CN210460201U - Fingerprint lock handle line passing structure - Google Patents

Abstract

The application discloses a handle wire passing structure of a fingerprint lock, which comprises a handle, a panel, a rotating seat and a reset torsion spring, the handle is provided with a fingerprint head, the fingerprint head is connected with a conducting wire, the handle is rotatably arranged on the panel through a rotating seat, the handle is fixedly matched with the rotating seat, the reset torsion spring is sleeved on the rotating seat or the handle and is used for directly or indirectly driving the handle to rotate and then reset, it is characterized in that the lead is a cylindrical lead, a through hole is arranged at the rotating axis of the rotating seat, and a through hole is arranged on the hole wall of one side of the through hole, a cavity is formed between the rotating seat and the handle, the two ends of the through hole are respectively communicated with the through hole and the accommodating cavity, the through hole and the through hole are all wire channels, a soft rubber ring is arranged in the through hole, and the wire is located in the soft rubber ring.

Description

Fingerprint lock handle line passing structure

Technical Field

The utility model relates to a tool to lock field especially relates to a line structure is crossed to fingerprint lock handle.

Background

The fingerprint lock is the very extensive tool to lock of using at present, and patent CN2018212445989 provides an intelligence fingerprint lock structure, and this kind of intelligence fingerprint lock structure has a problem in the use, and the wire area can constantly take place the scraping with other parts in the use promptly, and the wire area wearing and tearing are serious, and the wire area is very easily taken place to twine in the use.

SUMMERY OF THE UTILITY MODEL

The utility model provides a to above-mentioned problem, a fingerprint lock handle line crossing structure is proposed.

The utility model adopts the following technical scheme:

a handle line-passing structure of a fingerprint lock comprises a handle, a panel, a rotating seat and a reset torsion spring, wherein a fingerprint head is arranged on the handle, the fingerprint head is connected with a conducting wire, the handle is rotatably arranged on the panel through the rotating seat, the handle is fixedly matched with the rotating seat, the reset torsion spring is sleeved on the rotating seat or the handle and is used for directly or indirectly driving the handle to rotate and then reset, it is characterized in that the lead is a cylindrical lead, a through hole is arranged at the rotating axis of the rotating seat, and a through hole is arranged on the hole wall of one side of the through hole, a cavity is formed between the rotating seat and the handle, the two ends of the through hole are respectively communicated with the through hole and the accommodating cavity, the through hole and the through hole are all wire channels, a soft rubber ring is arranged in the through hole, and the wire is located in the soft rubber ring.

This device is through chooseing for use cylindric wire, and pass the handle with the wire and rotate the appearance chamber between the seat, because the handle rotates together with rotating the seat, so can not take place wearing and tearing with rotating seat or handle to this partial wire, the wire that lies in the through-hole simultaneously also can not take place wearing and tearing, when the wire need leave the through-hole on rotating the seat, be provided with the flexible glue ring in the through-hole, and the flexible glue ring can avoid wire and through-hole to take place wearing and tearing, simultaneously because the through-hole, the effect of flexible glue ring is equivalent to spacing partial wire on a position, the handle can not take place the winding with rotating the seat at pivoted in-process wire like this.

This device has avoided wire and handle and has rotated the emergence friction loss between the seat through set up through hole and flexible glue ring on rotating the seat, and through hole and flexible glue ring can avoid the wire to take place the winding in the use to the limiting displacement of wire simultaneously.

Optionally, a protruding column is arranged on the rotating seat, a concave hole is formed in the handle, the protruding column is partially located in the concave hole, and the accommodating cavity is located between the concave hole and the protruding column.

Optionally, the panel further comprises a bearing, the bearing is rotatably sleeved on the protruding column of the rotating seat, and the bearing is located between the panel and the protruding column.

The existence of the bearing can ensure that the rotating seat is more stable in the rotating process.

Optionally, the reset torsion spring is sleeved on the protruding column of the rotating seat, one abutting end of the reset torsion spring directly or indirectly abuts against the rotating seat, and the other abutting end of the reset torsion spring directly or indirectly abuts against the panel.

Optionally, the device further comprises a driving gear, a transmission gear and an unlocking gear, wherein the transmission gear and the unlocking gear are directly or indirectly arranged on the panel in a rotating mode, the driving gear is directly or indirectly fixedly arranged on the rotating seat, the transmission gear is meshed and matched with the driving gear and the unlocking gear together, a return torsion spring is arranged on the panel or the transmission gear, one contact end of the return torsion spring directly or indirectly abuts against the panel, and the other contact end of the return torsion spring directly or indirectly abuts against the transmission gear.

Optionally, still include the linkage sleeve, linkage sleeve fixed mounting rotates on the seat, drive gear movable sleeve establishes on rotating the seat, movable mounting has the linkage post on the drive gear, be provided with the linkage groove with linkage post looks adaptation on the linkage sleeve.

Optionally, the push rod device further comprises a push rod, a motor and a key device, wherein the push rod is movably arranged on the panel, the motor and the key device are used for pushing the push rod to move on the panel, and the panel pushes the linkage column to be matched with the linkage groove through the movement of the panel.

Optionally, the linkage groove has two, and two linkage grooves are on a straight line, be provided with two angle of separation on the drive gear, it is fixed with the bumping post to rotate detachably on the seat, the bumping post is used for supporting one of them angle of separation.

The two blocking angles are on the same straight line, and the straight line formed by the two blocking angles is perpendicular to the straight line formed by the two linkage grooves. Because present door all divide into "left-hand type" and "open right", when "left-hand type" and "open right" interconversion, need rotate 180 degrees with the handle, in this design, need be by "left-hand type" to "open right" when changing, disassemble the bumping post from rotating the seat, then will rotate seat and handle 180 degrees in the lump rotation, then will keep off the post and install and rotate the seat on can. Because the drive gear is not rotated during this process, if the shift front column is used to abut against the left-hand dog angle, the shift rear column is used to abut against the right-hand dog angle.

Optionally, the wire guide device further comprises a cover plate, the cover plate and the panel are detachably matched together to form a cavity, and a sliding hole for the wire to slide is formed in the cover plate.

The cover plate mainly has the function of covering all parts in the panel. Because the wire has slight removal at the pivoted in-process of handle, set up the wire of sliding hole and then be convenient for the wire and slide, secondly played spacing effect to the wire.

The handle and the rotating seat are detachably fixed together through bolts, the bolts are located in through holes of the rotating seat, and a decorative plate used for covering the bearing is further installed on the panel.

The utility model has the advantages that: through set up through hole and flexible glue ring on rotating the seat, avoided wire and handle and rotated and take place frictional loss between the seat, through hole and flexible glue ring can avoid the wire to take place the winding in the use to the limiting displacement of wire simultaneously.

Description of the drawings:

FIG. 1 is a schematic view of the mating relationship of a panel and a cover plate;

FIG. 2 is a schematic diagram of a thread passing structure of a handle of the fingerprint lock;

FIG. 3 is an exploded view of the assembly of the parts of the panel;

fig. 4 is a schematic diagram of the structure of the rotary base.

The figures are numbered: 1. panel, 2, the gear of unblanking, 3, drive gear, 401, return torsion spring, 402, reset torsion spring, 5, drive gear, 501, angle of separation, 6, wire, 7, soft rubber ring, 8, bumping post, 9, linkage post, 10, push rod, 11, motor, 12, key device, 13, apron, 14, handle, 15, bolt, 16, plaque, 17, linkage sleeve, 18, bearing, 19, rotation seat, 1901, through-hole, 1902, through-hole, 1903, protruding post.

The specific implementation mode is as follows:

the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, a line passing structure for a fingerprint lock handle includes a handle 14, a panel 1, a rotating seat 19 and a reset torsion spring 402, a fingerprint head is disposed on the handle 14, a wire 6 is connected to the fingerprint head, the handle 14 is rotatably mounted on the panel 1 through the rotating seat 19, the handle 14 and the rotating seat 19 are fixedly fitted together, the reset torsion spring 402 is sleeved on the rotating seat 19 or the handle 14, and the reset torsion spring 402 is used for directly or indirectly driving the handle 14 to rotate and then reset, and is characterized in that the wire 6 is a cylindrical wire 6, a through hole 1901 is disposed at a rotation axis of the rotating seat 19, a through hole 1902 is disposed at a side hole wall of the through hole 1901, a containing cavity is formed between the rotating seat 19 and the handle 14, two ends of the through hole 1902 are respectively communicated with the through hole 1901 and the containing cavity, the through hole 1902 and the through hole 1901 are all wire 6 channels, and, the wire 6 is located within the grommet 7.

This device is through selecting for use cylindric wire 6 to with wire 6 pass the appearance chamber between handle 14 and the rotation seat 19, because handle 14 rotates with the rotation seat 19 together, so to this partial wire 6 can not take place wearing and tearing with rotation seat 19 or handle 14, the wire 6 that is located in through hole 1902 also can not take place wearing and tearing simultaneously, when wire 6 need leave the through-hole 1901 on the rotation seat 19, be provided with soft glue ring 7 in the through-hole 1901, and soft glue ring 7 can avoid wire 6 and through-hole 1901 to take place wearing and tearing, simultaneously because through-hole 1902, the effect of soft glue ring 7 is equivalent to spacing some wire 6 in a position, handle 14 can not take place the winding with the rotation seat 19 at pivoted in-process wire 6 like this.

This device has avoided wire 6 and handle 14 and has rotated the frictional loss that takes place between the seat 19 through set up through hole 1902 and flexible glue ring 7 on rotating the seat 19, and through hole 1902 and flexible glue ring 7 can avoid wire 6 to take place the winding in the use to the limiting displacement of wire 6 simultaneously.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, a protruding column 1903 is disposed on the rotating base 19, a concave hole is disposed on the handle 14, a part of the protruding column 1903 is located in the concave hole, and the cavity is located between the concave hole and the protruding column 1903.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the display panel further includes a bearing 18, the bearing 18 is rotatably sleeved on the protruding column 1903 of the rotating base 19, and the bearing 18 is located between the panel 1 and the protruding column 1903.

The presence of the bearing 18 ensures that the rotating seat 19 is more stable during rotation.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the restoring torsion spring 402 is sleeved on the protruded post 1903 of the rotating seat 19, one abutting end of the restoring torsion spring 402 abuts against the rotating seat 19 directly or indirectly, and the other abutting end of the restoring torsion spring 402 abuts against the panel 1 directly or indirectly.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the panel further includes a driving gear 5, a transmission gear 3 and an unlocking gear 2, the transmission gear 3 and the unlocking gear 2 are directly or indirectly rotatably disposed on the panel 1, the driving gear 5 is directly or indirectly fixedly mounted on the rotating seat 19, the transmission gear 3 is engaged with the driving gear 5 and the unlocking gear 2, the panel 1 or the transmission gear 3 is provided with a return torsion spring 401, one contact end of the return torsion spring 401 directly or indirectly contacts the panel 1, and the other contact end of the return torsion spring 401 directly or indirectly contacts the transmission gear 3.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the device further comprises a linkage sleeve 17, the linkage sleeve 17 is fixedly installed on the rotating seat 19, the driving gear 5 is movably sleeved on the rotating seat 19, the linkage column 9 is movably installed on the driving gear 5, and a linkage groove 1701 adapted to the linkage column 9 is formed in the linkage sleeve 17.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the device further includes a push rod 10, a motor 11 and a key device, the push rod 10 is movably disposed on the panel 1, the motor 11 and the key device 12 are both disposed on the panel 1, the motor 11 and the key device 12 are used for pushing the push rod 10 to move on the panel 1, and the panel 1 pushes the linking column 9 to be matched with the linking groove 1701 through the movement of the panel 1.

As shown in fig. 1, 2, 3 and 4, there are two linking grooves 1701, the two linking grooves 1701 are aligned, two blocking corners 501 are arranged on the driving gear 5, a blocking column 8 is detachably fixed on the rotating seat 19, and the blocking column 8 is used for abutting against one of the blocking corners 501.

The two blocking angles 501 are in a straight line, and the straight line formed by the two blocking angles 501 is perpendicular to the straight line formed by the two linking grooves 1701. Because the existing door is divided into a left-open type and a right-open type, when the left-open type and the right-open type are switched, the handle 14 needs to be rotated by 180 degrees, in the design, when the left-open type is switched to the right-open type, the blocking column 8 is disassembled from the rotating seat 19, then the rotating seat 19 and the handle 14 are rotated by 180 degrees together, and then the blocking column 8 is installed on the rotating seat 19. Since the drive gear 5 is not rotated in this process, if the shift-forward column 8 is used against the left-hand corner 501, the shift-backward is used against the right-hand corner 501.

As shown in fig. 1, 2, 3 and 4, the portable electronic device further includes a cover plate 13, the cover plate 13 and the panel 1 are detachably fitted together to form a cavity, and the cover plate 13 is provided with a sliding hole for the wire 6 to slide.

The cover 13 mainly serves to cover the various components in the panel 1. Because the conducting wire 6 slightly moves in the rotating process of the handle 14, the sliding hole is arranged to facilitate the sliding of the conducting wire 6 and limit the conducting wire 6.

The handle 14 and the rotating seat 19 are detachably fixed together through a bolt 15, the bolt 15 is located in a through hole 1901 of the rotating seat 19, and a plaque 16 for covering the bearing 18 is further installed on the panel 1.

The above only is the preferred embodiment of the present invention, not therefore the limit the patent protection scope of the present invention, all applications the equivalent structure transformation made by the contents of the specification and the drawings of the present invention is directly or indirectly applied to other related technical fields, and all the same principles are included in the protection scope of the present invention.

Claims (9)

1. A handle wire-passing structure of a fingerprint lock, which comprises a handle, a panel, a rotating seat and a reset torsion spring, the handle is provided with a fingerprint head, the fingerprint head is connected with a conducting wire, the handle is rotatably arranged on the panel through a rotating seat, the handle is fixedly matched with the rotating seat, the reset torsion spring is sleeved on the rotating seat or the handle and is used for directly or indirectly driving the handle to rotate and then reset, it is characterized in that the lead is a cylindrical lead, a through hole is arranged at the rotating axis of the rotating seat, and a through hole is arranged on the hole wall of one side of the through hole, a cavity is formed between the rotating seat and the handle, the two ends of the through hole are respectively communicated with the through hole and the accommodating cavity, the through hole and the through hole are all wire channels, a soft rubber ring is arranged in the through hole, and the wire is located in the soft rubber ring.

2. The fingerprint lock handle threading structure of claim 1, wherein the rotating seat is provided with a protruding post, the handle is provided with a concave hole, the protruding post is partially located in the concave hole, and the cavity is located between the concave hole and the protruding post.

3. The handle cable passing structure of the fingerprint lock as claimed in claim 2, further comprising a bearing, wherein the bearing is rotatably sleeved on the protruding post of the rotating base, and the bearing is located between the panel and the protruding post.

4. The fingerprint lock handle cable passing structure according to claim 2, wherein the return torsion spring is sleeved on the protruding post of the rotating seat, and one abutting end of the return torsion spring abuts against the rotating seat directly or indirectly, and the other abutting end of the return torsion spring abuts against the panel directly or indirectly.

5. The fingerprint lock handle threading structure of claim 1, further comprising a driving gear, a transmission gear and an unlocking gear, wherein the transmission gear and the unlocking gear are directly or indirectly rotatably disposed on the panel, the driving gear is directly or indirectly fixedly mounted on the rotating seat, the transmission gear is meshed with the driving gear and the unlocking gear and is matched with the driving gear, a return torsion spring is disposed on the panel or the transmission gear, one abutting end of the return torsion spring directly or indirectly abuts against the panel, and the other abutting end of the return torsion spring directly or indirectly abuts against the transmission gear.

6. The handle cable passing structure of the fingerprint lock as claimed in claim 5, further comprising a linking sleeve, wherein the linking sleeve is fixedly installed on the rotating base, the driving gear is movably sleeved on the rotating base, the driving gear is movably installed with a linking post, and the linking sleeve is provided with a linking groove adapted to the linking post.

7. The handle wire passing structure of the fingerprint lock as claimed in claim 6, further comprising a push rod, a motor and a key device, wherein the push rod is movably disposed on the panel, the motor and the key device are both disposed on the panel, the motor and the key device are used for pushing the push rod to move on the panel, and the panel pushes the linking column to be matched with the linking groove through the movement of the panel.

8. The handle wire passing structure of the fingerprint lock as claimed in claim 6, wherein the number of the linking grooves is two, and the two linking grooves are aligned, the driving gear is provided with two blocking angles, the rotating base is detachably fixed with a blocking pillar, and the blocking pillar is used for abutting against one of the blocking angles.

9. The fingerprint lock handle cable threading structure of claim 1, further comprising a cover plate, wherein the cover plate and the panel are detachably matched together to form a cavity, and the cover plate is provided with a sliding hole for a wire to slide.

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