CN204724660U - A kind of rolling folding brake - Google Patents

Abstract

The utility model discloses a kind of rolling folding brake, comprise base and two roll stand.Two roll stand lay respectively at base both sides.Roll stand is provided with roller grillage.Roller grillage is vertical plate body.Two roller grillages are parallel to each other.The inner side of roller grillage is provided with multiple rolling edge-folding mechanism.Each rolling edge-folding mechanism is made up of upper and lower two hemming roller; The axle center of upper and lower two hemming roller is positioned on same vertical line.Platen gap is provided with between upper and lower two hemming roller.The platen gap of each rolling edge-folding mechanism is positioned in same level.Upper and lower two hemming roller are connected with synchronous dynamic mechanism.A hemming roller is had at least to be provided with hemming die bar portion in upper and lower two hemming roller.The hemming die bar portion of each rolling edge-folding mechanism passes through shape retrieval.The utility model is moved along each rolling edge-folding mechanism under the pressing plate tractive unit of upper and lower two hemming roller drives by plate, and carries out flanging according to the hemming die bar portion of shape retrieval to plate.

Description

A kind of rolling folding brake

Technical field

The utility model relates to the flanging device of plate shaping.

Background technology

The equipment of tradition plate flanging is pressing plate and turns down shaping, after pushing down, realizes the flanging to slab edge by the upset of hemming die bar by plate.The problem that this equipment exists is: because plate is originally as metal, have elasticity, after plate once turns down, has part bounce-back and replys.For head it off, when usual plate turnover, the angle of upset is needed to be greater than actual angle that will be shaping.Such as, during plate 90 degree of flangings, hemming die bar may need upset 95 degree of angles.After removing hemming die bar, the flanging bounce-back rear one-tenth of reply 5 degree 90 degree of flangings that slab edge is 95 degree.But in Precision Machining, aobvious and this flanging mode exists the problem of precision, because the problems such as the material thickness of plate own can make flanging recovery angle not identical.

Be disclosed as CN101811162A patent document " hemming working apparatus " disclosed in 25 days Augusts in 2010 and disclose a kind of equipment realizing plate flanging by hemming roller.Drive the hemming roller that can rotate along its axle center to move around by travel mechanism in this equipment and realize processing to plate.But this process equipment or processing mode also can not solve the problem that aforesaid flanging is replied.Secondly, because the shape of hemming roller is fixed, and only have a hemming roller, to the plate of processing, there is preposition property condition, that is by after plate bending in advance to certain angle, just must can carry out the processing of hemming roller flanging before processing.

Summary of the invention

Problem to be solved in the utility model: the problem of the problem that plate flanging is replied and the processing of complicated flanging.

For solving the problem, the scheme that the utility model adopts is as follows:

A kind of rolling folding brake, comprises base, roll stand; Roll stand is erected on base; Roll stand has two, lays respectively at respective; Roll stand is provided with roller grillage; Roller grillage is vertical plate body; Roller grillage in two roll stand is parallel to each other; The inner side of roller grillage is provided with multiple rolling edge-folding mechanism; Each rolling edge-folding mechanism is made up of upper hem roller and lower hem roller; The axle center of upper hem roller and lower hem roller is positioned on same vertical line; Platen gap is provided with between upper hem roller and lower hem roller; The platen gap of each rolling edge-folding mechanism is positioned in same level; Upper hem roller on roller grillage and lower hem roller are connected with synchronous dynamic mechanism; A hemming roller is had at least to be provided with pressing plate tractive unit and hemming die bar portion in the upper hem roller of described rolling edge-folding mechanism and lower hem roller; Pressing plate tractive unit is cylinder; On roller grillage, the hemming die bar portion of each rolling edge-folding mechanism to pass through shape retrieval along plate direction of transfer.

Further, described synchronous dynamic mechanism comprise cog, lower gear, synchromesh gear belt, power gear and rolling motor; Cog coaxial with upper hem roller; Lower gear is coaxial with lower supporting-point roller; Synchromesh gear belt connects that each cogs, lower gear and power gear; Power gear connects rolling motor.

Further, to cog and lower gear is positioned at the outside of roller grillage.

Further, reducing gear is connected with between power gear and rolling motor.

Further, synchromesh gear belt is double cog synchronous belt, with the structure of S shape around cogging with on the gear teeth of lower gear.

Further, centered by hemming die bar portion, cross section is trapezoidal Rotary-table; The flanging angle difference of adjacent two rolling edge-folding mechanisms is no more than 25 degree; Described flanging angle is the angle between the Rotary-table side in hemming die bar portion and central shaft.

Further, roller grillage spacing adjusting mechanism is also comprised; Described roller grillage spacing adjusting mechanism comprises slide rail, servomotor, screw mandrel and screw; Roll stand is located on base by sliding rail frame, and is connected servomotor by screw mandrel with screw; Servomotor is located on base.

Further, supporting plate wheel track is also comprised; Supporting plate wheel track is the rectilinear orbit with roller, is erected on base, between two roll stand.

Further, the rolling edge-folding mechanism in two roll stand is asymmetric.

Further, the shape along the hemming die bar portion of the last several rolling edge-folding mechanism of plate direction of transfer is identical.

Technique effect of the present utility model is as follows:

1, self-driven plate moves.Processed plate is clamped by the platen gap of each rolling edge-folding mechanism, due to up-down rollers synchronous axial system, drives plate to move in the platen gap of each rolling edge-folding mechanism, therefore without the need to extra connecting gear.

2, flanging can be carried out in the both sides of plate simultaneously.Can make the flanging shape on plate both sides can not be identical by the design of the shape retrieval in the hemming die bar portion of the rolling edge-folding mechanism on both sides.

3, the plate of different in width is applicable to.Roller grillage spacing can be adjusted by screw mandrel, screw, slide rail and servomotor position roll grillage spacing adjusting mechanism, thus adapt to the plate of different in width.

4, repeatedly can repeat flanging to plate by the hemming die bar portion along the same shape of the last several rolling edge-folding mechanism of plate direction of transfer, thus keep flanging shape, avoid flanging to reply, realize Precision Machining.

5, the hemming roller up and down realizing each rolling edge-folding mechanism by double cog synchronous belt keeps identical linear velocity, thus is stretched or compressed when plate can not be advanced in each upper and lower hemming roller.

6, the hemming die bar portion of each rolling edge-folding mechanism to pass through shape retrieval along plate direction of transfer, can be realized the flanging of various shape by the design of the hemming die bar portion grading profile of each rolling edge-folding mechanism.When flanging shape changed by needs, only need the shape changing each upper and lower hemming roller on roll stand plate.

7, compared to the patent document " hemming working apparatus " being disclosed as CN101811162A, the utility model does not need the preposition processing of plate, only need common flat board, by the design of the hemming die bar portion grading profile of each rolling edge-folding mechanism, bilateral flanging can be carried out to flat board.

8, compared to the patent document " hemming working apparatus " being disclosed as CN101811162A, the utility model does not need travel mechanism to drive hemming roller to move around, apparently, driving hemming roller to move around needs larger power, and therefore energy consumption is higher.And hemming roller is fixing in the utility model, driven the movement of plate by the rotation of hemming roller, plate is comparatively light, and correspondingly energy consumption is less.

Accompanying drawing explanation

Fig. 1 is overall structure schematic perspective view of the present utility model.

Fig. 2 be of the present utility modelly to cog, the annexation figure of lower gear and synchromesh gear belt.

Fig. 3 is the structural representation of supporting plate wheel track of the present utility model.

Fig. 4 to Figure 15 is that the utility model is by the structural representation of 12 rolling edge-folding mechanism gradual deformation sequence of slab edge flanging 180 degree.

Figure 16 is the utility model hemming roller operation principle schematic diagram.

Figure 17 is the structural representation after the utility model embodiment plate flanging.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further details.

A kind of rolling folding brake, as shown in Figure 1, comprises base 1, roll stand 2 and supporting plate wheel track 5.Roll stand 2 and supporting plate wheel track 5 are erected on base 1.Roll stand 2 has two, lays respectively at the respective of supporting plate wheel track 5.That is, supporting plate wheel track 5 is between two roll stand 2.Supporting plate wheel track 5 is the rectilinear orbit with roller, as shown in Figure 3, comprises wheel track frame 51 and roller 52.Roller 52 has multiple, is erected at wheel track frame 51 by roller shaft 53.Multiple roller 52 constitutes the mechanism for supporting plate.In the present embodiment, supporting plate wheel track 5 has two, is parallel to each other.When plate is through the rolling folding brake of the present embodiment, two supporting plate wheel tracks 5 play the supporting role to plate, and avoiding affects plate both sides flanging because gravity is sagging when flanging in the middle of plate.Roller 52 on supporting plate wheel track 5 itself, without dynamical system, assists plate to move for being rolled by it when plate moves.Roll stand 2 is made up of base plate and roller grillage 21.Roller grillage 21 is vertical plate body, and base plate is horizontal plate body.Roller grillage 21 and base plate composition L shape structure.Two roll stand 2 are oppositely arranged, and symmetrically.Roller grillage 21 in two roll stand 2 is parallel to each other, and parallels with supporting plate wheel track 5.The inner side of roller grillage 21 is provided with multiple rolling edge-folding mechanism.The inner side of roller grillage 21 is also the center position towards two roll stand 2.

Rolling edge-folding mechanism, as shown in Fig. 4 to 15 and Figure 16, is made up of upper hem roller 41 and lower hem roller 42.Upper hem roller 41 and lower hem roller 42 are arranged on roller grillage 21 by its respective power transmission shaft 46.The axle center level of upper hem roller 41 and lower hem roller 42 and perpendicular to the center line of two roll stand 2.As shown in figure 16, the axis parallel of upper hem roller 41 and lower hem roller 42 is in X-axis, perpendicular with Z axis.In Figure 16, the direction of Z axis is the centerline direction of two roll stand 2.In addition, the axle center of upper hem roller 41 and lower hem roller 42 is positioned on same vertical line, and namely, the line between the intersection point in the plane of the axial line of upper hem roller 41 and lower hem roller 42 Y-axis in figure 16 and Z axis composition is parallel to Y-axis.In Figure 16, Y-axis is vertical direction or vertical direction.A hemming roller is had at least to be provided with hemming die bar portion 49 and pressing plate tractive unit 48 in upper hem roller 41 and lower hem roller 42.As in Fig. 4 to 10 and Figure 16, hemming die bar portion 49 is positioned at lower hem roller 42.As in Figure 11 to 15, hemming die bar portion 49 is positioned at upper hem roller 41.Pressing plate tractive unit 48 is the cylinders relative to hemming die bar portion 49 part in upper and lower hemming roller.In Fig. 4 to 9, Figure 11 to 14 and Figure 16, hemming die bar portion 49 is central cross-sections is trapezoidal Rotary-table.And in Figure 10 and Figure 15, hemming die bar portion 49 is different from the cylinder of pressing plate tractive unit 48 for its diameter.In Fig. 4 to 9, Figure 11 to 14 and Figure 16, the Rotary-table side in hemming die bar portion 49 and the angle of central shaft θfor flanging angle.In Fig. 4 to 9 and Figure 16, the hemming die bar portion 49 of Rotary-table structure is positioned at lower hem roller 42, and flanging angle is between 0 degree to 90 degree; In Figure 10, be positioned at the hemming die bar portion 49 of the cylindrical structure of lower hem roller 42, be equivalent to flanging angle and equal 90 degree; In Figure 11 to 14, the hemming die bar portion 49 of Rotary-table structure is positioned at upper hem roller 41, and flanging angle is between 90 degree to 180 degree; In Figure 15, the hemming die bar portion 49 of cylindrical structure is positioned at upper hem roller 42, is equivalent to flanging angle and equals 180 degree.Platen gap 45 is provided with between upper hem roller 41 and lower hem roller 42.The platen gap 45 of each rolling edge-folding mechanism is positioned in same level, or alternatively, the platen gap 45 of each rolling edge-folding mechanism has identical height.Platen gap 45 is for clamping plate, and as shown in figure 16, plate 9 is clamped after the platen gap 45 between upper hem roller 41 and lower hem roller 42.Therefore, the Range-dependent of platen gap 45 is in the thickness of processed plate 9.Power transmission shaft 46 connects synchronous dynamic mechanism.Under the driving of synchronous dynamic mechanism, upper hem roller 41 and lower hem roller 42 are rotated along horizontal axis synchronous backward by respective power transmission shaft 46.The rotation direction of upper hem roller 41 and lower hem roller 42 is contrary.As shown in figure 16, upper hem roller 41 rotates counterclockwise along horizontal axis, and lower hem roller 42 then rotates clockwise along horizontal axis, and upper and lower hemming roller rotation direction is different.The rotation of upper hem roller 41 and lower hem roller 42 is synchronous, and namely the pressing plate tractive unit 48 of upper hem roller 41 and lower hem roller 42 has identical linear velocity.When plate flanging, the both sides of plate are clamped in respective rolling edge-folding mechanism respectively by platen gap 45, and the middle frame of plate is located on supporting plate wheel track 5.Under upper hem roller 41 and lower hem roller 42 synchronous axial system drive, move in plate each rolling edge-folding mechanism on rolling folding brake.As shown in figure 16, upper hem roller 41 rotates counterclockwise and rotates clockwise down with lower hem roller 42, drives plate 9 to move along Z-direction; When the platen gap 45 of plate 9 between upper hem roller 41 and lower hem roller 42, due to the effect by hemming die bar portion 49 in lower hem roller 42, plate 9 is gone out the shape of flanging 91 from the shape bending of flat board.Angle between flanging 91 and level ωfor depending on the flanging angle in hemming die bar portion 49 θ.When not considering that flanging 91 bounce-back is replied, the angle between flanging 91 and level ωbe equal to the flanging angle in hemming die bar portion 49 θ.

On roller grillage 21, the hemming die bar portion 49 of each rolling edge-folding mechanism to pass through shape retrieval along plate direction of transfer.On roller grillage 21, the hemming die bar portion 49 of each rolling edge-folding mechanism passes through along plate direction of transfer the structure rolling edge-folding mechanism gradual deformation sequence of shape retrieval.Fig. 4 to 15 is that hemming die bar portion 49 passes through along plate direction of transfer the embodiment of shape retrieval.The present embodiment is used for slab edge flanging 180 degree.As shown in figure 17, wherein, 9 is by the plate of flanging to structure after slab edge flanging 180 degree, and 91 is the tuck portion after plate left side edge flanging 180 degree.In the present embodiment, each roller grillage 21 is provided with altogether 13 rolling edge-folding mechanisms.The 1st to the 12nd the rolling edge-folding mechanism along plate direction of transfer corresponds respectively to the structure in Fig. 4 to Figure 15.13rd rolling edge-folding mechanism is identical with the 12nd rolling edge-folding mechanism, can refer to Figure 15.Wherein, corresponding to Fig. 4 to 10, the 1st to the 7th rolling edge-folding mechanism is used for slab edge flanging 90 degree, and its hemming die bar portion 49 is positioned at lower hem roller 42.Corresponding to Figure 11 to 15, the 8th to the 12nd rolling edge-folding mechanism is used for after slab edge flanging 90 degree, and tuck portion again inside bending 90 degree makes it edge flanging 180 degree, and its hemming die bar portion 49 is positioned at upper hem roller 41.In Fig. 4 to 9, Figure 11 to 14, centered by hemming die bar portion 49, cross section is trapezoidal Rotary-table.In Figure 10 and Figure 15, hemming die bar portion 49 is cylinder.The flanging angle in hemming die bar portion 49 is respectively at Fig. 4 to Fig. 9: 18 degree, 35 degree, 51 degree, 64 degree, 75 degree and 84 degree.The flanging angle difference of adjacent two rolling edge-folding mechanisms is no more than 18 degree.Flanging angle is respectively at Figure 11 to 14: 108 degree, 126 degree, 144 degree, 162 degree.Thus, in the rolling edge-folding mechanism gradual deformation sequence of Fig. 4 to 15, the flanging angle in hemming die bar portion 49 is respectively: 18 degree, 35 degree, 51 degree, 64 degree, 75 degree, 84 degree, 90 degree, 108 degree, 126 degree, 144 degree, 162 degree, 180 degree.Thus, plate after the 12nd rolling edge-folding mechanism plate by flanging 180 degree, then prevent after the 13rd rolling edge-folding mechanism again flanging plate rebound reply.According in Fig. 4 to Figure 15, hemming die bar portion 49 passes through along plate direction of transfer the design of shape retrieval, it will be appreciated by those skilled in the art that the utility model can realize 0 to 180 and spend flanging at any angle.In fact, it also can realize the right side edge flanging shape of plate 9 as shown in figure 17.Adopt the rolling edge-folding mechanism gradual deformation sequence of Fig. 4 to Figure 15, first slab edge can be converted into 180 degree of flangings of edge 92 part in Figure 16, and then according to the rolling edge-folding mechanism gradual deformation sequence of Fig. 4 to Figure 10, by the shape of the edge 93 part rear final formation right side edge flanging of bending 90 degree again.Apparently, can draw according to the present embodiment, plate flanging shape is according to the design of rolling edge-folding mechanism gradual deformation sequence.

It should be noted that, in the rolling edge-folding mechanism gradual deformation sequence of above-mentioned the present embodiment, the flanging angle in hemming die bar portion 49 is not arithmetic progression.The difference at the flanging angle in the hemming die bar portion 49 of adjacent two rolling edge-folding mechanisms depends on the size of upper hem roller 41 and lower hem roller 42 roll body and the width of flanging.In general, the difference at the flanging angle in the hemming die bar portion 49 of adjacent two rolling edge-folding mechanisms is no more than 25 degree.It should be noted that in addition, the rolling edge-folding mechanism in two roll stand 21 can be asymmetric.That is, rolling edge-folding mechanism in left side roll stand 21 can adopt a kind of rolling edge-folding mechanism gradual deformation sequence to design, and the rolling edge-folding mechanism in the right roll stand 21 can adopt another kind of rolling edge-folding mechanism gradual deformation sequence to design, plate both sides flanging can be gone out different shapes thus.As shown in figure 17, the left side of plate 9 is 180 degree of flangings, and the right is add 90 degree of flangings after 180 degree, and the right and left flanging shape of plate 9 is not identical.

In the present embodiment, synchronous dynamic mechanism is rotated along horizontal axis synchronous backward by respective power transmission shaft 46 for driving upper hem roller 41 and lower hem roller 42.The specific design of the synchronous dynamic mechanism of the present embodiment as shown in Figure 1 and Figure 2.As shown in Figure 1 and Figure 2, synchronous dynamic mechanism comprise cog 31, lower gear 32, synchromesh gear belt 33, power gear 34 and rolling motor 35.Cog 31 coaxial with upper hem roller 41; Lower gear 32 is coaxial with lower supporting-point roller 42.Namely, cog and 31 31 to be connected respectively with lower gear 32 with cogging by respective transmission shaft 46 with upper hem roller 41 and lower supporting-point roller 42.Cog 31 and lower gear 32 be positioned at the outside of roller grillage 21.Synchromesh gear belt 33 connects that each cogs 31, lower gear 32 and power gear 34.Power gear 34 connects rolling motor 35 by reducing gear 36.In the present embodiment, synchromesh gear belt 33 is double cog synchronous belt, as shown in Figure 2, synchromesh gear belt 33 with the structure of S shape around on the gear teeth cogging 31 and lower gear 32.Reducing gear 36 and rolling motor 35 are arranged on the base plate of roll stand 2.

In addition, in the present embodiment, roller grillage spacing adjusting mechanism is also included further.Roller grillage spacing adjusting mechanism for adjusting the spacing of the right and left roller grillage 21, thus adapts to the plate of different in width.Roller grillage spacing adjusting mechanism, as shown in Figure 1, comprises slide rail 11, servomotor 12, screw mandrel 13 and screw 14; Roll stand 2 is erected on base 1 by slide rail 11, and is connected servomotor 12 by screw mandrel 13 with screw 14; Servomotor 12 is located on base 1.Thus, when servomotor 12 works, by driving relatively rotating of screw mandrel 13 and screw 14, roll stand 2 entirety can be driven to slide along the right and left on slide rail 11, thus changes the spacing of both sides roller grillage 21.Apparently, screw mandrel 13 parallels with slide rail 11 and perpendicular to plate direction of transfer, slide rail 11 and screw mandrel 13 are perpendicular to the Z-direction in Figure 16.

It should be noted that; above-mentioned enforcement is only one of the utility model preferred forms; every employing is equal to the mode of replacement or equivalent transformation and the technical scheme that formed all meets spirit of the present utility model, drops in the scope of the utility model claim protection.Such as, supporting plate wheel track 5 is for supporting plate.If the spacing of both sides roller grillage 21 is less or plate is enough thick, though do not use supporting plate wheel track 5 also can not sagging time, supporting plate wheel track 5 is omissible parts.After supporting plate wheel track 5 omits, do not affect spirit of the present utility model.For another example, in above-mentioned the present embodiment, shape along the plate direction of transfer hemming die bar portion 49 of latter two rolling edge-folding mechanism is identical, if when plate bounce-back itself is replied larger, can repeat to arrange one for the hemming die bar portion 49 at degree flanging angle, 90 in Figure 10 again.That is, do not need the hemming die bar portion of two adjacent rolling edge-folding mechanisms not identical in rolling edge-folding mechanism gradual deformation sequence, allow the hemming die bar portion design of the rolling edge-folding mechanism that in rolling edge-folding mechanism gradual deformation sequence, existence two is adjacent and identical yet.

Claims (9)

1. a rolling folding brake, is characterized in that, comprises base (1), roll stand (2); Roll stand (2) is erected on base (1); Roll stand (2) has two, lays respectively at respective; Roll stand (2) is provided with roller grillage (21); Roller grillage (21) is vertical plate body; Roller grillage (21) on two roll stand (2) is parallel to each other; The inner side of roller grillage (21) is provided with multiple rolling edge-folding mechanism; Each rolling edge-folding mechanism is made up of upper hem roller (41) and lower hem roller (42); The axle center of upper hem roller (41) and lower hem roller (42) is positioned on same vertical line; Platen gap (45) is provided with between upper hem roller (41) and lower hem roller (42); The platen gap (45) of each rolling edge-folding mechanism is positioned in same level; Upper hem roller (41) on roller grillage (21) and lower hem roller (42) are connected with synchronous dynamic mechanism; A hemming roller is had at least to be provided with hemming die bar portion (49) in the upper hem roller (41) of described rolling edge-folding mechanism and lower hem roller (42); The hemming die bar portion (49) of the upper each rolling edge-folding mechanism of roller grillage (21) to pass through shape retrieval along plate direction of transfer.

2. rolling folding brake as claimed in claim 1, it is characterized in that, described synchronous dynamic mechanism comprises cog (31), lower gear (32), synchromesh gear belt (33), power gear (34) and rolling motor (35); Cog (31) coaxial with upper hem roller (41); Lower gear (32) is coaxial with lower supporting-point roller (42); Synchromesh gear belt (33) connects each cog (31), lower gear (32) and power gear (34); Power gear (34) connects rolling motor (35).

3. rolling folding brake as claimed in claim 2, is characterized in that, cogs (31) and lower gear (32) is positioned at the outside of roller grillage (21).

4. rolling folding brake as claimed in claim 2, is characterized in that, be connected with reducing gear (36) between power gear (34) and rolling motor (35).

5. rolling folding brake as claimed in claim 2, it is characterized in that, synchromesh gear belt (33) is double cog synchronous belt, with the structure of S shape around cog (31) and lower gear (32) the gear teeth on.

6. rolling folding brake as claimed in claim 1, it is characterized in that, centered by hemming die bar portion (49), cross section is trapezoidal Rotary-table; The flanging angle difference of adjacent two rolling edge-folding mechanisms is no more than 25 degree; Described flanging angle is the angle between the Rotary-table side in hemming die bar portion (49) and central shaft.

7. rolling folding brake as claimed in claim 1, is characterized in that, also comprise roller grillage spacing adjusting mechanism; Described roller grillage spacing adjusting mechanism comprises slide rail (11), servomotor (12), screw mandrel (13) and screw (14); Roll stand (2) is erected on base (1) by slide rail (11), and is connected servomotor (12) by screw mandrel (13) with screw (14); Servomotor (12) is located on base (1).

8. rolling folding brake as claimed in claim 1, is characterized in that, also comprise supporting plate wheel track (5); Supporting plate wheel track (5) is the rectilinear orbit with roller, is erected on base (1), is positioned between two roll stand (2).

9. rolling folding brake as claimed in claim 1, it is characterized in that, the rolling edge-folding mechanism on two roll stand (2) is asymmetric.