The present invention relates to a flexible forming device for forming three-dimensional shaped workpieces, which belongs to the field of plastic forming.
At present, the forming of three-dimensional shaped workpieces, such as plate-shaped, tube-shaped and bar-shaped workpieces, is realized by various press machines or specialized machine tools with the assistance of specialized dies. The completion of each type of shaped workpieces requires a set or sets of dies. The designing, manufacturing and adjusting of these dies consumes a great amount of manpower, material resource as well as time. Moreover, the traditional forming device for forming three-dimensional shaped workpieces is automated to a low degree, thus its efficiency cannot meet the need of modernized industrial production. In addition, manual forming, which is unsatisfactory with its poor forming quality, low manufacturing efficiency and requirement of intensive labor, is mainly used for forming workpieces which are large in size and small in quantity.
In addition, without specialized dies, the continuous forming devices adopting current technologies can only form workpieces with straight generatrixes, such as various sheets, strips and profiles, while the forming of three-dimensional shaped workpieces is achieved mainly through die forming or manual production. When it is required to form tube-shaped or bar-shaped workpieces, especially those with varying diameters, special techniques such as spinning, roll forging as well as cross-wedge rolling, are usually applied, which have a much high cost and require a long processing period. Moreover, workpieces with different shapes require different dies when using various forming devices, thus urging a long preparation cycle with a lot of manpower, material resource consumed and a low degree of automation, which could not meet the need of modernized production of small quantity.
In view of the above facts, an object of the present invention is to change the traditional forming process using special dies to form three-dimensional workpieces, and provide a flexible forming device for forming three-dimensional shaped workpieces based on a technology of bendable flexible roll forming, which can fulfill the forming of many types of three-dimensional shaped workpieces, such as plate-shaped, tube-shaped and bar-shaped workpieces, etc. Compared with the traditional die forming technology, the flexible forming device can greatly reduce the production cost, increase the production efficiency, and thus achieve automatic control in a more convenient way.
To achieve the above object, the present invention provides a flexible forming device for forming three-dimensional shaped workpieces, comprising a frame, at least two working rollers, one or more working roller driving mechanisms and one or more adjusting mechanisms. The at least two working rollers, the one or more working roller driving mechanisms and the one or more adjusting mechanisms are installed on the frame, respectively, so that a blank to be formed can be clamped between the working rollers. The blank can be formed into a three-dimensional shaped workpiece under the rolling action of the working rollers, wherein at least one of the working rollers is a flexible working roller, which is bendable and adjustable.
The flexible forming device in the present invention adopts at least two working rollers, which can be arranged according to certain rules, to perform a forming process of three-dimensional shaped workpieces, such as plate-shaped, tube-shaped and bar-shaped workpieces, etc. In the present invention, the relative position between the working rollers as well as the bendable axis of the flexible working roller can be adjusted by the adjusting mechanism, and can be located at any selected position. Therefore, it can form any type of three-dimensional workpieces in accordance with the shape of workpieces required. Elastic materials such as steel wire flexible axle, spring, steel wire flexible axle-polyurethane, spring-polyurethane and polyurethane, etc. can all be applied to the flexible working roller. The working rollers can be divided into active rollers, passive rollers and brake rollers. The active rollers drive the workpiece to be formed to pass through between the working rollers by the driven rotation of the active rollers. The passive rollers are brought into rotation by the formed workpiece. The brake rollers are not able to rotate in a braked state but can be brought into rotation by the formed workpiece in the same way as the passive rollers in a non-braked state.
The working roller driving mechanism can be a regular transmission mechanism such as a gear mechanism, a hydraulic mechanism, etc. In addition, an anti-distortion device and an anti-loose device can be installed on the non-forming area of the flexible working roller.
The position change of the working rollers and the curvature change of workpiece forming can be achieved through mechanical or Numerical Control (NC) means, which can also be applied to the rotation of the working rollers and one or more workpiece clamping and spinning mechanisms.
Advantageously, the flexible working roller is made of one or more materials selected from steel wire flexible axle, helical spring, steel wire, polyurethane rubber, etc.
Advantageously, the flexible working roller is an integral working roller or a segmented working roller. The segments in the segmented working roller rotate synchronously or asynchronously, in the same or opposite direction.
Advantageously, one or more workpiece clamping and spinning mechanisms whose rotatable parts can rotate actively or passively are arranged at an end of the integral working roller or between the segments of the segmented working roller.
Advantageously, the flexible forming device is used for forming a tube-shaped workpiece, and comprises two flexible working rollers, one of which is located outside the tube-shaped workpiece, and the other one of which is located inside the tube-shaped workpiece.
Advantageously, the flexible working roller located inside the tube-shaped workpiece is configured to be a passive bendable roller or a simple elastic roller, so as to simplify the structure of the inside working roller and eliminate the need for adjustment.
Advantageously, the flexible forming device is used for forming a tube-shaped or bar-shaped workpiece, and comprises at least two flexible working rollers, all of which are located outside the workpiece in the circumferential direction, and the workpiece undergoes a diameter shrinking deformation along with the self-rotation and centripetal movement of the flexible working rollers.
Advantageously, the flexible forming device is used for forming a tube-shaped workpiece, and comprises at least two flexible working rollers, all of which are located inside the tube-shaped workpiece in the circumferential direction, and the workpiece undergoes a diameter expanding deformation along with the self-rotation and centrifugal movement of the flexible working rollers.
Advantageously, a plurality of adjusting mechanisms with adjustable height for supporting and adjusting the axis position and bendable degree of the flexible working roller are arranged on the bendable and adjustable flexible working roller, and the adjustment of the adjusting mechanism is achieved through pre-adjustment before the forming is started or consecutive adjustment whenever necessary during the forming process.
Advantageously, an open bearing is installed on an end of an adjusting rod of the adjusting mechanism, so as to adjust and support the flexible working roller, and the open bearing can swing its head in accordance with the change of the bending contour tangent of the flexible working roller.
Advantageously, the working roller driving mechanism is arranged on one or both ends of the working roller.
Advantageously, the flexible working roller consists of a plurality of sub-rollers with mutual independence, adjustable axis position, swayable axis angle (for example, the axis angle of the sub-roller can be swayed freely in accordance with the change of the transverse curvature of the workpiece), and the sub-rollers can be constructed as, according to the requirement, active sub-rollers, passive sub-rollers or brake sub-rollers. The sub-rollers can be displaced so that their positions are adjusted under the action of the adjusting mechanism, and can rotate through a certain angle and be located at any position, thus different curvatures in the longitudinal and transverse directions of the workpiece can be obtained through the change of relative position between the working rollers, the displacement or rotation of the sub-rollers of the working rollers. The change of the relative position between the working rollers and the displacement of the sub-rollers can be achieved through mechanical or hydraulic driving devices. In addition, the surface of the sub-roller can be made of steel or other metal materials, and polyurethane rubber sleeves can be attached to the surface of the sub-roller.
The flexible forming device in the present invention can be used to replace the traditional dies to realize the flexible forming task of various workpieces such as plate-shaped, tube-shaped and bar-shaped workpieces, etc. With reference to the flexible and changeable characteristics of the multi-point forming technology, the traditional two-dimensional forming technology and multi-roller forming technology, the flexible forming device in the present invention makes the straight rollers in the traditional forming device or the multi-roller forming device flexible. Thereby, the working rollers can be deformed flexibly in the longitudinal and transverse directions (with their axes bendable and adjustable). The bending of the working rollers can be achieved manually (adjusted before the forming process and remain unchanged throughout the process) or by an automatic adjustment under the control of a computer (adjusted before or during the forming process automatically). The degree of deformation or bending can be determined by the shape of the three-dimensional workpieces. This kind of forming can achieve consecutive forming of three-dimensional shaped workpieces, and yet compared with the traditional forming device using dies, the flexible forming device in the present invention has the following advantages: no requirement for special design, manufacture and adjustment of dies; a low manufacturing cost; a shortened preparation period for production; savings in manpower, material resource and time; and increased production efficiency.
The present invention will be better appreciated from the following description in more details made with reference to the illustrative embodiments shown in the drawings, in which:
a is a schematic view of a three-roller flexible forming device according to a first embodiment of the present invention;
b is a P-P direction view of
a is a schematic view of a two-roller flexible forming device according to the first embodiment of the present invention;
b is a P-P direction view of
a is a schematic view of another type of two-roller flexible forming device according to the first embodiment of the present invention;
b is a P-P direction view of
a is a schematic view of a flexible forming device having three sets of flexible working roller according to a fourth embodiment of the present invention;
b is a P-P direction view of
a is a schematic view of a flexible forming device having two sets of flexible working roller according to the fourth embodiment of the present invention;
b is a P-P direction view of
a is a schematic view of a sub-roller in
b is a side view of
c is a P-P direction view of
a is a schematic view of a sub-roller with a polyurethane rubber sleeve;
b is a side view of
c is a P-P direction view of
First of all, referring to
As shown in these figures, the flexible forming device adopts at least two working rollers arranged according to certain rules, so as to achieve a different curvature shape in the longitudinal direction of a plate-shaped workpiece (referred to “sheet” hereinafter) through the change of the relative position between the working rollers, and achieve different curvature forming in the transverse direction of the sheet through the deformation of the axis of the bendable working roller(s). In in the case where the relative position between the working rollers can be changed, and the shape of the axes of the working rollers can be adjusted, the consecutive forming condition for plate-shaped three-dimensional workpieces can be fulfilled. Thereby, if a sheet is led through between the working rollers under the rotation of the active roller, the object of sheet forming can be achieved. The change of relative position between the working rollers and the bending of the axis of the working roller can both be achieved through mechanical or hydraulic driving devices, etc. Workpieces with different curvatures can be formed as a result of the change of the relative position between the working rollers and different degrees of shape adjustment of the axes of the working rollers. Depending on different types of three-dimensional plate-shaped workpieces, the change of the relative position between the working rollers and the bending state of the axes of the working rollers can both be adjusted by mechanical means and by a computer, so as to fulfill the flexible forming of plate-shaped workpieces.
As shown in
The flexible forming device as shown in
The flexible forming device as shown in
Advantageously, a polyurethane rubber sleeve is attached to the lower roller or the lower roller is composed of polyurethane rubber and the diameter of the lower roller is larger than that of the upper roller. Both the upper roller and the lower roller can be made to be active, or one of them can be made to be active and the other one can be made to be passive.
The flexible forming device as shown in
Through the flexible forming devices as mentioned above, a plate-shaped workpiece 2 can be rolled into various shapes as required by the working rollers. This type of forming device needs no die, however, controlling of the working rollers is required during the forming process. The working rollers 1 and 4 can be constricted in the manners as shown in
In the present invention, the more working rollers there are, the better the effect of the forming will be, and there can be a variety of other rules for the arrangement of the working rollers other than those shown in
Moreover, the more the adjusting mechanisms for the working rollers are involved, the better the effect of the forming will be.
The flexible forming device according to the second embodiment of the present invention, which is also used for forming three-dimensional plate-shaped workpieces, will be described below with reference to
In the embodiment of
Referring to the embodiment in
In the embodiment with reference to
Deformation and even successive forming of a workpiece 2 can be made through the pressing and spinning of the working rollers. The adjustment of the shape and amount of the deformation can be fulfilled by adjusting the bent degree and press-down amount of the working rollers.
As mentioned above, there should be at least two working rollers in the present invention, while the involvement of three working rollers can result in excellent forming effects. Of course, the more the number of working rollers are involved, the better the forming effects will be, and the arrangement of these working rollers can be set as required.
The flexible forming device according to the third embodiment of the present invention will be described below with reference to
The flexible forming device as shown in
In the embodiment with reference to
In the embodiment shown in
In the embodiment shown with reference to
Similarly, the forming effect will be better if there are more working rollers, and in addition to the arrangement rules shown above, any other arrangements known to those skilled in the art or arrangements according to the actual requirement can be adopted. At least one of the working rollers shall be active, leaving the others to be passive or brake rollers. A flexible forming device with independently driven sub-rollers as shown
The flexible forming device with independently driven sub-rollers as shown
The invention has been described in detail in combination with some embodiments as mentioned above. Obviously, the contents described above and shown in the drawings should be understood to be only illustrative, and not intended to limit the scope of the present invention. Various modifications or changes can be made on the basis of the concept of the present invention for one skilled in this field. For example, although some examples for forming plate-shaped, tube-shaped or bar-shaped workpieces using the flexible forming device have been shown, other three-dimensional shaped workpieces with complex shapes can also be processed by the flexible forming device of the invention. For example, although some illustrative embodiments with two or three working rollers are shown in the description, one skilled in this field can freely choose any other number numbers of working rollers as well as the arrangements thereof according to actual requirement. Obviously, all these changes or modifications will not depart from the scope of the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2006 1 0016592 | Feb 2006 | CN | national |
2006 1 0016593 | Feb 2006 | CN | national |
2007 1 0055210 | Jan 2007 | CN | national |
2007 1 0055304 | Feb 2007 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/CN2007/000464 | 2/9/2007 | WO | 00 | 12/16/2008 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2007/095843 | 8/30/2007 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4770017 | Yamashita et al. | Sep 1988 | A |
4976158 | Ginzburg et al. | Dec 1990 | A |
5082047 | Bricmont | Jan 1992 | A |
5341664 | Noe et al. | Aug 1994 | A |
6332644 | Ito et al. | Dec 2001 | B1 |
7065999 | Fukuchi et al. | Jun 2006 | B2 |
Number | Date | Country |
---|---|---|
1167695 | Dec 1997 | CN |
1385299 | Dec 2002 | CN |
1539568 | Oct 2004 | CN |
Number | Date | Country | |
---|---|---|---|
20090107199 A1 | Apr 2009 | US |