A kind of gate control system containing V-arrangement lock slider intelligent building
Technical field
The invention belongs to intelligent building field, be specially a kind of gate control system containing V-arrangement lock slider intelligent building.
Background technology
Usually there is in intelligent building the gate control system of energy automatic shutter.This gate control system can sense pedestrian near and automatically open, and automatically can to close away from rear pedestrian.
In order to security consideration, this gate control system to need to be arranged under the accidental situation such as power-off and by manpower push-and-pull and opening or closing by force, thus can improve the flexibility of system, avoids causing can not apply under fortuitous event.
But like this, the safety of gate control system in protection security etc. is affected.Such as, under some egregious cases, need carry out secure lock to gate control system and can not be opened by force by manpower; Or in some cases, can not be closed by force by manpower.
Summary of the invention
The object of the present invention is to provide a kind of gate control system containing V-arrangement lock slider intelligent building, it can overcome the defect of prior art.
According to the gate control system containing V-arrangement lock slider intelligent building of the present invention, comprise controller and automatic sliding door, described controller is for controlling push-and-pull and the locking of described automatic sliding door, described automatic sliding door comprises door-plate part, upper rail part and lower guideway part, the lower edges of described door-plate part is provided with two push-and-pull driven wheels, each in described two push-and-pull driven wheels is all connected with belt pulley, described belt pulley is connected by driving belt, and one in described two push-and-pull driven wheels connects with push-and-pull drive motors, tooth bar and the guide-track groove depression of longitudinal extension is provided with in described upper rail part and lower guideway part, the thickness direction that described tooth bar and guide-track groove are recessed in door-plate part is provided separately, described door-plate part is provided with the guiding be slidably matched that to cave in described guide-track groove and protrudes, also locking device is provided with in described guide-track groove depression, for with the V-type groove fit in the described horizontal plane that protrudes of leading thus opposite house plate lock, two fan door-plate part intersections are all provided with sealing anticollision strip,
Described locking device comprises lock drive motor, casing installed by stationary housing and cam slide, described stationary housing has the first wall portion, second wall portion and the connecting portion between described first wall portion and the second wall portion, described stationary housing is fixedly connected with building matrix by described connecting portion, described cam slide is installed casing and is arranged between described first wall portion and the second wall portion, and described cam slide is installed casing and is slidably matched with the horizontal slide rail be arranged in described connecting portion by the sliding part at its horizontal walls place, described cam slide is installed casing top and is provided with gathering sill, horizontal slide rail mid portion in described connecting portion is provided with guide pad, described guide pad is arranged in gathering sill, described lock drive motor is fixedly connected with described building matrix by fixed mount, described lock drive motor is provided with output shaft, described output shaft to be coordinated with the keyway in cam member endoporus by key and rotates with driving cam part, the side of described cam member is provided with the first installing sleeve, opposite side is provided with the second installing sleeve, described cam slide is installed casing and is had internal cavities, and the both sides inwall of the internal cavities of described cam slide installation casing is respectively arranged with the first protrusion sleeve and second extended internally and protrudes sleeve, described first protrusion sleeve and second protrudes sleeve and stretches in the first installing sleeve and the second installing sleeve respectively, and the first installing sleeve protrudes sleeve connection by the first thrust bearing and first, second installing sleeve protrudes sleeve connection by the second thrust bearing and second, described cam slide is installed in the internal cavities of casing and is also provided with V-arrangement lock slider, described V-arrangement lock slider is provided with and the horizontal joint that described cam member engages and the V-arrangement end relative with described the horizontal joint, described V-arrangement end is provided with anti-collision rubber bar, described anti-collision rubber bar sends impact sound when described V-arrangement end can be avoided to contact with the V-type groove in horizontal plane, also be conducive to protecting described V-arrangement lock slider, described cam slide is installed casing and is also provided with the second horizontal wall end relative with described horizontal walls, sliding eye is provided with in second horizontal wall end, the inwall of described sliding eye and the sliding part between the horizontal joint and V-arrangement end of described V-arrangement lock slider are slidably matched, described V-arrangement lock slider is provided with flexible member mounting flange near described the horizontal joint, and described V-arrangement lock slider is provided with defining flange between described sliding part and described V-arrangement end, defining flange is used for the outer side engagement of described second horizontal wall end thus carries out spacing to the inside motion of described V-arrangement lock slider, compression elastic element is provided with to carry out inside bias voltage to described V-arrangement lock slider between described flexible member mounting flange and the inner side of described second horizontal wall end, described first wall portion of described stationary housing and described cam slide are installed between casing and the second wall portion and described cam slide are installed to be separately installed with between casing and be centered around the axial Compress Spring of described output, described output shaft protrudes sleeve, second through described first wall portion, first successively and protrudes sleeve, cam member endoporus and described second wall portion, thus, described output shaft can drive described cam member rotate thus drive described V-arrangement lock slider to stretch out, described V-arrangement lock slider can move horizontally between described first wall portion and the second wall portion together with described cam slide installation casing and described cam member.
By such scheme, owing to have employed locking system, it can lock by opposite house plate by force when needs, like this, can controllably lock gate control system.Adapted to the needs under particular condition, such as, the blocking preventing burglar from runing away, the locking of fire situation are often opened etc.Owing to have employed floating type setting in the horizontal direction, its at vee-block with V-shaped groove not strictly to carrying out the movement of slight amplitude thus aim at V-shaped groove on time; And due to the fixation of stationary housing, this slight horizontal level floats and does not affect the locking effect of opposite house plate.
Accompanying drawing explanation
Fig. 1 is the overall structure schematic diagram of the intelligent building gate control system of embodiments of the invention;
Fig. 2 is the structural representation of gate control system on the thickness direction of door-plate, and the left and right directions in figure shows the thickness direction of door-plate.
The structural representation of locked component has been shown in Fig. 3.
Detailed description of the invention
Below in conjunction with Fig. 1-3, the present invention is described in detail.
According to the gate control system containing V-arrangement lock slider intelligent building of the embodiment of the present invention, comprise controller and automatic sliding door, described controller is for controlling push-and-pull and the locking of described automatic sliding door, described automatic sliding door comprises door-plate part 1, upper rail part 2 and lower guideway part 3, the lower edges of described door-plate part 1 is provided with two push-and-pull driven wheels 4, 5, described two push-and-pull driven wheels 4, each in 5 is all connected with belt pulley 41, described belt pulley 41 is connected by driving belt 6, and described two push-and-pull driven wheels 4, one in 5 connects with push-and-pull drive motors, tooth bar 21 and the guide-track groove depression 22 of longitudinal extension is provided with in described upper rail part 2 and lower guideway part 3, described tooth bar 21 and guide-track groove depression 22 are provided separately on the thickness direction of door-plate part, described door-plate part 1 is provided with 22 guiding be slidably matched that to cave in described guide-track groove and protrudes 101, locking device 7 is also provided with in described guide-track groove depression 22, for to coordinate with the V-type groove 723 in the horizontal plane of described guiding protrusion 101 thus opposite house plate locks, two fan door-plate part 1 intersections are all provided with sealing anticollision strip 9,
Described locking device 7 comprises lock drive motor 701, casing 706 installed by stationary housing 703 and cam slide, described stationary housing 703 has the first wall portion 704, second wall portion 717 and the connecting portion between described first wall portion 704 and the second wall portion 717, described stationary housing 703 is fixedly connected with building matrix 8 by described connecting portion, described cam slide is installed casing 706 and is arranged between described first wall portion 704 and the second wall portion 717, and described cam slide is installed casing 706 and is slidably matched with the horizontal slide rail 718 be arranged in described connecting portion by the sliding part at its horizontal walls place, described cam slide is installed casing 706 top and is provided with gathering sill 729, horizontal slide rail 718 mid portion in described connecting portion is provided with guide pad 728, described guide pad 728 is arranged in gathering sill 729, described lock drive motor 701 is fixedly connected with described building matrix 8 by fixed mount 702, described lock drive motor 701 is provided with output shaft 705, described output shaft 705 to be coordinated with the keyway in cam member 709 endoporus by key and rotates with driving cam part 709, the side of described cam member 709 is provided with the first installing sleeve 707, opposite side is provided with the second installing sleeve 708, described cam slide is installed casing 706 and is had internal cavities, and the both sides inwall of the internal cavities of described cam slide installation casing 706 is respectively arranged with the first protrusion sleeve 710 and second extended internally and protrudes sleeve 713, described first protrusion sleeve 710 and the second protrusion sleeve 713 stretch in the first installing sleeve 707 and the second installing sleeve 708 respectively, and the first installing sleeve 707 protrudes sleeve 710 by the first thrust bearing 711 and first to be connected, second installing sleeve 708 protrudes sleeve 713 by the second thrust bearing 712 and second and is connected, described cam slide is installed in the internal cavities of casing 706 and is also provided with V-arrangement lock slider 714, described V-arrangement lock slider 714 is provided with the horizontal joint and the V-arrangement end relative with described the horizontal joint of engaging with described cam member 709, described V-arrangement end is provided with anti-collision rubber bar 727, described anti-collision rubber bar 727 sends impact sound when described V-arrangement end can be avoided to contact with the V-type groove 723 in horizontal plane, also be conducive to protecting described V-arrangement lock slider 714, described cam slide is installed casing 706 and is also provided with the second horizontal wall end 716 relative with described horizontal walls, sliding eye is provided with in second horizontal wall end, the inwall of described sliding eye and the sliding part between the horizontal joint and V-arrangement end of described V-arrangement lock slider 714 are slidably matched, described V-arrangement lock slider 714 is provided with flexible member mounting flange 721 near described the horizontal joint, 719, and described V-arrangement lock slider 714 is provided with defining flange 720 between described sliding part and described V-arrangement end, 715, defining flange 720, 715 carry out spacing to the inside motion of described V-arrangement lock slider 714 for the outer side engagement with described second horizontal wall end 716, at described flexible member mounting flange 721, compression elastic element 722 is provided with to carry out inside bias voltage to described V-arrangement lock slider 714 between 719 and the inner side of described second horizontal wall end 716, described first wall portion 704 of described stationary housing 703 and described cam slide are installed between casing 706 and the Compress Spring 740,741 being separately installed with between casing 706 and being centered around around described output shaft 705 installed by the second wall portion 717 and described cam slide, described output shaft 705 protrudes sleeve 710, second through described first wall portion 704, first successively and protrudes sleeve 713, cam member 709 endoporus and described second wall portion 717, thus, described output shaft 705 can drive described cam member 709 to rotate thus drive described V-arrangement lock slider 714 to stretch out, described V-arrangement lock slider 714 can move horizontally between described first wall portion 704 and the second wall portion 717 together with described cam slide installation casing 706 and described cam member 709.
Alternatively, the quantity of described door-plate part is two, and it is oppositely arranged and can moves privately in opposite directions with mutually.
Alternatively, wherein, described controller can by sensor sense pedestrian near with away from thus control push-and-pull drive motors and run opening and closing to drive described gate control system.
Alternatively, described controller can control the motion of described push-and-pull drive motors and described lock drive motor according to command signal.
Alternatively, wherein, the quantity of the described V-type groove 723 on described door-plate part is multiple, can lock for the diverse location of door-plate part.