KR20190080828A - Horizontal pedestal for joining the laser horizontal and vertical irradiation unit - Google Patents

Abstract

The present invention relates to a support for coupling a laser horizontal and vertical irradiation device. Specifically, the support comprises: a first body having a first coupler coupled to a tripod in the lower center of the support, and having an insertion part and a long hole in the upper center part of the support; and a second body which has a pin through-hole for coupling a fixing pin, has an insertion part inserted into the insertion part of the first body at a lower side, and has a second coupler for coupling a precise tripod on an upper side. A horizontal alignment of the irradiation device is performed by using the precise alignment operation of the tripod provided in the laser irradiation device on the upper side of the horizontal support which is fixed horizontally to the tripod, thereby being capable of precisely and efficiently performing work using the laser irradiation device.

Description

{Horizontal pedestal for joining the laser horizontal and vertical irradiation unit}

More particularly, the present invention relates to a horizontal bracket for horizontal and vertical irradiation, and more particularly to a horizontal bracket for horizontal and vertical alignment of a laser beam when a lighting apparatus used as a device for indicating horizontal and vertical lines on a construction site is coupled to a tripod To a horizontal support capable of facilitating horizontal alignment of the irradiation device.

Generally, the construction of a building sets an exact position with respect to the horizontal and the vertical which are transmitted to the load in order to stabilize the structure of the building.

As described above, the work method adopted by the conventional method for setting the horizontal and vertical reference applied to the construction work of the building is as follows. When measuring the vertical for the vertical construction of the support, or when setting the vertical point, Or the vertical point is set. In order to horizontally construct the floor surface, a horizontal measurement or a horizontal point is set by using a horizontal ruler or the like.

Such a conventional vertical and horizontal setting method is a method of artificially hanging a line on the ceiling, which is difficult and dangerous, and it is difficult to expect an accurate setting due to the shaking of the line, It has problems such as inconvenience, lack of promptness and accuracy because it works by moving the place from time to time.

In view of the above problems, various apparatuses for measuring the vertical and horizontal directions of a building using a laser apparatus are known. For example, Korean Patent Registration No. 415318 entitled 'Horizontal and vertical line indicator using laser' Patent Application No. 10-2008-0104966 " Laser horizontal and vertical irradiation apparatus " is known.

However, the following problems also occur in the case of the above-mentioned known technology.

In order to use the laser irradiation device, it is fixed to the building or fixed to the ground. In case of fixing to the ground, a tripod is used for easy use of the irradiation device.

In case of a tripod connected to the irradiation device, it is easy to adjust the height accurately. However, since the height adjustment of the large width should depend on the conventional tripod, remove the tripod attached to the irradiation device, attach it to the tripod fixed to the ground, The horizontal aligning operation is performed by using the leveling system formed on the worker, and the horizontal aligning operation of the illuminating device is performed while the operator is looking at the leveling system where the waist is bent and joined to the tripod, so that the horizontal aligning operation is not smooth and the stable operation can not be performed .

The object of the present invention is to solve the problems of the prior art and to improve the accuracy and efficiency of the work by allowing the operator to perform accurate horizontal alignment by providing convenience of operation when the illuminating device is used in combination with the tripod have.

The present invention provides the following technical features as means for solving the above problems.

The present invention provides a horizontal stand capable of connecting a known illuminating device with a known tripod.

In a preferred embodiment of the horizontal pedestal of the present invention, the horizontal pedestal has means for adjusting the height of the laser irradiation device.

As a preferred embodiment of the horizontal pedestal of the present invention, the horizontal pedestal has a coupling means for engaging with a known tripod.

As a preferred embodiment of the horizontal pedestal of the present invention, the horizontal pedestal has a coupling means for engaging with a known precision tripod.

The effects of the present invention having the above-mentioned solution will be described as follows.

The horizontal pedestal according to the present invention is used as a means for combining a known laser irradiation apparatus and a tripod, and the horizontal alignment of the laser irradiation apparatus can be performed without depending on a tripod, The horizontal aligning operation of the illuminating device is performed using the precise horizontal aligning operation of the tripod provided, so that the operation using the laser irradiating device can be performed precisely and efficiently.

1 is a perspective view of a horizontal pedestal according to an embodiment of the present invention;
2 is a cross-sectional view illustrating the upward and downward movement of the horizontal pedestal
3 is a view illustrating an example of using a horizontal pedestal according to an embodiment of the present invention,
4 is a view illustrating an example of using a horizontal pedestal according to an embodiment of the present invention,

The same components as those of the conventional art will be described below with reference to the related art, and a detailed description thereof will be omitted.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention. The singular forms as used herein include plural forms as long as the phrases do not expressly express the opposite meaning thereto. Means that a particular feature, region, integer, step, operation, element and / or component is specified, and that other specific features, regions, integers, steps, operations, elements, components, and / And the like.

It is to be understood that when an element is referred to as being "connected" or "in contact" with another element, it may be directly connected or contacted with the other element, but other elements may be present in between It should be

The present invention is characterized in that a first coupling hole 20 is formed at the lower center of the pedestal 10 to engage with the tripod 200 and a hole 31 is formed in the center of the upper portion of the pedestal 10, 1 body (30).

The present invention is characterized in that the first body 30 is coupled to the insertion portion 31 of the first body 30 in which the pin hole 51 for coupling the fixing pin 40 is formed and inserted into the insertion portion 31 of the first body 30 And a second body 50 having a second coupling hole 53 for coupling the precision tripod 300 to the upper side thereof.

The embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

1 to 4, it can be seen that the present invention is formed with a first coupling hole 20 for coupling a conventional tripod to the lower side of the pedestal 10. The first coupling hole is formed with a coupling protrusion formed on a conventional tripod 200, and a coupling portion formed with a bolt shape. The first coupling hole 20 of the pedestal 10 has a conventional nut structure.

The first body 30 protruding from the upper center of the pedestal 10 has a cylindrical structure and the inner diameter of the first body 30 functions as an insert 31. [

The insertion body 51 of the second body 50 is inserted into the insertion portion 31 and the inserted second body 50 is inserted into the insertion hole 31 of the fixing pin The second body 50 coupled to the first body 30 moves in the vertical direction by the distance that the fixing pin 40 moves in the space of the slot 32, .

The second body 50 is provided with a second coupling hole 53. The second coupling hole 53 has a bolt structure that is coupled with a nut for forming a conventional precision tripod 300.

Hereinafter, the use of the horizontal pedestal 100 of the present invention will be described.

First, the horizontal support 100 is coupled to the normal tripod 200 using the first coupling.

The precision tripod 300 having the laser irradiation device 400 coupled to the horizontal support 100 is coupled to the horizontal support 100 and the precision tripod 300 using the second coupling hole 53 of the second body 50. [ (300).

A process of determining the vertical height of the laser irradiation apparatus 400 in a state where the laser irradiation apparatus 400 is coupled to the tripod 200 will be described.

First, the basic height of the laser irradiating apparatus 400 is determined using a normal tripod 200.

In order to determine the height of the laser irradiating device and to adjust the height of the laser irradiating device as described above, the height of the laser irradiating device 400 is finely adjusted using a triangular leg formed on the precision tripod 300.

When the height of the laser irradiation apparatus 400 is accurately adjusted as described above, the second body 50 is fixed to the first body 30, and a space for moving up and down secured by the long hole 32 is used The height of the precision tripod 300 is adjusted while the height of the tripod 200 is fixed.

For the above operation, it is preferable that the precision tripod 300 and the general tripod 200 are provided with respective leveling systems.

10. Pedestal
20. First coupling member
30. First body
31. Insert
32. Slots
40. Fixing pin
50. Second body
Pin hole
52. Inlet
53. Second coupling member
100. Horizontal bracket
200. Tripod
300. Precision Tripod
400. Laser Irradiation Apparatus

Claims (1)

A first coupling hole 20 is formed at the lower center of the pedestal 10 to engage with the tripod 200,
A first body 30 having an insertion portion 31 and a long hole 32 formed in the center of the pedestal 10,
The insertion portion 52 inserted into the insertion portion 31 of the first body 30 is formed with a pin hole 51 for coupling the fixing pin 40 with the first body 30, Respectively,
And a second body (50) having a second coupling hole (53) for coupling the precision tripod (300) on the upper side thereof.

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