KR20080004566U - Fixture of a centering device - Google Patents

Abstract

The present invention relates to a fixing device of the shaft alignment device, the fixing device 40 of the shaft alignment device that is attached to and fixed by the magnetic force on the outer peripheral surface of the shaft (S) to be aligned and inserted into the body 30 for transmitting or receiving the optical signal In the, the fixing unit 40 is fixed to the guide rod 42 is fitted to the body 30 and sliding, the connecting rod 44 coupled to the end of the guide rod 42, the connecting rod 44 It consists of a magnet 46 is fixed in contact with the outer peripheral surface of the shaft (S) to be aligned, the end surface of the magnet 46 wraps around the outer peripheral surface of the shaft (S) to be aligned V-shaped groove (46a) ) Is formed, it is effective to reduce the manufacturing and purchasing costs by changing the magnet diameter when the shaft is different.

Description

Fixture of a centering device

1 is an installation state of a general shaft alignment device,

2 is a state diagram in which a transmitting unit or a receiving unit of a conventional shaft alignment device is installed;

3 is a perspective view showing the fixing unit of FIG.

4 is a state in which the transmitter or the receiver of the shaft alignment apparatus to which the present invention is applied is installed;

FIG. 5 is a perspective view illustrating the fixing unit of FIG. 4. FIG.

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

20: transmitter / receiver 30: body

40: anchorage 42: guide rod

44: connecting rod 46: magnet

48: fastening member S: shaft

The present invention relates to an anchorage of the shaft alignment device.

In general, a shaft alignment device is a device for aligning a center between shafts when connecting two shafts. As shown in FIG. 1, a shaft alignment device is installed on a first shaft 1 and a second shaft 3. And a receiving unit 4 for receiving an optical signal (laser or the like) transmitted from the transmitting unit 2 and a controller 5 for displaying and controlling the signal received by the receiving unit 4.

The transmitter 2 and the receiver 4 are a body 6 for transmitting or receiving an optical signal, and a fixing device for attaching and fixing the body 6 to the first shaft 1 or the second shaft 3; It consists of (8).

2 shows a state in which the body 6 and the fixing unit 8 of the transmitting unit 2 or the receiving unit 4 are conventionally installed on the first shaft 1 or the second shaft 3, and FIG. It is a detailed perspective view which shows 8). As shown, the fixing unit 8 is coupled to the guide rod 9 is inserted into the sliding hole (not shown) of the body 6, and is coupled to the end of the guide rod 9 is the first shaft (1) ) Or a contact portion 10 fixed in contact with the second shaft 3.

The guide rods 9 are two fixed to both sides of the contact portion 10, respectively, and are fitted to the body 6 to balance the contact portion 10. An end side surface of the contact portion 10 is a concave indentation surface 10a recessed in a V shape so that two surfaces are in close contact with the outer circumferential surface of the first shaft 1 or the second shaft 3, and the contact portion 10 is provided. A plurality of magnets 10b are fixed to the end of the lateral side so that the recessed surface 10a is fixed to the first shaft 1 or the second shaft 3 by magnetic force.

However, since the fixing unit 8 of the conventional shaft alignment device has a constant size of the V-shaped indentation surface 10a, the fixing unit 8 is detached when the area in contact with the outer circumferential surface of the shaft is small so that the fixing unit cannot be installed. According to the problem that must be used separately made of different size anchorage.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to provide a fixing device of the shaft alignment device to reduce the manufacturing and purchasing costs by changing only the magnet when the shaft diameter is different.

In the fixing device of the shaft alignment device according to the present invention for achieving the above object, the fixing device is attached to the outer peripheral surface of the shaft to be aligned and fixed by the magnetic force in the fixing device of the shaft alignment device, the fixing device, The guide rod is inserted into the body sliding, the connecting rod coupled to the end of the guide rod, and fixed to the connecting rod is made of a magnet which is fixed in contact with the outer peripheral surface of the shaft to be aligned, to be aligned with the end surface of the magnet Wrapping the outer peripheral surface of the shaft is characterized in that the V-shaped groove is formed so that the two surfaces contact.

A fitting groove is formed in the connecting rod so that the magnet is fitted, and the magnet inserted into the fitting groove is fixed by the fastening member.

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

As shown in FIG. 4, the transmitter / receiver 20 of the shaft alignment device is attached to and fixed to the body 30 for transmitting or receiving an optical signal, and the shaft S to align the body 30. It consists of an anchorage (40).

Since the transmitter / receiver 20 and the body 30 are similar to the conventional example, detailed description thereof will be omitted.

As shown in FIG. 5, the fixing unit 40 includes a guide rod 42 that slides into a sliding hole (not shown) of the body 30, and a connecting rod 44 coupled to an end of the guide rod 42. And a magnet 46 fixed to the connecting table 44 and fixed to the outer circumferential surface of the shaft S to be aligned.

The guide rods 42 are two fixed to both sides of the connecting rod 44, respectively, and are fitted to the body 30 so that the connecting rod 44 is balanced. The guide rod 42 is fixed to the nut so as not to be screwed to the connecting rod 44.

A fitting groove 44a is formed on the bottom surface of the connecting table 44 so that the magnet 46 is fitted, and the magnet 46 fitted into the fitting groove 44a is fixed by the fastening member 48.

The V-shaped groove 46a is formed on the end surface of the magnet 46 so that the two surfaces come in contact with the outer circumferential surface of the shaft S to be aligned. The groove of the V-shaped groove 46a is formed with a concave concave strip having a predetermined width and depth, but may not have a concave concave strip.

The magnet 46 is a known magnet body in which magnetic force is generated and dissipated by a switch (handle). The magnet 46 is prepared by a plurality of the angle of the V-shaped groove 46a of various sizes are selected and coupled to a suitable magnet according to the size of the shaft (S). That is, only the magnet 46 is replaced without changing the fixing unit 40 as a whole and applied to the shafts S of various sizes. Therefore, it is possible to reduce the manufacturing and purchasing costs of the fixing unit.

According to the fixing device of the shaft alignment device according to the present invention, when the diameter of the shaft is different, it is effective to reduce the manufacturing and purchasing cost by changing only the magnet.

Claims (2)

In the shaft alignment device having a fixing device 40 is fixed to the outer peripheral surface of the shaft (S) to be aligned and fitted to the body 30 for transmitting or receiving the optical signal by a magnetic force, The fixing unit 40 is fixed to the guide rod 42 and the connecting rod 44 coupled to the end of the guide rod 42 is inserted into the body 30, the guide rod 42, to be aligned It consists of a magnet 46 is fixed in contact with the outer peripheral surface of the shaft (S), An end surface of the magnet 46 is a fixing device of the shaft alignment device characterized in that the V-shaped groove (46a) is formed so as to contact the two surfaces surrounding the outer peripheral surface of the shaft (S) to be aligned. The method according to claim 1. A fitting groove 44a is formed in the connecting table 44 so that the magnet 46 is fitted, and the magnet 46 inserted into the fitting groove 44a is fixed by the fastening member 48. Fixture for shaft alignment device.

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