KR101175150B1 - Core fix apparatus - Google Patents

Abstract

PURPOSE: A magnetic core fixing device of a low voltage breaker is provided to improve the safety of work by automatically transferring a core with a transfer unit. CONSTITUTION: A lower master die(100) is fixed to a surface. A center die is fixed to the upper center of the lower master die to place a core fitted with a pin and a ring. Strippers(300) are moved from both sides of the center die to press the pin. A transfer unit, comprising a first coil spring and a pusher block(410), transfers the core to the center die. An upper master die(400) is moved up and down above the lower master die.

Description

Low Voltage Circuit Breaker Magnetic Core Fixing Device

The present invention relates to a low pressure circuit breaker magnetic core fixing device for fixing the shape of the core consisting of several thin iron pieces.

In general, a rotor and a stator are installed in an electric motor or a presser to obtain power. Among them, a stator is a coil wound around an outer surface of a core made of a plurality of thin iron pieces.

The core 10 is fixed in close contact with each iron piece before winding the coil. For example, after inserting the pin 11 in the through-hole as shown in FIG. By riveting, the ring 12 is inserted into the grooves at both ends of the bent, and then there is a method of pressing and bending.

However, since the riveting of the pin and the banding of the ring are conventionally performed in the process of fixing the core in such a form, the time and space waste due to the increase in the workmanship, as well as the pressing force in the course of each step In addition, since distortion and unevenness occur due to the unbalance of the position, the reliability of the product is deteriorated.

The present invention is to provide a core fixing device to allow the riveting of the pin and the banding of the ring at the same time in the process of fixing the shape of the core.

The present invention is a low-voltage circuit breaker magnetic core for inserting a pin into the through hole of the core closely adhered to several iron pieces, and then crimping both ends of the pin, riveting, and then inserting a ring in the grooves of the bent ends and then crimp and band A fixture, comprising: a lower master die fixed to the bottom; A center die fixed to the upper center of the lower master die to mount the core with the pin and the ring fitted thereto; Left and right strippers for pressing and pressing end portions of the pins while moving from side to side of the center die; An upper master die for elevating above the lower master die; And a caulking punch for pressing and pressing the ring while being installed at the lower center of the upper master die.

And moving means for pushing the left and right strippers from side to side at the same time as the upper master die.

The moving means may include a first coil spring installed between the center die and the left and right strippers to push the gap between the left and right strippers; And a pusher block coupled to the lower left and right sides of the upper master die, and having an inclined surface formed to push the narrower side between the left and right strippers while being in contact with the left and right strippers when descending. do.

And a rear stripper coupled to an outer end of the left and right strippers, the rear stripper having an inclined slope for surface contact corresponding to the inclined surface of the pusher block.

It is installed on the left and right of the lower master die, and guide plate for limiting the gap that occurs while guiding the movement of the left and right stripper; is configured to include.

It is installed in the vertical direction on the lower master die, a guide bar for guiding the lifting through the upper master die; is configured to include.

And a second coil spring coupled to the guide bar and configured to support the upper master die.

It is installed before and after the center die, the transfer means for transferring the core to the center die; is configured to include.

The conveying means is installed on the lower master die, the guide block for guiding the front and rear conveyance in the state of placing the core; A transfer rail installed at one side of the guide block; A slider coupled to the transfer rail to move forward and backward; A first cylinder installed on the lower master die, for moving the slider forward and backward; A second cylinder coupled to one side of the slider and operating up and down; The index hand is positioned above the guide block in a state coupled to the second cylinder, and a finger for moving the core on a lower end is formed at an interval before and after the index hand.

According to the low-voltage circuit breaker magnetic core fixing device of the present invention, the riveting of the pin and the banding of the ring are simultaneously performed while the core is seated, thereby reducing the defect rate of the core and increasing the reliability of the product.

According to the low-voltage circuit breaker magnetic core fixing apparatus of the present invention, by automatically transferring the core through the transfer means, the safety of the work is improved.

1 is an exploded perspective view showing the shape of a core;
Figure 2 is a perspective view showing a low pressure circuit breaker magnetic core fixing device to which the present invention is applied.
Figure 3 is a main operation diagram showing the pin riveting state of the low-voltage circuit breaker magnetic core fixing device to which the present invention is applied.
Figure 4 is an operation of the main portion showing the ring bending state of the low-voltage circuit breaker magnetic core fixing device to which the present invention is applied.
5 and 6 is an operation showing the operating state of the low-voltage circuit breaker magnetic core fixing device to which the present invention is applied.
Figure 7 is a cross-sectional view showing the conveying means of the transfer block of the low pressure circuit breaker magnetic core fixing device to which the present invention is applied.
Figure 8 is a perspective view showing the core conveying means of the low pressure circuit breaker magnetic core fixing device to which the present invention is applied.
9 and 10 is an operation view showing the core conveying means of the low pressure circuit breaker magnetic core fixing device to which the present invention is applied.

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

The low pressure circuit breaker magnetic core fixing device of the present invention includes a lower master die 100 fixed to the floor as shown in FIGS. 2 to 10, a center die 200 for mounting the core in a state where the pin and the ring are fitted, It comprises a left and right stripper 300 for pressing the end of the pin, the upper master die 400 to move up and down the lower master die and a caulking punch 400 for pressing the ring.

First, as shown in FIG. 1, the pins 10 are respectively inserted into the holes 11 at three points in the drawing in a state where the thin iron pieces formed in the form of "E" are in close contact with each other. The grooves at both ends are supplied with the ring 12 fitted. The pins 11 are riveted so as not to be pushed out while both ends are pressed by pressing, and the ring 12 is bent so as not to be pulled out because it is tightly fitted into the groove by pressing.

The lower master die 100 is a portion fixed to the floor so as not to move, and a center die 200 to be described later is installed at the center.

Right and left of the lower master die 100, the guide plate 110 for guiding accurate movement while limiting the moving distance of the left and right stripper 300 to be described later, as shown in Figure 5 to 7 as an embodiment Is installed. To this end, grooves are formed as shown in the guide plate 110, but the ribs may be formed without being limited thereto.

As shown in FIG. 2, the guide bar 120 is vertically installed on the lower master die 100, and the guide bar 120 is lifted by an upper master die 400 which will be described later. It is intended to guide you. Therefore, the guide bar 120 may be formed at four corners of the lower master die 100. In addition, by inserting the second coil spring 130 to the guide bar 120, as shown in Figure 2, the upper master die 100 to be described later is pushed and supported by an elastic force to naturally lift after falling.

The center die 200 is fixed to the upper center of the lower master die 100 and is formed to safely place the core 10 in a state where the pin 11 and the ring 12 are fitted.

For example, as shown in FIG. 7, the center die 200 may have a hole penetrating from side to side to fit the first coil spring 210. Here, the first coil spring 210 is a moving means for allowing the core 10 to be transferred between the left and right strippers 300 by their elastic force. In this case, the first coil spring 210 does not necessarily need to be installed to penetrate through the center die 200, and may be provided between the left and right and left and right strippers 300 of the center die 200.

As shown in FIG. 3, the left and right strippers 300 are for pressing and pressing end portions of the pins 11 while moving left and right on both sides of the center die 200. The side surface is in close contact with the left and right of the core 10, and a groove is formed at a point corresponding to the pin 11 fitted to the core 10. The groove is formed to make the shape of the head of the pin 11 which is compressed when pressing the end of the pin 11 constant. Meanwhile, a punch pin having a high strength may be separately coupled to the groove.

The left and right stripper 300 is moved to the left and right by a moving means, as shown in Figure 5 and 6 an inclined slope for making a surface contact with the inclined surface of the pusher block 410 to be described later to the outer end The formed rear stripper 310 is coupled.

The upper master die 400 is a portion which is lifted from the upper side of the lower master die 100, for example, as shown in Figure 2 or 5 and 6 to form a bracket on the upper side to separate cylinder or lift device It is connected with. That is, the upper master die 400 is lifted by a separate device not shown.

As illustrated in FIG. 2, the upper master die 400 is provided with the guide bar 120 penetrating through four corners, thereby raising and lowering stably, and after the lowering, the second coil spring 130. Is naturally elevated by.

The upper master die 400 is coupled to the caulking punch 500 to be described later in the lower center, as shown in Figure 5 to 7 as an embodiment, the lower left and right while contacting the left and right stripper 300 when the lower The pusher block 410 is formed on the inner surface of the inclined surface for pushing to narrow the left and right stripper 300 to the left and right. Here, the pusher block 410 is a moving means for pushing and compressing the left and right strippers 300, as shown in the figure, as well as composed of two blocks, may be formed as one.

The caulking punch 500 is installed at the lower center of the upper master die 400 and presses the ring 12. When the caulking punch 500 compresses the ring 12, FIG. As shown, the ring 12 is tightly pressed against the groove of the core and bent so as not to fall out.

On the other hand, the transfer means for moving the left and right stripper 300 to the left and right at the same time as the lifting of the upper master die 400 is possible by a separate cylinder, the first coil spring 210 described above as a preferred embodiment And a pusher block 410. In this case, when the upper master die 400 descends, the caulking punch 500 descends and the pusher block 410 pushes the left and right strippers 300, so that the riveting of the pin 11 and the ring 12 The bending may be performed at the same time, and when the upper master die 400 is raised, the caulking punch 500 rises along the left and right strippers 300 due to the elastic force of the first coil spring 210 so that the work is completed. The 10 can be taken out from the center die 200.

On the other hand, the present invention is provided with a transfer means for transferring the core 10 to the center die 200. That is, the conveying means puts the core 10 in a state where the pin 11 and the ring 12 are fitted to the center die 200 so that riveting and banding are performed, and the core 10 in which the work is completed is centered. Ejection from the die 200 is to be made automatically. Therefore, the transfer means is formed in the same configuration before and after the center die 200, respectively.

The transfer means is a guide block 600 for guiding forward and backward transfer in a state where the core 10 is placed on the lower master die 100 as shown in FIG. 2 or FIGS. 8 to 10. ) And a slider 620 coupled to the transfer rail 610 and the transfer rail 610 which are installed at one side of the guide block 600, and are moved forward and backward and installed on the lower master die 100. ) Is coupled to one side of the first cylinder 630 and the slider 620 for advancing back and forth, and the guide block in a state in which it is coupled to the second cylinder 640 and the second cylinder 640. The finger 650a for walking and transporting the core 10 at the lower portion while being positioned above the upper portion 600 is configured as the index hand 650 formed at the front and back intervals.

Therefore, according to the transfer means of this configuration, as shown in Figure 9 and Figure 10, while the left and right at the same time operating the core 10 in a continuous supply and discharge is made, so that the guide block 600 and the center die 200 ), A plurality of cores 10 are placed at equal intervals by the interval of the fingers 650a of the index hand 650. At this time, when the index hand 650 is lowered by the operation of the second cylinder 640, and the finger 650a hooks each core 10, the index hand 650 is operated by the operation of the first cylinder 630. Since it is moved by an interval of 650a, a new core 10 is transferred to the center die 200, and the index hand 650 is raised again to operate the second cylinder 640 so that the finger 650a is moved to each core ( 10, the index hand 650 returns to its original position by the operation of the first cylinder 630. When the above process is completed, the upper master die 400 described above is lowered to rivet and band the core 10 mounted on the center die 200.

According to the configuration of the present invention as described above, the riveting of the pin 11 and the bending of the ring 12 are simultaneously performed while the core 10 is seated, thereby reducing the defect rate of the core 10 and increasing the reliability of the product. do.

In addition, by automatically moving the core 10 through the transfer means, the safety of the work is further improved.

10: core 11: pin
12: ring
100: lower master die 110: guide plate
120: guide bar 130: second coil spring
200: center die 210: first coil spring
300: left and right stripper 310: rear stripper
400: upper master die 410: pusher block
500: caulking punch
600: guide block 610: transfer rail
620: slider 630: first cylinder
640: second cylinder 650: index hand
650a: finger

Claims (6)

In the low pressure circuit breaker magnetic core fixing device for inserting the pin into the through hole of the core in which several iron pieces are in close contact, then crimping and riveting both ends of the pin, and inserting the ring into the grooves of the bent ends, and then crimping and bending the band,
A lower master die fixed to the bottom;
A center die fixed to the upper center of the lower master die to mount the core with the pin and the ring fitted thereto;
Left and right strippers for pressing and pressing end portions of the pins while moving from side to side of the center die;
Transfer means installed in front of and behind the center die, for transferring the core to the center die;
An upper master die for elevating above the lower master die; And
A caulking punch for pressing and pressing the ring while being installed at the lower center of the upper master die; Low pressure circuit breaker magnetic core fixing device, characterized in that configured to include.
The apparatus of claim 1, further comprising: moving means for pushing the left and right strippers from side to side at the same time as the upper master die;
Wherein,
A first coil spring installed between a center die and left and right strippers to push the gap between the left and right strippers; And
And a pusher block coupled to the lower left and right sides of the upper master die and having an inclined surface formed to be pushed to narrow the left and right strippers while being in contact with the left and right strippers when descending. Low voltage circuit breaker magnetic core fixture.
The low pressure circuit breaker magnetic core of claim 2, further comprising: a rear stripper coupled to an outer end of the left and right strippers and having an inclined slope formed to make a surface contact corresponding to the inclined surface of the pusher block. Device.
The low pressure circuit breaker magnetic core fixing device of claim 1, further comprising: a guide plate disposed at left and right sides of the lower master die and configured to limit a gap that is formed while guiding movement of the left and right strippers.
The guide bar of claim 1, further comprising: a guide bar installed vertically on the lower master die to guide the lift through the upper master die; And a second coil spring coupled to the guide bar and configured to support the upper master die.
The method according to claim 1, The transfer means,
A guide block installed on the lower master die and for guiding forward and backward transport with the core mounted thereon;
A transfer rail installed at one side of the guide block;
A slider coupled to the transfer rail to move forward and backward;
A first cylinder installed on the lower master die, for moving the slider forward and backward;
A second cylinder coupled to one side of the slider and operating up and down;
Low pressure circuit breaker magnetic, characterized in that it is located above the guide block in the state coupled to the second cylinder, a finger for moving the core to the lower end is formed at the front and back intervals (index hand); Core fixture.

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