KR100270557B1 - Mount device of acceleration sensor. - Google Patents

Abstract

PURPOSE: An acceleration sensor mount structure is provided to increase reliability and to easily mount the acceleration sensor by varying the mounting position of the acceleration sensor. CONSTITUTION: A first acceleration sensor fixing unit comprising orthogonal cubes is linked to acceleration sensors(3,5,7) on each side by linking members. A second acceleration sensor fixing unit is linked perpendicular to the first acceleration sensor fixing unit by linking members. A third acceleration sensor fixing unit is linked to the first and second acceleration sensor fixing unit from the upside. The linking holes are oriented perpendicular to each other, so that the first, second and third acceleration sensors can be moved in a same plane.

Description

Acceleration sensor mount structure

The present invention relates to a mount for mounting an acceleration sensor.

Figure 2 shows a typical single axis acceleration sensor. Such a single-axis accelerometer has a structure capable of measuring the acceleration acting in one axis direction with one acceleration sensor 101.

Therefore, in order to measure the acceleration in the multi-axis direction, the acceleration sensors 101 and 103 are fixed to be orthogonal to each other to be measured to measure the acceleration.

The conventional acceleration sensor has a problem in that reliability is reduced by being fixed by maintaining a constant distance from a point to be measured due to its size constraint when measuring acceleration in multiple axes.

In addition, there is an inconvenience in mounting because accuracy is required when arranging each acceleration to be orthogonal to each other.

The present invention has been made to solve the above problems of the prior art, and an object of the present invention is to provide an acceleration sensor mount structure that increases the reliability and convenience of mounting by placing the acceleration sensor accurately at the point to be measured. There is.

1 is a perspective view showing a mount for mounting an acceleration sensor showing an embodiment according to the present invention;

Figure 2 is a perspective view showing a general acceleration sensor for shortening.

Acceleration sensor mount structure of the present invention,

A first acceleration sensor fixing part formed of a cube formed at right angles to each other and fastened by a fastening member by forming a mounting groove on one side to fix the acceleration sensor to one side;

A second acceleration sensor fixing part which is fastened by the fastening member by forming a mounting groove so as to be orthogonal to the first acceleration sensor fixing part;

Another groove is formed on the upper surface so as to bisect the groove formed by the first and second acceleration sensor fixing portions to form a mounting groove, and comprises a third acceleration sensor fixing portion which is fastened by the fastening member.

Therefore, the acceleration sensor is coupled to the groove formed in the first acceleration sensor fixing part and fixed with the fastening member, and the other acceleration sensor is coupled to the groove formed in the second acceleration sensor fixing part and fixed with the fastening member, and the third acceleration Another acceleration sensor is coupled to the groove formed in the sensor fixing part and fixed with a fastening member.

In this case, since the installation position of the acceleration sensor may be different from the acceleration sensor fixing part, it may be installed to be orthogonal to the point to be measured.

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

1 is a perspective view showing an embodiment according to the present invention, which shows an acceleration sensor mount 1 and an acceleration sensor 3, 5, 7.

The acceleration sensor mount 1 is formed of a cube and has a long groove 9 formed on one side thereof. The long groove 9 is for allowing a part of the acceleration sensor 3 to be fixedly inserted. One side of the long groove 9 is formed with a plurality of fastening holes 11 for mounting the acceleration sensor (3). The fastening hole 11 is preferably formed with a screw thread for fastening the acceleration sensor 3 with a screw or the like.

And on the other side orthogonal to the surface on which the long groove 9 is formed to form a long groove 13 of the same shape as described above. In addition, forming the fastening groove 15 for fastening the acceleration sensor 5 also has the same structure.

Another long groove 17 for coupling the acceleration sensor 7 is also formed on the upper surface of the acceleration sensor mount 1 so that the angle at which the long grooves 9 and 13 are formed is bisected.

Of course, a fastening groove 19 for mounting the acceleration sensor 7 is also formed on one side of the long groove 17 disposed on the upper surface of the acceleration sensor mount 1.

And one fastening hole 21 for attaching the acceleration sensor mount is formed on one side of the upper surface of the acceleration sensor mount (1). The fastening hole 21 is made of a plurality and is configured to be fastened by the bolt (23) or the like.

The acceleration sensor mount structure thus constructed is fastened by attaching the acceleration sensor 3 to the long groove 9 formed on one side of the acceleration sensor mount 1 and fixing it with a screw 25.

The position of the acceleration sensor 3 can be appropriately shifted and fastened along the long groove 9 of the acceleration sensor mount 1.

Further, another acceleration sensor 5 is fastened to one side of the acceleration sensor mount 1 orthogonal to the acceleration sensor 3 described above. Since the fastening of the acceleration sensor 5 is the same as described above, the detailed description thereof will be omitted.

In addition, the acceleration sensor 7 is fastened to the long groove 17 formed on the upper surface of the acceleration sensor mount 1 in the same manner as described above.

In addition, the acceleration is sensed by attaching the bolt 23 to an object to measure the acceleration, that is, the test vehicle.

Acceleration sensor mount structure according to the present invention, the acceleration sensor can be installed close to the point to be measured, the reliability of the measured signal value is increased, as well as the acceleration sensor is convenient to mount.

Claims (2)

A first acceleration sensor fixing portion formed of a cube formed at right angles to each other and fastened by a fastening member by forming a mounting groove on one side to fix the acceleration sensor to one side, and orthogonal to the first acceleration sensor fixing portion. The second acceleration sensor fixing part is fastened by the fastening member to form a mounting groove so that another groove is formed to equally divide the groove formed by the first and second acceleration sensor fixing parts on the upper surface to form the mounting groove to form the mounting member. And a third acceleration sensor fixing part which is fastened by the fastening sensor, wherein the mounting groove is formed of long grooves arranged in directions perpendicular to each other so that the first, second and third acceleration sensors can be coupled by varying positions on the same surface. The fastening member is made of a screw, and the acceleration sensor mount is disposed from the top to the bottom to attach to the measurement object. Acceleration sensor mount structure to form fasteners. The acceleration sensor mount structure of claim 1, wherein the first, second, and third acceleration sensor fixing parts form a plurality of fastening holes to fasten the acceleration sensor by the fastening member.

Images