit 24 Knife 22 is mobile to the direction far from the second cutter 23, so that shear-steel piece to be cut enters clipping region, so as to the progress of cutting mechanism 20 It cuts next time.Specifically, the first cutter 22 is mounted on first movement unit 24 by tool apron, the second cutter 23 passes through tool apron It is mounted on knife rest 21.Cylinder or oil cylinder commonly used in the prior art can be used in first movement unit 24, at this point, being connected with The tool apron of one cutter 22 is mounted on the piston rod of cylinder or oil cylinder.

Preferably, the first cutter 22 is located at the top of the second cutter 23, thus, it is right in the first cutter 22 and the second cutter 23 When steel disc wait cut is cut, it can give steel disc to be cut certain support by the second cutter 23, to reduce When the steel disc wait cut is cropped goes out notch, steel disc to be cut carries out the steel disc near notch due to the gravity by itself It pulls, causes the steel disc near notch the tearing band different from direction is cut occur, reduce and cut quality.

As shown in Figure 1, Figure 2 and Figure 7, further, the edge tilted setting of the first cutter 22, the blade of the second cutter 23 It is horizontally disposed.As a result, under the driving of first movement unit 24, the first cutter 22 and the second cutter 23 are first being located at two Notch is cut out on steel disc to be cut at the contact point of person, then, continues to drive with first movement unit 24, with The increase of the contact length of first cutter 22 and the second cutter 23, the notch length that the two is cut on steel disc to be cut are more next It is longer, until skirtboard blank and coiled steel disc disconnect, complete the cutting of a skirtboard blank；Since the first cutter 22 and second is cut Knife 23 slowly cuts skirtboard blank from coiled steel disc, the blade of the first cutter 22 and the second cutter 23 with it is to be cut The instant contact area for the steel disc cut is smaller, steel disc to be cut by the pressure of the first cutter 22 and the blade of the second cutter 23 compared with Greatly, consequently facilitating the first cutter 22 and the second cutter 23 cut steel disc to form skirtboard blank.

Other embodiments of cutting mechanism 20 may be: cutting mechanism 20 includes knife rest, the first cutter, Yi Jian The second cutter and the first rotating unit on knife rest；First rotating unit drives the first cutter towards or away from the second cutter The direction at place rotates, and the blade of the first cutter and the second cutter is oppositely arranged.When the first rotating unit drives the first cutter When rotating towards the direction where the second cutter, the first cutter and the second cutter are machined by the steel disc incision of its blade contact position Skirtboard blank out；When direction where the first rotating unit drives the first cutter to be directed away from the second cutter rotates, wait cut Steel disc can be moved between the first cutter and the second cutter to clipping region, so that cutting mechanism 20 is cut out next time It cuts, the first rotating unit can use servo motor (not shown) commonly used in the prior art.

As shown in Figure 1, further, which further includes shaking for limiting steel disc to be cut Position-limit mechanism 80, position-limit mechanism 80 is mounted on knife rest 21, and is located at the feed end of cutting mechanism 20.Thus, it is possible to avoid Shear-steel piece to be cut shakes during cropped and causes cutting mechanism 20 that the port sanction of skirtboard blank is askew.

Figures 1 and 2 show that the specific implementation of position-limit mechanism 80, as shown, position-limit mechanism 80 includes at least two The rotation axis of a first rotating member 83, the first rotating member 83 is arranged along the vertical direction, and the first all rotating members 83 is encircled into confession The channel that steel disc to be cut passes through, and it is located at the edge of the first rotating member 83 of the two sides in the channel passed through for steel disc to be cut It is not less than the width of steel disc to be cut perpendicular to the distance of steel disc feedstock direction to be cut.To avoid shear-steel piece to be cut from existing It is shaken in horizontal plane along other directions in addition to feedstock direction, moreover, because being the first rotating member 83 by that can rotate The shaking of shear-steel piece to be cut is limited, shear-steel piece to be cut along feedstock direction when moving, even if contacting with the first rotating member 83, also only It will drive the first rotating member 83 to rotate together, shifting will not be generated because of relative movement between shear-steel piece to be cut and the first rotating member 83 Dynamic friction reduces by the first rotating member 83 and treats the resistance for cutting steel disc movement.Specifically, the first rotating member 83 can be existing skill Common rolling bearing or roller in art.

With continued reference to Fig. 1 and Fig. 2, further, the first rotating member 83 positioned at shear-steel piece to be cut side passes through the first peace Dress seat 81 is mounted on knife rest 21, and the first rotating member 83 positioned at the shear-steel piece to be cut other side is mounted on by the second mounting base 82 On knife rest 21.

Further, on the feedstock direction perpendicular to shear-steel piece to be cut of the first mounting base 81 and the second mounting base 82 Multiple groups are set for installing the mounting structure of the first rotating member 83, or the feedstock direction perpendicular to shear-steel piece to be cut in knife rest 21 Upper setting multiple groups are used to install the mounting structure of the first mounting base 81 and the second mounting base 82, in order to by adjusting the first rotation The position of part 83 and the shear-steel piece to be cut for using different in width.Specific mounting structure can for screw hole, through-hole or along perpendicular to The through slot (not shown) of the feedstock direction setting of shear-steel piece to be cut.

In other embodiments, the first rotating member 83 positioned at the channel two sides passed through for steel disc to be cut can divide It is not mounted on knife rest 21 for example, by mobile units such as oil cylinders, and oil cylinder drives the first rotating member 83 towards or away from for be cut The direction in the channel that the steel disc cut passes through is mobile, to adjust the width in the channel passed through for steel disc to be cut, adapts to different width The limit (not shown) of the shear-steel piece to be cut of degree.

If Fig. 1 and Fig. 4 show the specific implementation of arrangement conveying mechanism 40, as shown, arranging conveying mechanism 40 It is mobile including the second push plate 42, third push plate, frame 41 and the baffle 44 being installed on frame 41, conveying mechanism 45, second Unit 46 and third mobile unit 47, the second push plate 42 are mounted on frame 41 by the second mobile unit 46, and third push plate is logical It crosses third mobile unit 47 to be mounted on frame 41, baffle 44, the second push plate 42 and third push plate are encircled into be cut for accommodating The accommodating chamber of skirtboard blank afterwards；The lower edge of second push plate 42, third push plate and baffle 44 and the conveyor surface of conveying mechanism 45 are flat Together, the second push plate 42 and baffle 44 be arranged to the contact surface of skirtboard blank it is vertical with the conveyor surface of conveying mechanism 45, and it is defeated Send the conveying direction of mechanism 45 parallel, the second mobile unit 46 drives the second push plate 42 mobile towards or away from baffle 44, with When second mobile unit 46 drives the second push plate 42 mobile towards baffle 44, the two sides of skirtboard blank are born against in the second push plate 42 and baffle 44 the contact surface with skirtboard blank, after the surrounding of skirtboard blank is aligned, the second mobile unit 46 driving the Two push plates 42 are mobile towards the direction far from baffle 44, so that the skirtboard blank that next group cutting mechanism 20 is cut enters baffle 44, the second push plate 42 and third push plate are encircled into the accommodating chamber for accommodating the skirtboard blank after cutting, consequently facilitating arranging defeated Mechanism 40 is sent to be aligned the surrounding of next group skirtboard blank；Being arranged perpendicular to the contact surface of skirtboard blank for third push plate is defeated The conveyor surface and conveying direction of mechanism 45 are sent, and third push plate is located between baffle 44 and the second push plate 42, third mobile unit 47 driving third push plates are moved back and forth along the conveying direction of conveying mechanism 45, to be resisted against the end of skirtboard blank in third push plate While by the end part aligning of skirtboard blank.On the conveyor surface of conveying mechanism 45, second pushes away mode when due to skirtboard blank Plate 43 and baffle 44 can be aligned the side of skirtboard blank, and third push plate can arrange the end of skirtboard blank, thus by skirtboard The surrounding of blank is aligned；It can also be defeated by conveying mechanism 45 prior to, concurrently with, or after by the alignment of the surrounding of skirtboard blank Blank is sent, and after the alignment of the surrounding of skirtboard blank, next manufacturing procedure is transported to by conveying mechanism 45.

The utility model can also be using the arrangement conveying mechanism of other forms in the prior art, as long as may be implemented skirt The surrounding of plate blank material is aligned and the function of conveying, and the utility model does not limit the specific implementation for arranging conveying mechanism It is fixed.

Specifically, conveying mechanism 45 can be using roller commonly used in the prior art conveying or conveyer belt conveying, as long as can To realize that the conveying function of skirtboard blank, the utility model are not construed as limiting the specific implementation of conveying mechanism 45.

With continued reference to such as Fig. 1, Fig. 4 and Fig. 7, further, which further includes for that will cut out The skirtboard blank that shearing machine structure 20 is cut is delivered to the transshipment acitivity 30 on the conveyor surface for arranging conveying mechanism 40.It is cutting as a result, When mechanism 20 cuts steel disc, steel disc can be supported by transshipment acitivity 30, cutting mechanism 20 is avoided to support because of no component wait cut Steel disc, and by skirtboard blank cut out it is askew；In addition, transshipment acitivity 30 can also by complete cut skirtboard blank be delivered to arrange it is defeated On the conveyor surface for sending mechanism 40, the surrounding alignment of the skirtboard blank cut will be completed convenient for arranging conveying mechanism 40, and by surrounding The skirtboard blank of alignment is delivered to subsequent processing.

Fig. 1, Fig. 3 show the specific implementation of transshipment acitivity 30 to Fig. 5 and Fig. 7, as shown, the skirtboard slitting is defeated Sending all-in-one machine further includes rack 50；Transshipment acitivity 30 includes the first push plate 31 and the first rotating mechanism 32, the first rotating mechanism 32 It is mounted in rack 50, the first push plate 31 is mounted on the first rotating mechanism 32, and cutting mechanism 20 is arranged in the first push plate 31 Discharge end, specifically, the first push plate 31 is located at the lower section of cutting mechanism 20, the first rotating mechanism 32 is for driving the first push plate 31 Rotation, with support steel disc wait cut or by cutting after the skirtboard blank that is formed be turned to and arrange the conveyor surface of conveying mechanism 40 On.As a result, when cutting mechanism 20 cuts steel disc, the first push plate 31 can support steel disc to be cut, to avoid to be cut Steel disc is subjected to displacement due to the gravity by itself during the cutting process, and the notch for the skirtboard blank for causing cutting mechanism 20 to cut is not It is a straight line perpendicular to skirtboard blank extending direction, and then subsequent processing is caused to weld the skirtboard blank of volume circle When, the both ends of skirtboard blank can not be completely combined, and reduce the qualification rate of skirtboard production.

As shown in Figures 3 to 5, in the present embodiment, the first rotating mechanism 32 is cylinder or oil cylinder, the cylinder of cylinder or oil cylinder Body is hinged on frame 41, and the piston rod and the first push plate 31 of cylinder or oil cylinder are hinged.As a result, when cylinder or the piston of oil cylinder When bar stretches out, the first push plate 31 is flipped, and the skirtboard blank supported is overturn to the conveyor surface for arranging conveying mechanism 40 On；When the piston rod of cylinder or oil cylinder retracts, the first push plate 31 is returned just, to support steel disc to be cut.Specifically, first turn Motivation structure 32 can select the oil cylinder of model 40-100.

In further embodiments, the first rotating mechanism 32 can select servo motor, pass through servo motor driving first Push plate 31 keeps horizontality to support steel disc to be cut, or the first push plate 31 of driving to be flipped the skirtboard will cut Blank overturn to arrange conveying mechanism 40 conveyor surface on can (not shown).

Further, as shown in Figure 1 and Figure 7, transshipment acitivity 30 further includes the length for adjusting the length of skirtboard blank Adjustment mechanism, length adjusting mechanism are mounted in the first push plate 31.In the present embodiment, specifically, length adjusting mechanism is to adjust Monolith 33, is machined in the first push plate 31 multiple for installing the adjustment screw holes of the first push plate 31, and multiple adjustment screw holes are along steel The mobile direction of piece is arranged in the first push plate 31, is integrally formed or is machined in adjustment block 33 and the adjustment in the first push plate 31 The corresponding adjustment through slot 331 of screw hole, adjustment through slot 331 extend along the direction that steel disc moves, can also be in adjustment block 33 integrally Form or be machined with adjustment through-hole corresponding with the adjustment screw hole in the first push plate 31, adjustment through-hole is equipped with multiple, and multiple tune Whole through-hole is arranged in adjustment block 33 along the direction that steel disc moves.It is resisted against in adjustment block 33 when steel disc is moved to its free end When, steel disc is cut by skirtboard blank by cutting mechanism 20, since position of the adjustment block 33 in the first push plate 31 can adjust It is whole, so as to the installation site by adjusting adjustment block 33 in the first push plate 31, adjust the length of skirtboard blank.

In other embodiments, length adjusting mechanism also can be implemented with the guide rail slide block mechanism of retaining mechanism, tool Body includes retaining mechanism and the adjustment guide rail being mutually adapted and adjustment sliding block, wherein adjustment guide rail is along the direction that steel disc moves It is mounted in the first push plate 31, the adjustment sliding block that retaining mechanism can will be moved into position is locked with respect to the first push plate 31, thus real The adjustment for now adjusting slide position will by cutting mechanism 20 when steel disc, which is moved to its free end, to be resisted against on adjustment sliding block Steel disc is cut into skirtboard blank (not shown).

Further, as shown in fig. 7, transshipment acitivity 30 further includes for providing to the steel disc for being delivered to transshipment acitivity 30 The buffer gear 34 of buffer function, the first push plate 31 and cutting mechanism 20 are mounted in rack 50 by buffer gear 34.As a result, It can be given by buffer gear 34 and be transported to steel disc buffering to be cut in the first push plate 31, sent out to avoid steel disc because of impact Raw warpage causes the skirtboard billet size after cutting inconsistent.

The specific structure of buffer gear 34 is as shown in fig. 7, buffer gear 34 includes that the buffer guide rail 341 being mutually adapted eases up Slide block 342 further includes spring, and buffer guide rail 341 is mounted in Chinese mugwort rack 50 along the direction that steel disc moves, and one end of spring is pacified In rack 50, the other end is mounted in buffer sliding block 342 or the first push plate 31, and is arranged to, when steel disc is resisted against buffering When on sliding block 342, when steel disc drives buffer sliding block 342 to move along the extending direction of buffer guide rail 341, spring, which is in, stretches shape State, to provide buffer function to buffer sliding block 342 by spring；It is also configured to, under cutting mechanism 20 cuts skirtboard blank After coming, buffer sliding block 342 resets under the action of the spring.

Preferably, as shown in Fig. 1, Fig. 4, Fig. 6 and Fig. 7, transshipment acitivity 30 further includes cover board 35, and cover board 35 is mounted on rack On 50, and it is located at the side away from arrangement conveying mechanism 40 of the first push plate 31, one end close to cutting mechanism 20 of cover board 35 It is obliquely installed towards away from the direction for arranging conveying mechanism 40.It is encircled between cover board 35 and the first push plate 31 for accommodating wait cut Steel disc accommodation space, and one end towards cutting mechanism 20 of the accommodation space for being used to accommodate steel disc to be cut has The opening being connected to the discharge end of cutting mechanism 20.Since cutting mechanism 20 is when starting to cut steel disc or when completing to cut, steel Piece may be swung due to by cutting mechanism 20 and/or the active force of the first push plate 31, in the first push plate 31 away from whole Manage conveying mechanism 40 side be arranged cover board 35, can to avoid steel disc, amplitude of fluctuation is too big during the cutting process, lead to cutter The section out-of-flatness for the skirtboard blank that structure 20 is cut reduces the cutting quality of cutting mechanism 20.

Fig. 8 to Figure 10 schematically shows a kind of skirtboard slitting conveying integrated of embodiment according to the present utility model Machine.

As shown in Figure 8 and Figure 9, the skirtboard slitting conveying integrated machine in present embodiment and skirtboard slitting above-mentioned conveying one Body machine the difference is that, the skirtboard slitting conveying integrated machine further include for will be to be cut steel disc leveling flattening mechanism 60, flattening mechanism 60 will be delivered to cutting mechanism 20 by the steel disc to be cut of leveling and cut.Can both it guarantee as a result, The flatness for the steel disc that cutting mechanism 20 is cut, steel disc is distorted during cutting mechanism 20 can also be avoided to cut steel disc.

With continued reference to Fig. 8 and Fig. 9, flattening mechanism 60 includes first support 65, first be mounted in first support 65 drive Moving cell 64 and the first roller 61 and the second roller 62 rotated by the driving of the first driving unit 64,61 He of the first roller Second roller 62 is arranged along the direction perpendicular to steel disc to be sheared charging in the horizontal plane, and the first roller 61 is located at the second roller 62 top, the first driving unit can choose the servo motor of model MDME102GG.

Further, the first roller 61 is mounted in first support 65 by mobile unit, and mobile unit drives the first roller Cylinder 61 is mobile towards or away from the direction of the second roller 62, to adjust the thickness of the steel disc of the leveling of flattening mechanism 60.It is specific to move Moving cell can select oil cylinder commonly used in the prior art, can also be machined with screw hole along the vertical direction in first support 65, First roller 61 is mounted in first support 65 by screw, and the first roller 61 and screw are hinged, so as to by turning Screw adjusts the distance between the first roller 61 and the second roller 62.

As shown in Figure 8 and Figure 9, the skirtboard slitting conveying integrated machine further include for accommodating coiled steel disc, and will be to whole Flat steel disc is delivered to the feeding mechanism 70 that flattening mechanism 60 is flattened.Due to the raw material of skirtboard blank be generally it is coiled Steel disc can be delivered to flattening mechanism 60 by feeding mechanism 70 and flattened by steel disc, to realize skirtboard slitting conveying one The automation of body machine.

With continued reference to Fig. 8 and Fig. 9, feeding mechanism 70 includes second support 73, has the receiving for accommodating coiled steel disc empty Between coiled material housing unit 71 and the second driving unit 72, coiled material housing unit 71 be mounted on by the second driving unit 72 In second support 73, the second driving unit 72 will be received in coiled material housing unit 71 by the driving rotation of coiled material housing unit 71 Steel disc in accommodation space is gradually delivered between the first roller 61 and the second roller 62, and the second driving unit can be selected existing Common servo motor in technology.

Preferably, as shown in Figure 1 and Figure 4, baffle 44 is mounted on frame 41 by the 4th mobile unit 48, and the 4th is mobile Unit 48 drives baffle 44 mobile towards or away from the direction of the second push plate 42, to adjust skirtboard blank in the defeated of conveying mechanism 45 Send the position on face.

As shown in Figure 1 and Figure 4, in this example, first movement unit 24, the second mobile unit 46, third mobile unit 47 and the 4th mobile unit 48 can be only with cylinder commonly used in the prior art or oil cylinder.However, to ensure that first movement list First 24, second mobile unit 46, third mobile unit 47 and the 4th mobile unit 48 can smoothly drive, first movement unit 24, the second mobile unit 46, third mobile unit 47 and the 4th mobile unit 48 include the guide rail and sliding block being mutually adapted, gas Cylinder or oil cylinder driving sliding block are moved along the extending direction of guide rail: where the guide rail of first movement unit 24 is installed along the vertical direction On knife rest 21, the tool apron for being connected with the first cutter 22 is mounted on the sliding block of first movement unit 24；Second mobile unit 46 Guide rail be mounted on frame 41 along perpendicular to the conveying direction of conveying mechanism 45 in the horizontal plane, the second push plate 42 is mounted on the On the sliding block of two mobile units 46；The guide rail of third mobile unit 47 is in the horizontal plane along the conveying direction phase with conveying mechanism 45 Same direction is mounted on frame 41, and third push plate is mounted on the sliding block of third mobile unit 47；4th mobile unit 48 Guide rail is identical as the installation direction of guide rail of the second mobile unit 46, and is also mounted on frame 41, and baffle 44 is mounted on the 4th On the sliding block of mobile unit 48.Specifically, first movement unit 24, the second mobile unit 46, third mobile unit 47 and the 4th Mobile unit 48 can use the cylinder of model TN32-100 or 50 × 150 B.

In other embodiments, first movement unit 24, the second mobile unit 46, third mobile unit 47 and the 4th are mobile Unit 48 can also drive worm gear to move realization along the extending direction of worm screw using servo motor, cut at this point, being connected with first The tool apron of knife 22, the second push plate 42, third push plate and baffle 44 are separately mounted on the worm gear of mobile unit connected to it.When First movement unit 24, the second mobile unit 46, third mobile unit 47 and the 4th mobile unit 48 also include being mutually adapted When guide rail and sliding block, as hereinbefore, details are not described herein for the set-up mode of guide rail and sliding block herein, is connected with the first cutter 22 tool apron, the second push plate 42, third push plate and baffle 44 are separately mounted on the sliding block of mobile unit connected to it, herein Servo motor can use 0.75KW Panasonic's servo motor (not shown).

In the present invention, installation includes dismountable mounting means and non-removable mounting means, removably Mounting means can be connected using screw commonly used in the prior art, and the dismountable mounting means in portion can be using in the prior art Common welding is glued.

Above-described is only some embodiments of the utility model.For those of ordinary skill in the art, Without departing from the concept of the present invention, various modifications and improvements can be made, these belong to practical Novel protection scope.

Claims (12)

1. skirtboard slitting conveying integrated machine characterized by comprising

For coiled steel disc to be cut into the cutting mechanism (20) of the skirtboard blank of strip；

The surrounding of skirtboard blank for cutting the cutting mechanism (20) is aligned, and the skirtboard blank of surrounding alignment is conveyed To the arrangement conveying mechanism (40) of subsequent processing.

2. skirtboard slitting conveying integrated machine according to claim 1, which is characterized in that further include for by the cutter The skirtboard blank that structure (20) is cut is delivered to the transshipment acitivity (30) on the conveyor surface for arranging conveying mechanism (40).

3. skirtboard slitting conveying integrated machine according to claim 2, which is characterized in that further include rack (50)；

The transshipment acitivity (30) includes the first push plate (31) and the first rotating mechanism (32), and first rotating mechanism (32) sets On the rack (50), first push plate (31) is located at the discharge end of the cutting mechanism (20), first rotating machine Structure (32) for driving first push plate (31) to rotate, with support steel disc wait cut or by cutting after the skirtboard blank that is formed It is turned on the conveyor surface for arranging conveying mechanism (40).

4. skirtboard slitting conveying integrated machine according to claim 3, which is characterized in that the transshipment acitivity (30) further includes For adjusting the length adjusting mechanism of the length of skirtboard blank, the length adjusting mechanism is located on first push plate (31).

5. skirtboard slitting conveying integrated machine according to claim 4, which is characterized in that the transshipment acitivity (30) further includes For providing the buffer gear (34) of buffer function, first push plate (31) to the steel disc for being delivered to the transshipment acitivity (30) It is located on the rack (50) with cutting mechanism (20) by the buffer gear (34).

6. skirtboard slitting conveying integrated machine according to claim 5, which is characterized in that the transshipment acitivity (30) further includes Cover board (35), the cover board (35) are located on the rack (50), and deviate from the arrangement positioned at first push plate (31) One end close to the cutting mechanism (20) of the side of conveying mechanism (40), the cover board (35) is conveyed towards away from the arrangement The direction of mechanism (40) is obliquely installed.

7. skirtboard slitting conveying integrated machine according to claim 2, which is characterized in that further include for will be to be cut steel The flattening mechanism (60) of piece leveling, the flattening mechanism (60) will be delivered to the cutter by the steel disc to be cut of leveling Structure (20) is cut.

8. skirtboard slitting conveying integrated machine according to claim 3, which is characterized in that further include for accommodating coiled steel Piece, and steel disc to be flattened is delivered to the feeding mechanism (70) that flattening mechanism (60) flattens.

9. according to claim 1 to skirtboard slitting conveying integrated machine described in 8 any one, which is characterized in that the cutter Structure (20) includes knife rest (21), the first cutter (22), the second cutter (23) and first movement unit (24)；

Second cutter (23) and first movement unit (24) are located on the knife rest (21), first cutter (22) and the The tangent setting of knife face of two cutters (23), and the blade of the two is oppositely arranged, first movement unit (24) driving described the One cutter (22) is moved to the direction to become close or remote from the second cutter (23).

10. skirtboard slitting conveying integrated machine according to claim 9, which is characterized in that the knife of first cutter (22) Sword is obliquely installed, and the blade of second cutter (23) is horizontally disposed.

11. skirtboard slitting conveying integrated machine according to claim 9, which is characterized in that further include for limiting wait cut The position-limit mechanism (80) that shakes of steel disc, the position-limit mechanism (80) is located on the knife rest (21), and is located at the cutter The feed end of structure (20).

12. skirtboard slitting conveying integrated machine according to claim 9, which is characterized in that the arrangement conveying mechanism (40) Including the second push plate (42), third push plate, frame (41) and baffle (44), the conveying mechanism being each provided on the frame (41) (45), the second mobile unit (46) and third mobile unit (47), the baffle (44), the second push plate (42) and third push plate are closed Surround the accommodating chamber for accommodating the skirtboard blank after cutting；

The lower edge of second push plate (42), third push plate and baffle (44) is concordant with the conveyor surface of the conveying mechanism (45), Second push plate (42) and baffle (44) are arranged perpendicular to the conveyor surface of the conveying mechanism (45), and are parallel to described defeated The conveying direction of mechanism (45) is sent, second mobile unit (46) drives second push plate (42) towards or away from the gear Plate (44) is mobile；

The third push plate is arranged perpendicular to the conveyor surface and conveying direction of the conveying mechanism (45), and third push plate is located at Between the baffle (44) and the second push plate (42), the third mobile unit (47) drives the third push plate along the conveying The conveying direction of mechanism (45) moves back and forth.