KR20110018667A - A conclusion method of reclamation ceiling lighting - Google Patents

Abstract

The present invention relates to a fastening method for embedding and fixing a lighting device in a ceiling made of a lightweight panel, and in particular, a socket for seating a lamp or a distributor for driving a lamp is located in the center and a semicircle or rounded corners. Forming a cap having a cross-sectional shape; Forming a panel having at least one opening having a predetermined area and having at least one opening formed in a predetermined pattern in a predetermined area, the panel having a bent portion whose open end is bent vertically upward; A third step of adhering a magnet of a predetermined size to the inner contact surface of the bent portion at the same height with respect to the longitudinal direction of the opening formed in the second step and then adhering to the panel; A fourth step of forming a cap support member having a predetermined height at a circumference along the opening formed in the second step while maintaining a predetermined distance from the opening formed in the second step; A fifth step of fixing the cap formed in the first step and the cap support member of the panel completed through the fourth step through a fastening means such as a pivot; A sixth step of finishing the ceiling completed together with the lightweight panel through the fifth step; And a seventh step of having the blade bent outwardly and pushing the opening closing plate having the metal clip on the wing into the space formed by the cap to fix the clip of the wing to the position by the magnet. It relates to a fastening method of the ceiling embedded lighting fixtures.

Description

{A conclusion method of reclamation ceiling lighting}

The present invention relates to a method of installing a ceiling-embedded lighting device, and in particular, a light panel, such as a fluorescent lamp, and a distribution system for driving the same, by installing a specific panel coplanar with the panels between the lightweight panels constituting the ceiling. The present invention relates to a fastening method of a ceiling-embedded luminaire to facilitate indoor maintenance as well as to enable indoor lighting in a state where the luminaire is not exposed to the outside of the ceiling by allowing the user to easily mount the lamp.

     In general, fluorescent lighting fixtures, which are frequently used as lighting lamps, are mainly used for indoor lighting by being disposed on the ceiling of homes or office spaces. In the case of general homes, fluorescent lighting fixtures manufactured in various forms are considered outside the ceiling. It is installed in a protruding state, and in the case of offices, the main part is to purchase a part of the body of the fluorescent light fixture inside and install it with the light bulb and the reflector exposed.

     In addition, since fluorescent lighting fixtures installed in a general bathroom are generally installed in a corner between the ceiling and the wall or in the center of the ceiling, the fluorescent lamps are largely injured in appearance, and in particular, at a predetermined distance from the concrete surface. If the lightweight panels of each other to form a ceiling is limited to the installation site due to the weight of the fluorescent light fixtures as well as having a difficult task is very difficult.

     In consideration of these points, recently, various techniques for embedding and fixing fluorescent light fixtures inside a lightweight panel have been proposed.

     For example, the technology disclosed in Korean Utility Model Registration No. 220028 is a ceiling-embedded fluorescent lamp fixing device that allows fluorescent lamp fixtures to be installed on the ceiling without cutting the C-channel. A fluorescent lamp case is installed at both ends of the bracket via an auxiliary structure and a tax, and the reflection shade of the fluorescent lamp fixture can be fixed inside the case.

     In addition, the Korean Utility Model Registration No. 257002 discloses the main body of the fluorescent lamp fixture on the support while being held on the ceiling bar disposed inside the ceiling finishing member in the state of assembling a clamp having spring elasticity on both sides of the support. It is disclosed that the configuration so that can be fixed.

     However, the techniques shown in the above-mentioned prior materials commonly damage the appearance because the fluorescent lamp is exposed from the ceiling, and furthermore, the structure is complicated and the manufacturing cost increases due to the increase in the number of parts. The problem was that the work itself was difficult.

SUMMARY OF THE INVENTION An object of the present invention for solving the above-mentioned problems relates to a method of installing a ceiling-embedded lighting fixture, and in particular, between a lightweight panel constituting the ceiling by installing a specific panel coplanar with the panels, such as fluorescent lamps therein. The ceiling lamp can be easily installed by providing lighting lamps and power distribution facilities for driving them, allowing indoor lighting without the lighting equipment being exposed to the outside of the ceiling, as well as smooth maintenance. It is to provide a fastening method of the mechanism.

Features of the fastening method of the ceiling-embedded lighting fixture according to the present invention for achieving the above object, in the fastening method for embedding and fixing the lighting fixture in the ceiling made of a lightweight panel, for mounting the lamp in the inner center A first step of forming a cap having a rectangular cross-sectional shape having a semicircle or rounded corners, the distributor or the like for driving a socket or a lamp; Forming a panel having at least one opening having a predetermined area and having at least one opening formed in a predetermined pattern in a predetermined area, the panel having a bent portion whose open end is bent vertically upward; A third step of adhering a magnet of a predetermined size to the inner contact surface of the bent portion at the same height with respect to the longitudinal direction of the opening formed in the second step and then adhering to the panel; A fourth step of forming a cap support member having a predetermined height at a circumference along the opening formed in the second step while maintaining a predetermined distance from the opening formed in the second step; A fifth step of fixing the cap formed in the first step and the cap support member of the panel completed through the fourth step through a fastening means such as a pivot; A sixth step of finishing the ceiling with the light weight panel of the structure completed through the fifth step; And a seventh step of having the wing bent outwardly and pushing the opening closing plate having the metal clip on the wing into the space formed by the cap to fix the clip of the wing by the magnet.

     As expected effects due to the above-described features of the present invention, a light panel such as a fluorescent lamp and a power distribution system for driving the same may be provided by installing a specific panel coplanar with the panels between the lightweight panels constituting the ceiling. By making it easy to install the lighting fixtures can be indoor lighting without being exposed to the outside of the ceiling as well as smooth maintenance.

      The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

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

     1 is a bottom view of a ceiling panel in which a ceiling embedded lighting fixture is mounted, and FIG. 2 is a plan side view of the ceiling panel in which the ceiling embedded lighting fixture is seated, and FIGS. 3 and 4. Figure 5 is a longitudinal cross-sectional view and enlarged perspective view of the cap applied to the present invention, Figures 5 and 6 is a longitudinal cross-sectional view showing a fastening state of the ceiling embedded lighting fixture according to the present invention, Figures 7 to 10 are in the present invention Figure is a vertical cross-sectional view illustrating a fastening process of the ceiling embedded lighting fixture according to.

     In order to apply the fastening method of the ceiling embedded lighting apparatus according to the present invention shown in FIG. 1 and FIG. 2, a dedicated ceiling panel 100 (hereinafter referred to as a panel) as shown in FIG. 2 should be provided.

     The panel 100 is constructed together with the lightweight panels used as the ceiling member of the bathroom to secure the space to be installed during the finishing process or finishing the entire ceiling with the lightweight panels.

     As described above, the reference numeral 100 refers to a panel, in which a portion of the panel 100 has two openings H1 and H2 perforated in an arbitrary pattern, and one of the openings (in the illustrated example) H2) is an area where power distribution and installation facilities are seated, and the other opening H1 is an area where an illumination lamp (usually a fluorescent lamp) is located.

The openings H1 and H2 are also bent vertically upward as the ends of the open panels are referred to by reference numeral 101.

     In addition, as shown, the vertical frame 110 and the transverse frame 111 to prevent the deformation of the panel 100 due to the load of the lighting fixtures provided on the panel 100, and to distribute the load of the lighting fixtures ) Is provided, and is not limited to the illustrated.

     First, prior to explaining the fastening process of the ceiling-embedded light fixture according to the present invention, briefly look at the drawings shown in Figures 3 to 10 attached, Figure 3 and Figure 4 is a longitudinal cross-sectional view of the cap applied to the present invention And an enlarged perspective view of main parts, FIGS. 5 and 6 are longitudinal cross-sectional views illustrating a fastening state of a ceiling embedded light fixture according to the present invention, and FIGS. 7 to 10 illustrate a fastening process of a ceiling embedded light fixture according to the present invention. It is an example of a vertical cross-sectional flow to make.

     The fastening structure according to the invention is the same for each opening H1, H2. However, the reason for examining the fastening process with reference to FIGS. 3 to 10 attached to the lighting lamp regions referred to by reference numerals H1 and H3 is for ease of explanation. Therefore, it is noted that the installation area referred to by reference number H2 is located in the distribution-related equipment instead of the lamp socket referred to by reference numeral S of FIGS. 3 and 4.

     At this time, looking at each of the drawings in more detail, Figure 3 is a cross-sectional configuration corresponding to the width direction of the opening, Figure 4 is a cross-section corresponding to the longitudinal direction of the opening, reference for the fastening and fixing of the illumination cap 200 Forming a bracket referred to as the number 201 or 202, in the accompanying Figure 3 is an example of cutting and bending a portion of the lighting cap 200 and using it as a bracket (reference numeral 201) is shown, attached to Figure 4 Shows an example of using an L-shaped bracket as a separate part (reference number 202), but is not limited thereto.

     In addition, as shown in Figures 5 and 6 attached to maintain the state in which the fastening of the ceiling-embedded lighting fixture according to the present invention is completed.

     Looking at the fastening process and the corresponding fastening structure of the ceiling-embedded lighting fixture according to the present invention, the magnet (M) of a predetermined size at the same height is in close contact (see Fig. 7 attached) to the inner contact surface of the bent portion 101, In this case, the magnet M is attached to the panel 100 with an adhesive.

     Then, a cap support member 102 forming a seat so that the illumination cap 200 shown in FIGS. 3 and 4 is attached to the panel 100 with an adhesive (see FIG. 8 attached).

     As a result, it consists of a panel structure shown in FIG. 8 and an illumination cap 200 shown in FIG. 3 and FIG. 4 attached as a structure for fastening the ceiling embedded lighting fixture according to the present invention.

     In other words, as shown in FIG. 8 attached before construction, some of the components are already maintained in a fastened state.

Since the illumination lamp (fluorescent lamp) is not attached to the socket (S) as shown in Figure 8 attached, the wing 201 of the cap 200 is pivoted to the cap support member 102 (not shown) Combined) to complete.

     When the cap 200 and the panel 100 are combined as described above, the cap 200 and the panel 100 are used for the above-described ceiling finishing process, and as shown in FIG. 10, an illumination lamp (fluorescent lamp) is inserted into the socket S. The floodlight plate referred to as 300 is fitted using the space in the opening formed by the cap 200.

     Therefore, the fastening of the ceiling embedded lighting apparatus according to the present invention is completed as shown in FIGS. 5 and 6.

     In this case, a metallic clip (not given a reference number) exists in a longitudinal direction corresponding to the magnet M at a wing portion bent outwardly of the floodlight plate 300, which is fixed by the magnetic force of the magnet M. This prevents natural departures.

     Like the floodlight plate 300, the finishing plate 400 (opaque) of the second opening H2, which is the distribution and installation area, also has a metallic clip on the wing portion bent outward.

    Therefore, the fastening structure according to the present invention implemented in the ceiling buried type proceeds from the state of FIG. 6 to the state of FIG. By replacing the floodlight plate 300 or the finishing plate 400 to replace or check the exposed lamp or power distribution facilities.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with it will know easily.

1 is a bottom view of a ceiling panel on which a ceiling embedded lighting fixture is mounted;

Figure 2 is a planar side of the ceiling panel is mounted ceiling embedded lighting fixtures according to the present invention

   Perspective view

Figure 3 and Figure 4 is a longitudinal cross-sectional view and enlarged perspective view of the cap applied to the present invention

5 and 6 are vertical and horizontal cross-sectional view showing a fastening state of the ceiling embedded lighting fixture according to the invention

7 to 10 is a fastening process of the ceiling embedded lighting fixture according to the invention

Illustrative longitudinal section flow diagram to illustrate

Claims (1)

     In the fastening method for embedding and fixing the lighting fixture in the ceiling made of lightweight panel, a socket having a socket for seating the lamp or a distributor for driving the lamp is located in the center of the interior and has a semicircle or rounded square cross-sectional shape. Forming a first step; Forming a panel having at least one opening having a predetermined area and having at least one opening formed in a predetermined pattern in a predetermined area, the panel having a bent portion whose open end is bent vertically upward; A third step of adhering a magnet of a predetermined size to the inner contact surface of the bent portion at the same height with respect to the longitudinal direction of the opening formed in the second step and then adhering to the panel; A fourth step of forming a cap support member having a predetermined height at a circumference along the opening formed in the second step while maintaining a predetermined distance from the opening formed in the second step; A fifth step of fixing the cap formed in the first step and the cap support member of the panel completed through the fourth step through a fastening means such as a pivot; A sixth step of finishing the ceiling with the light weight panel of the structure completed through the fifth step; And a seventh step of having the blade bent outwardly and pushing the opening closing plate having the metal clip on the wing into the space formed by the cap to fix the clip of the wing to the position by the magnet. How to fasten ceiling embedded lighting fixtures.

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