The proving installation of shield door electronic lock
Technical field
The present invention relates to the proving installation of shield door electronic lock.
Background technology
Electronic lock is the core component of sliding door of subway shielding door, shield door is fixedly installed sliding latch striking plate, sliding latch striking plate is provided with draw-in groove, electronic lock comprises housing, electromagnet, locking bar installing plate, locking bar and manual unlocking bar, and locking bar and manual unlocking bar are all fixed on the below of locking bar installing plate.Locking bar installing plate is provided with armature, and during electromagnet power-off, electromagnet and armature do not have mutual absorption affinity, and locking bar installing plate falls according to deadweight, thus drive locking bar to move downward and be inserted in draw-in groove; During electromagnet energising, adsorbable armature moves upward thus drives locking bar installing plate to move upward, the disengaging draw-in groove thus drive locking bar moves upward.When system failure, the artificial manual unlocking bar that promotes drives locking bar installing plate to move.
Conditional electronic lock is only repeatedly tested single cover electronic lock device, by adhesive and the release of up to ten thousand test electromagnet, the long duration test of test electromagnet, but, prior art cannot carry out the test of bringing onto load shield door, cannot test by manual unlocking, also cannot carry out the test of many cover electronic lock device simultaneously, therefore be difficult to ensure the outgoing as the electronic lock of core component.
Summary of the invention
For the deficiencies in the prior art, object of the present invention is intended to the proving installation providing a kind of shield door electronic lock, can realize the bringing onto load simulation shielding door switch test of shield door electronic lock, manual unlocking test and batch testing.
For achieving the above object, the present invention adopts following technical scheme:
The proving installation of shield door electronic lock, comprise erecting frame, drive unit and be arranged at the multiple test cells on erecting frame, test cell is provided with electronic lock, sliding latch striking plate and the second drive unit, sliding latch striking plate is arranged at below electronic lock, second drive unit pumps for driving the manual unlocking bar of electronic lock, drive unit comprises and multiple test cell clutch end one to one, and clutch end is for driving sliding latch striking plate horizontal reciprocating movement.
Clutch end comprises the first power wheel and the first driving-belt, and the synchronous winding of the first driving-belt is on the first power wheel and by the first power wheel tensioning, sliding latch striking plate is fixed on the first driving-belt; Drive unit also comprises motor, driving wheel and the second driving-belt, and driving wheel is by driven by motor, and the synchronous winding of the second driving-belt is on driving wheel and driven by driving wheel.
Second driving-belt and multiple first driving-belt one-body molded and surround a closed structure.
The joining place of the second driving-belt and the first driving-belt is provided with stretching pulley.
Test cell is provided with two sliding latch striking plates, and clutch end comprises two the first power wheels, and the first driving-belt comprises the top and bottom toward reverse direction motion, and two sliding latch striking plates are fixedly connected on the top and bottom of the first driving-belt respectively.
The sliding latch striking plate of test cell is fixedly connected with the first driving-belt by web member, and test cell is provided with travel switch, and the below of web member is provided with the touching end for touching travel switch.
Erecting frame comprises the multiple test layers set gradually from top to bottom, and the front and back of each test layer is respectively arranged with two test cells, the coaxial connection of the first power wheel of two test cells of each test layer.
Second drive unit comprises the second electromagnet, the movable part producing with the second electromagnet power of attracting each other when the second electromagnet energising and the drive link be fixedly connected with movable part, and movable part is arranged at below the second electromagnet.
Drive link is fixedly connected on manual unlocking bar.
Erecting frame comprises the multiple test layers set gradually from top to bottom, and each test layer arranges second drive unit, and the drive link of each test layer is fixedly connected with the manual unlocking bar of two test cells respectively.
Beneficial effect of the present invention is:
Compared to prior art, the proving installation of shield door electronic lock of the present invention is provided with multiple test cell on erecting frame, and each test cell is provided with electronic lock, like this, and can batch testing electronic lock; Test cell is provided with sliding latch striking plate, sliding latch striking plate horizontal reciprocating movement is driven by drive unit, the open and close of subway shield door can be simulated like this, coordinate moving up and down of the locking bar of electronic lock, realize the bringing onto load simulation shielding door switch test of electronic lock; Test cell is provided with the second drive unit, and manual unlocking bar can be driven to pump, thus the manual unlocking test of simulation electronic lock.
Accompanying drawing explanation
Fig. 1 is structural representation of the present invention;
Fig. 2 is the schematic side view of Fig. 1;
Fig. 3 is the B-B place diagrammatic cross-section of Fig. 2;
Fig. 4 is the partial enlarged drawing at A place in Fig. 1;
Fig. 5 be Fig. 4 two sliding latch striking plates mutually away from time structural representation.
Wherein: 10, erecting frame; 101, test layer; 20, drive unit; 21, motor; 22, driving wheel; 23, the second driving-belt; 24, clutch end; 241, the first power wheel; 242, the first driving-belt; 2421, upper end; 2422, lower end; 25, stretching pulley; 30, test cell; 31, electronic lock; 311, manual unlocking bar; 312, locking bar; 32, sliding latch striking plate; 33, the second drive unit; 331, the second electromagnet; 332, movable part; 333, drive link; 334, orienting lug; 34, web member; 341, touching end; 35, travel switch.
Embodiment
Below, by reference to the accompanying drawings and embodiment, the present invention is described further:
As shown in Figures 1 to 5, the proving installation of shield door electronic lock of the present invention comprises erecting frame 10, drive unit 20 and the multiple test cells 30 be arranged on erecting frame 10, test cell 30 is provided with electronic lock 31, sliding latch striking plate 32 and the second drive unit 33, sliding latch striking plate 32 is arranged at below electronic lock 31, second drive unit 33 pumps for driving the manual unlocking bar 311 of electronic lock 31, drive unit 20 comprises and multiple test cell 30 clutch end 24 one to one, clutch end 24 is for driving sliding latch striking plate 32 horizontal reciprocating movement.
When testing, drive unit 20 drives multiple sliding latch striking plate 32 horizontal reciprocating movement respectively by multiple clutch end 24, the opening and closing of simulation subway shield door, the power-off by its electromagnet of the electronic lock 31 of test cell 30 and energising, the locking bar installing plate controlling electronic lock 31 pumps, thus control locking bar 312 moves downward the draw-in groove being inserted in sliding latch striking plate 32, or move upward and depart from the draw-in groove of sliding latch striking plate 32, the automatic unlocking of simulation electronic lock 31, the permanance of test electronic lock 31; Second drive unit 33 drives manual unlocking bar 311 to pump, thus drives the locking bar installing plate of electronic lock 31 to pump, the manual unlocking of simulation electronic lock 31, the permanance of test electronic lock 31.
The proving installation of shield door electronic lock of the present invention is provided with multiple test cell 30 on erecting frame 10, and each test cell 30 is provided with electronic lock 31, like this, and can batch testing electronic lock 31; Test cell 30 is provided with sliding latch striking plate 32, sliding latch striking plate 32 horizontal reciprocating movement is driven by drive unit 20, the open and close of subway shield door can be simulated like this, coordinate moving up and down of the locking bar 312 of electronic lock 31, realize the bringing onto load simulation shielding door switch test of electronic lock 31; Test cell 30 is provided with the second drive unit 33, and manual unlocking bar 311 can be driven to pump, thus the manual unlocking test of simulation electronic lock 31.
Further, this proving installation also comprises the first controller, and the electromagnet for the electronic lock 31 controlling multiple test cell 30 is energized or power-off simultaneously simultaneously.
Further, clutch end 24 comprises the synchronous winding of the first power wheel 241 and the first driving-belt 242, first driving-belt 242 on the first power wheel 241 and by the first power wheel 241 tensioning, sliding latch striking plate 32 is fixed on the first driving-belt 242; Drive unit 20 also comprises motor 21, driving wheel 22 and the second driving-belt 23, and driving wheel 22 is driven by motor 21, and the synchronous winding of the second driving-belt 23 is on driving wheel 22 and driven by driving wheel 22.
Further, the second driving-belt 23 and multiple first driving-belt 242 one-body molded and surround a closed structure.
Further, the joining place of the second driving-belt 23 and the first driving-belt 242 is provided with stretching pulley 25.
Like this, when motor 21 starts, drive driving wheel 22 to rotate, thus drive the second driving-belt 23 to move, then drive the first driving-belt 242 of each test cell 30 to move by the second driving-belt 23.
Further, test cell 30 is provided with two sliding latch striking plates 32, clutch end 24 comprises two the first power wheels 241, first driving-belt 242 comprises and is fixedly connected on upper end 2421 and the lower end 2422 of the first driving-belt 242 respectively toward the upper end 2421 of reverse direction motion and 2422, two, lower end sliding latch striking plate 32.Like this, by moving along clockwise or counterclockwise of the first driving-belt 242, two sliding latch striking plates 32 can be driven to close toward direction close to each other, or toward mutually away from direction open.
Further, this proving installation also comprises second controller, for controlling unlatching and the rotating of motor 21.
Further, the sliding latch striking plate 32 of test cell 30 is fixedly connected with the first driving-belt 242 by web member 34, and test cell 30 is provided with travel switch 35, and the below of web member 34 is provided with the touching end 341 for touching travel switch 35.When touching end 341 and touching travel switch 35, the first driving-belt 242 just can change transmission direction, thus makes sliding latch striking plate 32 can horizontal reciprocating movement.
Further, the movable part 332 that second drive unit 33 comprises the second electromagnet 331, produce power of attracting each other with the second electromagnet 331 when the second electromagnet 331 is energized and the drive link 333 be fixedly connected with movable part 332, movable part 332 is arranged at below the second electromagnet 331, and drive link 333 is fixedly connected on manual unlocking bar 311.When the second electromagnet 331 is energized, absorption movable part 332 moves upward, and drives drive link 333 to move upward, thus drives manual unlocking bar 311 upwardly sliding latch striking plate 32, the locking bar 312 of electronic lock 31 is made to depart from the draw-in groove of sliding latch striking plate 32, the manual unlocking of simulation electronic lock 31.
Further, movable part 332 is armature, and as other embodiments, movable part 332 also can be the metalwork that other can be adsorbed by electromagnet.
Further, the second drive unit 33 also comprises the orienting lug 334 be fixed on erecting frame 10, and orienting lug 334 is provided with pilot hole, and drive link 333 vertically arranges and is installed in pilot hole, can ensure that drive link 333 moves up and down comparatively reposefully like this.
Further, this proving installation also comprises the 3rd controller, and the second electromagnet 331 for controlling multiple test cell 30 is energized or power-off simultaneously simultaneously.
Preferably, erecting frame 10 comprises the multiple test layers 101 set gradually up and down, and the front and back of each test layer 101 is respectively arranged with two test cells 30; The coaxial connection of first power wheel 241 of two test cells 30 of each test layer 101, like this, when drive unit 20 drives first power wheel 241 in each test layer 101 front, just can drive first power wheel 241 at test layer 101 back side simultaneously, like this, drive unit 20 only needs the first power wheel 241 driving each test layer 101 front, just can drive the first power wheel 241 of test layer 101 reverse side simultaneously, like this, the quantity of test cell 30 can be increased, and drive mechanism can be made to simplify.
Again preferably, each test layer 101 can arrange second drive unit 33, in each test layer 101, the drive link 333 of the second drive unit 33 is fixedly connected with the manual unlocking bar 311 of two test cells 30 respectively, like this by second drive unit 33, just can drive the manual unlocking bar 311 of two test cells 30, make drive mechanism simplify further.
To one skilled in the art, according to technical scheme described above and design, other various corresponding change and deformation can be made, and all these change and deformation all should belong within the protection domain of the claims in the present invention.