KR100520018B1 - Horizontality measure instrument that use laser beam - Google Patents

Abstract

The present invention relates to a horizontal measuring device using a laser beam.

The present invention is a horizontal measuring device using a laser beam configured to be coupled to the movable pedestal by the inclination adjustment mechanism to the top of the fixed pedestal screwed to the support legs, the head is coupled to the upper portion of the movable pedestal, The inclination adjustment mechanism is composed of an upper shaft screwed to the lower portion of the movable pedestal and the lower shaft screwed to the upper portion of the fixed pedestal, the upper shaft and the lower shaft is configured to be coupled by a ball joint, the lower shaft of the ring shape The handle is characterized in that it is configured integrally.

Therefore, the present invention rotates the head toward the wall and the pillar so that the laser beam is illuminated, and the first and second markings on the portion where the laser beam is illuminated, thereby reducing the error of horizontal measurement and at the same time working time required for measurement To reduce the air, and to reduce the cost of construction by reducing the manpower.

Description

Horizontal gauge using laser beam {HORIZONTALITY MEASURE INSTRUMENT THAT USE LASER BEAM}

The present invention relates to a horizontal measuring device using a laser beam, and in particular, the laser beam from the measuring head installed on the floor slab to be projected to the place where the walls and pillars start, and after the first marking on the portion where the laser beam is reflected By rotating the head toward the end of the wall and column, and marking the laser beam again on the area where the laser beam is displayed, the air can be shortened by reducing the measurement time while reducing the error of horizontal measurement. In addition, by reducing the manpower, it is possible to reduce the cost of construction.

In general, civil engineering or building construction uses a hose to check the level of the structure, this method is widely used as a way to find other points of the same height by using a horizontal level of water filled in the hose, In order to check or grab, there was a problem that two or more people always had to work at two points simultaneously.

On the other hand, when the floor slab is installed, various levelers are used to measure and level the level deviations, and the measurement of the slab level is based on the scale of the ruler by using a ruler using a plurality of workers. When the value is higher than the reference value,-is displayed, and if it is low, + is displayed and the difference is recorded in mm.

The present invention has been created to solve this problem, the laser beam from the measuring head installed on the floor slab is to be projected to the place where the walls and pillars start, and after the first marking on the area where the laser beam is reflected By rotating the head toward the end of the wall and column so that the secondary marking is displayed on the area where the laser beam is displayed, the air can be shortened by reducing the work time required for measurement while reducing errors in horizontal measurement. When inspecting and supervising construction work, the supervisor or supervisor can perform the inspection work alone, so it can be easily used for supervision and supervision work, and the horizontal measuring instrument using the laser beam can reduce the manpower cost by reducing the manpower. The purpose is to provide.

The present invention for achieving the above object is configured to be coupled to the movable pedestal (3) by the inclination adjustment mechanism (1) to the upper portion of the fixing pedestal 2, the support leg 21 is screwed, the movable pedestal In the horizontal measuring device (A) using a laser beam configured to couple the head (4) to the upper portion of the (3), the inclination adjustment device (1) is the upper shaft 11 screwed to the lower portion of the movable pedestal (3) ) And the lower shaft 12 screwed to the upper portion of the fixing pedestal 2, wherein the upper shaft 11 and the lower shaft 12 are coupled to the ball joint 13, and the lower shaft ( The object is achieved by providing a horizontal measuring device using a laser beam, characterized in that the ring-shaped handle 123 is integrally formed in 12).

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

Horizontal measuring device (A) according to the present invention, as shown in Figures 1 to 3, is composed of a tilt adjusting device (1), a fixed pedestal (2) and a movable pedestal (3).

Here, the inclination adjustment device 1 is a floor slab or ground to the head 4 coupled to the movable pedestal 3 to be described later by adjusting the space between the movable pedestal 3 and the fixed pedestal 2 at a small interval. It has a main function to maintain a vertical state and always consists of a ball joint (13) connecting the upper shaft (11) and the lower shaft (12) and the upper and lower shafts (11, 12).

The upper shaft 11 is formed to be screwed to the lower portion of the movable pedestal 3 by forming a first screw portion 111 on the upper end having a predetermined diameter, the lower end of the diameter of the upper shaft 11 Compared with the first ball coupling hole 112 of the iron portion having a larger diameter than is formed integrally.

The lower shaft 12 has the same shape as the upper shaft 11, the lower end of the second screw portion 121 is formed, the upper end of the recess portion is inserted into the first ball coupling hole 112 The second ball coupler 122 is formed.

In addition, a handle 123 having a ring shape is integrally formed between the upper end and the lower end of the lower shaft 12. The handle 123 is more preferably to form a knurling having the form of a comb teeth or hatch on the outer periphery so that it can be easily rotated with a finger.

The ball joint 13 when the first ball coupling sphere 112 is inserted into the second ball coupling sphere 122 to rotate the handle 123 formed on the lower shaft 12 in a clockwise or counterclockwise direction, Only the second ball coupler 122 is rotated in the state where the first ball coupler 112 is stopped, and the second screw portion 121 formed at the lower portion thereof is configured to be moved up and down.

The fixing pedestal 2 is formed in a disk shape having a predetermined thickness, and a plurality of first female screws 22 are formed at predetermined intervals thereunder, and the male screw 23 formed on the upper end of the support leg 21 is screwed together. It is configured to be.

In addition, the upper part of the fixing pedestal (2) forms a plurality of second female screw 24 having a smaller diameter than the first female screw 22 formed in the lower portion of the second screw portion formed on the lower end of the lower shaft 12 121 is formed to be screwed together.

This support leg 21 is preferably to have a pointed shape at the end of the lower end as a means to prevent the position is changed due to the slip in the process of being placed on the top surface or the ground of the floor slab.

The movable pedestal 3 has the same shape as the fixing pedestal 2, but is formed to have a diameter slightly smaller than that of the fixing pedestal 2, and a lower portion of the first screw portion formed at the upper end of the upper shaft 11 A third female screw 33 to which the 111 is coupled is formed, and a recessed groove 31 having a recessed shape having a predetermined diameter is formed at the center thereof, so that the outer ring of the bearing 42 to be described later is clamped. It is shaped so that it can be combined to fit.

In addition, between the seating groove 31 and the outer periphery of the movable pedestal 3 is formed a fixing groove 32 having a '┘' shape is configured to be coupled to the water level system 33 having the same shape.

The head 4 has a function to selectively apply the power required for the generation of the laser beam to the laser module 46 installed therein, and to shine the laser beam generated by the laser module 46 to the left and right. It is configured to be rotatably coupled to the seating groove 31 formed in the upper portion of the movable pedestal 3 by inserting the bearing 42 on the lower end of the head body 41.

In addition, the head body 41 has a hollow shape, and a laser module 46 is installed at an upper end thereof, and the power of the battery 43 is supplied to the switch 44 and the wire 45 by the laser module 46. It is configured to be selectively applied via.

The laser beam generated by the laser module 46 is configured to be projected outward through the lens 47 coupled to the upper end of the head body 41.

The laser module 46 for generating a laser beam due to the power of the battery 43 is preferably composed of a diode laser.

The process of displaying a level height from the upper surface of the bottom slab using the horizontal measuring device having the above configuration is as follows.

First, as shown in FIG. 4, the support legs 21 coupled to the lower part of the fixing pedestal 2 are placed on an arbitrary position of the floor slab 5 of the building.

Next, while visually checking the water level gauge 33 provided on the upper part of the movable pedestal 3 to keep the movable pedestal 3 horizontally, the handle 123 formed on the lower shaft 12 with the fingers is turned clockwise. Or counterclockwise rotation.

That is, when the height of the movable pedestal 3 is low by looking at the water level gauge 33, when the knob 123 is rotated counterclockwise, the lower shaft 12 that is fastened to the first female screw 22 of the fixing pedestal 2 is fixed. By pushing up the upper shaft 11 coupled to the ball joint 13 as the second screw portion 121 of the) is drawn out (when the right screw), the height of the movable pedestal 3 is increased. In addition, when the height of the movable pedestal 3 is high, the height is lowered by rotating the knob 123 clockwise.

Next, the lens 47 coupled to the top of the head body 41 in the state in which the movable support 3 is installed to be horizontally directed toward the point B shown in FIG. 4 and then coupled to the head body 41. At the same time the switch 44 is turned on and the power (current) of the battery 43 is applied to the laser module 46 through the wire 45, a laser beam is generated, the generated laser beam is a lens 47 As indicated at point B through the marking tool, the first marking is performed at the point where the laser beam is reflected.

Next, the head body 41 is rotated in a clockwise direction so that the laser beam is displayed at another C point, and then the entire horizontal level can be measured by repeating the second marking process in the same manner.

In the present invention, the pillar located at the corner of the floor slab 5 is taken as an example, but the wall surface can be measured through the same process.

As described above, the present invention allows the laser beam to be projected from the head installed on the floor slab to the place where the wall and the pillar begin, and the head is directed toward the end of the wall and the pillar after the primary marking on the portion where the laser beam is illuminated. By rotating the second marking on the portion where the laser beam is reflected, the effect of reducing the error of the horizontal measurement can be obtained.

In addition, it is possible to shorten the air by reducing the working time required for horizontal measurement, and also can perform the inspection work by the supervisor or the supervisor alone during the construction supervision and supervision. By reducing the manpower, more cost savings can be achieved.

1 is an exploded perspective view of a horizontal measuring device according to the present invention.

2 is a perspective view of a horizontal measuring device according to the present invention.

3 is a longitudinal sectional view of a horizontal measuring instrument according to the present invention;

Figure 4 is an exemplary view showing a state of measuring the horizontal using a horizontal measuring device according to the present invention.

<Brief description of symbols for the main parts of the drawings>

1: Tilt adjuster 2: Fixed base

3: movable stand 4: head

11: Upper shaft 12: Lower shaft

13: Ball Joint 21: Supporting Leg 123: Handle

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Claims (3)

The support body 21 is configured such that the movable pedestal 3 is coupled to the upper portion of the fixed pedestal 2 by which the screw is coupled, and the head body 41 hollowed to the upper portion of the movable pedestal 3. The bearing 42 is fitted to the outside of the bottom of the bottom to be coupled to the seating groove 31 formed in the upper portion of the movable pedestal 3 and the water level 33 in the fixing groove 32 formed as the upper portion of the pedestal 42. The power supply of the battery 43 is applied to the laser module 46 installed inside the upper end of the head body 41 via the switch 44 and the dotted line 45, and the laser module 46 In the horizontal measuring device (A) using a laser beam to be irradiated to the outside through the lens 47 coupled to the upper end of the head body 41 composed of a diode laser, The inclination adjustment mechanism 1 is composed of an upper shaft 11 screwed to the lower portion of the movable pedestal 3 and a lower shaft 12 screwed to the upper portion of the fixed pedestal 2 and the upper shaft 11 And the lower shaft (12) is configured to be coupled to the ball joint (13) and the horizontal gauge using a laser beam, characterized in that the lower shaft (12) is integrally configured with a ring-shaped handle (123). delete delete