KR100902078B1 - Multiple Pillar Construction for Assembling Building and Pillar for Assembling Building using Metal or Plastics - Google Patents

Abstract

The present invention relates to a multi-structure column assembly assembly material made of metal or synthetic resin and a pillar for assembly facilities, the multi-structure assembly facility pillar made of metal or synthetic resin according to the present invention, a constant interval along the outer peripheral surface circumference A plurality of grooves are formed in the longitudinal direction of the plurality of grooves and the outer tube formed with a fixing piece protruding in the longitudinal direction at the middle point of the grooves, and the inner tube is inserted into the outer tube in the longitudinal direction and fixed to the steel multiple A pillar structural member for the assembly facility of the structure; Finishing material processed so as to be installed in close proximity between each of the fixing pieces of the structural material; And a fastener for engaging the finishing member with the finishing member by being caught by a locking protrusion inside the groove of the pillar structural member through the assembly hole or the assembly gap of the finishing member.

Therefore, the multi-structure pillar for assembly facilities and the pillar for assembly facilities made of the metal or synthetic resin of the present invention, by improving the material and structure to improve the rigidity to prevent deformation, distortion, vibration in the assembly facility, more safety Easy and economical assembly and maintenance of assembly facilities is possible.

In addition, it is possible to improve the robustness and stability of the installation of the finishing material by the fixture, there is an effect that can be more conveniently attached and replace the finish of a variety of designs and excellent materials.

Pagora, Columns of Assembly Facilities, Column Structural Materials, Fixtures

Description

Multiple Pillar Construction for Assembling Building and Pillar for Assembling Building using Metal or Plastics}

The present invention relates to a multi-structure pillar assembly material and assembly facilities made of metal or synthetic resin, and more particularly, the material is a metal or synthetic resin, the durability for the assembly facilities due to the multi-structure pillars By using the structural member and the fixture, it is possible to install the finishing material more convenient and robust, and relates to a pillar for the assembly facility for easy maintenance of the pillar structural material and the finishing material.

Recently, the public's taste is riding the cultural wind of well-being. In addition, as the demand for nature-friendly environment increases, not only the space that was considered as a place for rest, such as parks, resorts, and tourist facilities, but also the space inside the apartment complex, the roof of the building, etc. Wherever you can, there is a nature-friendly resting place. Various types of prefabricated facilities such as pagora are generally used to create the above resting space.

Conventionally, materials such as steel and wood have been used as structural materials for pillars for assembly facilities such as pagora. However, structural materials made of steel are stable, but their appearance is simple and corroded, which makes them permanently unusable. Structural materials made of wood have rigidity due to deformations such as insects being eaten, twisted or cracked over time. There was a problem of deteriorating and hurting aesthetics. In addition, the finishing materials used in conjunction with the existing structural material is also limited in material and if the corrosion or breakage needs to be repaired as a whole to repair, there was a problem that the cost is increased and takes a lot of time.

Accordingly, the present invention has been made to solve the above problems, the present invention improves the material and structure of the pillars for assembly facilities to improve the rigidity to prevent deformation, distortion, vibration in the pillars for assembly facilities more secure and In addition, it is possible to construct simple and economical assembly facilities, and to improve the robustness and stability of the installation of finishing materials, and to provide a method of attaching and replacing various designs and materials of excellent materials more conveniently. It is for.

The cylindrical structural member for a multi-structure assembly facility made of metal or synthetic resin according to the first embodiment of the present invention for achieving the above object, a plurality of grooves are formed in the longitudinal direction at regular intervals along the outer peripheral surface, A fixing piece protruding in the longitudinal direction is formed at the intermediate point between the groove and the groove, the center portion is a cylindrical outer tube formed of a hollow, and has a predetermined interval in the cylindrical outer tube is inserted in the longitudinal direction and fixed to the steel, the central portion Characterized in that consisting of a cylindrical inner tube formed of a hollow.

Square pillar structural member for a multi-structure assembly facility made of a metal or synthetic resin according to the second embodiment of the present invention, the groove is formed in the longitudinal direction at the midpoint of the outer peripheral surface of the four sides, each perpendicular to the two outer peripheral surface forming a corner A fixing piece protruding in the longitudinal direction is formed in the corner, the central portion is formed of a hollow hollow outer tube, and the square cylindrical outer tube has a predetermined interval and is inserted into the longitudinal direction and fixed in steel, the central portion is hollow Characterized in that consisting of a rectangular cylindrical inner tube formed.

In the cylinder for assembly facilities according to the third embodiment of the present invention, a plurality of grooves are formed along a circumference of the outer circumferential surface in a longitudinal direction at regular intervals, and the protrusions protruding at the same depth so as to be symmetrical on both inner sides of the groove are multi-stage. It is formed, and a plurality of grooves and the fixing piece protruding in the longitudinal direction in the middle of the groove is formed, the central portion is a cylindrical structural member made of a cylindrical outer tube formed in a hollow, and is processed so as to be installed closely between the fixing piece, At least one assembly hole is drilled at a position corresponding to the groove of the cylindrical structure member, and through the assembly hole of the finish member to be caught by a locking projection inside the groove of the cylindrical structure member to bind the pillar structure member and the finish member. Characterized in that it comprises a fixture.

In the square pillar for the assembly facility according to the fourth embodiment of the present invention, grooves are formed in the longitudinal direction at the midpoint of the outer circumferential surface of the four sides, and both sides of the grooves are formed with multi-step locking protrusions protruding at the same depth to be symmetrical. Each of the two outer circumferential surfaces forming a corner is perpendicular to each other, and a fixing piece protruding in the longitudinal direction is formed at the corner, and the center portion is formed so as to be closely installed between the square pillar structure member made of a rectangular cylindrical tube formed in a hollow. And a processing member, through which the at least one assembling hole is drilled at a position corresponding to the recess of the rectangular pillar structural member, and through the assembly hole of the finishing member to be caught by a locking protrusion inside the recess of the rectangular pillar structural member. It characterized in that it comprises a fastener for binding the finish material The.

In the cylinder for assembly facilities according to the fifth embodiment of the present invention, a plurality of grooves are formed along a circumference of the outer circumference in a longitudinal direction at regular intervals. And a fixed piece protruding in the longitudinal direction at an intermediate point between the plurality of grooves and the grooves, and a central portion of the cylindrical structure formed of a cylindrical outer tube formed in a hollow, and between the grooves of the cylindrical structure material and the fixing piece. And a fastener for fastening the cylindrical structural member and the finishing member by being caught by a locking protrusion inside the groove of the pillar structure member by passing through an assembly gap between the finishing member and the finishing member installed between the finishing member and the fixing piece which are installed to be installed in close contact with each other. It is characterized by.

In the square pillar for the assembly facility according to the sixth embodiment of the present invention, grooves are formed in the longitudinal direction at the midpoint of the outer circumferential surface of the four sides, and both sides of the grooves are formed with a multi-step locking protrusion formed at the same depth so as to be symmetrical. And a fixing piece protruding in the longitudinal direction at the corners and perpendicular to the two outer circumferential surfaces forming the corners, the center portion having a rectangular pillar structure made of a rectangular cylindrical tube formed in a hollow, and the groove of the rectangular pillar structure and The square pillar structure member and the finish member are caught by a locking protrusion inside the groove of the pillar structure member by passing through an assembly gap between the finish member installed between the fixing member and the fixing member installed between the fixing member and the fixing member. It characterized in that it comprises a fastener for binding.

The present invention improves the structure and material of the pillars for assembly facilities to improve the rigidity to prevent deformation, distortion, vibration in the assembly facilities and reduce the risk of instantaneous destruction by multiple structures, easy and quick assembly Allow the construction of the facility. In addition, by using the fasteners to bind the finishing material and the column structure to improve the robustness and stability in installing the finishing material, it is possible to more conveniently attach and replace a variety of designs and finishes of excellent materials. In addition, due to the divided installation method of the finishing material, it is possible to reduce the cost in terms of material and time during maintenance of the finishing material by replacing only the parts that need to be repaired.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating a pagora which is a general assembly facility in which the present invention may be used.

2 is a plan sectional view of the cylindrical structural member 100 according to the first embodiment of the present invention.

The cylindrical structural member 100 is a pillar member for supporting an assembly facility, such as a pagora, the material is made of metal or synthetic resin.

As shown, in the form of a general cylinder, in the outer tube 110, the circular hollow 130 is formed in the center, the circular hollow 140 is formed in the center and the outer diameter smaller than the outer diameter of the outer tube 110 The inner tube having 120 is inserted in the longitudinal direction is fixed to the steel. A predetermined interval is formed between the outer tube 110 and the inner tube 120.

Looking at the outer tube 110, a plurality of grooves 150 are formed in the longitudinal direction at regular intervals along the outer circumferential surface, the locking projections 160 protruding at the same depth so as to be symmetrical on both inner sides of the grooves 150. ) Is formed in multiple stages. The locking jaw 530 of the fastener 500 passing through the assembly hole 310 of the finishing material 300 or the locking device 600 passing through the assembly gap 410 between the finishing material 400 and the finishing material 400. The piece 630 is secured to the cylindrical structure member 100 and the finishing materials (300, 400) by engaging the engaging projection 160. The multi-stage locking projections 160 formed at predetermined depths in the grooves 150 are not limited to the design and thickness of the finishing materials 300 and 400 as much as possible, and the finishing materials 300 and 400 are maximized in the cylindrical structural member 100. Make sure that they can be installed tightly.

The fixing piece 170 protruding by a predetermined height in the longitudinal direction is formed at an intermediate point between the plurality of grooves 150 and the grooves 150. One side of the fixing piece 170 is connected in the longitudinal direction with the outer circumferential surface of the outer tube 110, the other side of the T-shaped fixing jaw 180 for preventing the separation of the finishing material (300, 400) integrally Is formed.

In the cylindrical structural member 100, one or more inner tubes 120 may be interpolated coaxially with the outer tubes 110. In this case, the inner tube 120 having a higher degree of interpolation into the hollow 140 of the inner tube 120 has a smaller outer diameter than the inner tube 120 of the previous degree.

3 is a cross-sectional plan view of a square pillar structural member 200 according to a second embodiment of the present invention.

The square pillar structural member 200 is a pillar member for supporting an assembly facility such as a pagora, and the material is made of metal or synthetic resin.

As shown, in the form of a general rectangular pillar, in the outer tube 210 formed with a rectangular hollow 230 in the center, a rectangular hollow 240 is formed in the center and smaller than the outer diameter of the outer tube 210. The inner tube 220 having a length is interpolated in the longitudinal direction is fixed to the steel. A predetermined interval is formed between the outer tube 210 and the inner tube 220.

Looking at the outer tube 210, the groove 250 is formed in the longitudinal direction in the middle of the outer peripheral surface of the four sides, both sides of the groove 250, the locking projections 260 protruding at the same depth so as to be symmetrical multi-step Is formed. The locking jaw 530 of the fastener 500 passing through the assembly hole 310 of the finishing material 300 or the locking piece of the fastener 600 passing through the assembly gap 410 between the finishing material 400 and the finishing material 400. 630 is fastened to the locking projection 260 to firmly bind the square pillar structural member 200 and the finishing materials (300, 400). The multi-stage locking projections 260 formed at predetermined depths in the grooves 250 are not limited to the design and thickness of the finishing materials 300 and 400 as much as possible, and the finishing materials 300 and 400 are formed in the rectangular pillar structure 200. Make sure that they can be installed tightly.

The two outer peripheral surfaces forming the corners of the outer tube 210 are perpendicular to each other, and the fixing piece 270 is formed by protruding at a predetermined height in the longitudinal direction. One side of the fixing piece 270 is connected in the longitudinal direction with the outer circumferential surface of the outer tube 210, the other side of the T-shaped fixing jaw 280 for preventing the separation of the finishing material (300, 400) integrally Is formed. The T-shaped fixing jaw 280 at the ends of the two fixing pieces 270 formed perpendicular to one edge of the outer tube 210 may be gently connected to form a rounding process.

In the rectangular pillar structure 200, one or more inner tubes 220 may be interpolated coaxially with the outer tubes 210. In this case, the inner tube 220 inserted into the hollow 240 of the inner tube 220 has an outer diameter smaller than that of the inner tube 220 of the previous degree as the inner tube 220 having a higher degree of interpolation.

The cylindrical structural member 100 of the first embodiment and the square pillar structural member 200 of the second embodiment are made of metal or synthetic resin, and are resistant to corrosion, compression, tension, and warpage, and are stronger than conventional column structural materials using steel or wood. Can be used. Improved rigidity than the existing single-structure pillar structure by inserting a plurality of inner tubes (120, 220) in the outer tube (110, 210) of the cylindrical structural member 100 or the rectangular column structural member 200 to form a multi-structure It can secure and prevent instantaneous destruction.

In addition, the fixing piece (170, 270) allows to fix the plate-like finish (300, 400) to the outside firmly and easily. Finishing materials (300, 400) are divided into several pieces to be fixed, so each piece can be replaced or repaired at the time of maintenance, and economical, and the attachment surface becomes wider, so that the finishing materials (300, 400) can be more stably attached.

4A is a cross-sectional plan view of the cylindrical structural member 100 according to the third embodiment of the present invention, and FIG. 4B is a perspective view of the cylindrical structural member 100 according to the third embodiment of the present invention.

As shown, the cylinder for the assembly facility according to the third embodiment is composed of a cylindrical structural member 100, the finishing material 300 and the fixture 500.

First, looking at the cylindrical structural member 100, a circular hollow 130 is formed in the center of the outer tube 110 of the general cylindrical form, a plurality of grooves 150 are formed in the longitudinal direction at regular intervals along the outer circumference The locking protrusions 160 protruding at the same depth to be symmetrical are formed in both stages of the recess 150. A fixing piece 170 protruding by a predetermined height in the longitudinal direction is formed at an intermediate point between the plurality of grooves 150 and the grooves 150. One side of the fixing piece 170 is connected in the longitudinal direction to the outer peripheral surface edge of the cylindrical structural member 100, the other side of the T-shaped fixing jaw 180 to prevent the separation of the finishing material 300 integrally Is formed. The material of the cylindrical structural member 100 is made of metal or synthetic resin.

In the cylindrical structural member 100, one or more inner tubes 120 may be coaxially interpolated to the outer tubes 110. In this case, the higher the order interpolated into the hollow 140 of the inner tube 120, the smaller the outer diameter of the inner tube 120 of the previous order. A predetermined gap is formed between the outer tube 110 and the inner tube 120 to fix the steel.

Next, looking at the finishing material 300, the finishing material 300 is processed in size and design is closely installed between each of the fixing piece 170, the position corresponding to the groove 150 of the cylindrical structural member 100 At least one assembly hole 310 is drilled in the hole. The fastener 500 passing through the assembly hole 310 of the finishing material 300 is caught by the catching protrusion 160 inside the groove 150 of the cylindrical structural material 100, and thus the finishing material 100 and the finishing material. 300 is bound. The finishing material 300 may be used a variety of materials, such as stone, iron, glass, artificial stone, plastic.

Finally, looking at the fastener 500, the hemispherical main body 510 and the elastic insertion is divided by the bottom notch with a predetermined length at the center of the cross-section of the main body 510 to be inclined in the shape of the upper and lower beams The rod 520 is integrally formed at both lower ends of the elastic insertion rod 520, and includes a locking jaw 530 to prevent separation of the finishing material 300. The fastener 500 passes through the assembly hole 310 of the finishing material 300 and is caught by the locking protrusion 160 inside the recess 150 of the cylindrical structural member 100 and the cylindrical structural member 100. Bind the finish 300. According to the thickness and design of the finish 300, the catching projection 530 of the fastener 500 is caught on the engaging projection 160 of a suitable depth can be applied to the finish 300 of various thicknesses.

5A is a cross-sectional plan view of a square pillar structural member 200 according to a fourth embodiment of the present invention. 5B is a perspective view of a square pillar structural member 200 according to a fourth embodiment of the present invention.

As shown, the square pillar for the assembly facility according to the fourth embodiment is composed of a square pillar structural member 200, the finishing material 300 and the fixture 500.

First, looking at the rectangular pillar structural member 200, a rectangular hollow 230 is formed in the center of the outer tube 210 of the general rectangular pillar shape, the groove 250 is formed in the longitudinal direction at the midpoint of the outer peripheral surface of the four sides, On both inner sides of the recess 250, a locking protrusion 260 protruding at the same depth to be symmetrical is formed in multiple stages. Each of the two outer peripheral surfaces forming the corners of the rectangular pillar structural member 200 is perpendicular to each other, and the fixing piece 270 protrudes from the edge in the longitudinal direction. One side of the fixing piece 270 is connected in the longitudinal direction with the outer peripheral surface edge of the rectangular pillar structural member 200, the other side is integrally formed with a T-shaped fixing jaw 280 to prevent separation of the finishing material 300 Is formed. The T-shaped fixing jaw 280 at the ends of the two fixing pieces 270 formed perpendicular to one corner may be gently connected to form a rounding process. The material of the square pillar structural member 200 is made of metal or synthetic resin.

One or more inner tubes 220 of the square pillar structure member 200 may be coaxially interpolated to the outer tubes 210. In this case, as the degree interpolated into the hollow 240 of the inner tube 220 increases, the outer tube has a smaller outer diameter than the inner tube 220 of the previous degree. A predetermined interval is formed between the outer tube 210 and the inner tube 220 to fix the steel.

Next, looking at the finishing material 300, the finishing material 300 is processed in size and design closely between each of the fixing piece 270, corresponding to the groove 250 of the square pillar structural member 200 At least one assembly hole 310 is drilled in position. The fastener 500 that has passed through the assembly hole 310 of the finishing material 300 is caught by the locking protrusion 260 inside the recess 250 of the rectangular pillar structural member 200 so that the rectangular pillar structural member 200 is fixed. And the finish 300 is bound. The finishing material 300 may be used a variety of materials, such as stone, iron, glass, artificial stone, plastic.

Finally, looking at the fastener 500, the hemispherical main body 510 and the elastic insertion is divided by the bottom notch with a predetermined length at the center of the cross-section of the main body 510 to be inclined in the shape of the upper and lower beams The rod 520 and the lower end of the elastic insertion rod 520 is integrally configured to include a locking step 530 for preventing the departure of the finishing material 300. The fastener 500 is passed through the assembly hole 310 of the finishing material 300 to be caught by the locking projections 260 inside the groove 250 of the rectangular pillar structure member 200, thereby forming the rectangular pillar structure member 200. ) And the finishing material 300 is bound. According to the thickness and design of the finish 300, the catching projection 530 of the fastener 500 is caught on the engaging projection 260 of a suitable depth can be applied to the finish 300 of various thicknesses.

The cylinder for the assembly facility of the third embodiment and the square column for the assembly facility of the fourth embodiment are made of metal or synthetic resin, and thus are more resistant to corrosion, compression, tension, and warpage than the existing column structure using steel or wood, and thus can be used for a long time. Can be. By inserting a plurality of inner tubes (120, 220) inside the column structure (100, 200) to form a multi-structure to ensure the improved rigidity than the existing column structure of a single structure, it can prevent instantaneous destruction have.

In addition, the fixing piece (170, 270) allows to fix the plate member in the form of a plate 300 to the outside firmly and easily. Finishing material 300 is fixed in several pieces, so each piece during maintenance can be replaced or repaired economically, and can be attached to the finishing material 300 more stably by widening the attachment surface.

In addition, by binding the finishing material 300 and the column structure (100, 200) by using the fastener 500 can improve the robustness and stability of the installation of the finishing material 300, and the finish material 300 of various designs and excellent materials It can be attached and replaced more conveniently.

Figure 6a is a plan sectional view of a cylindrical structural member 100 according to the fifth embodiment of the present invention. 6B is a perspective view of the cylindrical structural member 100 according to the fifth embodiment of the present invention.

As shown, the cylinder for the assembly facility according to the fifth embodiment consists of a cylindrical structural member 100, the finishing material 400 and the fixture 600.

First, looking at the cylindrical structural member 100, a circular hollow 130 is formed in the center of the outer tube 110 of the general cylindrical form, a plurality of grooves 150 are formed in the longitudinal direction at regular intervals along the outer circumference The locking protrusions 160 protruding at the same depth to be symmetrical are formed in both stages of the recess 150. The fixing piece 170 protruding by a predetermined height in the longitudinal direction is formed at an intermediate point between the plurality of grooves 150 and the grooves 150. One side of the fixing piece 170 is connected in the longitudinal direction with the outer peripheral surface of the cylindrical structural member 100, the other side is integrally formed with a T-shaped fixing jaw 180 for preventing the departure of the finishing material 400 do. The material of the cylindrical structural member 100 is made of metal or synthetic resin.

In the cylindrical structural member 100, one or more inner tubes 120 may be coaxially interpolated to the outer tubes 110. In this case, the higher the order interpolated into the hollow 140 of the inner tube 120, the smaller the outer diameter of the inner tube 120 of the previous order. A predetermined gap is formed between the outer tube 110 and the inner tube 120 to fix the steel.

Next, looking at the finishing material 400, the finishing material 400 is processed in size and design is closely installed between each of the groove 150 and the fixing piece 170, the groove of the cylindrical structural member 100 ( Due to the installation of the finishing material 400 at positions symmetrically on both sides about 150, an assembly gap 410 is created between the finishing material 400 and the finishing material 400. The fastener 600 passing through the assembly gap 410 between the finishing material 400 and the finishing material 400 is caught by the locking protrusion 160 inside the groove 150 of the cylindrical structural member 100, thereby forming the cylindrical structural member. 100 and the finish 400 is bound. The finishing material 400 may be used a variety of materials, such as stone, iron, glass, artificial stone, plastic.

Finally, looking at the fixture 600, the semi-circular main body 610, and having a predetermined length at the center of the cross-section of the main body 610 is divided by a notch in the lower portion in the longitudinal direction inclined to the upper and lower light shape It is formed integrally with the lower end of the elastic insertion piece 620 and the elastic insertion piece 620 is made of a locking piece 630 for preventing the departure of the finishing material 400. The fixture 600 is passed through the assembly gap 410 between the finishing material 400 and the finishing material 400 is caught by the engaging projection 160 inside the groove 150 of the cylindrical structural member 100 The cylindrical structural member 100 and the finishing member 400 is bound. According to the thickness and the design of the finish 400, the catching member 630 of the fastener 600 is caught by the catching protrusion 160 of a suitable depth to apply the finish 400 of various thicknesses.

7A is a cross-sectional plan view of a square pillar structural member 200 according to a sixth embodiment of the present invention. 7B is a perspective view of a square pillar structural member 200 according to a sixth embodiment of the present invention.

As shown, the square pillar for the assembly facility according to the sixth embodiment is composed of a square pillar structural member 200 and the finishing material 400 and the fixture 600.

First, looking at the rectangular pillar structural member 200, a rectangular hollow 230 is formed in the center of the outer tube 210 of the general rectangular pillar shape, the groove 250 is formed in the longitudinal direction at the midpoint of the outer peripheral surface of the four sides, On both inner sides of the recess 250, a locking protrusion 260 protruding at the same depth to be symmetrical is formed in multiple stages. Each of the two outer peripheral surfaces forming the corners of the rectangular pillar structural member 200 is perpendicular to each other, and the fixing piece 270 protrudes from the edge in the longitudinal direction. One side of the fixing piece 270 is connected in the longitudinal direction with the outer peripheral surface edge of the rectangular pillar structural member 200, the other side is integrally formed with a T-shaped fixing jaw 280 to prevent separation of the finishing material 400 Is formed. The T-shaped fixing jaw 280 at the ends of the two fixing pieces 270 formed perpendicular to one corner may be gently connected to form a rounding process. The material of the square pillar structural member 200 is made of metal or synthetic resin.

One or more inner tubes 220 of the square pillar structure member 200 may be coaxially interpolated to the outer tubes 210. In this case, as the degree interpolated into the hollow 240 of the inner tube 220 increases, the outer tube has a smaller outer diameter than the inner tube 220 of the previous degree. A predetermined interval is formed between the outer tube 210 and the inner tube 220 to fix the steel.

Next, looking at the finish 400, the finish 400 is processed in size and design is closely installed between each of the groove 250 and the fixing piece 270, the groove of the square pillar structural member 200 Due to the installation of the finishing material 400 at positions symmetrically on both sides about the 250, an assembly gap 410 is created between the finishing material 400 and the finishing material 400. The fastener 600, which has passed through the assembly gap 410 between the finishing material 400 and the finishing material 400, is caught by the locking protrusion 260 inside the recess 250 of the rectangular pillar structural member 200. The square pillar structural member 200 and the finish member 400 are bound. The finishing material 400 may be a variety of materials such as stone, iron, glass, artificial stone, plastic.

Finally, looking at the fixture 600, the semi-circular main body 610, and having a predetermined length at the center of the cross-section of the main body 610 is divided by a notch in the lower portion in the longitudinal direction inclined to the upper and lower light shape It is formed integrally with the lower end of the elastic insertion piece 620 and the elastic insertion piece 620 is made of a locking piece 630 for preventing the departure of the finishing material 400. The fixture 600 is passed through the assembly gap 410 between the finishing material 400 and the finishing material 400 is caught by the locking projections 260 inside the groove 250 of the rectangular pillar structural member 200. The square pillar structural member 200 and the finishing member 400 are bound. According to the thickness of the finishing material 400, the locking piece 630 of the fastener 600 is caught by the locking protrusion 260 of a suitable depth, so that the finishing material 400 of various thicknesses can be applied.

The cylinder for the assembly facility of the fifth embodiment and the square column for the assembly facility of the sixth embodiment have all the advantages of the above-described third and fourth embodiments, as well as the fifth embodiment. Since the finishing material 400 used in the sixth embodiment does not have an assembly hole 310, the field production of the finishing material 400 is more convenient, and it is also easier to recycle and use the finishing material 400.

In addition, in the third to sixth embodiments, a material having a width and length that can be inserted between the finishing materials 300 and 400 and the fixing pieces 170 and 270 and having a suitable elasticity Insert the auxiliary fixture 700 made of, iron, glass, tiles, etc. Finishing material (300, 400) of difficult material to be processed T-shaped fixing jaw (180, 280) of the fixing piece (170, 270) Make sure that it is tightly attached to the body.

In the third to sixth embodiments, the present invention is a counterpart of the opposite shape corresponding to one-to-one correspondence with the flat cross section of the pillar structure member 100.200 of the present invention at a location where it meets with the ground or another member. Form a bracket (not shown in the figure), characterized in that the insertion and removal from each other, and fixed by sandwiching each other. By forming the brackets and fixing them to each other, construct a more stable and convenient assembly facility than existing facilities, and prevents the occurrence and instability of vibration due to malocclusion.

In the accompanying drawings for the above embodiments, the pillar structure is shown as an example of a circle and a square, but other polygons will be said to belong to the claims of the present invention.

Embodiments of the present invention are disclosed in the drawings and the detailed description, and the specific terms used above are used only for the purpose of describing the present invention, and are used to limit the scope of the present invention as defined in the meaning or claims. It is not.

Therefore, those skilled in the art can be various modifications and other equivalent embodiments from this, and the true technical protection scope of the present invention should be determined by the technical spirit of the claims.

1 is a perspective view showing a typical pagora

2 is a cross-sectional plan view of the cylindrical structural member according to the first embodiment of the present invention;

3 is a cross-sectional plan view of a square pillar structural member according to a second embodiment of the present invention.

4A is a cross-sectional plan view of a cylinder according to a third embodiment of the present invention.

4b is a perspective view of a cylinder according to a third embodiment of the present invention;

Figure 5a is a cross-sectional plan view of a square pillar according to a fourth embodiment of the present invention

Figure 5b is a perspective view of a square pillar according to the fourth embodiment of the present invention

Figure 6a is a plan sectional view of a cylinder according to a fifth embodiment of the present invention

6b is a perspective view of a cylinder according to a fifth embodiment of the present invention;

7A is a cross-sectional plan view of a square pillar according to a sixth embodiment of the present invention.

Figure 7b is a perspective view of a square pillar according to the sixth embodiment of the present invention

8A is a perspective view of a fixture according to a third or fourth embodiment of the present invention;

8B is a perspective view of a fixture according to the fifth or sixth embodiment of the present invention;

* Description of the major reference marks *

100: cylindrical structural member 200: square cylindrical structural member

110, 210: outer tube 120, 220: inner tube

130, 140, 230, 240: hollow 150, 250: groove

160, 260: stopper 170, 270: fixed piece

180, 280: fixed jaw 300, 400: finishing material

310: assembly hole 410: assembly gap

500, 600: fixture 510, 610: main body

520: elastic insertion rod 620: elastic insertion piece

530: locking jaw 630: locking piece

700: auxiliary fixture 800: bracket

Claims (24)

delete delete delete delete delete delete delete delete In the cylinder for the assembly facility, A plurality of grooves 150 are formed in the longitudinal direction at regular intervals along the outer circumferential surface, and both sides of the grooves 150 are formed with multi-stage locking protrusions 160 protruding at the same depth so as to be symmetrical. A fixing piece 180 protruding in the longitudinal direction is formed at the intermediate point of the groove 150 and the groove 150, the central portion of the cylindrical structural member 100 consisting of a cylindrical outer tube 110 formed of a hollow 130 Wow; Finishing material 300 is processed so as to be installed in close proximity between each of the fixing piece 180, the at least one assembly hole 310 perforated at a position corresponding to the groove 150 of the cylindrical structural member 100; And The cylindrical structural member 100 and the finishing member 300 by passing through the assembly hole 310 of the finishing member 300 is caught by the locking protrusion 160 inside the groove 150 of the cylindrical structural member 100. It comprises a fastener 500 to bind, The fastener 500 has a hemispherical main body 510 and an elastic insertion rod 520 having a predetermined length at the center of the cross section of the main body 510 and divided by a notch in the lower part to be inclined in the shape of upper and lower beams. ), And a cylinder for an assembly facility, characterized in that it is integrally formed at both bottoms of the elastic insertion rod (520) having a locking step (530) for preventing the departure of the finishing material (300). The method according to claim 9, wherein the cylindrical structural member 100, Forming a predetermined interval and coaxially interpolating into the hollow 130 of the outer tube 110 to fix the steel; Has an outer diameter smaller than the outer tube (110); The central portion is formed of a circular hollow 140; Cylinder for assembly facilities, characterized in that it further comprises at least one cylindrical inner tube (120). The method according to claim 9, wherein the cylindrical structural member 100, Cylinder for assembly facilities, characterized in that the material is made of metal or synthetic resin. delete In the square pillar for the assembly facility, Grooves 250 are formed in the longitudinal direction at midpoints of the outer circumferential surfaces of the four sides, and both sides of the grooves 250 are formed with multi-step locking protrusions 260 protruding at the same depth so as to be symmetrical. A fixing member 270 which is perpendicular to the outer circumferential surface and protrudes in the longitudinal direction at the corners, and has a square pillar structure member 200 formed of an outer tube 210 having a rectangular cylindrical shape formed at a hollow portion 230; Finishing material 300 is processed so as to be installed in close proximity between the fixing piece 270, at least one assembly hole 310 perforated at a position corresponding to the groove 250 of the rectangular pillar structural member 200; And The square pillar structural member 200 and the finishing member 300 are caught by the locking protrusion 260 inside the groove 250 of the square pillar structural member 200 through the assembly hole 310 of the finish member 300. It comprises a fastener 500 for binding), The fastener 500 has a hemispherical main body 510 and an elastic insertion rod 520 having a predetermined length at the center of the cross section of the main body 510 and divided by a notch in the lower part to be inclined in the shape of upper and lower beams. ), And the square pillar for the assembly facility, characterized in that it is integrally formed at both lower ends of the elastic insertion rod (520) having a locking step (530) for preventing the departure of the finishing material. The method according to claim 13, wherein the square pillar structure member 200, Forming a predetermined interval and coaxially interpolating into the hollow 230 of the outer tube 210 to fix the steel; Has an outer diameter smaller than the outer tube (210); A central hollow 240 formed at a central portion thereof; Square pillar for assembly facilities, characterized in that it further comprises at least one rectangular tube 220 of at least one. The method according to claim 13, wherein the square pillar structure member 200, Square pillar for assembly facilities, characterized in that the material is made of metal or synthetic resin. delete In the cylinder for the assembly facility, A plurality of grooves 150 are formed in the longitudinal direction at regular intervals along the outer circumferential surface, and both sides of the grooves 150 are formed with multi-stage locking protrusions 160 protruding at the same depth so as to be symmetrical. A fixing piece 170 protruding in the longitudinal direction at the intermediate point between the groove 150 and the groove 150 is formed, the center portion is a cylindrical structural member 100 consisting of a cylindrical outer tube 110 formed of a hollow 130 Wow; Finishing material 400 is processed to be installed in close contact between the groove 150 and the fixing piece 170 of the cylindrical structural member 100; And The cylindrical structural member is passed between the finishing member 400 and the finishing member 400 installed between the fixing pieces 170 to be caught by the engaging protrusion 160 inside the groove 150 of the cylindrical structural member 100. Cylinder 100 for assembly facilities comprising a fixture 600 for binding the 100 and the finish (400). The method according to claim 17, wherein the cylindrical structural member 100, Forming a predetermined interval and coaxially interpolating into the hollow 130 of the outer tube 110 to fix the steel; Has an outer diameter smaller than the outer tube (110); The central portion is formed of a circular hollow 140; Cylinder for assembly facilities, characterized in that it further comprises at least one cylindrical inner tube (120). The method according to claim 17, wherein the cylindrical structural member 100, Cylinder for assembly facilities, characterized in that the material is made of metal or synthetic resin. The method according to claim 17, The fixture 600, A semi-circular body 610; An elastic insertion piece 620 having a predetermined length at the center of the cross section of the main body 610 and divided by a notch in the lower part to be inclined in the shape of the upper and lower light and formed in the longitudinal direction; And The cylinder for assembly facilities, characterized in that it comprises an engaging piece 630 for integrally configured at the lower end of the elastic insertion piece 620 to prevent the departure of the finishing material 400. In the square pillar for the assembly facility, Grooves 250 are formed in the longitudinal direction at midpoints of the outer circumferential surfaces of the four sides, and both sides of the grooves 250 are formed with multi-step locking protrusions 260 protruding at the same depth so as to be symmetrical. A fixing member 270 which is perpendicular to the outer circumferential surface and protrudes in the longitudinal direction at the corners, and has a square pillar structure member 200 formed of an outer tube 210 having a rectangular cylindrical shape formed at a hollow portion 230; Finishing material 400 is processed to be installed in close contact between each of the groove 250 and the fixing piece 270 of the rectangular pillar structure 200; And Passing between the finishing member 400 and the finishing member 400 installed between each of the fixing piece 270 is caught by the locking projection 260 inside the groove 250 of the rectangular pillar structure member 200 Square pillar for assembly facilities, characterized in that it comprises a fixture 600 for binding the structural member 200 and the finishing material 400. The method according to claim 21, The square pillar structure member 200, Forming a predetermined interval and coaxially interpolating into the hollow 230 of the outer tube 210 to fix the steel; Has an outer diameter smaller than the outer tube (210); A central hollow 240 formed at a central portion thereof; Square pillar for assembly facilities, characterized in that it further comprises at least one rectangular tube 220 of at least one. The method according to claim 21, The square pillar structure member 200, Square pillar for assembly facilities, characterized in that the material is made of metal or synthetic resin. The method according to claim 21, The fastener 600, A semi-circular body 610; An elastic insertion piece 620 having a predetermined length at the center of the cross section of the main body 610 and divided by a notch in the lower part to be inclined in the shape of the upper and lower light and formed in the longitudinal direction; And Square pillars for assembly facilities, characterized in that the integral inserts are formed at both lower ends of the elastic insertion piece 620 to include a catching piece 630 for preventing separation of the finishing material.

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