CN212614155U - Automatic lock body with reversible lock tongue - Google Patents

Abstract

The utility model discloses an automatic lock body with a reversible lock tongue, which comprises a shell and a lock tongue, wherein a fixed frame is arranged in the shell, and the fixed frame is rotationally connected with a rotating block; a driving part is also arranged in the shell, a locking assembly is arranged between the driving part and the rotating block, and the driving part drives the locking assembly to unlock or lock the rotating block; a reset part is arranged between the rotating block and the fixed frame, and drives the rotating block to rotate and reset relative to the fixed frame; the spring bolt is located the turning block through flexible subassembly activity, and the spring bolt is equipped with the arc spigot surface, and the arc spigot surface is corresponding with spring bolt upset direction. The utility model has the advantages of it is following and effect: adopt the mode that the spring bolt can overturn the casing relatively, when frequent switch door, need not drive unit and lock completely, can realize opening and shutting the door through the sliding door body, it is more convenient to use, labour saving and time saving, when being in the state of closing the door for a long time and need lock completely, drive unit can order about the locking subassembly and realize the stall to the rotating block.

Description

Automatic lock body with reversible lock tongue

Technical Field

The utility model relates to a lock body technical field, in particular to automatic lock body that spring bolt can overturn.

Background

The lock body is a main component of the lock, mainly comprises a one-way lock body, a three-way lock body, a four-way lock body and the like, and is commonly used in an anti-theft door, a safe door body and a drawer. The spring bolt of common lock body mainly adopts inside and outside flexible mode to realize locking or unblock, when needs are locked, through the mode that electron was verified or the key is locked, makes the spring bolt correspond the grafting with the lockhole on the door body, when needs unblock, through the mode that electron was verified or the key is unblanked, makes in the spring bolt retraction lock body, breaks away from mutually with the lockhole, can realize the unblock.

However, the lock body has the following disadvantages: after the lock body unblock, because spring bolt and lockhole break away from completely, if the door is in the virtual state of covering, wind blows gently and can make the door automatic open, if need make the door all the time need pass through electronic verification or the key is locked completely when being in the closed condition, so, use under the more frequent condition of user business turn over, need lock or the process of unblanking at every turn, have the trouble of using, the problem that wastes time and energy.

Disclosure of Invention

The utility model aims at providing an automatic lock body that spring bolt can overturn adopts the mode that the relative casing of spring bolt overturns, has convenient to use, labour saving and time saving's effect.

The above technical purpose of the present invention can be achieved by the following technical solutions: an automatic lock body with a reversible lock tongue comprises a shell and a lock tongue, wherein a fixed frame is fixedly connected in the shell, the fixed frame is rotatably connected with a rotating block, and the lock tongue is arranged in the rotating block;

a driving part is also arranged in the shell, a locking assembly is arranged between the driving part and the rotating block, and the driving part drives the locking assembly to unlock or lock the rotating block;

a reset part is arranged between the rotating block and the fixed frame, and drives the rotating block to rotate and reset relative to the fixed frame;

the spring bolt is provided with the arc spigot surface through flexible subassembly activity locating turning block, and the arc spigot surface is corresponding with spring bolt upset direction.

By adopting the technical scheme, the lock tongue is inserted into the lock hole in an initial state (namely during locking), after the verification is passed, the driving part drives the locking assembly to preliminarily unlock the rotating block, then the door body provided with the lock body is pulled, the lock tongue is blocked by the edge of the lock hole and overturns together with the rotating block, then the lock tongue is overturned and reset under the action of the resetting part, and at the moment, the lock tongue and the lock hole are completely unlocked; when the door body need be closed, promote the door body, under the guide effect of arc spigot surface and the mating reaction of flexible subassembly, in the retraction rotor block when the spring bolt receives the resistance, form and dodge, after the spring bolt aims at the lockhole, stretch out and correspond under the effect of flexible subassembly and insert to the lockhole in, thus, when frequent switch door, need not to order about the locking subassembly through driver part and lock completely, can realize the switch door through the sliding door body, high convenience in use, time saving and labor saving, when being in the closed door state for a long time and need lock completely, driver part can order about the locking subassembly and realize the stall to the rotor block.

The utility model discloses a further set up to: the locking assembly comprises a locking chute and a locking block, the locking block is arranged in the shell in a sliding mode, a rotating shaft is arranged at the end of the rotating block, and the locking chute is correspondingly arranged at the end of the rotating shaft; the driving component drives the locking block to be separated from or inserted into the locking chute.

Through adopting above-mentioned technical scheme, when locking completely, the motion of drive part drive locking piece makes it correspond and inserts to locking the spout in, so, can realize the effect of spline to the turning block, even outwards pulling the door body, the turning block also can't rotate, can't realize the process of unblanking.

The utility model discloses a further set up to: the driving part comprises a driving motor, a displacement assembly is arranged between the driving part and the rotating block, the displacement assembly comprises a rack and a gear arranged on an output shaft of the driving motor, and the gear is meshed with the rack; the fixing frame is fixedly provided with a sliding shaft, the locking block is integrally formed with a rack seat, the rack is arranged on the rack seat, the rack seat and the rack are in sliding fit relative to the sliding shaft, and the driving motor drives the locking block to be separated from or inserted into the locking sliding groove through the displacement assembly.

By adopting the technical scheme, when the locking device is locked, the rotating block rotates to the position where the locking chute and the locking block are in the same straight line, the driving motor drives the gear to rotate, under the meshing action, the rack moves to the direction close to the locking chute, and the rack seat drives the locking block to slide towards the locking chute until the locking block is inserted into the locking chute, and at the moment, the rotating block stops rotating; when the lock is unlocked, the driving motor drives the gear to rotate reversely, the rack moves reversely under the meshing action, and the rack seat drives the locking block to be separated from the locking chute, so that the rotating block can drive the lock tongue to turn over freely.

The utility model discloses a further set up to: the sliding shaft is sleeved with a driving spring, the rack seat is provided with a step which is matched with the rack in an abutting mode, and the rack is arranged in a sliding mode relative to the rack seat; the driving spring drives the step to always prop against the rack, and the other end of the driving spring props against the fixed frame.

By adopting the technical scheme, when the driving motor drives the gear to rotate, the rack moves, the rack is separated from the step at the moment of moving to generate a gap, when the rack moves towards the direction close to the locking sliding groove, the rack seat slides towards the moving direction of the rack in the same direction under the action of the driving spring to fill the gap, the step is propped against the rack again, and meanwhile, the rack seat drives the locking block to be inserted into the locking sliding groove to realize locking in the moving process; when the driving motor drives the gear to rotate reversely, the rack moves reversely, and the locking block is driven to be separated from the locking sliding groove under the blocking effect of the step, so that unlocking can be realized.

The utility model discloses a further set up to: the sliding shaft is further sleeved with an auxiliary spring, the auxiliary spring is arranged opposite to the driving spring, one end of the auxiliary spring abuts against the rack, and the other end of the auxiliary spring abuts against the fixing frame.

By adopting the technical scheme, the end part of the rack can always abut against the step under the elastic action of the auxiliary spring.

The utility model discloses a further set up to: the end of the locking block is provided with an insertion guide surface.

Through adopting above-mentioned technical scheme, the tip at the locking block sets up inserts the spigot surface, when turning block and spring bolt block, when the locking spout is not totally in same straight line with the locking block promptly, under the guiding action that inserts the spigot surface, only need the locking block front end portion insert in the locking spout, can drive the turning block through the locking block and rotate suitable angle, make the locking spout turn to be in same straight line with the locking block on, be convenient for the locking block insert the locking spout fast.

The utility model discloses a further set up to: the reset component is a torsion spring, the end part of the rotating block is provided with an embedded groove, one end of the torsion spring is embedded into the embedded groove, and the other end of the torsion spring abuts against the fixing frame.

Through adopting above-mentioned technical scheme, when the turning block drives the spring bolt upset, the torsional spring is compressed, and when the turning block did not receive external effort under natural state, torsional spring drive turning block upset resets.

The utility model discloses a further set up to: the telescopic assembly comprises a telescopic spring, one end of the telescopic spring is abutted to the lock tongue, and the other end of the telescopic spring is abutted to the rotating block.

Through adopting above-mentioned technical scheme, after the spring bolt received external acting force, the retraction compressed the expanding spring in to rotating block, when the spring bolt no longer received external acting force, stretched out the rotating block under expanding spring's elastic force effect and reset.

The utility model discloses a further set up to: be provided with the dead lever in the spring bolt, the dead lever is located to the expanding spring cover, and the hole of dodging that supplies the dead lever to pass is seted up to the turning block.

Through adopting above-mentioned technical scheme, locate the dead lever with the expanding spring cover, difficult skew when expanding spring is compressed, and when the spring bolt retraction rotating block was in, the dead lever can pass and dodge the hole.

The utility model discloses a further set up to: the turning block is provided with a limiting column, a limiting sliding groove is correspondingly formed in the side wall of the lock tongue, and the limiting sliding groove is formed along the path of the lock tongue extending into the turning block.

Through adopting above-mentioned technical scheme, when the relative turning block of spring bolt is flexible, spacing spout and spacing post relative slip can prevent to a certain extent that the spring bolt from taking place to deflect when flexible, and still can play the effect of anticreep to the spring bolt.

To sum up, the utility model discloses following beneficial effect has:

1. the door can be opened and closed by the aid of the mode that the lock tongue can turn over relative to the shell, when the door is opened and closed frequently, the locking assembly does not need to be driven by the driving part to be completely locked, the door can be opened and closed by pushing and pulling the door body, the door is convenient to use, time and labor are saved, and when the door is closed for a long time and needs to be completely locked, the driving part can drive the locking assembly to stop the rotating block;

2. a driving spring is matched with an auxiliary spring, so that the rack always abuts against the step of the rack seat;

3. the mode that inserts the spigot surface is set up at the tip of locking piece, when turning block and spring bolt block, when locking spout was not in same straight line with the locking block completely promptly, the locking block only need insert the locking spout with the front end portion in, can drive the turning block and rotate suitable angle, makes both be in same straight line, is convenient for the locking block to insert in the locking spout fast.

Drawings

Fig. 1 is a schematic diagram of the overall structural relationship of the embodiment.

Fig. 2 is a schematic diagram of the internal structural relationship of the embodiment.

Fig. 3 is a schematic structural relationship diagram of the driving part, the displacement assembly, the locking assembly and the bolt of the embodiment.

Fig. 4 is an exploded view of the drive member, displacement assembly, locking assembly and deadbolt of an embodiment.

Fig. 5 is a schematic structural relationship diagram of the bolt-flipping state of the embodiment.

In the figure: 1. a housing; 11. a lock body housing; 12. a battery cover; 13. a drive motor; 131. a gear; 2. a fixed mount; 3. rotating the block; 31. a rotating shaft; 311. locking the chute; 312. a groove is embedded; 32. avoiding holes; 33. a limiting column; 4. a latch bolt; 41. an arc-shaped guide surface; 42. fixing the rod; 43. a limiting chute; 5. a sliding shaft; 51. a rack; 511. a slide hole; 52. a rack seat; 521. a lower arc-shaped chute; 522. a step; 523. a locking block; 5231. inserting the guide surface; 53. a drive spring; 54. an auxiliary spring; 6. a torsion spring; 7. a telescoping spring.

Detailed Description

The present invention will be further described with reference to the accompanying drawings. For convenience of explanation, the following "left" and "right" are both in the same direction as shown in fig. 3.

The utility model provides an automatic lock body that spring bolt can overturn, as shown in figure 1, figure 2 and figure 5, including casing 1, casing 1 includes lock body shell 11, lid and battery cover 12 behind the lock body of lock body shell 11, fixedly connected with mount 2 in the casing 1, mount 2 rotates and is connected with turning block 3, the flexible spring bolt 4 that is provided with in the turning block 3, turning block 3 can drive spring bolt 4 upset, spring bolt 4 is provided with arc spigot surface 41, arc spigot surface 41 is corresponding with spring bolt 4 upset direction.

As shown in fig. 2-4, a driving part is arranged in the housing 1, the driving part is configured as a driving motor 13, and an output shaft of the driving motor 13 is provided with a gear 131; the fixed frame 2 is provided with a sliding shaft 5, the axis of the sliding shaft 5 is vertical to the axis of the output shaft of the driving motor 13, the sliding shaft 5 is provided with a rack 51 and a rack seat 52 in a sliding way, the rack 51 is meshed with the gear 131, the upper surface of the rack seat 2 is provided with a lower arc-shaped chute 521, the lower surface of the rack 51 is embedded in the lower arc-shaped chute 521, the rack 51 is provided with a sliding hole 511 along the axial direction, the sliding shaft 5 passes through the sliding hole 511, the driving motor 13 drives the rack 51 to slide along the axial direction of the sliding shaft 5, the left end of the rack seat 52 is provided with a step 522, the left end of the rack 51 is abutted with the step 522, the rack 51 can slide rightwards relative to the rack seat 52, the left end of the sliding shaft 5 is sleeved with a driving spring 53, one end of the driving spring 53 is abutted against the fixed frame 2, the other end of the driving spring 53 is abutted against the, one end of the auxiliary spring 54 abuts against the rack 51, the other end of the auxiliary spring 54 abuts against the fixed frame 2, and the auxiliary spring 54 is matched with the driving spring 53, so that the rack 51 always abuts against the rack seat 52.

As shown in fig. 4, a locking assembly is disposed between the driving motor 13 and the rotating block 3, the locking assembly includes a locking block 523 integrally formed on the rack seat 52 and a locking chute 311 disposed on the rotating block 3, two sides of the rotating block 3 are provided with rotating shafts 31, and the locking chute 311 is disposed on an end portion of the rotating shaft 31 on a side close to the locking block 523 along a radial direction of the rotating shaft 31; the locking block 523 is slidably disposed in the housing 1, the rack holder 52 and the locking block 523 are integrally in a "Z" shape, when the rack holder 52 slides relative to the sliding shaft 5, the locking block 523 is driven to slide in the same direction, so that the locking block is inserted into or separated from the locking chute 311, and an insertion guide surface 5231 is disposed at an end of the locking block 523 close to the locking chute 311.

As shown in fig. 2 and 4, a reset component is disposed between the rotating block 3 and the fixing frame 2, the reset component is a torsion spring 6, the torsion spring 6 is sleeved on the rotating shaft 31 on the other side of the rotating block 3, the end portion of the rotating shaft 31 on the other side is provided with an insertion groove 312, one end of the torsion spring 6 is inserted into the insertion groove 312, and the other end of the torsion spring 6 abuts against the fixing frame 2. When the turning block 3 drives the bolt 4 to turn, the torsion spring 6 is compressed, and when the turning block 3 is not subjected to external acting force in a natural state, the torsion spring 6 drives the turning block 3 to turn and reset.

As shown in fig. 4, a telescopic assembly is arranged between the bolt 4 and the rotating block 3, the telescopic assembly comprises a telescopic spring 7, one end of the telescopic spring 7 is supported on the inner wall of the bolt 4, the other end of the telescopic spring 7 is supported on the inner wall of the rotating block 3, a fixing rod 42 is arranged in the bolt 4 along the telescopic direction, the fixing rod 42 is sleeved with the telescopic spring 7, and an avoiding hole 32 for the fixing rod 42 to pass through is correspondingly formed in the rotating block 3. The lateral wall of turning block 3 is provided with spacing post 33, and the bolt 4 lateral wall is seted up spacing spout 43 correspondingly, and spacing spout 43 is seted up along the route that bolt 4 stretched into turning block 3. When the bolt 4 stretches relative to the rotating block 3, the limiting sliding groove 43 slides relative to the limiting column 33, so that the bolt 4 can be prevented from deflecting during stretching to a certain extent, and the bolt can be prevented from falling off.

When the bolt 4 receives external acting force, the bolt retracts into the rotating block 3 to compress the telescopic spring 7, and when the bolt 4 does not receive external acting force any more, the bolt extends out of the rotating block 3 under the elastic action of the telescopic spring 7 to reset. The fixing rod 42 is sleeved with the telescopic spring 7, the telescopic spring 7 is not easy to deviate when being compressed, and when the bolt 4 retracts into the rotating block 3, the fixing rod 42 can penetrate through the avoiding hole 32.

The utility model discloses a basic operating principle does: under initial condition (when locking state promptly), spring bolt 4 inserts in the lockhole, verify the back, driving motor 13 drive gear 131 clockwise (fig. 3), drive rack 51 and move left, because rack 51 left end offsets with rack seat 52's step 522 for rack seat 52 drives locking block 523 and moves left, and locking block 523 breaks away from locking spout 311 completely and realizes preliminary unblock, and at this moment, drive spring 53 is compressed, and rotating block 3 can drive spring bolt 4 and overturn relatively.

When the door body is opened, the door body provided with the lock body is pulled outwards, the lock tongue 4 is blocked by the edge of the lock hole and overturns together with the rotating block 3 (an overturning state is shown in figure 5), and after the lock tongue 4 is far away from the lock hole, the rotating block 3 is overturned and reset under the action of the torsion spring 6 (a resetting state is shown in figure 1), and at the moment, the lock tongue 4 and the lock hole are completely unlocked; when the door body was closed, inwards promote the door body, under the guide effect of arc spigot surface 41 and telescopic assembly's mating reaction, in retraction rotor block 3 when spring bolt 4 received the resistance, the formation was dodged, after spring bolt 4 aimed at the lockhole, stretch out and correspond under telescopic spring 7's effect and insert to the lockhole in, so, when frequent switch door, need not to order about locking assembly through driving motor 13 and lock completely, can realize the switch door through the sliding door body, and it is more convenient to use, time saving and labor saving.

When the door is closed for a long time and needs to be completely locked, the driving motor 13 drives the gear 131 to rotate in the counterclockwise direction, so that the rack 51 slides rightwards, the rack 51 is separated from the step 522 at the moment of moving, a gap is generated, the rack seat 52 is also slid rightwards to fill the gap due to the acting force of the driving spring 53, the step 522 is propped against the rack 51 again, meanwhile, the rack seat 52 drives the locking block 523 to be inserted into the locking sliding groove 311 in the moving process to realize rotation stopping locking, at the moment, even if the door body is pulled outwards, the rotating block 3 cannot rotate, and the unlocking process cannot be realized. When the rotating block 3 is completely turned to the reset state, the locking sliding groove 311 and the locking block 523 are in the same straight line, when the rotating block 3 is clamped and is not completely turned to reset, under the guiding action of the insertion guide surface 5231, only the front end part of the locking block 523 needs to be inserted into the locking sliding groove 311, the rotating block 3 can be driven by the locking block 523 to rotate by a proper angle, the locking sliding groove 311 is rotated to be in the same straight line with the locking block 523, and the locking block 523 can be conveniently and quickly inserted into the locking sliding groove 311.

It should be noted that the present invention is not only applicable to a door, but also applicable to any part having an opening and closing process, such as a drawer.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (10)

1. The utility model provides an automatic lock body that spring bolt can overturn, includes casing (1) and spring bolt (4), its characterized in that: a fixed frame (2) is fixedly connected in the shell (1), the fixed frame (2) is rotatably connected with a rotating block (3), and the lock tongue (4) is arranged in the rotating block (3);

a driving part is further arranged in the shell (1), a locking assembly is arranged between the driving part and the rotating block (3), and the driving part drives the locking assembly to unlock or lock the rotating block (3);

a reset part is arranged between the rotating block (3) and the fixed frame (2), and the reset part drives the rotating block (3) to rotate and reset relative to the fixed frame (2);

the lock bolt (4) is movably arranged on the rotating block (3) through a telescopic assembly, the lock bolt (4) is provided with an arc-shaped guide surface (41), and the arc-shaped guide surface (41) corresponds to the turning direction of the lock bolt (4).

2. The automatic lock body that a lock tongue can overturn of claim 1, characterized in that: the locking assembly comprises a locking sliding groove (311) and a locking block (523), the locking block (523) is arranged in the shell (1) in a sliding mode, a rotating shaft (31) is arranged at the end portion of the rotating block (3), and the locking sliding groove (311) is correspondingly arranged at the end portion of the rotating shaft (31); the driving member drives the locking block (523) to be disengaged from or inserted into the locking chute (311).

3. The automatic lock body that a lock tongue can overturn of claim 2, characterized in that: the driving part comprises a driving motor (13), a displacement assembly is arranged between the driving part and the rotating block (3), the displacement assembly comprises a rack (51) and a gear (131) arranged on an output shaft of the driving motor (13), and the gear (131) is meshed with the rack (51); the fixing frame (2) is fixedly provided with a sliding shaft (5), the locking block (523) is integrally formed with a rack seat (52), the rack (51) is arranged on the rack seat (52), the rack seat (52) and the rack (51) are opposite to the sliding shaft (5) in a sliding fit, and the driving motor (13) drives the locking block (523) to be separated from or inserted into the locking sliding groove (311) through the displacement assembly.

4. The automatic lock body that a lock tongue can overturn of claim 3, characterized in that: the sliding shaft (5) is sleeved with a driving spring (53), the rack seat (52) is provided with a step (522) which is matched with the rack (51) in an abutting mode, and the rack (51) is arranged in a sliding mode relative to the rack seat (52); the driving spring (53) drives the step (522) to be always abutted against the rack (51), and the other end of the driving spring (53) is abutted against the fixed frame (2).

5. The automatic lock body that a lock tongue can overturn of claim 4, characterized in that: the sliding shaft (5) is further sleeved with an auxiliary spring (54), the auxiliary spring (54) is arranged opposite to the driving spring (53), one end of the auxiliary spring (54) abuts against the rack (51), and the other end of the auxiliary spring (54) abuts against the fixed frame (2).

6. The automatic lock body that a lock tongue can overturn of claim 2, characterized in that: an insertion guide surface (5231) is provided at an end of the locking block (523).

7. The automatic lock body that a lock tongue can overturn of claim 1, characterized in that: the reset component is arranged to be a torsion spring (6), an embedded groove (312) is formed in the end portion of the rotating block (3), one end of the torsion spring (6) is embedded into the embedded groove (312), and the other end of the torsion spring (6) abuts against the fixing frame (2).

8. The automatic lock body that a lock tongue can overturn of claim 1, characterized in that: the telescopic assembly comprises a telescopic spring (7), one end of the telescopic spring (7) abuts against the lock bolt (4), and the other end of the telescopic spring (7) abuts against the rotating block (3).

9. The automatic lock body that a lock tongue can overturn of claim 8, characterized in that: a fixing rod (42) is arranged in the bolt (4), the telescopic spring (7) is sleeved on the fixing rod (42), and an avoiding hole (32) for the fixing rod (42) to penetrate is formed in the rotating block (3).

10. The automatic lock body that a lock tongue can overturn of claim 1, characterized in that: the rotating block (3) is provided with a limiting column (33), a limiting sliding groove (43) is correspondingly formed in the side wall of the lock tongue (4), and a path along which the lock tongue (4) extends into the rotating block (3) is formed in the limiting sliding groove (43).

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