Assembled partition wall subassembly
Technical Field
The utility model relates to an assembled fitment technical field especially relates to an assembled partition wall subassembly.
Background
In order to achieve rapid butt-joint of a plurality of wall panels to form a partition wall, the prior patent of the applicant provides a fabricated partition wall (patent application No.: CN201810015216.3) which includes wall panels for butt-joint in sequence and a connector disposed between two adjacent wall panels for butt-joint of the two wall panels. In the solution described in an embodiment of this prior patent: a clamping groove is formed in the side keel of the wallboard, and two opposite inclined planes are arranged on the groove wall of the clamping groove. The connecting piece comprises a rectangular block-shaped connecting body and a spring ejector rod; the both ends of connecting the body stretch into the draw-in groove of the side fossil fragments of two adjacent wallboards respectively, spring among the spring ejector pin makes the ejector pin stretch out connecting the body and towards two cell walls, need make the ejector pin slide the inclined plane side and can make connecting the body deviate from the notch of draw-in groove, and make the ejector pin slide the inclined plane and need apply certain external force to the wallboard in order to overcome the elasticity of spring, so, two adjacent wallboards can keep the butt joint state with the help of the connecting piece, and the accessible is applyed relatively great external force and is made connecting the body deviate from the draw-in groove and realize the quick dismantlement between the wallboard.
However, the assembled partition wall provided by the applicant's prior patent suffers from the following drawbacks:
1. the above-mentioned draw-in groove extends along the length direction of side fossil fragments, and the connecting piece can not stably keep in a certain high position, and in some circumstances, for example, the gravity of connecting piece has overcome the frictional force of ejector pin and inclined plane, or when the wallboard takes place to shake, the connecting piece can slide down to another high position from a high position, even the extreme low position.
2. Connect the body both ends and stretch into respectively to the draw-in groove of the side fossil fragments of two adjacent wallboards, the both ends of connecting the body lean on two sets of spring ejector pins and draw-in groove cooperation respectively, and the elastic coefficient and the pretightning force of two sets of springs in two sets of spring ejector pins set for the same, lead to: when force is applied to separate two wall panels, it is not possible to have multiple connectors on the same wall panel while all are separated from one another, i.e., some connectors are separated from one of the wall panels and another connector is separated from the other wall panel, which is detrimental to subsequent use of the connectors to dock the wall panels.
SUMMERY OF THE UTILITY MODEL
To the above-mentioned technical problem that exists among the prior art, the embodiment of the utility model provides an assembled partition wall subassembly.
For solving the technical problem, the embodiment of the utility model adopts the following technical scheme:
an assembly type partition wall assembly comprises a plurality of wallboards which are sequentially butted and a connecting piece used for butting every two adjacent wallboards, wherein the connecting piece comprises a connecting body and two groups of spring ejector rods which are arranged at the positions close to the two ends of the connecting body, the side edge of each wallboard is provided with a side keel, a clamping groove which extends along the length of the side keel is formed in the side keel, opposite inclined planes are arranged on the groove walls of the clamping grooves, the two ends of the connecting body are respectively inserted into the clamping grooves of the side keels of the two adjacent wallboards, at least one preset height position of the groove wall of the clamping groove of one of the two adjacent side keels is provided with a sliding groove, the sliding groove extends in the length direction which is vertical to the side keels, a sliding block is formed on the connecting body so that the connecting body extends into the clamping groove with the sliding groove, the sliding block slides into the sliding groove, and the connecting piece is limited at the preset height by means of the matching of the sliding block and the sliding groove.
Preferably, the sliding grooves are formed in the same preset height of the clamping grooves of the two adjacent side keels, and the sliding blocks which are used for sliding into the sliding grooves in the clamping grooves of the two adjacent side keels respectively are correspondingly formed on the connecting piece.
Preferably, adjacent two have between the side fossil fragments a plurality of the connecting piece, all seted up the spout in a plurality of different preset height positions to be used for making a plurality of the injecing of connecting piece one-to-one is in a plurality of different preset height positions.
Preferably, the elastic coefficient of the spring in the first group of spring ejector rods in the two groups of spring ejector rods of each connecting piece is larger than the elastic coefficient of the spring in the second group of spring ejector rods;
and one ends of the connecting pieces, which correspond to the first group of spring ejector rods, extend into the clamping grooves of the same wallboard.
Compared with the prior art, the utility model discloses an assembled partition wall subassembly's beneficial effect is:
1. through set up the slider on connecting body and set up the spout on the draw-in groove, can make the connecting piece that is located between two wallboards remain throughout at definite high position.
2. The springs of the two groups of spring ejector rods of the connecting pieces are set to different elastic coefficients, and after the two wallboards are detached, all the connecting pieces can be connected to the same wallboard.
Drawings
Fig. 1 is a schematic perspective view of a side keel in an assembled partition wall assembly according to an embodiment of the present invention.
Fig. 2 is a schematic perspective view of a connecting member in an assembled partition wall assembly according to an embodiment of the present invention.
Fig. 3 is a cross-sectional view of the butt joint of the prefabricated partition wall assembly according to the embodiment of the present invention (two wall panels are in a butt joint state).
Fig. 4 is an enlarged view of a portion a of fig. 3.
Fig. 5 is a cross-sectional view of the butt joint of the prefabricated partition wall assembly according to the embodiment of the present invention (two wall panels are in a state of tending to separate).
Fig. 6 is an enlarged view of a portion B of fig. 5.
In the figure:
10-a wallboard; 20-side keel; 21-card slot; 211-inclined plane; 212-a chute; 30-a connector; 31-a connecting body; 32-spring ejector pin; 321-a mandril; 322-a spring; 33-sliding block.
Detailed Description
In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be described in detail with reference to the accompanying drawings and the detailed description.
As shown in fig. 1 to 6, the present invention discloses a fabricated partition wall assembly, and some features of the fabricated partition wall assembly in the present embodiment are disclosed in the prior patent (patent application No.: CN201810015216.3) of the applicant, and the features of the fabricated partition wall assembly are as follows: the assembly type wallboard 10 assembly comprises a plurality of wallboards 10 which are sequentially butted and a connecting piece 30 which is used for butting every two adjacent wallboards 10, wherein the connecting piece 30 comprises a connecting body 31 and two groups of spring ejector rods 32 which are arranged at positions close to two ends of the connecting body 31, a side keel 20 is arranged on the side of each wallboard 10, a clamping groove 21 which extends along the length of the side keel 20 is formed in the side keel 20, opposite inclined surfaces 211 are formed on the groove walls of the clamping grooves 21, and two ends of the connecting body 31 are respectively used for being inserted into the clamping grooves 21 of the side keels 20 of two adjacent wallboards 10.
The above features enable the principles of quick docking and undocking of wall panels 10 to be achieved as disclosed in applicant's prior patents.
The present embodiment differs from the prior patent in that:
1. a plurality of pairs of sliding grooves 212 are formed in the groove walls of the clamping grooves 21 of the side keels 20 respectively arranged on the adjacent side edges of the adjacent wall panels 10, the sliding grooves 212 extend in the length direction perpendicular to the side keels 20 (each pair of sliding grooves 212 includes two groups of sliding grooves 212, the two groups of sliding grooves 212 are respectively formed in the groove walls of the clamping grooves 21 of the two side keels 20 and are located at the same height), and the different pairs of sliding grooves 212 are arranged at intervals in the length (or height) direction of the side keels 20; the connecting members 30 have the same number of pairs as the sliding grooves 212, and the connecting members 30 are correspondingly arranged at positions with the sliding grooves 212 at different heights.
2. Two sets of sliding blocks 33 are formed on the connecting body 31 of each connecting member 30, and in the process that the connecting body 31 extends into the clamping grooves 21 of the two adjacent side keels 20, the two sets of sliding blocks 33 respectively slide into the two corresponding sets of sliding grooves 212, and in the height direction (or vertical direction), the sliding grooves 212 have a stopping function on the sliding blocks 33, so that the connecting member 30 is kept at the height of the sliding grooves 212.
3. The spring 322 in one of the two sets of spring rods 32 of each connecting member 30 has a greater spring constant than the spring 322 in the other set of spring rods 32. One end of each connecting member 30 corresponding to the spring top bar 32 with larger elastic coefficient extends into the slot 21 of the same wall plate 10. As shown in fig. 5 and 6, when an external force is applied to try to separate the two wall panels 10 in the abutting state, the spring 322 with smaller elastic coefficient yields first, so that the corresponding top bar 321 slides through the inclined plane 211 and slides out of the notch of the slot 21 by retracting, while the spring 322 with larger elastic coefficient does not yield, and the corresponding top bar 321 does not retract, so that the connecting member 30 corresponding to the top bar 321 does not fall out of the slot 21 of the side keel 20 of the side wall panel 10. Thus, when two wall panels 10 are detached, all of the connectors 30 will remain on one wall panel 10.
The advantages of the above embodiment are:
1. the connecting element 30 between the two wall panels 10 can always be held at a defined height by providing the connecting body 31 with the slide 33 and by providing the slot 21 with the slide groove 212.
2. By setting the springs 322 of the two sets of spring ejector pins 32 of the connecting members 30 to different spring coefficients, it can be ensured that all connecting members 30 are connected to the same wall panel 10 after the two wall panels 10 are detached.
The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention can be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.