CN2786253Y - Intelligent lock with flywheel to generate electricity - Google Patents

Abstract

The utility model relates to an intelligent lock which uses the automatic generation of a flywheel without need of a power supply and comprises a lock frame plate, wherein a gear group toggling mechanism is arranged in the lock frame plate. A box body, the side edge of which is provided with an opening is fixed beside the gear group toggling mechanism and a plurality of shaft sleeves for inserting rotary shafts of a transmission gear group are formed in the box body. The gear group toggling mechanism is engaged with an input gear of the transmission gear group, and a generator is arranged beside the transmission gear group in the box body. A small gear is connected with an output shaft of the generator and is engaged with a transmission gear which is inserted in a shaft sleeve. The interval position between an output gear of the transmission gear group and the transmission gear is provided with a movable small gear which is positioned on the same horizontal plane with both, and an upper cover plate is covered above the box body. The output terminal of a power supply of a generator is connected with a charging circuit, and the output end of the charging circuit is connected with a miniature motor. The utility model has the advantages of environment protection, convenient use, novel structure, extensive application and no need of the power supply and can work under bad working condition.

Description

Flywheel self electricity intelligence lock

Technical field

The utility model relates to lock technology field, refers in particular to a kind of intelligence lock that need not power utilization flywheel self electricity.

Background technology

Along with the development of lockset industry, various electronic locks emerge in an endless stream, because the electronic lock use is more convenient, therefore are widely used in every field.Yet, because at present electronic lock structure must be with the battery driving of powering, therefore, in case just can't opening, dead battery locked, at this moment just must utilize another set of auxiliary mechanical lock structure to open lock, use trouble, be unfavorable for that the family expenses of electronic lock are popularized applying of each field of reaching.The problem that how to solve the power supply of electronic lock power supply easily becomes electronic lock and applies a difficult problem to be solved.

Summary of the invention

The purpose of this utility model is exactly the intelligence lock that provide at the deficiencies in the prior art part a kind of need not power supply, easy to use, novel structure, is widely used, utilizes the flywheel self electricity.

For achieving the above object, the utility model includes the lock deckle board, in the lock deckle board, the gear train toggle mechanism is housed, at the other box body that is fixed with side openings of gear train toggle mechanism, form some axle sleeves that supply each rotating shaft of driving gear set to plug in the box body, the input gears engaged of gear train toggle mechanism and driving gear set, the other generator that is equiped with of driving gear set in box body, be connected with pinion on the output shaft of generator, this pinion and the travelling gear engagement that is plugged in the axle sleeve, also have one to be positioned at the sliding pinion of same horizontal plane with both at the output gear of driving gear set and the position, interval between this travelling gear, the output gear of the axis deviation driving gear set of this sliding pinion and this travelling gear axle center line, and the rotating shaft that the axle sleeve that the rotating shaft that supplies sliding pinion plugs is a bit larger tham sliding pinion, above-mentioned this axle sleeve makes sliding pinion both can be in engagement with the output gear and the travelling gear of driving gear set, can be in clutch state with the output gear and the travelling gear of driving gear set again, above box body, be covered with a upper cover plate, the power output end of generator is connected with charging circuit, and the charging circuit output connects micromachine.

After adopting said structure, people are after rotary handle puts in place when unblanking, handgrip resets under the flexible member effect, thereby drive generator and rotate generating, and, after handgrip is replied and is put in place, the sliding pinion clutch makes generator be rotated further lasting generating under the effect of flywheel, generator is transported to charging circuit with the electricity that is sent again and charges, make electronic lock can keep sufficient electric weight, when unblanking again, charging circuit has enough electric weight driving micromachines to open door lock, so circulation is very convenient.Thoroughly solved the deficiency that existing electronic lock relies on battery, therefore, the characteristics that the utlity model has environmental protection, easy to use, novel structure, are widely used, need not power supply, can under abominable operating mode, work.

Description of drawings

Fig. 1 is the utility model perspective view.

Fig. 2 is the utility model gear train toggle mechanism stereochemical structure decomposing schematic representation.

Fig. 3 is the perspective view of each parts in the box body.

Fig. 4 is box body and driving gear set and the three-dimensional assembly structure decomposing schematic representation of generator.

Fig. 5 is the three-dimensional assembly structure decomposing schematic representation of upper cover plate and the assembling of each gear.

Fig. 6 is a stereochemical structure decomposing schematic representation of the present utility model.

When being in engagement for sliding pinion, Fig. 7 cooperates principle schematic.

When being in clutch state for sliding pinion, Fig. 8 cooperates principle schematic.

Fig. 9 is the utility model theory diagram.

The specific embodiment

As accompanying drawing 1～shown in Figure 9, the utility model comprises lock deckle board 10, in lock deckle board 10, gear train toggle mechanism 20 is housed, at the gear train toggle mechanism 20 other box bodys 30 that are fixed with side openings 31, form some axle sleeves 32 that supply driving gear set 40 each rotating shaft to plug in the box body 30, axle sleeve 33 and axle sleeve 34, gear train toggle mechanism 20 meshes with the input gear 41 of driving gear set 40, the driving gear set 40 other generators 50 that are equiped with in box body 30, be connected with pinion 51 on the output shaft of generator 50, this pinion 51 and travelling gear 60 engagements that are plugged in the axle sleeve 61, also have one to be positioned at the sliding pinion 70 of same horizontal plane with both at the output gear 41 of driving gear set 40 and the position, interval between this travelling gear 60, output gear 43 and these travelling gear 60 axial lines of the axis deviation driving gear set 40 of this sliding pinion 70, and the rotating shaft 71 that the axle sleeve 72 that the rotating shaft 71 that supplies sliding pinion 70 plugs is a bit larger tham sliding pinion 70, above-mentioned this axle sleeve 72 makes sliding pinion 70 both can be in engagement with the output gear 43 and the travelling gear 60 of driving gear set 40, can be in clutch state with the output gear 43 and the travelling gear 60 of driving gear set 40 again, above box body 30, be covered with a upper cover plate 35, the power output end of generator 50 is connected with charging circuit 80, and charging circuit 80 outputs connect micromachine 90.Described gear train toggle mechanism 20 includes the handgrip 21 in the installing of lock deckle board 10 external surfaces, handgrip rotating shaft 22 is inserted in the lock deckle board 10, the circumferential edges that fixed cover is located at the circular cover 23 in the handgrip rotating shaft 22 is fixed with arc-shaped rack 24, arc-shaped rack 24 meshes with the input gear 41 of driving gear set 40, is equiped with the flexible member 25 that handgrip 21 is resetted in handgrip rotating shaft 22.At the described flywheel 52 that also is provided with an increase inertia energy on generator 50 output shafts above the pinion 51 that is connected, this flywheel 52 is connected with pinion 51 axial restraints on generator 50 output shafts.Described flexible member 25 is a spiral spring 25, this spiral spring is wrapped in around the handgrip rotating shaft 22, the one end is fastened in the handgrip rotating shaft 22 center rectangular channels 221, the other end is fastened on the fixed leg 11 that is fixed in the lock deckle board 10, above spiral spring 25, be socketed with pad and upper cover plate 27 successively, on upper cover plate 27, be equiped with the clamp nut 28 that is threaded with handgrip rotating shaft 22.Described driving gear set 40 is by input gear train 41, center tooth wheels 42, output gear wheels 43 are formed, this imports gear train 41, center tooth wheels 42, output gear wheels 43 all are to be made of coaxial big pinion, wherein, the pinion 41` of input gear train 41 and arc-shaped rack 24 engagements, the pinion 42` engagement of gear wheel 41 ＂ of input gear train 41 and center tooth wheels 42, gear wheel 42 ＂ of center tooth wheels 42 and the pinion 43` of output gear wheels 43 engagement, gear wheel 43 ＂ of output gear wheels 43 then are positioned at same horizontal plane with sliding pinion 70 and travelling gear 60 respectively.Form the axle sleeve of some corresponding driving gear set 40 rotating shafts in the described upper cover plate 35, and the tip position of 70 rotating shafts 71 of the sliding pinion in upper cover plate 35 offers one and makes the sliding pinion 70 and the output gear 43 of travelling gear 60 and driving gear set 40 be in the arc positioning runner 351 of engagement or clutch state.Also being fixed with the bracing frame 12 of a cross section for " several " font in described lock deckle board 10, fixedlys connected with bracing frame 12 in the upper end of fixed leg 11.Also be equipped with a screw 29 on the sidewall of described clamp nut 28, this screw 29 is fastened in the rectangular channel 221 of handgrip rotating shaft.

During use, when people unblank, smart card is contacted electronic lock, charging circuit 80 drives micromachine 90 and opens door lock, at this moment, people's turn-knob handgrip 21, handgrip 21 drives handgrip rotating shaft 22 and arc-shaped rack 24 counterclockwise rotates, arc-shaped rack 24 drives input gear train 41 clockwise directions and rotates, input gear train 41 drives central tooth wheels 42 anti-clockwise directions and rotates, and central tooth wheels 42 drive the rotation of output gear wheels 43 clockwise directions, the gear teeth of gear wheel 43 ＂ of output gear wheels 43 are pushed the gear teeth of sliding pinion 70 aside, the rotating shaft 71 of sliding pinion 70 makes driving gear set 40 idle running at axle sleeve 72 and arc positioning runner 351 internal shift clutch gear wheels 43 ＂;

After loosing one's grip when rotateing in place, under the effect of spiral spring 25, thereby handgrip rotating shaft 22 returns drive arc-shaped rack 24 clockwise directions and rotate, arc-shaped rack 24 drives input gear train 41 and counterclockwise rotates, input gear train 41 drives central tooth wheels 42 and rotates along the pointer direction, and central tooth wheels 42 drive output gear wheels 43 rotation counterclockwise, the gear teeth of the gear teeth meshing sliding pinion 70 of gear wheel 43 ＂ of output gear wheels 43, the rotating shaft 71 of sliding pinion 70 makes gear wheel 43 ＂ and travelling gear 60 be in engagement as shown in Figure 7 at axle sleeve 72 and arc positioning runner 351 internal shifts, and travelling gear 60 drives generator 50 generatings by the pinion on the generator 50 51;

After spiral spring 25 answers put in place, each gear of driving gear set 40 stops operating, flywheel 52 drives travelling gear 60 and is rotated further, the gear teeth of travelling gear 60 are pushed the gear teeth of sliding pinion 70 aside, as shown in Figure 8, the rotating shaft 71 of sliding pinion 70 is rotated further travelling gear 60 at axle sleeve 72 and arc positioning runner 351 internal shift clutch travelling gears 60 under the inertia force effect of flywheel 52, thereby reaches the purpose that continues generating.

Generator 50 is transported to charging circuit 8 with the electricity that is sent again and charges, make electronic lock can keep sufficient electric weight, when unblanking again, charging circuit 80 has enough electric weight driving micromachines 90 to open door lock, so circulation, in unblanking process, people just carried out charging process, use very convenient, thoroughly solved the deficiency that existing electronic lock relies on battery, therefore, the characteristics that the utlity model has environmental protection, easy to use, novel structure, are widely used, need not power supply, can under abominable operating mode, work.

Claims (8)

1, flywheel self electricity intelligence lock, include the lock deckle board, it is characterized in that: in the lock deckle board, the gear train toggle mechanism is housed, at the other box body that is fixed with side openings of gear train toggle mechanism, form some axle sleeves that supply each rotating shaft of driving gear set to plug in the box body, the input gears engaged of gear train toggle mechanism and driving gear set, the other generator that is equiped with of driving gear set in box body, be connected with pinion on the output shaft of generator, this pinion and the travelling gear engagement that is plugged in the axle sleeve, also have one to be positioned at the sliding pinion of same horizontal plane with both at the output gear of driving gear set and the position, interval between this travelling gear, the output gear of the axis deviation driving gear set of this sliding pinion and this travelling gear axle center line, and the rotating shaft that the axle sleeve that the rotating shaft that supplies sliding pinion plugs is a bit larger tham sliding pinion, above-mentioned this axle sleeve makes sliding pinion both can be in engagement with the output gear and the travelling gear of driving gear set, can be in clutch state with the output gear and the travelling gear of driving gear set again, above box body, be covered with a upper cover plate, the power output end of generator is connected with charging circuit, and the charging circuit output connects micromachine.

2, flywheel self electricity intelligence lock according to claim 1, it is characterized in that: described gear train toggle mechanism includes the handgrip in the installing of lock deckle board external surface, the handgrip rotating shaft is inserted in the lock deckle board, the circumferential edges that fixed cover is located at the circular cover in the handgrip rotating shaft is fixed with arc-shaped rack, the input gears engaged of arc-shaped rack and driving gear set is equiped with the flexible member that handgrip is resetted in the handgrip rotating shaft.

3, flywheel self electricity intelligence lock according to claim 1 and 2, it is characterized in that: also be provided with a flywheel that increases inertia energy on the generator output shaft above the pinion described being connected, pinion shaft is to fixedlying connected on this flywheel and the generator output shaft.

4, flywheel self electricity intelligence lock according to claim 2, it is characterized in that: described flexible member is a spiral spring, this spiral spring is wrapped in around the handgrip rotating shaft, the one end is fastened in the rectangular channel of handgrip rotating shaft center, the other end is fastened on the fixed leg that is fixed in the lock deckle board, above spiral spring, be socketed with pad and upper cover plate successively, on upper cover plate, be equiped with the clamp nut that is threaded with the handgrip rotating shaft.

5, flywheel self electricity intelligence lock according to claim 1 and 2, it is characterized in that: described driving gear set is by the input gear train, the center tooth wheels, the output gear wheels are formed, this imports gear train, the center tooth wheels, the output gear wheels all are to be made of coaxial big pinion, wherein, the pinion of input gear train and arc-shaped rack engagement, the gear wheel of input gear train and the pinion of center tooth wheels, the pinion of the gear wheel of center tooth wheels and output gear wheels, the gear wheel of output gear wheels then are positioned at same horizontal plane with sliding pinion and travelling gear respectively.

6, flywheel self electricity intelligence lock according to claim 1 and 2, it is characterized in that: form the axle sleeve of some corresponding driving gear set rotating shafts in the described upper cover plate, and the tip position of the sliding pinion rotating shaft in upper cover plate offers one and makes the output gear of sliding pinion and travelling gear and driving gear set be in the arc positioning runner of engagement or clutch state.

7, flywheel self electricity intelligence lock according to claim 4, it is characterized in that: also being fixed with the bracing frame of a cross section for " several " font in described lock deckle board, fixedlys connected with bracing frame in the upper end of fixed leg.

8, flywheel self electricity intelligence lock according to claim 4, it is characterized in that: also be equipped with a screw on the sidewall of described clamp nut, this screw is fastened in the rectangular channel of handgrip rotating shaft.

Images