CN2576865Y - Telecommunication anti-theft door lock - Google Patents

Abstract

The utility model relates to a novel telecommunication anti-theft door lock. The utility model is composed of an upper lock bolt, a lower lock bolt, a side lock bolt, a lock bolt rod and a control part, wherein, the control part is provided with a mechanical control part, and is also provided with a telecommunication control part. The telecommunication control part comprises a power supply commutator and a lock bolt controller. The power supply commutator and the lock bolt controller are respectively connected with a power supply of a beeper machine (BP) and a lock bolt power supply. The power supply commutator is connected with the lock bolt controller thorough an electric signal. The utility model has the advantages of high theft-proof performance, high work reliability and convenient operation. The utility model particularly has a mobile or telephone control method and a key control method. When in emergency, people can remotely control and open the door. The utility model can satisfy the requirements of operational environments of factories, enterprises, schools, shops, household house doors, garage doors, etc., and the requirements of various people. The utility model also has the advantages of reasonable structure, good theft-proof performance, reliable work, convenient operation, etc. The utility model can be applied to house doors, garage doors, doors of safe boxes, etc.

Description

Novel telecommunication safe-guard door lock

(1) technical field

The utility model relates to safe-guard door lock, is specifically related to a kind of novel telecommunication safe-guard door lock.

(2) background technology

In social life, security door has been widely used in factory, office, school, shop and huge numbers of families.Along with the raising of living standards of the people, people are also high more to the performance requirement of security door, and the special requirement theftproof performance is good, and is easy to use.Present safe-guard door lock is divided into key control and Electronic Control two classes.The safe-guard door lock of key control, simple in structure, easy to use, people have been accustomed to using, but theftproof performance is poor.The Electronic Control safe-guard door lock, as the patent No. is that 92238692.7 " electronic telecontrol safe-guard door lock " is that hand-held remote controller control is opened the door, when opening the door the remote controller in the hand is clicked facing to door, the coding wireless pulse that remote controller sends, after the receiver reception and decoding in locking, control electromagnet again and produce electromagnetic force, utilize this electromagnetic force to start mechanical interlinked mechanism and finish the function of opening the door; At closing time door is finished the function of locking a door once drawing, though this safe-guard door lock theftproof performance is good, complex structure, the following problem of in use normal appearance:

1. use inconvenient.In modern's life, be the convenience of communication, often with beeper and mobile phone, burden enough weighs, and now in order to open the door, also needs everyone to increase by one again than the massive remote controller of key, and is very inconvenient.

2. the fault probability is many, and functional reliability is poor.Because this safe-guard door lock is an electromagnetic force of utilizing electromagnet to produce to be started mechanical interlinked mechanism and finishes the function of opening the door, in long-term the use, along with the accumulation of open and close door vibration.Cause the loosening or loose contact of contact in electromagnetic coil loop, cause the electromagnetic force quantity not sufficient and can not finish the opening door of remote-control function; Especially summer high-temperature season, Theft-proof iron door is out of shape because of thermal expansion, causes the frictional force between dead bolt and the doorframe excessive, and the electromagnetic force deficiency, can not opening door of remote-control.These problems often occur in long-term the use, and in particular for the security door of dormitory unit, because the open and close door is frequent, fault is many especially, often can not opening door of remote-control, and bring great inconvenience for resident families.

3. have a power failure as if meeting, can not opening door of remote-control.

4. command range is short.Control of remote controller is apart from having only several meters to tens meters, and distance is shorter, can not farther distance control open the door, and during as if the chance emergency, can not control in the way of entering and open the door, and can not save the time of opening the door.

5. function singleness.This safe-guard door lock has only with remote controller controls a kind of mode of opening the door, and can not control with other modes and open the door, and this just can not satisfy the use needs of social various environment for use and various different crowds.

(3) utility model content

It is good that the purpose of this utility model provides a kind of theftproof performance, easy to use, and reliable operation can remotely-controlled telecommunication safe-guard door lock.Realize that above-mentioned purpose the utility model is achieved in that

A kind of novel telecommunication safe-guard door lock, by the sky,, side chain tongue and dead bolt bar and control section form, control section has mechanical control section, it is characterized in that telecommunication control section in addition, the telecommunication control section comprises power supply commutator and dead bolt controller, and power supply commutator and dead bolt controller are connected with the dead bolt power supply with the beeper power supply respectively; The power supply commutator links to each other with the dead bolt controller by the signal of telecommunication.

Described power supply commutator is made up of power supply reversing motor, train of reduction gears and power supply commutation board, and train of reduction gears is 2 to 4 grades, and its first order is connected with the power supply reversing motor is coaxial, and afterbody is connected with the rolling disc of power supply commutation board is coaxial; The power supply commutation board is made up of the fixedly input disc on both sides and the rolling disc of output panel and centre, 4 symmetrical mutually again fritter current-carrying parts of mutually insulated are set on input disc, to wherein two fritter current-carrying parts of one group of symmetry then, use lead to be connected respectively with the positive pole (or negative pole) of dead bolt power supply, with two fritter current-carrying parts of another group symmetry, use lead to be connected respectively with the negative pole (or anodal) of dead bolt power supply; The 4 fritter mutually insulateds mutual current-carrying part of symmetry again also is set on output panel accordingly, is connected with two contacts on the timing rolling disc in lead and the dead bolt controller respectively; In rolling disc, in conductive part office by opposed polarity on the straight line in axle center, in the both sides in axle center and on corresponding to fixed disk, a contact respectively is set, and the current-carrying part of rolling disc opposed polarity on this contact and the both sides fixed disk in rotation process closely contacts.

Described dead bolt controller is by timing disc, the dead bolt motor, train of reduction gears and dead bolt rotating disc are formed, train of reduction gears has 5 to 7 grades, its first order is connected with the dead bolt motor coaxle, afterbody is connected with the dead bolt rotating disc is coaxial with the timing rolling disc, the dead bolt rotating disc is fixedlyed connected with the timing rolling disc again, timing disc is made up of the fixing output panel and the input disc of rotation, intermesh again 1/3 to 2/3 two conducting rings of mutually insulated are set on output panel, and with lead two current-carrying parts are connected with two power supply terminals of dead bolt motor respectively, on input disc corresponding to the staggered section start of two current-carrying parts of output panel and corresponding to the position of two current-carrying parts, two contacts are set, and respectively with commutate one group of symmetry on the output panel of the power supply in lead and the power supply commutator, two fritter current-carrying parts of same polarity are connected, regularly two contacts on the rolling disc in rotation process with output panel on current-carrying part closely contact.

Because the utility model has adopted said structure, so theftproof performance is good, the functional reliability height, easy to use.Especially control of useful mobile phone of the utility model or phone and key are controlled dual mode, these two kinds of control modes are according to the different environments for use and the needs of different crowd, can use simultaneously, also can use separately, and because the command range of mobile phone or phone is far away, in case of emergency, but people's far distance controlled open the door.So the utility model can satisfy the needs of different environments for use such as the door of factory, office, school, shop, dormitory unit and family or car door and various different crowds, is desirable safe-guard door lock in modern people's life.Also have rational in infrastructurely, theftproof performance is good, reliable operation, advantage such as easy to use, can be applicable to door, car door, safe door etc.

(4) description of drawings

Fig. 1 is the utility model mounting structure schematic diagram.

Fig. 2 is a control principle block diagram of the present utility model.

Fig. 3 is a power supply commutator schematic diagram.

Fig. 4 is a dead bolt controller schematic diagram.

Fig. 5, Fig. 6, Fig. 7 change the electroplax structural representation for the power supply commutator.

Fig. 8, Fig. 9 are the output panel fixing in the timing disc and the input disc structural representation of rotation.

(5) specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing:

As shown in Figure 1, a kind of novel telecommunication safe-guard door lock, by the sky,, side chain tongue 3 and dead bolt bar 4 and dead bolt controller form, the side chain controller has mechanical control section, also has the telecommunication control section; The machinery control section is by key control dead bolt rotating disc 12, and the telecommunication control section is by beeper 8, beeper power supply 9, power supply commutator 10, dead bolt telecommunication controller 11 control dead bolt rotating discs 12.1 is doorframe among the figure, and 2 is door leaf, and 5 is hinge, and 6 is the ball-type handle lock, and 7 is wicket, and 13 is keyhole.

As shown in Figure 2, power supply commutator 10 is by dead bolt power supply 9.2, beeper 8 controls in the telecommunication control section of the present utility model, and beeper 8 connects beeper power supply 9.1, and beeper power supply 9.1 is by charger and battery charge, and its voltage is 1.2 volts; Power supply commutator 10 links to each other with dead bolt controller 11 by the signal of telecommunication.The charger of two groups of power supplys is connected with the alternating current of lead with 220 volts respectively, and respectively to battery or the power supply of small-sized accumulator jar, has enough kinetic energy to finish open and close door function again to guarantee the influence that the utility model is neither had a power failure.8 of beepers utilize the electric signal of its telecommunication vibrating function part, not vibrating motor.

As shown in Figure 3, the power supply commutator is made up of power supply reversing motor 12A, train of reduction gears 13 and power supply commutation board 14, power supply reversing motor 12A is the micromachine of 0.2 watt to 0.5 watt of power, train of reduction gears has 2 grades, its first order and 12 coaxial connections of power supply reversing motor, afterbody and 14 coaxial connections of power supply commutation board; Power supply commutation board 14 is made up of the fixedly input disc 14.1 on both sides and the rolling disc 14.3 of output panel 14.2 and centre.

As shown in Figure 4, the dead bolt controller is made up of dead bolt motor 15, train of reduction gears 16, timing disc 17 and dead bolt rotating disc 18, dead bolt motor 15 is that power is 0.4 watt to 1.8 watts micromachine, train of reduction gears 16 has 5 to 7 grades, its first order and 15 coaxial connections of dead bolt motor, afterbody and timing rolling disc 17 and 18 coaxial connections of dead bolt rotating disc, dead bolt rotating disc 18 is fixedlyed connected with timing rolling disc 17.

As shown in Figure 5, the fixedly input disc 14.1 of power supply commutation board is a conductive plate, thereon, down two halves is separated with an insulating tape 14.1.1, insulating tape 14.1.1 is two combined integrated semicircles, and this conductive plate is divided into four symmetrical mutually again fritter current-carrying parts of mutually insulated.To wherein two fritter current-carrying parts of one group of symmetry then, use lead to be connected with the positive pole (or negative pole) of dead bolt power supply respectively, 14.1.2 is a tie point among the figure; And the two fritter current-carrying parts that another group is symmetrical use lead to be connected with the negative pole (or anodal) of dead bolt power supply respectively, and 14.1.3 is a tie point.Be illustrated in figure 6 as rolling disc 14.3, in conductive part office by opposed polarity on the straight line in axle center, in the both sides in axle center and on corresponding to fixed disk, a contact 14.3.1 respectively is set, and the current-carrying part of rolling disc 14.3 opposed polarity on this contact 14.3.1 and the both sides fixed disk in rotation process closely contacts.As Fig. 7, on fixing output panel 14.2, thereon, two halves is separated with an insulating tape 14.2.2 down, insulating tape 14.2.2 is two combined integrated semicircles, the symmetrical mutually again current-carrying part of 4 fritter mutually insulateds also is set accordingly, and incite somebody to action wherein two fritter current-carrying parts one group of correspondence, that polarity is identical, and being connected with two power supply terminals of dead bolt motor with lead respectively, tie point is 14.2.1; And the identical current-carrying part of two fritter polarity in addition is connected with two contacts 19 on the timing rolling disc 18 in lead and the dead bolt controller 10 respectively, and tie point is 14.2.3; Rolling disc 14.3 is in the process with power supply reversing motor 12A rotation deceleration rotation, and rolling disc 14.3 revolutions move 180 °, and the positive and negative polarity of output just changes once on its output panel 14.2, thereby causes dead bolt motor direction of rotation also to change once.

As Fig. 8, shown in Figure 9, timing disc is made up of the input disc 18 of fixing output panel 20 and rotation, intermesh again 1/3 to 2/3 two conducting rings 21 of mutually insulated are set on output panel 20, and with lead two current-carrying parts are connected with two power supply terminals of dead bolt motor respectively; Rotating on the input disc 18, corresponding to the staggered section start of two conducting rings of fixing output panel 20 and corresponding to the position of two conducting rings, two contacts 19 are set, with lead the commutation output panel upper level of the power supply in two contacts 19 and the power supply commutator two fritter current-carrying parts symmetry, same polarity are connected respectively then.Owing to be subjected to the influence of power supply commutation output panel 14.2 output dead bolt electric power polarities, just make regularly rolling disc turn to the dead bolt motor certain position (or certain angle) with its fixedly on the output panel 20 a certain conducting ring output is arranged, the dead bolt motor is rotated to a certain direction; When the timing turn disc arrives the another location, its fixedly another conducting ring on the output panel 20 output is just arranged, make dead bolt motor counter-rotation again, thereby controlled the dead bolt motor from just going to the rotation time of counter-rotating (or change from just being inverted to), when train of reduction gears adopts 4 to 5 grades, fixedly two conducting rings on the output panel are staggered 1/3 to 3/2 o'clock, and then the dead bolt motor is 3 to 10 seconds from the directed rotation time that just goes to counter-rotating (or change from just being inverted to).

Use the utility model, only need to use the making call beeper, beeper starts the power supply commutator, can drive the dead bolt rotating disc by power supply commutator control dead bolt controller and rotate, and realizes the switching of security door.The utility model does not influence with key mechanical opens security door.

Claims (3)

1. novel telecommunication safe-guard door lock, by the sky,, side chain tongue and dead bolt bar and control section form, control section has mechanical control section, it is characterized in that telecommunication control section in addition, the telecommunication control section comprises power supply commutator and dead bolt controller, and power supply commutator and dead bolt controller are connected with the dead bolt power supply with the beeper power supply respectively; The power supply commutator links to each other with the dead bolt controller by the signal of telecommunication.

2. telecommunication safe-guard door lock as claimed in claim 1, it is characterized in that described power supply commutator is made up of power supply reversing motor, train of reduction gears and power supply commutation board, train of reduction gears is 2 to 4 grades, its first order is connected with the power supply reversing motor is coaxial, and afterbody is connected with the rolling disc of power supply commutation board is coaxial; The power supply commutation board is made up of the fixedly input disc on both sides and the rolling disc of output panel and centre, 4 symmetrical mutually again fritter current-carrying parts of mutually insulated are set on input disc, to wherein two fritter current-carrying parts of one group of symmetry then, use lead to be connected respectively with the positive pole (or negative pole) of dead bolt power supply, with two fritter current-carrying parts of another group symmetry, use lead to be connected respectively with the negative pole (or anodal) of dead bolt power supply; The 4 fritter mutually insulateds mutual current-carrying part of symmetry again also is set on output panel accordingly, is connected with two contacts on the timing rolling disc in lead and the dead bolt controller respectively; In rolling disc, in conductive part office by opposed polarity on the straight line in axle center, in the both sides in axle center and on corresponding to fixed disk, a contact respectively is set, and the current-carrying part of rolling disc opposed polarity on this contact and the both sides fixed disk in rotation process closely contacts.

3. telecommunication safe-guard door lock as claimed in claim 1, it is characterized in that described dead bolt controller is by timing disc, the dead bolt motor, train of reduction gears and dead bolt rotating disc are formed, train of reduction gears has 5 to 7 grades, its first order is connected with the dead bolt motor coaxle, afterbody is connected with the dead bolt rotating disc is coaxial with the timing rolling disc, the dead bolt rotating disc is fixedlyed connected with the timing rolling disc again, timing disc is made up of the fixing output panel and the input disc of rotation, intermesh again 1/3 to 2/3 two conducting rings of mutually insulated are set on output panel, and with lead two current-carrying parts are connected with two power supply terminals of dead bolt motor respectively, on input disc corresponding to the staggered section start of two current-carrying parts of output panel and corresponding to the position of two current-carrying parts, two contacts are set, and respectively with commutate one group of symmetry on the output panel of the power supply in lead and the power supply commutator, two fritter current-carrying parts of same polarity are connected, regularly two contacts on the rolling disc in rotation process with output panel on current-carrying part closely contact.

Images