KR20110010333U - Installation structure of ceiling pannel enabling no caulking construction - Google Patents

Abstract

The present invention relates to a ceiling panel installation structure for constructing a ceiling inside a building to which HACCP is applied, such as a food processing warehouse or a storage warehouse. Forming a multi-stage fitting of the hanger, which is a coupling means of the ceiling panel, and forming a reinforcement corresponding to the protruding multistage fitting of the hanger, and a separate interlocking body fitted between the hangers and the neighboring ceiling panels. By providing a construction in the non-caulking method for the ceiling panel through these,
Since the lower ends of the ceiling panels are constructed in a state of being interviewed with each other, it is unnecessary to caulk neighboring ceiling panels, and as construction is performed in a non-coking manner, it is possible to shorten the construction period and reduce construction costs. Because of the small gaps between the ceiling panels, predetermined air communication is achieved, so that they have excellent cushioning against pressure changes in the upper and lower ceiling panels. It is possible to prevent the fall to the more hygienic and reasonable ceiling construction, the ceiling panel constructed by the non-coking method is very reasonable because it can be reused and recycled immediately without any additional post-treatment.

Description

Installation structure of ceiling pannel enabling no caulking construction}

The present invention relates to a ceiling panel installation structure for constructing a ceiling inside a building to which HACCP is applied, such as a food processing warehouse or a storage warehouse, and more specifically, to a conventional ceiling panel and a hanger. By improving the structure, it is possible to shorten the air by eliminating the caulking work for the gap between the ceiling panels arranged in all directions on the plane, and to reduce the construction cost and provide excellent strength to pressure changes, while preventing foreign material inflow. The effect was improved.

In general, in a workshop where a high purity of the room is to be maintained, such as a semiconductor manufacturing plant or a pharmaceutical manufacturing plant, a ceiling formed by continuously combining or connecting a panel in the form of a square plate is formed.

Such a ceiling panel is generally such that continuous construction in a non-fastening manner is performed through a separate hanger and a holder, as in Utility Model Registration No. 0155218, and the ceiling panel typically bends a sheet steel sheet. It is made by foaming and filling urethane foam in the inner space of the outer frame in the state of manufacturing the outer frame, and thus the ceiling panel has a continuous connection construction through the hanger formed by forming guide protrusions on both sides. The hanger is to have a structure that is inserted and fixed from the holder which is directly fixed to the ceiling slab.

Accordingly, in the state in which the holder is fixed to the lower surface of the ceiling slab in advance, the hanger and the ceiling panel are sequentially coupled and inserted, thereby making the non-fastening construction of the ceiling panel continuous.

However, the ceiling panels and holders as described above do not faithfully play an effective role in workplaces where salt is frequently exposed.

In other words, facilities for processing, processing, and storing various animals and plants from the sea are usually strictly subject to Hazard Analysis and Critical Control Points (HACCP), which produce, manufacture, and distribute food. This is to provide safe and hygienic food by strictly limiting or blocking various hazards that may occur in the process through the above management standards.

Accordingly, since a typical seafood contains a large amount of salt, when the factory is constructed using a general type of panel or hanger, the salt and corrosion and oxidation of the panel and the hanger are generated. As corrosion and oxides drop or float into the room, they often violate the Hazard Critical Control Standards.

In other words, in the workplace where the above-mentioned critical control criteria of hazards are applied, corrosion by salt and dew condensation by moisture act as lethal hazards. As it is deposited on the surface, it acts as a main cause of corrosion and oxidation, and harmful moisture or moisture falls to indoor workplaces due to condensation occurring at the joints of these ceiling panels due to the temperature difference between the inner and outer surfaces of the ceiling panels. Or condensation or deterioration as these condensation flows, which causes a problem of contaminating the workplace.

Accordingly, among the workplaces to which the Hazardous Critical Control Points are applied, particularly in the case of seafood processing and processing facilities where seafood is exposed to salt, or in warehouses for seafood storage, ceiling panels with excellent thermal barrier action and corrosion or oxidation treatment from salt and There is an urgent need for hangers.

Accordingly, the applicant of the present invention, as shown in 2009 Patent Application No. 7834 and FIG. 1, the upper and lower surfaces of the panel on which the urethane foam layer 101 is formed, the steel sheet 102 having a coating layer of vinyl chloride resin ( 102 ') and a ceiling panel 100 having a frame 103 made of a resin having fittings on the side of the panel, and having insertion supports 111 and 111' between the ceiling panels 100. Non-fastening using a plurality of ceiling panels 100, 100 'and hangers 110 and holders 120 and anchor bolts 130, with a hanger 110 made of synthetic resin in a continuous length direction protruding By allowing the panel to be installed,

The coating layer on the surface reduces the heat conduction effect of the ceiling panel made of metal sheet to improve the heat shielding effect, and protects the metal sheet from salt, and the hanger made of synthetic resin also has low heat conductivity and excellent resistance to salt. Since there is a feature, there has been proposed a non-fastening panel installation structure using a ceiling panel and a hanger having an improved structure of features that can reasonably overcome the problems of conventional ceiling panels and hangers.

However, the ceiling panel mounting structure as described above has a structure in which the cross section of the ceiling panel and the ceiling panel cannot be matched due to the extrusion thickness of the hanger, which inevitably leads to a gap between the neighboring ceiling panels. It is.

Accordingly, due to the gap as described above, since the tightness is greatly reduced, such as various foreign substances fall into the room or dust is introduced into the room, the caulking work for filling the gap of the ceiling panel after fixing the ceiling panel as described above. Should be done.

Therefore, the work time is very long due to the caulking work as described above, the construction period is extended, and due to the nature of the caulking work that must be relied on manual work, the construction cost is increased due to excessive spending of labor costs, and the lower side of the ceiling panel When the pressure change occurs between the indoor space and the ceiling space on the upper side of the ceiling panel, there is a problem that it is extremely vulnerable to the pressure change due to the structure in which air is not communicated at all.

In addition, in the case of reusing the ceiling panel as described above, it is impossible to reuse the ceiling panel by the caulking material formed on the edge, or it is extremely unreasonable in terms of recycling because it is necessary to spend a lot of time to remove the caulking material. .

The present invention improves the problems as described above, and forms a multi-stage fitting of the downward protrusion on the edge of the ceiling panel, and a reinforcing portion corresponding to the multi-stage fitting of the protrusion is formed on the hanger that is the coupling means of the ceiling panel. And, by having a separate interlocking body that is fitted between the hanger and the adjacent ceiling panel with each other so that the construction in the non-caulking method for the ceiling panel through them,

It is an object of the present invention to provide a ceiling panel installation structure that enables construction of a non-caulking method, which has reasonably overcome various problems that the ceiling panel and its construction structure have had.

The present invention for achieving the above object is, the ceiling member is formed between the top and bottom spaced apart of the panel steel plate is formed with the outwardly formed grooves and the foam panel formed between the panel steel sheet and the frame member, the fitting In the ceiling panel mounting structure in which the support portion inserted into the groove is fixedly spaced apart from the lower ceiling by using a hanger protruding to both sides,

The fitting groove of the frame member is formed by a multi-stage protrusion projecting downward gradually, and the hanger forms a vertical reinforcement part corresponding to the multi-stage protrusion, but the induction inserts inserted into the fitting grooves are projected to both sides. A hanger disposed between the ceiling panels and the hangers arranged in parallel with each other through the hanger and the interlocking body so that side and bottom ends of neighboring ceiling panels are interviewed in all directions. It is configured to be in close construction to the ceiling panel portion by the interlocking body located in a plane orthogonal direction from the hanger.

In the present invention, since the lower ends of the ceiling panels are constructed in a state where they are interviewed to coincide with each other, the caulking work for the neighboring ceiling panels is unnecessary. It is possible to save, and because the air gap is made according to the minute gap between the ceiling panels, it has excellent cushioning against pressure change in the upper and lower ceiling panels, and various foreign matters between the ceiling panels through the improved hanger and the coupling body. It is possible to prevent the inflow or fall into the room more hygienic and reasonable ceiling construction is possible, the ceiling panel constructed by the non-caking method is very reasonable because it can be immediately reused and recycled without any additional post-treatment.

1 is a cross-sectional view showing a conventional ceiling panel installation structure
2 is a perspective view showing a ceiling panel installation structure according to the present invention
3 is a partially enlarged cross-sectional view of the ceiling panel according to the present invention
Figure 4 is a cross-sectional overall view of the hanger in the installation structure according to the present invention
Figure 5 is a cross-sectional overall view of the coupling body in the installation structure according to the present invention
Figure 6 is an enlarged view of the coupling portion of the hanger and the ceiling panel of the installation structure according to the present invention
7 is an enlarged view of the coupling portion between the coupling body and the ceiling panel of the installation structure according to the present invention

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its design in the best possible way It must be construed as a meaning and a concept consistent with the technical idea of the present invention based on the principle.

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

Figure 2 is a perspective view showing a ceiling panel installation structure according to the present invention, Figure 3 is a partially enlarged cross-sectional view of the ceiling panel according to the present invention, Figure 4 is a cross-sectional overall view of the hanger in the installation structure according to the present invention, Figure 5 is a cross-sectional overall view of the coupling body in the installation structure according to the present invention.

As shown in the installation structure of the ceiling panel according to the present invention using the existing ceiling panel 10 and the hanger 20, the lower surface of the ceiling by using a separate holder and anchor bolt (as in the conventional drawing of Figure 1) The ceiling panel 10 is formed of a foam layer 12 using a urethane material or the like between the panel steel sheets 11 and 11 'spaced apart from each other. As the edge member 20 made of a synthetic resin material is inserted at the edge between the steel sheets 11 and 11 ', the ceiling panel 10 having a planar square or rectangular shape is completed.

At this time, the edge member 20 is formed with a plurality of upper and lower fitting grooves 21 and 21 'facing the outer side of the ceiling panel 10, the fitting grooves 21 and 21'. Is formed by the multi-stage protrusions 22 and 22 'protruding downward gradually, and the multi-stage protrusions 22 and 22' gradually move upward from the bottom to the top of the panel steel sheets 11 and 11 '. It has a form that is shortened toward the end.

In addition, the hanger 30 has a vertical flat form that is continuously extruded and produced, and both sides of the hanger 30 are inserted into the fitting portions 21 and 21 ′ of the rim member 20. A plurality of support portions 31, 31 'are formed to protrude in the lateral direction. At this time, by forming the vertical reinforcement portion 32 thicker than the thickness of the original hanger 30 in the middle portion of the hanger 30 corresponding to the support portions 31 and 31 ', the effect of strength and tight construction It will be further improved.

In particular, the present invention is to use a separate interlocking body (40) and the hanger 30, the sealing of the gap to the neighboring ceiling panel 10 and the transverse coupling between each other is made, between the above The assembly 40 also has a vertical flat plate shape that is continuously extruded, and on both sides, the guide inserts 41 and 41 ′ in the transverse direction protrude upward and downward in multiple stages.

Accordingly, the support portions 31 and 31 ′ of the hanger 30 are coupled to one edge member 20 of the ceiling panel 10 in a state in which a plurality of the ceiling panels 10 are manufactured, and the hangers 30 are formed. Sequential finishing construction for the lower surface of the ceiling is made by inserting the edge member 20 of the other ceiling panel 10 on the other side of the.

At this time, the hanger 30 is formed in succession at a predetermined interval side by side with respect to the ceiling panel 10 in a planar arrangement state, the coupling body 40 is orthogonal to the hanger 30 As the position of the hanger 30 is to allow the entire ceiling panel 10 is installed fixedly spaced apart from the lower surface of the ceiling, the coupling body 40 is inserted into the gap between the neighboring ceiling panel (10). The gap is to fill the gap and at the same time serves to couple the neighboring ceiling panel 10 in the transverse direction.

Looking at the cross section of the construction state for the ceiling panel 10 and the hanger 30 and the coupling body 40 as described above First, in the case of the ceiling panel 10 and the hanger 30, the hanger 30 as shown in FIG. The support portions 31 and 31 'protruding to both sides of the ceiling panel 10 are inserted into the fitting grooves 21 and 21' on the opposite edge members 20 of the ceiling panels 10 adjacent to each other. 10 is a state in which the lower and lower ends are interviewed with each other by the multi-level protrusions 22 and 22 'protruding downward, so that the gap between the ceiling panels 10 adjacent to each other is not seen in the room and is simply a line tangent. Since only the part is to be seen, a separate caulking operation for filling the gap as in the prior art is unnecessary.

In addition, the support portions 31 and 31 ′ may be introduced into and positioned in the gaps between the ceiling panels 10 while being inserted and positioned at upper and lower sides from the fitting grooves 21 and 21 ′ of the rim member 20. Will act as a protective material to block various foreign matter. In particular, the vertical reinforcing portion 32 formed in the middle portion of the hanger 30 can be manufactured to have a sufficiently thick thickness by the multi-stage projections 22, 22 'of the rim member 20 of the ceiling panel 10 It is to increase the strength in the vertical direction to the hanger 30 to which the entire load acts so that a more stable suspension construction can be achieved.

7 is a cross-sectional view showing a coupling state between the ceiling panel 10 and the coupling body 40 according to the present invention, the induction inserts 41 and 41 ′ protruding to both sides from the coupling body 40 are also mutually. While being inserted into the fitting grooves 21 and 21 ′ formed in the edge member 20 of the neighboring ceiling panel 10, they are positioned in close contact with each other by the coupling body 40. It prevents foreign matters from the ceiling which may flow into the gap of the ceiling panel 10 and at the same time does not generate gaps between the ceiling panels 10 and only the tangents in the form of lines are seen, which is also unnecessary for caulking work as in the prior art. will be.

The ceiling panel installation structure of the present invention does not need a caulking operation to fill the gap between the neighboring ceiling panel 10, the construction period is very shortened, the construction cost is greatly reduced due to the minimization of labor costs. In addition, the ceiling panel 10 as described above is not in the airtight connection state by caulking, but is in close contact with each other on the side cross-section is able to actively cope with the pressure changes occurring in the upper and lower parts of the ceiling panel 10. The deformation or deflection of the ceiling panel 10 due to the pressure change does not occur, and various foreign matters falling from the upper ceiling or various foreign matters introduced into the upper ceiling space from the outside are introduced into the room through the gap of the ceiling panel 10. Facilities for processing, processing, storage and storage of seafood that contain large amounts of salts while being covered by Hazard Analysis and Critical Control Points (HACCP). It can be used very effectively in warehouses, etc.

The embodiments described in the present specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical ideas of the present invention, and various equivalents and modifications may be substituted for them. It should be understood that there may be examples.

10: ceiling panel 11,11 ': panel steel sheet
12: foam layer
20: frame member 21,21 ': fitting groove
22,22 ': Multistage protrusion
30: hanger 31,31 ': support part
32: vertical reinforcement
40: interconjugate 41,41 ': guide inlet

Claims (1)

An edge member 20 having outward fitting grooves 21, 21 ′ formed between the panel steel plates 11 and 11 ′ spaced apart from each other is positioned between the panel steel plates 11, 11 ′ and the edge member. The ceiling panel 10 having the foam layer 12 formed therebetween, and the hangers 30 protruding from both sides of the support portions 31 and 31 'inserted into the fitting grooves 21 and 21'. In the ceiling panel installation structure that is fixedly installed spaced from the lower part of the ceiling,
The fitting grooves 21 and 21 'of the rim member 20 are formed by the multi-stage protrusions 22 and 22' protruding downward gradually, and the hanger 30 is the multi-stage protrusions 22 and 22. ') To form a vertical reinforcement portion 32, the inlet insertion hole 41, 41' is inserted into the insertion groove (21) (21 ') of the separate interlocking body (40) protruding to both sides With
Although the lower and lower ends of the neighboring ceiling panels 10 are interviewed in all directions, the construction of the close contact between the ceiling panels 10 is performed through the hanger 30 and the coupling body 40, but the ceiling panels 10 are planar. By the hanger 30 arranged side by side along with the coupling body 40 located in the plane orthogonal direction from these hangers 30 is configured to be in close construction to each other adjacent to the ceiling panel 10 Ceiling panel installation structure which enables construction of caulking-free method.

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