KR101218460B1 - Swaging machine - Google Patents

Abstract

PURPOSE: A swaging machine is provided to minimize failure of products by accurately tightening a nut by a predetermined number of rotation with a swaging jig and a socket rotated by a reversible motor. CONSTITUTION: A swaging machine(1) includes a socket(4), a wheel shaft(19), and a sensing unit(11). The socket is connected to a reversible motor(3) through a driving connection unit(5) and rotates in forward and reverse directions. The wheel shaft has a swaging jig(10) with male threads which tightens a nut coupled to the socket. The sensing unit is installed in the wheel shaft and converts the direction of the reversible motor by sensing the tightened state of the nut.

Description

Swaging Machine {swaging machine}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a swaging machine, and more particularly, to a swaging machine which allows a nut and a ferrule to swag and connect a tube according to a series of steps.

In general, a tube fitting consisting of a connector, a nut, a front and a back ferrule is used to assemble a metal tube and a nut. This is because when the operator inserts the tube into the nut and then screwes the nut by 1 ~ 1/4 revolutions using the socket, the ferrule is swaged as the nut is screwed and the tube and the connector are interconnected.

However, assembling work through such a swaging process takes a lot of work time due to assembly because the worker tightens the nut using a socket after fixing the connecting pipe to a tool such as a vise, and thus productivity may be extremely reduced. There was no choice but to.

In addition, the number of tightening of the nut and the connecting body is very important for accurate assembly, and the continuous assembly work is difficult to be done by manual work according to the predetermined number of tightening, and as a result, leakage of the assembly site occurs. The development of a dedicated machine that can solve this problem has been desperately desired.

Accordingly, the present invention is to provide a swaging machine that can eliminate all the problems caused when assembling the existing tube as described above through the swaging process of the nut and ferrule,

In particular, the present invention can minimize the defects of the product by rotating the nut with the correct number of tightening to perform the swaging of the ferrule with the proper torque,

The purpose of the present invention is to provide a swaging machine that allows the operator to work more easily by using the power of the forward / reverse motor and double the product productivity.

The swaging machine provided by the present invention is to be assembled by the front ferrule and the back ferrule through the process of swaging the tube using a screw tightening of the nut,

It is connected to the forward and reverse motor and the drive connecting means, the socket for forward and reverse rotation, a swaging jig formed with a male thread mounted on the wheel shaft for screwing the nut coupled to the socket, and installed on the wheel shaft of the nut It is characterized by having a sensing means for detecting the tightening state to reverse the forward and reverse rotation motor.

The swaging machine provided by the present invention, when swaging the tube and the nut using a ferrule, screw the nut precisely by the number of rotations defined by the swaging jig and the socket that rotates forward and backward by the forward and reverse motor. By minimizing the defect factor of the product, it can be provided with a number of effects, such as improved workability and productivity, labor saving effect.

1 is a perspective view showing a preferred embodiment of the swaging machine provided in the present invention
Figure 2 is a plan view showing a preferred embodiment of the swaging machine provided in the present invention
Figure 3 is a front configuration view showing a preferred embodiment of the swaging machine provided in the present invention
4 is a cross-sectional configuration view partially extracting the dotted line portion of FIG. 2 showing a preferred embodiment of the swaging machine provided by the present invention.
Figure 5 is a front view of the tube and the ferrule, the nut to be assembled through the swaging process using the swaging machine provided in the present invention in the state of fitting
Figure 6 is a cross-sectional view of the coupling state of the tube, ferrule, nut in the state of the assembly through the swaging process using the swaging machine provided in the present invention

The swaging machine provided by the present invention provides a swaging machine that can be used when assembling a tube and a nut through a swaging process using a ferrule,

The present invention allows the nut to be pulled up precisely by a predetermined number of revolutions in the forward and reverse directions by the forward and reverse driving of the forward and reverse rotation motor capable of forward and reverse driving, while assembling the front ferrule and the back ferrule on the tube. It is characterized by providing a swaging machine to make this possible.

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

Figure 1 is a perspective view of the outer cover (not shown) showing a preferred embodiment of the swaged machine 1 provided in the present invention.

That is, the swaging machine 1 of the present invention is to install a forward and reverse rotation motor 3 on the base frame 2, and to transmit the forward and reverse rotational force of the forward and reverse rotation motor 3 to the socket 4 The drive connecting means 5 is provided.

The socket 4 is coupled to the worker so that the nut 9 is bitten by the socket 4 in a state where the tube 6 and the nut 9, the front ferrule 7 and the back ferrule 8 are coupled to each other. The front ferrule 7 and the back ferrule 8 are swung by the swaging jig 10 by rotating the nut 9 coupled thereto while the socket 4 rotates by the forward and reverse rotation motor 3. (7), the back ferrule (8) can be pressed and fixed to the tube (6), when the nut (9) is pulled up to the swaging jig 10 to detect this and reverse the forward and reverse motor (3) It is provided with a sensing means (11) for applying a signal for removing the swaged nut (9) from the socket (4) by rotating to.

This will be described in more detail with reference to the plan view, front view, main part enlarged cross-sectional view, and the like of FIGS. 2 to 4.

The drive connecting means (5) installed between the forward and reverse rotation motor (3) and the socket (4) is fixed to the drive belt pulley (13) on the drive shaft 12 of the forward and reverse rotation motor (3), the drive belt The pulley 13 is driven to be driven by the driven belt pulley 15 and the belt 16 fixed to the driven shaft 14.

The worm wheel (18) is fixed to the driven shaft (14) and the worm wheel (18) freely rotatable with oil-less bearings (20) on the wheel shaft (19) axially installed at right angles to the driven shaft (14); Let the gear bite.

The front side of the wheel wheel 18 is fixed to the socket 4 that can be rotated by coupling the nut (9).

And the swaging jig 10 fixed to the front of the wheel shaft 19 has a male thread portion 21 on the front side, the stop is elastically installed forward by the spring 22 on the outside of the male screw portion 21. Ring 23 is installed.

And one side of the wheel shaft 19, the sensing means 11 is installed, which is installed on the push rod 24 in the longitudinal direction of the wheel shaft 19, the front side is connected to the stop ring 23, after The side is to be selectively connected to the limit switch 25 to apply the forward and reverse drive signal to the forward and reverse motor (3) according to the tightening degree of the nut (9).

Reference numeral 26 in the figure shows an outer cover.

The swaging machine 1 of the present invention, which can be configured as described above, is used to assemble the tube 6 and the nut 9 through the swaging process using the front ferrule 7 and the back ferrule 8. In using it,

The operator sequentially fits the nut 9, the front ferrule 7 and the back ferrule 8 to the tube 6 as shown in FIG. 5, and then inserts the nut 9 into the socket 4.

When the forward and reverse motor 3 driving switch (not shown) is turned on, the worm gear 17 of the driven shaft 14 connected to the drive connecting means 5 is rotated while the forward and reverse motor 3 is driven. The geared worm wheel 18 is rotated.

The socket 4 fixed to the worm wheel 18 is rotated at the same time so that the nut 9 coupled thereto is screwed onto the male threaded portion 21 on the front side of the swaging jig 10, and thus the tube 6 is rotated. The tube 6 and the nut 9 are assembled as shown in FIG. 6 while the front ferrule 7 and the back ferrule 8, which are fitted in the assembly, are compressed and swiveled to the inner front side of the nut 9.

When the nut 9 is rotated by the socket 4 by a predetermined number of revolutions, the stop ring, which is elastically installed by the spring 22 on the front side of the wheel shaft 19 by the screwing of the nut 9, 23 also pushes the push rod 24 to the rear while reversing. When the rear end of the push rod 24 touches the limit switch 25, a signal is applied to the forward and reverse rotation motor 3 so that the forward and reverse rotation motor 3 ) Rotates in the opposite direction to the electric, so that the nut (9) coupled to the socket (4) is separated from the male thread portion (21), and the stop ring (23) that retracted the push rod (24) is a spring. The restoring elasticity of (22) restores the forward original position.

When swaging is performed by the nut 9, the front ferrule 7 and the back ferrule 8 on the tube 4 by the swaging process as described above, the operator takes out the finished product and removes the next product. Like electricity, it is put into the socket 4 to perform continuous work.

In particular, the present invention by setting the rotation speed of the forward and reverse rotation motor (3) in advance to perform the screw tightening operation of the male portion 21 of the nut 9 and the front side of the swaging jig 10 with the correct torque to the front ferrule (7) and the back ferrule (8) can be assembled at the same time as the sealing as the swaging can prevent product defects such as leakage or incomplete assembly of the assembly site in advance, and can greatly contribute to productivity improvement.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be.

Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

Swaging machine provided by the present invention can tighten the rotation of the nut at the correct rotation speed and torque using the power of the forward and reverse motor when assembling the tube and nut through the swaging process using the ferrule product defect rate It can greatly contribute to minimization and productivity improvement.

DESCRIPTION OF SYMBOLS 1: Swaging machine 2: Base frame 3: Reverse rotation motor 4: Socket 5: Drive connection 6: Tube 7: Front ferrule 8: Back ferrule 9: Nut 10: Swaging jig 11: Detection means 12: Circular shaft 13: Drive belt pulley 14: Driven shaft 15: Driven belt pulley 16: Belt 17: Worm gear 18: Worm wheel 19: Wheel shaft 20: Oilless bearing 21: Male thread 22: Spring 23: Stop ring 24: Push rod 25: Limit switch

Claims (3)

A swaging machine that can be used when assembling a tube through a swaging process using a nut, a front ferrule, and a back ferrule;
The swaging machine is connected to the forward and reverse motor and the drive connecting means and the socket for rotating in the forward and reverse directions,
A wheel shaft having a male threaded swaging jig for screwing a nut coupled to the socket;
Swaging machine is installed on the wheel shaft and the sensing means for detecting the tightening state of the nut and the forward and reverse rotation motor for switching the forward and reverse direction.
The method of claim 1, further comprising:
The drive connecting means is fixed to the driving belt pulley shaft axis of the forward and reverse rotation motor,
The driven belt pulley axially fixed to the driven belt pulley is driven to connect with a belt,
The worm gear is fixed to the driven shaft, the worm gear is a swaging machine characterized in that the worm wheel and the gear is engaged with the worm wheel freely rotatable by oil-less bearings on the wheel shaft installed in a direction perpendicular to the driven shaft.
The method of claim 1, further comprising:
The sensing means installs the push rod in the longitudinal direction on the wheel shaft,
The front side of the push rod is connected to the stop ring elastically installed by a spring on the wheel shaft, the rear side of the push rod is selectively connected to the limit switch, the swaging machine, characterized in that to apply the forward and reverse drive signal to the forward and reverse motor sign.

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