阅读说明：本技术 穿保温板的灯具模块化安装装置 (Lamp modular installation device penetrating through insulation board ) 是由 韩杰 方速昌 杜佐龙 陈奕才 刘堂明 王荷菲 张能友 潘曾舜 许建文 张世宏 于 2020-07-30 设计创作，主要内容包括：本发明提供了一种穿保温板的灯具模块化安装装置,包括：型钢支座,包括平台及固定于所述平台的相对两侧下方的下连接件；保温板,位于所述平台的下方,所述保温板的相对两侧分别与所述下连接件固定,所述保温板上开设有供灯具嵌设安装的安装槽；保温罩,罩设于所述安装槽上方并与所述保温板的上表面固定；供连接所述灯具的灯具吊杆,所述灯具吊杆的第一端与所述型钢支座固定,所述保温罩上开设有供所述灯具吊杆贯穿的通道,所述灯具吊杆的第二端从所述通道穿出并延伸至所述安装槽内。本发明灯具通过连接于型钢支座与保温板之间的灯具吊杆安装,避免了单独由保温板承受灯具重量,保温罩能够防止保温板与灯具之间封闭不严密导致的冷量损失。(The invention provides a lamp modularized installation device penetrating through a heat insulation plate, which comprises: the profile steel support comprises a platform and lower connecting pieces fixed below two opposite sides of the platform; the heat insulation plate is positioned below the platform, two opposite sides of the heat insulation plate are respectively fixed with the lower connecting piece, and the heat insulation plate is provided with an installation groove for embedding and installing a lamp; the heat insulation cover is covered above the mounting groove and fixed with the upper surface of the heat insulation plate; the lamp hanger rod is used for being connected with the lamp, the first end of the lamp hanger rod is fixed with the profile steel support, a channel for the lamp hanger rod to penetrate through is formed in the heat preservation cover, and the second end of the lamp hanger rod penetrates out of the channel and extends into the mounting groove. The lamp is installed through the lamp hanger rod connected between the profile steel support and the heat insulation plate, the condition that the heat insulation plate bears the weight of the lamp independently is avoided, and the heat insulation cover can prevent cold loss caused by tight sealing between the heat insulation plate and the lamp.)

1. The utility model provides a wear lamps and lanterns modularization installation device of heated board which characterized in that includes:

the profile steel support comprises a platform and lower connecting pieces fixed below two opposite sides of the platform;

the heat insulation plate is positioned below the platform, two opposite sides of the heat insulation plate are respectively fixed with the lower connecting piece, and the heat insulation plate is provided with an installation groove for embedding and installing a lamp;

the heat insulation cover is covered above the mounting groove and fixed with the upper surface of the heat insulation plate;

the lamp hanger rod is used for being connected with the lamp, the first end of the lamp hanger rod is fixed with the profile steel support, a channel for the lamp hanger rod to penetrate through is formed in the heat preservation cover, and the second end of the lamp hanger rod penetrates out of the channel and extends into the mounting groove.

2. The modular fixture installation apparatus for lamps with perforated insulation board of claim 1 wherein said platform is rectangular frame shaped.

3. The modular lamp mounting device with the heat insulation board as claimed in claim 1, wherein the lower connecting members are a plurality of connecting rods connected between the platform and the heat insulation board, and the connecting rods are arranged at intervals along the length direction of the platform.

4. The modular installation device for the lamp penetrating through the heat insulation board according to claim 1 or 3, wherein a n-shaped connecting piece is arranged between the lower connecting piece and the heat insulation board, the n-shaped connecting piece comprises an inverted U-shaped frame and two wing plates connected to two opposite sides of the inverted U-shaped frame, the two wing plates and the heat insulation board are fixedly connected through bolts and nuts, and through holes for the bolts to penetrate through are respectively formed in the two wing plates and the heat insulation board.

5. The modular installation device of lamps with insulation boards as claimed in claim 4, wherein insulation board keels are fixed inside the inverted U-shaped frame.

6. A light fitting modular mounting arrangement through an insulation board as claimed in claim 5 wherein the insulation board keel is I-steel.

7. The lamp modular installation device with the insulation board as claimed in claim 1, wherein the insulation cover comprises two first board bodies fixed on two opposite sides of the installation groove and a second board body covering the two first board bodies, and the second board body comprises a cover board part covering the tops of the two first board bodies and a butt part formed below the cover board part and clamped between the two first board bodies.

8. The modular fixture installation apparatus of claim 7 wherein the joint between the cover and the first panel is filled with foam.

9. The modular lamp mounting device with the heat insulation board as claimed in claim 7, wherein an edge wrapping piece is fixed to the outer side of the joint of the cover plate and the first plate body.

10. The modular fixture installation device for lamps with heat insulation boards as claimed in claim 1, wherein a sleeve is fixed in the channel in a sealing manner, and the hanger rod is arranged in the sleeve in a sealing manner.

Technical Field

The invention relates to the technical field of building construction, in particular to a lamp modularized installation device penetrating through a heat insulation plate.

Background

Electromechanical device is in the work progress, and the building engineering that inside needs the refrigeration, and all around and roof need be done the heated board and keep warm, will keep warm the installation of lamps and lanterns after the installation of heat preservation roof is accomplished for the illumination in whole big space. Along with the rapid development of the building industry, more and more buildings need to be kept warm for refrigerated usage, and the installation of the heat preservation plate heat preservation lamp at present adopts direct installation mostly, and the heat preservation roof directly bears the weight of the lamp, easily causes the deformation and damage of the heat preservation roof in the later period, reduces the service life of the heat preservation roof, forms the space easily, causes the refrigeration capacity to leak, causes the cold volume loss.

Disclosure of Invention

In view of the above situation, the invention provides a lamp modular installation device penetrating through an insulation board, which solves the defects that when an existing lamp is installed, the insulation board directly bears the weight of the lamp, the later-stage deformation and damage of the insulation board are easily caused, the service life of the insulation board is shortened, and when the lamp is installed, the insulation board is easily gapped to cause the loss of refrigerating capacity.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a wear lamps and lanterns modularization installation device of heated board, includes:

the profile steel support comprises a platform and lower connecting pieces fixed below two opposite sides of the platform;

the heat insulation plate is positioned below the platform, two opposite sides of the heat insulation plate are respectively fixed with the lower connecting piece, and the heat insulation plate is provided with an installation groove for embedding and installing a lamp;

the heat insulation cover is covered above the mounting groove and fixed with the upper surface of the heat insulation plate;

the lamp hanger rod is used for being connected with the lamp, the first end of the lamp hanger rod is fixed with the profile steel support, a channel for the lamp hanger rod to penetrate through is formed in the heat preservation cover, and the second end of the lamp hanger rod penetrates out of the channel and extends into the mounting groove.

In the embodiment of the invention, the platform is in a rectangular frame shape.

In the embodiment of the invention, the lower connecting pieces are a plurality of connecting rods connected between the platform and the heat-insulating plate, and the connecting rods are arranged at intervals along the length direction of the platform.

In the embodiment of the invention, a reversed U-shaped connecting piece is arranged between the lower connecting piece and the heat insulation board, the reversed U-shaped connecting piece comprises a reversed U-shaped frame and two wing plates connected to two opposite sides of the reversed U-shaped frame, the two wing plates and the heat insulation board are fixedly connected through bolts and nuts, and through holes for the bolts to penetrate through are respectively formed in the two wing plates and the heat insulation board.

In the embodiment of the invention, the heat insulation plate keel is fixed in the inverted U-shaped frame.

In the embodiment of the invention, the keel of the heat insulation plate is I-shaped steel.

In the embodiment of the invention, the heat-insulating cover comprises two first plate bodies fixed on two opposite sides of the mounting groove and a second plate body covered on the two first plate bodies, and the second plate body comprises a cover plate part covered on the tops of the two first plate bodies and a butt part formed below the cover plate part and clamped between the two first plate bodies.

In the embodiment of the invention, foaming is filled at the joint of the cover plate part and the first plate body.

In the embodiment of the invention, the edge covering piece is fixed on the outer side of the joint of the cover plate part and the first plate body.

In the embodiment of the invention, a sleeve is fixed in the channel in a sealing manner, and the suspender is arranged in the sleeve in a sealing manner.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

according to the invention, the insulation board is fixed with the profile steel support, so that the structural stability of the installation of the insulation board is ensured; the lamp is hermetically arranged in the heat insulation plate through the lamp hanger rod connected between the profile steel support and the heat insulation plate, so that the weight of the lamp is jointly borne by the heat insulation plate and the profile steel support, and the deformation of the heat insulation plate and the influence on the heat insulation effect caused by the fact that the heat insulation plate bears the weight of the lamp independently are avoided; the heat-insulating cover is covered above the lamp, so that the loss of cooling capacity caused by the fact that the space between the heat-insulating plate and the lamp is not tightly sealed can be prevented, and the heat-insulating effect is improved; according to the invention, the double heat insulation structure formed by the heat insulation plate and the heat insulation cover can effectively prevent the loss of cold energy and improve the heat insulation effect.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a lamp modular installation device penetrating through an insulation board.

Fig. 2 is a schematic cross-sectional view of the lamp modular mounting apparatus penetrating the insulation board of the present invention at the lamp.

FIG. 3 is an enlarged schematic view of a connecting node between the heat insulation plate and the section steel support at S1 in FIG. 2.

Fig. 4 is an enlarged view of the connection node between the first board and the second board at S2 in fig. 2 according to the present invention.

Fig. 5 is an enlarged schematic view of a connection node between the first plate body and the heat insulation plate at S3 in fig. 2.

Fig. 6 is an enlarged view of the junction between the jacket and the insulating cover of fig. 2 at S4 according to the present invention.

The correspondence of reference numerals to components is as follows:

a profile steel support 1; a platform 11; a lower connecting member 12; a connecting cross bar 13; c-shaped steel 14; an insulation board 2; a mounting groove 21; insulation board keel 22; a heat-insulating cover 3; a first plate body 31; a second plate 32; a cover plate portion 321; a butting portion 322; foaming a 33; the binding member 34; butyl tape 35; a nut 36; a sealant 37; a lamp hanger rod 4; a sleeve 41; foaming B42; an annular binding member 43; a seal 44; a lamp 5; a connecting piece 6 shaped like a Chinese character 'ji'; an inverted U-shaped frame 61; a wing 62; a bolt 7; and a nut 71.

Detailed Description

To facilitate an understanding of the present invention, the following description is made in conjunction with the accompanying drawings and examples.

Referring to fig. 1 and 2, the present invention provides a lamp modular installation apparatus for inserting a heat insulation board, including: the heat insulation structure comprises a profile steel support 1, a heat insulation plate 2, a heat insulation cover 3 and a lamp hanger rod 4 for connecting a lamp 5, wherein the profile steel support 1 is used for fixing the heat insulation plate 2 on a floor or a steel truss and is used as a stress supporting piece for the heat insulation plate 2, the lamp 5 and the lamp hanger rod 4, the profile steel support 1 and the lamp 5 are connected through the lamp hanger rod 4, the condition that the lamp 5 directly bears the weight of the lamp 5 by the heat insulation plate 2 when being installed is avoided, the defects that the heat insulation effect is influenced by poor sealing performance caused by deformation of the heat insulation plate 2 and deformation of the heat insulation plate 2 are avoided; the arrangement of the heat insulation cover 3 can reduce the loss of refrigerating capacity caused by the untight sealing between the lamp 5 and the heat insulation plate 2; according to the invention, the lamps 5 are arranged neatly through the modularized device, adjustment is not needed after installation, and the double heat insulation structure consisting of the heat insulation plate 2 and the heat insulation cover 3 can effectively prevent loss of cold energy and ensure the heat insulation effect.

Specifically, as shown in fig. 1, the steel support 1 includes a platform 11 and lower connecting members 12 fixed below opposite sides of the platform 11; in the embodiment of the invention, the platform 11 is in a rectangular frame shape, a plurality of connecting cross rods 13 are arranged in the rectangular frame of the platform 11, and the arrangement of the connecting cross rods 13 is favorable for increasing the structural stability of the platform 11; c-shaped steel 14 arranged along the length direction of the platform 11 is further fixed on the platform 11, and a lamp hanger rod 4 is fixed on the C-shaped steel 14; in the embodiment of the invention, the lower connecting pieces 12 are a plurality of connecting rods connected between the platform 11 and the heat-insulating plate 2, and the connecting rods are arranged at intervals along the length direction of the platform 11; the frame-shaped structure of the platform 11 is beneficial to reducing the weight of the steel support 1 and reducing the load of the steel support 1 on a floor or a steel truss.

The heat insulation plate 2 is positioned below the platform 11, two opposite sides of the heat insulation plate 2 are respectively fixed with the lower connecting piece 12, and the heat insulation plate 2 is provided with a mounting groove 21 for embedding and mounting a lamp; in the embodiment of the invention, the heat-insulating plate 2 is a structural rock wool sandwich plate with the thickness of 240 mm.

Further, as shown in fig. 2 and 3, for the convenience of the connection between the lower connecting member 12 and the heat insulation board 2, a n-shaped connecting member 6 is provided between the lower connecting member 12 and the heat insulation board 2, the n-shaped connecting member 6 includes an inverted U-shaped frame 61 and two wing plates 62 connected to opposite sides of the inverted U-shaped frame 61, the two wing plates 62 are fixedly connected to the heat insulation board 2 through bolts 7 and nuts 71, and through holes for the bolts 7 to penetrate through are respectively provided on the two wing plates 62 and the heat insulation board 2.

Furthermore, in order to improve the supporting effect of heated board 2 to lower connecting piece 12, the U-shaped frame 61 internal fixation that falls has heated board fossil fragments 22, and heated board fossil fragments 22 are the I-steel, and heated board fossil fragments 22 extend along the length direction of lower connecting piece 12 and are fixed in the U-shaped frame 61, heated board fossil fragments 22 with fall U-shaped frame 61 welded fastening, heated board fossil fragments 22 be provided with do benefit to the structural strength who improves a few font connecting piece 6, avoid a few font connecting piece 6 to bear too big load.

In the embodiment of the invention, the n-shaped connecting piece 6, the insulation board keel 22 and the insulation board 2 are not in contact, so that the phenomenon that the n-shaped connecting piece 6 and the insulation board keel 22 exert acting force on the insulation board 2 to cause deformation of the insulation board 2 and influence on the insulation effect is avoided, specifically, four nuts 71 are arranged on the bolt 7 for connecting the insulation board 2 with any wing plate 62 in a penetrating manner, the four nuts 71 are respectively positioned on two opposite sides of the insulation board 2 and two opposite sides of the wing plate 62, specifically, the four nuts 71 are positioned on the upper and lower sides of the insulation board 2 and the upper and lower sides of the wing plate 62, and the two nuts 71 on the two opposite sides of the wing plate 62 are connected with; two nuts 71 located on two opposite sides of the heat insulation board 2 fix the bolt 7 on the heat insulation board 2, so that the stability of connection between the bolt 7 and the heat insulation board 2 is improved.

As shown in fig. 2, the heat-insulating cover 3 is covered above the mounting groove 21 and fixed with the upper surface of the heat-insulating plate 2; further, the heat preservation cover 3 includes two first plate bodies 31 fixed on the two opposite sides of the mounting groove 21 and a second plate body 32 covering the two first plate bodies 31, and the second plate body 32 includes a cover plate portion 321 covering the top of the two first plate bodies 31 and a butt portion 322 formed below the cover plate portion 321 and clamped between the two first plate bodies 31. Preferably, as shown in fig. 4, in order to improve the sealing property between the first panel body 31 and the cover plate portion 321, the joint between the cover plate portion 321 and the first panel body 31 is filled with foam a33, and the foam a33 is a polyurethane foam filled in situ; a wrapping piece 34 is fixed on the outer side of the joint of the cover plate part 321 and the first plate body 31, the wrapping piece 34 is a color steel wrapping piece, and the cross section of the wrapping piece 34 is L-shaped; further, a butyl tape 35 with the thickness of 1.5mm is further arranged between the edge wrapping piece 34 and the heat preservation cover 3, the reverse folded edge 341 of the edge wrapping piece 34 enables a thickness space for the butyl tape 35 to be pasted to be defined between the edge wrapping piece 34 and the heat preservation cover 3, the edge wrapping piece 34 and the heat preservation cover 3 are fixed through a nut 36, a sealant 37 is filled in a gap between the edge wrapping piece 34 and the heat preservation plate 2, and the sealant 37 is silicone sealant.

In order to further improve the sealing performance of the device of the present invention, a sealing structure substantially identical to the sealing structure between the first plate body 31 and the cover plate 321 is also arranged at the connecting position of the first plate body 31 and the insulation board 2, specifically, taking the sealing structure at one side of the first plate body 31 as an example, as shown in fig. 2 and 5, the sealing structure includes a binding piece 34 and a butyl tape 35, the butyl tape 35 is L-shaped and is adhered between the binding piece 34 and the first plate body 31 and between the insulation board 2 and the binding piece 34, one side edge of the binding piece 34 is fixed with the first plate body 31 through a nut 36, the other side edge of the binding piece 34 is fixed with the insulation board 2 through a nut 36, and the two side edges of the binding piece 34 are reverse folded edges 341 to form a thickness space for adhering the butyl tape 35; sealant 37 is filled in a gap between one side edge of the edge covering member 34 and the first plate body 31 and a gap between the other side edge of the edge covering member and the heat insulation plate 2, and the sealant 37 is silicone sealant. In the embodiment of the present invention, the edge-covering member 34 between the first plate 31 and the heat-insulating plate 2 may be made of angle aluminum with a thickness of 1 mm.

According to the invention, the first plate body 31 and the second plate body 32 are detachably connected, the heat insulation plate 2 and the profile steel support 1 are also detachably connected, and when the lamp 5 breaks down, the lamp 5 is convenient to overhaul subsequently.

The first end of lamps and lanterns jib 4 is fixed with shaped steel support 1, offers the passageway that supplies lamps and lanterns jib 4 to run through on the heat preservation cover 3, and the second end of lamps and lanterns jib 4 is worn out and is extended to in the mounting groove 21 from the passageway. In the embodiment of the invention, a sleeve 41 is fixed in the channel in a sealing way, and the lamp suspender 4 is arranged in the sleeve 41 in a sealing way; specifically, as shown in fig. 6, the foaming B42 is filled at the position where the sleeve 41 is connected to the heat-insulating cover 3, and the foaming B42 is polyurethane foam on site, so as to ensure the sealed connection between the sleeve 41 and the heat-insulating cover 3 and avoid the loss of cooling capacity; preferably, an annular binding piece 43 is arranged between the position where the sleeve 41 penetrates out of the channel and the outer surface of the heat-insulating cover 3; preferably, a sealing member 44 is fixed to the lamp hanger bar 4 on the top surface of the sleeve 41, and the sealing member 44 is used for sealing the gap between the top of the sleeve 41 and the lamp hanger bar 4 to avoid loss of cooling capacity. In the embodiment of the present invention, the sleeve 41 is a PVC sleeve, a space for passing the lamp wire is reserved in the lamp suspension rod 4, and preferably, the wire is protected by a yellow wax tube.

In the embodiment of the present invention, as shown in fig. 5, when the lamp 5 is installed, the polyurethane foam-in-place 51 is filled between the lamp 5 and the installation groove 21 to ensure the sealing property between the lamp 5 and the installation groove 21.

While the present invention has been described in detail and with reference to the accompanying drawings and examples, it will be apparent to one skilled in the art that various changes and modifications can be made therein. Therefore, certain details of the embodiments are not to be interpreted as limiting, and the scope of the invention is to be determined by the appended claims.