Accompanying drawing explanation
Fig. 1 is a three-dimensional exploded view of display holder one of the present invention preferred embodiment.
Fig. 2 is another three-dimensional exploded view of the display holder of Fig. 1.
Fig. 3 is a part of three-dimensional assembly diagram of the display holder of Fig. 1.
Fig. 4 is another part three-dimensional assembly diagram of the display holder of Fig. 1.
Fig. 5 is a three-dimensional assembly diagram of the display holder of Fig. 1.
Fig. 6 is a part of sectional view of the display holder of Fig. 1.
Fig. 7 is a rear view of the display unit of Fig. 5.
Fig. 8 is the rear view after rotating.
Primary component symbol description
Fixed plate 10
Power connector 11
First power delivery post 111
Second source transmission post 112
3rd power delivery post 113
Rail brackets 20
Framework 21
Long limit 211
Minor face 212
Opening 213
Closure bar 214
Power interface 215
Base plate 22
Wire 221
Swivel assembly 50
Friction plate 51
Turn hole 511
Lamellar body 52
Fastening sheet 53
Through hole 531
Sliding assembly 70
First slide block 71
Receiving hole 711
Traveller 712
Limited part 713
Second slide block 72
Chute 721
Conducting plate 722
First conducting plate 723
Second conducting plate 724
Fixed block 725
Accepting hole 726
Conducting block 73
First conductive trough 731
Second conductive trough 732
Conductive hole 733
Pad 74
Fixed hole 741
Banking stop 75
Perforation 751
Spacing preiection 752
Display unit 90
Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.
Embodiment
Refer to Fig. 1 to Fig. 2, in a preferred embodiment of the present invention, a display holder comprises fixed plate 10, rail brackets 20, swivel assembly 50 and a sliding assembly 70.
This fixed plate 10 is used for fixing sees Fig. 3 at a display unit 90() on, such as TV, display screen etc., this fixed plate 10 is provided with a power connector 11, this power connector 11 comprises three power delivery posts, the first power delivery post 111, second source transmission post 112 and the 3rd power delivery post 113 respectively, first power delivery post 111 is positioned at the topmost part, and second source transmission post 112 is positioned at foot, and the 3rd power delivery post 113 is positioned at centre; When fixed plate 10 is fixed in display unit 90, these three power delivery posts 111,112,113 and display unit 90 inside are electrical connected, thus are display unit 90 electric energy transmitting.
This rail brackets 20 can be arranged on body of wall, rail brackets 20 comprises a framework 21 and and is fixed on base plate 22 in framework 21, framework 21 comprises two parallel long limits 211 and a minor face 212, part relative with minor face 212 in framework 21 is provided with that opening 213, closure bar 214 is dismountable is arranged on this opening 213 place; Minor face 212 is provided with a power interface 215, and this base plate 22 is provided with two exposed wire 221, two wires 221 and is respectively zero line and live wire, and two wires 221 are electrically connected with power interface 215, and relatively short side 211 be arranged in parallel.
This sliding assembly 70 comprises one first slide block 71,1 second slide block 72, conducting block 73, pad 74 and a banking stop 75.
Offer one in the middle part of this first slide block 71 and be roughly square receiving hole 711, first slide block 71 is respectively equipped with traveller 712 at the lower edges of receiving hole 711, the end of this traveller 712 is provided with limited part 713, and this first slide block 71 can slip between two long limits 211 of framework 21 from the opening 213 of rail brackets 20.
This second slide block 72 is slidably installed in the receiving hole 711 of this first slide block 71, the upper and lower of this second slide block 72 is respectively equipped with a "T"-shaped chute 721 relative to the traveller 712 of the first slide block 71, second slide block 72 is provided with conducting plate 722 towards the side of the first slide block 71, and this conducting plate 722 comprises one first conducting plate 723 and one second conducting plate 724; This second slide block 72 deviates from the side projection of the first slide block 71 one fixed block 725, and this fixed block 725 is non-circular, and fixed block 725 is provided with an accepting hole 726.
This conducting block 73 can be housed in accepting hole 726, this conducting block 73 comprises one first conductive trough 731,1 second conductive trough 732 and a conductive hole 733, first conductive trough 731 and the second conductive trough 732 are arc, first conductive trough 731 is positioned at the top of conductive hole 733, second conductive trough 732 is positioned at the bottom of conductive hole 733, and conducting block 73 has all plated conductive material at the first conductive trough 731, second conductive trough 732 and conductive hole 733; When conducting block 73 is installed to after in the accepting hole 726 of the second slide block 72, conductive material and first conducting plate 723 of the first conductive trough 731 inwall are electrically connected, conductive material and second conducting plate 724 of the second conductive trough 732 inwall are electrically connected, the conductive material ground connection of conductive hole 733 inwall.
Offered a fixed hole 741 in pad 74, the shape of fixed hole 741 is identical with size with the shape of fixed block 725 with size.
Offered a perforation 751 in banking stop 75, the shape of perforation 751 is identical with size with the shape of fixed block 725 with size, and the edge projection of banking stop 75 two spacing preiections 752, the material that banking stop 75 adopts friction factor larger is made.
This swivel assembly 50 comprises friction plate 51, lamellar body 52 and a fastening sheet 53, and this friction plate 51 and lamellar body 52 are equipped with and turn hole 511, friction plate 51 and lamellar body 52 are enclosed within fixed block 725 by turning hole 511, and rotate relative to fixed block 725; Fastening sheet 53 can be fixed on lamellar body 52, and the power connector 11 of fastening sheet 53 opposing fixed plate 10 is provided with a through hole 531.
See also Fig. 1 to Fig. 8, during assembling, conducting block 73 is loaded in the accepting hole 726 of the second slide block 72, second slide block 72 is loaded in the receiving hole 711 of this first slide block 71, and allow the traveller 712 of the first slide block 71 slip in the chute 721 of the second slide block 72, then the first slide block 71 is slipped into framework 21 from the opening 213 of rail brackets 20, first slide block 71 can slide in rail brackets 20, and two wires 221 electrical contact of the first conducting plate 723 of the second slide block 72 and the second conducting plate 724 and rail brackets 20.
Again the fixed block 725 of the second slide block 72 is penetrated the fixed hole 741 of pad 74 and the perforation 751 of banking stop 75 successively, thus pad 74 and banking stop 75 are fixed on fixed block 725.
Then friction plate 51 is fixed to one side of lamellar body 52, align with the hole 511 that turns of lamellar body 52 in the hole 511 that turns of friction plate 51, fastening sheet 53 is fixed on the another side of lamellar body 52, the center of circle of through hole 531 is allowed to align with the center of circle turning hole 511, be fixed to by lamellar body 52 on fixed plate 10, the power connector 11 of fixed plate 10 is through through hole 531 and turn hole 511.
Finally the fixed block 725 of the second slide block 72 is penetrated turning in hole 511 of friction plate 51 and lamellar body 52, thus described swivel assembly 50 and fixed plate 10 are attached on the second slide block 72 rotationally; Friction plate 51 and banking stop 75 are fitted, and produce larger frictional force between; First power delivery post 111 of power connector 11 inserts in the first conductive trough 731 and is also electrically connected with the first conductive trough 731 inwall simultaneously, second source transmission post 112 to insert in the second conductive trough 732 and and the second conductive trough 732 inwall be electrically connected, the 3rd power delivery post 113 inserts conductive hole 733 and and conductive hole 733 inwall electric connection.
During use, rail brackets 20 is fixed on body of wall, ABAP Adapter is electrically connected in power interface 215, electric energy is transferred to the display unit 90 be fixed on fixed plate 10 by power interface 215, wire 221, conducting plate 722, conducting block 73 and power connector 11, thus powers for display unit 90.
When needs slip display unit 90, slide the second slide block 72 in the first slide block 71, the first conducting plate 723 of the second slide block 72 is allowed to be separated with two wires 221 of rail brackets 20 with the second conducting plate 724, then slide the first slide block 71 in rail brackets 20, after display unit 90 is moved to suitable position, in the first slide block 71, slide back the second slide block 72, allow the first conducting plate 723 and the second conducting plate 724 again be electrically connected with two wires 221.
Also can rotate display unit 90 as required, during rotation, overcome the frictional force between friction plate 51 and banking stop 75, and described swivel assembly 50 rotates together with display unit 90 with fixed plate 10, first power delivery post 111 of the power connector 11 of fixed plate 10 in the slip of the first conductive trough 731, and keeps the electric connection with the first conductive trough 731 inwall; Second source transmission post 112 rotates in the second conductive trough 732, and keeps the electric connection with the second conductive trough 732 inwall; 3rd power delivery post 113 rotates in conductive hole 733, and keeps the electric connection with the second conductive trough 732 inwall; When then display unit 90 is rotated, this display holder still can remain display unit 90 and power, and display unit 90 can be positioned at any position after rotation by the frictional force between friction plate 51 and banking stop 75.