CN213118988U - Lamp mounting device and integrated ceiling - Google Patents

Abstract

The utility model discloses a lamps and lanterns installation device, including lamps and lanterns base component and a plurality of slidable connection in hoist and mount piece on the lamps and lanterns base component, wherein: the lamp base component is provided with a first mounting structure and a second mounting structure, wherein the two sides of the first mounting structure and the second mounting structure are formed in a protruding mode, and a lamp hanging region for placing a lamp is formed between the first mounting structure and the second mounting structure; the outer sides of the first mounting structure and the second mounting structure are respectively provided with a first top plate supporting piece and a second top plate supporting piece for placing a top plate; the lamp base component is characterized in that a plurality of sliding rail structures are arranged at the top of the lamp base component, and a clamping structure capable of moving and/or fixing on the sliding rail structures is arranged at one end of the hoisting piece. The utility model also discloses an integrated furred ceiling that is equipped with this lamps and lanterns installation device, and be equipped with connecting elements, consequently the utility model discloses a first mounting structure and second mounting structure not only form lamps and lanterns and hang the dress region through connecting elements's connection, and are connected with frame fossil fragments spare through connecting elements again, connect nimble, easy dismounting.

Description

Lamp mounting device and integrated ceiling

Technical Field

The utility model relates to a home improvement field especially relates to lamps and lanterns installation device and integrated furred ceiling.

Background

The integrated suspended ceiling is a combination of a buckle plate and an electric appliance, and evolves from a traditional single combined suspended ceiling to an integrated household suspended ceiling. The core idea of the integrated ceiling is 'modularization, self-assembly', a product is split into a plurality of modules, then each module is independently developed, the functions of the modules are optimized to the maximum extent, and the modules are combined and integrated into a new system.

However, the keel assemblies and the frame assemblies of most of the existing integrated suspended ceilings on the market are usually connected in a manner that the keel assemblies and/or the frame assemblies are/is internally provided with connecting pieces, so that the connecting pieces are required to be embedded in the keel assemblies and/or the frame assemblies, the manufacturing process is complex, and the connecting pieces are matched during installation and are inconvenient to disassemble and assemble. And in addition, some integrated suspended ceilings adopt a connection mode that the keel piece is clamped inside another adjacent keel piece or frame piece, so that the relative connection position between the keel piece and the keel piece or the frame piece is fixed, the installation position of the lamp module cannot be adjusted at will, the installation position of the lamp on the integrated suspended ceiling cannot be flexibly adjusted according to different lamp installation requirements, and the installation requirements of more users cannot be met.

The prior art discloses an integrated ceiling with an illumination function (Chinese patent No. CN201910259812.0), the invention realizes multiple illumination functions in the integrated ceiling by arranging a main box body, a central mounting frame, a central lamp, a side mounting frame, a side light-emitting lamp and other parts, but the integrated ceiling of the invention is composed of the main box body, an inner frame body, a mounting frame and other parts, has a complex structure, can not flexibly slide among the frame bodies, is inconvenient to assemble and disassemble and has poor practicability. In addition, the control device and the plurality of connecting structures are arranged on the upper part and the side part of the main box body, and the main lamp and the lampshade are arranged on the lower part, so that the arrangement and the arrangement between the components and the lamps are not compact, the occupied area and the three-dimensional height of the integrated ceiling are integrally enlarged or lengthened, and the space utilization rate is not high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to not enough among the prior art, provide lamps and lanterns installation device and integrated furred ceiling, first mounting structure and second mounting structure not only form lamps and lanterns and hang the dress region through the connection of connecting elements, and are connected with frame fossil fragments spare through connecting elements again, connect nimble, easy dismounting.

The utility model discloses a following technical scheme can solve:

lamp installation device, including lamp base component and a plurality of slidable connection in the hoist and mount piece on the lamp base component, wherein:

the lamp base component is provided with a first mounting structure and a second mounting structure, wherein the two sides of the first mounting structure and the second mounting structure are formed in a protruding mode, and a lamp hanging region for placing a lamp is formed between the first mounting structure and the second mounting structure;

a first top plate supporting piece and a second top plate supporting piece for placing a top plate are respectively arranged on the outer sides of the first mounting structure and the second mounting structure;

the lamp base component is characterized in that a plurality of sliding rail structures are arranged at the top of the lamp base component, and a clamping structure capable of moving and/or fixing on the sliding rail structures is arranged at one end of the hoisting piece.

Preferably, the lamp base member includes a substrate, and a first mounting structure and a second mounting structure bent downward are provided on two sides of the substrate;

the first mounting structure is provided with a first mounting part protruding towards the inner side and a first top plate supporting part protruding towards the outer side; the second mounting structure is provided with a second mounting part protruding towards the inner side and a second top plate supporting part protruding towards the outer side;

the middle part of the base plate is provided with a first mounting base used for connecting a lamp.

Preferably, a first hanging structure, a second hanging structure, a first bending piece and a second bending piece are arranged above the substrate, and the first bending piece and the second bending piece are positioned between the first hanging structure and the second hanging structure;

the first hanging structure comprises a slide rail structure positioned at the end part and a first protruding part which is positioned in the middle part and protrudes inwards, the first bending part is provided with a first bending part which is arranged opposite to the first protruding part, and the first protruding part and the first bending part surround to form a first accommodating chamber which can be used for accommodating a wiring harness;

the second hooking structure comprises a slide rail structure positioned at the end part and a second protruding part positioned at the middle part and protruding inwards, the second bending part is provided with a second bending part arranged opposite to the second protruding part, and the second protruding part and the second bending part surround to form a second containing chamber capable of containing a wiring harness.

Preferably, a first protruding part and a second protruding part are further arranged above the substrate, the first protruding part is located on the outer side of the first hanging structure, and the second protruding part is located on the outer side of the second hanging structure;

the first hanging structure comprises a third bulge part which is bulged outwards and a fourth bulge part which is positioned below the third bulge part, the fourth bulge part and the first bulge part surround to form a third accommodating chamber which can be used for accommodating a wiring harness,

the second hanging structure comprises a fifth bulge part protruding outwards and a sixth bulge part positioned below the fifth bulge part, and the fifth bulge part, the sixth bulge part and the second bulge part surround to form a fourth accommodating chamber capable of accommodating a wiring harness.

Preferably, the slide rail structure includes the connecting plate and is fixed in the backup pad of connecting plate both sides, the backup pad perpendicular to the connecting plate, the connecting plate upper surface sets up in a plurality of lines protrudingly.

An integrated ceiling comprising:

any of the light fixture mounting apparatus;

at least one lamp mounted in the lamp hanging area;

the frame keel pieces are arranged at two ends of the lamp base component, and a plurality of sliding rail structures are arranged at the upper ends of the frame keel pieces;

the connecting component is provided with a first clamping part and a second clamping part, the sliding rail structure at the top of the lamp base component is connected with the first clamping part, and the sliding rail structure at the top of the frame keel piece is connected with the second clamping part.

Preferably, the connecting member includes a main plate, a first clamping plate and a second clamping plate which are arranged on two sides of the main plate, and a third clamping plate arranged on one end of the main plate, wherein the bending direction of the third clamping plate is perpendicular to the bending direction of the first clamping plate or the second clamping plate.

Preferably, the main panel comprises a first panel and a second panel connected to an end of the first panel, the first panel being perpendicular to the second panel.

Preferably, a first clamping part and a second clamping part which are bent oppositely are arranged on two sides of the first sheet body to form a first clamping area for longitudinally clamping the supporting plates on two sides of the sliding rail structure;

one side of the second sheet body is connected with the first sheet body, and the other side of the second sheet body is provided with a third clamping plate piece bent towards the first sheet body, so that a second clamping area for transversely clamping the supporting plate on one side of the sliding rail structure is formed.

Preferably, a first fastening piece is arranged on the first sheet body, a second fastening piece is arranged on the second sheet body, the first fastening piece can move relative to the first sheet body to enable the first fastening piece to be in contact with or separated from the upper surface of the connecting plate of the sliding rail structure, and the second fastening piece can move relative to the second sheet body to enable the second fastening piece to be in contact with or separated from the upper surface of the connecting plate of the sliding rail structure.

The utility model discloses gain following beneficial effect: the lamp mounting device mainly comprises a lamp base component and a plurality of hoisting pieces which are connected to the lamp base component in a sliding mode. Specifically, the lamp base component is provided with a first mounting structure and a second mounting structure which are formed by two sides protruding downwards, a lamp hanging area for placing a lamp is formed between the first mounting structure and the second mounting structure, and a first top plate supporting piece and a second top plate supporting piece for placing a top plate are respectively arranged at the outer sides of the first mounting structure and the second mounting structure, so that the lamp base component in the utility model is structurally transversely arranged and is sequentially connected with the first mounting structure, the lamp hanging area and the second mounting structure, the transverse occupied area of the lamp mounting device is integrally enlarged or lengthened, the height of a three-dimensional space is reduced, compared with the lamp mounting structure of some integrated suspended ceilings on the existing market, the lamp mounting structure usually adopts a mode of sequentially connecting a suspension rod, a secondary keel, a main keel, a panel, a lamp and other components in an up-and-down superposed mode, and occupies too much height space in the longitudinal direction, cause the usable floor area of panel below less, space utilization is lower, so the utility model provides a lamp base component has reduced the three-dimensional height of lamps and lanterns mounting structure and integrated furred ceiling, improves whole space utilization, and the maximize utilizes the space to make it more flat development, pleasing to the eye and practical.

On the other hand, lamps and lanterns base component both sides are equipped with first mounting structure and second mounting structure, are equipped with lamps and lanterns between two mounting structure and hang the dress region, consequently the utility model provides a lamps and lanterns base component can not only replace the panel to hold as lamps and lanterns holds carrier, and it still replaces the support piece of fossil fragments subassembly as the roof in the integrated furred ceiling, unites two into one the effect, has saved manufacturing cost greatly, and the practicality is extremely strong. Specifically, in an aspect, the utility model discloses a lamps and lanterns base component comprises first mounting structure and second mounting structure, and the roof is shelved on first mounting structure and second mounting structure, consequently comparatively convenient, quick with the installation of integrated furred ceiling, has also reduced the construction degree of difficulty and has shortened the engineering time, especially to some houses that need rent and sell, and the reduction of erection time period can rent as early as possible and sell, practices thrift stealthy cost. On the other hand, the utility model discloses a lamps and lanterns base component compares in some lamps and lanterns mounting structure that have on the market, some lamps and lanterns mounting structure have now usually to be equipped with the installation panel and connect the lamps and lanterns on the installation panel, the installation panel reconnection is arranged in on the mounting structure of integrated furred ceiling, therefore this type of lamps and lanterns mounting structure is longitudinal direction most of the time and extends the installation setting in proper order, and the mounting structure is comparatively complicated, the construction degree of difficulty is big, install lamps and lanterns in addition on the panel and easily because of the gravity of lamps and lanterns, produce the deformation under long-time effect, influence pleasing to the eye.

Besides, the lamp base component needs longitudinal supported force under the gravity of the lamp and the top plate, therefore, the top of the lamp base component of the utility model is provided with a plurality of sliding rail structures, one end of the hoisting part is provided with a clamping structure which can move and/or fix on the sliding rail structures, so the lamp base component of the utility model is not a fixed structure, and can slide in a plane relative to the hoisting part through the sliding rail structures, or the hoisting part slides in a plane relative to the lamp base component through the sliding rail structures, which is very flexible and convenient, especially for the roof or wall body structures of different houses, the position of the lamp base component or the hoisting part is adjusted, so that the lamp base component or the hoisting part is better connected to the roofs or the walls of different house structures, and different bearing or stress ends are better balanced, and uneven stress at multiple ends is avoided, deformation caused by inclination of the mounting structure occurs, and the structure is firmer. For example, the lamps have heavy weight, the lamp mounting area bears heavy weight, each lifting piece bears heavy weight, and large deformation is easy to generate, so that the lamp base component above the lamp mounting area needs to be connected with more lifting pieces, the arrangement is denser, the average stress of each lifting piece is reduced, and the service life of the lifting pieces and the lamp mounting device is prolonged. In addition, the clamping structure at one end of the hoisting part can slide when being loosened, and can also fasten the slide rail structure and the hoisting part without setting a fastener, so that the structure is simple, and the functions are various and practical.

The utility model discloses still including being connected with above-mentioned lamps and lanterns installation device's an integrated furred ceiling, be equipped with on this integrated furred ceiling and install in lamps and lanterns hang the regional at least lamps and lanterns and arrange in the frame keel spare at lamps and lanterns base member both ends, the top of frame keel spare is equipped with a plurality of slide rail structures. Therefore, the frame keel piece plays a role in supporting the integrated ceiling, is connected to the lamp mounting device and serves as a supporting member of the lamp hanging device area, the keel of the integrated ceiling is effectively utilized, the arrangement of redundant connecting pieces is avoided, and the overall weight and the mounting difficulty of the integrated ceiling are increased. Additionally, the utility model discloses an integrated furred ceiling still is equipped with connecting elements, this connecting elements has first clamping part and second clamping part, wherein the slide rail structural connection at first clamping part and lamps and lanterns base member top, the slide rail structural connection of second clamping part and fossil fragments spare upper end, consequently connecting elements is connected fossil fragments spare and lamps and lanterns base member through first clamping part and second clamping part, make whole lamps and lanterns installation device and integrated furred ceiling integrate in an organic whole, and frame fossil fragments spare and lamps and lanterns base member all are equipped with slide rail structure, be convenient for the dismantlement between frame fossil fragments spare and the lamps and lanterns base member, the installation is quick, it is convenient, lamps and lanterns base member also can be along with the slip of fossil fragments spare, install in the arbitrary position of integrated furred ceiling, and non-fixed mounted position, in order to satisfy different users's installation demand. Compare in some integrated furred ceilings on the existing market, the mode that frame keel spare and lamps and lanterns base component were inside to be equipped with the connecting piece is adopted usually to the connection of frame keel spare and lamps and lanterns base component, therefore the connecting piece need be embedded in frame keel spare and/or lamps and lanterns base, and not only the preparation technology is complicated, and interconnecting piece cooperation during the installation, the dismouting is inconvenient. And in addition, some integrated suspended ceilings adopt a connection mode that the lamp base component is clamped inside the frame keel piece, so that the connection position of the lamp base component relative to the frame keel piece is fixed, the installation position of the lamp base component cannot be adjusted on the frame keel piece at will, and the installation position of a lamp on the integrated suspended ceiling cannot be flexibly adjusted according to different lamp installation requirements, so that the installation requirements of more users cannot be met.

Additional aspects and detailed advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic view illustrating an overall structure of a lamp mounting device according to an embodiment of the disclosure.

Fig. 2 is another schematic installation diagram of the overall structure of the lamp installation device disclosed in the embodiment.

Fig. 3 is a partial schematic view a of fig. 2 of a luminaire mounting apparatus according to an embodiment of the disclosure.

Fig. 4 is a schematic structural view of a hoisting member of the lamp mounting device disclosed in the embodiment.

Fig. 5 is a cross-sectional view of a lamp base member of the lamp mounting device according to an embodiment of the disclosure.

FIG. 6 is a cross-sectional view of another lamp base member of the lamp mounting apparatus according to one embodiment of the disclosure.

FIG. 7 is a cross-sectional view of another lamp base member of the lamp mounting apparatus according to one embodiment of the disclosure.

FIG. 8 is a cross-sectional view of another lamp base member of the disclosed lamp mounting apparatus.

FIG. 9 is a cross-sectional view of another lamp base member of the lamp mounting apparatus according to one embodiment of the disclosure.

Fig. 10 is a schematic view of the overall structure of an integrated ceiling according to an embodiment of the disclosure.

Fig. 11 is a cross-sectional view of a perimeter keel of the integrated ceiling according to one embodiment of the disclosure.

Fig. 12 is a partial schematic view B of fig. 10 of an integrated ceiling according to one embodiment of the disclosure.

Fig. 13 is a schematic view of another light fitting installation structure of the integrated ceiling according to an embodiment of the disclosure.

Fig. 14 is a schematic view of a partial installation structure of another lamp of the integrated ceiling according to an embodiment of the disclosure.

Fig. 15 is a schematic view of another light fixture component of the integrated ceiling of an embodiment of the disclosure.

Fig. 16 is a schematic view of a connecting member of an integrated ceiling according to an exemplary embodiment of the disclosure.

Fig. 17 is a schematic view of another attachment member of the integrated ceiling of an embodiment disclosed.

Fig. 18 is a schematic view of another attachment member of the integrated ceiling of an embodiment disclosed.

Fig. 19 is a schematic view of a partial installation structure of the integrated ceiling according to an embodiment.

Fig. 20 is a schematic view of another attachment member of the integrated ceiling of an embodiment disclosed.

Fig. 21 is a schematic view of another attachment member of the integrated ceiling of an embodiment disclosed.

Fig. 22 is a schematic view of another attachment member of the integrated ceiling of an embodiment disclosed.

Fig. 23 is a schematic overall structure diagram of another integrated ceiling according to an embodiment of the disclosure.

Fig. 24 is a detail a schematic view of fig. 23 of another integrated ceiling according to an exemplary embodiment of the disclosure.

Fig. 25 is a schematic detail a of another integrated ceiling according to an embodiment of the disclosure.

Fig. 26 is a schematic view of a second connector structure of another integrated ceiling according to an embodiment of the disclosure.

Fig. 27 is a schematic view of another second connector structure of another integrated ceiling according to an exemplary embodiment of the disclosure.

Fig. 28 is a schematic view of another second connector structure of another integrated ceiling according to an exemplary embodiment of the disclosure.

Fig. 29 is another overall structural schematic diagram of another integrated ceiling disclosed in an embodiment.

Fig. 30 is a detail B schematic diagram of fig. 29 of another integrated ceiling according to an exemplary embodiment of the disclosure.

Fig. 31 is a detail structure diagram of another integrated ceiling according to another embodiment of the disclosure.

Fig. 32 is a schematic view of a third connector structure of another integrated ceiling according to an exemplary embodiment of the disclosure.

Fig. 33 is a schematic view of another third connector structure of another integrated ceiling according to an exemplary embodiment.

Fig. 34 is another overall schematic structural view of another integrated ceiling according to an embodiment of the disclosure.

Fig. 35 is a detail C schematic view of fig. 34 of another integrated ceiling according to an exemplary embodiment of the disclosure.

Fig. 36 is a schematic view of a fourth connector of another integrated ceiling according to an exemplary embodiment of the disclosure.

Fig. 37 is a structural view of another frame keel of another integrated ceiling according to an embodiment of the disclosure.

Fig. 38 is a cross-sectional view of another frame keel of another integrated ceiling according to one embodiment of the disclosure.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. It should be noted that, in the present specification, the embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the reference to a first feature "on", "above" or "above" a second feature means that the first feature is directly or obliquely above the second feature, or merely that the first feature is at a higher level than the second feature. The first feature being "under," "below," and "beneath" the second feature includes the first feature being directly under or obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1, a lamp mounting device is disclosed, which can be mounted on a plane such as a ceiling, an integrated ceiling, a house roof or a wall, or used as a home decoration. As shown in fig. 2-3, the lamp mounting device of the present invention is mainly composed of a lamp base member 1 and a plurality of hanging pieces 21 slidably connected to the lamp base member. Specifically, the lamp base member 1 in this embodiment is one, and is mainly installed on the integrated ceiling, the lamp base member 1 has the first mounting structure 11 and the second mounting structure 12 formed by downward protrusions at both sides, the lamp hanging region 13 for placing the lamp is formed between the first mounting structure 11 and the second mounting structure 12, and the first top plate supporting member 111 and the second top plate supporting member 112 for placing the top plate 41 are respectively arranged at the outer sides of the first mounting structure 11 and the second mounting structure 12, so the lamp base member 1 of the present invention is structurally and horizontally arranged, and is sequentially connected with the first mounting structure 11, the lamp hanging region 13 and the second mounting structure 12, so that the horizontal occupied area of the lamp mounting device is integrally enlarged or lengthened, and the height of the three-dimensional space is greatly reduced, compared with some integrated lamp mounting structures on the existing market, the hanger rod is usually used for mounting the integrated lamp mounting structures, The mode that components such as false keel, main joist, panel, lamps and lanterns overlapped the connection from top to bottom in proper order has occupied the high space of too much longitudinal direction, causes the usable floor area of panel below less, and space utilization is lower, so the utility model provides a lamps and lanterns base component 1 has reduced lamps and lanterns mounting structure's solid height, improves whole space utilization, and the maximize utilizes the space to make its more flattening development, pleasing to the eye and practical. On the other hand, 1 both sides of lamps and lanterns base member are equipped with first mounting structure 11 and second mounting structure 12, are equipped with lamps and lanterns between two mounting structures and hang dress region 13, consequently the utility model provides a lamps and lanterns base member 1 can not only replace the panel as the holding of lamps and lanterns holds carrier, and it still holds support piece of roof in the integrated furred ceiling as, unites two into one the effect, has saved manufacturing cost greatly, and the practicality is extremely strong. Specifically, in an aspect, the utility model discloses a lamps and lanterns base component 1 comprises first mounting structure 11 and second mounting structure 12, and roof 41 shelves on first mounting structure 11 and second mounting structure 12, and consequently it is comparatively convenient, quick with the installation of integrated furred ceiling, has also reduced the construction degree of difficulty and has shortened the engineering time, especially to some houses that need rent and sell, can rent and sell the house as early as possible in the reduction of fitment time limit for a project, practices thrift stealthy cost greatly. Additionally, the utility model discloses a lamps and lanterns base component 1 compares in some lamps and lanterns installed parts that have on the market, some lamps and lanterns installed parts have now usually to be equipped with the installation panel and connect the lamps and lanterns on the installation panel, the installation panel reconnection is arranged in on the mounting structure of integrated furred ceiling, therefore this type of lamps and lanterns mounting structure is longitudinal direction most of the time and extends the installation setting in proper order, and mounting structure is comparatively complicated, the construction degree of difficulty is big, install lamps and lanterns in addition on the panel and easily because of the gravity of lamps and lanterns, produce the deformation under long-time effect, influence pleasing to the eye degree. As shown in fig. 4, the lamp base member 2 needs a longitudinal supported force under the lateral connecting supporting force with the lamp and the top plate 41, so the top of the lamp base member 1 of the present invention is provided with a plurality of rail structures 161, one end of the hanging piece 21 is provided with a holding structure 211 capable of moving and/or fixing on the rail structures 161, and the other end is provided with a hanging rod 212 fixedly connected with the wall or the plane, so the lamp base member 1 of the present invention is not a fixed structure, and it can slide in a plane relative to the hanging piece 21 through the rail structures 161, or the hanging piece 21 slides in a plane relative to the lamp base member 2 through the rail structures 161, which is very flexible and convenient, especially for the roof or wall structures of different houses, the position of the lamp base member 2 or the hanging piece 21 is adjusted, so that it can be better connected to the roofs or walls of different house structures, different bearing or stress ends are better balanced, deformation caused by inclination of the mounting structure due to uneven stress at multiple ends is avoided, and the structure is firmer. For example, the lamps have heavy weight, the lamp mounting area 13 bears heavy weight, each lifting piece 21 bears heavy weight, and each lifting piece 21 is easy to deform greatly, so that the lamp base member 2 above the lamp mounting area 13 needs to be connected with more lifting pieces 21, the arrangement is denser, the average stress of each lifting piece 21 is reduced, and the service life of each lifting piece 21 is prolonged. Specifically, hoist and mount piece 21 lower extreme is equipped with kink 213, kink 213 passes through the nut and is connected with jib 212, hoist and mount piece 21 lower extreme's clamping structure 211 includes clamping part one 2111 and the relative clamping part two 2112 that sets up with clamping part one 2111, clamping part one 2111 and clamping part two 21112 are all inwards protruding in opposite directions, so can block in sliding rail structure 161, and non-fixed connection, consequently hoist and mount piece 21 not only can slide when not hard up state, still have the effect of fastening sliding rail structure 161 and hoist and mount piece 21, need not to set up the fastener again, moreover, the steam generator is simple in structure, and the function is various, and is practical.

As shown in fig. 5 to 6, in some embodiments, the lamp base member 1 includes a base plate 22, the base plate 22 in this embodiment is a planar base plate, and the first mounting structure 11 and the second mounting structure 12 bent downward are connected to two sides of the base plate 22, so that the first mounting structure 11 and the second mounting structure 12 are disposed opposite to each other in the same plane, thereby ensuring that two ends of the first mounting structure 11 and the second mounting structure 12 are disposed in a balanced manner and are stressed uniformly. Specifically, the first mounting structure 11 and the second mounting structure 12 have the first mounting portion 113 and the second mounting portion 114 protruding inward, so that the first mounting portion 113 and the second mounting portion 114 and the substrate 22 form a semi-enclosed chamber space first 1131 capable of being accommodated, in some embodiments, the lamp assembly can be placed in the chamber space first 1131 and connected to the lower end surfaces of the first mounting portion 113, the second mounting portion 114 and the substrate 22, in addition, the end surfaces of the first mounting portion 113 and the second mounting portion 114 extending inward are arc-shaped portions 1162 protruding upward, so that the first mounting portion 113 and the second mounting portion 114 are effectively prevented from falling off when being connected with the lamp assembly, and a fixing effect is achieved. In other embodiments, the substrate 22 has a first mounting base 221 for connecting a lamp in the middle, and the lamp can be embedded in the first mounting base 221 or connected to the lower end surface of the first mounting base 221. In addition, the first mounting structure 11 and the second mounting structure 12 have a first ceiling support 111 and a second ceiling support 112 protruding outward, further, the end surfaces of the first ceiling support 111 and the second ceiling support 112 extending outward are provided with a support portion 1121 vertical to the longitudinal direction, the height of the support portion 1121 is not more than the base plate 22, the ceiling 41 rests on the support portion 1121, and forms a closed chamber space second 1122 with the first ceiling support 111 and the second ceiling support 112, in other embodiments, a lamp can be connected in the chamber space second 1122. The supporting portion 1121 is provided to reduce the stress on the first ceiling supporting member 111 and the second ceiling supporting member 112, and to elevate the ceiling 41, so that the ceiling 41 and the base plate 22 are in a plane with a certain distance range, and the problem that the height difference between the ceiling 41 and the base plate 22 is large, the external appearance is uneven and obvious, and the overall appearance is affected is avoided. The joint of the first mounting portion 113 and the first top plate supporting member 111 is a first separating portion 1132, the joint of the second mounting portion 114 and the second top plate supporting member 112 is a second separating portion 1142, and the first separating portion 1132 and the second separating portion 1142 are respectively connected to the base plate 22 and perpendicular to the base plate 22, so that partial outer end faces of the first separating portion 1132 and the second separating portion 1142 can be connected to partial outer end faces of the top plate 41, have a function of supporting the top plate 41, and respectively connect the upper base plate 22 with the lower first mounting structure 11 and the lower second mounting structure 12. In other embodiments, the width of the substrate 22, i.e. the distance between the first mounting structure 11 and the second mounting structure 12, can be designed and adjusted according to the length or width of the lamp, if the width of the lamp is large and the lamp cannot be installed in the chamber space one 1131, the substrate 22 can be designed to be a plane with a corresponding width, and the distance between the first mounting structure 11 and the second mounting structure 12 matches with the width of the lamp, so as to meet more needs of users. Compare in some integrated furred ceilings on the existing market, the mode that the keel spare and the inside connecting piece that is equipped with of lamps and lanterns base component are adopted to the connection of keel spare and lamps and lanterns base component usually, therefore the connecting piece need be embedded in keel spare and/or lamps and lanterns base, and not only the preparation technology is complicated, and interconnecting piece cooperation during the installation, the dismouting is inconvenient. And in addition, some integrated suspended ceilings adopt a connection mode that the lamp base component is clamped inside the keel component, so that the connection position of the lamp base component relative to the keel component is fixed, the installation position of the lamp base component cannot be adjusted on the keel component at will, and the installation position of a lamp on the integrated suspended ceiling cannot be flexibly adjusted according to different lamp installation requirements, so that the installation requirements of more users cannot be met.

As shown in fig. 6-7, in some embodiments, the first and second hooking structures 115 and 116, and the first and second bending members 141 and 142 between the first and second hooking structures 115 and 116 are respectively disposed at two ends of the upper portion of the substrate 22. Wherein the first hanging structure 115 comprises a slide rail structure 161 at the end portion and a first protrusion 117 protruding inward at the middle portion, and the second hanging structure comprises a slide rail structure 161 at the end portion and a second protrusion 118 protruding inward at the middle portion. Specifically, the first protrusion 117 is connected to the lower portion of the sliding rail structure 161, and the first protrusion 117 and the first bending member 141 are vertically connected to the substrate 22. The first protruding portion 117 is provided with a first protruding plate 1171 in the middle, the first bending member 141 is provided with a first bending portion 1411 opposite to the first protruding plate 1171, and the first protruding plate 1171 and the first bending portion 1411 are in the same horizontal plane and are perpendicular to the first protruding portion 117 and the first bending member 141 respectively, so that the first protruding portion 117 and the first bending portion 1411 surround to form a first accommodating chamber 1431 capable of accommodating a wiring harness. Similarly, the second protrusion 118 is connected to the lower portion of the sliding rail structure 161, and the second protrusion 118 and the second bending member 142 are vertically connected to the substrate 22. The middle of the second protruding portion 118 is provided with a second protruding plate 1181, the second bending part 142 has a second bending part 1421 opposite to the second protruding plate 1181, and the second protruding plate 1171 and the second bending part 1421 are in the same horizontal plane and are perpendicular to the second protruding portion 118 and the second bending part 142 respectively, so that the second protruding portion 118 and the second bending part 1421 surround and form a second accommodating chamber 1441 capable of accommodating a wire harness. The first and second receiving chambers 1431 and 1441 are semi-closed chambers, and may be connected to an external connector such as a sling 21, a hanging member structure, or a lamp in some embodiments. For example, the sling 21 can be connected to the first receiving chamber 1431 and the second receiving chamber 1441, so as to enhance the stability of the wall above the base plate 212. In addition, the first bending part 1411 and the second bending part 1421 are respectively provided with a first protruding part 1412 and a second protruding part 1422 in a downward extending manner, the first protruding part 1412 and the second protruding part 1422 can be used for hanging the lamp, so that the situation that the width of the substrate 22 is too large is avoided, and the middle part of the substrate is not provided with a connecting piece to loosen the lamp, so that the first protruding part 1412 and the second protruding part 1422 have the function of fixing the lamp. In addition, in other embodiments, a plurality of first hooking structures 115 and second hooking structures 116, and first bending members 141 and second bending members 142 in the present embodiment may be further disposed above the substrate 22 according to actual requirements of assembly, disassembly, connection, or connection with a lamp.

As shown in fig. 8, in some embodiments, the first hooking structure 115 is further provided with a first protrusion 231 and an opposite second protrusion 232, wherein the first protrusion 231 is disposed at the lower end of the sliding rail structure 161, and the first hooking structure 115 is further provided with a third protrusion 2311 protruding outward and a fourth protrusion 2312 opposite to the third protrusion 2311, so that the third protrusion 2311, the fourth protrusion 2312, the first protrusion 231, the first protrusion 117 and the base plate 22 surround a third receiving chamber 2313 for receiving the wiring harness. Further, the first protrusion 231 is disposed at the lower portion of the slide rail structure 161, and the third protrusion 2311 and the fourth protrusion 2312 are disposed opposite to each other in the longitudinal plane. Similarly, the second protruding member 232 is disposed at the lower end of the sliding rail structure 161, and the second hooking structure 116 is further provided with a fifth protruding portion 2321 protruding downward and a sixth protruding portion 2322 opposite to the fifth protruding portion 2321, so that the fifth protruding portion 2321, the sixth protruding portion 2322, the second protruding member 232, the second protruding portion 118 and the substrate 22 surround to form a fourth accommodating chamber 2323 for accommodating the wiring harness, further, the second protruding member 232 is disposed at the lower portion of the sliding rail structure 161, the fifth protruding portion 2321 and the sixth protruding portion 2322 are vertically connected to the second protruding member 232, and the fifth protruding portion 2321 and the sixth protruding portion 2322 are in the same longitudinal plane. The third accommodation chamber 2313 and the fourth accommodation chamber 2323 are semi-closed chambers, and in some embodiments, can be connected with external connecting members such as the sling 21, the top plate 41 and the hanging member structure, or connected with a lamp. For example, the top plate 41 can be placed in the third accommodation chamber 2313 and the fourth accommodation chamber 2323, so that a double-layer top plate is formed with the top plate 41 at the supporting portion 1121, so that the whole lamp installation device or the integrated ceiling has better sealing performance and stability, and in addition, in other embodiments, a plurality of the first protruding members 231 and the second protruding members 232 in the present embodiment can be further arranged above the base plate 22 according to the actual dismounting, connecting requirements or requirements of connection with the lamp.

As shown in fig. 9, in other embodiments, the rail structure 161 includes a connecting plate 1611 and supporting plates 1612 fixed to both sides of the connecting plate 1611, specifically, the rail structure 161 has a T-shaped cross section and is connected to the supporting plates 1612 to form a first notch 1613 and a second notch 1614 opposite to the first notch 1613, and the holding structure 211 at the lower end of the sling 21 is held in the first notch 1613 and the second notch 1614 and slides in the first notch 1613 and the second notch 1614. In addition, in this embodiment, two ends of the sliding rail structure 161 are vertically extended upward to be respectively provided with the first protruding strip 1621 and the second protruding strip 1622 arranged opposite to the first protruding strip 1621, so that the first protruding strip 1621 and the second protruding strip 1622 have a limiting effect on the sliding of the clamping structure 211, and similarly, the support plate 1612 is vertically arranged downward to two sides of the connecting plate 1611 and also has a limiting effect on the clamping structure 211, so as to prevent the clamping structure 211 from being separated from the sliding rail structure 161 due to an excessive displacement range in the sliding process of the first notch 1613 and the second notch 1614. In addition, the upper surface of the connecting plate 1611 is disposed on the plurality of line protrusions, so that the upper surface of the connecting plate 1611 is an uneven plane, and when an external fastener or a medium is connected to the connecting plate 1611 in the use process, a certain friction force can be formed between the external fastener and the connecting plate 1611, which is uneven, of the sliding rail structure 161, so that slipping or inclination or dislocation of the external fastener and the sliding rail structure 161 during fastening or installation can be avoided.

As shown in fig. 10-12, the utility model also discloses an integrated furred ceiling that is connected with any above-mentioned lamps and lanterns installation device, the mountable is on roof or wall isoplanar, perhaps as the home decoration articles for use. The utility model discloses an integrated furred ceiling is still including installing in lamps and lanterns hang dress region 13 at least lamps and lanterns 421, arrange in the frame keel spare 24 and the connecting elements 5 at 2 both ends of lamps and lanterns base component. Therefore, the frame keel piece 24 plays a role of supporting the integrated ceiling, is connected to the lamp mounting device and serves as a supporting member of the lamp hanging region 13, effectively utilizes the keel of the integrated ceiling, avoids arranging redundant connecting pieces, and increases the overall weight and the mounting difficulty of the integrated ceiling. Specifically, the frame keel member 24 includes a first frame component 241 and a second frame component 242, wherein the first frame component is vertically connected with the front end and the rear end of the lamp base member 2, the second frame component 242 is vertically connected with the frame component and parallel to the left and right of the lamp base member 2, the first frame component 241 and the second frame component 242 are vertically connected with each other in the same plane to form a connection area 245, and the lamp mounting device is disposed in the connection area 245 and connected with the frame keel member 24 in the same plane through the top plate 41. The upper end of the frame keel 24 is provided with a plurality of sliding rail structures 161 and a connecting portion 2411 protruding inwards at the lower end of the frame keel 24, the connecting portion 2411 is a semi-closed cavity and is arranged opposite to the supporting portion 1121 on the lamp base member 2, one end of the top plate 41 is placed on the connecting portion 2411, and the other end is placed on the supporting portion 1121, so that the whole integrated suspended ceiling is in a flat and sealed state. In addition, the connecting member 5 is disposed on the sliding rail structures 161 at the top of the first hanging structure 115 and the second hanging structure 116 of the lamp mounting device, in this embodiment, the connecting member 5 is a T-shaped first connecting member 551, which includes a first clamping portion 51 and a second clamping portion 52, the first clamping portion 51 is vertically connected to the second clamping portion 52, wherein the first clamping portion 51 is connected to the sliding rail structure 161 at the top of the lamp base member 2, and the second clamping portion 52 is connected to the sliding rail structure 161 at the upper end of the frame keel member 24. Therefore, the first connecting piece 551 connects the frame keel piece 24 with the lamp mounting device 1, so that the whole lamp mounting device 1 and the integrated ceiling are integrated into a whole, the frame keel piece 24 and the lamp base component 2 are both provided with the sliding rail structures 161, the frame keel piece 24 and the lamp base component 2 are convenient to detach, the installation is quick and convenient, the lamp base component 2 can also slide along with the frame keel piece 24 and is installed at any position of the integrated ceiling, and the non-fixed installation position is adopted, so that the installation requirements of different users are met. In the present embodiment, one lamp mounting device 1 and one lamp mounted to the mounting area 13 of the lamp mounting device 1 are provided, and therefore the corresponding connecting members 5 are provided according to the number of the lamp mounting devices 1, in other embodiments, a plurality of lamp mounting devices 1 may be provided on the integrated ceiling, or a plurality of lamps may be provided on the mounting area 13 of one lamp mounting device 1.

In other embodiments, as shown in fig. 13-15, in addition to the light 421 being a hanging light 422, the light 422 can be connected to the substrate 22. Specifically, in this embodiment, a triangular connecting member 423 penetrating through the lamp is disposed at the top of the lamp 422, and a U-shaped connecting member 424 connected to the triangular connecting member 423 is disposed at the upper portion of the triangular connecting member 423. The triangular connecting member 423 comprises a first connecting member 4231 and a second connecting member 4232, the first connecting member 4231 is connected to the U-shaped connecting member 424 in a downward bending manner, and the second connecting member 4232 penetrates through the lamp 42 and is bent upward, so that the first connecting member 4231 is mainly used for connecting the lamp 42 and the U-shaped connecting member 424 and has a longitudinal restraining force on the lamp 42, and the second connecting member 4232 is mainly used for connecting the lamp 42 body and the triangular connecting member 423 and has a transverse restraining force on the lamp 42, so that the lamp 42 body is prevented from falling off when swinging left and right. The U-shaped connecting piece 424 comprises a groove portion 4243 at the bottom end of the U shape, and a first hanging piece 4141 and a second hanging piece 4142 which extend to the two sides of the outside along the groove portion 4143 respectively, the first hanging piece 4141 and the second hanging piece 4142 penetrate through the substrate 22 and are hung on the substrate 22, the connecting structure is simple, and the disassembly and the assembly are convenient.

As shown in fig. 16 to 18, the first connector 551 includes a main plate 53, a first clamping plate 531 and a second clamping plate 532 disposed opposite to each other on both sides of the main plate 53. Specifically, the main plate 53 is used for connecting the first clamping portion 51 and the second clamping portion 52, and is parallel to the upper end surface of the slide rail structure 161, the upper end surfaces of the first clamping plate 531 and the second clamping plate 532 are arc-connected to two sides of the main plate 53 in the area of the first clamping portion 51, and the lower end surfaces of the first clamping plate 531 and the second clamping plate 532 are arc-connected to the end surface of the support plate 1612 of the slide rail structure 161. Therefore, through being equipped with the unanimous first splint 531 of both sides and second splint 532 not only have better cooperation compactness with slide rail structure 161, but also have better structural stability, in addition, first connecting piece 551 still is equipped with the third splint 533 of placing in the regional mainboard 53 tip of second clamping part 52, the direction of buckling of third splint 533 is perpendicular to the direction of buckling of first splint 531 or second splint 532, the terminal surface arc is connected in the regional mainboard 53 top of second clamping part 52 on third splint 533, and terminal surface arc is connected in the slide rail structure 161 at frame keel spare 24 top under the third splint 533. Therefore, the first clamping plate 531, the second clamping plate 532 and the third clamping plate 533 are arranged in a triangular mode in structural arrangement, the structural stability is good, the clamping plates are connected through the main plate 53, an integrated process structure is formed, and the connecting pieces do not need to be disassembled and assembled, and the installation is simple, convenient and reliable.

As shown in fig. 17 and 18, in some embodiments, the main panel 53 includes a first panel 541 and a second panel 542 connected to an end of the first panel 541, the first panel 541 being perpendicular to the second panel 542. In this embodiment, the cross section of the first sheet 541 is rectangular, the width of the first sheet 541 matches the width of the connecting plate 1611 of the slide rail structure 161, and the first sheet 541, the first clamping plate 531, and the second clamping plate 532 partially cover the slide rail structure 161. The second plate 542 can be divided into a first plate 5421 covering the connecting plate 1611 of the slide rail structure 161 and a second plate 5422 separated from the slide rail structure 161, wherein the first plate 5421 and the second plate 5422 are vertically connected to each other, and the cross section is T-shaped. In other embodiments, a groove 543 is disposed on an end surface of the second piece 5422 of the second piece 542, a spring element 5431 is disposed in the groove 543, the spring element 5431 faces the second piece 542, and a portion of the spring element 5431 protrudes from a lower end surface of the second piece 5422. As shown in fig. 19 and 20, in other embodiments, when the first connector 551 slides backwards on the sliding track structure 161 for detachment, and the sliding track structure 161 slides to the area of the groove 543, the spring element 5431 is pressed by the top of the sliding track structure 161, so that the spring element 5431 springs upwards, thereby facilitating detachment of the first connector 551 on the sliding track structure 161; when first connecting piece 551 is at the time of the preceding sliding assembly on slide rail structure 161, slide rail structure 161 keeps away from the recess 543 region, spring part 5431 has not had the resistance at slide rail structure 161 top, spring part 5431 slowly falls back downwards and protrudes in terminal surface under two 5422 of lamellar body to support the interior terminal surface of slide rail structure 161 of frame keel spare 24, have the holding power to slide rail structure 161, have dual stabilizing effect, make the fastness and the stability of whole integrated furred ceiling better.

In some embodiments, as shown in fig. 21, first sheet 541 is flanked by a first opposing angled clip piece 5411 and a second opposing clip piece 5412. Specifically, the first clamping plate piece 5411 and the second clamping plate piece 5412 are perpendicular to the first clamping plate 531 and the second clamping plate 532 respectively, and the first clamping plate piece 5411 and the second clamping plate piece 5412 are oppositely arranged on the same plane, so that a first clamping area 544 for clamping the top slide rail structure 161 of the lamp base component 2 is formed, the clamping area 544 is a semi-closed cavity, and the connecting plate 1611 and the two side supporting plates 1612 of the slide rail structure 161 longitudinally penetrate through the first clamping area 544. Therefore, the lower part of the first sheet body 541 is not easy to fall off from the slide rail structure 161 by arranging the first clamping plate piece 5411 and the second clamping plate piece 5412, a certain limiting effect is achieved, and the stability of the slide rail structure 161 in the sliding process is ensured. In addition, one side of the second plate 542 is connected to the first plate 541, and the other side of the second plate 542 is provided with a third clamping plate 5413 formed by bending the first plate 541, specifically, one end of the first clamping plate 5421 of the second plate 542 is connected to the first plate 541, and the third clamping plate 533 on the second plate 542 is connected to the third clamping plate 5413, so that the second plate 542 and the third clamping plate 5413 form a second clamping area 545 for clamping the sliding rail structure 161 at the upper end of the keel 24, and the connecting plate 1611 and the two side supporting plates 1612 of the sliding rail structure 161 transversely penetrate through the second clamping area 545. Therefore, through setting up splint three 5413 and avoiding keel spare 24 to the skew of periphery, also have certain limiting displacement, guarantee keel spare 24 and lamps and lanterns installation device 1's connection steadiness.

As shown in fig. 22, in some embodiments, a first fastening member 561 is disposed on the first plate 541, and a second fastening member 562 is disposed on the second plate 542, and the first fastening member 561 is movable relative to the first plate 541 to contact or separate from an upper surface of the connecting plate 1611 of the sliding rail structure 161. Specifically, a first through connection hole 5611 is formed in the upper portion of the first sheet body 541, the first fastening member 561 is inserted into the first through connection hole 5611, and a lower end surface of the first fastening member 561 is tapered and can be better contacted with a connection plate 1611 of the sliding rail structure 161 to generate friction, so that the first sheet body 541 is fastened to the sliding rail structure 161, and conversely, the first sheet body 541 is separated from the sliding rail structure 161. Similarly, the upper portion of the second blade 542 is provided with a second coupling hole 5612 therethrough, the second fastening member 552 is inserted into the second coupling hole 5612, and the second fastening member 552 is movable relative to the second blade 542 to be brought into contact with or separated from the upper surface of the coupling plate 1611 of the slide rail structure 161. Therefore, the first fastening piece 561 and the second fastening piece 562 not only have the fastening or detaching function, but also can better ensure the firmness of the integral suspended ceiling by respectively arranging the fastening pieces on the first sheet body 541 and the second sheet body 542. In this embodiment, two fasteners are disposed on each first connecting member 551, and in other embodiments, more fasteners than the number of the fasteners may be disposed, which also has the above-mentioned functions, and is more stable and more complicated to install or disassemble.

As shown in fig. 23, in some other embodiments, the present invention may also be another integrated ceiling to which the lamp mounting device of any one of the above embodiments is connected, including the first mounting structure 11 and the second mounting structure 12 in the lamp base member 1, the first keel 311 and the second keel 312 parallel to both sides of the first mounting structure 11 and the second mounting structure 12, the third keel 321 perpendicular to the lamp base member 1 and the first keel 311, the fourth keel 322 perpendicular to the lamp base member 1 and the second keel 312, and the fifth keel 315 perpendicular to the first keel 311 and disposed in front of one end of the third keel 321. In the present embodiment, taking the connection of the second mounting structure 12, the keel one 311, the keel three 321 and the keel five 315 in the lamp base component 1 as an example, two ends of the second mounting structure 12 and the keel one 311 are connected with the frame keel piece 13 through the connecting component 5; one end of the keel III 321 is connected with the second mounting structure 12 through the connecting member 5, and the other end is mutually connected with the keel I311 and the keel V315 in a penetrating manner through the connecting member 5; one end of the keel five 315 is connected with the keel three 321 and the keel one 311 in a mutual penetrating manner through the connecting member 5, and the other end of the keel five is connected with the frame keel piece 13 through the connecting member 5. As shown in fig. 24-28, further, in the present embodiment, the connecting members of the second mounting structure 12, the two ends of the keel-311 and the frame keel 13 are T-shaped first connecting members 551; the connecting member of the keel three 321 and the second mounting structure 12 is a T-shaped first connector 551, the connecting member of the keel three 321, the keel five 315 and the keel one 311 is a cross-shaped second connector 62, and the connecting member of the outer end of the keel five 315 and the frame keel piece 13 is a first connector 551. Specifically, the second connecting member 62 also has a first clamping unit 621 and a second clamping unit 622 which have the same function as the first clamping portion 51 and the second clamping portion 52, the first clamping unit 621 and the second clamping unit 622 are vertically connected with each other in the same plane, the cross section of the formed connecting structure is cross-shaped, and the first clamping unit 621 and the second clamping unit 622 are connected with the connecting plate 1611 of the sliding rail structure 161 of the keel one 311, the keel three 321 and the keel five 315 and the supporting plate 1612 on at least one side. In this embodiment, the first clamping unit 621 includes a first clamping portion 6211 and a second clamping portion 6212, the first clamping portion 6211 is connected to the sliding rail structure 161 of the keel three 321, and the second clamping portion 6212 is connected to the sliding rail structure 161 of the keel five 315; the second clamping unit 622 is provided with a third clamping part 6221, which is connected with the sliding rail structure 161 of the keel first 311. Therefore, the first clamping unit 621 and the second clamping unit 622 have the functions of connecting the first keel 311, the third keel 321 and the fifth keel 315, the first keel 311, the third keel 321 and the fifth keel 315 are limited longitudinally and transversely, the three keels are connected through a connecting piece, and the phenomenon that the single keel slides to cause instability of an integrated ceiling structure is avoided. In a specific embodiment, the second connecting member 62 includes a second connecting main plate 623, and the second connecting main plate 623 is connected to the upper end surfaces of the first clamping unit 621 and the second clamping unit 622, so that the second connecting main plate 623 is divided into a first main plate portion 6231, a second main plate portion 6232 and a third main plate portion 6233 according to the position areas of the first clamping unit 621 and the second clamping unit 622, wherein the first main plate portion 6231 is connected to the upper end surface of the first clamping portion 6211, the second main plate portion 6232 is connected to the upper end surface of the second clamping portion 6212, and the third main plate portion 6233 is connected to the upper end surface of the third clamping portion 6221. In addition, the second connecting piece 62 further comprises a first connecting clamping plate 6241 and a second connecting clamping plate 6242 which are oppositely arranged at two sides of the first clamping part 6211, a first connecting clamping plate 6241 and a second connecting clamping plate 6242 at two sides of the second clamping part 6212, and a third connecting clamping plate 6243 at two sides of the third clamping part 6221 in the same plane. The first connecting clamp 6241 and the second connecting clamp 6242 are perpendicular to the second connecting main plate 623 relatively and are connected to the support plates 1612 on both sides of the sliding rail structure 161 respectively, and the bending direction of the third connecting clamp 623 is perpendicular to the bending direction of the first connecting clamp 6241 and the second connecting clamp 6242 and is connected to the support plate 1612 on one side of the sliding rail structure 161. Further, the width of the second connecting main plate 623 matches with the width of the connecting plate 1611 of the sliding rail structure 161, and the fifth keel 315 and the third keel 321 are disconnected, so that the length of the first main plate 6231 and the second main plate 6232 after being connected is greater than the length of the third main plate 6233, which is beneficial to better and stably connecting the fifth keel 315 and the third keel 321. The upper ends of the first connecting clamp 6241, the second connecting clamp 6242 and the third connecting clamp 6243 are connected to the end face of the second connecting main plate 623 in an arc shape, and the arc-shaped parts of the lower ends extend into the first notch 1613 and the second notch 1614 of the slide rail structure 161 and surround the outer end face of the support plate 1612 of the slide rail structure 161. In addition, in this embodiment, the second connecting main board 623 includes a first connecting sheet 625 and a second connecting sheet 626, the first connecting sheet 625 is perpendicular to the second connecting sheet 626, the first connecting sheet 625 includes a first sheet unit 6251 disposed on the first main board 6231 and the second main board 6232, respectively, and a second sheet unit 6252 disposed on the third main board 6233, the first sheet unit 6251 can be further divided into a first sheet area 6253 connected to both sides of the first clamping unit 621, and a second sheet area 6254 disposed on the upper ends of the first clamping portion 6211 and the second clamping portion 6212, respectively, and the first sheet area 6253 is connected to the second sheet area 6254. The second sheet body unit 6252 can be divided into a third sheet region 6261 connected and intersected with the second sheet region 6254 and a fourth sheet region 6262 arranged at two ends of the third sheet region 6261. Similar to the first connector 551, the second segment 6254 of the second connector 62 is also provided with a groove 543, a spring element 5431 is disposed in the groove 543, the spring element 5431 faces the second segment 542, and the spring element 5431 partially protrudes from the lower end face of the second segment 6254. In some specific embodiments, when the second connecting element 62 slides backwards on the sliding track structure 161 for detachment, and the sliding track structure 161 slides to the region of the groove 543, the spring element 5431 is pressed by the top of the sliding track structure 161, so that the spring element 5431 bounces upwards, which facilitates detachment of the second connecting element 62 on the sliding track structure 161; when second connecting piece 62 is at the slide rail structure 161 during the assembly of sliding forward, slide rail structure 161 is far away from the regional time of recess 543, spring part 5431 has not had the resistance at slide rail structure 161 top, spring part 5431 slowly falls back downwards and protrudes in piece district two 6254 lower terminal surface to support slide rail structure 161 and/or the terminal surface of fossil fragments 311, have certain holding power to fossil fragments 311, have dual stabilizing effect, make the fastness and the stability of whole integrated furred ceiling better. In some embodiments, the first and second clamping units 6255 and 6256 are provided at two sides of the first segment 6253 of the first connecting piece 625 and are bent oppositely. Specifically, the first clamping plate unit 6255 and the second clamping plate unit 625 are perpendicular to the first connecting clamping plate 6241 and the second connecting clamping plate 6242, respectively, and the first clamping plate unit 6255 and the second clamping plate unit 625 are oppositely arranged, so that a first connecting clamping space 6257 for longitudinally clamping the support plates 1612 at two sides of the slide rail structure 161 is formed, the first connecting clamping space 6257 is a semi-closed cavity, and the connecting plate 1611 and the support plates 1612 at two sides of the slide rail structure 161 penetrate through the connecting clamping space. Therefore, the lower part of the first connecting sheet body 625 is not easy to fall off from the sliding rail structures 161 of the first keel 311 and the fifth keel 315 by arranging the first clamping plate unit 6255 and the second clamping plate unit 6256, a certain limiting effect is achieved, and the stability of the sliding rail structures 161 in the sliding process is ensured. In addition, in the specific embodiment, a third clamping plate unit 6257 bent oppositely is arranged on one side of the sheet region four 6262 of the second connecting sheet body 626, specifically, the upper end of the connecting clamping plate three 6243 of the sheet region four 6262 is connected with the sheet region four 6262, and the lower end of the connecting clamping plate three 6243 is connected with the third clamping plate unit 6257, so that a clamping space for transversely clamping the supporting plate 1612 on one side of the sliding rail structure 161 is formed, and the connecting plate 1611 and the supporting plates 1612 on two sides of the sliding rail structure 161 transversely penetrate through the clamping space. Therefore, the third clamping plate unit 6257 is arranged to prevent the keel 311 or the external connecting piece from deviating to the outer periphery, and also has a certain limiting effect to ensure the stability of connection and structure. In addition, the second connecting member 62 is also provided with the same fastening members as the first connecting member 551, the first 6253 of the two end sections is provided with a first fastening member 561, and the third 6261 of the two end sections is provided with a second fastening member 562, the first fastening member 561 and the second fastening member 562 being detachable members to be brought into contact with or separated from the upper surface of the connecting plate 1611 of the slide rail structure 161. Specifically, the second segment 6254 is provided with a first through-connection hole 5611, the first fastening member 561 can be inserted into the first through-connection hole 5611, and the lower end surface of the first fastening member 561 is tapered to better contact with the connection plate 1611 of the sliding rail structure 161, so as to generate friction force, thereby fastening the first clamping unit 621 with the sliding rail structure 161, and conversely, the first clamping unit 621 is separated from the sliding rail structure 161. Similarly, the upper part of the third segment 6262 is provided with a second through connecting hole 5612, and the second fastening member 552 can be inserted into the second through connecting hole 5612, so that the first fastening member 561 and the second fastening member 552 not only have the fastening or detaching function, but also better ensure the firmness of the integral suspended ceiling by respectively providing the first clamping unit 621 and the second clamping unit 622 with fastening members. In this embodiment, each second connecting member 62 is provided with three fasteners, and in other embodiments, the number of the fasteners may be more than that in this embodiment, which also has the above-mentioned function, and is more stable, and is only tedious to install or disassemble, and in addition, in other areas of the integrated ceiling, the same connecting positions as the keels of this embodiment are also provided with the second connecting members 62 in this embodiment.

As shown in fig. 29-33, in other embodiments, the first keel 311 of the present invention is further connected with a sixth keel 316 perpendicular to the first keel 311 and connected to the first frame keel 13, and a seventh keel 317 perpendicular to the first keel 311 and disposed in front of one end of the sixth keel 316, both the sixth keel 316 and the seventh keel 317 are not provided with the sliding track structure 161, one end of the sixth keel 316 is connected to the first frame keel 13 through the connecting member 5, and one end of the sixth keel 316 and the other end of the seventh keel 317 are connected to the first keel 311 through the connecting member 5. Further, in this embodiment, keels six 316 and seven 317 are triangular keel members. The connecting member 5 of the keel six 316, the keel seven 317 and the keel one 311 is a cross-shaped third connecting member 72, specifically, the third connecting member 72 also has a clamping unit three 721 and a clamping unit four 722 which have the same functions as the first clamping part 51 and the second clamping part 52, the clamping unit three 721 and the clamping unit four 722 are mutually and vertically connected in the same plane, the cross section of the formed connecting structure is cross-shaped, the clamping unit four 722 is connected with the connecting plate 1611 and the two side supporting plates 1612 of the sliding rail structure 161 of the keel one 311, and the clamping unit three 721 is connected with the keel six 316 and the top panel 118 of the keel seven 317. In this embodiment, the third clamping unit 721 includes a fourth clamping portion 7211 and a fifth clamping portion 7212, wherein the fourth clamping unit 722 is provided with a sixth clamping portion 7221, and is connected to the slide rail structure 161 of the keel one 311. Therefore, the third clamping unit 721 and the fourth clamping unit 722 have the function of connecting the first keel 311, the sixth keel 316 and the seventh keel 317, and limit the longitudinal direction and the transverse direction of the first keel 311, the sixth keel 316 and the seventh keel 317, so that the phenomenon that the independent keels slide to cause instability of the integrated ceiling structure is avoided. In a specific embodiment, the third connecting member 72 includes a connecting main plate 723, and the connecting main plate 723 is connected to the upper end surfaces of the clamping unit three 721 and the clamping unit four 722, so that the connecting main plate 723 is divided into a fourth main plate portion 7231, a fifth main plate portion 7232 and a sixth main plate portion 7233 according to the position areas of the clamping unit three 721 and the clamping unit four 722, wherein the fourth main plate portion 7231 is connected to the upper end surface of the clamping unit four 7211, the fifth main plate portion 7232 is connected to the upper end surface of the clamping unit five 7212, and the third main plate portion 7233 is connected to the upper end surface of the clamping unit six 7221. In addition, the third coupling member 72 includes a fourth coupling clip 7241 and a fifth coupling clip 7242 that are oppositely disposed on both sides of the fourth clamping portion 7211, a fourth coupling clip 7241 and a fifth coupling clip 7242 on both sides of the fifth clamping portion 7212, and a sixth coupling clip 7243 on both sides of the sixth clamping portion 7221 on the same plane. Wherein, connecting splint four 7241 and connecting splint five 7242 are angle slope connection mainboard three 723, and laminate in panel 118 both sides terminal surface respectively, and connecting splint six 723 direction of buckling is perpendicular to connecting splint four 7241 and connecting splint five 7242, and connects in slide rail structure 161 one side backup pad 1612. Further, the width of the fourth main plate portion 7231 matches the width of the panel 118 of the keel sixth 316, the width of the fifth main plate portion 7232 matches the width of the panel of the keel seventh 117, the width of the sixth main plate portion 7233 matches the width of the connecting plate 1611 of the slide rail structure 161, and the length of the first main plate portion 7231 and the second main plate portion 7232 after being connected is greater than the length of the third main plate portion 7233. In addition, the upper end of the connecting clamp plate six 7243 is arc-connected with the end face of the clamping unit four 722, the arc-shaped part of the lower end extends into the notch one 1613 and the notch two 1614 of the slide rail structure 161 and surrounds the outer end face of the support plate 1612 of the slide rail structure 161, and the upper end of the connecting clamp plate four 7241 and the upper end of the connecting clamp plate five 7242 are arc-connected with the end face of the clamping unit three 721. The connection and/or components in the connecting main board three 723 are the same as those in the connecting main board two 623, and the connecting main board three 723 comprises a connecting sheet body three 725 and a connecting sheet body four 726, the connecting sheet body three 725 is perpendicular to the connecting sheet body four 726, and the connecting main board three 723 is also provided with a spring part 5431 which has the same function as the spring part 5431 of the first connecting piece 551. In some embodiments, the third connecting member 72 is different from the second connecting member 62 in that the third connecting member 72 is provided at both sides of the connecting body three 725 with the fourth and fifth jaw units 7255 and 7256 which are inclined at an angle and are attached to both side end surfaces of the face plate 118. Specifically, fourth splint unit 7255 and fifth splint unit 725 are inwards the inclination of angle respectively, and fourth splint unit 7255 and fifth splint unit 7256 are relative setting, consequently, make the difficult and six 316 and seven 317 drops of fossil fragments that drop of three 725 lower parts of connection lamellar body through setting up fourth splint unit 7255 and fifth splint unit 7256, have certain spacing and fixed action, guarantee to connect the steadiness. In addition, the other side of the connection blade body four 726 is provided with a sixth cleat unit 7257 functioning identically to the third cleat unit 6257 in the first connection member 561, and the second connection member 72 is provided with a first fastening member 561 and a second fastening member 552 functioning identically to the second connection member 62. In addition, in other areas of the integrated ceiling, the third connecting piece 72 in the embodiment is also arranged at the same connecting position with the keels in the embodiment.

As shown in fig. 34 to 36, in some embodiments, the connecting member 5 of the keel six 316 and the frame keel 13 is a fourth connecting member 82, specifically, the fourth connecting member 82 also has a clamping unit five 821 and a clamping unit six 822 which have the same functions as the first clamping part 51 and the second clamping part 52, the clamping unit five 821 and the clamping unit six 822 are connected to each other in the same plane, the clamping unit six 822 is connected to the connecting plate 1611 and the two side supporting plates 1612 of the sliding rail structure 161 of the frame keel 13, and the clamping unit five 821 is connected to the top panel 118 and two end faces of the keel six 316. In the present embodiment, the five clamping unit 821 includes a seven clamping portion 8211, and the six clamping unit 822 is provided with an eight clamping portion 8221. Therefore, five 821 of clamping unit and six 822 of clamping unit have the effect of connecting frame keel piece 13 and keel piece six 316, still carry on the vertically and transversely spacing of frame keel piece 13 and keel piece six 316, avoid the slip of independent keel or frame, cause integrated furred ceiling structure's unstability. In the embodiment, the fourth connecting member 82 includes a fourth connecting main plate 823, and different from the third connecting main plate 723 of the third connecting member 72, the fourth connecting member 82 is an integral body, and the upper and lower width is the same as the width of the top panel 118 of the keel six 316. Further, the fourth connecting member 82 further includes a connecting clamp plate seven 8241 and a connecting clamp plate eight 8242 oppositely disposed at two sides of the clamping portion six 8221, and a connecting clamp plate nine 8243 disposed at one side of the clamping portion seven 8211. The connecting clamp plate seven 8241 and the connecting clamp plate eight 8242 are connected with the main plate three 723 in an inclined angle, and are respectively attached to the end surfaces of two sides of the panel 118 of the slide rail structure 161, and the bending direction of the connecting clamp plate nine 8243 is perpendicular to the connecting clamp plate seven 8241 and the connecting clamp plate eight 8242, and is connected to a support plate 1612 on one side of the slide rail structure 161. In addition, the end face of the upper end arc-shaped clamping part seven 8211 of the connecting clamping plate nine 8243 is connected, the lower end of the arc-shaped part at the lower end is a ninth clamping plate unit 8257 perpendicular to the connecting clamping plate nine 8243, and the ninth clamping plate unit 8257 can extend into the first notch 1613 and the second notch 1614 of the slide rail structure 161 and surround the outer end face of the supporting plate 1612 of the slide rail structure 161. In some embodiments, the two sides of the seventh clamping portion 8211 of the fourth connecting member 82 are provided with a seventh clamping plate unit 8255 and an eighth clamping plate unit 8256 which are inclined at an angle and are attached to the end surfaces of the two sides of the panel 118, and the seventh clamping plate unit 8255 and the eighth clamping plate unit 8256 are inclined at an angle inward respectively and are arranged oppositely, so that the fourth connecting member 82 is not easy to fall off from the panel 118 of the keel six 316 by arranging the seventh clamping plate unit 8255 and the eighth clamping plate unit 8256, and has certain limiting and fixing effects, and the connection stability is ensured. In addition, the fourth connecting member 82 is provided with the first fastening member 561 and the second fastening member 562 having the same function as those of the third connecting member 72, and the connecting main plate four 823 and the connecting main plate three 723 are also provided with the spring member 5431 having the same function. In addition, in other areas of the integrated suspended ceiling, the same joints as the keels of the embodiment are also provided with the fourth connecting pieces 82 in the embodiment.

As shown in fig. 37 to 38, in other embodiments, the frame keel 13 may also be composed of multiple layers of frame pieces, and multiple sliding rail structures 161 and/or multiple lamps are disposed on the frame pieces, in this embodiment, the multiple layers of frame pieces include a first frame piece 134 and a second frame piece 135, wherein the first frame piece 134 is a first frame portion 1341 connected to the integrated ceiling middle panel 41, and the second frame portion 1342 is connected to an outer side of the first frame portion 1341, the upper ends of the first frame portion 1341 and the second frame portion 1342 are both provided with sliding rail structures 161, and the sliding rail structures 161 are provided with multiple hanging pieces 21 to be hung on a wall or an external medium, so as to ensure the stability of the frame keel. The inboard lower extreme of a frame portion 1341 is equipped with lamps and lanterns installation cavity 1343, and lamps and lanterns or lamp shade can be connected in this cavity, is equipped with roof installation department 1343 that roof 41 shelved in the integrated furred ceiling in the middle of lamps and lanterns installation cavity 1343 and sliding rail structure 161, therefore frame keel spare 13 in this embodiment both has support roof 41, to the global banding of integrated furred ceiling, still has the connection lamps and lanterns, as the effect of lamps and lanterns carrier, pleasing to the eye and practical. In addition, a second top plate mounting portion 1345 connected to the first frame 134 is disposed at the lower end of the other side of the first frame 134, a frame panel 45 is disposed between the first frame 134 and the second frame 135, a slide rail structure 161 is disposed at the upper portion of the second frame 134, and a third top plate mounting portion 1346 disposed opposite to the second top plate mounting portion 1345 is disposed at the lower end of the second frame 134. Of course, in other embodiments, a plurality of first frame members 134 and/or second frame members 135 may be further disposed on the frame keel member 13, or a plurality of lamp mounting cavities 1342 or ceiling mounting cavities may be disposed on the first frame member and/or second frame member 135, so that a plurality of lamps or ceilings 41 are connected thereto.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

In short, the above description is only the preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (10)

1. Lamp mounting device, its characterized in that includes lamps and lanterns base component and a plurality of slidable connection in the hoist and mount piece on the lamps and lanterns base component, wherein:

the lamp base component is provided with a first mounting structure and a second mounting structure, wherein the two sides of the first mounting structure and the second mounting structure are formed in a protruding mode, and a lamp hanging region for placing a lamp is formed between the first mounting structure and the second mounting structure;

a first top plate supporting piece and a second top plate supporting piece for placing a top plate are respectively arranged on the outer sides of the first mounting structure and the second mounting structure;

the lamp base component is characterized in that a plurality of sliding rail structures are arranged at the top of the lamp base component, and a clamping structure capable of moving and/or fixing on the sliding rail structures is arranged at one end of the hoisting piece.

2. The luminaire mounting arrangement of claim 1, wherein: the lamp base component comprises a substrate, wherein a first mounting structure and a second mounting structure which are bent downwards are arranged on two sides of the substrate;

the first mounting structure is provided with a first mounting part protruding towards the inner side and a first top plate supporting part protruding towards the outer side; the second mounting structure is provided with a second mounting part protruding towards the inner side and a second top plate supporting part protruding towards the outer side;

the middle part of the base plate is provided with a first mounting base used for connecting a lamp.

3. The luminaire mounting arrangement of claim 2, wherein:

a first hanging structure, a second hanging structure, a first bending piece and a second bending piece are arranged above the substrate, and the first bending piece and the second bending piece are positioned between the first hanging structure and the second hanging structure;

the first hanging structure comprises a slide rail structure positioned at the end part and a first protruding part which is positioned in the middle part and protrudes inwards, the first bending part is provided with a first bending part which is arranged opposite to the first protruding part, and the first protruding part and the first bending part surround to form a first accommodating chamber which can be used for accommodating a wiring harness;

the second hooking structure comprises a slide rail structure positioned at the end part and a second protruding part positioned at the middle part and protruding inwards, the second bending part is provided with a second bending part arranged opposite to the second protruding part, and the second protruding part and the second bending part surround to form a second containing chamber capable of containing a wiring harness.

4. A light fixture mounting apparatus as recited in claim 3, wherein: a first protruding part and a second protruding part are further arranged above the substrate, the first protruding part is located on the outer side of the first hanging structure, and the second protruding part is located on the outer side of the second hanging structure;

the first hanging structure comprises a third bulge part which is bulged outwards and a fourth bulge part which is positioned below the third bulge part, the fourth bulge part and the first bulge part surround to form a third accommodating chamber which can be used for accommodating a wiring harness,

the second hanging structure comprises a fifth bulge part protruding outwards and a sixth bulge part positioned below the fifth bulge part, and the fifth bulge part, the sixth bulge part and the second bulge part surround to form a fourth accommodating chamber capable of accommodating a wiring harness.

5. The luminaire mounting arrangement of claim 4, wherein: the slide rail structure comprises a connecting plate and supporting plates fixed on two sides of the connecting plate, the supporting plates are perpendicular to the connecting plate, and the upper surface of the connecting plate is arranged on the line protrusions.

6. Integrated furred ceiling, its characterized in that includes:

the luminaire mounting arrangement of any of claims 1-5;

at least one lamp mounted in the lamp hanging area;

the frame keel pieces are arranged at two ends of the lamp base component, and a plurality of sliding rail structures are arranged at the upper ends of the frame keel pieces;

the connecting component is provided with a first clamping part and a second clamping part, the sliding rail structure at the top of the lamp base component is connected with the first clamping part, and the sliding rail structure at the top of the frame keel piece is connected with the second clamping part.

7. The integrated ceiling of claim 6, wherein: the connecting component comprises a main board, a first clamping plate and a second clamping plate which are arranged on two sides of the main board relatively, and a third clamping plate arranged at one end of the main board, wherein the bending direction of the third clamping plate is perpendicular to the bending direction of the first clamping plate or the second clamping plate.

8. The integrated ceiling of claim 7, wherein: the mainboard includes first lamellar body and the second lamellar body of being connected with first lamellar body end, first lamellar body perpendicular to second lamellar body.

9. The integrated ceiling of claim 8, wherein: two sides of the first sheet body are provided with a first clamping plate piece and a second clamping plate piece which are bent oppositely to form a first clamping area for longitudinally clamping the supporting plates on two sides of the sliding rail structure;

one side of the second sheet body is connected with the first sheet body, and the other side of the second sheet body is provided with a third clamping plate piece bent towards the first sheet body, so that a second clamping area for transversely clamping the supporting plate on one side of the sliding rail structure is formed.

10. The integrated ceiling of claim 9, wherein: the sliding rail structure comprises a first sheet body, a second sheet body and a connecting plate, wherein the first sheet body is provided with a first fastener, the second sheet body is provided with a second fastener, the first fastener can move relative to the first sheet body to enable the first sheet body to be in contact with or separated from the upper surface of the connecting plate of the sliding rail structure, and the second fastener can move relative to the second sheet body to enable the second sheet body to be in contact with or separated from the upper surface of the connecting plate of the sliding rail structure.

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