KR200370155Y1 - Stairs construction for building - Google Patents

Abstract

The present invention relates to a staircase construction structure in which construction of stairs and treads in the form of a plate is bonded to a stair frame when constructing stairs in a building.

In the early stages of the construction history, the stairs were directly mortared at the construction site to have a challenge and a stepping surface.However, with the development of construction technology, the step plate and the anti-slip structure have been preformed in the factory in advance. By carrying this to the construction site to bond the construction with adhesive mortar on the stair frame, the construction structure to simplify the construction and shorten the construction period is mainly used.

The present invention is to form the plate and the stepping board in the form of a plate, but the joining grooves formed on the front bottom and the rear top of the stepping board so that the riser can be easily and easily matched in an upright state to cope with the load from below to have durability and construction Afterwards, it has the same appearance and structure as the 'a' block so that both the advantages of the plate shape and the 'a' block can be taken.

Description

Stairs construction for building

The present invention relates to a staircase construction structure in which when constructing stairs in a building, a riser and a tread plate formed in a plate form are bonded to a stair frame.

In the early stages of the construction history, the stairs were directly mortared at the construction site so that they had a challenge and stepping surface.However, with the development of construction technology, the preformed boards and tread plates, which were formed in the form of plates at the factory, are pre-molded and transported to the construction site. Therefore, the construction structure that allows easy construction and shorten the construction period by adhering to the stair frame with adhesive mortar is mainly used.

On the other hand, the stairs are stepping on the tread with the user's body weight on one foot, there is a risk of losing the center of the body, as well as the risk of slipping on the tread, so that the step is to prevent slipping It is natural to adopt a structure.

As such a step construction structure, as shown in FIG. 3, the plate 40 is formed in a simple plate shape, and the step plate 50 is formed in a plate shape so as to have a plurality of recessed grooves 51 on the front upper surface. On the back of the) is fixed to the spacer bracket 60 to the fastening member 70 to secure the riser 40 to the fastening member 70 at a set interval from the stair frame 10 and the adhesive mortar 20 to the step frame After filling between the (10) and the riser (40) has been proposed to construct the construction by adhering the adhesive mortar (20) on the horizontal surface of the stair frame (10) to adhere the stepping plate 50 on the upper surface, This has excellent advantages in manufacturing, loading, storing, and transporting the riser 40 and the tread 50, while the spacing maintenance bracket 60 can be maintained to maintain the upright state in the upright position during construction. As the fastening member 70, it is necessary to fix the riser 40 to the stepped frame 10. As a result, manpower was wasted and construction problems were prolonged.

Thus, in order to compensate for the problem of the construction structure as shown in FIG. 3, the 'b'-shaped block 30, in which the riser 40 and the tread plate 50 as shown in FIG. 4 are integrated, is placed on the front upper surface of the tread plate 50. FIG. The construction structure has been proposed to have a concave groove 51 to be bonded to the stair frame 10 as an adhesive mortar 20, but this is because there is no boundary and protrusions as shown in Figure 3 In addition, while the process of shaping the 'b' shaped block 30, the process of shaping the tread plate 50 by first pouring the mortar on the mold and curing, and then the part of the plate 40 is hardened by pouring mortar on the mold secondly. The 'b' shaped block 30 is manufactured, which has a problem that the manufacturing process is very complicated and time consuming, as well as the stacking is not possible, and thus the difficulty of loading, storing and transporting.

The present invention is to form the plate and the stepping board in the form of a plate, but the joining grooves formed on the front bottom and the rear top of the stepping board so that the riser can be easily and easily matched in an upright state to cope with the load from below to have durability and construction Afterwards, it has the same appearance and structure as the 'a' block so that both the advantages of the plate shape and the 'a' block can be taken.

1 is an exemplary cross-sectional view showing a stair construction structure according to the present invention

Figure 2 is a cross-sectional view showing another embodiment of the stair construction structure according to the present invention

3 and 4 is a cross-sectional view showing a conventional step construction structure

-Explanation of symbols for the main parts of the drawing-

10: stair frame 40: riser 50: tread

51: concave groove 52: adhesive member 53, 54: coupling groove

1 is a cross-sectional view illustrating the construction of the stairs according to the present invention, Figure 2 is a cross-sectional view showing another embodiment of the construction of the stairs according to the present invention, the present invention will be described in detail with reference to the drawings.

The plate 40 and the stepping plate 50 are formed by cutting or mold molding using natural stone, artificial stone, or artificial stone mortar mixed with marble powder, a hardener, etc., and the like. Coupling grooves 53 and 54 are formed on the upper and rear upper surfaces, respectively, and a plurality of concave recesses 51 are formed on the front upper surface of the tread plate 50.

The coupling groove 54 formed on the rear upper surface of the tread plate 50 is coupled to the lower end of the riser 40 upright, and the upper end of the riser 40 is coupled to the coupling groove 53 formed at the front bottom of the other tread plate 50. The fitting mortar 20 is inserted between the vertical frames of the stair frame 10 and the riser plate 40, and the adhesive mortar 20 is poured on the horizontal surface of the stair frame 10 at the same time. The tread plate 50 is in close contact, but the front end of the tread plate 50 is fitted to the upper end of the riser 40 by the coupling groove 54 to be coupled.

On the other hand, the back of the tread plate 50 to form a smooth surface, the lower end of the plate 40 may be adhesively applied to the tread plate 50 by using an adhesive member 52 such as a double-sided adhesive.

The present invention having such a construction structure, as shown in Figure 1, during the construction by applying the adhesive mortar 20 from the lower side of the staircase frame 10, the tread plate 50 is installed, the coupling groove of the tread plate 50 Just by coupling the riser 40 to the 54, the riser 40 is maintained in an upright state. Therefore, another stepping plate 50 is directly connected to the riser by the coupling groove 53 without the need for a separate upright holding means. If the upper end of the step 40 is simply matched, the tread plate 50 is supported by the upper end of the riser 40, and will have sufficient durability in response to the load downward.

As shown in FIG. 2, the rear of the tread plate 50 is formed as a smooth surface, and the lower end of the tread plate 40 is adhered to the tread plate 50 with the adhesive member 52 to thereby raise the upright state of the tread plate 40. You can keep it.

This design is not only easy and easy to manufacture, but also easy to handle in the field as both the plate and the stepboard are formed in the form of plate, and the construction does not need any additional means or processes for maintaining the upright plate during construction. And it can be made easy and easy, and loading, storage and transportation is easy to provide a great effect, such as beautiful appearance.

Claims (2)

In the construction structure in which the stepping plate 50 and the riser plate 40 having the recessed grooves 51 in the staircase frame 10 of the building are bonded by the adhesive mortar 20, Coupling grooves 53 and 54 are formed on the front bottom surface and the rear top surface of the tread plate 50, respectively, and the lower end of the riser 40 is erected and coupled to the coupling groove 54 formed on the rear top surface of the riser 40. The top is a staircase construction structure of the building, characterized in that the coupling groove 53 formed on the front bottom surface of the other tread plate 50 is fitted to be coupled to each other. The step construction of a building according to claim 1, wherein the rear upper surface of the tread plate 50 is formed as a smooth surface, and the riser plate 40 is adhered to the tread plate 50 by an adhesive member 52. rescue.