CN209477649U - A kind of rolling device for plate connection - Google Patents

Abstract

The utility model discloses a kind of rolling devices for plate connection, are related to plate interconnection technique field.The rolling device includes pedestal, plate transmitting device, cavity plate, elevating mechanism, blank holder, driving device and rolling mechanism.Wherein plate transmitting device is installed on pedestal, cavity plate is installed on pedestal and parallel with the transmission shaft in plate transmitting device, elevating mechanism is fixedly arranged on pedestal, blank holder connect and is located at the top at the edge of cavity plate with elevating mechanism, driving device is installed in one end on pedestal far from elevating mechanism, and rolling mechanism connect and be located at the top of cavity plate with driving device.The utility model is by the motion mode using rolling mechanism and simplifies cavity die structure, realizes that the multiple spot of lamination composite plate or large flat simultaneously, continuously connects, and effectively increase the intensity and joint efficiency of tie point.

Description

A kind of rolling device for plate connection

Technical field

The utility model relates to plate interconnection technique fields, and in particular to a kind of rolling device for plate connection.

Background technique

No rivet interlacement technology is to carry out punching press to connected plate using riveting equipment and special connecting mold, is utilized The cold-pressing deformation of plate forms the tie point of an inner interlocked with certain tension and shearing strength at extruding, can The two or more layers plate of different materials, different thicknesses is connected.Compared with conventional rivet connection mode, no rivet interlacement is not necessarily to Additional connector is not limited by connected plate, will not damage the surface at work tie point, and resistance to vibration is high, operation Simply, there is very high economic performance, connection charge is low, extensive in industrial applications such as automobile, household electrical appliances, electronics, hardware.

Static strength without rivet interlacement is influenced by joint geometry, and connector neck depth value and mutual drop lock are that evaluation connects The important indicator of head shapes, it is directly related with connection method and the mould structure used.Connector anti-corrosion of the dot without rivet interlacement Corrosion can be good, and extensive use has been obtained in endurance.But in forming process, punch-pin is direct acting relative to the movement of cavity plate Formula, it is easy to make connector neck material is excessively thin to be pulled off in the draw-texture process to plate；Simultaneously for the ease of demoulding, Punch-pin will have certain pattern draft, and design is in an inverted cone, this may make material extrusion packing inadequate, cause between plate Mutual drop lock is inadequate, and can only increase by using the cavity die structure of the complexity such as monolithic construction with groove or split-type structure mutual Drop lock；Again since punch-pin is Direct Action Type, not can be carried out multiple spot simultaneously, it is continuously coupled, be not suitable for lamination composite plate or big yet The connection of type plate.

Utility model content

The purpose of the utility model is to provide a kind of rolling devices for plate connection, and the device is by utilizing roller press The motion mode of structure and simplified cavity die structure, realize that the multiple spot of lamination composite plate or large flat simultaneously, continuously connects, and have Effect improves the intensity and joint efficiency of tie point.

To achieve the above object, technical solution provided by the utility model are as follows:

A kind of rolling device for plate connection, including

Pedestal；

Plate transmitting device is installed on the pedestal；

Cavity plate, be installed in it is on the pedestal and parallel with the transmission shaft in the plate transmitting device so that plate passes through Plate transmitting device is transmitted on the cavity plate；

Elevating mechanism is fixedly arranged on one end on the pedestal and close to the cavity plate；

Blank holder is connect by connecting rod with the elevating mechanism, and is located at the top at the edge of the cavity plate, is used for phase The upper plate and lower plate for stacking connection are fixed on the cavity plate；

Driving device, far from one end of the elevating mechanism on the pedestal；

At least a pair of of rolling mechanism, connect with the driving device and is located at the top of the cavity plate, for described recessed Plate on mould carries out rolling connection.

Further, the plate transmitting device includes feeder motor, belt and transmission shaft, the feeder motor and transmission It is located on the pedestal, the feeder motor drives the transmission shaft rotation by the belt.

Further, at least a pair of of rolling mechanism, two rolling mechanisms of each pair of rolling mechanism are formed as engagement Connection, interconnection or coaxial connection；When the rolling mechanism is multipair, the rotary shaft of the multipair rolling mechanism is along rotation The axial connection setting of axis.

Further, described when two rolling mechanisms for forming each pair of rolling mechanism are engagement connection or interconnection Rolling device further includes rotating mechanism, and the rotating mechanism is installed in the rotary shaft of the rolling mechanism；The rolling mechanism For convex rolling mechanism or tooth form rolling mechanism, the rolling mechanism includes the rolling portion being connected and rotary shaft, the rotation Axis is installed on support base by bearing, and the support base is set on the pedestal；A wherein rolling in each pair of rolling mechanism One end of the rotary shaft of mechanism is connect with the output shaft of the driving device by a shaft coupling；It the rolling portion can be with plate Upper surface contact, for carrying out rolling connection to the plate on the cavity plate.

Further, when the rolling mechanism is convex rolling mechanism, the rolling mechanism further includes a support portion, institute It states support portion and the rolling portion is integrally formed, the rotary shaft is arranged on the support portion.

Further, the rotating mechanism includes the first gear of two external toothings and is covered on two first gears On cover board, two first gears of external toothing are fixedly arranged on the rotation for forming two rolling mechanisms of each pair of rolling mechanism respectively On one end of shaft, the cover board is installed in two rotary shafts and the rotary shaft is rotatably connected with the cover board.

Further, the rotating mechanism includes rack gear, first gear and second gear, and the rack gear is engaged in described On two gears, the rack gear is the class rectangle item with hollow portion, and the two opposite outer face of the rack gear and the side of hollow portion Face is all provided with teeth, and the second gear is set to and the hollow portion and engages with the side of the hollow portion, and the first gear is Two, two first gears are respectively arranged on the two opposite outer of the rack gear and engage with the rack gear；The driving dress The output shaft set is connect with the second gear.

Further, a controller is also set up on the pedestal, the rotary shaft is equipped with an angular transducer, the angle It spends sensor and the controller is wirelessly connected, angle detected by the angular transducer is transmitted in controller, is passed through Controller directly controls the rotation angle of rotary shaft.

By using above-mentioned technical proposal, the utility model has the following beneficial effects:

(1) the utility model is by this structure of rolling mechanism, may be implemented to large plate, lamination composite plate it is more Point simultaneously, it is continuously coupled, also improve joint efficiency while improving connection effect.

(2) the utility model is driven by combining driving device, rotating mechanism and rolling mechanism etc. by driving device Rotating mechanism rotation, and then rolling mechanism rotation is driven, efficiently realize the connection of plate.And it is also provided with blank holder and leads to Cross elevating mechanism and elevating control carried out to blank holder, can be obtained by blank holder after putting plate to cavity plate it is good firm, Blank holder can be controlled by elevating mechanism and leave plate surface after the completion of plate connection, be taken out convenient for the plate after connection.In addition, Cavity die structure in the utility model is simple, and type chamber can design the structure of squarely, the rolling convenient for rolling mechanism to plate Connection.

(3) labyrinth of the utility model by the rolling motion of rolling mechanism rather than by cavity plate forms interlocking, takes off Rolling mechanism can be completed by reversely rotating when mould, easy to operate, good connecting effect.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the rolling device for plate connection of the utility model embodiment 1；

Fig. 2 is the connected mode schematic diagram of multipair rolling mechanism in the utility model embodiment 1；

Fig. 3 is the structural schematic diagram of rotating mechanism in the utility model embodiment 1；

Fig. 4 is to carry out plate using a kind of application method of the rolling device for plate connection of the utility model embodiment 1 The schematic diagram of material rolling connection；

Fig. 5 is the knot that the plate jointing obtained after plate connection is carried out using the method for the utility model embodiment 1 Structure schematic diagram；

Fig. 6 is the connected mode schematic diagram of multipair rolling mechanism in the utility model embodiment 2；

Fig. 7 is the structural schematic diagram of rolling mechanism in the utility model embodiment 3；

Fig. 8 is the structural schematic diagram of rolling mechanism in the utility model embodiment 4；

Fig. 9 is the structural schematic diagram of rotating mechanism in the utility model embodiment 5.

In figure: 1- pedestal, 2- plate transmitting device；21- feeder motor, 22- belt, 23- transmission shaft, 3- cavity plate, 4- liter Descending mechanism, 41- lifter plate, 5- blank holder, 6- driving device, 7- rotating mechanism, 71- first gear, 72- cover board, 73- rack gear, 74- second gear, 8- rolling mechanism, the first rolling mechanism of 801-, the second rolling mechanism of 802-, 81- rolling portion, 82- rotary shaft, 9- plate, the upper plate of 91-, plate under 92-, 10- connecting rod, 11- support base.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

It should be noted that it can be directly on another component when component is referred to as " being fixed on " another component Or there may also be components placed in the middle.When a component is considered as " connection " another component, it, which can be, is directly connected to To another component or it may be simultaneously present component placed in the middle.When a component is considered as " being set to " another component, it It can be and be set up directly on another component or may be simultaneously present component placed in the middle.Term as used herein is " vertical ", " horizontal ", "left", "right" and similar statement for illustrative purposes only.

Embodiment 1

As shown in Figure 1, a kind of rolling device for plate connection, including pedestal 1, plate transmitting device 2, cavity plate 3, liter Descending mechanism 4, blank holder 5, driving device 6, rotating mechanism 7 and at least a pair of of rolling mechanism 8.Wherein plate transmitting device 2 is installed In on the pedestal 1, cavity plate 3 be installed in it is on the pedestal 1 and parallel with the transmission shaft 23 in the plate transmitting device 2, i.e., The upper surface of cavity plate 3 and the upper surface of transmission shaft 23 are in the same plane, so that plate 9 is transmitted by plate transmitting device 2 On to the cavity plate 3.Elevating mechanism 4 is fixedly arranged on one end on the pedestal 1 and close to the cavity plate 3, and blank holder 5 passes through connecting rod 10 connect with the lifter plate 41 in the elevating mechanism 4, and are located at the top at the edge of the cavity plate 3, for connecting mutually stacking The upper plate and lower plate connect is fixed on the cavity plate 3.Driving device 6 is installed on the pedestal 1 far from the elevator One end of structure 4, and be spaced and be arranged with the cavity plate 3.Driving device 6 in the present embodiment is a rolling motor.The rotating machine Structure 7 is installed in the rotary shaft 82 of the rolling mechanism 8.The output axis connection of the rolling mechanism 8 and the driving device 6 and Positioned at the top of the cavity plate 3, for carrying out rolling connection to the plate on the cavity plate 3.

In the present embodiment, the plate transmitting device 2 includes feeder motor 21, belt 22 and transmission shaft 23, the conveying Motor 21 and transmission shaft 23 are set on the pedestal 1, and the feeder motor 21 drives the transmission shaft 23 by the belt 22 Rotation.By this plate transmitting device 2, the conevying efficiency on plate 9 to cavity plate 3 is improved, shortens and puts plate 9 to recessed Time on mould 3, and then improve work efficiency.

In the present embodiment, the elevating mechanism 4 includes cylinder (not shown) on the pedestal 1 and set on the cylinder Other published elevating mechanisms also can be selected in certain other embodiments in lifter plate 41 on push rod.

Further, the rolling mechanism 8 can be set one or more pairs of.It is multipair described when the rolling mechanism 8 is multipair Axial connection setting of the rotary shaft 82 of rolling mechanism 8 along rotary shaft 82.In the present embodiment, the rolling mechanism 8 be four pairs, four The rotary shaft 82 of the rolling mechanism 8 is connected along the axial direction of rotary shaft 82, forms two rolling mechanisms of each pair of rolling mechanism 8 The connection type in the rolling portion 81 in 8 is interconnection (such as Fig. 2).And in the present embodiment, the rolling mechanism 8 is tooth form rolling Mechanism, the rolling mechanism 8 include that the rolling portion 81 being connected and rotary shaft 82, the rotary shaft 82 are installed on branch by bearing It supports on seat 11, the support base 11 is set on the pedestal 1.The rotary shaft of a wherein rolling mechanism 8 in each pair of rolling mechanism 8 82 one end is connect with the output shaft of the driving device 6 by a shaft coupling (not shown)；It the rolling portion 81 can be with plate 9 Upper surface contact, for carrying out rolling connection to the plate 9 on the cavity plate 3.By utilizing this tooth form rolling mechanism Interconnection realizes multiple spot, continuously coupled, keeps the rolling connection effect of plate good, and the plate connector obtained is not easily broken It splits, the service life is long.

In the present embodiment, since rolling mechanism 8 is supported by support base 11, the distance between rolling mechanism 8 and cavity plate 3 With the upper plate 91 of connection to be rolled and the thickness of lower plate 92 and quite.It can also be by driving device 6 in certain other embodiments Be set on a lifting device being fixed on pedestal 1 with rotating mechanism 7, by lifting device realize rolling mechanism 8 and cavity plate 3 it Between distance adjust, to adapt to the thickness of different plates 9.Before i.e. plate 9 is transmitted on cavity plate 3, rolling mechanism 8 is located at cavity plate 3 top, and distance between the two is farther out, so that plate 9 is smoothly transmitted on cavity plate 3.After plate 9 is transmitted on cavity plate 3, The height of driving device 6 and rotating mechanism 7 is adjusted by lifting device, and then adjusts the height of rolling mechanism 8, makes to adjust rolling The rolling portion 81 of mechanism 8 is contacted with the upper surface of plate 9, that is, can reach the purpose of the thickness adjustable range according to plate 9.The liter Falling unit can use lifting device in the prior art, as disclosed in the utility model patent of Publication No. CN207632424U Lifting platform, herein no longer in detail repeat.After the rolling portion 81 of rolling mechanism 8 and the upper surface of plate 9 contact, it can start Start driving device 6, rolling mechanism 8 is made to start to carry out rolling connection to plate.

In the present embodiment, the first gear 71 of the rotating mechanism 7 including two external toothings and it is covered on two described the Cover board 72 on one gear 71, the first gear 71 of two of external toothing are fixedly arranged on the two of each pair of rolling mechanism 8 of composition respectively On one end of the rotary shaft 82 of a rolling mechanism 8, the cover board 72 is installed in two rotary shafts 82 and the rotary shaft 82 are rotatably connected with the cover board 72.One end of two rotary shafts 82 of i.e. each pair of rolling mechanism initially passes through cover board 72 and is then passed through First gear 71 in cover board 72.Wherein output shaft of the end of one end of a rotary shaft 82 also with the driving device 6 passes through One shaft coupling (not shown) connection, to drive the rotation of this rotary shaft 82 by driving device 6, due in this rotary shaft 82 First gear 71 is engaged with the first gear 71 in another rotary shaft 82, so that another 82 opposite direction of rotary shaft be driven to turn It is dynamic.In two 82 rotation processes of rotary shaft, rolling portion 81 is pressed down against, and realizes the connection of plate.

A kind of application method of the rolling device for plate connection of the utility model embodiment, includes the following steps:

(1) upper plate 91 and lower plate 92 stacking are placed on transmission shaft 23, will be connected by plate transmitting device 2 Plate 9 be transmitted on cavity plate 3, and blank holder 5 is fixed on the connected plate 9 on cavity plate 3 by elevating mechanism 4.

(2) start driving device 6, drive a rotary shaft 82 of rolling mechanism 8 to rotate by driving device 6, and then drive The first rolling mechanism 801 of each pair of rolling mechanism and the rolling portion of the second rolling mechanism 802 are formed in four pairs of rolling mechanisms 8 81 with identical speed w rotating around the center O of rotary shaft 82 in rolling mechanism 8₁And O₂It is rotated in opposite direction, while downwards to quilt The upper plate 91 and lower plate 92 of connection are squeezed, and are pressed into the rectangular cavity of the cavity plate 3；Wherein, rolling mechanism 8 is anti- During direction rotates, forms two rolling mechanisms 8 of each pair of rolling mechanism 8 while rotating.

(3) when the rotary shaft 82 of rolling mechanism 8 is rotated up to defined angle [alpha], after pressure maintaining 3-5 seconds, rolling mechanism 8 is anti- Turn to exit, realizes demoulding, obtain a secured non-rotatable mechanical interlocked point.

The calculation formula for the angle [alpha] that the rolling mechanism 8 is rotated up to is

α=arcsin2 (H+t₁+t₂+h-X)/(R+r)

Wherein, H is minimum perpendicular distance of the rotary shaft to upper plate surface, t₁For the thickness of upper plate, t₂For lower plate Thickness, h are the height of rectangular cavity in cavity plate, and X is that (X value can for the minimum thickness of upper plate and lower board joints when rolling is completed According to t₁And t₂Value preset), R be rotary shaft 82 in rolling mechanism 8 center into rolling mechanism 8 rolling portion 81 it is outer The distance on convex surface, r are the distance of center inner concave in rolling portion 81 into rolling mechanism 8 of rotary shaft 82 in rolling mechanism 8.

In the present embodiment, after the angle [alpha] of rotation is calculated using above-mentioned formula, pass through turning for driving device (rolling motor) Angle controls, and in certain other embodiments, a controller can also be arranged on pedestal 1, and angle biography is set in rotary shaft 82 Sensor, the angular transducer and controller are wirelessly connected, and angle detected by angular transducer is transmitted in controller, are passed through Controller directly controls the rotation angle of rotary shaft 82, to achieve the purpose that further increase control precision.

Schematic diagram of the plate without rivet rolling connection is carried out as shown in figure 4, obtaining using the above method using the above method Plate jointing structure it is as shown in Figure 5.

Labyrinth of the utility model method by the rolling motion of rolling mechanism 8 rather than by cavity plate forms interlocking, Rolling mechanism 8 can be completed by reversely rotating when demoulding, easy to operate, good connecting effect；And using in the utility model The structure of rolling mechanism may be implemented to the multiple spot of large plate, lamination composite plate simultaneously, it is continuously coupled, improve connection effect While also improve joint efficiency.In addition, 3 structure of cavity plate in the utility model is simple, type chamber can design squarely Structure connects the rolling of plate 9 convenient for rolling mechanism 8.

Embodiment 2

In the present embodiment, in addition to the connection type of four pairs of rolling mechanisms 8 is different from embodiment 1, other with 1 phase of embodiment Together.

In the present embodiment, in four pairs of rolling mechanisms 8, the rolling portion 81 of two rolling mechanisms 8 of each pair of rolling mechanism 8 is formed Connection type be engagement connection, as shown in Figure 6.

Embodiment 3

In the present embodiment, except the connection type of four pairs of rolling mechanisms 8 is different from embodiment 1, and setting rotating machine is not needed Outside structure 7, other are same as Example 1.

In the present embodiment, in four pairs of rolling mechanisms 8, two rolling mechanisms 8 for forming each pair of rolling mechanism 8 are coaxial company It connects, as shown in Figure 7.Due to forming the coaxial connection of two rolling mechanisms 8 of each pair of rolling mechanism 8, i.e., in a pair of of rolling mechanism 8 only There is a rotary shaft 82, therefore do not need rotating mechanism 7, one end of the rotary shaft 82 need to only be filled by shaft coupling and driving Set 6 output axis connection.In the application method of rolling device, when two 8 opposite directions of rolling mechanism rotate, form each pair of Two rolling mechanisms 8 of rolling mechanism 8 are successively rotation.First make driving device 6 along a direction (as clockwise) rotation, drives Rotary shaft 82 rotates, and a rolling portion 81 is pressed down against, and makes the rotation (as counterclockwise) in another direction of driving device 6 again after the completion, Rotary shaft 82 is driven to rotate, another rolling portion 81 is pressed down against, until rotary shaft 82 is rotated up to defined angle [alpha].

Embodiment 4

In the present embodiment, in addition to the structure of four pairs of rolling mechanisms 8 is different from embodiment 1, other are same as Example 1.

In the present embodiment, four pairs of rolling mechanisms 8 are convex rolling mechanism, as shown in Figure 8.The rolling mechanism 8 includes phase Support portion 83, rolling portion 81 and the rotary shaft 82 of connection, the support portion 83 are integrally formed with the rolling portion 81, the rotation Axis 82 is arranged on the support portion 83.

Embodiment 5

In the present embodiment, in addition to the structure of rotating mechanism 7 is different from embodiment 1, other are same as Example 1.

In the present embodiment, the rotating mechanism 7 includes rack gear 73, first gear 71 and second gear 74, the rack gear 73 It is engaged in the second gear 74, the rack gear 73 is the class rectangle item with hollow portion, and opposite the two of the rack gear 73 The side of lateral surface and hollow portion be all provided with it is with teeth, the second gear 74 be set to the hollow portion in and one with the hollow portion Side engagement.The first gear 71 is two, and two first gears 71 are respectively arranged on the two opposite outer of the rack gear 73 And engaged with the rack gear 73, as shown in Figure 9.The output shaft of the driving device 6 is connect with the second gear 74.Two institutes First gear 71 is stated to be threaded through respectively in two rotary shafts 82 of a pair of of rolling mechanism 8, after driving device 6 rotates, driving dress The rotation of 6 drive second gears 74 is set, since second gear 74 is engaged with the rack gear 73, then band movable tooth after second gear 74 rotates Item 73 moves up and down, and since the tooth in 73 liang of outsides of rack gear is engaged with two first gears 71 respectively, then moves down on rack gear 73 It is dynamic that two first gears 71 is driven to rotate, and then rotary shaft 82 is driven to rotate, to realize rolling motion and stripping movement.

Claims (8)

1. a kind of rolling device for plate connection, which is characterized in that including

Pedestal；

Plate transmitting device is installed on the pedestal；

Cavity plate, be installed in it is on the pedestal and parallel with the transmission shaft in the plate transmitting device so that plate passes through plate Transmitting device is transmitted on the cavity plate；

Elevating mechanism is fixedly arranged on one end on the pedestal and close to the cavity plate；

Blank holder is connect by connecting rod with the elevating mechanism, and is located at the top at the edge of the cavity plate, for will mutually stack The upper plate and lower plate of connection are fixed on the cavity plate；

Driving device, far from one end of the elevating mechanism on the pedestal；

At least a pair of of rolling mechanism, connect with the driving device and is located at the top of the cavity plate, for the cavity plate Plate carry out rolling connection.

2. a kind of rolling device for plate connection according to claim 1, which is characterized in that the plate transmission dress It sets including feeder motor, belt and transmission shaft, the feeder motor and transmission shaft are set on the pedestal, and the feeder motor is logical It crosses the belt and drives the transmission shaft rotation.

3. a kind of rolling device for plate connection according to claim 2, which is characterized in that at least a pair of of rolling In press mechanism, two rolling mechanisms of each pair of rolling mechanism are formed as engagement connection, interconnection or coaxial connection；When the rolling When press mechanism is multipair, the rotary shaft of the multipair rolling mechanism is arranged along the axial connection of rotary shaft.

4. a kind of rolling device for plate connection according to claim 3, which is characterized in that when each pair of rolling of composition When two rolling mechanisms of mechanism are engagement connection or interconnection, the rolling device further includes rotating mechanism, the rotation Mechanism is installed in the rotary shaft of the rolling mechanism；The rolling mechanism is convex rolling mechanism or tooth form rolling mechanism, institute Stating rolling mechanism includes the rolling portion being connected and rotary shaft, and the rotary shaft is installed on support base by bearing, the branch Seat is supportted to be set on the pedestal；Wherein one end of the rotary shaft of a rolling mechanism and the driving device in each pair of rolling mechanism Output shaft pass through a shaft coupling connect；The rolling portion can be contacted with the upper surface of plate, for the plate on the cavity plate Material carries out rolling connection.

5. a kind of rolling device for plate connection according to claim 4, which is characterized in that when the rolling mechanism When for convex rolling mechanism, the rolling mechanism further includes a support portion, and the support portion and the rolling portion are integrally formed, institute Rotary shaft is stated to be arranged on the support portion.

6. a kind of rolling device for plate connection according to claim 5, which is characterized in that the rotating mechanism packet The cover board for including the first gear of two external toothings and being covered in two first gears, first tooth of two of external toothing Wheel is fixedly arranged on respectively on the one end of rotary shaft for two rolling mechanisms for forming each pair of rolling mechanism, and the cover board is installed in two In the rotary shaft and the rotary shaft is rotatably connected with the cover board.

7. a kind of rolling device for plate connection according to claim 5, which is characterized in that the rotating mechanism packet Rack gear, first gear and second gear are included, the rack gear is engaged in the second gear, and the rack gear is with hollow portion Class rectangle item, and the two opposite outer face of the rack gear and the side of hollow portion are all provided with teeth, the second gear is set to described It hollow portion and is engaged with the side of the hollow portion, the first gear is two, and two first gears are respectively arranged on institute It states the two opposite outer of rack gear and is engaged with the rack gear；The output shaft of the driving device is connect with the second gear.

8. a kind of rolling device for plate connection according to claim 5, which is characterized in that also set on the pedestal A controller is set, the rotary shaft is equipped with an angular transducer, and the angular transducer and the controller are wirelessly connected, institute It states angle detected by angular transducer to be transmitted in controller, the rotation angle of rotary shaft is directly controlled by controller.