KR101012399B1 - Laser horizontality-perpendicularity equipment - Google Patents

Abstract

The present invention,

In the state where the stepped surface provided with the power supply button and the adjustment button portion is formed between the top portion and the cylindrical body portion, a horizontal laser irradiation portion on the side of the top portion and the main body is provided with a plurality of vertical laser irradiation portion and the handle on the outer peripheral portion; ,

A ring-shaped rotating member coupled to a lower end of the main body to enable a rotational motion of the main body by a rotating lever which enables the main body to rotate;

At the bottom, characterized in that consisting of a pedestal is provided with a swivel means sequentially so that the front and rear left and right sliding of the selective rotating plate and the fixed plate and the main body in the state provided with the tricycle-shaped legs,

When using a laser horizontal vertical irradiation device when constructing a building, the horizontal vertical line setting adjustment can be easily performed at a long distance, and when the horizontal and vertical line setting work is performed in a high altitude site such as an exterior wall of a building, the pedestal is a building outer wall. By making it possible to be as close as possible to steel beams, the horizontal and vertical lines can be set at a high position. Therefore, the horizontal and vertical lines can be set regardless of the place, so that the work efficiency can be improved. It is related with the laser horizontal vertical irradiation apparatus which can be expected.

Laser horizontal vertical irradiation device, sliding means, main body, rotating member, pedestal.

Description

Laser horizontality-perpendicularity equipment

The present invention relates to a device for indicating a horizontal and vertical line on a construction site, and more specifically, it is possible to measure the accuracy of the vertical and horizontal using a laser and at the same time fine correction of the left and right up and down, and also to the wall surface of the construction site, etc. The present invention relates to a laser horizontal vertical irradiation apparatus which further improves its accuracy by providing sliding means of the main body so as to be in close contact with the maximum.

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 horizontal and vertical standards applied to building construction works is to hang a long additional line on the ceiling when measuring vertical or vertical points for vertical construction of shores. Measure the accuracy of the vertical or set the vertical point, and follow the work method of setting the horizontal measurement or the horizontal point using a horizontal ruler for horizontal construction of the floor.

Such a conventional vertical and horizontal setting method is a method of measuring by hanging the rope artificially on the ceiling, which is difficult and dangerous, as well as difficult to expect accurate setting due to the shaking 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 for the construction, repair, and other work of various structures such as welding of large structures in existing construction, civil engineering, shipbuilding, large sculptures, and art works, we use thread, weight, level gauge, surveying instrument, etc. Because of this, it takes considerable time and work according to the installation and location change of the device, and it is possible to see the horizontal level microscopically at every position, but when the work target is huge, it is difficult to observe macroscopically. There is a problem that involves a lot of difficulties in the work.

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 freely pendulum movement, impact with the internal configuration is inevitable, so it requires attention in use and shorten the service life and maintenance due to the occurrence of component breakage due to the impact of the internal components. There is a problem that an increase in cost and the like is inevitable.

In addition, in the case of using the horizontal and vertical line indicator according to the above-described known technology, it is possible to set the horizontal and vertical lines in the state of contact with the ground using trivets, etc. Or if there is a need to set the horizontal and vertical lines, etc. at a certain height of the building there is a problem that the work becomes difficult.

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 in order to solve the above problems, such as by fixedly mounting the laser horizontal vertical irradiation apparatus by the legs to perform the adjustment by the fine adjustment width when performing the horizontal, vertical setting work in the far distance The purpose is to facilitate horizontal and vertical setting by adjustment.

In addition, the present invention, when the horizontal and vertical line setting work in the high-level site, such as the outer wall of the building, such that the bridge can be attached to the steel beam of the outer wall of the building to enable the horizontal and vertical line setting work at a high position There is another purpose.

Specific solution means for achieving the above object,

"A horizontal laser is formed on the side of the top portion 10 in a state where the stepped surface 12 having the power supply button 120 and the adjustment button portion 121 is formed between the top portion 10 and the cylindrical body portion 11. Irradiation unit 100 is coupled to the lower end of the main body 1 and the main body 1 having a plurality of vertical laser irradiation unit 110 and the handle 111 on the outer peripheral portion of the body portion 11, the main body 1 The upper side of the ring-shaped rotating member 2 to enable the rotational movement of the main body 1 by the rotating lever 20 to enable the rotation of the main body 1, and the tricycle-shaped legs 30 at the lower end thereof. As the selection rotating plate 32 and the fixed plate 31 and the base (3) provided with sliding means in order to be able to slide back and forth and left and right of the main body 1,

Wherein the top portion is a three-rounded rounded on the basis of the three vertices, the rounded three-sided is provided with a viewing window and the horizontal window irradiation unit is provided in the viewing window, respectively,

In the state that the cover is provided on the outside of the vertical laser irradiation unit is provided with a viewing window in three directions in the cover and three vertical laser irradiation unit is provided in the viewing window,

The outer circumferential portion of the body portion is provided with a lid and the inside of the battery is provided to enable power supply,

The outer peripheral portion of the rotating member is provided with a fastening bar is provided on one side of the pivoting lever is provided with a screw rod, the screw rod is coupled to the movable member having an opening in the lower center of the lower end in the state that the fastening bar is coupled to the opening When the screw rod is moved back and forth by the rotation of the pivoting lever, the fastening bar fastened to the opening of the movable member is rotated and thus the pivoting member is pivoted so that the main body is rotatable.

The sliding means,
One side of the lever is provided with a plurality of first sliding lever and the second sliding lever integrally provided with the pushing plate on the other side, the first sliding lever and the second sliding lever, respectively, a spring for elastically supporting the bolt member The first elastic pin and the second elastic pin which is composed of the elastic portion to be coupled to the sliding member and the one end of the elastic member in contact with the sliding member by the operation of the bolt member in the state of being screwed with the sliding body, and coupled to the main body The first and second sliding levers are provided on both sides of the pivoting lever in a state in which the pivoting lever for pivoting the pivoting member is coupled to one side, and the first and second elastic pins and the second elastic pin are provided on opposite sides of the pivoting lever. A sliding body provided with an insertion groove in the center in a circular shape provided on an upper side of the selection pivot plate, and the center insertion groove The fixing member is seated and coupled to the selective rotation plate and the fixing plate, wherein one side of the fixing member and its opposite surface are fixed while being in contact with the pushing plate and the first elastic pin of the first sliding lever, and the other side of the fixing member. And the opposite surface is fixed while maintaining the state in contact with the pushing plate and the second elastic pin of the second sliding lever,

delete

One side of the outer peripheral portion of the selective rotation plate is provided with a selective rotation lever for selecting the rotation of the main body together with the selective rotation plate, and a plurality of seating grooves are formed on the rear surface of the fixed plate so that the legs can be seated when rotated inward;

The fixing member has a square shape, and the anti-rolling plate protrudes on one side provided with the pushing plate.

delete

delete

When using a laser horizontal vertical irradiation device when constructing a building, the horizontal vertical line setting adjustment can be easily performed at a long distance, and when the horizontal and vertical line setting work is performed in a high altitude site such as an exterior wall of a building, the pedestal is a building outer wall. By making it possible to be as close as possible to steel beams, the horizontal and vertical lines can be set at a high position. Therefore, the horizontal and vertical lines can be set regardless of the place, so that the work efficiency can be improved. It is related with the laser horizontal vertical irradiation apparatus which can be expected.

While specific embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments and the general knowledge in the art to which the present invention pertains does not fall within the spirit of the present invention. Various changes and modifications may be made by the person who owns them.

Hereinafter, the specific configuration and operation of the laser horizontal vertical irradiation apparatus of the present invention will be described with reference to the drawings.

1 is a perspective view of a laser horizontal vertical irradiation apparatus of the present invention, Figure 2 is an exploded perspective view of the laser horizontal vertical irradiation apparatus of the present invention, Figure 3 is a vertical laser provided in the outer peripheral portion of the body portion in the laser horizontal vertical irradiation apparatus of the present invention 4 is a perspective view of one of the irradiation unit specifically separated, and FIG. 4 is a perspective view of a state in which a pedestal and a sliding means are coupled in the laser horizontal vertical irradiation device of the present invention, and FIG. 5 is a pedestal and sliding in the laser horizontal vertical irradiation device of the present invention. Partly separated perspective view in a state in which the means are coupled, Figure 6 is a perspective view showing a state in which the sliding state of the sliding body and the state in which the legs rotate in the state in which the pedestal and the sliding means in the laser horizontal vertical irradiation apparatus of the present invention is folded 7 is a support in the laser horizontal vertical irradiation apparatus of the present invention 8 is a plan view of a state in which a sliding means is coupled to each other, and FIG. 8 illustrates a sliding state when the first sliding lever rotates in a sliding state of a sliding body in a state in which the pedestal and the sliding means are coupled in the laser horizontal vertical irradiation device of the present invention. 9 is a plan view showing a sliding state of the second sliding lever in the sliding state of the sliding body in the state in which the pedestal and the sliding means are coupled in the laser horizontal vertical irradiation apparatus of the present invention, Figure 10 is the present invention Fig. 11 is a bottom view clearly showing a seating groove in which a leg is seated in the laser horizontal vertical irradiation apparatus, and FIG. 11 is a state diagram of use of the laser horizontal vertical irradiation apparatus of the present invention.

As shown in FIG. 2, the configuration of the present invention includes three main bodies 1, a rotating member 2, a pedestal 3, and sliding means.

The main body 1 may be described as a top portion 10 and a cylindrical body portion 11, and a power supply button 120 and an adjustment button portion (between the top portion 10 and the cylindrical body portion 11). A stepped surface 12 provided with 121 is formed.

In the above configuration, the top portion 10 is provided with a viewing window 101 on each of the three rounded surfaces in the state where the three surfaces are rounded on the basis of three vertices, and within the viewing window 101, a horizontal laser irradiation unit ( 100).

Next, the body portion 11 is provided with a plurality of vertical laser irradiation unit 110 and the handle 111 in the outer peripheral portion of the cover in the state that the cover 112 is provided outside the vertical laser irradiation unit 110 ( 112 is provided with a see-through window 113 in three directions, and three vertical laser irradiation unit 110 is provided in the see-through window 113.

On the other hand, the outer peripheral portion of the body portion 11 is provided with a lid 13 and the battery 130 is provided on the inner side to enable power supply.

As described above, the top portion 10 and the body portion 11 are integrally provided by the stepped surface 12.

Next, the rotating member 2 mentioned above is coupled to the bottom of the body portion 11, that is, the main body 1, so that the main body 1 is rotated by the rotation lever 20 which enables the rotation of the main body 1. As a ring-shaped structure that enables the rotational movement of

As can be seen in the enlarged portion of Figure 2, the outer peripheral portion of the rotating member 2 is provided with a fastening bar 21, one side of the rotating lever 20 is provided with a screw rod 200 and the A moving member 22 having an opening portion 220 at the bottom center thereof is coupled to the four poles 200 and is rotated by the rotation lever 20 in a state in which the fastening bar 21 is coupled to the opening portion 220. As the screw rod 200 moves back and forth, the fastening bar 21 fastened to the opening 220 of the movable member 22 rotates, and thus, the pivot member 2 rotates, thereby allowing the main body 1 to rotate. It is intended to be.

That is, the movable member 22 having an opening 220 is coupled to the screw rod 200 of the pivoting lever 20 while the pivoting member 2 is fixedly fixed to the lower end of the main body 1. Since the fastening bar 21 of the pivot member 2 is coupled to the opening portion 220 in the state, when the pivot lever 20 is rotated, the movable member 22 moves forward and backward along the screw rod 200. As a result, the main body 1 is rotated.

Next, the sliding means,

As shown in Figs. 5, 6, 8, and 9,

As a configuration provided between the main body 1 mentioned above and the pedestal 3 to be described in detail below, in conclusion, the main body 1 and the rotating member 2 in the state provided to operate together The main body (1) and the rotating member (2) by sliding means to slide back and forth left and right as a specific configuration for this,

A first sliding lever 40 and a second sliding lever 41 having a lever 401 on one side and a pushing plate 402 on the other side;

A plurality of first elastic pins 42 and second elastic pins 43 each provided in a plurality so as to face the first sliding lever 40 and the second sliding lever 41;

The first sliding lever 40 and the first sliding lever 40 and both sides of the pivoting lever 20 in a state in which the pivoting lever 20 coupled to the pivoting member 2 coupled to the main body 1 are coupled to one side. 2 is provided with a sliding lever 41 and the opposite outer peripheral portion is provided with a first elastic pin 42 and a second elastic pin 43 is inserted into the center in the center in a circular shape provided on the upper side of the selection pivot plate 32 ( Sliding body 44 is provided with 440,

The central insertion groove 440 is fixedly coupled to the selective pivoting plate 32 and the fixed plate 31, and one side and the opposite surface thereof are the pushing plate 402 and the first elastic pin of the first sliding lever 40. 42 is in close contact with the other side and its opposite surface is coupled to the pushing plate 402 of the second sliding lever 41 and the fixing member 45 is tightly fixed to the second elastic pin 43, the sliding means to be.

Preferably, the fixing member 45 has a square shape and is formed integrally with one side of the anti-rolling plate 450 protruding from the pushing plate 402.

In addition, as shown in Figure 5, the first elastic pin 42 and the second elastic pin 43,

The bolt member 420 and the bolt member 420 in a cylindrical shape at one side of the bolt member 420 is in close contact with the fixing member 45 inside the pivot member 2 which is the other side so as to be coupled to the outer peripheral portion of the pivot member 2. One side in contact with the spring 421 is opened so that the insertion is possible and the other part is in close contact with the fixing member 45 is made of an elastic portion 422 in a closed state.

Next, the pedestal 3 is provided below the sliding means,

In the state where the tricycle-shaped leg 30 is provided at the bottom thereof, the fixing plate 31 and the selective rotating plate 32 are provided on the upper side thereof. 32) and sliding means are sequentially provided so as to be able to slide back and forth and left and right of the main body 1,

Preferably, on the outer circumferential side of the selective pivoting plate 32, a selective pivoting lever 320 capable of selecting the pivoting of the main body 1 together with the selective pivoting plate 32 is provided.

As shown in FIG. 10, a plurality of seating grooves 311 are formed on the rear surface of the fixing plate 31 to allow the legs 30 to be seated inward.

Reference numeral 5 denotes a coupling plate, reference numeral 6 denotes a cover body, and reference numeral F denotes a wall.

Hereinafter, the operation of the laser horizontal vertical irradiation apparatus of the present invention will be described.

First, the rotation process of the main body of the present invention and the folding process of the sliding means and other legs will be described and the use state of the present invention will be described with drawings.

When the operation | movement regarding the rotation of the main body 1 is demonstrated,

This operation has already been mentioned above, but it will be described in the above description, that is, the screw rod of the pivoting lever 20 in the state in which the pivoting member 2 is fixedly fixed to the bottom of the main body 1 with a fixture or the like ( Since the fastening bar 21 of the rotating member 2 is coupled to the opening 220 in a state in which the moving member 22 having the opening 220 is coupled to the opening 220, the rotating lever 20 When rotated, the moving member 22 is slid back and forth along the screw rod 200, so that the main body 1 rotates so that the rotation of the main body can be made even more accurate by measuring the vertical vertical position. .

Explaining the operating relationship for the sliding means,

As shown in FIG. 1 and FIG. 2, the main body 1 coupled to the rotating member 2 in a fixed state in the combined state of the present invention is, for example, the main body and the rotating member 2 as shown in FIG. 6. In sliding back and forth, left and right,

First, as shown in FIG. 8, when the first sliding lever 40 is rotated, the pushing plate 402 of the first sliding lever 40 is separated from the fixing member 45 of the sliding member 44. The fixing member 45 is not slid by the elastic force of the spring 421, which is a component of the plurality of first elastic pins 42 provided on the opposite outer circumferential portion, so that the fixing member 45 is the selective rotating plate 32. And since the sliding plate 44 is not fixedly coupled to the fixed plate 31, the sliding body 44 is slid toward the first elastic pin 42 as shown in FIG. 8, so that the main body 1 is first elastic pin. This results in sliding toward (42).

Meanwhile, as shown in FIG. 9, when the second sliding lever 41 is rotated, the pushing plate 402 of the second sliding lever 41 is separated from the fixing member 45, thereby removing the sliding member 44. The fixing member 45 is not slid by the elastic force of the spring 421, which is a component of the plurality of second elastic pins 43 provided on the opposite outer circumferential portion, so that the fixing member 45 is the selective rotating plate 32. And since the sliding plate 44 is not fixedly coupled to the fixed plate 31, the sliding body 44 is slid toward the second elastic pin 43 as shown in FIG. 9, which in turn causes the body 1 to have a second elastic pin. This results in sliding toward (43).

Next, the rotation of the selective rotating plate 32 allows the selection of the rotating body of the main body 1 to be able to be selected, and by the rotation of the selective rotating lever 320, the selective rotating plate 32 can be freely rotated. And

On the other hand, the back of the fixing plate 31 is formed with a plurality of mounting grooves 311 so that the legs 30 can be seated when rotated inward to facilitate the convenience by softening during storage and transportation.

1 is a perspective view of a laser horizontal vertical irradiation apparatus of the present invention,

Figure 2 is an exploded perspective view of the laser horizontal vertical irradiation apparatus of the present invention,

3 is a perspective view of specifically separating one of the vertical laser irradiation unit provided in the outer peripheral portion of the body in the laser horizontal vertical irradiation apparatus of the present invention;

4 is a perspective view of the pedestal and the sliding means are coupled in the laser horizontal vertical irradiation apparatus of the present invention;

5 is an exploded perspective view partially separated in the state in which the pedestal and the sliding means in the laser horizontal vertical irradiation apparatus of the present invention,

Figure 6 is a perspective view showing a state in which the sliding state of the sliding body and the state in which the legs are rotated and folded in the state in which the pedestal and the sliding means in the laser horizontal vertical irradiation apparatus of the present invention,

7 is a plan view of the pedestal and the sliding means are coupled in the laser horizontal vertical irradiation apparatus of the present invention;

8 is a plan view showing a sliding state when the first sliding lever in the sliding state of the sliding body in a state in which the pedestal and the sliding means are coupled in the laser horizontal vertical irradiation apparatus of the present invention;

9 is a plan view showing a sliding state when the second sliding lever in the sliding state of the sliding body in the state in which the pedestal and the sliding means are coupled in the laser horizontal vertical irradiation apparatus of the present invention;

Figure 10 is a bottom view clearly showing the seating groove in which the leg is seated in the laser horizontal vertical irradiation apparatus of the present invention,

11 is a state diagram used in the laser horizontal vertical irradiation apparatus of the present invention.

※ Brief description of the main symbols in the drawings

           1 main body 2 rotating member

           3: base 10: top

          11 body portion 12 step surface

          13: lid 20: rotating lever

          21: fastening bar 22: moving member

          30: leg 31: fixed plate

          32: selective rotation plate 40: first sliding lever

          41: second sliding lever 42: first elastic pin

          43: second elastic pin 44: sliding body

          45: fixing member 100: horizontal laser irradiation part

         101: sight window 110: vertical laser irradiation unit

         111: handle 112: cover

         113: viewing window 130: battery

         200: screw rod 220: opening

         401: lever 402: pushing plate

         440: insertion groove F: wall

Claims (9)

In the state where the stepped surface 12 having the power supply button 120 and the adjustment button portion 121 is formed between the top portion 10 and the cylindrical body portion 11, a horizontal laser irradiation portion is formed on the side surface of the top portion 10. The main body 1 is provided with a plurality of vertical laser irradiation unit 110 and the handle 111 in the outer peripheral portion of the body portion 11, 100, A ring-shaped rotating member 2 coupled to a lower end of the main body 1 to enable a rotational movement of the main body 1 by a rotation lever 20 which enables the main body 1 to rotate, At the lower end, a tricycle-shaped leg 30 is provided, and a pedestal having sliding means sequentially provided so as to be able to slide back and forth and left and right of the selective rotation plate 32 and the fixed plate 31 and the main body 1 at the upper side thereof ( 3) a horizontal laser irradiation device characterized in that consisting of. The method of claim 1, The top part 10 is provided with a viewing window 101 on each of the three rounded surfaces in a state in which three surfaces are rounded on the basis of three vertices, and a horizontal laser irradiation part 100 is provided in the viewing window 101. Laser horizontal vertical irradiation apparatus characterized in that there is. The method of claim 1, In the state in which the cover 112 is provided outside the vertical laser irradiation unit 110, the cover 112 is provided with a viewing window 113 in three directions, and a vertical laser irradiation unit 110 is provided in the viewing window 113. Laser horizontal vertical irradiation apparatus, characterized in that three provided. The method of claim 1, The outer peripheral portion of the body portion 11 is provided with a lid (13) and the inner side of the battery 130 is provided with a laser horizontal vertical irradiation apparatus, characterized in that the power supply is possible. The method of claim 1, A fastening bar 21 is provided at one side of the outer circumferential portion of the pivot member 2, and a screw rod 200 is provided at one side of the pivot lever 20, and an opening 220 is formed at the bottom center of the screw rod 200. The screw rod 200 is moved back and forth by the rotation of the rotation lever 20 in a state in which the moving member 22 is coupled to the opening bar 220 is coupled to the fastening bar 21. Laser body horizontal vertical irradiation apparatus, characterized in that the fastening bar 21 is fastened to the opening 220 of the moving member 22 is rotated and thus the rotating member 2 is rotated so that the main body 1 is rotatable. . The method of claim 1, The sliding means, A first sliding lever 40 and a second sliding lever 41 having a lever 401 on one side and a pushing plate 402 on the other side; The first sliding lever 40 and the second sliding lever 41 is provided in a plurality so as to be opposed to each other, consisting of an elastic portion 422 to which the spring 421 for elastically supporting the bolt member 420 is incorporated. The first elastic pin 42 and the second elastic to allow one end of the elastic portion 422 to be in contact with the outer surface of the fixing member 45 by the operation of the bolt member 420 in a screwed state with the sieve 44 Pin 43, The first sliding lever 40 and the first sliding lever 40 and both sides of the pivoting lever 20 in a state in which the pivoting lever 20 coupled to the pivoting member 2 coupled to the main body 1 are coupled to one side. 2 is provided with a sliding lever 41 and the opposite outer peripheral portion is provided with a first elastic pin 42 and a second elastic pin 43 is inserted into the center in the center in a circular shape provided on the upper side of the selection pivot plate 32 ( Sliding body 44 is provided with 440, The central insertion groove 440 is formed with a fixing member 45 which is seated and coupled to the selective rotation plate 32 and the fixing plate 31, one side of the fixing member 45 and the opposite surface is the first sliding lever It is fixed while being in contact with the pushing plate 402 and the first elastic pin 42 of the 40, the other side and the opposite surface is the pushing plate 402 and the second elastic of the second sliding lever 41 Laser horizontal vertical irradiation device, characterized in that the pin 43 is kept in contact with the state. The method of claim 1, On the outer circumferential side of the selective pivoting plate 32, a selective pivoting lever 320 is provided to select the pivoting of the main body 1 in addition to the selective pivoting plate 32. Laser horizontal vertical irradiation apparatus, characterized in that a plurality of seating grooves (311) are formed so that it can be seated when rotated inward. The method of claim 6, The fixing member 45 is a square horizontal laser irradiation, characterized in that formed on the one side with the pushing plate (402) protruding anti-roll plate 450 is formed integrally. delete

Images