KR20170081905A - COMPOUND PRESS Device - Google Patents

Abstract

The present invention comprises: a support table (10) for holding a workpiece (P) at a predetermined distance from a bottom surface and supporting a lower surface of the workpiece (P); A pair of frames 12 which are installed on the support table 10 and are made of steel frames and are vertically installed on both sides of the support table 10 to support a plurality of parts; A drive motor (16) installed at one side of the frame (12) for generating a rotational power; A pair of rotary shafts 22 provided in the left and right sides of the frame 12 and connected to the driving motor 16, A first eccentric shaft 24 provided at the center of the rotary shaft 22 and formed eccentrically with respect to a center axis of the rotary shaft 22 and a second eccentric shaft 24 formed on both sides of the first eccentric shaft 24 A crankshaft (20) comprising a second eccentric shaft (30) having an eccentric shaft different from the first eccentric shaft (24); The first and second lifting rods 34 and 36, which are respectively installed on the first and second eccentric shafts 24 and 30 and sequentially move up and down according to the upward and downward movement of the first and second eccentric shafts 24 and 30, )Wow; The first and second lifting and lowering rods 34 and 36 are connected to the first and second lifting and lowering rods 34 and 36 and are disposed below the first and second lifting and lowering rods 34 and 36, First and second rams 38 and 40 for vertically moving the first and second molds to form a workpiece P; An inflater member (50) for guiding a plate-like workpiece (P) to be moved to an upper side of the support table (10); And an outfeeder member (74) provided on the other side of the support table (10) and guiding the workpiece (P) completed from the upper side of the support table (10) to the outside .
According to the present invention, there is an advantage that the working radius is increased and the work efficiency is improved.

Description

[0001] COMPOUND PRESS DEVICE [0002]

[0001] The present invention relates to a complex press apparatus, in which a first eccentric shaft and a second eccentric shaft are respectively formed in a crankshaft, and a first lift rod and a second lift rod are installed on the first eccentric shaft and the second eccentric shaft The present invention relates to a composite press device capable of performing two pressing processes at a time in accordance with rotation of a crankshaft.

Generally, a press is a machine that applies a force to a material to perform plastic deformation to perform bending, shearing, or section shrinkage, and the press is simply referred to as a press.

Typical examples of the press working are various kinds of shapes produced by plastic deformation by applying compressive force to a metal plate, and they are widely used from precision parts of a watch and a camera to a car body of a vehicle. , Brass plate, aluminum plate, as well as plastic and fiber are used. The characteristic of the press processing is that it can be processed without special heating, it can be processed in exact dimensions and shape in a short time, it is exchangeable, and it is suitable for mass production .

[0003] In such a pressing apparatus, a press type is selected depending on the type of plastic working, and the press is divided into a mechanical press apparatus and a hydraulic pressure apparatus in accordance with a driving method. In the hydraulic press apparatus, Adjustment of pressure and maintenance of pressing force can be controlled more easily than a mechanical press device. However, a mechanical press device in which noises are small and the speed of pressing is low, and press work is performed at a high speed is preferred.

The high-speed mechanical press apparatus may be various ones having a mechanical structure such as a crank, a knuckle joint, a cam, a link, etc. Among them, a crank press apparatus using a crank mechanism is generally used.

Such a crank press apparatus is disclosed in Korean Patent Registration No. 10-0852998.

Such a crank press apparatus is configured such that a single eccentric shaft is formed on the crankshaft so that only one pressing operation is performed when the crankshaft rotates once.

Therefore, when pressing the workpiece in various shapes, the press apparatus must be installed separately for each step, so that the manufacturing cost of the press apparatus is increased, and the workpiece must be transferred for each step.

Further, since the crank press apparatus is not provided with a separate workpiece supplying device and a discharging device, the worker must directly supply the workpiece, so that it takes a long time to inject the workpiece and there is a risk that the worker may be injured by malfunction.

Korean Patent Publication No. 10-0852988

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to solve the problems of the prior art as described above, and it is an object of the present invention to provide a crankshaft which has a first eccentric shaft and a second eccentric shaft, The present invention provides a composite press device capable of performing two pressing processes at a time in accordance with rotation of a crankshaft by providing a first lift rod and a second lift rod.

According to an aspect of the present invention for achieving the above object, a composite press apparatus according to the present invention includes: a support table for holding a workpiece at a predetermined distance from a bottom surface thereof and supporting a lower surface of the workpiece; A pair of frames which are provided on the upper side of the support table and which are made of an iron frame and are vertically provided on both sides of the support table and support a plurality of parts; A pair of rotation shafts provided in the left and right sides of the frame and connected to the driving motor, the pair of rotation shafts being installed in the center of the rotation shaft, A first eccentric shaft formed eccentrically with a center axis of the rotating shaft, and a second eccentric shaft formed on both sides of the first eccentric shaft, And a second eccentric shaft having a first eccentric shaft and a second eccentric shaft which are different from the first eccentric shaft. The first and second eccentric shafts are respectively disposed on the first and second eccentric shafts, The first and second lifting and lowering rods being connected to the first and second lifting and lowering rods and disposed below the first and second lifting and lowering rods, A first and a second rams for forming a workpiece by moving the work table to the work table; an inflater member provided on one side of the support table for guiding a plate workpiece moved upward of the support table to an upper side of the support table; And an outfitter member provided on the other side of the support table for guiding the workpiece that has been formed on the upper side of the support table to the outside.

The first and second rams are further provided with an elevation guide member for guiding upward and downward movement of the first and second rams. The elevation guide member is vertically formed on the upper surface of the support frame, A vertical movement guide bar connected to an upper surface of the first and second rams for guiding vertical movement of the first and second rams and a vertical movement guide bar provided on the other side of the vertical movement guide bars, And a balance cylinder for moving the up-and-down movement guide bar up and down in accordance with the movement.

The absorber member is disposed between both sides of the support table and is formed of a plate material having a predetermined thickness and has a circular arc surface formed at one side thereof. A plurality of conveying guide rollers installed on the conveying guide plate at predetermined intervals along the circumferential surface of the conveying guide plate; a plurality of conveying guide rollers provided on the conveying guide plate, And a first upper and lower conveying rollers respectively installed on the lower side and rotated in one direction by a rotary motor to guide the workpiece to the upper side of the support table.

The outfeeder member includes a pair of second support frames provided on the upper side of the support table and made of a plate material having a predetermined thickness and spaced apart from the upper surface of the support table, An upper guide roller installed in the form of a roller and rotatably installed and vertically moved to guide the movement of the workpiece when the workpiece is initially entered; And a lower guide roller for supporting the lower surface of the workpiece and guiding the movement of the workpiece.

The upper guide roller may further include an elevating member installed on both sides of the upper guide roller and moving the upper guide roller up and down. The elevating member is formed of a rectangular plate, A pair of lifting and lowering plates rotatably coupled to a rotation shaft provided at one end between the second support frames and moving the upper guide roller up and down, A lifting bar connected to an end of the lifting plate to move one side of the lifting plate up and down and a lower lifting bar installed at a lower side of the lifting bar to selectively move the lifting bar upward and downward And an elevating cylinder.

The composite press apparatus according to the present invention has the following effects.

The present invention is configured such that a first eccentric shaft and a second eccentric shaft are respectively formed in the crankshaft and the first and second lifting rods are sequentially moved up and down in accordance with one rotation of the crankshaft to perform a plurality of pressing processes at once .

Therefore, two pressing processes are simultaneously performed in one rotation of the crankshaft, so that the machining time for the workpiece can be shortened and the machining efficiency for the workpiece can be improved.

Further, since the inferior member and the outfeeder member are provided on both sides of the support table and the workpiece is automatically supplied to the support table, there is an effect of minimizing the number of workpieces to be inserted and shortening the machining time.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view showing a state in which a decorrelator and a leveler are provided in a complex press apparatus according to the present invention and a workpiece is supplied. Fig.
Fig. 2 is a front view showing a configuration of a preferred embodiment of the composite press apparatus according to the present invention. Fig.
3 is a left side view showing a configuration of a preferred embodiment of the composite press apparatus according to the present invention.
4 is a right side view showing a configuration of a preferred embodiment of the composite press apparatus according to the present invention.
5 is a sectional view showing a configuration of a preferred embodiment of the composite press apparatus according to the present invention.
6 is a perspective view showing a configuration of a crankshaft constituting an embodiment of the present invention.
7 is a sectional view showing a configuration of a first eccentric shaft constituting an embodiment of the present invention.
8 is a sectional view showing a configuration of a second eccentric shaft constituting an embodiment of the present invention.
9 is a front view showing a configuration of an infuser member constituting an embodiment of the present invention.
10 is a plan view showing a configuration of an absorber member constituting an embodiment of the present invention.
11 is a side view showing the structure of an absorber member constituting an embodiment of the present invention.
12 is a front view showing the configuration of first and second upper feed rollers constituting the embodiment of the present invention.
13 is a side cross-sectional view showing a configuration of first and second upper and lower conveying rollers constituting an embodiment of the present invention.
14 is a front view showing a configuration of an outfeeder member constituting an embodiment of the present invention.
15 is a plan view showing a configuration of an outfeeder member constituting an embodiment of the present invention.
16 is a side view showing a configuration of an outfeeder member constituting an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a composite press apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front view showing a state in which a decorrelator and a leveler are provided in a composite press apparatus according to the present invention and a workpiece is supplied. FIG. 2 is a front view showing a configuration of a preferred embodiment of the composite press apparatus according to the present invention FIG. 3 is a left side view showing a configuration of a preferred embodiment of the composite press apparatus according to the present invention, and FIG. 4 is a right side view showing a configuration of a preferred embodiment of the composite press apparatus according to the present invention. FIG. 5 is a cross-sectional view showing a configuration of a preferred embodiment of the composite press apparatus according to the present invention, and FIG. 6 is a perspective view showing the configuration of a crankshaft constituting an embodiment of the present invention. Fig. 7 is a cross-sectional view showing a configuration of a first eccentric shaft constituting an embodiment of the present invention, and Fig. 8 is a sectional view showing a configuration of a second eccentric shaft constituting an embodiment of the present invention.

1 to 8, a composite press apparatus 1 according to the present invention is a composite press apparatus 1 for holding a workpiece P at a predetermined interval from a bottom surface thereof and supporting a lower surface of the workpiece P A pair of frames 12 which are provided on the support table 10 and which are made of steel frames and are vertically provided on both sides of the support table 10 and support a plurality of parts, A drive motor 16 installed at one side of the frame 12 to generate a rotational power and a drive motor 16 installed between the frame 12 and formed in a cylindrical shape and elongated in the left and right direction, A pair of rotary shafts 22 provided at the left and right sides of the rotary shaft 22 and connected to the drive motor 16 and a pair of rotary shafts 22 provided at the center of the rotary shaft 22, A first eccentric shaft 24 formed on both sides of the first eccentric shaft 24, A crankshaft 20 formed of a first eccentric shaft 30 and a second eccentric shaft 30 having eccentric shafts different from the first eccentric shaft 24, First and second lifting rods 34 and 36 that sequentially move upward and downward in accordance with the upward and downward movement of the first and second eccentric shafts 24 and 30 and the first and second lifting rods 34 and 36, The first and second lifting rods 34 and 36 are disposed below the first and second lifting and lowering rods 34 and 36. The first and second lifting and lowering rods 34 and 36 move the first and second molds up and down, A first and a second rams 38 and 40 for forming a workpiece P on the support table 10 and a plate shaped workpiece P mounted on one side of the support table 10 and moving to the upper side of the support table 10, An inflater member 50 for guiding the upper side of the table 10 and a workpiece P which is provided on the other side of the support table 10 and has been molded on the upper side of the support table 10 Out feeder member 74, .

The support table 10 has a general table shape, and a plurality of parts are supported on the upper surface. The upper surface of the support table 10 is made of a metal plate, and the workpiece P is transferred from the right side to the left side and molded.

On the upper surface of the support table 10, a frame 12 is provided. The frame 12 is made of a general steel frame and is vertically installed on both sides of the upper surface of the support table 10. A plurality of parts are installed and supported between the frames 12.

An upper plate 14 is provided above the frame 12. The upper plate 14 is made of a plate having a predetermined thickness, and both ends of the upper plate 14 are fixed to the upper portion of the frame 12. A driving motor 16 and a balance cylinder 46, which will be described later, are fixedly supported on the upper surface of the upper plate 14.

A drive motor 16 is installed above the upper plate 14. The driving motor 16 is a general driving motor, and a detailed description thereof will be omitted. The driving motor 16 generates a rotational force and rotates the crankshaft 20 to be described later.

A clutch 18 is provided on the side surface of the frame 12. [ The clutch 18 is a portion in which a plurality of gears (not shown) are meshed with each other to adjust the gear ratio. The clutch 18 is connected to the drive motor 16 and rotated.

A crankshaft (20) is installed at one side of the clutch (18). The crankshaft 20 is installed between the frames 12 and has a cylindrical shape. The crankshaft 20 is elongated in the left and right direction. The crankshaft 20 is installed on the left and right sides of the frame 12, A pair of rotating shafts 22 and a first eccentric shaft 24 disposed at the center of the rotating shaft 22 and eccentric to the central axis of the rotating shaft 22, And a second eccentric shaft 30 formed on both sides of the first eccentric shaft 24 and having eccentric shafts different from the first eccentric shaft 24.

As shown in FIG. 6, the rotating shaft 22 is formed into a cylindrical shape, and is long in left and right directions. The rotating shafts 22 are provided on the left and right sides, respectively, and both ends thereof are inserted through the frame 12 and fixed. The rotating shaft 22 is connected to the clutch 18 and rotated according to the rotation of the driving motor 16. [

A first eccentric shaft 24 is formed at the center of the rotating shaft 22. 6 or 7, the first eccentric shaft 24 is elongated in the left and right direction and is formed at a position eccentric from the central axis of the rotary shaft 22. [ The first eccentric shaft 24 is connected to the rotating shaft 22 and is rotated upward and downward as the rotating shaft 22 rotates.

A first rod fixing plate 26 is formed on both sides of the first eccentric shaft 24. The first rod fixing plate 26 has a disk shape and is formed on the left and right sides of the first eccentric shaft 24, respectively. The first rod fixing plate 26 is installed on both sides of the first eccentric shaft 24 and when the first elevating rod 34 to be described later is installed on the first eccentric shaft 24, 1 lift rod 34 is prevented from moving to the left or right.

A second eccentric shaft 30 is formed on a side surface of the first rod fixing plate 26. The second eccentric shaft 30 has a cylindrical shape and is elongated in the left and right direction. The second eccentric shaft 30 is eccentrically formed at an eccentric position different from the first eccentric shaft 24. The second eccentric shaft 30 has one end connected to the first rod fixing plate 26 and the other end connected to the second rod fixing plate 32 to be described later, And is rotated at the same time.

A second rod fixing plate 32 is formed on a side surface of the second eccentric shaft 30. The second rod fixing plate 32 has a disk shape and is formed on a side surface of the second eccentric shaft 30. The second rod fixing plate 32 is installed on a side surface of the second eccentric shaft 30 and is provided with a second rod 38 Thereby preventing the two lifting rod 36 from moving to the left and right.

Specifically, the first eccentric shaft 24 is eccentrically formed at an angle of 30 to 120 degrees with respect to the center axis of the rotary shaft 22, and the second eccentric shaft 24 is formed on both sides of the first eccentric shaft 24, The shaft 30 is eccentrically formed at a position other than the first eccentric shaft 24 at an angle of 30 to 120 degrees with respect to the central axis of the rotary shaft 22. [ The first eccentric shaft and the second eccentric shaft are positioned at different angles within a range of 30 to 120 degrees, respectively. The eccentric shaft structure of the first eccentric shaft 24 and the second eccentric shaft 30 sequentially rotates the first eccentric shaft 24 and the second eccentric shaft 30 in accordance with the rotation of the rotating shaft 22. [ (30) is moved up and down.

A first elevating rod (34) is provided on the outer side of the first eccentric shaft (24). The first lifting rod 34 has a cylindrical shape and is formed long in the vertical direction. The first eccentric shaft 24 passes through the first elevating rod 34 so that the first elevating rod 34 moves upward and downward as the first eccentric shaft 24 moves upward and downward. do.

A second lift rod (36) is provided on the outer side of the second eccentric shaft (30). The second lifting rod 36 has a cylindrical shape and is formed to be long in the vertical direction. The second eccentric shaft 30 passes through the second elevating rod 36 and the second elevating rod 36 moves upward and downward as the second eccentric shaft 30 moves upward and downward. do.

A first ram 38 is installed below the first lift rod 34. The first ram 38 is a ram of a general press die, and a detailed description thereof will be omitted. The first ram 38 is installed at the lower end of the first lift rod 34 and is moved up and down according to the upward and downward movements of the first lift rod 34.

A second ram (40) is installed below the second lift rod (36). The second ram 40 is a ram of a general press die, and a detailed description thereof will be omitted. The second ram 40 is installed at the lower end of the second lift rod 36 and is moved up and down according to the upward and downward movement of the second lift rod 36.

First and second molds (not shown) are provided below the first ram 38 and the second ram 40, respectively, to press the workpiece P sequentially.

That is, the first lift rod 34 and the second lift rod 36 are provided on the first eccentric shaft 24 and the second eccentric shaft 30, respectively, The first lift rod 34 is lowered and pressed first, and then the second lift rod 36 is lowered continuously to perform press working.

An elevation guide member (42) is installed on the first and second rams (38, 40). The elevating guide member 42 is vertically formed on the upper surface of the support frame 12 and has one side connected to the upper surface of the first and second rams 38 and 40, A vertical movement guide bar 44 for guiding upward and downward movement of the rams 38 and 40 and a vertical movement guide bar 44 provided on the other side of the vertical movement guide bar 44 for moving up and down the first and second rams 38 and 40 And a balance cylinder 46 for moving the up / down movement guide bar 44 up and down.

The up-and-down movement guide bar 44 has a cylindrical shape and is vertically long. The up and down movement guide bars 44 are fixed to the upper and lower surfaces of the first and second rams 38 and 40 in a diagonal direction. One end of the up / down movement guide bar 44 is fixed to the upper surface of the first and second rams 38 and 40, and the other end is inserted into a balance cylinder 46 to be described later. The up-and-down guide bar 44 guides upward and downward movement of the first and second rams 38 and 40 with a high load when the first and second rams 38 and 40 move up and down.

On the upper side of the up-and-down movement guide bar 44, a balance cylinder 46 is provided. The balance cylinder 46 is a general hydraulic cylinder, and a detailed description thereof will be omitted. The balance cylinder 46 may be a variety of cylinders other than the hydraulic cylinder, but a hydraulic cylinder is used here. The balance cylinder 46 is fixed on the upper side of the frame 12 and moves the up and down movement guide bar 44 up and down.

That is, the elevation guide member 42 is installed on the upper portion of the first and second rams 38 and 40, and when the first and second rams 38 and 40 move up and down, To guide the first and second rams 38 and 40 up and down.

Fig. 9 is a front view showing the structure of the infuser member constituting the embodiment of the present invention, and Fig. 10 is a plan view showing the structure of the infuser member constituting the embodiment of the present invention. Fig. 12 is a front view showing the configuration of the first and second transport rollers constituting the embodiment of the present invention, and Fig. 13 is a front view showing the structure of the inflater member constituting the embodiment of the present invention. Fig. Sectional side view showing the configuration of the first and second upper and lower conveying rollers constituting the embodiment of the present invention.

9 to 13, an inflater member 50 is provided on the right side of the support table 10. The infuser member 50 includes a conveyance guide plate 52 which is formed on both sides of the side surface of the support table 10 and is formed of a plate having a predetermined thickness and on which a circular arc surface 53 is formed, A plurality of conveying guide rollers 62 installed between the conveying guide plates 52 and formed in a roller shape so as to be rotatable and installed at regular intervals along the arc surface 53, And is provided on the upper side and the lower side of the workpiece P conveyed along the conveyance guide roller 62 and rotates in one direction by a rotation motor to rotate the workpiece P First and second conveying rollers 66 and 68 for guiding the upper side of the support table 10, and the like.

 As shown in FIG. 9, the conveyance guide plate 52 is formed of a plate having a predetermined thickness, and is installed on both sides of the support table 10. A circular arc surface 53 is formed on the right side surface of the transfer guide plate 52. A plurality of conveyance guide rollers 62, which will be described later, are provided between the conveyance guide plates 52 and are rotatably fixed.

A height adjustment hole 54 is formed on the left front side of the transport guide plate 52. The height adjustment holes 54 are formed on the upper left and lower sides of the front surface of the transport guide plate 52, respectively. The height adjusting hole 54 is vertically extended and inserted into the fixing bolt 56 to fix the transfer guide plate 52 to the support table 10.

When the elevation conveyance guide plate 52 is adjusted in height, the position of the conveyance guide plate 52 is adjusted upwards and downwards by the height of the height adjusting holes 54 in a state of separating the fixing bolts 56 And the height of the transport guide plate 52 can be adjusted by reinserting the fixing bolt 56 into the height adjusting hole 54.

A support bracket 58 is provided below the transport guide plate 52. The support bracket 58 is formed in a block shape having a cross section and is installed at a lower portion of the conveyance guide plate 52. On the right side of the support bracket 58, a height adjusting bolt 60 to be described later is vertically inserted and fixed.

A height adjusting bolt 60 is provided on the right side of the support bracket 58. The height adjusting bolt 60 is a general bolt, and a detailed description thereof will be omitted. The height adjustment bolt 60 is vertically installed on the right side of the support bracket 58 and the upper end of the height adjustment bolt 60 is closely attached to the lower surface of the conveyance guide plate 52, (Not shown).

That is, when the height of the conveyance guide plate 52 is adjusted, the height adjusting bolt 60 is rotated in the forward and reverse directions so that the lower end of the conveyance guide plate 52 fixed by the fixing bolts 56 is inserted into the height- (60) is additionally supported to prevent the transport guide plate (52) from falling downward.

A conveyance guide roller 62 is provided between the conveyance guide plates 52. The conveying guide roller 62 is a general roller, and a detailed description thereof will be omitted. The conveying guide rollers 62 are installed at regular intervals along the arc surface 53. Both ends of the conveying guide roller 62 are rotatably fixed to the conveying guide plate 52, respectively. The conveying guide roller 62 guides the workpiece P supplied from the outside to the support table 10 side to the upper side of the support table 10.

A first support frame (64) is provided on the upper left side of the conveyance guide plate (52). The first support frame 64 is formed of a rectangular plate, and is vertically installed on both sides of the support table 10. Both ends of the upper and lower conveying rollers 66 and 68, which will be described later, are inserted between the first support frames 64 and are rotatably supported.

Upper and lower conveying rollers 66 and 68 are installed between the first support frames 64. The upper and lower conveying rollers 66 and 68 are general rollers, and a detailed description thereof will be omitted. Both ends of the upper and lower conveying rollers 66 and 68 are rotatably installed on the first support frame 64 and a workpiece P is inserted between the upper and lower conveying rollers 66 and 68 do. A rotating motor (not shown) is installed at an end of the lower conveying roller 68 and rotated in one direction. The upper and lower conveying rollers 66 and 68 are rotated in one direction to transfer the workpiece P fed by the conveying guide roller 62 to the upper side of the support table 10.

The first and second power transmission gears 70 and 72 are installed on one side of the lower conveying roller 68. The first and second power transmission gears 70 and 72 are general gears, and a detailed description thereof will be omitted. The first power transmission gear 70 is engaged with the lower conveying roller 68 and the second power transmission gear 72 is engaged with the upper conveying roller 66. The first and second power transmission gears 70 and 72 transmit the rotational force of the lower conveying roller 68 to the upper conveying roller 66.

Fig. 14 is a front view showing the configuration of the outfeeder member constituting the embodiment of the present invention, and Fig. 15 is a plan view showing the configuration of the outfeeder member constituting the embodiment of the present invention. There is shown a side view showing the configuration of an outfeeder member constituting an embodiment of the present invention.

14 to 16, an outfeeder member 74 is provided on the upper left side of the support table 10. The outfeeder member 74 includes a pair of second support frames 70 disposed on the support table 10 and formed of a plate material having a predetermined thickness and spaced from the upper surface of the support table 10, (P), which is installed between the first support frame (76) and the second support frame (76) and is roller-shaped and rotatably installed and moves up and down to guide the movement of the work (P) An upper guide roller 78 and a lower guide roller 78. The upper guide roller 78 is rotatably installed in a roller shape and supports the lower surface of the workpiece P, And a lower guide roller 80 for guiding the lower guide roller 80 and the like.

The second support frame 76 is formed of a rectangular plate, and is vertically installed on both sides of the support table 10. Between the second support frames 76, both ends of the image-guiding and lower guide rollers 78 and 80 to be described later are inserted and rotatably supported.

An upper guide roller 78 is provided between the second support frames 76. The upper guide roller 78 is a general roller, and a detailed description thereof will be omitted. The upper guide roller 78 is rotatably installed between the second support frames 76 and closely contacts the upper surface of the workpiece P to transfer the workpiece P from the right side to the left side do.

A lower guide roller 80 is installed below the upper guide roller 78. The lower guide roller 80 is a general roller, and a detailed description thereof will be omitted. The lower guide roller 80 is installed below the upper guide roller 78 so as to be spaced downward by the thickness of the workpiece P. [ Both ends of the lower guide roller 80 are rotatably installed on the second support frame 76, and the lower surface of the workpiece P is closely attached to the upper surface. The lower guide roller 80 is rotated in one direction to feed the workpiece from the right side to the left side.

Third and fourth power transmission gears 82 and 84 are installed on one side of the lower guide roller 80. The third and fourth power transmission gears 82 and 84 are general gears, and a detailed description thereof will be omitted. The third power transmission gear 82 is coupled to the lower guide roller 80 at an end and the fourth power transmission gear 84 is coupled to the lower guide roller 80 at an end. The third and fourth power transmission gears 82 and 84 are engaged with each other so that the rotational force of the lower guide roller 80 rotated by a rotation motor (not shown) is transmitted to the upper guide roller 78.

Elevating members 88 are provided on both sides of the upper guide roller 78. The elevating member 88 is formed of a rectangular plate and is installed on both sides of the upper guide roller 78 and is rotatably coupled to a pivot shaft 86 provided at one end between the second supporting frames 76 A pair of lifting and lowering plates 90 for lifting the upper guide roller 78 upward and downward and a pair of lifting and lowering plates 90 installed at the other end of the lifting and lowering plate 90, The lifting bar 92 is connected to an end of the lifting and lowering bar 90 to move the lifting and lowering plate 90 upward and downward. And an elevating cylinder 94 for moving the elevating cylinder 94 to the other side.

As shown in FIG. 15 or 16, the lifting plate 90 is formed of a rectangular plate, and is installed on both sides of the upper guide roller 78. Both ends of the upper guide roller 78 are respectively inserted through the center of the lifting plate 90 and the left end of the lifting plate 90 is connected to a pivot shaft 86 provided between the second supporting frames 76. [ As shown in Fig. The lifting plate 90 is vertically movable with respect to the pivot shaft 86 to move the upper guide roller 78 upward.

A lifting bar 92 is installed at an end of the lifting plate 90. The lifting bar 92 has a cylindrical shape and is formed long in the vertical direction. The upper end of the lifting bar 92 is linked with the lifting plate 90 and is moved up and down by a lifting cylinder 94 to be described later. The lifting bar 92 moves the lifting plate 90 up and down.

An elevating cylinder 94 is installed at the lower end of the elevating bar 92. The elevating cylinder 94 is a general cylinder, and a detailed description thereof will be omitted. The elevating cylinder 94 is installed below the elevating bar 92 to move the elevating bar 92 up and down.

That is, the elevating member 88 moves the upper guide roller 78 to the upper side so that the workpiece P can be easily positioned between the upper and lower guide rollers 78 and 80 when the workpiece P is initially moved Direction.

Hereinafter, the operation of the complex press apparatus of the present invention having the above-described structure will be described with reference to FIG. 1 to FIG.

First, the worker grasps the end of the workpiece P in the form of a plate rolled in a roller form and transfers it to the side of the inflator member 50. [

The workpiece P is positioned between the conveyance guide plates 52 and supported on a lower surface by a plurality of conveyance guide rollers 62 provided along an arc surface 53 of the conveyance guide plate 52 .

The conveying guide roller 62 is rotatably installed to guide the workpiece P to the support table 10 side. Is inserted between the upper and lower conveying rollers 66 and 68 of the workpiece P conveyed to the support table 10 side by the conveying guide roller 62. [

The upper and lower conveying rollers 66 and 68 are rotated in one direction by a rotating motor and the workpiece P is moved in the left direction in the right direction of the support table 10. [

The workpiece P is conveyed to the outfeeder member 74 side through the support table 10 at a constant speed by the absorber member 50. [

When the upper guide roller 78 is moved upward and the workpiece P is positioned below the upper guide roller 78 by operating the elevating member 88 of the outfeeder member 74, The roller 78 is moved downward. The crankshaft 20 is rotated in a state where the workpiece P is positioned between the upper and lower guide rollers 78,

The first and second lifting and lowering rods 34 and 36 sequentially move upward and downward in accordance with the rotation of the crankshaft 20 and the two presses are successively formed on the workpiece P, .

When the two press processes are performed on the workpiece P by one rotation of the crankshaft 20, the impeller member 50 and the outfeeder member 74 are operated to move the workpiece P ).

Therefore, two pressing processes are simultaneously performed during one rotation of the crankshaft 20, so that the machining time for the workpiece P can be shortened and the machining efficiency for the workpiece P can be improved .

Further, the absorber member 50 and the outfeeder member 74 are provided on both sides of the support table 10 so that the workpiece P is automatically supplied to the support table 10, It is possible to minimize the number of personnel and shorten the working time.

The scope of the present invention is not limited to the embodiments described above, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

10. Support Table 12. Frame
20. Crankshaft 24. 1st eccentric shaft
30. A second eccentric shaft 50. An inflater member
52. Feed guide plate 53. Circumferential surface
62. Feed guide roller 66. Upper feed roller
68. Lower feed roller 74. Out feeder member

Claims (5)

A support table (10) for holding a workpiece (P) at a predetermined distance from the bottom surface and supporting a lower surface of the workpiece (P);
A pair of frames 12 which are installed on the support table 10 and are made of steel frames and are vertically installed on both sides of the support table 10 to support a plurality of parts;
A drive motor (16) installed at one side of the frame (12) for generating a rotational power;
A pair of rotary shafts 22 provided in the left and right sides of the frame 12 and connected to the driving motor 16, A first eccentric shaft 24 provided at the center of the rotary shaft 22 and formed eccentrically with respect to a center axis of the rotary shaft 22 and a second eccentric shaft 24 formed on both sides of the first eccentric shaft 24 A crankshaft (20) comprising a second eccentric shaft (30) having an eccentric shaft different from the first eccentric shaft (24);
The first and second lifting rods 34 and 36, which are respectively installed on the first and second eccentric shafts 24 and 30 and sequentially move up and down according to the upward and downward movement of the first and second eccentric shafts 24 and 30, )Wow;
The first and second lifting and lowering rods 34 and 36 are connected to the first and second lifting and lowering rods 34 and 36 and are disposed below the first and second lifting and lowering rods 34 and 36, First and second rams (38, 40) for vertically moving the first and second molds to form a workpiece (P);
An inflater member (50) installed on one side of the support table (10) and guiding a plate - shaped workpiece (P) moved upward of the support table (10) to the upper side of the support table (10);
And an outfeeder member (74) installed on the other side of the support table (10) and guiding the workpiece (P) completed from the upper side of the support table (10) to the outside. [3] The apparatus of claim 1, wherein the first and second rams (38, 40)
The first and second rams (38, 40) are further provided with an elevation guide member (42) for guiding the upward and downward movement of the first and second rams (38, 40)
The elevating guide member (42)
The first and second rams 38 and 40 are vertically formed on the upper surface of the support frame 12 and have one side connected to the upper surfaces of the first and second rams 38 and 40, A vertical movement guide bar 44 for guiding the vertical movement guide bar 44;
A balance cylinder 46 installed on the other side of the up-and-down movement guide bar 44 and vertically moving the up-and-down movement guide bar 44 in accordance with the upward and downward movement of the first and second rams 38 and 40; . 2. The apparatus according to claim 1, wherein the infuser member (50)
A conveyance guide plate 52 provided on both sides of the side of the support table 10 and made of a plate material having a predetermined thickness and having a circular arc surface 53 formed at one side thereof;
A plurality of conveying guide rollers 62 provided between the conveying guide plates 52 and formed in a roller shape and rotatably installed and spaced apart from each other along the arc surface 53;
Are provided on the upper side of the conveying guide plate 52 and are respectively provided on the upper and lower sides of the workpiece P conveyed along the conveying guide rollers 62 which are roller-shaped and rotated in one direction by a rotary motor And a first upper and lower conveying rollers (66, 68) for guiding the workpiece (P) to the upper side of the support table (10). The outfeeder according to claim 1, wherein the outfeeder member (74)
A pair of second support frames 76 formed on the upper side of the support table 10 and made of a plate having a predetermined thickness and spaced from the upper surface of the support table 10;
And an upper guide roller 78 disposed between the second support frames 76 and formed in a roller shape and rotatably installed and vertically moved to guide the movement of the workpiece P at the initial entry of the workpiece P )Wow;
A lower guide roller 80 which is installed at the lower portion of the upper guide roller 78 and is roller-shaped and rotatably installed to support the lower surface of the workpiece P and guide the movement of the workpiece P ). ≪ / RTI > 5. The image forming apparatus according to claim 4, wherein on either side of the upper guide roller (78)
Further comprising an elevating member (88) installed on both sides of the upper guide roller (78) for moving the upper guide roller (78) up and down;
The elevating member (88)
The upper guide roller 78 and the upper guide roller 78 are rotatably coupled to a rotary shaft 86 provided at both sides of the upper guide roller 78 and one end thereof is disposed between the second support frames 76, A pair of lifting and lowering plates 90 for moving up and down the lifting plate 90;
A lifting bar 90 which is installed at the other end of the lifting plate 90 and has a cylindrical shape and which is elongated vertically and connected to an end of the lifting plate 90 to move one side of the lifting plate 90 up and down 92;
And an elevating cylinder (94) installed at a lower portion of the elevating bar (92) for selectively moving the elevating bar (92) up and down.

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