KR101349112B1 - Accelerometer fixing apparatus for measuring vibration of agricultural facilities - Google Patents

Abstract

An accelerometer fixing device for measuring vibration of agriculture facilities according to the present invention includes a lower plate; an upper plate separated from the lower plate; a connection bar connecting the upper plate and the lower plate; and a sensor fixing part arranged on the upper plate and connected to an accelerometer. The connection bar rotates around the lower plate, and the upper plate slides along the connection bar. The present invention enables a plurality of accelerometers to be mounted on a frame, which forms an agriculture facility while being mounted on an agriculture facility such as a plastic greenhouse, in order to grasp a response rate to external vibration such as strong wind or heavy snow in three dimensions.

Description

Accelerometer Fixing Apparatus for Measuring Vibration of Agricultural Facilities

The present invention relates to an accelerometer fixing device for measuring vibration of agricultural facilities, and more particularly, to the extent to which the frame constituting the agricultural facility reacts by its own vibration or external vibration in a state in which it is mounted on an agricultural facility such as a vinyl house. The present invention relates to an accelerometer fixing device for measuring vibration of an agricultural facility that can be equipped with an accelerometer so that it can be grasped in three dimensions.

Vinyl house, a kind of agricultural facility, has poor structural safety as its service life increases after its construction.However, it is impossible to know exactly how much design strength it has. have.

Accordingly, in order to prevent damage to the vinyl house due to strong winds or heavy snow in advance, a vinyl house structural safety diagnosis system and the like are being developed that can quickly measure how structurally safe the construction site is.

In the conventional safety diagnosis system, for example, the degree of deformation when a specific force or vibration is applied to the plastic house is measured, and then the current design strength and safety rating are made according to the structural safety evaluation index, and the systematic maintenance accordingly is performed. And a device for suggesting repair and reinforcement methods.

On the other hand, Korean Patent Registration No. 10-1024118 (registered on March 5, 2011) has been proposed as a structural diagnostic safety device for agricultural structures. The prior art describes the contents of increasing structural safety of agricultural facilities such as greenhouses by applying external force to agricultural facilities through force and measuring the external force generated from the sensor through a plurality of sensors. There is a limitation in that there is no description of a specific fixing device that can attach a measuring unit such as a sensor.

The present invention is to solve the problems of the prior art as described above, a fixed plate coupled to an agricultural facility, a mobile plate spaced apart using the fixed plate and the control bar, and a plurality of acceleration sensors disposed on the mobile plate In a state including a fixing unit, an acceleration sensor coupled to the acceleration sensor fixing unit is to provide an accelerometer fixing device for measuring the vibration of agricultural facilities that can measure the vibration in the X, Y, Z 3 directions.

Accelerometer fixing device for measuring the vibration of agricultural facilities provided to achieve the above object is a lower plate; An upper plate spaced apart from the lower plate; A connection bar connecting the upper plate and the lower plate; And a sensor fixing part disposed on the upper plate, to which an accelerometer is coupled, wherein the connection bar rotates with respect to the lower plate, and the upper plate slides along the connection bar.

It may be preferable that a plurality of sensor fixing parts are disposed to grasp the vibration characteristics in three directions of X, Y, and Z directions.

The sensor fixing part includes first and second sensor fixing parts disposed in the horizontal and vertical directions on the upper plate, respectively, and a third sensor fixing part disposed on the upper extension plate installed in a direction perpendicular to the upper plate. It may be desirable to.

The apparatus further includes a top plate fixture slidably disposed in the slide hole formed through the connecting bar in the longitudinal direction, the top plate fixture is preferably connected to the top plate bracket fixed to the top plate. can do.

The apparatus may further include a connecting bar fixture rotatably coupled to the through hole formed at the bottom of the connecting bar, wherein the connecting bar fixture may be connected to a lower plate bracket fixed to the lower plate.

Four connecting bars are disposed at corners of the upper plate and the lower plate, and the rotation of the connecting bar is controlled by using the connecting bar fixing member, or the upper plate is moved up and down using the upper plate fixing member. It may be desirable to adjust.

The apparatus may further include an inclination measuring unit configured to measure whether the upper plate is horizontal to the ground, and the inclination measuring unit may be disposed on the upper plate and the upper extension plate.

The lower plate may include a support having a predetermined radius of curvature at its lower end, and the support may correspond to the frame of the vinyl house.

As described above, the accelerometer fixing device according to the present invention has a plurality of frames so that the frame constituting the agricultural facility can be three-dimensionally grasped by external vibration such as strong wind or heavy snow in a state where it is mounted on an agricultural facility such as a vinyl house. Allows the accelerometer to be mounted.

When the present invention is applied to the vinyl house to grasp the expected vibration characteristics, it is possible to greatly reduce the recovery cost of the vinyl house, and to help the horticultural farmers to reduce the anxiety about meteorological disasters and contribute to the establishment of a stable facility horticulture foundation. Can be.

1 is a perspective view of an accelerometer fixing device for measuring vibration of agricultural facilities according to an embodiment of the present invention, and
Figure 2 is a schematic diagram showing an embodiment of testing by applying the accelerometer fixing device for measuring vibration of agricultural facilities according to the present invention in a plastic house.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. The described embodiments are provided by way of example for purposes of illustration, and do not limit the technical scope of the present invention.

Accelerometer fixing device for measuring vibration of agricultural facilities of the present invention may be manufactured integrally or separately separated as needed. In addition, some components may be omitted depending on the form of use.

Hereinafter, an accelerometer fixing device for measuring vibration of agricultural facilities according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Description of overall structure of accelerometer fixing device 100 for vibration measurement of agricultural facilities

Accelerometer fixing device 100 for measuring vibrations of agricultural facilities according to an embodiment of the present invention is the lower plate 110, the lower plate 110 and the upper plate 120, a predetermined distance spaced from the lower plate (120) and the lower plate ( Connection bar 130 connecting the 110, the upper plate fixture 140 to enable the positioning of the upper plate 120 to slide along the connection bar 130, setting the rotation angle of the connection bar 130 It includes a connection bar fixture 150 to enable, a plurality of sensor fixing portion 160 disposed on the upper plate 120, and the inclination measuring unit 170 disposed on the upper plate 120.

The lower plate 110 is a portion that is directly attached and fixed to the agricultural facilities, for example fixed on the frame frame constituting the plastic house without shaking. Preferably, it may be disposed at the bent portion of the top of the frame frame. In order to assist the function, a lower end of the lower plate 110 may be provided with a support formed to have a suitable radius of curvature to fit the frame frame.

As the upper plate 120 is a plurality of sensor fixing unit 160 is fixed, the posture adjustment is required when the accelerometer fixing device 100 is installed in an agricultural facility. That is, various arrangements of the top plate 120 are required to accurately measure the displacement through the acceleration sensor coupled to the sensor fixing unit 160.

The connection bar 130 allows the relative position of the upper plate 120 with respect to the lower plate 110, and the upper plate 120 is above the lower plate 110 disposed at the lower end of the connecting bar 130. It is movable along the connecting bar 130 in the vertical direction.

The connection bar 130 is a first connection bar 131 disposed at the front side of the upper plate 120 and the lower plate 110 and a second connection bar disposed at the rear side of the upper plate 120 and the lower plate 110. (135). In one embodiment, the first connection bar 131 may be formed longer than the second connection bar 135.

The upper plate fixture 140 is slidably disposed in the first slide hole 132 formed through the length of the first connecting bar 131. The upper plate fixture 140 includes a rotating part 141, a supporting part 142, and a connecting part 143 connecting the rotating part 141 and the supporting part 142. The support 142 of the upper plate fixture 140 is firmly coupled to the upper plate bracket 122 fixed to the lower end of the upper plate 120.

Like the first connection bar 131, the upper plate fixing member 140 is slidably disposed in the second slide hole 136 formed through the second connection bar 135 in the longitudinal direction.

The connecting bar fixture 150 is rotatably coupled to the through hole formed in the lower portion of the connecting bar 130. The connection bar fixture 150 has a form including a rotation part 151, a support part 152, and a connection part 153 connecting the rotation part 151 and the support part 152 like the structure of the upper plate fixture 140, The support of the connection bar fixture 150 is firmly coupled to the lower plate bracket 112 fixed to the lower end of the lower plate 110.

The connecting bar fixture 150 enables setting the rotation angle of the connecting bar 130 through a process of adjusting the separation distance between the rotating part 151 and the support part 152.

In the state in which four connection bars 130 are disposed at the corner points of the upper plate 120 and the lower plate 110 as described above, the rotation of the connection bar 130 is controlled by using the connection bar fixing member 150, Up and down movement of the upper plate 120 may be adjusted using the upper plate fixing unit 140. In particular, the arrangement of the upper plate 120 may be variously adjusted by separately controlling the plurality of connection bar fixing members 150 and the upper plate fixing unit 140.

The sensor fixing part 160 is disposed in plurality on the top plate 120. The sensor fixing unit 160 includes a pair of cramp-shaped supports 161 fixed on the upper plate 120, a connector 163 connecting the pair of supports 161, and a support 161 to the upper plate. And a fixture 165 that couples to 120.

The sensor fixing unit 160 is specifically disposed three-dimensionally along the X, Y, and Z directions. That is, two are disposed along the horizontal and vertical directions on the upper plate 120, and the other one is disposed on the upper extension plate 124 installed in the direction perpendicular to the upper plate 120, thereby totaling three sensors. The government 160 is disposed perpendicular to each other.

The inclination measuring unit 170 measures whether the top plate 120 is level with respect to the ground when the accelerometer fixing device 100 is installed. Specifically, it is installed on the upper plate 120 and the upper extension plate 124 to be in charge of the horizontal adjustment function.

Next, with reference to FIGS. 1 and 2 will be described an embodiment in which the accelerometer fixing device 100 for measuring vibration of agricultural facilities is applied to the vibration measurement of the plastic house.

Accelerometer fixing device 100 according to the present invention is disposed on the frame 20 forming the frame of the plastic house. In order to ensure the accuracy of the measurement, the accelerometer fixing device 100 is placed on the convex protrusion on the top of the frame 20. This makes it possible to measure the overall balanced load vibration as a part of the central part of the frame of the vinyl house.

The sensor fixing unit 160 of the accelerometer fixing device 100 is connected to the information recording unit 32, and the information recording unit 32 is connected to the monitoring unit 40. The information recording unit 32 receives data measured from the sensor fixing unit 160, and the monitoring unit 40 enables the field to verify the performance of the facility on the basis of the data input to the information recording unit 32. The monitoring unit 40 may be a computer including a central computing device or a microcomputer, and the finite element method and the matrix structure analysis may be performed, and the facility may be modeled to give physical properties, boundary conditions, and load conditions under the same conditions as the load test. It is equipped with a program for engineering simulation of the behavior of the facility.

As described above, the accelerometer fixing device according to the present invention has a plurality of frames so that the frame constituting the agricultural facility can be three-dimensionally grasped by external vibration such as strong wind or heavy snow in a state where it is mounted on an agricultural facility such as a vinyl house. Allows the accelerometer to be mounted.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that numerous modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. And equivalents should also be considered to be within the scope of the present invention.

100: Accelerometer Fixture for Vibration Measurement of Agricultural Facility
110: bottom plate
120: top plate
122: top plate bracket
130: connection bar
131: first connecting bar
132: first slide hole
135: second connecting bar
136: second slide hole
140: top plate fixture
141: rotating part
142: support
143 connection
150: connecting bar fixture
160: sensor fixing part
170: tilt measurement unit

Claims (8)

Bottom plate;
An upper plate spaced apart from the lower plate;
A connection bar connecting the upper plate and the lower plate; And
A sensor fixing part disposed on the upper plate and to which an accelerometer is coupled;
Including;
The connection bar is rotated relative to the lower plate, the upper plate is characterized in that the sliding movement along the connection bar,
Accelerometer fixture.
The method of claim 1,
The sensor fixing unit is characterized in that a plurality of arranged so as to grasp the vibration characteristics in the X, Y, Z 3 directions,
Accelerometer fixture.
3. The method of claim 2,
The sensor fixing part includes first and second sensor fixing parts disposed in the horizontal and vertical directions on the upper plate, respectively, and a third sensor fixing part disposed on the upper extension plate installed in a direction perpendicular to the upper plate. Characterized by
Accelerometer fixture.
The method of claim 1,
The apparatus comprises:
Further comprising: a top plate fixture slidably disposed in the slide hole formed through the connecting bar in the longitudinal direction,
The top plate fixture is characterized in that connected to the top plate bracket fixed to the top plate,
Accelerometer fixture.
The method of claim 1,
The apparatus comprises:
And a connection bar fixing member rotatably coupled to the through hole formed at the bottom of the connection bar.
The connecting bar fixture is characterized in that connected to the lower plate bracket fixed to the lower plate,
Accelerometer fixture.
The method according to claim 4 or 5,
Four connecting bars are disposed at corners of the upper plate and the lower plate, and the rotation of the connecting bar is controlled by using the connecting bar fixing member, or the upper plate is moved up and down using the upper plate fixing member. Characterized in that,
Accelerometer fixture.
The method of claim 1,
The apparatus comprises:
And an inclination measuring unit for measuring whether the upper plate is horizontal to the ground, wherein the inclined measuring unit is disposed on the upper plate and the upper extension plate.
Accelerometer fixture.
The method of claim 1,
The lower plate has a support portion having a predetermined radius of curvature at its lower end, and the support portion corresponds to the frame of the vinyl house,
Accelerometer fixture.

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