CN210744344U - Electronic lock signal connector and electronic lock - Google Patents

Abstract

The utility model provides an electronic lock signal connector and an electronic lock, wherein the electronic lock signal connector comprises a fixed end and a movable end, and the fixed end is fixedly arranged on one of the door leaf or the door frame; the movable end comprises a sliding block which is arranged on the other of the door leaf or the door frame in a sliding way, corresponding wiring terminals are arranged on the fixed end and the sliding block, and the wiring terminals on the door leaf are connected with an electronic lock fixedly arranged on the door leaf; when the door leaf rotates to the position where the door body is closed and the door frame is formed, the sliding block can slide to the position where the wiring terminal forming the sliding block is connected with the wiring terminal at the fixed end, so that the wiring terminal fixedly arranged on the door frame can transmit signals to the electronic lock through wires to supply power to a circuit in the electronic lock, and the electronic lock is stable and reliable, simple in structure, simple and convenient to install and high in universality.

Description

Electronic lock signal connector and electronic lock

Technical Field

The utility model relates to a safe technical field, in particular to electronic lock signal connector, the utility model discloses still relate to an electronic lock.

Background

An electronic lock is a comprehensive product combining an electronic technology, an integrated circuit design, a large number of electronic components and various innovative identification technologies (including a computer network technology, a built-in software card, a network alarm, a mechanical design of a lock body and the like). The electronic lock is compact and narrow in space structure, but the electronic lock needs a stable power supply to provide energy, the battery needs to be frequently replaced when the battery supplies power, and the electronic lock adopts a wireless charging mode and has the defects of small current, large volume, incapability of transmitting access control signals and the like; the transmission of the existing electronic lock entrance guard signal has the disadvantages of troublesome process, high requirement on a door body, instability and other industrial pain points.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention is directed to an electronic lock signal connector, so as to have a better use effect.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

the utility model provides an electronic lock signal connector installs on a body, just the body includes door frame and door leaf, electronic lock signal connector includes:

the fixed end is fixedly arranged on one of the door leaf or the door frame;

the movable end comprises a sliding block which is arranged on the other of the door leaf or the door frame in a sliding way, opposite wiring terminals are arranged on the fixed end and the sliding block, and the wiring terminals on the door leaf are connected with an electronic lock fixedly arranged on the door leaf; when the door leaf rotates to form the door body with the door frame and is closed, the sliding block can slide to the position where the wiring terminal forming the sliding block is connected with the wiring terminal of the fixed end, so that signals can be transmitted to the electronic lock through the wiring terminal fixedly arranged on the door frame.

Further, the fixed end is fixedly arranged on the door leaf; the movable end comprises a base body fixedly arranged on the door frame, and the slidable sliding block is arranged on the base body.

Further, a position adjusting unit is configured on the fixed end so that the connection terminal on the fixed end is opposite to the connection terminal on the slider.

Furthermore, the position adjusting unit is a long hole formed in the fixed end.

Furthermore, a first magnet group is fixedly arranged on the fixed end, a second magnet group is fixedly arranged on the sliding block, and when the door leaf rotates to form the door body closed together with the door frame, the sliding block can slide due to the adsorption between the first magnet group and the second magnet group.

Further, the first magnet group comprises a first magnet unit and a second magnet unit which are arranged along the thickness direction of the door leaf at intervals and have opposite polarities, the second magnet group comprises a third magnet unit and a fourth magnet unit which are respectively opposite to the first magnet unit and the second magnet unit when the door body is closed, and the polarities of the third magnet unit and the fourth magnet unit are respectively opposite to the polarities of the first magnet unit and the second magnet unit.

Further, the first magnet unit, the second magnet unit, the third magnet unit and the fourth magnet unit include two permanent magnets arranged at intervals in a height direction of the door leaf.

Furthermore, an elastic piece is arranged in driving connection with the sliding block, and the elastic piece is configured to drive the sliding block to slide and return after the door body is opened.

Furthermore, the signal transmitted to the electronic lock by the wiring terminal fixedly arranged on the door frame at least comprises an electric signal for supplying power to a battery in the electronic lock.

Compared with the prior art, the utility model discloses following advantage has:

the electronic lock signal connector of the utility model adopts a split structure, is convenient for installation and wiring, has simple structure and stronger universality by fixedly arranging the fixed end on one of the door leaf or the door frame and arranging the movable end on the other of the door leaf or the door frame; when the door leaf rotates to the door frame to form the door body to be closed, the sliding block at the moving end can slide to the position where the wiring terminal forming the sliding block is connected with the wiring terminal at the fixed end, so that signals can be transmitted to the electronic lock by the wiring terminal fixedly arranged on the door frame, and meanwhile, the electronic lock is stable and reliable in power supply, simple and convenient to install and high in universality.

Another objective of the present invention is to provide an electronic lock, which includes a lock body and a lock catch, wherein one of the lock body and the lock catch is provided with a fixing end of the electronic lock signal connector, and the other of the lock body and the lock catch is provided with a moving end of the electronic lock signal connector.

The utility model discloses an electronic lock has the same beneficial effect with foretell electronic lock signal connector, no longer gives unnecessary details here.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

fig. 1 is a front view of a fixed end 1 of a signal connector of an electronic lock according to a first embodiment of the present invention;

FIG. 2 is a left side cross-sectional view of FIG. 1;

fig. 3 is a front view of the moving end 2 of the signal connector of the electronic lock according to the first embodiment of the present invention;

FIG. 4 is a right side cross-sectional view of FIG. 3;

fig. 5 is a cross-sectional view of the electronic lock signal connector of the first embodiment of the present invention, wherein the fixed end 1 and the movable end 2 are not completely engaged;

fig. 6 is a cross-sectional view of the electronic lock signal connector according to the first embodiment of the present invention, in a state of completely attracting the fixed end 1 and the movable end 2;

description of reference numerals:

1-fixed end, 101-fixed plate, 102-strip hole, 103-substrate, 104-wiring terminal,

105-first magnet set, 1051-first magnet unit, 1052-second magnet unit, 106-wire.

2-moving end, 201-base, 202-second magnet group, 2021-third magnet unit,

2022-fourth magnet unit, 203-connection terminal, 204-mounting hole, 205-connection bar, 206-electric wire,

207-elastic piece, 208-slide block, 209-end face, 210-slide groove.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In addition, for the convenience of description, terms such as first and second are used in this embodiment, and do not limit the present invention.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example one

The present embodiment relates to an electronic lock signal connector, which includes a fixed end 1 and a movable end 2, as shown in fig. 1 to 6, the fixed end 1 is fixed on one of the door frame or the door leaf; the movable end 2 comprises a sliding block 208 which is arranged on the other of the door leaf or the door frame in a sliding way, a connecting terminal 104 and a connecting terminal 203 which are opposite to each other are arranged on the fixed end 1 and the sliding block 208, the connecting terminal 203 on the door leaf is connected with an electronic lock which is fixedly arranged on the door leaf, and the connecting terminal 104 on the fixed end 1 and the connecting terminal 203 on the movable end 2 are respectively and oppositely arranged on the substrate 103 and the sliding block 208; when the door leaf rotates to form the door body with the door frame to be closed, the sliding block 208 can slide to the position where the wiring terminal 203 forming the sliding block 208 is connected with the wiring terminal 104 of the fixed end, and fig. 6 shows the complete attraction state of the fixed end 1 and the moving end 2 of the sliding block 208, so that the wiring terminal 104 fixedly arranged on the door frame can transmit signals to the electronic lock through the electric wire 106.

It should be noted that, in this embodiment, the fixed end 1 is disposed on the door frame, and the movable end 2 is disposed on the door frame for example, the electronic lock signal connector is described, where the fixed end 1 is disposed on the door frame, and the movable end 2 is disposed on the door frame, which have the same principle, and is not described herein again, in this embodiment, a preferred structure of the fixed end 1 is as shown in fig. 1 and fig. 2, and includes a rectangular fixing plate 101, which is fixedly disposed on the door frame through a long hole 102 formed on the fixing plate 101, and the long holes 102 are preferably symmetrically disposed on the fixing plate 101, and also the long hole 102 may be a long hole or a long waist hole, so as to adjust the connection terminal 104 on the fixed end 1, and make the connection terminal 104 on the fixed end 1 opposite to the connection terminal 203 on the slider 208;

remove end 2 including set firmly in base member 201 on the door frame, this base member 201 sets firmly on the door frame through the mounting hole 204 that constructs on the base member, and this mounting hole 204 is symmetrical structure, and preferred quantity is 2. The base 201 is formed with a groove for sliding the slider 208, and the depth of the groove is greater than the length of the slider 208 in the sliding direction.

A first magnet group 105 is fixedly arranged on the substrate 103 of the fixed end 1, as shown in fig. 1 and fig. 2, the substrate 103 is fixedly connected to the fixed plate 101, the first magnet group 105 is symmetrically and fixedly arranged on the substrate 103, preferably 4, the first magnet group 105 is symmetrically and alternately distributed with a first magnet unit 1051 and a second magnet unit 1052 in the thickness direction of the door frame, the polarities of the first magnet unit 1051 and the second magnet unit 1052 are opposite, the two permanent magnets of the first magnet unit 1051 are symmetrically and alternately distributed on the two sides of the wiring terminal 104 in the height direction of the door frame, the polarities of the two permanent magnets of the first magnet unit 1051 are the same, the polarities of the two permanent magnets of the second magnet unit 1052 are symmetrically and alternately distributed on the two sides of the wiring terminal 104 in the height direction of the door frame, and the polarities of the two permanent magnets of the second magnet unit 1052 are the same;

a second magnet group 202 is fixedly arranged on the slider 208 of the moving end 2, as shown in fig. 3 and 4, the second magnet group 202 corresponds to the first magnet group 105 of the fixed end 1, the second magnet group 202 is symmetrically and fixedly arranged on the slider 208, preferably 4, the second magnet group 202 is symmetrically and alternately distributed with third magnet units 2021 and fourth magnet units 2022 in the door leaf thickness direction, the polarities of the third magnet units 2021 and the fourth magnet units 2022 are opposite, two permanent magnets of the third magnet units 2021 are symmetrically and alternately distributed on two sides of the connecting terminal 203 in the door frame height direction, the polarities of two permanent magnets of the third magnet units 2021 are the same, and the polarities of two permanent magnets of the fourth magnet units 2022 are symmetrically and alternately distributed on two sides of the connecting terminal 203 in the door frame height direction, and the polarities of two permanent magnets of the fourth magnet units 2022 are the same;

the first magnet unit 1051 and the second magnet unit 1052 of the fixed end 1 are opposite in polarity to the third magnet unit 2021 and the fourth magnet unit 2022 of the movable end 2, when the door leaf rotates to form the door body with the door frame and is closed, the sliding block 208 can slide due to the attraction force between the first magnet group 105 and the second magnet group 202, when the door is not rotated to close the door body with the door frame, the first magnet unit 1051 of the first magnet set 105 of the fixed end 1 and the fourth magnet unit 2022 of the second magnet set 202 of the moving end 2 have the same polarity, the second magnet unit 1052 of the fixed end 1 first magnet set 105 and the third magnet unit 2021 of the moving end 2 second magnet set 202 have the same polarity, the sliding block 208 of the moving end 2 cannot be pulled out, the sliding block 208 is prevented from touching the doorframe and being damaged, meanwhile, the connection terminal 104 on the fixed end 1 is prevented from being misconnected with the connection terminal 203 on the movable end 2.

The sliding end 2, the sliding block 208 and the base 201 are connected through the connecting rod 205 in a driving manner, the connecting rod 205 is nested in a sliding groove 210 constructed by the sliding block 208, the sliding groove 210 penetrates through the sliding block 208 in the moving direction of the sliding block 208, an elastic member 207 is constructed in the sliding groove 210, one end of the connecting rod 205 penetrates through the elastic member 207 and an end surface 209 of the sliding block 208 to be fixedly connected with the base 201, the connecting rod 205 and the sliding block 208 are non-fixedly connected, one end of the elastic member 207 is abutted against the end surface 209, the other end of the elastic member 207 is abutted against a boss at one end of the connecting rod 205, when the sliding block 208 slides outwards through the groove under the absorption force, the elastic member 207 is compressed to generate the elastic force, the state is shown in fig. 6, when the moving end 2 fixed on the door leaf moves away relative to the fixed end 1 fixed on the door frame, the absorption force between, the reset is completed. The elastic member 207 is preferably a cylindrical compression spring.

In summary, the electronic lock signal connector has a split structure, so that the installation and wiring are convenient, the structure is simple, when the door leaf rotates to the door frame to form the door body to be closed, the sliding block 208 at the moving end 2 can slide to the position where the wiring terminal forming the sliding block 208 is connected with the wiring terminal at the fixed end 1, so that the wiring terminal fixedly arranged on the door frame can transmit signals to the electronic lock, and meanwhile, the power supply is stable and reliable, the installation is simple and convenient, and the universality is strong.

Example two

The present embodiment relates to an electronic lock, which includes a lock body and a lock catch, wherein a fixed end of the signal connector of the electronic lock according to the first embodiment is disposed on one of the lock body and the lock catch, and a movable end of the signal connector of the electronic lock according to the first embodiment is disposed on the other of the lock body and the lock catch.

The electronic lock of the embodiment can obtain better signal transmission and power supply effects by applying the signal connector structure of the electronic lock according to the first embodiment.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an electronic lock signal connector installs on a body, just the body includes door frame and door leaf, its characterized in that, electronic lock signal connector includes:

the fixed end (1) is fixedly arranged on one of the door leaf or the door frame;

the movable end (2) comprises a sliding block (208) which is arranged on the other of the door leaf or the door frame in a sliding way, opposite wiring terminals are arranged on the fixed end and the sliding block (208), and the wiring terminals on the door leaf are connected with an electronic lock fixedly arranged on the door leaf; when the door leaf rotates to form the door body with the door frame and is closed, the sliding block (208) can slide to the position where the wiring terminal forming the sliding block (208) is connected with the wiring terminal of the fixed end, so that the wiring terminal fixedly arranged on the door frame can transmit signals to the electronic lock.

2. The electronic lock signal connector of claim 1, wherein: the fixed end (1) is fixedly arranged on the door leaf; the moving end (2) comprises a base body (201) fixedly arranged on the door frame, and the sliding block (208) is arranged on the base body (201) in a sliding mode.

3. The electronic lock signal connector of claim 2, wherein: a position adjusting unit is constructed on the fixed end (1) so that the wiring terminal on the fixed end (1) is opposite to the wiring terminal on the sliding block (208).

4. The electronic lock signal connector of claim 3, wherein: the position adjusting unit is a long hole (102) formed in the fixed end (1).

5. The electronic lock signal connector of claim 1, wherein: a first magnet group (105) is fixedly arranged on the fixed end (1), a second magnet group (202) is fixedly arranged on the sliding block (208), and when the door leaf rotates to form the door body closed together with the door frame, the sliding block (208) can slide due to the adsorption between the first magnet group (105) and the second magnet group (202).

6. The electronic lock signal connector of claim 5, wherein: the first magnet group (105) comprises a first magnet unit (1051) and a second magnet unit (1052) which are arranged at intervals along the thickness direction of the door leaf and have opposite polarities, the second magnet group (202) comprises a third magnet unit (2021) and a fourth magnet unit (2022) which are respectively opposite to the first magnet unit (1051) and the second magnet unit (1052) when the door body is closed, and the third magnet unit (2021) and the fourth magnet unit (2022) have opposite polarities respectively to the first magnet unit (1051) and the second magnet unit (1052).

7. The electronic lock signal connector of claim 6, wherein: the first magnet unit (1051), the second magnet unit (1052), the third magnet unit (2021), and the fourth magnet unit (2022) include two permanent magnets arranged at an interval in a door-leaf height direction.

8. The electronic lock signal connector of claim 5, wherein: and an elastic piece (207) is arranged in driving connection with the sliding block (208), and the elastic piece (207) is configured to drive the sliding block (208) to slide back after the door body is opened.

9. The electronic lock signal connector of any one of claims 1 to 8, wherein: the signal transmitted to the electronic lock by the wiring terminal fixedly arranged on the door frame at least comprises an electric signal for supplying power to the circuit in the electronic lock.

10. The utility model provides an electronic lock, includes lock body and hasp which characterized in that: a fixed end of the electronic lock signal connector according to any one of claims 1 to 9 is provided on one of the lock body or the lock catch, and a movable end of the electronic lock signal connector according to any one of claims 1 to 9 is provided on the other of the lock body or the lock catch.

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