CN204953616U - Carbon guide yoke flanging machine - Google Patents

Abstract

The utility model discloses a carbon guide yoke flanging machine, set up the workstation of hem station and install the following component on the workstation on it: a strutting arrangement that is used for the bearing to live carbon slide bottom, press device, behind the head arrival hem station of the carbon slide on strutting arrangement, press device begins to push down to head from the carbon slide begins to push down the carbon slide, hem transporting device, its two sides to the carbon guide yoke apply relative extrusion force and promote the thrust that the carbon slide removed, make each part of two sides of carbon guide yoke buckle in proper order and wrap up firmly carbon strip. The utility model discloses a flanging machine can carry out the automation to the carbon guide yoke and buckle and handle and transfer forward the carbon slide, and degree of automation is high, buckles, transfers efficient, improves production efficiency, practice thrift artifical, can be to the carbon slide that has different width processings of buckling, application scope is wide, and the product uniformity of hem after handling is good, product quality is high, the economize on electricity reduction of discharging does benefit to the environmental protection.

Description

Carbon slipper bracket folding brake

Technical field

The utility model relates to carbon slipper processing technique field, particularly relates to a kind of carbon slipper bracket folding brake.

Background technology

Carbon slipper is widely used in the vehicle that motor-car, high ferro etc. run at high speed, and it comprises bracket and is placed in the carbon bar on bracket, in the prior art, adopt the method for artificial flanging that bracket two side edgefold is wrapped carbon bar to make bracket, adopt in this way, inefficiency, flanging difficulty, after flanging, the uniformity of product is poor, poor effect, and, artificial flanging, make operator's labour intensity large, and easily danger is caused to operator.

Summary of the invention

The purpose of this utility model is exactly that provide a kind of carbon slipper bracket folding brake, its structure is simple in order to solve above-mentioned Problems existing, can carry out automatically bending process to carbon slipper bracket and transfer carbon slipper forward, automaticity be high, and bending, transfer efficiency are high, enhance productivity, save artificial, reduce production cost, bending process can be carried out to the carbon slipper with different in width, applied widely, and the good product consistency after flanging process, product quality is high, economize on electricity reduces discharging, and is beneficial to environmental protection.

For realizing above-mentioned purpose of the present utility model, the utility model provides a kind of carbon slipper bracket folding brake, and it comprises the workbench it being arranged flanging station; Install on the table live bracing or strutting arrangement bottom carbon slipper for support; Install on the table and the material pressing device be positioned at above flanging station; Flanging transfer device on the table for extruding the carbon slipper bracket both sides being positioned at flanging station is installed.

Wherein, described bracing or strutting arrangement comprises: be arranged on below described flanging station for the first supporting component providing the first support bottom the carbon slipper being positioned at described flanging station; Be arranged on described flanging station rear for the second supporting component treating to provide bottom bending part the second support to described carbon slipper.

Further, described bracing or strutting arrangement also comprises: be arranged on described flanging station front for the 3rd supporting component providing the 3rd to support bottom the bending part of described carbon slipper.

Preferably, described first supporting component comprises: be arranged at the gripper shoe on casing; Be arranged at the retainer roller for carbon slipper bracket base described in support in gripper shoe; Be arranged at least one pair of guide and limit structure for limiting described carbon slipper moving direction of retainer roller both sides.

Preferably, described second supporting component and the 3rd supporting component include: vertical support column; Install on the support columns and the adjustable for height regulating block of relative support post; The connecting axle that its one end is fixedly connected with regulating block, its axes normal is in support column axis; Rotate the support wheel be installed on connecting axle.

Particularly, described second supporting component and the 3rd supporting component also comprise: for the adjusting bolt tightened together with described support column by described regulating block; Be installed on support wheel two ends and the adjustable a pair spacing catch of spacing; Wherein, the spacing of described a pair spacing catch and the width of described carbon slipper match.

Wherein, described material pressing device comprises: be arranged at the binder pillar on workbench; Be connected with binder pillar and be positioned at the nip rolls above flanging station, for the first supporting component by being pressed in bracing or strutting arrangement under the carbon slipper be positioned on flanging station; The pressure-applying unit for regulating it to act on the thrust of carbon slipper be connected with nip rolls.

Preferably, described pressure-applying unit comprises: be installed on the binder fixed mount on described workbench, the fixed head of level having a column and be connected with a column top; The cylinder that its cylinder body is connected with fixed head, its piston rod stretches out straight down; The pressing lever that the piston rod of its one end and cylinder is hinged; The connecting plate be fixedly connected with the other end of pressing lever, itself and described binder pillar are rotationally connected; Wherein, described nip rolls is installed on the connecting axle bottom described connecting plate.

Particularly, described material pressing device also comprises: its one end connects described binder pillar and the supporting parts that stretches out of level, and its horizontal extension contacts with described connecting plate lower surface, for the bottom of support connecting plate.

Wherein, described flanging transfer device comprises: the conduplication side roller being arranged on the left and right sides of flanging station; Drive the roller driving mechanism of a conduplication side roller opposite direction rotating; Wherein, a described conduplication side roller opposite direction rotating, two sides to the carbon slipper bracket be positioned on described flanging station apply relative extruding force and apply the thrust that moves it to described carbon slipper.

Preferably, described roller driving mechanism comprise casing, be installed on the motor in or beyond casing and be installed on casing with lower member: and the fixed conveyor axle that by first transmission component connected parallel with motor output shaft; And the fixed idler whell axle that by second transmission component connected parallel with fixed conveyor axle; And the position adjustable rolling wheel axle that by three transmission component connected parallel with fixed conveyor axle; Wherein, the fixing flanging roller in a described conduplication side roller is installed on described fixed idler whell axle, and movable flanging roller is installed on the adjustable rolling wheel axle of described position.

Compared with prior art, carbon slipper bracket folding brake tool of the present utility model has the following advantages:

1) carbon slipper bracket folding brake of the present utility model has flanging transfer device, this flanging transfer device has conduplication side roller and a roller driving mechanism, roller driving mechanism can drive a conduplication side roller opposite direction rotating, thus bending process is automatically carried out to carbon slipper bracket and transfers carbon slipper forward, automaticity is high, bending, transfer efficiency high, enhance productivity, save artificial, reduce production cost;

2) each transmission component of flanging transfer device of the present utility model is gear drive, and drive mechanism is simple, stable drive, reliable operation, low cost of manufacture;

3) of the present utility model for settling the spacing between the roller shaft of a conduplication side roller adjustable, thus make the spacing of a conduplication side roller adjustable, bending process can be carried out to the carbon slipper with different in width, make the applied widely of carbon slipper bracket folding brake, and the good product consistency after flanging process, product quality is high, continually carries out flanging process to carbon slipper, can to economize on electricity reduction of discharging, to be beneficial to environmental protection;

4) carbon slipper bracket folding brake of the present utility model has the bracing or strutting arrangement comprising three supporting components, can to forming firmly supported at three point bottom carbon slipper, match with the material pressing device be positioned at above carbon slipper, the carbon slipper that conduplication side station can carry out flanging process is formed and firmly, reliably supports, thus can not affect flanging effect;

5) carbon slipper bracket folding brake of the present utility model has material pressing device, this material pressing device can regulate according to the size of the carbon slipper treating flanging process the thrust pressed down, guarantee flanging effect, and thrust is easy to adjust, in flanging processing procedure, automatic impaction carbon slipper, automaticity is high, material pressing device and the first supporting component with the use of, to carbon slipper clamping firmly, carbon slipper is rocked in flanging processing procedure for producing, thus the reliable in quality of the product processed, precision is high, and production efficiency improves, and production cost reduces;

6) carbon slipper bracket folding brake of the present utility model, automatically flanging process is carried out to carbon slipper bracket, flanging is effective, automatically feeding is carried out to carbon slipper, automaticity is high, saves artificial, reduces the labour intensity of workman, flanging process can be carried out to the carbon slipper of different specification size, applied widely.Below in conjunction with accompanying drawing, the utility model is described in detail.

Accompanying drawing explanation

Fig. 1 is the three-dimensional perspective of carbon slipper bracket folding brake of the present utility model;

Fig. 2 is the sectional view of the carbon slipper cross section treating flanging;

Fig. 3 is the sectional view of the cross section of carbon slipper after flanging process;

Fig. 4 is the perspective view of the first supporting component of the present utility model;

Fig. 5 is the front view of the first supporting component shown in Fig. 4;

Fig. 6 is the top view of the first supporting component shown in Fig. 5;

Fig. 7 is the structural representation of the second supporting component of the present utility model;

Fig. 8 is the structural representation of material pressing device of the present utility model;

Fig. 9 is the perspective view of flanging transfer device of the present utility model;

Figure 10 is the perspective view that roller of the present utility model drives driving mechanism;

Figure 11 is the perspective view of the roller driving driving mechanism after removing casing.

Detailed description of the invention

As shown in Figure 1, be the three-dimensional perspective of carbon slipper bracket folding brake of the present utility model, as seen from the figure, this carbon slipper bracket folding brake comprises: the workbench 1 it being arranged flanging station; Be arranged on and workbench 1 lives bracing or strutting arrangement 4 bottom carbon slipper for support, there is first, second, third supporting component 41,42,43; To be arranged on workbench 1 and the material pressing device 3 be positioned at above flanging station, after the head of the carbon slipper on bracing or strutting arrangement 4 arrives flanging station, material pressing device 3 starts to press down, to press down described carbon slipper from the head of carbon slipper; Be arranged on the flanging transfer device 2 for extruding the carbon slipper bracket both sides being positioned at flanging station on workbench 1, its two sides to carbon slipper bracket apply relative extruding force and promote the thrust of described carbon slipper movement, thus make the various piece of two of carbon slipper bracket sides bend successively and wrap carbon bar.

Carbon slipper bracket folding brake of the present utility model, for the process of carbon slipper bracket flanging, wherein, carbon slipper comprises bracket and is placed in the carbon bar in bracket.As shown in Figure 2, for treating the structural representation of the cross section of the carbon slipper 5a of flanging, as shown in Figure 2, treat that the bracket 51 ' dual-side of the carbon slipper 5a of flanging is vertically positioned at carbon bar 52 both sides, bracket 51 ' dual-side fail to be embedded into be arranged at carbon bar 52 both sides skewed slot in, thus carbon bar 52 can not to be wrapped.Adopt carbon slipper bracket folding brake of the present utility model, bracket 51 ' the dual-side of carbon slipper as shown in Figure 2 can be carried out flanging process, to form carbon slipper 5b as shown in Figure 3, as shown in Figure 3, the bracket 51 of the carbon slipper of flanging process two side edge bendings and wrap carbon bar 52.

It should be noted that, the noun of locality in the utility model, as upper and lower, front, rear, left and right, be aimed at the position of the carbon slipper phase conduplication side station of feeding respectively, that is, it is front for setting carbon slipper direction of feed herein, otherwise after being, the left side being positioned at carbon slipper direction of feed, for left, is positioned at the right side of carbon slipper direction of feed for right.Wherein, each noun of locality that the utility model relates to just represents the relative bearing in folding brake of the present utility model between each associated components, and those skilled in the art can clearly understand its implication.

Carbon slipper bracket is being carried out in the process of flanging process, carbon slipper is supported by bracing or strutting arrangement 4, as shown in Figure 1, this bracing or strutting arrangement is placed on the workbench 1 of carbon slipper bracket folding brake, wherein, this bracing or strutting arrangement comprises: be arranged on below flanging station for the first supporting component 41 providing the first support bottom the carbon slipper be positioned on flanging station; Be arranged on rear side of flanging station for the second supporting component 42 treating to provide bottom bending part the second support to carbon slipper; Be arranged on front side of flanging station for the 3rd supporting component 43 providing the 3rd to support bottom the bending part of carbon slipper.

Bracing or strutting arrangement of the present utility model comprises three supporting components, can to forming firmly supported at three point bottom carbon slipper, match with the material pressing device be positioned at above carbon slipper, the carbon slipper that conduplication side station can carry out flanging process is formed and firmly, reliably supports, thus can not affect flanging effect.

Concrete, as Figure 4-Figure 6, the first supporting component 41 of the present utility model comprises: (not shown, this casing is the casing 231 of flanging transfer device 2 to the gripper shoe being arranged on casing, is installed on workbench 1; Be arranged at the retainer roller 411 being positioned at the bracket base on flanging station for support carbon slipper in gripper shoe, its two ends are rotated and are installed on material supporting rack 412, and the central shaft of retainer roller is vertical with carbon slipper direction of feed antarafacial; Be arranged at least one pair of guide and limit structure for limiting carbon slipper moving direction of retainer roller 411 left and right sides.

Wherein, the utility model arranges two respectively to relative guide and limit structure in the left and right sides of retainer roller 411, and the two pairs of guide and limit structures lay respectively at the both sides, front and back of retainer roller 411.As Figure 4-Figure 6, guide and limit structure comprises: be installed on the Level tune block 415 in gripper shoe, it is arranged Long Circle installing hole, the length bearing of trend of installing hole is parallel with the central axis direction of retainer roller 411, after regulating the position of Level tune block 415 relative support plate, by adjusting bolt 414, Level tune block 415 is anchored in gripper shoe; Be connected with Level tune block 415 and the height adjusting blocks 416 extended upward, it is also connected with Level tune block 415 by adjusting bolt, and the height of adjustable relative level regulating block 415; Be installed on the first limited roller 413 and the second limited roller 417 on height adjusting blocks 416, the axis of the first limited roller 413 is vertical with the central shaft antarafacial of retainer roller 411, the axis of the second limited roller 417 is parallel with the central shaft of retainer roller 411, and the two pairs of limited rollers being positioned at retainer roller surrounding provide spacing guide effect for the carbon slipper of retainer roller support.Preferably, material supporting rack 412 is installed on height adjusting blocks 416.

Because the position of Level tune block relative support plate is adjustable, height adjusting blocks 416 is relative to the height adjustable of Level tune block 415, make the height of the limited roller be installed on height adjusting blocks 416 and horizontal level all adjustable, and material supporting rack 412 is also installed on height adjusting blocks 416, the height of retainer roller 411 also can be regulated, thus by regulating the horizontal level of Level tune block relative support plate, and regulate the height of vertical regulating block relative level regulating block, folding brake of the present utility model can be made can to process the carbon slipper of different size, namely, according to the width of carbon slipper, the horizontal level of relative two pairs of limited rollers is adjusted, and according to the flanging situation of carbon slipper bracket, the height of limited roller is adjusted, the adjustment of each position is all realized by Long Circle hole.Further, retainer roller provides primary support effect for carbon slipper, other limited roller except providing guide and limit effect for the movement of carbon slipper, also for carbon slipper provides auxiliary support effect.

Wherein, as shown in Figure 1, bracing or strutting arrangement of the present utility model is except being positioned at the first supporting component 41 below flanging station, also comprise the second supporting component 42 and the 3rd supporting component 43 that are placed in both sides before and after flanging station, preferably, second supporting component 42 is identical with the structure of the 3rd supporting component 43, at this, is only described for the structure of the second supporting component 42.

As shown in Figure 7, the second supporting component 42 of the present utility model comprises: vertical support column 421; To be arranged on support column 421 and the adjustable for height regulating block 422 of relative support post 421; The connecting axle 424 that its one end is fixedly connected with regulating block 422, its axes normal is in support column 421 axis; Rotate the support wheel 425 be installed on connecting axle 424, the height that this support takes turns 425 relative support plates can adjust according to actual conditions.

The utility model for carbon slipper provides first strong point by retainer roller, is respectively carbon slipper by the support wheel 425 of the second supporting component, the 3rd supporting component and provides second, third strong point, thus firm supporting, and guarantee the direction of feed of carbon slipper.

Further, the second supporting component 42, except above-mentioned component, also comprises: for the adjusting bolt 423 tightened together with support column 421 by regulating block 422; Be installed on support and take turns 425 two ends and the adjustable a pair spacing catch 426 of spacing, spacing catch 426 is installed on support wheel 425 by trip bolt 427; Wherein, a pair spacing spacing of catch 426 and the width of carbon slipper match, and to guarantee that left and right skew can not occur the carbon slipper of feeding, improve flanging success rate.

Adopt bracing or strutting arrangement of the present utility model, the carbon slipper that can carry out flanging process for flanging transfer device provides stable, firmly supports, and the spacing between the height of the height of retainer roller, each limited roller, relative limit roller all can regulate, bracing or strutting arrangement of the present utility model can be provided support for the carbon slipper with different specification size, thus make the applicable range of work of folding brake wider.Each roller, along with the mobile autorotation of carbon slipper, reduces the frictional force between roller and carbon slipper, is convenient to the feeding of carbon slipper, and roller rotation does not need electricity consumption, and economize on electricity reduces discharging, and is beneficial to environmental protection.

Wherein, the carbon slipper bracket be arranged on flanging station is being carried out to the process of flanging process, supported by bracing or strutting arrangement 4 bottom carbon slipper, top presses down by material pressing device 3, to carry out in the process of flanging process to carbon slipper, carbon slipper can be clamped on flanging station, makes flanging transfer device carry out bending the process better effects if of process to carbon slipper bracket.

Concrete, as shown in Figure 8, material pressing device 3 of the present utility model is placed on the workbench 1 of carbon slipper bracket folding brake, and is positioned near flanging station, and wherein, material pressing device 3 comprises: be vertically arranged at the binder pillar 37 on workbench 1; Be connected with binder pillar 37 and be positioned at the nip rolls 30 above flanging station, its axis is vertical with the direction of feed antarafacial of carbon slipper, for being pressed in the first supporting component 41 of bracing or strutting arrangement 4 under the carbon slipper be positioned on flanging station; The pressure-applying unit for regulating it to act on the thrust of carbon slipper be connected with nip rolls 30.

Wherein, the active force of the downward compression carbon slipper of nip rolls of the present utility model is regulated by pressure-applying unit, this pressure-applying unit comprises: be installed on the binder fixed mount on workbench 1, the fixed head 32 of level that fixed head 32 has a pair vertical column 31 and is connected with column 31 top; The cylinder 33 that its cylinder body is connected with fixed head 32, its piston rod stretches out straight down; The pressing lever 34 that the piston rod of its one end and cylinder 33 is hinged; The connecting plate 35 be fixedly connected with the other end of pressing lever 34, itself and binder pillar 37 are rotationally connected; Wherein, nip rolls 30 and the connecting axle be arranged on bottom connecting plate 35 are rotationally connected.

When cylinder operation, piston rod is along vertical direction telescopic moving, the pressing lever 34 hinged with it is driven to move, connecting plate 35 is moved under the drive of pressing lever, thus drive the nip rolls be installed on connecting plate to change the height of relative carbon slipper, that is, the downward thrust of nip rolls to carbon slipper is changed.

Further, material pressing device of the present utility model, except above-mentioned component, also comprises: its one end connects binder pillar 37 and the supporting parts 36 that stretches out of level, and its horizontal extension contacts with connecting plate 35 lower surface, for the bottom of support connecting plate 35.Preferably, supporting parts 36 can adopt the support axle be detachably installed on binder pillar 37, and as shown in Figure 8, in order to regulate the height of support axle on binder pillar, material pressing device also comprises the support axle height adjusting part 38 for regulating the position of support axle on binder pillar be connected respectively with support axle and binder pillar, this support axle height adjusting part 38 can adopt the regulating block of cuboid, regulating block is set on binder pillar, and connected as one by fastening bolt and binder pillar, and the one end being placed in the support axle below connecting plate is fixedly installed on regulating block, the other end level of support axle is stretched out, support lives the lower surface of connecting plate.

Further, material pressing device of the present utility model also comprises the connecting plate height adjusting part 39 for regulating the height of connecting plate on binder pillar be connected respectively with connecting plate and binder pillar.As shown in Figure 8, this connecting plate height adjusting part 39 also can adopt the regulating block in cuboid, regulating block to be set on binder pillar and to be positioned at the top of support axle height adjusting blocks, connected as one by fastening bolt and binder pillar, and connecting plate is connected as one by a rotating shaft and connecting plate height adjusting blocks, thus connecting plate can be rotated relative to this regulating block around rotating shaft, that is, nip rolls carries out the adjustment of height centered by rotating shaft.

Material pressing device of the present utility model 3 and bracing or strutting arrangement 4 with the use of, material pressing device 3 is positioned at above carbon slipper, first supporting component 41 of bracing or strutting arrangement 4 is positioned at below carbon slipper, when in flanging process, material pressing device will be pressed on the first supporting component under the carbon slipper be positioned on flanging station, when the carbon slipper bracket on flanging transfer device conduplication side station carries out flanging process, the thickness direction of carbon slipper bracket by nip rolls and the first supporting component firm grip, can not move, guarantee flanging once success.

Wherein, as shown in Figure 9, be the structural representation of flanging transfer device 2 of the present utility model, it is placed on the workbench 1 of carbon slipper bracket folding brake, and as seen from the figure, flanging transfer device 2 comprises: the conduplication side roller being arranged on the left and right sides of flanging station; Drive the roller driving mechanism 23 of a conduplication side roller opposite direction rotating; Wherein, a described conduplication side roller opposite direction rotating, two sides to the carbon slipper bracket be positioned on flanging station apply relative extruding force and apply the thrust that makes it move forward to carbon slipper, so that the bending part of carbon slipper moves forward, make to treat that bending part enters flanging station successively.Wherein, during assembling, the spacing between the outward flange treating the width adjusting one conduplication side roller of bending part according to the carbon slipper bracket on flanging station.

Concrete, from Fig. 9-Figure 11, roller driving mechanism 23 of the present utility model comprises casing 231 and the motor 232 that is installed in or beyond casing 231 (in figure, motor body is positioned at outside casing, its output shaft stretches in casing 231), in addition, also comprise be installed on casing 231 with lower member: and the fixed conveyor axle 233 that by first transmission component connected parallel with the output shaft of motor 232; And the fixed idler whell axle 234 that by second transmission component connected parallel with fixed conveyor axle 233; And the position adjustable rolling wheel axle 235 that by three transmission component connected parallel with fixed conveyor axle 233; The spacing adjusting part 24 for regulating spacing between fixed idler whell axle 234 and position adjustable rolling wheel axle 235 be connected with position adjustable rolling wheel axle 235; Wherein, the fixing flanging roller 21 in a conduplication side roller is installed on fixed idler whell axle 234, and movable flanging roller 22 is installed on position adjustable rolling wheel axle 235; Wherein, the direction of rotation of fixed idler whell axle 234 and position adjustable rolling wheel axle 235 is contrary, to drive a conduplication side roller opposite direction rotating.

Wherein, as shown in figure 11, the 3rd transmission component comprises: the self adaptation power transmission shaft 236 be arranged in parallel with fixed conveyor axle 233; With fixed conveyor axle 233 and self adaptation power transmission shaft 236 be connected respectively for by the power transmission of fixed conveyor axle 233 to the first gear transmission structure of self adaptation power transmission shaft 236; With self adaptation power transmission shaft 236 and position adjustable rolling wheel axle 235 be connected respectively for by the power transmission of self adaptation power transmission shaft 236 to the second gear transmission structure of position adjustable rolling wheel axle 235.Preferably, the first transmission component and the second transmission component also adopt gear transmission structure to carry out the transmission of power respectively.Wherein, fixed idler whell axle 234, fixed conveyor axle 233, self adaptation power transmission shaft 236 are connected with body pivot by case supports respectively, the upper part of fixed idler whell axle 234, position adjustable rolling wheel axle 235 stretches out in outside casing, and a conduplication side roller is installed on the upper part of these two roller shafts respectively.

Roller driving mechanism 23 of the present utility model, a conduplication side roller opposite direction rotating of carbon slipper bracket folding brake can be driven, thus bending process is automatically carried out to carbon slipper bracket and transfers carbon slipper forward, automaticity is high, bending, transfer efficiency high, enhance productivity, save artificial, reduce production cost; And each transmission component is gear drive, drive mechanism is simple, stable drive, reliable operation, low cost of manufacture.

Wherein, the spacing between position of the present utility model adjustable rolling wheel axle 235 and fixed idler whell axle 234 is adjustable, and as shown in Figure 10, Figure 11, the spacing adjusting part 24 of spacing comprises: the roller supporting frame 241 be rotationally connected with adjustable rolling wheel axle 235 two ends, position; Connect multiple fastening bolts 242 (adopting 4 fastening bolts in figure) of roller supporting frame 241 and casing 231, for roller supporting frame 241 is fixed on casing 231; To be threaded with casing 231 and its end stretches out in casing and props up the adjusting bolt 244 of roller supporting frame 241, by turning adjusting bolt 244, to make it change to stretch out the length of casing 231, the position of roller carriage 241 opposite case 231 can be regulated; The adaptive connection plate 245 that its two ends are rotationally connected with self adaptation power transmission shaft 236 and position adjustable rolling wheel axle 235 respectively.In addition, also comprise the fixed connecting plate 246 that its two ends are rotationally connected with self adaptation power transmission shaft 236 and fixed conveyor axle 233 respectively, and adaptive connection plate 245 can rotate relative to the axis of fixed connecting plate 246 around self adaptation power transmission shaft 236.

By turning adjusting bolt 244, as adjusting bolt 244 is screwed in casing, make adjusting bolt 244 stretch out in the length elongation of casing 231, then, under the promotion of adjusting bolt 244, the direction that roller supporting frame 241 is extended along adjusting bolt 244 is moved; Because position adjustable rolling wheel axle 235 is installed on roller supporting frame 241, therefore, along with the reach of roller supporting frame 241, the position of position adjustable rolling wheel axle 235 also can change; And position adjustable rolling wheel axle 235 is connected with self adaptation power transmission shaft 236 by connecting plate 245, namely, spacing between self adaptation power transmission shaft 236 and position adjustable rolling wheel axle 235 is constant, therefore, when the position of position adjustable rolling wheel axle 235 changes, the track of motion is for radius carries out rotating the circular arc track formed centered by the axle center of self adaptation power transmission shaft 236, with the spacing between self adaptation power transmission shaft 236 and position adjustable rolling wheel axle 235; Because the position of position adjustable rolling wheel axle 235 changes, thus the spacing between itself and fixed idler whell axle 234 is changed, thus the spacing of the conduplication side roller be installed on two roller shafts is changed.Preferably, casing 231 is arranged multiple for settling the slotted hole 243 of fastening bolt 242, and the length bearing of trend of slotted hole 243 is parallel to the bearing of trend of adjusting bolt 244 axis, accordingly, roller supporting frame 241 arranges multiple installing hole (not shown) of mating with fastening bolt, by regulating the position of fastening bolt 242, reaching the roller supporting frame 241 after by spacing and being anchored on object on casing.

Below, in conjunction with Figure 11, the course of work of roller driving mechanism of the present utility model is described.

When motor 232 works, the gear 23a be fixed on its output shaft is driven to rotate; When gear 23a rotates, drive and reversely rotate with the gear 23b of its external toothing, and drive the fixed conveyor axle 233 be fixedly connected with gear 23b to rotate, thus drive the gear 23c be installed on fixed conveyor axle 233 to rotate.When gear 23c rotates, drive on the one hand and rotate with the gear 23d of its external toothing, by gear 23d by power transmission to gear 23e, because gear 23e is fixedly installed on position adjustable rolling wheel axle 235, make along with gear 23e rotates on position adjustable rolling wheel axle 235, thus drive the position adjustable flanging roller 22 be installed on the adjustable rolling wheel axle of position to rotate along the direction identical with gear 23c direction of rotation; On the other hand, gear 23c is connected with gear 23f external toothing simultaneously, thus when gear 23c rotates, driven gear 23f rotates, gear 23f is fixedly installed on fixed idler whell axle 234, therefore, fixed idler whell axle 234 rotates along with gear 23f, thus drives the fixing flanging roller 21 be installed on fixed idler whell axle 234 to rotate along the direction contrary with gear 23c.Namely, roller driving mechanism drives conduplication side roller synchronous rotary in the opposite direction, thus under the effect of a conduplication side roller, relative extruding force applied to two sides of carbon slipper bracket and promotes the thrust of carbon slipper movement, thus making the various piece of two of carbon slipper bracket sides bend successively and wrap carbon bar.

To sum up, the utility model passes through the spacing between the roller shaft of adjustment one conduplication side roller, make the spacing of a conduplication side roller adjustable, therefore, adopt folding brake of the present utility model can carry out bending process to the carbon slipper with different in width, make the applied widely of carbon slipper bracket folding brake, and the good product consistency after flanging process, product quality is high, continually carries out flanging process to carbon slipper, can to economize on electricity reduction of discharging, to be beneficial to environmental protection.

Although be explained in detail the utility model above; but the utility model is not limited thereto; those skilled in the art can modify according to principle of the present utility model; therefore, all various amendments carried out according to principle of the present utility model all should be understood to fall into protection domain of the present utility model.

Claims (10)

1. a carbon slipper bracket folding brake, is characterized in that, comprising:

It is arranged the workbench of flanging station;

Install on the table live bracing or strutting arrangement bottom carbon slipper for support;

Install on the table and the material pressing device be positioned at above flanging station;

Flanging transfer device on the table for extruding the carbon slipper bracket both sides being positioned at flanging station is installed.

2. carbon slipper bracket folding brake according to claim 1, it is characterized in that, described bracing or strutting arrangement comprises:

Be arranged on below described flanging station for the first supporting component providing the first support bottom the carbon slipper being positioned at described flanging station;

Be arranged on described flanging station rear for the second supporting component treating to provide bottom bending part the second support to described carbon slipper.

3. carbon slipper bracket folding brake according to claim 2, it is characterized in that, described bracing or strutting arrangement also comprises:

Be arranged on described flanging station front for the 3rd supporting component providing the 3rd to support bottom the bending part of described carbon slipper.

4. carbon slipper bracket folding brake according to claim 3, is characterized in that, described first supporting component comprises:

Be arranged at the gripper shoe on casing;

Be arranged at the retainer roller for carbon slipper bracket base described in support in gripper shoe;

Be arranged at least one pair of guide and limit structure for limiting described carbon slipper moving direction of retainer roller both sides.

5. carbon slipper bracket folding brake according to claim 3, is characterized in that, described second supporting component and the 3rd supporting component include:

Vertical support column;

Install on the support columns and the adjustable for height regulating block of relative support post;

The connecting axle that its one end is fixedly connected with regulating block, its axes normal is in support column axis;

Rotate the support wheel be installed on connecting axle.

6. carbon slipper bracket folding brake according to claim 5, is characterized in that, described second supporting component and the 3rd supporting component also comprise:

For the adjusting bolt that described regulating block is tightened together with described support column;

Be installed on support wheel two ends and the adjustable a pair spacing catch of spacing;

Wherein, the spacing of described a pair spacing catch and the width of described carbon slipper match.

7. carbon slipper bracket folding brake according to claim 1, it is characterized in that, described material pressing device comprises:

Be arranged at the binder pillar on workbench;

Be connected with binder pillar and be positioned at the nip rolls above flanging station, for the first supporting component by being pressed in bracing or strutting arrangement under the carbon slipper be positioned on flanging station;

The pressure-applying unit for regulating it to act on the thrust of carbon slipper be connected with nip rolls.

8. carbon slipper bracket folding brake according to claim 7, it is characterized in that, described pressure-applying unit comprises:

Be installed on the binder fixed mount on described workbench, the fixed head of level that there is a column and be connected with a column top;

The cylinder that its cylinder body is connected with fixed head, its piston rod stretches out straight down;

The pressing lever that the piston rod of its one end and cylinder is hinged;

The connecting plate be fixedly connected with the other end of pressing lever, itself and described binder pillar are rotationally connected;

Wherein, described nip rolls is installed on the connecting axle bottom described connecting plate.

9. carbon slipper bracket folding brake according to claim 1, is characterized in that, described flanging transfer device comprises:

Be arranged on a conduplication side roller of the left and right sides of flanging station;

Drive the roller driving mechanism of a conduplication side roller opposite direction rotating;

Wherein, a described conduplication side roller opposite direction rotating, two sides to the carbon slipper bracket be positioned on described flanging station apply relative extruding force and apply the thrust that moves it to described carbon slipper.

10. carbon slipper bracket folding brake according to claim 9, is characterized in that, described roller driving mechanism comprises casing, be installed on the motor in or beyond casing and be installed on casing with lower member:

And the fixed conveyor axle that by first transmission component connected parallel with motor output shaft;

And the fixed idler whell axle that by second transmission component connected parallel with fixed conveyor axle;

And the position adjustable rolling wheel axle that by three transmission component connected parallel with fixed conveyor axle;

Wherein, the fixing flanging roller in a described conduplication side roller is installed on described fixed idler whell axle, and movable flanging roller is installed on the adjustable rolling wheel axle of described position.