A kind of secondary ceiling structure
Technical field
The utility model relates to furred ceiling technical field, particularly a kind of secondary ceiling structure.
Background technology
Furred ceiling refers to the top finishing of house dwelling environment.Briefly, just refer to the finishing of ceiling, it has insulation, heat insulation, sound insulation, the effect of sound absorption, be also electrically, air conditioner, communication and the engineering such as fire prevention, warning line equipment hidden layer, be one of pith of interior decoration.At present, ceiling structure is generally made up of main joist, rider keel and buckle, and main joist leads to suspension rod extension and hangs below ceiling, and rider keel is fixed on main joist, and buckle button is located at described rider keel to be spliced to form furred ceiling layer.
In actual application, for the requirement of the structure and design scheme etc. in house, ceiling structure often needs to be arranged to secondary structure, namely needs a upper strata furred ceiling and lower floor's furred ceiling, upper strata furred ceiling and lower floor's furred ceiling transition position are a step, i.e. so-called staggered floor construction.But, the staggered floor construction (step-like) how realizing this transition position is but technological difficulties in this area, because namely this staggered floor construction place needs the fixed form considering the upper and lower buckle, avoid the difference in height in different the upper and lower, position different, also to consider that this staggered floor construction (comprises external corner and inner corner trim at corner, the outer salient angle of furred ceiling when external corner and visual angle are looked up from bottom to top, the interior re-entrant angle of furred ceiling when inner corner trim and visual angle are looked up from bottom to top) syndeton at place, thus it is very complicated that the skeleton of staggered floor construction can be made to arrange.Therefore, prior art generally adopts aluminium extruded sections to realize this staggered floor construction, the such as patent No. is layered suspended ceiling structure disclosed in the patent of ZL201120185156.3, its ledge structure utilizing aluminium extruded sections and upper buckle to be formed is to construct staggered floor construction, the advantage of this mode is the keel arrangement without the need to considering staggered floor construction layer, keel structure is simple, but its shortcoming is also obvious, first, in actual job, this structure needs to waste a large amount of aluminium extruded sectionss, and aluminium extruded sections needs the adjustment according to constructing structure and adjusts, and construction cost is high; Secondly, this structure requires very high to the structure precision of aluminium extruded sections, corner due to this structure is that the splicing of dependence two aluminium extruded sectionss is formed substantially, if therefore two aluminium extruded sectionss mutually spliced have the cutting angle of or size to there is deviation, the corner spliced then can be caused not meet specification, and therefore difficulty of construction is large.
Summary of the invention
The purpose of this utility model is avoid above-mentioned weak point of the prior art and provide a kind of keel structure that both effectively can simplify staggered floor construction place, do not need the secondary ceiling structure of the secondary furred ceiling using aluminium extruded sections simultaneously, thus reduce construction cost and difficulty of construction.
The purpose of this utility model is achieved through the following technical solutions:
Provide a kind of secondary ceiling structure, comprise rider keel and the buckle being snapped in described rider keel, described rider keel comprises upper strata rider keel and has lower floor's rider keel of difference in height with upper strata rider keel, described upper strata rider keel is hung on described main joist through connector, the described lower floor rider keel of described upper strata rider keel and described lower floor rider keel intersection is hung on described upper strata rider keel through connector, described in other, lower floor's rider keel is hung on described main joist through connector, all lower floors rider keel is consistent with the difference in height of described upper strata rider keel, described buckle comprises the upper buckle that button is located at upper strata rider keel, button is located at the lower pinch plate of lower floor's rider keel and is arranged at facade buckle between upper strata rider keel and lower floor's rider keel, described upper buckle, facade buckle and lower pinch plate are combined to form step.
Wherein, the upper end of described connector offers the upper jaws that can be embedded upper strata rider keel, and the bottom of described connector offers the lower jaws that can be embedded upper strata rider keel.
Wherein, described upper strata rider keel and lower floor's rider keel are all triangular keels, and described upper jaws and lower jaws are all that inverted triangle turns jaws.
Wherein, described connector comprises parallel keel connecting member, external corner connecting piece and internal corner connector, described parallel keel connecting member is matched with the rider keel corresponding to single facade buckle, described external corner connecting piece is matched with the rider keel corresponding to facade buckle that two form external corner, and described external corner connecting piece is matched with the rider keel corresponding to facade buckle that two form inner corner trim.
Wherein, described parallel keel connecting member comprises side strip, crosses out upper horizontal stripe from the upper end of side strip towards side, crosses out bottom crossband from the lower end of side strip towards the same side, and upper horizontal stripe and bottom crossband are equipped with downwardly facing opening, the jaws embedded for allowing rider keel.
Wherein, described external corner connecting piece comprises crossing two panels external corner brace, and the side close to each other of described two panels external corner brace is connected, and the mutual of described two panels external corner brace is provided with jaws for allowing rider keel embed away from side.
Wherein, described internal corner connector comprises nonparallel two panels inner corner trim angle brace, and the side close to each other of described two panels inner corner trim brace is provided with the jaws for allowing rider keel embed.
Wherein, the place close to each other of described two panels external corner brace is reserved with the gap can passed for facade buckle.
The beneficial effects of the utility model: the utility model is adopted at staggered floor construction place and buckled by connector on lower floor's rider keel by lower floor's rider keel, upper strata rider keel button is provided with buckle, lower floor's rider keel button is provided with lower pinch plate, facade buckle is provided with between upper strata rider keel and lower floor's rider keel, described upper buckle, facade buckle and lower pinch plate are combined to form step, because lower floor's rider keel buckles on lower floor's rider keel by connector, this not only simplifies the arrangement of keel, thus easily realize turning, and connector can be consistent as its height value of standard component, therefore the difference in height of upper strata rider keel and lower floor's rider keel can be consistent preferably, in addition, because this staggered floor construction is combined to form by upper buckle, facade buckle and lower pinch plate, compared to the technical scheme adopting aluminium extruded sections, it is not only with low cost, and at corner structure place, strict angle requirement be there is no to the buckle of splicing mutually, effectively reduce construction cost and difficulty of construction.
Accompanying drawing explanation
The utility model is described in further detail to utilize accompanying drawing, but the embodiment in accompanying drawing does not form any restriction of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the following drawings.
Fig. 1 is the oblique plan structure schematic diagram of a kind of secondary of the utility model ceiling structure.
Fig. 2 is that structural representation is looked up in the oblique of a kind of secondary of the utility model ceiling structure.
Fig. 3 is the parallel keel connecting member cross-sectional view of a kind of secondary of the utility model ceiling structure.
Fig. 4 is the external corner connecting piece structural representation of a kind of secondary ceiling structure of the utility model.
Fig. 5 is the internal corner connector structural representation of a kind of secondary ceiling structure of the utility model.
Include in FIG:
1---upper strata rider keel, 10---upper jaws, 2---lower floor's rider keel, 20---lower jaws, 3---upper buckle, 4---lower pinch plate, 5---facade buckle, 6---parallel keel connecting member, 61---side strip, 62---upper horizontal stripe, 63---bottom crossband, 7---external corner connecting piece, 71---external corner brace, 8---internal corner connector, 81---inner corner trim angle brace, 82---right angle connecting portion.
Detailed description of the invention
With the following Examples the utility model is further described.
The detailed description of the invention of a kind of secondary ceiling structure of the utility model, as shown in Figure 1 to Figure 3, comprise: lower floor's rider keel 2 that described rider keel comprises upper strata rider keel 1 and is in below upper strata rider keel 1, all lower floors rider keel 2 is fixed on main joist (not shown) to be in sustained height layer, lower floor's rider keel 2 is hung tight below described upper strata rider keel 1 with connector, upper strata rider keel 1 button is provided with buckle 3, lower floor's rider keel 2 button is provided with lower pinch plate 4, between upper strata rider keel 1 and lower floor's rider keel 2, button is provided with facade buckle 5, buckle one end, the inside button is established and upper strata rider keel 1, one end button is established and lower floor rider keel 2, described upper buckle 3, facade buckle 5 and lower pinch plate 4 are combined to form step.
Described connector comprises three kinds: parallel keel connecting member 6(as shown in Figure 3), external corner connecting piece 7(is as shown in Figure 4) and internal corner connector 8(is as shown in Figure 5), described parallel keel connecting member 6 is for the rider keel (comprising upper strata rider keel 1 and lower floor's rider keel 2) corresponding to fixed single facade buckle 5, described external corner connecting piece 7 is for fixing the rider keel (comprising upper strata rider keel 1 and lower floor's rider keel 2) corresponding to two facade buckles 5 forming external corner, described external corner connecting piece 7 is for fixing the rider keel (comprising upper strata rider keel 1 and lower floor's rider keel 2) corresponding to two facade buckles 5 forming inner corner trim, parallel keel connecting member 6 comprises side strip 61, upper horizontal stripe 62 is crossed out from the upper end of side strip 61 towards side, bottom crossband 63 is crossed out towards the same side from the lower end of side strip 61, upper horizontal stripe 62 is provided with downwardly facing opening, the upper jaws 10 embedded for allowing upper strata rider keel 1, bottom crossband 63 is provided with downwardly facing opening, the lower jaws 20 embedded for allowing rider keel, external corner connecting piece 7 comprises mutually orthogonal two panels external corner brace 71, one end (side close to each other) of described two panels external corner brace 71 is connected, the other end (namely mutual to side) of two panels external corner brace 71 is provided with the jaws (comprising upper jaws 10 and lower jaws 20) for allowing up/down layer rider keel (1,2) embed, certainly, the crossing angle of two panels external corner brace 71 also can be other values, not necessarily needs 90 °, internal corner connector 8 comprises mutually orthogonal two panels inner corner trim angle brace 81, the side close to each other of described two panels inner corner trim brace is provided with the jaws (comprising upper jaws 10 and lower jaws 20) for allowing up/down layer rider keel (1,2) embed, and this two panels inner corner trim brace edge close to each other does not connect, but being reserved with the gap can passed for facade buckle 5, two panels inner corner trim brace is coupled together by a right angle connecting portion 82 away from side mutually.
Compared with prior art, the technical scheme of the present embodiment not only simplify the arrangement of keel, and connector can be consistent as its height value of standard component, and therefore the difference in height of upper strata rider keel 1 and lower floor's rider keel 2 can be consistent preferably; In addition, because this staggered floor construction is combined to form by upper buckle 3, facade buckle 5 and lower pinch plate 4, compared to the technical scheme adopting aluminium extruded sections, it is not only with low cost, and at corner structure place, strict angle requirement be there is no to the buckle of splicing mutually, adopt above-mentioned external corner connecting piece 7 and internal corner connector 8 can realize various corner structure easily, effectively reduce construction cost and difficulty of construction.
Concrete, the upper strata rider keel 1 in the present embodiment and lower floor's rider keel 2 are all triangular keels, and described upper jaws 10 and lower jaws 20 are all that inverted triangle turns jaws.
Finally should be noted that; above embodiment is only in order to illustrate the technical solution of the utility model; but not the restriction to the utility model protection domain; although done to explain to the utility model with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can modify to the technical solution of the utility model or equivalent replacement, and not depart from essence and the scope of technical solutions of the utility model.