KR20100043724A - Adjusting device for gap sensor position of magnetic levitation system - Google Patents

Abstract

PURPOSE: A gap sensor location adjusting device is provided to accurately adjust the location of an up/down movement bracket upward and downward by using a screw for controlling a position. CONSTITUTION: A gap sensor(14) is installed in an up/down movement bracket(16). The up/down movement bracket are installed in a mount block(15). The mount block is attached to a support stand(12). The support stand is installed in an electromagnet in a horizontal direction. A fixed bracket(19) is attached to the bottom part of the mount block. A screw(18) for controlling a position is supported in one side of the fixed bracket to be rotatable in order to adjust the location of the bracket upward and downward. The upper part of the screw is combined in the bottom part of the up/down movement bracket. A guide groove enabling the bracket to be moved upward and downward is formed in one side of the mount block.

Description

Gap sensor position adjusting device for magnetic levitation system

The present invention relates to a gap sensor position adjusting device for a magnetic levitation system, and more specifically, it is possible to precisely adjust the position of the gap sensor by using a shandong copper bracket and a position adjusting screw, and can be easily operated and installed by field practitioners. The present invention relates to a gap sensor positioning device for a magnetic levitation system.

In general, the magnetic levitation train is to minimize the loss of energy due to friction caused in the existing train because the train on the rail to run by the magnetic force (bar), many rail members through the joint part It is provided on the path to proceed, the lower part of the train is configured to install a magnetic member to maintain the magnetic force while interacting with the rail member.

Therefore, when the magnetic levitation train proceeds, the rail member and the magnetic member react with each other, so that the magnetic levitation train is spaced apart at regular intervals on the rail to remain in an injured state and then proceeds back and forth.

1 is a view illustrating a conventional gap sensor position adjusting device. In a magnetic levitation system including a magnetic levitation train, the gap sensor 14 measures a distance between the electromagnet 10 and the rail 11, and a gap sensor The mounting structure of (14) is very important. When installing by the field practitioner, the position of the gap sensor 14 should be easily adjustable and there should be no loosening of the gap sensor 14 during operation.

Electromagnet 10 is made of a pair or one, the rail 11 is installed correspondingly to maintain a constant interval on the upper portion of the electromagnet 10.

The gap sensor position adjusting device includes a support 12 fastened to the core of the electromagnet 10 with a bolt 13, a mount block 102 fastened to the support 12 with a bolt 13, and a mount block 102. ) Is composed of a "b" shaped bracket 101 fastened with bolts 103 and a gap sensor 14 fastened with a nut 104 through a through hole formed in the bracket.

When the gap sensor 14 is installed, the mount block 102 is first fixed with the bolt 13, and then the gap sensor 14 is tightened with the bolt 103 to fix the “a” shaped bracket 101. To be fixed.

However, when fixing the gap sensor in this way, it is difficult to adjust the sensor position when operating in the field, and if the sensor output value is not the desired value, it is difficult to re-adjust and fine tuning is difficult.

Therefore, it is difficult to accurately measure the exact gap between the electromagnet and the rail, because the position adjustment is difficult and precise installation is difficult in the field, and it is difficult to replace the sensor quickly in case of failure of the gap sensor, As a result, the gap sensor can be released from the bracket.

The present invention has been made in view of the above, and installed in the guide grooves of the mount block so that the Shanghai East Bracket equipped with a gap sensor can be moved in the vertical direction, and the position adjustment screw and screw coupling on the lower end of the Shanghai East Bracket By forming the screw moving groove as much as possible, and precisely adjusting the position of the shandong copper bracket by using the position adjusting screw, it is possible not only to replace the new sensor quickly when the gap sensor fails, but also when the gap sensor is in operation. It is an object of the present invention to provide a gap sensor positioning device for a magnetic levitation system that is not easily released from a bracket, has a low vibration when the magnetic levitation module is injured and propulsion, and is easily maintained and repaired by a field practitioner.

The above object is in the position adjusting device of the gap sensor for the magnetic levitation system for measuring the distance between the electromagnet and the rail,

Shanghai copper bracket equipped with the gap sensor; A mount block to which the shandong copper bracket is installed; A mounting block to which the mount block is attached and installed horizontally on the electromagnet; A fixing bracket attached to a lower end of the mount block; Magnetic levitation system characterized in that it is rotatably supported on one side of the fixing bracket to adjust the position of the shandong copper bracket, the upper end screwed to the lower end of the shandong copper bracket Achieved by the positioning device of the gap sensor.

Preferably, a guide groove is formed on one surface of the mount block and the rear surface of the shandong copper bracket to guide the shanghai copper of the shanghai copper bracket.

The shandong copper bracket includes a fixing groove formed in the guide groove to be fixed to the guide groove of the mount block by the fixing bolt, and a rectangular upper and lower adjustment hole formed in the shandong copper bracket, and is fixed when the position of the shandong copper bracket is determined The bolt penetrates the upper and lower adjustment holes and is fastened to the fixing groove.

The position adjusting screw includes a bolt head portion, a fastening portion extending in the axial direction from the bolt head portion, and a threaded portion formed therein, and a bearing portion in which a pair of vanes protrude radially between the bolt head portion and the fastening portion.

In particular, one side of the fixing bracket includes a support groove formed concave to couple the groove between the blade of the bearing portion, the bearing portion is rotatably supported by the support groove.

In addition, at the lower end of the shandong copper bracket, a screw moving groove is formed in a vertical direction so as to be engaged with the fastening portion of the positioning screw, and as the rotating screw rotates the position adjusting screw, the shandong copper bracket of the positioning screw Shanghai East along the joint.

Accordingly, according to the gap sensor position adjusting device for the magnetic levitation system according to the present invention, and installed in the guide groove of the mount block so that the Shanghai East bracket equipped with a gap sensor can be moved in the vertical direction, located in the lower end of the Shanghai East bracket By forming a screw moving groove to be screwed with the adjustment screw, it is possible to precisely adjust the position of the shandong copper bracket in the vertical direction by using the position adjusting screw.

In addition, the gap sensor can be quickly replaced with a new sensor, the gap sensor is not easily released from the bracket during operation, there is little vibration during injury and propulsion of the magnetic levitation module, and the field staff can easily maintain and repair the gap sensor. Can be.

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

2 is a view illustrating a gap sensor positioning device for a magnetic levitation system according to an embodiment of the present invention, Figure 3 is an exploded perspective view of the gap sensor positioning device in FIG.

Gap sensor position adjusting device according to the present invention includes an electromagnet 10 and a rail 11, the electromagnet 10 is a pair or one, a magnetic material and consists of a U-shaped or E-shaped cross section.

Rail 11 is installed to correspond to the upper portion of the electromagnet 10, the magnetic body is made of a rectangular or U-shaped cross section.

As a device for fixing the gap sensor 14 to the electromagnet 10, the support 12, the mounting block 15, the Shanghai East bracket 16, the lower fixing bracket 19, the fixing bolt 17 and the position adjustment It consists of a screw (18).

The support 12 is installed in the core of the electromagnet 10 and fixed to the electromagnet 10 by a fastening means such as a bolt 13, and the mount block 15 is attached to the bolt 13 at the middle of the support 12. To be fixed.

Shanghai copper bracket 16 is a device for fixing the gap sensor 14 to the mounting block 15, the overall shape is "a" shaped, the horizontal member (16a) having a screw hole on the top, and the horizontal member ( It consists of the vertical member 16b extended vertically downward from the edge part of 16a).

At this time, in order to move the Shanghai East bracket 16 in the vertical direction from the mount block 15, a guide groove 15a is formed in the mount block 15 in a vertical direction, and the Shanghai East bracket 16 is mounted in the mount block. A fixing groove 15b is formed in the guide groove 15a to fix the bolt 17 to the bolt 15, and the vertical shank (16) is used to adjust the up and down direction of the shandong copper bracket 16 on the mount block 15. The upper and lower adjustment holes 16 'are formed in a rectangle in 16b).

The gap sensor 14 is a sensor for detecting a gap between the electromagnet 10 and the rail 11, and a sensor body is positioned at an upper portion thereof, and a screw portion is formed at a lower portion of the sensor body. At this time, the threaded portion of the gap sensor 14 is fastened by the nut 20 through the screw hole of the shanghai copper bracket 16.

A fixing bracket 19 and a bolt 21 for fixing the fixing bracket 19 are configured to mount the position adjusting screw 18 in the lower portion of the mount block 15.

A mounting groove 15c for installing the fixing bracket 19 is recessed in the lower portion of the mount block 15, and the fixing bracket 19 is fixed to the mounting groove 15c by a bolt 21. On one side of the fixing bracket 19, a "U" shaped support groove 19a for supporting the position adjusting screw 18 is formed.

The lower end of the shandong copper bracket 16 is coupled with the position adjusting screw 18, the screw movement groove 22 is formed so that the shandong copper bracket 16 is movable in the vertical direction.

The position adjusting screw 18 is screwed with the screw moving groove 22 of the shandong copper bracket 16 to precisely adjust the vertical position of the gap sensor 14, and includes a bolt head portion 18a and a bearing. The part 18b and the fastening part 18c are comprised.

The bolt head portion 18a serves as a handle for the user to hold and rotate by hand, and the bearing portion 18b is engaged with the “U” shaped support groove 19a of the fixing bracket 19 to be rotatably supported in place. The fastening part 18c is screwed with the lower end of the shandong copper bracket 16 to serve as a shanghai.

The bearing portion 18b has a structure in which the wings protrude from the upper and lower portions at regular intervals, and the grooves between the wings are installed to be fitted into the “U” shaped support grooves 19a.

Referring to the installation and operation method of the gap sensor position adjusting device for magnetic levitation system according to an embodiment of the present invention by such a configuration as follows.

First, the support 12 is fixed to the core of the electromagnet 10 horizontally with the bolt 13, and the mount block 15 is fastened to the middle of the support 12 with the bolt 13.

Then, the fixing bracket 19 is fixed to the mounting groove 15c in the lower part of the mount block 15 with the bolt 21, and the bearing portion 18b of the position adjusting screw 18 is removed from the fixing bracket 19 " Fix it by inserting it into the U "-shaped support groove 19a.

Subsequently, the gap sensor 14 is mounted on the shanghai east bracket 16, and then the shanghai east bracket 16 is inserted into the guide groove of the mount block 15, and the screw moving groove of the shanghai east bracket 16 ( 22) is engaged with the positioning screw (18).

The shank copper bracket 16 is moved up and down while rotating the position adjusting screw 18 while the screw moving groove 22 is engaged with the position adjusting screw 18. When the position of the shanghai copper bracket 16 is determined by the manipulation of the position adjusting screw 18, the shanghai copper bracket 16 is finally fixed to the mount block 15 with a bolt 17.

Therefore, the shandong copper bracket 16 is moved only in the up and down direction without moving left and right along the guide groove 15a, and the position adjusting screw 18 screwed into the screw moving groove 22 moves the screw moving groove 22. Accordingly, the position of the gap sensor 14 can be finely adjusted in the vertical direction by rotating in a spiral manner.

While the invention has been shown and described with respect to certain preferred embodiments thereof, the invention is not limited to these embodiments, and has been claimed by those of ordinary skill in the art to which the invention pertains. It includes all the various forms of embodiments that can be carried out without departing from the spirit.

1 is a view showing a conventional gap sensor position adjusting device,

2 is a view showing a gap sensor position adjusting device for a magnetic levitation system according to an embodiment of the present invention,

Figure 3 is an exploded perspective view of the gap sensor position adjusting device in FIG.

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

10: electromagnet 11: rail

12: support 13,21: bolt

14: gap sensor 15: mount block

15a: guide groove 15b: fixed groove

15c: Mounting groove 16: Shanghai East Bracket

16a: horizontal member 16b: vertical member

16 ': up and down adjustment hole 17: fixing bolt

18: screw for position adjustment 18a: bolt head portion

18b: bearing 18c: fastening

19: fixing bracket 19a: support groove

20: nut 22: screw moving groove

Claims (6)

In the position adjusting device of the gap sensor for magnetic levitation system for measuring the distance between the electromagnet and the rail, Shanghai copper bracket equipped with the gap sensor; A mount block to which the shandong copper bracket is installed; A mounting block to which the mount block is attached and installed horizontally on the electromagnet; A fixing bracket attached to a lower end of the mount block; Magnetic levitation system characterized in that it is rotatably supported on one side of the fixing bracket to adjust the position of the shandong copper bracket, the upper end screwed to the lower end of the shandong copper bracket Positioning device of gap sensor. The method according to claim 1, One side of the mount block is a position adjustment device for a magnetic levitation system of the magnetic levitation system, characterized in that the guide groove is formed in the interview with the back of the Shanghai East Bracket to guide the Shanghai East of the Shanghai East Bracket. The method according to claim 2, The shandong copper bracket includes a fixing groove formed in the guide groove to be fixed to the guide groove of the mount block by the fixing bolt, and a rectangular upper and lower adjustment hole formed in the shandong copper bracket, and is fixed when the position of the shandong copper bracket is determined Positioning device of the gap sensor for magnetic levitation system characterized in that the bolt is fastened to the fixing groove through the vertical adjustment hole. The method according to claim 3, The position adjusting screw includes a bolt head portion, a fastening portion extending in the axial direction from the bolt head portion and a threaded portion formed therein, and a pair of wings between the bolt head portion and the fastening portion radially protruding bearing portion. Position adjusting device of the gap sensor for magnetic levitation system. The method according to claim 4, Positioning device of the magnetic sensor system gap sensor comprising a support groove formed concave to be coupled to the groove between the blade of the bearing portion on one side of the fixing bracket, the bearing portion is rotatably supported by the support groove . The method according to claim 5, At the lower end of the shandong copper bracket, a screw moving groove is formed in a vertical direction so as to be engaged with the fastening portion of the positioning screw, and as the rotating screw rotates the positioning screw, the shandong copper bracket fastens the screw for adjusting the position through the screw moving groove. Positioning device of the gap sensor for magnetic levitation system, characterized in that it moves along.

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