WO2017024743A1

WO2017024743A1 - Electronic lock test apparatus and system

Info

Publication number: WO2017024743A1
Application number: PCT/CN2015/099866
Authority: WO
Inventors: 张泽
Original assignee: 张泽
Priority date: 2015-08-10
Filing date: 2015-12-30
Publication date: 2017-02-16
Also published as: CN105067362B; HK1212760A1; CN105067362A

Abstract

An electronic lock test apparatus (10) and system. The apparatus (10) comprises: a communication circuit (102) for receiving an unlocking command sent by a remote server and/or receiving an unlocking receipt command fed back by an electronic lock (20) to be tested; a control circuit (104) for generating, after the communication circuit (102) receives the unlocking command sent by the remote server and/or receives the unlocking receipt command fed back by the electronic lock (20) to be tested, an unlocking control signal; a sliding rod (106); a lock handle action electric motor (108) for rotating in a forward direction under the control of the unlocking control signal to drive the motion of the sliding rod (106) mounted on the lock handle action electric motor (108), and rotating in a reverse direction after a lock handle is pressed to a pre-set position to drive the sliding rod (106) to reset, so as to complete one unlocking operation; and a first counter (110) for recording the number of first actual unlocking times of the electronic lock (20) to be tested. The test apparatus (10) solves the technical problem that it is difficult for an existing lock test apparatus to automatically perform a test so as to complete a complex test action on a smart lock subjected to remote unlocking.

Description

Electronic lock test device and system

Technical field

The present invention relates to the field of electronic products, and in particular to a test device and system for an electronic lock.

Background technique

The quality of the lock is related to the safety of the room. In order to ensure the quality of the products, the performance test of the locks is an indispensable part of the development and production of locks. In order to ensure the test effect, the lock to be tested needs to be installed on the door, and the test is performed by repeatedly performing the unlocking, opening, closing, and locking operations.

At present, in the related art, a solution for performing testing by manual operation is provided, that is, a sample lock (ie, a lock to be tested) is installed on a door or a lock frame, and the tester manually unlocks, opens, closes, and Locked, while recording the number of operations and problems during the test.

In addition, in the related art, a solution for testing with a simple test instrument is provided, and one or more of an action of unlocking, opening, closing, locking, and the like can be automatically performed.

However, since the comprehensive performance test requires repeated execution of unlocking, opening, closing, and locking operations, the number of times is as many as tens of thousands or even hundreds of thousands of times. The above two test methods have low test efficiency and long test period.

With the development of technology, the penetration rate of intelligent electronic locks (hereinafter referred to as smart locks) continues to grow. At present, smart electronic locks are generally unlocked by one or more of a swipe, a password, and a fingerprint. Household smart locks generally use a combination of swipe, password, and fingerprint. The smart locks used in hotels mostly use the unlocking method of swiping cards. Due to the increasing number of smart locks with PIN pad, some hotels use smart locks. A combination of swipe and password.

Into, with the development of Internet of Things technology and intelligent hardware technology, some smart locks that can be remotely unlocked by wireless are emerging. At present, there is no test device for remote wireless unlocking technology, and the existing lock test device has difficulty in testing, and the test function is not perfect, and it is difficult to automatically complete the complicated unlocking, unlocking, opening, closing, and the like of the remote unlocking smart lock. The reliability of the remote unlocked smart lock cannot be tested.

In response to the above problems, no effective solution has been proposed yet.

Summary of the invention

The embodiment of the invention provides a testing device and system for an electronic lock, which can solve at least the reliability of the lock which cannot be tested due to the complicated testing action of the smart lock of the remote unlocking which is difficult to be automatically measured by the lock testing device in the related art. Sexual technical issues.

According to an aspect of an embodiment of the present invention, a test apparatus for an electronic lock is provided, including: a communication circuit, configured to receive an unlock command sent by a remote server and/or an unlock call command to receive feedback of the electronic lock to be tested; and a control circuit, And the communication circuit is connected to generate an unlocking control signal after the communication circuit receives the unlocking command sent by the remote server and/or the unlocking receipt command that receives the electronic lock feedback to be tested; the sliding handle; the lock handle action motor And being connected to the control circuit for rotating forward under the control of the unlocking control signal, driving the lock handle mounted on the lock handle action motor to press the lock handle of the electronic lock to be tested, and at the lock handle After being pressed down to the preset position, the reverse is reversed, and the above-mentioned slider reset is performed to complete an unlocking operation; the first counter is used for recording the first actual unlocking times of the electronic lock to be tested.

Further, the device further includes: a test circuit, configured to compare the first actual number of unlockings of the electronic lock to be tested with the number of times the remote server actually sends the unlock command to obtain a communication success rate of the electronic lock to be tested .

Further, the control circuit is further configured to generate a door opening control signal after completing an unlocking operation; the device further includes: a door frame action motor connected to the control circuit for forward rotation under the control of the door opening control signal, The door frame that is mounted opposite to the electronic lock to be tested is driven to move in the direction of opening the door, and an analog door opening operation is completed.

Further, the control circuit is further configured to generate a door closing control signal after completing an analog door opening operation; the door frame action motor is further configured to reverse under the control of the door closing control signal, and drive the door frame to move in a closing direction to complete A simulated door closing operation.

Further, the device further includes: a second counter for recording the number of times the lock of the electronic lock to be tested is retracted; a micro switch disposed at the lock tongue and connected to the second counter for When the lock tongue is actuated, the second counter is triggered to record the number of times the lock tongue is retracted.

Further, the test circuit is further configured to compare the number of retraction times of the lock tongue of the electronic lock to be tested with the number of the first actual unlocking, and test the unlocking success rate of the electronic lock to be tested.

Further, the device further includes: a display connected to the first counter and connected to the second counter for displaying a counting result of the first counter and the second counter.

Further, the control circuit is connected to at least one of the first counter and the second counter And the method is configured to end the testing process when at least one of the first actual unlocking number and the lock tongue retracting number reaches the preset number of times.

According to another aspect of the embodiments of the present invention, there is also provided a test system for an electronic lock, comprising: an electronic lock to be tested; any one of the above-mentioned electronic lock test devices, connected to the electronic lock to be tested, for Perform a test on the above-mentioned electronic lock to be tested.

Further, the test system for the electronic lock further includes: a remote server, configured to send the next unlock command after the electronic lock to be tested returns the lock handle action information generated by the unlocking.

In the embodiment of the present invention, the method for remotely testing the reliability of the lock is used to receive an unlock command sent by the remote server and/or an unlock call command for receiving the feedback of the electronic lock to be tested through the communication circuit; the control circuit, and the communication circuit The connection is used to generate an unlocking control signal after the communication circuit receives the unlocking command sent by the remote server and/or receives the unlocking and returning command of the electronic lock feedback to be tested; the sliding handle; the locking handle action motor is connected with the control circuit, It is used for forward rotation under the control of the unlocking control signal, and drives the lock handle of the electronic lock to be tested to be driven by the sliding motion of the motor attached to the lock handle, and is reversed after the lock handle is pressed down to the preset position. The slider resets to complete an unlocking operation; the first counter is used for recording the first actual unlocking times of the electronic lock to be tested, and achieves the purpose of remotely controlling the locking action, thereby realizing the technical effect of remotely testing the reliability of the locking device, thereby solving The complexity of the smart lock that is remotely unlocked due to the difficulty in automatically detecting the lock test device in the related art Technical issues can not test the reliability of the test result of this action lock.

DRAWINGS

The drawings described herein are intended to provide a further understanding of the invention, and are intended to be a part of the invention. In the drawing:

1 is a schematic diagram of an optional electronic lock test system in accordance with an embodiment of the present invention;

2 is a schematic diagram of an optional electronic lock testing device in accordance with an embodiment of the present invention;

3 is a schematic diagram showing the hardware configuration of an optional electronic lock testing device according to an embodiment of the present invention;

4 is a flow chart of a test flow of an optional electronic lock according to an embodiment of the present invention;

5 is a flow chart of a test flow of another optional electronic lock in accordance with an embodiment of the present invention.

detailed description

In order to enable those skilled in the art to better understand the solution of the present invention, the following will be incorporated in the embodiments of the present invention. The embodiments of the present invention are clearly and completely described in the drawings, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts shall fall within the scope of the present invention.

It is to be understood that the terms "first", "second" and the like in the specification and claims of the present invention are used to distinguish similar objects, and are not necessarily used to describe a particular order or order. It is to be understood that the data so used may be interchanged where appropriate, so that the embodiments of the invention described herein can be implemented in a sequence other than those illustrated or described herein. Moreover, the terms "comprising" and "having" and "the" are intended

Example 1

In accordance with an embodiment of the present invention, an apparatus embodiment of a test system for an electronic lock is provided.

1 is a schematic diagram of an optional electronic lock test system according to an embodiment of the present invention. As shown in FIG. 1, the system includes: an electronic lock test device 10 (hereinafter referred to as a test device) and an electronic lock to be tested 20 . The electronic lock test device 10 is connected to the electronic lock 20 to be tested for attribute testing of the electronic lock 20 to be tested. The electronic lock testing device 10 includes a communication circuit 102, a control circuit 104, a slider 106, a lock handle action motor 108, and a first counter 110.

The communication circuit 102 is configured to receive an unlock command sent by the remote server and/or an unlock request command received by the electronic lock 20 to be tested; the control circuit 104 is connected to the communication circuit 102 for receiving the remote server to send the communication circuit 102. The unlocking control signal is generated when the unlocking command is received and/or the unlocking receipt command fed back by the electronic lock 20 to be tested is generated. It should be noted that the communication circuit 102 and the control circuit 104 may be disposed on the main control circuit board. It is also possible to install a liquid crystal display for displaying test results and intermediate data, etc., such as for displaying the number of tests recorded by each counter, etc.; a slider 106; a lock handle action motor 108 connected to the control circuit 104 for unlocking control The forward rotation of the signal under the control of the signal, the sliding handle 106 mounted on the lock handle action motor 108 is pressed to press the lock handle of the electronic lock 20 to be tested, and the lock handle is reversed after being pressed down to the preset position to drive the slide. 106 reset, complete an unlock operation; the first counter 110 is used to record the first actual unlocking times of the electronic lock 20 to be tested. The first actual number of unlockings is the number of times the slider 106 actually presses the lock handle.

Through the embodiment of the present invention, the unlocking operation of the number of reservations can be automatically completed, for example, automatically performing 100,000 unlocking operations. Further, after the unlocking operation of the number of reservations is completed, the degree of wear of each mechanical component of the electronic lock can also be detected to evaluate the mechanical performance of the electronic lock.

That is to say, when implemented, the electronic lock to be tested (ie, wireless smart lock) can be remotely controlled to be unlocked in three ways:

Mode 1: When testing, the remote server sends an unlock command to the test device 10 of the electronic lock 20 and the electronic lock to be tested simultaneously. After the electronic lock 20 to be tested receives the unlock command, the clutch acts, so that the outer handle of the lock is no longer idle, and the unlock receipt command is returned to the remote server; the electronic lock test device 10 receives the remote communication server through its wireless communication communication circuit 102. After the unlock command is received, the control circuit 104 (including the processor and the memory) is used to control the rotation of the lock handle action motor 108 to drive the slide 106 to move downward, and the outer handle of the electronic lock 20 to be tested is pressed down, and then controlled. The circuit 104 controls the lock handle action motor 108 to reverse, and drives the slider 106 to move upward, so that the outer handle of the electronic lock 20 to be tested is rebounded and resets, and an analog unlock operation is completed. At this time, the first counter 110 counts up by 1 and will total The number is displayed on the LCD. After the unlocking is completed, the clutch of the electronic lock 20 to be tested is automatically reset, and the electronic lock 20 to be tested is restored to the locked state. The electronic lock 20 to be tested has an external handle motion monitoring function, and the external handle is automatically fed back to the server after detecting the action of the external handle. The external handle action information, after receiving the action information of the external handle, the server sends the next unlock command to the wireless electronic lock, so that the repeated test of the remote unlocking of the electronic lock can be automatically completed.

Mode 2: During testing, the electronic lock 20 to be tested receives an unlock command from the remote server through its own wireless communication function, and after receiving the unlock command, controls the clutch action of the electronic lock 20 to be tested, so that the outer handle is no longer idle, and The unlocking receipt command returns to the remote server; in the process, the electronic lock testing device 10 monitors the wireless communication signal from the remote server and the electronic lock 20 to be tested through the wireless communication communication circuit 102, and listens to the feedback of the electronic lock 20 to be tested. After the lock return signal is unlocked, the control circuit 104 controls the lock handle action motor 108 to rotate, and the slide pedal 106 is moved downward to press down the outer handle of the electronic lock 20 to be tested. Then, the control circuit 104 controls the lock handle action motor 108 to reverse and drive. The slider 106 moves upward, and the external lock of the electronic lock 20 to be tested is rebounded and resets, and an analog unlocking operation is completed. At this time, the first counter 110 counts up by 1 and displays the total count on the liquid crystal display. After the handle is reset, the test is to be tested. The clutch of the electronic lock 20 is automatically reset, and the reset information is fed back to the remote server. After the remote server receives the reset information, Transmitting the DUT 20 unlock a lock command, repeat the test so that the test can be done automatically unlocking the electronic lock 20 of the remote.

Mode 3: When testing, the electronic lock test device 10 receives the unlock command from the remote server and the unlock request command from the electronic lock 20 to be tested through the wireless communication communication circuit 102, and then uses the control circuit 104 (including processing) And the control lock handle action motor 108 rotates to drive the slide 106 to move downward, and presses the outer handle of the electronic lock 20 to be tested. Then, the control circuit 104 controls the lock handle action motor 108 to reverse, and drives the slider 106 to move upward. The outer handle of the electronic lock 20 to be tested is rebounded to complete an analog unlocking operation. At this time, the first counter 110 counts up by 1, and the total count is displayed on the liquid crystal display. After the unlocking is completed, the clutch of the electronic lock 20 to be tested is automatically reset, and the electronic lock 20 to be tested is restored to the locked state. The electronic lock 20 to be tested has an external handle motion monitoring function, and the external handle is automatically fed back to the server after detecting the action of the external handle. The external handle action information, after receiving the action information of the external handle, the server sends the next unlock command to the wireless electronic lock, so that the repeated test of the remote unlocking of the electronic lock can be automatically completed.

As an optional embodiment, as shown in FIG. 1 , the device further includes: a test circuit 112, configured to compare the first actual number of unlocks of the electronic lock 20 to be tested with the number of times the remote server actually sends the unlock command, Obtaining the communication success rate of the electronic lock to be tested, and further, whether the communication success rate of the electronic lock to be tested meets the design requirement. During the test, the remote server can record the number of times the unlock command is sent. The first counter 110 records the actual number of unlocks, that is, the number of unlock commands actually received by the electronic lock 20 or the electronic lock test device 10, by comparison. Both can test the loss rate of the unlock command and evaluate the reliability of the wireless communication function of the lock.

Through the above embodiment, since the test device can be remotely controlled to automatically execute the test task, the remote control unlocking action of the electronic lock can be fully automated, and the automatic counting can be automatically performed, and the tens of thousands of unlocking operations of the electronic lock can be automatically completed, and the electronic lock can be tested. Remote unlocking reliability and communication reliability.

It should be noted that the test device for the electronic lock in the first embodiment is the same as the test device for the electronic lock in the second embodiment. The test device for the electronic lock will be described in detail in the second embodiment, and details are not described herein.

As an optional embodiment, the test system of the electronic lock may further include: a fixing device for fixing the electronic lock to be tested. The fixing device may be a simple fixing device which is a combination of a base and a fixing bracket, or a combination of a door frame and a door panel, and a fixing bracket. The simple fixing device comprises a base, a lock fixing bracket and a motor fixing bracket. wherein the electronic lock to be tested is fixed on the base by the lock fixing bracket, and the motor bracket is fixed on the side of the electronic lock outer panel on the base. The analog door comprises a door panel mounted on the rotating shaft of the door panel. The door panel is mounted on the base through the rotating shaft of the door panel, and can rotate around the rotating shaft of the door panel. The door panel has a locking tongue hole, the side of the door panel has a locking tongue hole, the door panel is aligned with the electronic lock, and the electronic lock is The oblique locking tongue is located in the locking tongue hole; when the sliding handle presses the handle, the oblique locking tongue is folded up, the door frame action motor drives the door panel to rotate, and the analog door opening operation is completed; after the sliding jaw is reset, the door panel driving motor drives the door panel to rotate and reset, colliding with the oblique locking tongue, completing Simulate closing operation. This completes the collision test of the oblique bolt and tests the mechanical strength and collision life of the oblique bolt. The motor of the test device is a stepping motor, which can control the rotation of the motor through the processor, further control the stroke of the slide, and accurately complete the operation of pressing the door handle.

As an optional embodiment, the test system of the electronic lock may further include: a remote server, configured to send the next unlock command after the electronic lock to be tested returns the lock handle action information generated by the unlocking.

For the electronic lock, since the wireless connection with the remote server needs to be relayed through the wireless gateway, and the Internet also has a certain delay, the remote wireless unlock command does not arrive at the electronic lock in real time, and this process will have a certain time delay, and each time The delay time for remote wireless unlocking may not be the same, so you cannot simply set a time interval so that the remote server automatically sends the unlock command in a fixed cycle. Therefore, after the electronic lock to be tested returns the lock handle action information generated by the unlocking, the next unlock command is sent, so as to improve the unlocking rate.

Here, the remote server may be a cloud server, and the electronic lock is wirelessly connected to the Internet to communicate with the server, and the electronic lock test device acquires commands from the server or the electronic lock through the same wireless communication method as the electronic lock. Preferably, the electronic lock is connected to the gateway through a first wireless mode (such as Bluetooth, zigbee, 433mhz, 2.4G, etc.), and the gateway is connected to the Internet through a second wireless mode (such as WI FI, 4G).

Through the embodiment of the invention, using the testing device, the electronic lock can be automatically completed for various operations (including unlocking, opening, closing, locking), and corresponding counting processing is performed, so that the testing of the electronic lock can be automated and programmed. Improve test efficiency.

Example 2

In accordance with an embodiment of the present invention, an apparatus embodiment of a test apparatus for an electronic lock is provided.

2 is a schematic diagram of an optional electronic lock testing device according to an embodiment of the present invention. As shown in FIGS. 1 and 2, the device includes: a communication circuit 102, a control circuit 104, a slider 106, and a lock handle action motor 108. The first counter 110. The communication circuit 102 is configured to receive an unlocking command sent by the remote server and/or an unlocking receipt command for receiving the electronic lock feedback to be tested; the control circuit 104 is connected to the communication circuit 102, and is configured to receive, by the communication circuit 102, the remote server to send When the unlock command and/or the unlock request command for receiving the electronic lock feedback to be tested, an unlocking control signal is generated; the slider 106; the lock handle action motor 108 is connected to the control circuit 104 for being forward under the control of the unlock control signal Rotating, driving the slide 106 mounted on the lock handle action motor 108 to press the lock handle of the electronic lock to be tested, and then reverse the lock after the lock handle is pressed to the preset position, and the slide 106 is reset to complete the unlocking. The first counter 110 is configured to record the first actual number of unlockings of the electronic lock to be tested.

Mode 1: When testing, the remote server sends an unlock command to the test device 10 of the electronic lock 20 and the electronic lock to be tested simultaneously. After the electronic lock 20 to be tested receives the unlock command, the clutch acts, so that the outer handle of the lock is no longer idle, and the unlock receipt command is returned to the remote server; the electronic lock test device 10 receives the remote communication server through its wireless communication communication circuit 102. After the unlock command is received, the control circuit 104 (including the processor and the memory) is used to control the rotation of the lock handle action motor 108 to drive the slide 106 to move downward, and the outer handle of the electronic lock 20 to be tested is pressed down, and then controlled. The circuit 104 controls the lock handle action motor 108 to reverse, and drives the slider 106 to move upward, so that the outer handle of the electronic lock 20 to be tested is rebounded and resets, and an analog unlock operation is completed. At this time, the first counter 110 counts up by 1 and will total The number is displayed on the LCD. After the unlocking is completed, the clutch of the electronic lock 20 to be tested is automatically reset, and the electronic lock 20 to be tested is restored to the locked state. The electronic lock 20 to be tested has an external handle motion monitoring function, and the external handle is automatically fed back to the server after detecting the action of the external handle. The external handle action information, after the server receives the action information of the external handle, sends the next unlock command to the wireless electronic lock, which can be completed automatically. Repeated testing of remote unlocking of electronic locks.

As an alternative embodiment, as shown in FIG. 1 and FIG. 2, the device further includes: a test circuit 112, configured to compare the first actual number of unlocks of the electronic lock to be tested with the number of times the remote server actually sends the unlock command. To obtain the communication success rate of the electronic lock to be tested, further, the communication success rate of the electronic lock to be tested can be tested to meet the design requirements. During the test, the remote server can record the number of times the unlock command is sent. The first counter 110 records the actual number of unlocks, that is, the number of unlock commands actually received by the electronic lock 20 or the electronic lock test device 10, by comparison. Both can test the loss rate of the unlock command and evaluate the reliability of the wireless communication function of the lock. It should be noted that the actual number of unlocks can be completed after the test of the number of reservations is completed. Compare with the number of times the server sends the unlock command to complete the calculation of the communication success rate. Similarly, after the completion of the test of the number of reservations, the calculation of the success rate of the unlocking is performed.

As an optional embodiment, the control circuit is further configured to generate a door opening control signal after completing an unlocking operation; correspondingly, the device further includes: a door frame action motor connected to the control circuit for opening the door control signal Under the control, the door frame that is opposite to the electronic lock to be tested is driven to move in the direction of opening the door, and an analog door opening operation is completed.

By not inventing the embodiment, not only the preset number of unlocking operations but also the preset number of door opening operations can be completed, so that the testing device can simulate the unlocking and opening operations more comprehensively.

As an optional embodiment, the control circuit is further configured to generate a door closing control signal after completing an analog door opening operation; the door frame action motor is further configured to reverse under the control of the door closing control signal to drive the door frame to move in the closing direction, Complete a simulated door closing operation.

Through the embodiment of the invention, not only the preset number of unlocking and opening operations can be completed, but also the preset number of closing operations can be completed, so that the testing device can simulate the unlocking, opening and closing operations more comprehensively.

It should be noted that, in the embodiment of the present invention, after the unlocking operation is completed, the multiple door opening control signals may be repeatedly generated, so that after one unlocking operation and before one locking, the door opening and closing operations are repeatedly performed multiple times. , complete the collision test of the oblique bolt, test the mechanical strength and collision life of the oblique bolt. In addition, in the embodiment of the present invention, after the unlocking operation is completed, only the door opening control signal may be generated, so that after one unlocking operation and before one locking, only one opening and one closing operation are performed, and the oblique locking is completed. Collision test of the tongue, testing the mechanical strength and collision life of the oblique tongue.

As an optional embodiment, the foregoing apparatus may further include: a second counter, configured to record the number of times the lock of the electronic lock to be tested is to be retracted by the electronic lock to be tested; the micro switch is disposed at the lock tongue, and The two counters are connected for triggering the second counter to record the number of times the lock tongue is retracted when the lock tongue is actuated. Since the electronic lock is generally unlocked by the clutch mode, if the unlocking is unsuccessful or the clutch does not operate correctly, pressing the outer handle does not drive the oblique locking tongue. By simultaneously recording the number of times of the oblique locking tongue and the number of pressing the handle, the success rate of opening the door can be obtained. That is, since the electronic lock is actually unlocked, the lock tongue needs to be retracted. If the electronic lock has actually executed the unlock command, but the lock tongue has not been retracted, it indicates that the unlocking failed. Therefore, by setting the micro switch and the second counter, the actual number of unlocking of the electronic lock can be recorded according to the action of the lock tongue.

As an optional embodiment, the test circuit is further configured to compare the number of times the lock of the electronic lock to be tested is retracted with the number of first actual unlocks, and test the success rate of unlocking the electronic lock to be tested. At this time, the actual unlocking times of the electronic lock can be compared with the first actual unlocking times of the electronic lock described above, and the unlocking rate of the electronic lock during the testing process can be determined, thereby evaluating whether the quality of the electronic lock is qualified.

As an optional embodiment, the apparatus may further include: a display connected to the first counter and connected to the second counter for displaying the counting results of the first counter and the second counter. This allows testers to more intuitively understand the test results.

In an optional embodiment, the control circuit is coupled to at least one of the first counter and the second counter for when at least one of the first actual number of unlocks and the number of times the tongue is retracted reaches a preset number of times , end the testing process.

The hardware structure of the above test apparatus includes: a wireless communication circuit (such as the aforementioned communication circuit), a processor (such as the aforementioned control circuit), a counter 1 (such as the aforementioned first counter), and a counter 2 (such as the aforementioned second counter) , liquid crystal display (ie display), micro switch and lock handle action motor. Wherein, the above components other than the lock handle action motor may be disposed on the control board. The connection relationship between the components is shown in Figure 3.

The invention is illustrated in detail below by way of specific examples.

As shown in Figure 4, the process of testing using the above test device when there is no analog door opening or closing operation is as follows:

S102. The server (that is, the foregoing remote server) sends an unlock command.

S104. The test device receives an unlock command from the server or an unlock request command from the electronic lock.

S106, generating an unlock signal;

S108, the lock handle action motor rotates, and drives the sliding down pressing lock handle, and the locking tongue is retracted;

S110, keeping the lock handle in a pressing position for a certain time;

S112, after the predetermined time has elapsed, the motor is reversed, the slider is reset, the lock handle is reset, and the lock tongue is re-ejected.

Here, the unlock command of the server can be sent to the electronic lock wirelessly, but since the test device has the communication circuit, the unlock command can also be received. Similarly, the test device can receive the electronic lock and feed back to the server through the wireless mode. Receipt order. When the switch door and the impact lock tongue test are not required, the motor reversal can be performed immediately after the lower lock handle is reached to the reserved position, the lock handle is reset, and the next unlock operation is performed after the lock handle is reset.

As shown in FIG. 5, the flow of testing using the above test device when including the analog door opening and closing operation is as follows:

S202. The server (that is, the foregoing remote server) sends an unlock command.

S204. The test device receives an unlock command from the server or an unlock request command from the electronic lock.

S206, generating an unlock signal;

S208, the lock handle action motor rotates, and drives the sliding down pressing lock handle, and the locking tongue is retracted;

S210, keeping the lock handle in a pressing position;

S212, generating a door opening signal;

S214, the door frame action motor rotates, and drives the door frame to rotate, leaving the lock tongue;

S216, the lock handle action motor is reversed, the slide is reset, the lock handle is reset, and the lock tongue is re-popped;

S218, generating a door closing signal;

S220, the door frame action motor rotates, and drives the door frame to reset, and then returns to the closed state after hitting the oblique lock tongue.

Here, when adding the door closing and impact locking tongue test, it is necessary to keep the lock handle in the pressing position for a period of time, in order to reduce the complexity of the testing device, therefore, the test device slides down and locks the handle when holding the electronic lock body portion The door frame portion is rotated in a state where the lock tongue is retracted, so that the lock tongue hole of the door frame portion and the lock tongue position of the electronic lock are staggered, and the simulated door opening operation is completed. After the lock tongue leaves the lock tongue hole, the handle can be reset. The bolt is ejected to complete the next step of simulating the impact lock tongue test when closing the door.

In the actual test, the action of the lock tongue is monitored by the micro switch at the lock tongue. Only when the lock handle is pressed and the lock tongue is retracted, the door opening signal is generated, and the door frame action motor rotates to drive the door frame to rotate. If the unlocking is unsuccessful, the locking tongue is not retracted after the lower locking handle, and the locking tongue is still located in the locking tongue hole on the side of the door frame, and the door frame and the locking body are in a relatively fixed state, and the door frame driving motor cannot be rotated to drive the door frame to move. Forced motor action is easy to burn the motor. That is, the door opening control signal should be generated after the micro switch detects that the locking tongue is retracted, because there is a possibility that the pressing of the handle lock tongue does not retract, and the locking tongue is still in the locking tongue hole of the door frame, which cannot be realized. Simulate opening the door.

In addition, since the electronic lock to be tested is fixed on the bracket in actual operation, it is necessary to maintain the action of the lower lock handle to realize the analog door opening. Therefore, the test device is different from the actual door opening situation in that the electronic lock body is kept stationary, and The electronic lock body cooperates with the rotation of the door frame to simulate the relative movement of the electronic lock and the door frame when the door is actually opened, and the door panel in the test device is actually equivalent to the portion of the door frame.

The serial numbers of the embodiments of the present invention are merely for the description, and do not represent the advantages and disadvantages of the embodiments.

In the above-mentioned embodiments of the present invention, the descriptions of the various embodiments are different, and the parts that are not detailed in a certain embodiment can be referred to the related descriptions of other embodiments.

In the several embodiments provided by the present application, it should be understood that the disclosed technical contents may be implemented in other manners. Wherein the device embodiments described above are merely illustrative, such as the division of the units, It can be divided into one logical function, and the actual implementation can have another division manner. For example, multiple units or components can be combined or integrated into another system, or some features can be ignored or not executed. In addition, the mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, unit or module, and may be electrical or otherwise.

The units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.

The above description is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present invention. It should be considered as the scope of protection of the present invention.

Claims

A test device for an electronic lock, comprising:

a communication circuit, configured to receive an unlock command sent by a remote server and/or an unlock receipt command that receives feedback of the electronic lock to be tested;

a control circuit, coupled to the communication circuit, configured to generate an unlock control signal after the communication circuit receives an unlock command sent by the remote server and/or receives an unlock request command of the electronic lock feedback to be tested ;

Slipper

a lock handle action motor connected to the control circuit for forward rotation under the control of the unlocking control signal, and driving the slide lock to be mounted on the lock handle action motor to press the electronic lock to be tested The lock handle is reversed after the lock handle is pressed down to the preset position, and the slide is reset to complete an unlocking operation;

The first counter is configured to record the first actual number of unlockings of the electronic lock to be tested.
The testing device for an electronic lock according to claim 1, wherein the device further comprises:

The test circuit is configured to compare the first actual unlocking number of the electronic lock to be tested with the number of times the remote server actually sends the unlocking command to obtain a communication success rate of the electronic lock to be tested.
The test apparatus for an electronic lock according to claim 1, wherein

The control circuit is further configured to generate a door opening control signal after completing an unlocking operation;

The device further includes: a door frame action motor connected to the control circuit for forward rotation under the control of the door opening control signal, driving a door frame opposite to the electronic lock to be tested to move in a direction of opening the door, completing Simulate the door opening operation once.
The test apparatus for an electronic lock according to claim 3, wherein

The control circuit is further configured to generate a door closing control signal after completing an analog door opening operation;

The door frame action motor is further configured to reverse under the control of the door closing control signal, and drive the door frame to move in a closing direction to complete a simulated door closing operation.
The testing device for an electronic lock according to claim 1, wherein the device further comprises:

a second counter, configured to record the number of times the lock of the electronic lock to be tested is retracted;

a micro switch disposed at the bolt and connected to the second counter for triggering the second counter to record the number of times the bolt is retracted when the bolt is actuated.
The test apparatus for an electronic lock according to claim 5, wherein

The test circuit is further configured to compare the number of times the lock tongue of the electronic lock to be tested is retracted with the number of the first actual unlocking, and test the unlocking success rate of the electronic lock to be tested.
The testing device for an electronic lock according to claim 5, wherein the device further comprises:

And a display connected to the first counter and connected to the second counter for displaying a counting result of the first counter and the second counter.
The test apparatus for an electronic lock according to claim 7, wherein

The control circuit is coupled to at least one of the first counter and the second counter for reaching a preset at least one of the first actual number of unlocks and the number of times the tongue is retracted When the number of times, the test process ends.
A test system for an electronic lock, comprising:

Electronic lock to be tested;

The test device for an electronic lock according to any one of claims 1 to 8, which is connected to the electronic lock to be tested for performing a test on the electronic lock to be tested.
The test system for an electronic lock according to claim 9, further comprising: a remote server, configured to send the next unlock command after the electronic lock to be tested returns the lock handle action information generated by the unlocking.