KR20110096311A - Coupling grid manufacturing device - Google Patents

Abstract

PURPOSE: A power transmission unit for a coupling grid molder is provided to precisely manufacture a grid by precisely bending and forming a bending angle of a cycle wave-type grid. CONSTITUTION: A material feeding means(100) is installed in the top one side of a base(301). The material feeding means supplies the material which is provided to the straight type to a molding means(200). The molding means combines to be rightly and inversely rotated a support stand to the upper part of vertical axis which passes through the top of the base. The molding means is combined to be rotated on the upper part of both ends of the support stand. A power transmission means(300) combines a driving gear to the lower edge of the vertical axis existing inside the base.

Description

Coupling grid manufacturing device

The present invention relates to a power transmission device for a coupling grid forming machine, and more particularly, a substrate supply means for guiding and supplying a straight substrate to a molding means, and a power transmission means for driving the molding means forward and backward according to the operator's operation. And it is an object of the present invention to provide a power transmission device for a coupling grid forming machine composed of a forming means for processing the grid of the cycle waveform shape by operating with the forward and reverse driving force provided from the power transmission means.

In general, the coupling (Coupling) is a power transmission device for transmitting power from the drive shaft to the driven shaft by interconnecting the drive shaft connected to the motor and the driven shaft separated from the drive shaft, the coupling The flexible coupling (Fleible Coupling), the rigid coupling (Original Coupling) with the function of simply connecting both shafts Alternatively, the powder can be slow-started to reduce the load on the motor or power transmission system, and in case of overload, the connection to the driven shaft is automatically disconnected. Fluid coupling, which protects the motor or driven system, Among these, in the case of the flexible coupling (Fleible Coupling) again the elastic coupling (Elastomeric C oupling, metal coupling, and the like.

In addition, the metal coupling is divided into a flange coupling (Flange Coupling), a grid coupling (Grid Coupling), a gear coupling (Gear Coupling), a disk coupling (Disk Coupling), etc. Among these, the grid coupling Briefly, the structure of the ring 10, as shown in Figs. 7 and 8, while forming the hollow hub 32 so that each shaft 50, 50a is inserted, each of the hub 32 One or more teeth 34 are formed at regular intervals on the flange circumferential surface of the blade), and each hub flange 30 is attached to each other so that the teeth 34 correspond to each other. It is configured to connect two axes 50 and 50a which have been separated from each other by inserting and fixing a grid 40 having elasticity of a cycle wave in the tooth groove 36.

In order to protect the grid 40 from external impact, the cover 20 is installed around the grid 40 inserted and fixed in the tooth groove 36 of the hub flange 30, and the cover ( 20) On the outer circumferential surface, a lubricant inlet 22 for injecting a lubricant such as grease into the grid 40 inserted into and fixed to the tooth groove 36 of each hub flange 30 is formed.

Since the grid 40 of the cycle waveform connecting the two axes 50, 50a is an essential element for transmitting power while flexibly connecting the axes 50, 50a, it should be able to be manufactured very precisely.

However, the conventional grid forming machine capable of forming the cycle waveform grid 40 is not only time-consuming but also zigzag by hand because most of the conventional grid forming machines are configured to manufacture the cycle waveform grid manually. Because the bending of the grid of the cycle waveform to be bent to be bent to form a grid at a precise angle was a problem that the defect rate is increased in the produced product.

Accordingly, the present invention for solving the above problems is provided by a substrate supply means for guiding and supplying a straight substrate to the forming means, a power transmission means for driving the forming means forward and backward according to the operator's operation, and from the power transmission means It is composed of the forming means for processing the cycle wave-shaped grid by operating with the forward and reverse driving force, so that the bending angle of the cycle wave grid can be precisely bent and formed by the power provided by the power transmission means, thereby precisely manufacturing the grid. It is an object of the present invention to provide a power transmission device for a coupling grid forming machine that can significantly improve the productivity of the product while significantly reducing the grid manufacturing time as the grid is manufactured using an automated system.

According to an aspect of the present invention,

A substrate supply means installed on one side of an upper end of the base and supplying a substrate supplied in a straight line to a molding means;

Combined '∪' shaped support on the upper part of the vertical axis penetrating the upper part of the base to enable reverse rotation, and the forming drum combined with the left and right plates on the left and right sides can be rotated on both ends of the support using the horizontal axis. Forming means in which a plurality of left fitting holes and right fitting holes are perforated to engage engaging pins for bending the substrate supplied from the substrate supply means into a cycle waveform at outer peripheries of the left and right plates. and;

Coupling the driving gear to the lower end of the vertical shaft existing in the base, and the rack gear installed to the pneumatic cylinder to engage forward and backward with the drive gear by the forward and backward operation of the rack gear, the forming drum of the forming means is reversed Power transmission means configured to; Characterized in that configured.

According to the present invention, the bending angle of the cycle waveform grid can be precisely bent and formed by the power provided by the power transmission means, so that the grid can be manufactured precisely, and the grid is manufactured by manufacturing the grid using an automated system. While the time can be significantly shortened, the effect that can significantly improve the productivity of the product can be expected.

1 is a front view showing the present invention.
2 is a right side view of the present invention.
Figure 3 is a partially enlarged view showing in detail the molding means applied to the present invention.
4 is a plan view showing the present invention.
5 is a view showing an operating state of the present invention.
6 is a view showing a power transmission means applied to the present invention.
7 and 8 are views for explaining the prior art.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 1 to 6.

According to the drawings, the present invention provides a cycle wave form while forward and backward driving the substrate supply means 100 for supplying the substrate 101 to the molding means 200 and the substrate 101 supplied from the substrate supply means 100. Forming means 200 for forming the grid 40 and the power transmission means 300 for supplying power for the forward and backward driving of the forming means 200 is largely composed.

The substrate supply means 100 supplies the substrate 101, which is a raw material of the cycle waveform grid 40, to the forming means 200 stably in a straight line.

The substrate 101 is long drawn to have a rectangular cross section while passing through a rolling roller (not shown), and the substrate 101 is guided by the substrate supply means 100 and supplied to the molding means 200.

The substrate supply means 100 is installed upright strut 102 on the upper side of the base 301, the horizontal stage 103 is coupled to the upper end side of the strut 102, the horizontal stage 103 In the spring 105, a plurality of transfer guides 104 in a state of being supported is installed.

The transfer guide 104 is formed between the pair of rollers in a form (see FIG. 2) through which the substrate 101 passes, so that the substrate 101 can be stably supplied to the forming means 200.

On the other hand, the forming means 200 is to form a cycle waveform grid 40 by bending the substrate 101 supplied in a straight line from the substrate supply means 100 in a zigzag form,

The vertical shaft 202 is installed to penetrate the upper portion of the base 301 so as to be rotated forward and backward, and is formed in a '(' shape on the upper portion of the vertical shaft 202 to couple the support 201 having the supporting portions on both sides of the upper side. The left and right sides, the left side plate 207 and the right side plate 208 is coupled to the forming drum 206 is rotatably coupled to the upper end of the support of both ends of the support 201 using the horizontal axis 205.

The upper portion of the support 201 is formed with a horizontal handle 203 to rotate the molding drum 206 manually and horizontally, and the upper portion of the support 201 in accordance with the rotation direction of the horizontal axis 205 A locking bar 204 is installed to allow or block rotation.

In addition, at the outer circumferences of the left side plate 207 and the right side plate 208, the engaging pins P1 and P2 for bending the substrate 101 supplied from the substrate supply means 100 into a cycle wave are respectively fitted. The left fitting holes (H1, H2, H3, H4 ...) and the right fitting holes (h1, h2, h3, h4 ...) are perforated.

The plurality of left fitting holes H1, H2, H3, H4 .... and right fitting holes h1, h2, h3, h4 ... are alternately formed at staggered positions, and the forming drum 206 is Whenever rotated 180 degrees, the locking pins (P1, P2) fitted in the left fitting hole (H) or the right fitting hole (h) are moved to the left fitting hole (H) or the right fitting hole (h) at the next position. Molding work will be carried out continuously.

In addition, a high frequency heat treatment device 209 for heating the bent portion of the base material 101 at one side of the forming drum 206 forming the forming means 200 at high frequency to facilitate bending of the base material 101. The high frequency heat treatment unit 209 is installed as if it is suspended on a separate supporting rod.

The high frequency heat treatment device 209 is preferably installed to be very close to the base material 101 so that the base material 101 can be heat treated quickly by high frequency heating.

On the other hand, the power transmission means 300 is to supply power for forward and reverse rotation of the forming drum 206 of the forming means 200, the drive gear at the lower end of the vertical shaft 202 existing in the base 301 302 is coupled, and the rack gear 303 which is installed in the pneumatic cylinder 304 so as to be moved forward and backward is engaged with the drive gear 302, so that the forming means 200 is moved by the forward and backward operation of the rack gear 303. The forming drum 206 is configured to operate in reverse rotation.

At this time, as shown in Figure 6 on the inner wall surface of the base 301 by installing a guide roller 305 in close contact with the back of the rack gear 303 to ensure the straightness of the rack gear 303 rack gear 303 It is configured to smoothly move forward and backward.

In addition, the pneumatic cylinder 304 is configured to repeatedly perform the forward and backward operations in accordance with the operation of the stepped switch or panel-type switch not shown so that the operator can sequentially control the operation of forming the grid 40 desirable.

Referring to the operation of the present invention configured as described above is as follows.

First, as shown in FIG. 5A, the substrate 101, which is guided to the substrate supply means 100 and is supplied in a straight line, is supplied to the upper side of the forming drum 206 so that the end of the substrate 101 is fitted to the first left side of the left plate 207. It is positioned between the locking pin P1 inserted into the hole H1 and the locking pin P2 inserted into the first right fitting hole h1 of the right side plate 208. The horizontal shaft 205 is locked so that the drum 206 does not rotate.

In this state, when the pneumatic cylinder 304 of the power transmission means 300 is operated by operating a stepped switch or a switch panel, the rack gear 303 moves forward or backward while the drive gear 302 is turned clockwise. As a result, the vertical axis 202 rotates clockwise, thereby rotating the forming drum 206 provided on the support 201 180 degrees clockwise.

When the forming drum 206 is rotated in the clockwise direction, the locking pin (P2) is inserted into the first right fitting hole (h1) of the right side plate 208 is rotated by hanging the substrate 101, as shown in Figure 5b 101 has a bent shape once.

At this time, the locking bar 204 is operated to release the locking state of the horizontal axis 205, and then the molding drum 206 is rotated a predetermined angle upward in the drawing to pass the substrate 101 through the transfer guide 104 in a straight line. The locking bar 204 is operated to lock the horizontal axis 205 so as not to rotate again (see FIG. 5C).

Then, the locking pin P1 inserted into the first left fitting hole H1 of the left plate 207 is pulled out and inserted into the next second right fitting hole H2 so that the substrate 101 is located between the locking pins P1 and P2. To be located at

Then, when operating the pneumatic cylinder 304 by operating the stepped switch or switch panel not shown, this time the molding drum 206 is rotated 180 degrees in the counterclockwise direction, the locking pin (P1) is the substrate ( 101 is bent and rotated so that the substrate 101 is bent as shown in FIG. 5D.

By continuously repeating the operation as described above, it is possible to manufacture a cycle waveform grid 40 as shown in Figure 8 at a precise angle within a short time.

On the other hand, when bending the base material 101 to form the grid 40, the high frequency heat treatment machine 209 located directly above one side of the forming drum 206 heat-treat the bending portion of the base material 101 in advance As this softens, the effect that the bending operation of the base material 101 becomes smoother can be expected.

In addition, since the rotation angle of the forming drum 206 is controlled by the pneumatic cylinder 304 and the rack gear 303 constituting the power transmission means 300, the bending angle of the substrate 101 is very precise. Can be implemented.

100: substrate supply means, 101: substrate,
102: prop, 103: horizontal,
104: transfer guide, 105: spring,
200: forming means, 201: support,
202: vertical axis, 203: handle,
204: locking bar, 205: horizontal axis,
206: forming drum, 207: left side plate,
208: right side plate, 209: high frequency heat treatment machine,
P1, P2: engaging pin, H, h: fitting hole,
300: power transmission means, 301: base,
302: drive gear, 303: rack gear,
304: pneumatic cylinder, 305: guide roller,

Claims (4)

A substrate supply means (100) installed at one side of the upper end of the base (301) to supply the substrate (101) supplied in a straight line to the forming means (200);
A support drum 201 having a '∪' shape is coupled to the upper portion of the vertical shaft 202 penetrating the upper portion of the base 301 so as to be rotated forward and backward, and the forming drum 206 having the left and right plates coupled to the left and right sides, respectively. Substrate 101 is rotatably coupled to the upper ends of the support 201 using the horizontal axis 205, the substrate 101 is supplied from the substrate supply means 100 on the outer periphery of the left side plate 207 and the right side plate 208 Molding means (200) in which a plurality of left fitting holes (H) and right fitting holes (H) for fitting engagement pins (P1, P2) for bending a cycle wave) are perforated, respectively;
The drive gear 302 is coupled to the lower end of the vertical shaft 202 existing inside the base 301, and the rack gear 303 installed in the pneumatic cylinder 304 so as to be moved forward and backward is mounted on the drive gear 302. In addition, the power transmission means 300 is configured so that the forming drum 206 of the forming means 200 is reversely rotated by the forward and backward operation of the rack gear 303; Power transmission device for the coupling grid forming machine, characterized in that configured as.
The high frequency heat treatment apparatus of claim 1, wherein the bent portion of the base material 101 is heated at a high frequency directly above one side of the forming drum 206 forming the forming means 200 to facilitate bending of the base material 101. A power transmission device for a coupling grid forming machine, comprising (209) installed.
2. The plurality of left fitting holes H1, H2, H3, H4 .... and right fitting holes h1, h2 formed in the outer periphery of the left plate 207 and the right plate 208. , h3, h4 ...) are alternately formed at staggered positions, and each time the molding drum 206 is rotated 180 degrees, the locking pins fitted in the left fitting hole (H) or the right fitting hole (h) are next. A power transmission device for a coupling grid forming machine, characterized in that the grid forming operation is continuously performed by moving to the left fitting hole (H) or the right fitting hole (h) of the position.
The power transmission device for a coupling grid forming machine according to claim 1, wherein the pneumatic cylinder (304) of the power transmission means (300) repeats the forward and backward operations every time the stepping switch or the panel-type switch is input.

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