KR100338020B1 - The elbow manufacture device by a virbrate pressure - Google Patents

Abstract

The present invention relates to an elbow manufacturing apparatus by vibrating load, and more particularly, in forming a pipe elbow made of stainless steel, by using the vibration load to uniformly form the flesh thickness of the pipe and at the same time form a smooth right angle of the pipe. The present invention relates to an elbow manufacturing apparatus by vibrating loads.

That is, the present invention and the main body 110 having the guide support 112 on both sides; Two roller parts 132 and 133 are installed on both sides of the pedestal 111 of the main body 110 and rotated in predetermined directions in the same direction, respectively, and the workpieces are disposed on the upper parts of the roller parts 132 and 133. A lower mechanism 130 having a predetermined groove portion formed therein and having an intermediate support portion 135 having a groove portion 134 corresponding to the lower surface of the workpiece between the two roller portions 132 and 133; It is installed in the middle of the elevating part 113 which is elevated along the guide support 112 of the main body 110 and at the same time vibrates vertically corresponding to the eccentric cam 123 of the shaft 122 connected to the motor 121 on one side. A vibrating mechanism 120 having a hemming support 124 installed therein; The pressing means 125b inside the case 125a is coupled to the lower end of the hammer supporter 124, and slides a predetermined height along the guide shaft 125d directly under the pressing means 125b of the case 125a. A hemer device 125 provided with a plurality of pressing pieces 125e having a bottom bending groove 125f corresponding to the workpiece 140; It is composed of such features.

Description

Elbow manufacturing device by vibrating load {The elbow manufacture device by a virbrate pressure}

The present invention relates to an elbow manufacturing apparatus by vibrating load, and more particularly, in forming a pipe elbow made of stainless steel, by using the vibration load to uniformly form the flesh thickness of the pipe and at the same time form a smooth right angle of the pipe. The present invention relates to an elbow manufacturing apparatus by vibrating loads.

Conventional elbow manufacturing apparatus by vibrating load has its own application (notification number 92-9966), the configuration of each of the sprocket 6 is a double-body fixed to the key on the lower motor (1 ') as shown in FIG. Lower vibrating to drive the eccentric shafts 15 and 15 'of the first vibrating hammer 11 and the second vibrating hammer 11' facing each other by walking the chain separately on the sprocket 횔. Mechanism (B) and an eccentric shaft (12) attached to a tool carrier that is movable up and down and connected to the lower end of the base plate (10) to which the motor coupling (2) is directly connected and axially supported by the bearing units (4) and 4 '. It consists of an upper vibrating mechanism (A) provided with an upper vibrating hammer (3), the workpiece is supported between the first vibrating hammer 11 and the second vibrating hammer 11 ' While the rollers 19 and 19 'are installed, the vibrating hammer 3 At the head end, the hammer head 13 in which the groove part 21 which grooved was formed in the semi-circular groove part which makes 90 degree of axial bridge angles (bending angle) is detachably attached.

In the process of manufacturing the elbow using the above-described elbow manufacturing apparatus, the vibrating load by the vibrating hammer head on the upper vibrating mechanism (A) capable of shangdong acts on the upper surface of the workpiece, The first vibrating hammer 11 and the second vibrating hammer 11 ', which are disposed opposite to each other on the lower vibrating mechanism B, simultaneously apply the vibrating load to both sides of the workpiece. By offsetting the axial deformation of the workpiece by the upper vibrating load to the same bilateral vibrating load of the same size, it maintains the roundness of the workpiece and maintains its axial bridge at 90 °. .

However, such a conventional elbow manufacturing apparatus has a first vibrating hammer 11 and a vibrating hammer head on the upper vibrating mechanism (A) and the first vibrating hammer (11) which are installed opposite to each other on the lower vibrating mechanism (B); Since the second vibrating hammer 11 'is simultaneously driven, there is a problem that the workpiece is unstable and the original state of the workpiece is not formed properly, and the structure of the elbow manufacturing apparatus is very complicated.

The present invention is to solve the above-mentioned problems, by operating the hemming device of the vibrating mechanism vertically in a state that the workpiece is securely seated on the lower mechanism rotated by a certain angle to the axial pier of the workpiece to 90 ° The purpose of the present invention is to provide an elbow manufacturing apparatus by vibrating load, which greatly simplifies the structure of the elbow manufacturing apparatus, as well as realizing the true state of the workpiece.

Figure 1 (a) (b) (c) is a cross-sectional view of the conventional elbow manufacturing apparatus,

2 is a front schematic view of an elbow manufacturing apparatus according to the present invention;

3 is a schematic side view of an elbow manufacturing apparatus according to the present invention;

Figure 4 is an exploded perspective view of the hammer device of the elbow manufacturing apparatus according to the present invention,

5 is a perspective view of FIG. 4,

Figure 6 is a schematic diagram showing a pre-operational state of the hammer mechanism and the lower mechanism of the vibrating mechanism according to the present invention,

Figure 7 is a schematic diagram showing the operating state of the hammer mechanism and the lower mechanism of the vibrating mechanism according to the present invention.

<Description of the symbols for the main parts of the drawings>

110: body 111: stand

112: guide support 113: lift

120: vibrating mechanism 121: motor

122: Axis 123: Eccentric Cam

124: hammer supporter 125: hammer device

125a: case 125c: pressing means

125f: Guide shaft 125e: Pushing

130: Lower mechanism 132, 133: Roller part

134: groove 135: intermediate support

140: Workpiece

The present invention and the main body having a guide support on both sides to achieve the above object; Two roller parts are installed on both sides of the main body and are rotated by predetermined angles in the same direction, respectively, and groove portions are formed in the upper part of the roller part, in which a workpiece is inserted. A lower mechanism provided with an intermediate support having a groove corresponding to the surface; Vibrating mechanism is installed in the middle of the elevating portion to be moved along the guide support of the main body and at the same time the helm support which is vertically vibrated corresponding to the eccentric cam of the shaft connected to the motor of one side; A hemming device coupled to a lower end of the hemming supporter, the hemer device having a plurality of pressing pieces having a lower bending groove corresponding to the workpiece while sliding a predetermined height along a guide shaft directly below the pressing means of the case; It is composed of such features.

The present invention is also characterized in that a supply tank capable of continuously supplying the workpiece to the roller portion on one side of the main body is provided.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a front schematic view of the elbow manufacturing apparatus according to the present invention, Figure 3 is a side schematic view of the elbow manufacturing apparatus according to the present invention.

First, the pedestal 111 is installed on a predetermined height of the main body 110, and then the guide support 112 of a predetermined height is installed on both sides of the pedestal 111, and slides perpendicularly to the guide support 112. The elevating unit 113 is installed as possible, but the elevating unit 113 is operated by the hydraulic device 114 of one side of the main body 110.

Then, the vibrating mechanism 120 is installed in the lifting unit 113, the vibrating mechanism 120 is a motor 121 is installed in the lifting unit 113, the motor 121 of the An eccentric cam 123 eccentrically about 1.5 mm from its center line is installed on the shaft 122, and a hemming support 124 is installed at the lower end of the eccentric cam 123.

Vibrating hammer device 125 is installed at the lower end of the hammer support 124, the hammer device 125 is a reverse osmosis coupled to the hammer support 124 and the bolt (125b) in the case 125a of the rectangular shape The pressing means 125c of each shape is installed, and the pressing piece 125b of which the bottom bending groove 125f of the bottom part slides a predetermined height directly under the pressing means 125c along the guide shaft 125d ( 125e) have been installed.

On the other hand, the lower mechanism 130 is installed on the pedestal 111, the lower mechanism 130 is the two roller parts 132 rotated in the same direction at predetermined intervals on both sides of the upper surface of the support (131). 133 is provided, and an intermediate support part 135 having a groove part 134 corresponding to the bent lower surface of the workpiece 140 is installed between the roller parts 132 and 133.

In other words, the roller parts 132 and 133 are formed in a quadrangular shape, and then groove parts 132a and 133a into which the workpiece 140 is inserted are formed, and the roller parts 132 facing each other are formed. A curved surface is formed at the bottom edge of 133 to rotate a predetermined angle about the eccentric hinge shafts 132b and 133b.

In addition, a supply tank 150 capable of continuously supplying the workpiece 140 to the roller parts 132 and 133 on one side of the main body 110 is installed, and the supply tank 150 has a large number of workpieces ( A storage unit 151 in which 140 is accumulated is formed, and a supply path 152 extending to the roller units 132 and 133 is formed at a lower side of the storage unit 151.

Referring to the operation of the present invention configured as described above in detail.

First, the workpiece 140 cut to an appropriate size is loaded in the storage unit 151 of the supply tank 150.

Then, when the elbow manufacturing apparatus is driven, the workpiece 140 in the storage unit 151, as shown in FIG. 2, to the roller portions 132 and 133 of the lower mechanism 130 along the supply path 152. After being supplied, it is fixed to the grooves 132a and 133a of the roller parts 132 and 133. At this time, the workpiece 140 is not in contact with the intermediate support part 135 positioned between the roller parts 132 and 133.

At the same time, the lifting unit 113 gradually descends along the guide support 112 of the main body 110 and at the same time the motor 121 of the vibrating mechanism 120 installed in the lifting unit 113 is rotated. The motor 121 rotates the eccentric cam 123 coupled with the shaft 122, and the eccentric cam 123 continuously connects the hammer 124 and the vibrating hammer device 125 directly below it. It will vibrate at high speed.

At this time, the vibrating hammer device 125 is vibrated at a high speed at 1500rpm to 2000rpm having an amplitude of 4.5mm and the lifting unit 113 is lowered, and the pressing piece 125e of the hammer device 125 is a workpiece. As it continues to descend in contact with the 140, and at the same time as shown in Figure 7, the roller portion 132, 133 of the lower mechanism 130 is rotated a predetermined angle by the pressing piece (125e) of the hammer device 125 While the workpiece 140 is bent at 90 °, the intermediate support portion 135 between the roller portions 132 and 133 may stably support the workpiece 140. In addition, since the pressing piece 125e of the hammer device 125 continues to vibrate while bending the workpiece 140, the workpiece 140 may be prevented from being fed back.

Therefore, the present invention operates the hemming device 125 composed of a plurality of pressing pieces 125e vertically in a state in which the workpiece is stably seated on the lower mechanism 130 which is rotated at a predetermined angle. While maintaining the piers at 90 °, the circular shape of the workpiece 140 is perfectly realized, and of course, the structure of the elbow manufacturing apparatus is greatly simplified.

Claims (2)

A main body 110 having guide guides 112 at both sides; Two roller parts 132 and 133 are installed on both sides of the pedestal 111 of the main body 110 and rotated in predetermined directions in the same direction, respectively, and the workpieces are disposed on the upper parts of the roller parts 132 and 133. A lower mechanism 130 having a predetermined groove portion formed therein and having an intermediate support portion 135 having a groove portion 134 corresponding to the lower surface of the workpiece between the two roller portions 132 and 133; It is installed in the middle of the elevating part 113 which is elevated along the guide support 112 of the main body 110 and at the same time vibrates vertically corresponding to the eccentric cam 123 of the shaft 122 connected to the motor 121 on one side. A vibrating mechanism 120 having a hemming support 124 installed therein; The pressing means 125c inside the case 125a is coupled to the lower end of the hammer supporter 124, and slides a predetermined height along the guide shaft 125d directly below the pressing means 125c of the case 125a. A hemer device 125 provided with a plurality of pressing pieces 125e having a bottom bending groove 125f corresponding to the workpiece 140; Elbow manufacturing apparatus by vibrating load, characterized in that consisting of The method of claim 1, Elbow manufacturing apparatus according to the vibration load, characterized in that the supply tank 150 that can continuously supply the workpiece 140 to the roller portion (132, 133) on one side of the main body (110).