CN109025031B - Movable container office building corridor lighting ceiling and construction method thereof - Google Patents

Abstract

The invention discloses a movable corridor lighting ceiling in a container office building, which comprises a plurality of lighting assemblies arranged on the corridor ceiling, wherein the lighting assemblies are used as lighting channels in the corridor; the lighting component comprises glass, a connecting plate and a fixing frame; the fixing frame comprises two channel steels and a plurality of connecting rods; the channel steels are arranged in parallel at a certain distance, and the notches are opposite; the connecting rod is vertically connected between the two channel steels, and two ends of the connecting rod are fixedly arranged in the middle of the notch; two side edges of the glass are respectively connected with a connecting plate, and the connecting plates are parallel to the glass surface; the outer side edge of each connecting plate is connected to the upper surface of the channel steel, and the glass has a certain drainage gradient; and a heat preservation and insulation layer is filled in a space formed by the connecting plate and the fixing frame. The invention not only meets the waterproof requirement of the ceiling, but also can naturally collect light, better creates comfortable office environment and obtains good economic benefit.

Description

Movable container office building corridor lighting ceiling and construction method thereof

Technical Field

The invention relates to the technical field of lighting of corridor roofs in spliced container office buildings, in particular to a movable corridor lighting roof in a container office building and a construction method thereof.

Background

Along with the development of modern building industry, the engineering construction speed is continuously accelerated, and the movable container is widely applied to engineering construction and other fields. The large-scale container office building increasingly adopts double-spelling combination mode, and corridor in the office building adopts the mode of light illumination generally, and most of each day is the light illumination state, just can ensure the illumination demand. While the light illumination meets the basic illumination requirements, it consumes more power and has low visual comfort.

Disclosure of Invention

The invention aims to: the invention aims to overcome the defects of the prior art, and provides a movable lighting ceiling for a corridor in a container office building and a construction method thereof, so as to solve the problems of high power consumption and low visual comfort caused by a mode of lighting by adopting a light in the corridor in a spliced container office building in the prior art.

The technical scheme is as follows: the utility model provides a movable corridor daylighting ceiling in container office building, includes a plurality of daylighting subassemblies of installing on corridor ceiling, the daylighting subassembly is used as the inside daylighting passageway in corridor.

Further, the lighting component comprises glass, a connecting plate and a fixing frame; the fixing frame comprises two channel steels and a plurality of connecting rods; the channel steels are arranged in parallel at a certain distance, and the notches are opposite; the connecting rod is vertically connected between the two channel steels, and two ends of the connecting rod are fixedly arranged in the middle of the notch;

two side edges of the glass are respectively connected with a connecting plate, and the connecting plates are parallel to the glass surface; the outer side edge of each connecting plate is connected to the upper surface of the channel steel, and the glass has a certain drainage gradient; and a heat preservation and insulation layer is filled in a space formed by the connecting plate and the fixing frame.

Further, the clamping head is formed by combining a cross rod and a vertical rod into an L-shaped structure;

the inner sides of the two side edges of the channel steel are symmetrically and fixedly connected with a clamping head, the cross bars of the clamping head are connected to the bottom end of the inner side of the side edge of the channel steel, and the distance between vertical bars of the clamping head is equal to the thickness of the connecting rod.

Further, the connecting rod is a straight-line aluminum buckle plate suspended ceiling.

Further, the connecting plate is a galvanized groove pressing plate; the inner side edge of the connecting plate is connected to the side edge of the glass through elastic structural adhesive.

Further, the glass is double-layer laminated tempered glass.

Further, the device also comprises a slope angle supporting rod; the slope angle support rod is fixedly arranged on the corridor ceiling, and the lower surface of the glass is attached to the upper surface of the slope angle support rod.

The invention relates to a construction method of a corridor lighting ceiling in a movable container office building, which is characterized by comprising the following steps:

(1) Installing the container in place according to the layout; measuring the size deviation of the corridor on site and checking;

(2) Manufacturing a lighting component according to the size;

(3) Lifting and installing a lighting assembly;

(4) Water leakage prevention treatment is carried out at the joint; rain inspection and repair;

(5) Cleaning and checking.

Further, the manufacturing of the lighting component comprises the following steps:

(1) Hoisting and installing channel steel;

(2) The straight aluminum pinch plate suspended ceiling is installed;

(3) Filling a heat preservation and insulation layer;

(4) Installing and splicing the galvanized grooved plate and the glass;

(5) And (5) overall waterproof treatment of the lighting assembly.

Further, the installation and splicing of the galvanized grooved plate and the glass comprises the following steps:

(1) The slope angle support rod is fixedly arranged on the corridor ceiling and forms a certain drainage slope;

(2) Lifting and installing glass; a PVC double-sided adhesive sheet is adopted, and the lower surface of the glass is adhered to the upper surface of the slope angle supporting rod;

(3) The inner side edge of the connecting plate is connected to the side edge of the glass through elastic structural adhesive.

Compared with the prior art, the invention has the beneficial effects that:

(1) The waterproof ceiling meets the waterproof requirement of the ceiling, can naturally collect light, better creates a comfortable office environment, saves electric energy consumption to a great extent, and achieves good economic benefit;

(2) The invention is suitable for the construction of the corridor ceiling in all double-spliced office buildings;

(3) The invention uses the environment-friendly and energy-saving livability concept to achieve the effects of comfortable natural lighting and environment-friendly and energy-saving; the double-layer laminated toughened glass has good heat preservation and heat insulation performance while meeting the requirement of natural lighting; meanwhile, the finished ceiling has good mounting and dismounting performance, can be recycled, greatly reduces the consumption of electric energy, and is environment-friendly, so that great social benefits can be brought by popularization and application of the method.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a top view of a corridor ceiling with several lighting assemblies installed;

in the figure, 1-channel steel, 2-double-layer laminated toughened glass, 3-clamping heads, 4-environment-friendly glass fiber cotton, 5-I-shaped aluminum pinch plate suspended ceilings, 6-galvanized groove pressing plates and 7-slope angle supporting rods.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: referring to fig. 1-3, a lighting ceiling of a corridor in a movable container office building comprises a plurality of lighting components mounted on the ceiling of the corridor, wherein the lighting components are used as lighting channels in the corridor;

the lighting component comprises glass, a connecting plate and a fixing frame; the fixing frame comprises two channel steels 1 and two connecting rods; the channel steels 1 are arranged in parallel at a certain distance, and the notches are opposite; the space between the channel steels 1 is larger than the width of glass;

the connecting rod is vertically connected between the two channel steels 1, and two ends of the connecting rod are fixedly arranged in the middle of the notch; the channel steel 1 and the connecting rod are combined into a frame-shaped structure;

two side edges of the glass are respectively connected with a connecting plate, and the connecting plates are parallel to the glass surface; the outer side edge of each connecting plate is connected to the upper surface of the channel steel 1, and the glass has a certain drainage gradient; and a heat preservation and insulation layer is filled in a space formed by the connecting plate and the fixing frame.

In order to achieve a more stable connection of the connecting rod with the channel steel 1; the clamping head 3 is formed by combining a cross rod and a vertical rod into an L-shaped structure;

the inner sides of the two side edges of the channel steel 1 are symmetrically and fixedly connected with a clamping head 3, the cross bars of the clamping head 3 are connected to the bottom end of the inner side of the side edge of the channel steel 1, and the distance between vertical bars of the clamping head 3 is equal to the thickness of the connecting rod.

The connecting rod is a straight aluminum pinch plate suspended ceiling 5; the glass is double-layer laminated tempered glass 2;

the connecting plate is a galvanized groove pressing plate 6; the inner side edge of the connecting plate is connected with the side edge of the glass through elastic structural adhesive;

in order to exert a supporting force on the lower side of the glass, the glass also comprises a slope angle supporting rod 7; the slope angle support rod 7 is fixedly arranged on a corridor ceiling, and the lower surface of the glass is attached to the upper surface of the slope angle support rod 7; the slope angle supporting rod 7 can be made of light square steel pipes.

The heat-insulating layer can be made of environment-friendly glass fiber cotton 4, and has good heat-insulating and mildew-proof effects.

The invention discloses a construction method of a corridor lighting ceiling in a movable container office building, which comprises the following steps:

(1) Installing the container in place according to a layout (a roof skeleton connecting bolt hole is reserved on an upper beam); measuring the size deviation of the corridor on site and checking;

(2) Manufacturing a lighting component according to the size:

a. the channel steel 1 is lifted and installed; b. the linear aluminum pinch plate suspended ceiling 5 is installed; c. filling a heat preservation and insulation layer;

d. the galvanized grooved plate 6 is installed and spliced with the glass (when in joint treatment, the elastic structure connecting agent is filled, so that the problems of cracking, water leakage and the like at the joint position are avoided); e. integral waterproof treatment of the lighting component;

(3) Lifting and installing a lighting assembly;

(4) Water leakage prevention treatment is carried out at the joint; rain inspection and repair;

(5) Cleaning and checking;

wherein, the installation and concatenation of zinc-plated indent board and glass includes following step:

(1) The square steel pipe is adopted to perform slope finding treatment on the ceiling unit framework, so that a single-slope drainage effect can be formed after glass installation is completed, and the slope finding gradient is controlled according to 1%;

(2) Lifting and installing glass; a PVC double-sided adhesive sheet is adopted, and the lower surface of the glass is adhered to the upper surface of the slope angle supporting rod 7;

(3) The inner side edge of the connecting plate is connected to the side edge of the glass through elastic structural adhesive.

In addition, other forms of elastic adhesive strips can be used for tightly adhering the slope angle support rod 7 and the glass.

When the container is custom-made (the upper beam is reserved with a roof framework connecting bolt hole) and is installed according to a layout, the following conditions are required to be met: (1) The container foundation is used for carrying out structure slope finding, so that the uniformity of the overall slope is controlled, and the slope of roof drainage is prevented from being influenced; (2) The hoisting connection line of the container is straight and the connection is tight and reliable; (3) The containers are connected by adopting a hinged U-shaped fastener; (4) controlling the elevation of the top of each container smoothly; (5) The splice between the containers is filled and compacted by adopting conical rubber strips; (5) The roof skeleton and the container skeleton beam are connected by bolts, so that the disassembly is convenient, the stress is reliable and stable, and the container skeleton beam can be repeatedly recycled.

After the container is hoisted, technicians measure the size deviation and check of the corridor on site, determine the size of the corridor ceiling and the size and position of the lighting opening, and mainly comprise the following contents:

(1) Checking the net size of the corridor by using a measuring device instrument, setting a ceiling supporting framework at a lighting opening, and allowing deviation and checking methods as shown in the following table:

notice that:

(1) each spliced part of the lighting assembly is required to be subjected to waterproof treatment, and the spliced joints, the galvanized grooved plates 6 and the contact gaps of the top surface of the container are fully filled and sealed by adopting elastic structural adhesive; the structural adhesive is filled uniformly to ensure the waterproof effect, and before the cementing waterproof treatment is carried out, the glass at the glued part is protected by the textured paper to ensure the attractive appearance of the cemented lines;

(2) after the whole surface of the ceiling is spliced, the water-proof effect is checked through rain or water spraying tests, so that no leakage is ensured;

(3) beautifying and edging the junctions of the lighting components;

(4) safety education and training are carried out on all operators, so that each worker is ensured to know operation points clearly in the knowledge of dangerous factors, materials and the like on site, and supervision, inspection and guidance are enhanced in the operation process;

(5) in the operation process, protective tools such as masks, gloves and the like are correctly used to prevent the invasion of material scraps;

(6) the glass is hoisted and installed on site, the hoisting is fixed by adopting a reliable hoisting tool, the stacking is required to be made with anti-overturning dangerous measures, the stacking layer number is not more than 2, and the stacking is prohibited to be concentrated on the roof of the container;

(7) when working near the edge, the safety belt is needed to be worn and the protection warning belt is needed to be made.

As described above, although the present invention has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the invention itself. Various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides a movable corridor daylighting ceiling in container office building which characterized in that: the daylighting assembly is arranged on the corridor ceiling and is used as a daylighting channel inside the corridor;

the lighting component comprises glass, a connecting plate and a fixing frame; the fixing frame comprises two channel steels (1) and a plurality of connecting rods; the channel steels (1) are arranged in parallel at a certain distance, and the notches are opposite; the connecting rod is vertically connected between the two channel steels (1), and two ends of the connecting rod are fixedly arranged in the middle of the notch;

two side edges of the glass are respectively connected with a connecting plate, and the connecting plates are parallel to the glass surface; the outer side edge of each connecting plate is connected to the upper surface of the channel steel (1), and the glass has a certain drainage gradient; a heat preservation and insulation layer is filled in a space formed by the connecting plate and the fixing frame; the glass is double-layer laminated toughened glass (2);

the device also comprises a slope angle supporting rod (7); the slope angle supporting rod (7) is fixedly arranged on the corridor ceiling, and the lower surface of the glass is attached to the upper surface of the slope angle supporting rod (7);

the slope angle supporting rod (7) is made of light square steel pipes.

2. The portable container office building interior hallway light ceiling of claim 1, wherein: the clamping head (3) is formed by combining a cross rod and a vertical rod into an L-shaped structure;

the inner sides of the two side edges of the channel steel (1) are symmetrically and fixedly connected with a clamping head (3), the cross bars of the clamping head (3) are connected to the bottom end of the inner side of the side edge of the channel steel (1), and the distance between vertical bars of the clamping head (3) is equal to the thickness of the connecting rod.

3. The portable container office building interior hallway light ceiling of claim 2, wherein: the connecting rod is a straight aluminum pinch plate suspended ceiling (5).

4. A portable, containerized office building hallway light ceiling as defined in claim 3, wherein: the connecting plate is a galvanized groove pressing plate (6); the inner side edge of the connecting plate is connected to the side edge of the glass through elastic structural adhesive.

5. A method of constructing a daylighting roof for a corridor in a mobile container office building as claimed in claim 4, comprising the steps of:

(1) Installing the container in place according to the layout; measuring the size deviation of the corridor on site and checking;

(2) Manufacturing a lighting component according to the size;

(3) Lifting and installing a lighting assembly;

(4) Water leakage prevention treatment is carried out at the joint; rain inspection and repair;

(5) Cleaning and checking.

6. The construction method of the corridor lighting ceiling in the movable container office building according to claim 5, wherein the manufacturing of the lighting assembly comprises the following steps:

(1) The channel steel (1) is lifted and installed;

(2) The straight aluminum pinch plate suspended ceiling (5) is installed;

(3) Filling a heat preservation and insulation layer;

(4) The galvanized grooved plate (6) is installed and spliced with the glass;

(5) And (5) overall waterproof treatment of the lighting assembly.

7. The construction method of the corridor lighting ceiling in the movable container office building according to claim 6, wherein the installation and splicing of the galvanized grooved plate and the glass comprises the following steps:

(1) The slope angle supporting rod (7) is fixedly arranged on the corridor ceiling and forms a certain drainage slope;

(2) Lifting and installing glass; a PVC double-sided adhesive sheet is adopted, and the lower surface of the glass is adhered to the upper surface of a slope angle supporting rod (7);

(3) The inner side edge of the connecting plate is connected to the side edge of the glass through elastic structural adhesive.