CN105178725A - Control method of electromagnetic lock, electromagnetic lock and express delivery cabinet - Google Patents

Abstract

The invention discloses a control method of an electromagnetic lock; the control method is applied to the electromagnetic lock; the electromagnetic lock comprises a coil and a lock core; and when current passes through the coil, magnetic force can be generated to suck the lock core. The control method comprises the steps of: outputting the current to the coil; detecting if the coil satisfies preset safety conditions; and if not, stopping outputting the current to the coil. The invention further discloses an electromagnetic lock and an express delivery cabinet applying the electromagnetic lock. The electromagnetic lock controls the current of the coil, so that the coil works under the preset safety conditions, the coil is not easy to be burnt, and the service life is long.

Description

A kind of control method of electromagnetic lock, electromagnetic lock and express delivery cabinet

Technical field

The present invention relates to electromagnetic lock control technology field, particularly relate to a kind of control method of electromagnetic lock, electromagnetic lock and express delivery cabinet.

Background technology

The coil of existing electromagnetic lock is in "on" position always, and therefore, the calorific value of coil is large, easily cause coil temperature too high, be easy to burn with induced coil, and application life is short.

Summary of the invention

In view of this, be necessary to provide one to cause coil not easily to burn in fact, and the control method of the electromagnetic lock of long service life, and apply the electromagnetic lock of this control method, and apply the express delivery cabinet of this electromagnetic lock.

A control method for electromagnetic lock, this control method is applied on electromagnetic lock, and this electromagnetic lock comprises coil and lock core, can produce a magnetic force with adhesive lock core when coil power supply flows through.This control method comprises the steps:

Output current to coil.

Whether magnetic test coil meets preset security condition, if coil does not meet preset security condition, stops outputing current to coil.

Preferably, whether magnetic test coil meets preset security condition, if coil does not meet preset security condition, stops the step outputing current to coil to comprise:

Obtain the duration outputing current to coil.

Judge whether duration exceedes preset duration.

If duration exceedes preset duration, stop outputing current to coil.

Preferably, whether magnetic test coil meets preset security condition, if coil does not meet preset security condition, stops the step outputing current to coil to comprise:

Obtain the current value of electric current.

Judge whether current value exceedes pre-set current value.

If current value exceedes pre-set current value, stop outputing current to coil.

Preferably, whether magnetic test coil meets preset security condition, if coil does not meet preset security condition, stops the step outputing current to coil to comprise:

Obtain the temperature value of coil.

Judge whether temperature value exceedes preset temperature value.

If temperature value exceedes preset temperature value, stop outputing current to coil.

Preferably, whether magnetic test coil meets preset security condition, if coil does not meet preset security condition, stops the step outputing current to coil to comprise:

Obtain the current value of electric current and the temperature value of coil.

Judge whether temperature value exceedes preset temperature value and judge whether current value exceedes pre-set current value.

If temperature value exceedes preset temperature value or current value exceedes pre-set current value, stop outputing current to coil.

A kind of electromagnetic lock, it comprises drive circuit, control module, coil and lock core.Control module is electrically connected with drive circuit, coil respectively.Drive circuit, for outputing current to coil, produces magnetic attraction lock core for coil.Whether control module, meet preset security condition for magnetic test coil.Control module, if also do not meet preset security condition for coil, controls drive circuit and stops outputing current to coil.

Preferably, control module, also for obtaining the duration outputing current to coil.Control module, also for judging whether duration exceedes preset duration.Control module, if also exceed preset duration for duration, controls drive circuit and stops outputing current to coil.

Preferably, it also comprises current detection module, and current detection module is electrically connected with control module, coil respectively, current detection module, for obtaining the current value of electric current.Control module, also for judging whether current value exceedes pre-set current value.Control module, if also exceed pre-set current value for current value, controls drive circuit and stops outputing current to coil.

Preferably, it also comprises temperature detecting module, and temperature detecting module is electrically connected with control module, coil respectively, temperature detecting module, for obtaining the temperature value of coil, control module, for judging whether temperature value exceedes preset temperature value.Control module, if also exceed preset temperature value for temperature value, controls drive circuit and stops outputing current to coil.

Preferably, temperature detecting module, also for obtaining the temperature value of coil, current detection module, also for obtaining the current value of electric current.Control module, also for judging whether temperature value exceedes preset temperature value and judge whether current value exceedes pre-set current value.Control module, if also exceed preset temperature value for temperature value or current value exceedes pre-set current value, controls drive circuit and stops outputing current to coil.

Preferably, drive circuit comprises current source, the first switch module, first input end and the first output.First input end is connected with control module, first output is connected with coil, when first input end is first signal of telecommunication, first switch module is closed, so that current source no current exports the first output to, when first input end is second signal of telecommunication electrically contrary with first signal of telecommunication, the first switch module conducting, so that current source outputs current to the first output.

Preferably, the first switch module comprises triode Q5 and FET Q3.The base stage of triode Q5 is connected with first input end, the grounded emitter of triode Q5, and the colelctor electrode of triode Q5 is connected with the grid of FET Q3, and the source electrode of FET Q3 is connected with current source, and drain electrode and first output of FET Q3 are electrically connected.

A kind of express delivery cabinet, it comprises multiple memory cell, and each memory cell comprises a door body, and door body is provided with above-mentioned electromagnetic lock.

Electromagnetic lock of the present invention, controls the electric current of coil, so that this coil works under preset security condition, and therefore, coil not easily burns, and long service life.

Accompanying drawing explanation

Fig. 1 is a kind of part-structure schematic diagram of embodiment express delivery cabinet.

Fig. 2 is the frame construction schematic diagram of electromagnetic lock in Fig. 1.

Fig. 3 is the circuit theory diagrams of drive circuit in Fig. 2.

Fig. 4 is a kind of schematic flow sheet of control method of embodiment electromagnetic lock.

Fig. 5 is the frame construction schematic diagram of another kind of embodiment electromagnetic lock.

Fig. 6 is the schematic flow sheet of the control method of another kind of embodiment electromagnetic lock.

Fig. 7 is the frame construction schematic diagram of another kind of embodiment electromagnetic lock.

Fig. 8 is the schematic flow sheet of the control method of another kind of embodiment electromagnetic lock.

Fig. 9 is the frame construction schematic diagram of another kind of embodiment electromagnetic lock.

Figure 10 is the schematic flow sheet of the control method of another kind of embodiment electromagnetic lock.

Detailed description of the invention

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not used for limiting the present invention.

In one embodiment, please refer to Fig. 1, this express delivery cabinet comprises multiple memory cell 10, and each memory cell 10 comprises a door body 20, and door body 20 is provided with electromagnetic lock 30.Refer to Fig. 2, this electromagnetic lock 30 comprises drive circuit 301, coil 302, control module 303 and lock core 304.This control module 303 is electrically connected with drive circuit 301, coil 302 respectively.The power supply of this coil 302 can produce a magnetic force with adhesive lock core 304 when flowing through.This drive circuit 301, for outputing current to coil 302.This control module 303, also for obtaining the duration outputing current to coil 302.This control module 303, also for judging whether duration exceedes preset duration.This control module 303, if also exceed preset duration for duration, controls drive circuit 301 and stops outputing current to coil 302, meanwhile, and this coil 302 adhesive lock core 304 to predeterminated position, so that open this electromagnetic lock.This control module 303, if also do not exceed preset duration for duration, controls drive circuit 301 and again outputs current to coil 302.Refer to Fig. 3, drive circuit 301 comprises current source VIN_12V, the first switch module, first input end LOCK, the first output LOCK_DRV.This first switch module is electrically connected with current source VIN_12V, first input end LOCK, the first output LOCK_DRV respectively.This first input end LOCK is connected with control module 303, and this first output LOCK_DRV is connected with coil 302.This first switch module comprises triode Q5, FET Q3.The base stage of this triode Q5 is connected with first input end LOCK, the grounded emitter of this triode Q5, the colelctor electrode of this triode Q5 is connected with the grid of FET Q3, the source electrode of FET Q3 is connected with current source VIN_12V, FET Q3 drain electrode and the first output LOCK_DRV be electrically connected.

In order to description the present invention clearly, suppose that first signal of telecommunication is low level, second signal of telecommunication is high level.Therefore, when first input end LOCK is low level, triode Q5 turns off, so that FET Q3 ends, and the electric current of current source VIN_12V does not export by FET Q3, so that the first output LOCK_DRV no current of drive circuit 301 exports.In addition, when first input end LOCK is high level, triode Q5 conducting, so that FET Q3 conducting, the electric current of current source VIN_12V is exported by FET Q3, so that the first output LOCK_DRV of drive circuit 301 has electric current to export.Controlled conducting or the shutoff of drive circuit 301 by the signal of telecommunication of first input end LOCK, other drive circuits whether having electric current to export with the first output LOCK_DRV controlling drive circuit 301, also within protection scope of the present invention.

In one embodiment, refer to Fig. 4, comprising the steps: of the control method of this electromagnetic lock

Step S1, outputs current to coil.

Step S2, obtains the duration outputing current to coil.

Step S3, judges whether duration exceedes preset duration.If duration exceedes preset duration, perform step S4.If duration does not exceed preset duration, re-execute step S1.

Step S4, stops outputing current to coil, and meanwhile, coil adhesive lock core to predeterminated position, so that opens electromagnetic lock.

The electromagnetic lock of the present embodiment, provides the electric current of preset duration to coil by drive circuit, so that opens this electromagnetic lock, avoid coil and be in "on" position for a long time, occurs with the problem that induced coil is easy to generate heat.Therefore, coil not easily burns and long service life.

In another kind of embodiment, refer to Fig. 5, this electromagnetic lock comprises drive circuit 301, coil 302, control module 303, lock core 304 and current detection module 305.This control module 303 is electrically connected with drive circuit 301, current detection module 305 respectively.This current detection module 305 is electrically connected with coil 302.The power supply of this coil 302 can produce a magnetic force with adhesive lock core 304 when flowing through.This drive circuit 301, for outputing current to coil 302.Current detection module 305, for obtaining the current value of electric current.Control module 303, also for judging whether current value exceedes pre-set current value.Control module 303, if also exceed pre-set current value for current value, controls drive circuit 301 and stops outputing current to coil 302.In addition, this control module 303, if also do not exceed pre-set current value for current value, continues to output current to coil 302.

In another kind of embodiment, refer to Fig. 6, comprising the steps: of the control method of this electromagnetic lock

Step S10, outputs current to coil.

Step S11, obtains the current value of electric current.

Step S12, judges whether current value exceedes pre-set current value.If current value exceedes pre-set current value, perform step S13.If current value does not exceed pre-set current value, continue to perform step S10.

Step S13, stops outputing current to coil.

It should be noted that, before performing step S10, output current to control module, control module detects the current value of this electric current, judge whether this current value exceedes pre-set current value, if when current value exceedes pre-set current value, again output current to control module, until after exporting the electric current that do not exceed pre-set current value to control module, export this electric current not exceeding pre-set current value to coil.By this kind of mode, avoid initial High-current output to coil, so that coil burnout.In addition, the electromagnetic lock of the present embodiment, by controlling the size of electric current, avoids High-current output to coil, so that coil burnout.

In further embodiments, refer to Fig. 7, this this electromagnetic lock comprises drive circuit 301, coil 302, control module 303, lock core 304 and temperature detecting module 306.This control module 303 is electrically connected with drive circuit 301, temperature detecting module 306 respectively.This temperature detecting module 306 is electrically connected with coil 302.The power supply of this coil 302 can produce a magnetic force with adhesive lock core 304 when flowing through.This drive circuit 301, for outputing current to coil 302.Temperature detecting module 306, for obtaining the temperature value of coil 302, control module 303, for judging whether temperature value exceedes preset temperature value.Control module 303, if also exceed preset temperature value for temperature value, controls drive circuit 301 and stops outputing current to coil 302.In addition, this control module 303, if also do not exceed pre-set current value for current value, continues to output current to coil 302.

In further embodiments, refer to Fig. 8, comprising the steps: of the control method of this electromagnetic lock

Step S20, outputs current to coil.

Step S21, obtains the temperature value of coil.

Step S22, judges whether temperature value exceedes preset temperature value.If temperature value exceedes preset temperature value, perform step S23.If current value does not exceed pre-set current value, continue to perform step S20.

Step S23, stops outputing current to coil.

The electromagnetic lock of the present embodiment, by the temperature of control coil, avoids the temperature of coil too high, so that coil burnout.

In further embodiments, refer to Fig. 9, this this electromagnetic lock comprises drive circuit 301, coil 302, control module 303, lock core 304, current detection module 305 and temperature detecting module 306.This control module 303 is electrically connected with drive circuit 301, current detection module 305, temperature detecting module 306 respectively.This temperature detecting module 306 is electrically connected with coil 302.Current detection module 305 and coil 302 are electrically connected.The power supply of this coil 302 can produce a magnetic force with adhesive lock core 304 when flowing through.This drive circuit 301, for outputing current to coil 302.Current detection module 305, for obtaining the current value of electric current.Temperature detecting module 306, for obtaining the temperature value of coil 302.Control module 303, also for judging whether temperature value exceedes preset temperature value and judge whether current value exceedes pre-set current value.Control module 303, if also exceed preset temperature value for temperature value or current value exceedes pre-set current value, controls drive circuit 301 and stops outputing current to coil.In addition, if also do not exceed preset temperature value for temperature value or current value does not exceed pre-set current value, continue to output current to coil 302.

In further embodiments, refer to Figure 10, comprising the steps: of the control method of this electromagnetic lock

Step S30, outputs current to coil.

Step S31, obtains the current value of electric current and the temperature value of coil.

Step S32, judges whether temperature value exceedes preset temperature value and judge whether current value exceedes pre-set current value.If temperature value exceedes preset temperature value or current value exceedes pre-set current value, perform step S33.If temperature value does not exceed preset temperature value and current value does not exceed pre-set current value, continue to perform step S30.

Step S33, stops outputing current to coil.

It should be noted that, before performing step S30, output current to control module, control module detects the current value of this electric current, judge whether this current value exceedes pre-set current value, if when current value exceedes pre-set current value, again output current to control module, until after exporting the electric current that do not exceed pre-set current value to control module, export this electric current not exceeding pre-set current value to coil.By this kind of mode, avoid initial High-current output to coil, so that coil burnout.In addition, the electromagnetic lock of the present embodiment, by controlling the size of current by coil, and the temperature of control coil, both avoided big current by coil, and caused the problem of coil burnout to occur, it also avoid temperature too high, cause the generation of the problem of coil burnout.

Be described in detail the detailed description of the invention of invention above, but it is as example, the present invention does not limit and detailed description of the invention described above.For a person skilled in the art, any equivalent modifications or alternative also all among category of the present invention that this invention is carried out, therefore, not departing from the equalization conversion and amendment, improvement etc. done under the spirit and principles in the present invention scope, all should contain within the scope of the invention.

Claims (13)

1. a control method for electromagnetic lock, described electromagnetic lock comprises coil and lock core, and can produce a magnetic force when described coil power supply flows through with lock core described in adhesive, it is characterized in that, described control method comprises the steps:

Output current to described coil;

Detect described coil and whether meet preset security condition, if coil does not meet described preset security condition, stop exporting described electric current to described coil.

2. the control method of electromagnetic lock according to claim 1, is characterized in that, detects described coil and whether meets preset security condition, if coil does not meet described preset security condition, stops the described electric current of output to comprise to the step of described coil:

Obtain and export the duration of described electric current to described coil;

Judge whether described duration exceedes preset duration;

If described duration exceedes described preset duration, stop exporting described electric current to described coil.

3. the control method of electromagnetic lock according to claim 1, is characterized in that, detects described coil and whether meets preset security condition, if coil does not meet described preset security condition, stops the described electric current of output to comprise to the step of described coil:

Obtain the current value of described electric current;

Judge whether described current value exceedes pre-set current value;

If described current value exceedes described pre-set current value, stop exporting described electric current to described coil.

4. the control method of electromagnetic lock according to claim 1, is characterized in that, detects described coil and whether meets preset security condition, if coil does not meet described preset security condition, stops the described electric current of output to comprise to the step of described coil:

Obtain the temperature value of described coil;

Judge whether described temperature value exceedes preset temperature value;

If described temperature value exceedes described preset temperature value, stop exporting described electric current to described coil.

5. the control method of electromagnetic lock according to claim 1, is characterized in that, detects described coil and whether meets preset security condition, if coil does not meet described preset security condition, stops the described electric current of output to comprise to the step of described coil:

Obtain the current value of described electric current and the temperature value of described coil;

Judge whether described temperature value exceedes described preset temperature value and judge whether described current value exceedes pre-set current value;

If described temperature value exceedes described preset temperature value or described current value exceedes described pre-set current value, stop outputing current to described coil.

6. an electromagnetic lock, is characterized in that, it comprises drive circuit, control module, coil and lock core; Described control module is electrically connected with described drive circuit, described coil respectively; Described drive circuit, for outputing current to described coil, produces lock core described in magnetic attraction for described coil; Whether described control module, meet preset security condition for detecting described coil; Described control module, if also do not meet described preset security condition for described coil, controls described drive circuit and stops exporting described electric current to described coil.

7. electromagnetic lock according to claim 6, is characterized in that, described control module, also exports the duration of described electric current to described coil for obtaining; Described control module, also for judging whether described duration exceedes preset duration; Described control module, if also exceed described preset duration for described duration, controls described drive circuit and stops exporting described electric current to described coil.

8. electromagnetic lock according to claim 6, is characterized in that, it also comprises current detection module, and described current detection module is electrically connected with described control module, described coil respectively, described current detection module, for obtaining the current value of described electric current; Described control module, also for judging whether described current value exceedes pre-set current value; Described control module, if also exceed described pre-set current value for described current value, controls described drive circuit and stops exporting described electric current to described coil.

9. electromagnetic lock according to claim 6, it is characterized in that, it also comprises temperature detecting module, described temperature detecting module is electrically connected with described control module, described coil respectively, described temperature detecting module, for obtaining the temperature value of described coil, described control module, for judging whether described temperature value exceedes preset temperature value; Described control module, if also exceed described preset temperature value for described temperature value, controls described drive circuit and stops exporting described electric current to described coil.

10. electromagnetic lock according to claim 8 or claim 9, it is characterized in that, described temperature detecting module, also for obtaining the temperature value of described coil, described current detection module, also for obtaining the current value of described electric current; Described control module, also for judging whether described temperature value exceedes described preset temperature value and judge whether described current value exceedes pre-set current value; Described control module, if also exceed described preset temperature value for described temperature value or described current value exceedes described pre-set current value, controls described drive circuit and stops outputing current to coil.

11. electromagnetic locks according to claim 6, it is characterized in that, described drive circuit comprises current source, first switch module, first input end and the first output, described first input end is connected with described control module, described first output is connected with described coil, when described first input end is first signal of telecommunication, described first switch module is closed, so that described current source no current exports described first output to, when described first input end is second signal of telecommunication electrically contrary with described first signal of telecommunication, described first switch module conducting, so that described current source outputs current to described first output.

12. electromagnetic locks according to claim 11, it is characterized in that, described first switch module comprises triode Q5 and FET Q3, the base stage of described triode Q5 is connected with described first input end, the grounded emitter of described triode Q5, the colelctor electrode of described triode Q5 is connected with the grid of described FET Q3, and the source electrode of described FET Q3 is connected with described current source, and drain electrode and described first output of described FET Q3 are electrically connected.

13. 1 kinds of express delivery cabinets, is characterized in that, it comprises multiple memory cell, and each memory cell comprises a door body, and described door body is provided with the described electromagnetic lock of one of claim 6 ~ 12.