CN214667577U - Full-automatic life test equipment of intelligence lock - Google Patents

Abstract

The application relates to the technical field of door lock detection, in particular to full-automatic service life testing equipment for an intelligent door lock, which comprises a rack, a door lock fixing device, a simulation unlocking device, a handle pulling device, a handle swinging device and a pressing locking device, wherein the door lock fixing device is arranged on the rack; the analog unlocking device is arranged on the rack and used for simulating unlocking action to switch the door lock from a locking state to an unlocking state; the handle pulling device is positioned on one side of the door lock fixing device and is used for pulling up and resetting the door lock handle in an unlocked state to a position before pulling up; the handle swinging device is positioned on one side of the handle pulling device and is used for rotating the pulled door lock handle by a preset angle and resetting the door lock handle to a position before rotation; the pressing locking device is used for pressing the door lock handle back into the door lock so as to switch the unlocking state of the door lock into the locking state. This application compact structure can, carries out automatic life-span test to intelligent lock, and highly simulation actual unblock action and action are fallen certainly, and efficiency of software testing is higher, and test data is more accurate.

Description

Full-automatic life test equipment of intelligence lock

[ technical field ] A method for producing a semiconductor device

The application relates to a lock detects technical field, especially relates to full-automatic life-span test equipment of intelligence lock.

[ background of the invention ]

The service life test (durability test) is one of important tests for checking performance parameters of a door lock, the current service life test detection equipment is basically used for testing a common door lock, but with the development of science and technology, the intelligent door lock is gradually popularized, the operation in the use process is relatively complex, such as the unlocking operation of newly-added card swiping, passwords, fingerprints and the like, and the current automatic service life detection equipment for the intelligent door lock is not available.

[ summary of the invention ]

The utility model provides a full-automatic life-span test equipment of intelligence lock, its compact structure can, carries out automatic life-span test to the intelligence lock, and highly simulation actual unblock action and action are fallen to advantage reliably, and efficiency of software testing is higher, and test data is more accurate.

The application is realized by the following technical scheme:

the intelligent door lock full-automatic service life testing equipment comprises a rack, a door lock fixing device, a simulation unlocking device, a handle pulling device, a handle swinging device and a pressing locking device; the door lock fixing device is arranged on the rack and used for positioning and locking the door lock; the analog unlocking device is arranged on the rack and used for simulating unlocking action to switch the door lock from a locking state to an unlocking state; the handle pulling device is positioned on one side of the door lock fixing device and is used for pulling up and resetting the door lock handle in an unlocked state to a position before pulling up; the handle swinging device is positioned on one side of the handle pulling device and is used for rotating the pulled door lock handle by a preset angle and resetting the pulled door lock handle to a position before rotation; the pressure locking device is used for pressing the door lock handle back into the door lock so as to switch the unlocking state of the door lock into the locking state.

According to the full-automatic life test equipment for the intelligent door lock, the handle pulling device comprises a first swing arm and a first driving unit, the upper end of the first swing arm is hinged to the rack, the first driving unit is connected with the first swing arm, and the first driving unit drives the first swing arm to swing so as to drive the door lock handle to be pulled up and reset to a position before pulling up.

According to the full-automatic service life testing equipment for the intelligent door lock, the first swing arm is provided with the first poking notch for poking the door lock handle.

According to the intelligent door lock full-automatic service life testing equipment, the first swing arm is provided with the connecting plate extending to one side, and the connecting plate is provided with the blocking protrusion used for shifting the door lock handle;

the pressure locking device is arranged on the first swing arm and comprises a telescopic top column which is opposite to the blocking protrusion, and the telescopic top column and the blocking protrusion form the first shifting notch.

According to the full-automatic service life testing equipment for the intelligent door lock, the first driving unit comprises a first driving support and a driving cylinder, the fixed end of the driving cylinder is hinged to the first driving support, and the telescopic end of the driving cylinder is hinged to the first swing arm;

the handle pulling-up device is still including the first limit structure who is used for restricting lock handle pull-up position and the second limit structure who is used for restricting the position that the lock handle resets after pulling up, first limit structure includes spacing support, be equipped with ejecting direction and the first spacing fore-set that drives the flexible direction unanimity of the flexible end of actuating cylinder on the spacing support, second limit structure is including locating the spacing fore-set of second in the frame, the ejecting direction of the spacing fore-set of second is relative with the first swing arm one side of swinging to lock handle reset position.

According to the full-automatic life test equipment for the intelligent door lock, the handle swinging device comprises a second swinging arm and a second driving unit which is connected with the second swinging arm to drive the second swinging arm to swing; a clearance gap is formed in one side of the first swing arm and one side of the first toggle gap, the end part of the second swing arm can swing to penetrate through the clearance gap and extend into the clearance gap, and a second toggle gap used for toggling the door lock handle is formed in the end part of the second swing arm;

and the end part of the second swing arm is also provided with a telescopic rod which is used for extending into the second shifting notch to limit the movement of the door lock handle at one side of the second shifting notch.

According to the full-automatic life test equipment for the intelligent door lock, the simulated unlocking device comprises a plurality of key tentacles corresponding to the key positions of the door lock, and the key tentacles are arranged on the first swinging arm.

According to the full-automatic life test equipment for the intelligent door lock, the simulation unlocking device comprises a clamping seat and a telescopic driving device which is connected with the clamping seat to drive the clamping seat to extend to the door lock sensing area, and a clamping groove for mounting the door lock sensing card is formed in the clamping seat.

According to the full-automatic service life testing equipment for the intelligent door lock, one side of the positioning cavity is provided with the opening, and the locking mechanism is a plurality of rapid fixtures arranged on one side of the opening of the positioning cavity.

Compared with the prior art, the method has the following advantages:

1. the intelligent door lock full-automatic service life testing equipment is compact in structure, can automatically test the service life of the intelligent door lock, highly simulates actual unlocking action, is reliable in action, is higher in testing efficiency, and is more accurate in testing data.

2. The telescopic ejection column on the first swing arm can be used as a stop block to push the door lock handle to reset along with the downward swing of the first swing arm, and the door lock handle after downward swing can be pressed back into the door lock. The structure is more compact, and the action of simulating unlocking and locking is more reliable.

3. The second swing arm of the handle swing device and the first swing arm of the handle pull-up device are staggered in position through the clearance gap, so that the structure is compact, and the pulling-up and rotating actions of the door lock handle can be skillfully connected.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram 1 of an intelligent door lock full-automatic life test device according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram 2 of the full-automatic life test equipment for the intelligent door lock according to the embodiment of the present application, in which a part of a rack is hidden.

Fig. 3 is a schematic structural diagram 3 of the full-automatic life test equipment for the intelligent door lock according to the embodiment of the present application, wherein a viewing angle is different from that of fig. 2, and a part of the rack is also hidden, and at this time, the door lock handle is in a locked state pressed into the door lock.

Fig. 4 is an enlarged view of a portion a of fig. 3.

Fig. 5 is a schematic structural diagram 4 of the full-automatic life test equipment for the intelligent door lock according to the embodiment of the present application, in which a part of the rack is also hidden, and at this time, the door lock handle is in an unlocked state.

Fig. 6 is an enlarged view of a portion B of fig. 5.

Fig. 7 is a schematic structural diagram 5 of the full-automatic life test equipment for the intelligent door lock according to the embodiment of the present application, in which a part of the rack is also hidden, and at this time, the door lock handle is in a pulled-up state.

Fig. 8 is a schematic structural diagram 6 of the full-automatic life test equipment for the intelligent door lock according to the embodiment of the present application, in which a part of the rack is also hidden, and at this time, the door lock handle is in a state of being rotated by a preset angle after being pulled up.

Fig. 9 is an enlarged view of a portion C of fig. 8.

Fig. 10 is an exploded schematic structural diagram of an intelligent door lock full-automatic life test device according to an embodiment of the present application.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present application more clear and obvious, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

As shown in fig. 1 to 10, an embodiment of the application provides a full-automatic life test device for an intelligent door lock, which includes a rack 10, a door lock fixing device 1, a simulated unlocking device, a handle pulling device 3, a handle swinging device 4 and a lock pressing device 5; the door lock fixing device 1 comprises a positioning cavity 11 arranged on the frame 10 and used for accommodating the door lock 100 and a locking mechanism 12 used for fixing the door lock 100 in the positioning cavity 11; the analog unlocking device is arranged on the rack 10 and used for simulating unlocking action to switch the door lock 100 from a locking state to an unlocking state; the handle pulling device 3 is positioned on one side of the door lock fixing device 1 and is used for pulling and resetting the door lock handle 101 in an unlocked state to a position before pulling; the handle swinging device 4 is positioned on one side of the handle pulling device 3 and is used for rotating the pulled door lock handle 101 by a preset angle and resetting the door lock handle to a position before rotation; the lock pressing device 5 is used for pressing the door lock handle 101 back into the door lock 100 to switch the unlocked state of the door lock 100 to the locked state.

The process of performing the life test on the door lock 100 is as follows: the door lock 100 is positioned and fixed in the door lock fixing device 1, then the simulated unlocking action is utilized to simulate the unlocking action to carry out card swiping, password or fingerprint input, so that the door lock 100 is switched from the locking state to the unlocking state, the door lock handle 101 in the unlocking state is popped out from the state shown in figure 4 to the state shown in figure 6, at the moment, the handle pulling device 3 pulls up the door lock handle 101, then the handle swinging device 4 rotates the pulled-up door lock handle 101 by a preset angle, it needs to be noted that the preset angle is generally 90 degrees, in practical application, the door lock handle 101 rotates to the preset angle and then can retract the bolt of the door lock 100 to open the door, then the resetting action is carried out, namely, the handle swinging device 4 resets the door lock handle 101 to the position before rotation, the handle pulling device 3 resets the door lock handle 101 to the position before pulling, and the press-locking device 5 presses the door lock handle 101 back into the door lock 100, the door lock 100 is switched from the unlocked state to the locked state, and the service life of the door lock 100 can be tested by repeating the above actions.

The application provides a full-automatic life-span test equipment of intelligence lock, its compact structure can carry out automatic life-span test to intelligent lock, and highly simulation actual unblock action and action are fallen to advantage reliably, and efficiency of software testing is higher, and test data is more accurate.

Specifically, the handle lifting device 3 includes a first swing arm 31 having an upper end hinged to the frame 10 and a first driving unit 32 connected to the first swing arm 31, and the first driving unit 32 drives the first swing arm 31 to swing to lift and reset the door lock handle 101 to a position before lifting. The hinge point at the upper end of the first swinging arm 31 is coaxial with the rotating shaft pulled by the door lock handle, so that the door lock handle and the first swinging arm 31 swing synchronously, and the action of the door lock handle can be simulated more accurately.

Correspondingly, the first swing arm 31 is provided with a first toggle notch 310 for toggling the door lock handle 101. In operation, the end of the door lock handle 101 is positioned within the first toggle notch 310.

Further, be equipped with the connecting plate 311 that stretches out to one side on the first swing arm 31, be equipped with the fender arch 312 that is used for stirring lock handle 101 on the connecting plate 311, lock pressing device 5 locates on the first swing arm 31, include with keep off the flexible fore-set 51 that the arch 312 set up relatively, flexible fore-set 51 with keep off protruding 312 and form first stir breach 310. The telescopic top column 51 is a telescopic end driven by an air cylinder, and the telescopic top column 51 is arranged at a position where the first swing arm 31 can follow the first swing arm 31, and can be used as a stopper to push the door lock handle 101 to reset along with the downward swing of the first swing arm 31, and can also press the door lock handle 101 after downward swing back into the door lock 100. The structure is more compact, and the action of simulating unlocking and locking is more reliable.

Further, the first driving unit 32 comprises a first driving bracket 321 and a driving cylinder 322, a fixed end of the driving cylinder 322 is hinged on the first driving bracket 321, and a telescopic end of the driving cylinder 322 is hinged on the first swing arm 31; the handle pulling device 3 further comprises a first limiting structure 33 for limiting the pulling position of the door lock handle 101 and a second limiting structure 34 for limiting the reset position of the door lock handle 101 after being pulled, the first limiting structure 33 comprises a limiting support 331, a first limiting ejection column 332 is arranged on the limiting support 331, the ejection direction of the first limiting ejection column is consistent with the extension direction of the extension end of the driving air cylinder, and the first limiting ejection column 332 is connected to the limiting support 331 through threads to realize the adjustability of the limiting position; the second limit structure 34 includes a second limit post 341 disposed on the frame 10, and the ejection direction of the second limit post 341 is opposite to the side of the first swing arm 31 swung to the reset position of the door lock handle. The first driving unit 32 may adopt a driving form of a motor, but the preferred technical solution has an advantage that the first swinging arm 31 can be swung accurately by a simple telescopic action of the cylinder in cooperation with the limiting structure, and is more reliable than a motor driving and more durable for a life test.

Further, the handle swing device 4 includes a second swing arm 41 and a second driving unit 42 connected to the second swing arm 41 to drive the second swing arm 41 to swing, wherein a rotation axis of the second swing arm 41 is coaxial with a rotation axis of the door lock handle swing; a clearance gap 313 is formed on one side of the first swing arm 31 and the first toggle gap 310, the end of the second swing arm 41 can swing to penetrate through the clearance gap 313 and extend into the clearance gap 313, and a second toggle gap 410 for toggling the door lock handle is formed on the end of the second swing arm 41; the end of the second swing arm 41 is further provided with a telescopic rod 43 at one side of the second toggle notch 410, the telescopic rod being used for extending into the second toggle notch 410 to limit the movement of the door lock handle. The telescopic rod 43 is a telescopic end driven by an air cylinder, when the door lock device works, after the door lock handle 101 is pulled up by the handle pulling-up device 3, the door lock handle 101 just falls into the second toggle notch 410 of the second swing arm 41, at this time, the telescopic rod 43 extends out to limit the door lock handle 101 in the second toggle notch 410, then the door lock device swings, and after the second swing arm 41 is reset, the telescopic rod 43 retracts and then the handle pulling-up device 3 moves again. The second swing arm 41 of the handle swing device 4 and the first swing arm 31 of the handle pull-up device 3 are staggered in position through the clearance gap 313, so that the structure is compact, and the pulling-up and rotating actions of the door lock handle 101 can be skillfully connected.

Further, the analog unlocking device comprises a plurality of key tentacles 20 corresponding to the positions of the keys of the door lock, and the key tentacles 20 are arranged on the first swinging arm 31. The structure is more compact. The key touch pad 20 may be cylinder driven, and may be a capacitive screen touch pad or a conventional touch pad to accommodate capacitive screen, resistive screen, or key input.

Certainly, the intelligent door lock generally has a plurality of unblock modes, therefore, the simulation unlocking device still includes cassette 21 and is connected with cassette 21 in order to drive cassette 21 to stretch to the flexible drive arrangement 22 of lock induction zone, be equipped with the draw-in groove that is used for installing lock induction card on the cassette 21. The card seat 21 drives the entrance guard card to approach the door lock sensing area, so that unlocking can be realized.

Furthermore, one side of the positioning cavity 11 is open, and the locking mechanism 12 is a plurality of quick clamps disposed on the open side of the positioning cavity 11.

The full-automatic life test equipment of intelligence lock still include unblock detection device 6, unblock detection device 6 can adopt the photoelectric detection device who locates on frame 10, photoelectric detection device's induction zone corresponds the lock handle tip of unblock state. When the door lock handle 101 is in the state shown in fig. 4, the sensing light of the photoelectric detection device is blocked, that is, the door lock state detected by the photoelectric detection device is the locked state, and when the door lock handle is popped up to the state shown in fig. 6, the photoelectric detection device receives the sensing light, that is, the door lock state detected by the photoelectric detection device is the unlocked state, and the detection of the door lock state by the unlocking detection device 6 provides a signal basis for the automatic action

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present application. Furthermore, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms disclosed. Similar or identical methods, structures, etc. as used herein, or several technical inferences or substitutions made on the concept of the present application should be considered as the scope of the present application.

Claims (8)

1. The full-automatic service life test equipment for the intelligent door lock comprises a rack (10) and is characterized by further comprising a door lock fixing device (1), a simulation unlocking device, a handle pulling device (3), a handle swinging device (4) and a lock pressing device (5); the door lock fixing device (1) is arranged on the rack (10) and used for positioning and locking a door lock; the simulated unlocking device is arranged on the rack (10) and used for simulating unlocking action to switch the door lock from a locking state to an unlocking state; the handle pulling device (3) is positioned on one side of the door lock fixing device (1) and is used for pulling and resetting the door lock handle in an unlocked state to a position before pulling; the handle swinging device (4) is positioned on one side of the handle pulling device (3) and is used for rotating the pulled door lock handle by a preset angle and resetting the pulled door lock handle to a position before rotation; the lock pressing device (5) is used for pressing the door lock handle back into the door lock so as to switch the unlocking state of the door lock into the locking state.

2. The intelligent door lock full-automatic life test equipment according to claim 1, wherein the handle lifting device (3) comprises a first swing arm (31) with an upper end hinged to the rack (10) and a first driving unit (32) connected with the first swing arm (31), and the first driving unit (32) drives the first swing arm (31) to swing to drive the door lock handle to be lifted and reset to a position before being lifted.

3. The intelligent door lock full-automatic life test equipment according to claim 2, wherein the first swing arm (31) is provided with a first toggle notch (310) for toggling a door lock handle.

4. The intelligent door lock full-automatic life test equipment according to claim 3, wherein a connecting plate (311) extending to one side is arranged on the first swing arm (31), and a stop protrusion (312) for shifting a door lock handle is arranged on the connecting plate (311);

the pressure locking device (5) is arranged on the first swing arm (31), and comprises a telescopic ejection column (51) which is opposite to the blocking protrusion (312), wherein the telescopic ejection column (51) and the blocking protrusion (312) form the first poking notch (310).

5. The intelligent door lock full-automatic life test equipment according to claim 2, wherein the first driving unit (32) comprises a first driving bracket (321) and a driving cylinder (322), the fixed end of the driving cylinder (322) is hinged on the first driving bracket (321), and the telescopic end of the driving cylinder (322) is hinged on the first swing arm (31);

handle pull-up device (3) are still including first limit structure (33) that are used for restricting lock handle pull-up position and second limit structure (34) that are used for restricting the position that the lock handle resets after pulling up, first limit structure (33) are including spacing support (331), be equipped with first spacing fore-set (332) that ejecting direction is unanimous with the flexible direction that drives the flexible end of actuating cylinder on spacing support (331), second limit structure (34) are including locating spacing fore-set (341) of second on frame (10), the ejecting direction of the spacing fore-set (341) of second is relative with first pendulum arm (31) one side of pendulum commentaries on classics to lock handle reset position.

6. The intelligent door lock full-automatic life test equipment according to claim 3, wherein the handle swing device (4) comprises a second swing arm (41) and a second driving unit (42) connected with the second swing arm (41) to drive the second swing arm (41) to swing; a clearance gap (313) is formed in one side of the first swing arm (31) and the first toggle gap (310), the end part of the second swing arm (41) can swing to penetrate through the clearance gap (313) and extend into the clearance gap (313), and a second toggle gap (410) for toggling a door lock handle is formed in the end part of the second swing arm (41);

and a telescopic rod (43) which is used for extending into the second toggle notch (410) to limit the movement of the door lock handle is further arranged at one side of the end part of the second swing arm (41) which is positioned at the second toggle notch (410).

7. The intelligent door lock full-automatic life test equipment according to claim 3, wherein the simulated unlocking device comprises a plurality of key tentacles (20) corresponding to the positions of the door lock keys, and the key tentacles (20) are arranged on the first swing arm (31).

8. The intelligent door lock full-automatic life test equipment according to claim 1, wherein the analog unlocking device comprises a card holder (21) and a telescopic driving device (22) connected with the card holder (21) to drive the card holder (21) to extend to the door lock sensing area, and a clamping groove for mounting the door lock sensing card is arranged on the card holder (21).

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