KR20090058961A - Laser horizontality-perpendicularity measurement uring device - Google Patents

Abstract

A laser horizontal-vertical measuring device is provided to set the accurate reference line of a vertical line by rotating the body part minutely. A laser horizontal-vertical measuring device comprises a tripod(100) and a body(200) settled on the top of the tripod. The body includes a laser projecting unit irradiating horizontal and vertical lines outside, a holding unit supporting the laser projecting unit, a cover body(240) covering the holding unit, and a cover(250) covering the front side of the cover body. The laser horizontal-vertical measuring device is connected to a cylindrical member.

Description

LASER HORIZONTALITY-PERPENDICULARITY MEASUREMENT URING DEVICE}

The present invention relates to a laser horizontal and vertical measuring device for directing the horizontal and vertical line at a long distance in the construction site, etc., while providing a configuration for easy assembly of the laser generating unit and fine rotation adjustment of the body portion, and tolerate the allowable range The present invention relates to a laser horizontal and vertical measuring device for providing an operator with an easy calibration operation of the measuring device by shorting the laser irradiation state of the ON state of the laser generating unit when the measuring device is tilted away.

In the construction of buildings, the construction of these structures so as to be horizontal and vertical with respect to the direction of gravity is one of the important conditions in the performance and durability of these structures.

Therefore, in the fields of architecture and civil engineering, accurate setting of horizontal and vertical positions (reference lines) in space is one of the important tasks.

As such, the work method adopted as a conventional method for setting the horizontal and vertical standards applied to the construction work of the building is to vertically hang a long line attached to the ceiling when measuring vertical or setting a vertical point for vertical construction of the pillar. To measure the accuracy or set the vertical point, and for horizontal construction of the floor, follow the working method of setting the horizontal measurement or horizontal point using a horizontal ruler.

This conventional vertical and horizontal setting method is a method of measuring by hanging the rope artificially on the ceiling, the work is difficult and dangerous, as well as difficult to expect accurate setting due to the swinging of the wire and also to measure only from the top to the bottom In addition to the inconvenience, there are problems such as lack of speed and accuracy to work from place to place from time to time.

Alternatively, measure the horizontal standard as the central position of the bubble formed in the glass tube in which the liquid is enclosed, and place it in a fixed position using a thread or steel wire in accordance with the horizontal plane, and then place the brick on the horizontal plane and the horizontal line. In order to build a wall, or to build a parallel structure of wood, and to establish a vertical line, a procedure such as hanging a weight on a thread, etc., holding a vertical standard, and setting up a pillar, etc., is needed. There are a horizontal indicator (level meter) for measuring the bubble position in the liquid tube with the naked eye to measure the horizontality, and a vertical indicator for hanging the weight on the thread as described above to form an additional vertical line with the thread by gravity to measure the verticality.

Therefore, in order to perform the horizontal and vertical work required in the construction, repair and other work of various structures such as welding of large structures in existing construction, civil engineering, shipbuilding, large sculptures and works of art, we use thread, weight, level gauge, surveying instrument, etc. Since it takes a considerable amount of time and work according to the installation and location change of the device, it is possible to see the horizontal level microscopically at every location.However, when the work target is huge, macroscopic observation is difficult, so horizontal work and vertical work are required. There is an issue that is followed by many difficulties.

A laser display device is disclosed as one of means for solving such a problem, and the like, which typically displays a laser dot instead of displaying a laser beam line. It is difficult and is acting as a factor to lower productivity in the workplace.

As an example, a device for setting horizontal and vertical lines using a laser beam may be a horizontal and vertical line indicator using a laser.

In the case of the prior art, "Gyro Horizon having a center fixed to the upper portion of the enclosure body capable of rotational flow in each direction, the weight weight means for pendulum movement based on the center of the gyro horizon, the weight tracking Horizontal and vertical laser engine coupled with the stage and irradiating the laser beam in the horizontal and vertical direction, combined with the weight means, and outputs the laser beam radiated from the horizontal and vertical laser engine in the same plane as the horizontal or vertical plane A horizontal and vertical laser beam conversion means, and a vibration preventing portion for maintaining the pendulum movement of the weight means quickly in a stable vertical position.

Vertical and horizontal setting can be easily performed using the above-described prior art, but when moving the device to another place or performing a position change, etc., it is provided in the horizontal and vertical line indicators according to the prior art. As the weight is added to the pendulum movement, the impact with the internal configuration cannot be avoided, so it is necessary to be careful in use and shorten the service life due to the occurrence of component breakage due to the impact of internal components, etc. There is a problem that an increase in cost and the like is inevitable.

In addition, when the horizontal and vertical line indicator according to the known technology is used in combination with the trivet, when the horizontal and vertical lines are set in a long distance, the movement range of the horizontal and vertical lines displayed on the object is extensive, even when the fine movement is made, and thus fine adjustment is inevitable. There is a problem.

Therefore, the present invention has been made to solve the above problems, in the process of setting the various horizontal, vertical reference line using the laser horizontal vertical measuring device, to prevent the mutual transmission of the impact force between the internal parts of the measuring device during movement. The purpose is to improve the durability of the product and to extend its service life.

In addition, the present invention, by providing a configuration capable of finely rotating the body portion of the device to enable accurate setting work by fine adjustment when setting the reference line of the far horizontal, vertical line by the measuring device, thereby improving the accuracy of the work It has a different purpose.

In addition, the present invention, the irradiating unit is provided with a laser irradiation lamp so that the laser beam is irradiated, and the fixing portion is fixed to the irradiating unit, etc. in the configuration is formed integrally as in the prior art, so that each of the laser irradiation unit can be separated and separated It is another object to maintain the maintenance of the measuring device by the efficient management of the irradiation lamp and the exchange of individual parts.

The present invention for achieving the above object,

Trivet section 100,

The laser irradiation unit 210 and 220 interlocked with the cylindrical body 221 provided therein and allow horizontal and vertical lines to be irradiated to the outside, the support unit 230 supporting the laser irradiation unit 210 and 220, and the support unit 230. The body portion 200 is composed of a cover body portion 240 to cover, and a cover 250 to cover the front side of the cover body portion 240 is characterized in that the trivet portion 100 is seated upward Provides a laser horizontal vertical measuring device.

According to the present invention, in the process of setting various horizontal and vertical reference lines using the laser horizontal vertical measuring device, to prevent the impact force between the internal parts of the measuring device to be transferred to each other during movement, improving the durability of the product and the service life Has an extended effect.

In addition, the present invention, by providing a configuration capable of finely rotating the body portion of the device to enable accurate setting work by fine adjustment when setting the reference line of the far horizontal, vertical line by the measuring device, thereby improving the accuracy of the work It has an effect that can be made.

In addition, the present invention, the irradiating unit is provided with a laser irradiation lamp so that the laser beam is irradiated, and the fixing portion is fixed to the irradiating unit, etc. in the configuration is formed integrally as in the prior art, so that each of the laser irradiation unit can be separated and separated Efficient management of the irradiation lamp and the exchange of individual parts make the measuring device very easy to maintain and maintain.

The present invention as shown in the accompanying drawings,

A trigeminal part, a laser irradiation part which interlocks with a weight provided in the inside and irradiates horizontal and vertical lines to the outside, a support part supporting the laser irradiation part, a cover body part covering the support part, and an upper surface of the cover body part And a body part including a cover part covering the front side, and the laser horizontal vertical measuring device configured to be seated above the trivet part.

As shown in the drawing, the trivet part has a circular upper rim part 110, a triangular type leg part 120 extending downward, and an extension part 130 which can extend from a lower end of the leg part 120. It consists of.

Wherein the upper edge portion 110 is a place where the gear to be described later to be seated, to form a step 111 on the lower peripheral side of the upper edge portion 110.

On the other hand, by forming the long hole 112 toward the inner circumferential surface side of the upper border portion 110 to achieve a state in which the screw rod 141 constituting one element of the fine adjustment unit 140 protrudes toward the inner circumferential surface side through the long hole 112.

The screw rod 141 is geared to the gear portion to be described later to rotate the gear portion in accordance with the adjustment of the fine adjustment unit 140.

As described above, the fine adjustment unit 140 may finely adjust the left and right sides of the body unit 200 to enable fine adjustment in a state in which light emitted from the laser irradiation unit of the body unit 200 is formed on a long distance. It is provided in a configuration to make.

As shown in the drawing, the fine adjustment unit 140 may be provided on the outer circumferential surface of the upper edge part 110, and the handle part 142 may be provided on both sides, but may be interlocked with the handle part 142. The screw rod 141 is provided, so that the screw rod 141 is interlocked when the handle of either side of the handle 142 is turned.

As described above, the screw rod 141 can be visually confirmed through the long hole 112 formed as the inner inner circumferential surface of the upper edge portion 110, it is preferable to protrude slightly than the inner circumferential surface.

On the other hand, the toothed portion is seated on the stepped portion 111 provided at the lower end of the inner circumferential surface of the upper edge portion 110, the toothed portion is composed of the first gear portion 150 and the second gear portion 160.

The first gear unit 150 is seated on the step 111 and the second gear unit 160 is seated on the upper surface of the first gear unit 150 and has a circular ring shape.

Here, the gear 151 is formed on the outer peripheral surface of the lower end of the first gear 150 to allow the screw rod 141 of the fine adjustment unit 140 to be gear-coupled.

In addition, the second gear 150 is seated on the top surface of the first gear 150, the interlocking rotation, the interlocking rotation action is the second gear 150 and the first by the weight of the body portion 200 It was to be made by the friction force between the teeth (150).

Unlike the first gear unit 150, the second gear unit 160 forms a gear 161 on the inner circumferential surface side thereof, such that the gears are coupled to the gears provided on the lower end side of the body 200 to be described later. In addition to the fine adjustment by the manual operation of the fine adjustment unit 140, it was possible to remote fine adjustment by the remote control.

The leg portion 120 is formed from each point divided into the upper edge portion 110, and each of the leg portion 120 is provided with an extension portion 130, the extension portion 130 It is in contact with the ground and adjusts the horizontal state of the measuring device.

The extension part 130, which serves as described above, has a female thread formed on an inner circumferential surface so as to be engaged with the screw portion 121 protruding from the lower end of the leg 120, and forms a rubber cover covering the outer surface thereof. It is desirable to be able to act as a buffer when contacted.

Reference numeral 170 is a graduation ring marked with a scale on the outer circumferential surface so that the distance of the left and right rotation can be confirmed.

The body portion 200 is configured to be seated and coupled to the upper surface of the second tooth portion 160 of the tooth portion seated above the upper edge portion 110 in the trivet portion 100 described above.

As shown in the accompanying drawings, the body portion 200 includes a laser irradiation unit 210 and 220 having a laser lamp, a support unit 230 supporting the laser irradiation unit 210 and 220, and the laser irradiation unit 210 and 220 and a support unit. The cover body portion 240 to cover the 230, and the cover 250 to cover the front portion of the cover body portion 240, so as to limit the inclination angle of the laser irradiation section (210, 220) within the allowable range The tilt angle adjusting unit 260 and a remote control unit 270 for remotely controlling the support 230 to be rotated left and right finely.

The laser irradiation unit 210, 220 is divided into a horizontal laser irradiation unit 210 and a vertical laser irradiation unit 220, a plurality of horizontal laser irradiation unit 210 is provided on the upper end side, the vertical laser irradiation unit 220 is a receiving laser irradiation unit 210 is attached to the outer circumferential surface of the cylindrical body 221 connected downward.

The horizontal laser irradiation unit 210 is divided into 360 degrees as shown in the drawing is provided with at least four arc-like spaced intervals, the support body 211 is coupled above the cylindrical body 221, the support 211 Ramp coupling portion 212 is provided to enable four separate coupling and separation respectively on the upper surface.

The lamp coupling portion 212 forms a right triangle, the front of the round hole (212a), the coupling piece 212b is extended to both ends of the lower end, and the upper surface of the support 211 It is to be screwed, the laser lamp (L) is fixed to the hole (212a), it is fixed so that the irradiation form of the laser line is irradiated on the horizontal line.

Such lamp coupling portion 212 is fixed to the spaced at four equal intervals to the upper surface of the support 221 as shown in the drawing, each of the lamp coupling portion 212 can be combined and fastened alone, such as maintenance work This can be easy.

Meanwhile, the cylindrical body 221 is coupled to the lower side of the horizontal laser irradiation unit 210, that is, the lower end of the support 211, thereby forming a vertical laser irradiation unit 220. The lamp is coupled to the outer circumferential surface of the cylindrical body 221 as shown in the drawing. The unit 222 is coupled, and the laser lamp L is attached to and fixed to the lamp coupling unit 222, and the laser lamp L is coupled and fixed so that the direction of the laser line can be irradiated on the horizontal line.

In addition, the other surface of the cylindrical body 221 constituting the vertical laser irradiation unit 220, that is, the other side to which the lamp coupling unit 222 is coupled, it is preferable to include an inclination angle adjusting unit 260.

The tilt angle adjusting unit 260 is configured such that when the horizontal and vertical laser irradiation units 210 and 220 are excessively inclined, the laser lamp L lighting states of the horizontal and vertical laser irradiation units 210 and 220 are shorted according to their inclination degree. .

That is, as shown in the figure, the cylindrical body 221 is provided with a ring-shaped ring connecting portion 261 to one side, and the protruding terminal 262 which can be located in the center of the ring connecting portion 261 of the support portion 230 It is connected to the printed circuit board on the upper side of the lower side and protrudes in a vertical line.

Accordingly, the horizontal and vertical laser irradiation parts 210 and 220 of the body part 200 are inclined, and the ring connection part 261 and the protruding terminal 262 of the cylindrical body 221 are grounded to indicate an excessive tilting state of the measuring device. In this case, the horizontal and vertical laser irradiation units 210 and 220 receiving a signal by the connection between the ring connecting portion 261 and the protruding terminal 262 are short-circuited. The laser lamp L in the lit state blinks.

Here, the horizontal and vertical laser irradiation unit (210, 220) should be able to free flow.

To this end, there is provided a ring-shaped connecting body 223 turned to the outer peripheral surface of the upper end of the vertical laser irradiation unit 220, the inner peripheral surface of the connecting body 223 and the cylindrical body 221 of the vertical laser irradiation unit 220 Spaced apart from each other, the outer circumferential surface of the connector 223 and the inner circumferential surface of the support portion 230 to be described later to maintain the state to be able to move back and forth and left and right of the laser irradiation unit (210,220).

In addition, such that the front and rear left and right flow phenomenon is made smoothly, a connecting shaft 231a for connecting between the upper end of the upper support portion 231 of the connector 223 and the support 230 is provided with the connector 223 ) Is rotated around the connecting shaft 231a, and the second connecting shaft 231b for connecting between the connecting member 223 and the cylindrical body 221 is arranged, and the connecting shaft 231a It is preferable that the second connecting shaft 231b is orthogonal so that the vertical flow between the front, rear, left, and right of the laser irradiation units 210 and 220 proceeds smoothly.

On the other hand, the second gear portion (150, 160) of the gears (150, 160) that the support portion 230 for supporting the horizontal, vertical laser irradiation unit 210 is seated on the upper edge portion 110, the stepped portion 111 of the tricot part (100) 160) It is seated on the upper surface.

The support 230 is composed of an upper support 231 to be spaced apart and maintained in the interior of the connector 223 above, and a lower support 233 spaced apart by a support rod 232 connected to the lower end thereof. .

The upper support portion 231 is penetrated in the center in a circular shape so that the connecting body 223 can be joined to form a rectangular shape, while the lower support portion 233 is the lower end of the cylindrical body 221 of the vertical laser irradiation unit 220 The center penetrates in a circular shape so as to be integrated and forms a circular shape as a whole, so that the periphery of the bottom surface thereof is in contact with the top surface of the second gear 160.

Here, the insertion hole 233a is formed to extend further to the lower end side of the lower support portion 233, so as to be inserted into the center side of the second gear portion 160 to form an internal thread on the inner circumferential surface of the insertion hole 233a, Screwed to the disk-shaped fastening member 234 is fastened to the female thread.

Since the upper surface of the fastening member 234 is in contact with the lower surface of the upper edge portion 110 in the trivet part 100, the fastening member 234 is fastened between the trivet part 100 and the body part 200 by the fastening member 234. The state is achieved.

On the other hand, the upper surface of the lower support portion 233 is provided with a cam portion 270 for suppressing or releasing the rocking phenomenon of the cylindrical body 221 of the vertical laser irradiation portion 220, and the second gear 160 It is preferable to have a remote microadjustment unit 280 to be coupled to the tooth 161 formed on the inner circumferential surface of the) to allow fine adjustment of the body 200 on a long distance.

As described above, the cam part 270 is provided as a means for suppressing free flow of the cylindrical body 221 of the vertical laser irradiation part 220.

When the cam unit 270 is moved to another place after the measuring operation of the measuring device is completed at one point, the laser irradiation unit 210 or 220 flows in the center of the upper support unit 231 of the support unit 230 during the movement. And there is a risk of being damaged and impact due to the impact of the surrounding parts, such as malfunction, it is expected to play a role of fixing the cylindrical body 221 not to flow by the cam portion 270 when moving to another work place. do.

As shown in the drawing, the cam portion 270 is rotated by the motor 271 and the motor 271 and includes a reduction gear 272 including a plurality of gears, and the final gear and the reduction gear 272. The cam 273 is interlocked with the shaft to be built up.

As the cam 273 is driven by the motor 271, the gear of the reduction unit 272 is rotated so that the cam 273 interlocked with the cam 273 is rotated so as to be biased while pushing the cylindrical body 221. By doing so, the cylindrical body 221 can be maintained in a fixed state.

In addition, in order to release the abutment state between the cam 273 and the cylindrical body 221, the cylindrical body 221 is returned to the free rotation state by restoring the cam 273 to its original state by re-drive of the motor 271. do.

The circulation state of the driving and stopping operation of the motor 271 is selected and adjusted by the operator, so that a switch (not shown in the figure) or the like is adjusted at an appropriate position of the body part 200 or from the outside. It can be controlled by the remote control control method of.

The control method adopted in the above-described remote control method can adopt the conventional technical contents.

Reference numeral 274 denotes a frame for fixedly supporting the cam portion 270.

As described above, the remote fine adjustment unit 280 is gear-coupled with the gear 161 of the inner peripheral surface of the second gear unit 160 located at the lower side of the lower support unit 233 in the support unit 230 so that the body 200 is interlocked. It can be rotated.

Remote fine adjustment unit 280 for this configuration, as shown in the figure, constitutes a motor 281 which is forward and reverse controlled by a remote controller (not shown) from the outside, and a gear 282 connected to the shaft of the motor 281 The gear 282 is formed to protrude toward the outer circumferential surface side of the insertion hole 233a of the lower support part 233.

The gear 282 of the remote fine adjustment unit 280 configured as described above is fixed to protrude to the outer circumferential surface of the insertion hole 233a, and the protruding gear 282 is formed as the inner circumferential surface of the second gear 160. The gear 161 is configured to be coupled to the gear bar. When the motor 281 is forward-reversely driven by a controller (not shown) that receives a signal operated by a remote controller from the outside, the body part 200 is driven according to the driving. It is finely rotated left and right, so that the operator can display the laser line on a long distance in accordance with the laser irradiation from the horizontal, vertical laser irradiation unit (210, 220) in the desired direction.

The cover body part 240 covers the entire body part 200 and is fitted to the upper edge part 110, and the front side of the cover body part 240 has an open shape.

The cover body portion 240 is provided with a separate cover 250 on the front surface of the laser beam (L) of the horizontal laser irradiation unit 210 and the vertical laser irradiation unit 220 is transmitted through which the light can be transmitted. A window is formed.

When displaying and measuring horizontal and vertical lines by laser irradiation in a building site using the measuring device according to the above configuration, the operator adjusts the leg part 120 and the extension part 130 of the trivet part 100 and the measuring device and The level between the grounds is set correctly.

Then, the first gear 150 described above with the body portion 200 adjusted by the fine adjustment unit 140 while the power switch not shown in the drawing is turned on to display horizontal and vertical lines as desired points. By rotating the micro-angles to the left and right according to the gear coupling adjustment with, the horizontal and vertical lines displayed on the long distance are changed and displayed.

On the other hand, the gear 282 is rotated in the same manner as the rotation ratio of the motor 281 by forward and backward driving the motor 281 of the remote fine adjustment unit 280 using the remote control in a state in which the operator is separated from the measuring device according to the working state Is interlocked with the gear 161 formed on the inner circumferential surface of the second gear unit 160 so as to be interlocked, and the left and right fine adjustment of the body part 200 is possible.

When the measurement at one point is completed, the operator should move the measuring device to the next work place. The motor 271 of the cam unit 270 is driven to rotate the cam 273 so that the vertical laser irradiation unit at the laser irradiation unit ( In contact with the outer circumferential surface of the 220-side cylindrical body 221, the flow of the cylindrical body 221 during the movement can be suppressed to completely eliminate the phenomenon such as breakage of the parts due to internal impact.

1 is a perspective view in a coupled state showing the present invention

2 is a view showing a state in which the cover body and the cover removed in the present invention by FIG.

3 is a view showing only the tricot in the configuration of the present invention

Figure 4 is a view showing the separation of the first and second gears respectively seated on the upper edge of the tricot part;

5 is a view showing only the horizontal laser irradiation unit and the vertical laser irradiation unit in the body portion adopted in the present invention

Figure 6 is a view showing a support in the present invention

FIG. 7 is a bottom perspective view of FIG. 6, illustrating a mounting state of a remote fine adjustment unit; FIG.

8 is a view showing a cam portion in the present invention

9 is an enlarged separated view of the horizontal laser irradiation unit in the present invention;

10 is an enlarged separated view of the vertical laser irradiation unit in the present invention;

※ Brief description of the main symbols in the drawings

100; Tricot 110; Upper border

111; Step 112; Longevity

120; Leg 121; Screw

130; Extension 140; Fine adjustment unit

141; Threaded rod 150; First gear

151; Gearbox 160; Second gear

161; Gear 170; Tick mark ring

200; Body 210; Horizontal laser irradiation unit

211; Support 212; Lamp coupling part

212a; Hole 212b; Joining piece

220; Vertical laser irradiation unit 221; Cylindrical body

222; Lamp coupling portion 223; Connection

230; Support 231; Upper support

231a; Connecting shaft 231b; Second connecting shaft

232; Support rod 233; Lower support

233a; Insertion hole 234; Fastening member

240; A cover body 250; cover

260; Tilt angle adjusting unit 261; Ring connection

262; Protruding terminal 270; Cam

271; Motor 272; Reduction gear

273; Cam 274; frame

280; Remote fine tuner 281; motor

282; Gear

Claims (16)

Trivet section 100, Covers the laser irradiation unit (210, 220), the support unit 230 for supporting the laser irradiation unit (210, 220), and the support unit 230, and interlocked with the cylindrical body 221 provided therein, horizontal and vertical lines are irradiated to the outside The body portion 200 is composed of a cover body portion 240 and the cover 250 covering the front side of the cover body portion 240 is characterized in that the trituration portion 100 is configured to be seated upwards Horizontal and vertical measuring device. The method of claim 1, The trivet part 100 is a circular upper edge portion 110, a tricycle type leg portion 120 extending downwards, and an extension portion 130 that can extend from the lower end of the leg portion 120 Laser horizontal vertical measuring device comprising the configured. The method of claim 2, The upper edge portion 110 forms a step 111 on the lower end of the inner circumferential surface, forms a long hole 112 on the inner circumferential surface, and is provided with handles 142 at both ends from one side of the upper edge portion 110, respectively. (142) the horizontal screw horizontal measurement device comprising a fine adjustment unit 140 is formed to protrude to the inner peripheral surface of the long hole 112 side is formed. The method of claim 3, A first gear 150 having a ring shape seated on the stepped 111 provided at a lower end of the inner circumferential surface of the upper edge part 110 and a second gear having a circular shape seated on an upper surface of the first gear 150. Laser horizontal vertical measurement apparatus comprising the parts 150 are sequentially seated, respectively. The method of claim 4, wherein Gear (151) is formed on the outer peripheral surface of the lower end of the first gear portion 150, the horizontal laser measuring device comprising a tooth coupling with the screw rod (141) of the fine adjustment unit 140. The method of claim 4, wherein The second gear unit 160 is a laser horizontal vertical measurement device comprising forming a gear (161) on the inner peripheral surface side. The method of claim 2, The extension portion 130 is a horizontal laser measuring device comprising a female screw formed on the inner circumferential surface to form a cover of a rubber material surrounding the outer surface to be coupled to the screw portion 121 protruding from the lower end of the leg portion 120. The method of claim 1, The laser irradiation unit 210, 220 is divided into a horizontal laser irradiation unit 210 and a vertical laser irradiation unit 220, a plurality of horizontal laser irradiation unit 210 is provided on the upper end side, the vertical laser irradiation unit 220 is a receiving laser irradiation unit (210) a laser horizontal and vertical measurement apparatus including being attached to the outer circumferential surface of the cylindrical body 221 connected downward. The method of claim 8, The horizontal laser irradiator 210 is divided into 360 ° and the support 211 is upwardly coupled to be provided at equal intervals in at least four places in at least four places, each of the four support can be individually coupled and separated on the upper surface of the support 211. The lamp coupling portion 212 of the right triangle is provided and the round hole 212a is drilled in the front of the lamp coupling portion 212 so that the laser lamp L is fixed so that the irradiation form of the laser line is irradiated on the horizontal line. And a coupling piece (212b) extending to both ends of the lower end of the lamp coupling part (212), so as to be screwed with the upper surface of the support (211). The method of claim 8, The vertical laser irradiation unit 220 is a cylindrical body 221 is coupled to the lower side of the horizontal laser irradiation unit 210, that is, the support 211, the lamp coupling portion 222 is coupled to the outer peripheral surface of the cylindrical body 221 is coupled to Laser lamp (L) is attached to the lamp coupling portion 222 is fixed to the horizontal laser measuring device comprising a fixed coupling so that the direction of the laser line can be irradiated on the horizontal line. The method of claim 1, The support 230 is connected between the upper prevention paper portion 231 and the lower support 233 by the support rod 232, the upper prevention paper portion 231 through the center of the ring-shaped connecting member 223 And connected to be freely rotated by the connecting shaft 231a, the insertion hole 233a is formed in the inner circumferential surface to the lower side of the lower support portion 233 protrudes to form the upper portion of the tricot 100 by the fastening member 234 Edge 110 is a horizontal laser measuring device comprising a step to be in contact with the bottom surface 111 stepped. The method according to claim 1 or 11, wherein The inner circumferential surface of the connecting body 223 and the cylindrical body 221 of the vertical laser irradiation unit 220 are maintained in a spaced apart state, and the upper end of the inner circumferential surface of the connecting body 223 and the cylindrical body 221 is connected to the second connecting shaft 231b. Laser horizontal vertical measurement apparatus comprising a) to be connected by free rotation. The method of claim 10, The cylindrical surface 221 of the vertical laser irradiation unit 220, that is, the other surface to which the lamp coupling portion 222 is coupled, the laser horizontal vertical measuring device comprising a tilt angle adjusting unit (260). The method of claim 13, The inclination-angle adjusting unit 260 has a ring-shaped ring connection part 261 that is round to one side of the cylindrical body 221, and has a protruding terminal 262 that can be positioned at the center of the ring connection part 261. Laser horizontal vertical measuring device comprising a protruding in a vertical line connected to the printed circuit board on the upper surface of the lower end side of the support 230 (200). The method according to claim 1 or 11, wherein Gears protruding to the outer circumferential surface of the lower support part 233 lower side insertion hole 233a to be coupled to the inner peripheral surface tooth 161 of the second gear part 160 located at the lower side of the lower support part 233 in the support part 230 ( 282, and a motor (281) for driving the gear (282) and a laser horizontal vertical measurement device including a remote fine adjustment unit (280) for remote control driving the motor (281) with a remote control. The method of claim 11, A cam portion composed of a motor 271 and a reduction gear 272 which is rotated by the motor 271 and includes a plurality of gears, and a cam 273 which is interlocked with the final gear shaft in the reduction gear 272. 270) comprising the upper surface of the lower support portion 233 to suppress or release the cylindrical body 221 oscillation phenomenon of the vertical laser irradiation unit 220.

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