KR102115580B1 - portable type angle measure apparatus - Google Patents

Abstract

The present invention relates to a portable angle measurement apparatus comprising: a body having a base plate in which a horizontal contact surface extends in a first direction, which is a longitudinal direction, and a measurement plate which is coupled to the base plate to be supported in an upright state in a second direction perpendicular to the first direction, which is the direction of extension of the base plate, and has a guide surface extending horizontally in a direction perpendicular to the direction of extension of the contact surface while standing on the base plate; a first distance measurement module which is mounted on the measurement plate and has a first light source for emitting first laser light and a first light detector for receiving the light emitted from the first light source and reflected from a surface to be measured; a second distance measurement module which is mounted on the measurement plate and has a second light source, which is mounted at a position vertically spaced from the first light source and emits second laser light, and a second light detector for receiving the light emitted from the second light source and reflected from the surface to be measured; and a control module which performs control so that the first and second laser light is emitted from the first and second light sources, calculates a distance to the surface to be measured facing each of the first distance measurement module and the second distance measurement module from signals output from the first and second light detectors, and displays, on a display unit, calculated result information in a set display method. The portable angle measurement apparatus supports the measurement of angles even in a distant state and increases convenience.

Description

Portable type angle measure apparatus

The present invention relates to a portable angle measuring device, and more particularly, to a portable angle measuring device capable of calculating an angle using distance information on a plurality of positions calculated using laser light.

In general, a right angle ruler used to determine a right angle state has a structure in which a horizontal ruler and a vertical ruler are orthogonal to each other by 90 degrees.

Such a right angler has been variously proposed, such as Utility Model Publication No. 1989-0006778, and is used for various purposes in various fields.

On the other hand, in the process of manufacturing the pipes mutually orthogonally, when connecting straight pipes to both ends of the elbow pipe having an arc curvature, a right angled square is used for checking whether or not the straight pipes are orthogonally arranged. Since the elbow pipe having a close contact with one side of the straight pipe and the other side is spaced apart, a distance is measured at a plurality of positions with a tape measure or the like to determine whether it is at a right angle. The method of discriminating the squareness using a right angler in the manufacturing process of such a pipe has a disadvantage in that it takes a lot of work time and there is much room for a measurement error of the measurer in the measurement process.

The present invention was devised to improve the above problems, and an object thereof is to provide a portable angle measuring device capable of supporting measurement of an angle using a laser beam in a spaced state.

In order to achieve the above object, the portable angle measuring device according to the present invention has a base plate extending along a first direction in which the horizontal contact surface is a longitudinal direction, and a second direction perpendicular to the first direction in the extending direction of the base plate. A main body coupled to the base plate so as to be supported in an upright state along with a main body provided with a measuring plate having a guide surface horizontally extended in a direction perpendicular to the extending direction of the contact surface in an upright state on the base plate; The first light source is mounted on the measurement plate of the main body and emits a first laser light along a direction orthogonal to the guide surface, and receives light reflected from the measurement target surface by being emitted from the first light source and receiving the first light. A first distance measuring module having a first light detector arranged at the same height as the light source; The second light source is mounted on the measurement plate of the main body and emits a second laser light along a direction orthogonal to the guide surface, but is emitted from a second light source and a second light source mounted at a position spaced apart vertically from the first light source. A second distance measuring module having a second light detector arranged at the same height as the second light source and receiving light reflected from the measurement target surface; When the measurement mode is selected, the first and second laser lights are controlled to be emitted from the first and second light sources, and the first distance measuring module and the second distance are from signals output from the first and second light detectors. And a control module for calculating a distance to a measurement target surface facing each measurement module and displaying the calculation result information on a display unit in a set display method.

According to an aspect of the present invention, the main body extends the measuring plate so as to be in close contact with both sides of the central adhesive piece protruding along the first direction from the center of one end of the base plate, and at one end of the measuring plate. It is provided with a side contact piece protruding along the direction, the measurement plate can be rotated relative to the base plate by a central hinge axis inserted through each of the side contact pieces in the center contact piece, and the measurement plate is A vertical fixing hole formed in the side plate at a position spaced apart from the central hinge axis to prevent rotation of the measuring plate in an upright position perpendicular to the base plate, and a predetermined depth facing the vertical fixing hole in the base plate. It has a main fixing hole formed to be introduced, and a vertical fixing hole and a main fixing pin inserted in the main fixing hole.

In addition, a diagonal fixing hole in which the main fixing pin can be inserted is formed in the side plate on a position facing the main fixing hole in a state where the measuring plate is inclined at a 45 degree angle with respect to the base plate.

Preferably, the measuring plate is formed with a vertical incision groove extending vertically along a vertical incision plane drawn inwardly at the side surface, and the vertical incision surface is a dovetail extended with a metal material sensitive to magnetic force in the vertical direction. A sliding guide rail having a shape is formed, coupled to the sliding guide rail so as to be vertically movable in a restrained state, and a slider having a permanent magnet built therein, and a first spaced apart vertically spaced apart slider from the slider. And a second guide plate, a circular rod vertically installed between the first and second guide plates, and a mounting plate rotatably mounted on the circular rod and equipped with the first and second distance measuring modules on the front surface. , The mounting plate is provided with a direction fixing groove formed to be drawn vertically at a position spaced apart from the circular rod, and in the first guide plate, the front surface of the mounting plate is disposed in parallel with the guide surface. A first position fixing hole penetrated to face the direction fixing groove and a second position fixing hole penetrated to face the direction fixing groove are formed at a position where the front surface of the mounting plate is disposed in the opposite direction to the guide surface. It has a measuring direction adjusting pin that enters the direction fixing groove from the first and second position fixing grooves, the measuring direction fixing pin has a permanent magnet built in, and the direction fixing groove is a metal that responds to magnetic force It is formed of a material and is equipped with a coupling pipe that allows entry of the measuring direction adjusting pin.

According to the portable angle measuring device according to the present invention, it supports the measurement of the angle even in a spaced state and provides an advantage of improving convenience.

1 is a perspective view showing a portable angle measuring device according to the present invention,
Figure 2 is an enlarged perspective view showing an enlarged excerpt of the slider portion of Figure 1 of Figure 1,
3 is an exploded perspective view showing the base plate and the measuring plate of FIG. 1 separately,
Figure 4 is a block diagram showing the control system of the portable angle measuring device of Figure 1,
5 is a side view showing a state of measuring the squareness by the portable angle measuring device of Figure 1,
6 is a side view showing a state of measuring a 45-degree angle by the portable angle measuring device of FIG. 1,
7 is a side view showing a state in which the balance is measured by the portable angle meter of FIG. 1.

Hereinafter, a portable angle measuring device according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing a portable angle measuring device according to the present invention, FIG. 2 is an enlarged perspective view showing an enlarged excerpt of the slider portion of FIG. 1, and FIG. 3 is a base plate and a measurement plate of FIG. 4 is a block diagram showing a control system of the portable angle measuring device of FIG. 1.

1 to 4, the portable angle measuring device 100 according to the present invention includes a main body 110, a first distance measuring module 151, a second distance measuring module 152, and a control module 170 do.

The main body 110 is rotatably coupled to each other through the central hinge axis 141 so that the contact surface 120a and the guide surface 130a can maintain a mutually perpendicular state, the base plate 120 and the measuring plate 130 It is made.

The base plate 120 has a rectangular plate shape and is narrower than the width of the base portion 121 extending along the first direction in the longitudinal direction and the base portion 121 along the first direction at the center of one end of the base portion 121. It has a structure having a central contact piece 123 protruding in width.

The horizontally extended bottom surface of the base plate 120 becomes a contact surface 120a, and a first level meter 127 for measuring horizontality is mounted on the upper surface. The first level meter 127 may be formed of a conventional structure in which the bubbles 128 move according to a gradient change in the filling solution filled therein.

The central hinge axis 141 is coupled to the central contact piece 123 of the base plate 120 in a direction perpendicular to the first direction. The central hinge shaft 141 is configured to be coupled to the central contact piece 123 by screwing.

In addition, the main fixing hole 126 for fixing the measuring plate 130 at a desired angle to the central hinge axis 141 and the central hinge shaft 141 of the base plate 120 has a central hinge shaft 141 ) Along the direction.

The measurement plate 130 is formed on the central adhesion piece 123 of the base plate 120 so that it can be supported in an upright state along a second direction perpendicular to the first direction, which is an extension direction of the base plate 120. It is rotatably coupled through the central hinge axis 141 and has a structure in which the guide surface 130 is flatly extended along a direction perpendicular to the extending direction of the contact surface 120a of the base plate 120.

The measuring plate 130 is formed in the shape of a square plate, but is drawn inwardly from the side at a position orthogonal to the guide surface 130a along the extension direction of the central hinge axis 141 so that the slider 161 described later is mounted. A guide portion 131 having a vertical incision groove 132 and a side protruding apart from each other along the extension direction of the guide portion 131 so as to be in close contact with both sides of the central contact piece 123 at one end of the guide portion 131 It has a structure having a contact piece 133. When the measurement plate 130 is vertically upright with respect to the base plate 120, the surface exposed to extend vertically to the left becomes the guide surface 130a, and the horizontality is measured on the surface exposed to extend vertically to the right. A second level meter 137 for mounting is mounted. The second level meter 137 may also be applied to one formed of a conventional structure in which the bubbles 138 move in accordance with a change in slope within the filling solution filled therein.

On the side contact piece 133, a pivoting guide hole 134 through which the central hinge shaft 141 is inserted is formed to penetrate through the extension direction of the central hinge shaft 141. The base plate 120 is measured by the central hinge axis 141 inserted through the rotation guide hole 134 formed in each of the side contact pieces 133 in the center contact piece 123 by such a structure. ).

In addition, the side contact piece 133 is spaced apart from the central hinge axis 141 to prevent rotation of the measurement plate 130 in a state where the measurement plate 130 is vertically upright to the base plate 120. ), A vertical fixing hole 136a is formed to penetrate through a position opposite to the main fixing hole 126. In addition, the side contact piece 133, the base plate 120 so as to prevent the rotation of the measuring plate 130 in a state in which the measuring plate 130 is inclined at an angle of 45 degrees in the outer direction away from the base plate 120 A diagonal fixing hole 136b is formed to penetrate the main fixing hole 126 formed in the opposite position. In addition, the main fixing hole formed in the base plate 120 in the side contact piece 133 to prevent the measurement plate 130 from rotating in a state in which the measurement plate 130 is horizontally and horizontally arranged with respect to the base plate 120. A horizontal fixing hole 136c is formed to penetrate through the position opposite to 126.

The main fixing pin 145 inserts and separates the main fixing hole 126, which maintains an opposite state with any one of the vertical fixing hole 136a, the diagonal fixing hole 136b, and the horizontal fixing hole 136c, through a state of penetration. It is formed so as to be fixed and unfixed the measurement plate 130 with respect to the base plate 120.

On the other hand, the first and second distance measuring modules 151 and 152, which will be described later, are mounted on the measuring plate 120, but a mounting module that supports rotation so as to be able to switch the ascending and descending directions in the vertical direction by 180 degrees ( 160).

The mounting module 160 includes a sliding guide rail 162, a slider 161, first and second guide plates 163, 164, a circular rod 165, a mounting plate 166, and a measuring direction adjusting pin 168. ).

The sliding guide rail 162 extends vertically along the vertical cutting surface 132a of the vertical cutting groove 132 formed to be drawn inwardly on the side surface of the measuring plate 130, but the cross section is formed in a dovetail shape. That is, the sliding guide rail 162 is formed in a triangular cross-sectional shape that expands in width as it moves away from the vertical cutting surface 132a.

The sliding guide rail 162 is formed of a metal material that is sensitive to magnetic force, for example, iron material.

The slider 161 is coupled to the sliding guide rail 162 to be vertically movable in a restrained state. The slider 161 is formed in a square plate shape, but is formed to correspond to the shape of a duff tail on a constraining surface opposite to the vertical incision surface 132a and is inserted into the sliding guide rail 162 to constrain the groove to allow vertical sliding. 161a) is formed. The slider 161 is provided with a permanent magnet 161b so that the sliding guide rail 162 and the magnetic force can be maintained. In this case, if the slider 161 is to adjust the vertical placement position, the user may move the slider 161 to a desired position while applying a force capable of overcoming the magnetic force.

The first and second guide plates 163 and 164 extend away from the slider 161 along a direction parallel to the central hinge axis 141 on the opposite side of the restraining surface of the slider 161, but are mounted to be spaced apart from each other vertically. It is.

In addition, the first guide plate 163 has a first position fixing hole which is penetrated to face the direction fixing groove 166b, which will be described later, at a position where the front surface of the mounting plate 166, which will be described later, is disposed parallel to the guide surface 130a. A second position fixing hole 163b penetrated opposite to the direction fixing groove 166b is formed at a position where the front surface of the mounting plate 166 is disposed in the opposite direction to the guide surface 130a. .

The circular rod 165 is installed to extend vertically so that the mounting plate 166 to be described later can be supported and rotated between the first and second guide plates 163 and 164.

The mounting plate 166 is drawn downwardly at a position spaced apart from the vertical support hole 166a through which the circular rod 165 is inserted vertically and the vertical support hole 166a into which the circular rod 165 is inserted. The fixing groove 166b is formed.

First and second distance measuring modules 151 and 152 are mounted on the front surface of the mounting plate 166.

The mounting plate 166 is supported in a rotatable state to a circular rod 165 through a vertical support hole 166a, and a direction fixing groove 166b from any one of the first and second positioning holes 163a and 163b ), The measurement direction of the mounting plate 166 can be adjusted by the measuring direction adjustment pin 168 entering either the front toward the guide surface 130a or the rear side opposite to the guide surface 130a.

Preferably, the direction fixing groove 166a is formed of a metal material that is sensitive to magnetic force and is equipped with a coupling pipe 167 having an insertion hole allowing entry of the measuring direction adjusting pin 168, and measuring direction adjusting pin 168 ), A permanent magnet is embedded. In this case, the fixing force of the mounting plate 166 is maintained by magnetic coupling between the measuring direction adjusting pin 168 and the coupling tube 167.

The first distance measuring module 151 is mounted on the front surface of the mounting plate 166, the first light source 151a and the first light source 151a that emit the first laser light along a direction orthogonal to the guide surface 130a. ), And receives light reflected from the measurement target surface, and has a first light source 151a and a first light detector 151b arranged at a horizontal position, that is, at the same height.

The second distance measuring module 152 is mounted on the front surface of the mounting plate 166 and emits a second laser light along a direction orthogonal to the guide surface 130a, but is spaced vertically apart from the first light source 151a. The second light source 152a mounted at the position and the light emitted from the second light source 152a and reflected from the measurement target surface are received and the same position as the second light source 152a, that is, the same as the second light source 152a It is a second photodetector 152b arrayed in height.

The control module 170 is mounted on the main body 110, and when it is selected as the measurement mode through the operation unit 171, controls the first and second light sources 151a and 152a to emit light. 2 Calculates the distance from the signal output from the photodetectors 151b and 152b to the measuring surface opposite to the first distance measuring module 151 and the second distance measuring module 152, and displays the calculated result information It is processed to be displayed on the display unit 175 in a manner.

The control module 170 includes an operation unit 171 and a calculation unit 173.

The operation unit 171 is capable of manipulating and canceling the measurement mode, and may be formed as a touch screen that also displays display information.

When the signal set in the measurement mode is received from the operation unit 171, the calculation unit 173 drives the first light source 151a, and is subject to measurement after light emission of the first light source 151a from the first light emitter 151b. The first distance to the measurement target surface is calculated using the time information until the light reflected by the surface is received, the second light source 152a is subsequently driven, and the second light source from the second light emitter 152b. The second distance to the measurement target surface is calculated by using time information until light reflected by the measurement target surface is received after light emission of (151a). Thereafter, the calculation unit 173 displays the result value obtained by calculating the difference between the first distance and the second distance on the display unit 175. Accordingly, as shown in FIG. 5, the measurement plate 130 is fixed in a vertical upright state in a state where the contact surface 120a of the base plate 120 is brought into contact with the reference surface 10, and the first and second surfaces are fixed to the front surface. When the measurement mode is selected in a state in which the distance measurement modules 151 and 152 are arranged so that the direction is fixed, the calculation unit 173 is the first measurement target surface facing the guide surface 130a of the measurement plate 130 ( 20) The result as to whether the reference surface 10 is at a right angle is displayed on the display unit 175 as the distance difference value described above, and the user grasps that the value displayed on the display unit 175 is a right angle when the value is zero (0) And, if it is not zero (0), it can be understood that it is not a right angle state.

Likewise, in FIG. 5, in order to measure the angle between the second measurement target surface 30 and the reference surface 10 opposite to the first measurement target surface 20, the mounting plate 166 is rotated 180 degrees. Adjust and fix and then perform the measurement in the manner described above.

In addition, even when measuring a 45-degree angle or a horizontal state, as shown in FIGS. 6 and 7, in a state where the support angle of the measurement plate 130 with respect to the base plate 120 is adjusted and fixed to be 45 or horizontal Just take the measurements.

On the other hand, if you want to visually check the perpendicularity by contact without using light, the contact surface 120a and the guide surface 130a, respectively, in a state where the measurement plate 130 is vertically fixed with respect to the base plate 120, respectively. Contact the reference surface and the measurement target surface to visually check whether the gap is open.

According to the portable angle measuring device described above, it supports the measurement of the angle even in a spaced state and provides an advantage of improving convenience.

110: main body 120: base plate
130: measuring plate 151: first distance measuring module
152: second distance measurement module 170: control module

Claims (4)

delete delete delete The horizontal contact surface is coupled to the base plate so that it can be supported in an upright state along a second direction perpendicular to the first direction, which is a longitudinal direction and a base plate extending along the first direction, which is the longitudinal direction. A body provided with a measuring plate having a guide surface extending horizontally along a direction perpendicular to the extending direction of the contact surface in an upright state on the base plate;
The first light source is mounted on the measurement plate of the main body and emits a first laser light along a direction orthogonal to the guide surface, and receives light reflected from the measurement target surface by being emitted from the first light source and receiving the first light. A first distance measuring module having a first light detector arranged at the same height as the light source;
The second light source is mounted on the measurement plate of the main body and emits a second laser light along a direction orthogonal to the guide surface, but is emitted from a second light source and a second light source mounted at a position spaced apart vertically from the first light source. A second distance measuring module having a second light detector arranged at the same height as the second light source and receiving light reflected from the measurement target surface;
When the measurement mode is selected, the first and second laser lights are controlled to be emitted from the first and second light sources, and the first distance measuring module and the second distance are from signals output from the first and second light detectors. And a control module for calculating a distance to a measurement target surface facing each measurement module and displaying the calculation result information on a display unit in a set display method.
The main body is a central contact piece protruding along the first direction from the center of one end of the base plate, and a side contact piece protruding along the extending direction of the measuring plate so as to be in close contact with both sides of the central contact piece at one end of the measuring plate. It is provided, and the measurement plate can be rotated relative to the base plate by a central hinge axis inserted through each of the side contact pieces in the center contact piece,
A vertical fixing hole formed in the side contact piece at a position spaced apart from the central hinge axis to prevent rotation of the measuring plate in a state where the measuring plate is vertically upright to the base plate, and the vertical fixing hole in the base plate It is provided with a main fixing hole formed to be opposed to a certain depth, and provided with the vertical fixing hole and the main fixing pin inserted in the main fixing hole,
A diagonal fixing hole in which the main fixing pin can be inserted is formed in the side contact piece on a position facing the main fixing hole in a state where the measuring plate is inclined at a 45 degree angle with respect to the base plate,
The measuring plate has a vertical incision groove extending vertically along a vertical incision plane drawn inwardly at the side, and the vertical incision surface is a dovetail-shaped sliding extending in a metal material that is sensitive to magnetic force in the vertical direction. A guide rail is formed, coupled to the sliding guide rail so as to be vertically movable in a restrained state, and a slider having a permanent magnet built therein, and first and second spaced apart vertically spaced apart from the slider to extend away from the slider. A guide plate, a circular rod vertically installed between the first and second guide plates, and a mounting plate rotatably mounted on the circular rod and equipped with the first and second distance measuring modules on the front surface, and the mounting plate The plate has a direction fixing groove formed to be drawn vertically at a position spaced apart from the circular rod, and the first guide plate has the direction fixing groove at a position where the front surface of the mounting plate is disposed parallel to the guide surface. A first position fixing hole penetrated opposite to and a second position fixing hole penetrated opposite the direction fixing groove is formed at a position where the front surface of the mounting plate is disposed in the opposite direction to the guide surface, and the It has a measuring direction adjustment pin that enters the direction fixing groove from the first and second position fixing grooves, and a permanent magnet is embedded in the measuring direction adjusting pin, and the direction fixing groove is formed of a metal material that responds to magnetic force. It is a portable angle measuring device characterized in that the coupling pipe to allow the entry of the measuring direction adjustment pin is mounted.

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