KR102183554B1 - Rigid reinforced duct - Google Patents

Abstract

According to the present invention, a dust with reinforced rigidity comprises: a main body unit having a cylindrical shape by bonding adjacent end parts of plate bodies while the plate bodies are wound in a spiral shape; and a rigidity maintaining unit integrally formed in a polygonal shape on the surface of the main body unit to maintain rigidity of the duct, wherein curves are formed at every boundary points of the rigidity maintaining unit. According to the present invention, the surface of the main body unit has a polygonal structure and the boundary points are formed to be curved so as to maintain the same rigidity as a conventional thickness while using the thinner main body unit than the conventional one and thereby reduce material costs, and also to have the aesthetically improved appearance so as to have an excellent design effect.

Description

Reinforced duct {Rigid reinforced duct}

The present invention relates to a duct having reinforced rigidity, and more particularly, to a duct having a different surface structure to reinforce the rigidity.

In general, a duct is a fluid moving facility that supplies a fluid having an appropriate temperature for the purpose of air conditioning facilities, cooling and heating, and the like using a metal plate.

The duct is generally composed of a galvanized steel plate or stainless steel plate with a thickness of several mm, and a square duct and a circular duct are widely used depending on the shape of the cross section.

For example, in the case of a square duct, a galvanized steel plate or stainless steel plate of a certain length is usually cut and bent, and the body is completed by joining both ends, and then connecting flanges are formed at both ends of the duct for connection between the ducts. In addition, the flanges for connection to these duct units are combined with bolts and nuts to extend to a desired length.

A technology related to such a duct has been proposed in Korean Patent Publication No. 2011-0075455.

However, Patent Document 1 has a problem that is easily deformed by an external force because it is manufactured with a thin steel plate.

Korean Patent Publication No. 2011-0075455 (2011.07.06)

The present invention has been conceived to solve the above problems, and provides a duct with reinforced stiffness capable of reinforcing stiffness even when the thickness of the body is formed thin by providing a polygonal bend on the surface of the main body. have.

A duct having reinforced rigidity according to the present invention for achieving the above object comprises: a body portion formed in a cylindrical shape by joining adjacent ends in the process of winding a plate body in a spiral shape; And a rigidity holding unit integrally formed on the surface of the main body in a polygonal structure to maintain rigidity, wherein the rigidity maintaining unit may be curved at each boundary point.

The rigidity maintaining part may be formed before the body part is wound, or may be formed in the process of winding the body part.

While the rigidity maintaining portion is formed on the surface of the body portion, the shape may be maintained while passing through the upper and lower rollers in which corresponding grooves are formed so as not to contact the rigidity maintaining portion.

The rigidity holding portion may be formed while passing the body portion through upper and lower rollers having grooves and protrusions respectively formed on a surface thereof at a position corresponding to the rigidity holding portion.
The duct having reinforced rigidity of the present invention comprises: a body portion formed in a cylindrical shape by joining adjacent ends in the process of winding the plate body in a spiral shape; And a stiffness retaining unit integrally formed on the surface of the main body in a polygonal structure to maintain stiffness, wherein the stiffness retaining unit is formed with bends at each boundary point, and the main unit maintains the rigidity formed with irregularities to reinforce the stiffness of the plate material. An additional pre-formed inner surface portion and the edge portion of a metal plate having an edge portion provided at the end of the inner surface portion are continuously joined and wound in a spiral shape to form a cylindrical shape, and the body portion is bent at one end 111a in the longitudinal direction (S1) Is formed and the other end in the longitudinal direction 111b is formed flat without a bent part, so that the other end in the longitudinal direction 111b is placed in close contact with the space formed by the bent part S1 of one end 111a in the longitudinal direction, and by mutual welding It is characterized by bonding and connecting.

According to the present invention, the surface of the main body has a polygonal structure and is bent at each boundary point, so that even if the main body having a thinner thickness compared to the existing one is used, the same stiffness as the existing thickness is maintained, thereby reducing material cost, and the design effect is also excellent. It has an excellent advantage.

1 is a front view showing a duct with reinforced rigidity of the present invention.
2 is a perspective view showing a state in which a plate body for constituting a main body part is wound in a spiral shape in a duct having reinforced rigidity of the present invention.
3 is a side view showing a state in which the body portion is wound in a cylindrical shape by upper and lower rollers in the duct having reinforced rigidity of the present invention.
FIG. 4 is a side view showing a state in which grooves or grooves and protrusions are formed in upper and lower rollers corresponding to the rigidity holding portions in order to manufacture the duct with reinforced rigidity of the present invention.
5 is a cross-sectional view showing a state before and after the operation of a binding unit for connection with an adjacent extension duct in the duct with reinforced rigidity of the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing in detail a preferred embodiment of the present invention with reference to the accompanying drawings. Hereinafter, a duct having reinforced rigidity according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front view showing a duct with reinforced rigidity of the present invention, and FIG. 2 is a perspective view showing a state in which a plate body for constituting a body part in a duct with reinforced rigidity of the present invention is wound in a spiral shape, and FIG. 3 Is a side view showing a state in which the body part is wound in a cylindrical shape by upper and lower rollers in the duct with reinforced rigidity of the present invention, and FIG. 4 is a side view corresponding to the stiffness holding part to manufacture the duct with reinforced rigidity of the present invention. It is a side view showing a state in which grooves or grooves and protrusions are formed in the upper and lower rollers, and FIG. 5 is a cross-sectional view showing a state before and after the operation of a binding unit for connection with an adjacent extension duct in the duct with reinforced rigidity of the present invention.

1 to 5, the duct 100 with reinforced rigidity of the present invention is connected to allow air or other fluids to flow therein, and includes a body portion 110 and a rigidity holding portion 120 do.

The main body 110 is formed in a cylindrical shape by bending a metal plate as shown in Figs. 1 and 2, and is made of vinyl chloride, zinc iron plate, stainless steel, glass fiber, and plate.

Further, the main body 110 is formed in a cylindrical shape by joining adjacent ends in the process of winding the plate body in a spiral shape (see FIG. 2 ).

That is, a long rectangular plate is passed between the upper and lower rollers 10 and 20 rotated in the symmetrical direction to be wound in a spiral shape, and the connection part between the one end 111a and the other end 111b in the longitudinal direction is welded (W ), etc.

At this time, a groove is formed at one end 111a in the longitudinal direction of the body portion 110, and the other end 111b in the longitudinal direction is formed with a private shape without a groove, and is then joined by welding (W) or the like.

Moreover, the main body portion 110 may have connection ducts 100' connected to both ends to extend the length.

The rigidity maintaining part 120 is formed in a polygonal structure on the surface of the main body 110 as shown in FIGS. 1 and 3 to maintain the rigidity of the main body 110.

Here, the rigidity holding unit 120 is illustrated as having an octagonal shape, and is not limited thereto, and may be changed to a pentagonal or hexagonal shape.

At this time, the rigidity holding part 120 is formed integrally on the surface of the body part 110 by passing between the upper and lower rollers 10 and 20.

Here, the rigidity maintaining portion 120 may be formed before the body portion 110 is wound, or may be formed during the winding process of the body portion 110.

That is, when the rigidity maintaining unit 120 is formed before the body unit 110 is wound, the rigidity maintaining unit 120 is not contacted with the rigidity maintaining unit 120 formed on the surface of the body unit 110. The shape is maintained without deformation while passing through the upper and lower rollers 10 and 20 in which the grooves 12a and 22a are formed, respectively.

In addition, when the rigidity holding portion 120 is formed in the process of winding the body portion 110, the upper and lower grooves 12b and the protrusions 22b are respectively formed at a position corresponding to the rigidity holding unit 120 on the surface. It is formed while the body portion 110 passes through the rollers 10 and 20.

Therefore, if the rigidity holding portion 120 is formed before the body portion 110 is wound, the shape of the rigidity holding portion 120 when the body portion 110 is wound is formed in the grooves 12a formed in the upper and lower rollers 10 and 20. A groove corresponding to the rigidity holding portion 120 is formed on the surfaces of the upper and lower rollers 10 and 20 so that they can be maintained without being deformed by the 22a).

And when the rigidity holding part 120 is formed during the winding process of the main body 110, the upper and lower rollers 10 each having a groove 12b and a protrusion 22b formed at a position corresponding to the rigidity maintaining part 120 on the surface. The body portion 110 is formed while passing through 20).

That is, the rigidity holding part 120 is a groove 12b formed on the outer circumferential surface of the upper roller 10 while the protrusion 22b formed on the outer circumferential surface of the lower roller 20 compresses the back surface of the main body 110 It is formed while being accommodated within.

At this time, a groove 12b corresponding to the rigidity holding portion 120 is formed on the outer peripheral surface of the upper roller 10, and a protrusion 22b corresponding to the rigidity holding portion 120 is formed on the outer peripheral surface of the lower roller 20 Although illustrated as being, it can be formed in the opposite direction.

Accordingly, the rigidity maintaining unit 120 allows the plane and the curved surface to coexist while forming a curved surface at each boundary point of an octagon.

Moreover, since the rigidity holding unit 120 has the same angle between the vertices according to the hexagonal shape, it is easy to match the direction of the vertices of the divided plates in the process of bending the plate body constituting the multiple divided body unit 110. . If the rigidity holding unit 120 has a diamond shape or the like, if a vertex with a small angle and a vertex with a large angle are adjacent to each other, the work becomes difficult because it is not aesthetically pleasing.

As described above, the duct 100 with reinforced rigidity of the present invention has a polygonal structure on the surface of the main body 110 and a rigidity retaining unit 120 formed at each boundary point is provided with a thin steel plate, etc. The rigidity is maintained, so it is possible to reduce the material cost, and the polygonal structure has the advantage of enhancing the aesthetics.

Meanwhile, referring to FIG. 5, when the duct 100 and the connection duct 100 ′ are connected, a step 112 ′ is formed at the end of the connection duct 100 ′, and is bound to the end of the duct 100 Each of the parts 130 is installed for each of the radially formed long holes 113 and is bound to the stepped step 112 ′ of the connection duct 100 ′.

To this end, the binding portion 130 has a side shape in a "b" shape, and a binding protrusion 132 protrudes at one end extending in the horizontal direction, and penetrates the long hole 113 at the other end extending in the vertical direction. The moving protrusion 136 is formed so as to be.

On the other hand, the binding portion 130 is provided with a metal material, or the like, and a gap is formed between the end of the body portion 110 and the binding protrusion 132 to have a gap corresponding to the thickness of the connection duct 100'.

Here, the binding protrusion 132 is formed in a triangular shape, such as the shape of the stepped jaw 112 ′ of the connection duct 100 ′, and is not separated from the stepped jaw 112 ′ when combined.

And the moving protrusion 136 is provided with an extension piece 134 larger than the area of the long hole 113 to close the long hole 113 regardless of the moving direction of the binding portion 130 at the bottom.

At this time, the moving protrusion 134 is provided to be gripped by hand when the binding unit 130 is moved by a helical shaft, and when the position of the binding unit 130 is determined, the fastening nut 138 to limit the movement of the binding unit 130 Is concluded.

Therefore, when connecting the duct 100 with reinforced rigidity of the present invention and the connection duct 100 ′, the end of the body portion 110 of the duct 100 is on the stepped 112 ′ of the connection duct 100 ′. After coupling so as to be in close contact, when the binding protrusion 132 moves the moving protrusion 136 along the long hole 113 so that the binding protrusion 132 is coupled to the lower portion of the stepped jaw 112 ′ of the connection duct 100 ′, the fastening nut ( By tightening 138, the fastening nut 138 and the extension piece 134 are fastened at the upper and lower portions of the long hole 113, so that the position of the binding portion 130 is fixed.

In this way, in a state in which the binding protrusion 132 of the binding portion 130 is coupled to the stepped portion 112 ′ of the connection duct 100 ′, the moving protrusion 136 of the binding portion 130 is the main body of the duct 100 Since it is firmly fastened by the fastening nut 138 to the long hole 113 formed in (110), the duct 100 and the connection duct 100' are firmly coupled.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features. You can understand. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting.

10: upper roller
20: lower roller
100: duct
110: main body
120: rigidity holding part

Claims (4)

A body portion formed in a cylindrical shape by joining adjacent ends in the process of winding the plate body in a spiral shape; And
Including; a rigidity holding unit that is integrally formed in a polygonal structure on the surface of the main body to maintain rigidity,
The stiffness maintaining part is curved at each boundary point,
The body portion is formed in a cylindrical shape by continuously joining the edge portion of a metal plate material having a pre-formed stiffness retaining portion formed in advance to reinforce the rigidity of the plate material and an edge portion provided at the end of the inner surface portion,
The body portion has a bent portion (S1) formed at one end (111a) in the longitudinal direction, and the other end (111b) in the longitudinal direction is formed flat without a bent portion, so that the other end (111b) in the longitudinal direction is bent ( A duct with reinforced rigidity, characterized in that it is positioned so as to be in close contact with the space formed by S1) and joined by mutual welding. The method of claim 1,
The rigidity maintaining portion is formed before the body portion is wound or is formed during the winding process of the body portion.
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