CN217439739U - Lock storehouse device and automatic equipment of sealing of executing - Google Patents

Abstract

The present disclosure provides a lock storehouse device and automatic equipment of sealing of executing. The lock cabin device comprises a lock cabin main body and an opening and closing unit, wherein the lock cabin main body is provided with an accommodating cavity and an electronic lock output port. The opening and closing unit includes: the opening and closing unit triggering piece can move back and forth between a lock releasing triggering initial position and a lock releasing triggering ending position along a first direction relative to the lock cabin body; the opening and closing unit stop piece can move back and forth between a stop position and an avoidance position along a second direction forming an included angle with the first direction relative to the lock bin main body; and an opening/closing unit link mechanism through which the opening/closing unit stopper is drivingly connected to the opening/closing unit trigger, the opening/closing unit link mechanism being configured to: the opening and closing unit stop piece is positioned at a stop position at the unlocking triggering initial position of the opening and closing unit triggering piece; the opening/closing unit stopper is located at a retreating position at a lock release/trigger end position of the opening/closing unit trigger. The bin locking device has the advantages of simplified structure, smaller size and lower cost.

Description

Lock storehouse device and automatic equipment of sealing of executing

Technical Field

The present disclosure relates to luggage processing equipment, and in particular, to a locking device and an automatic sealing device.

Background

An automatic sealing device is a device for automatically binding a customs electronic lock (also called an electronic lock) on a passenger's consignment luggage. Automatic sealing equipment generally comprises a cabin locking device, and a plurality of electronic locks are stored in the cabin locking device for standby. When luggage needs to be locked, the electronic lock is taken out from the accommodating cavity of the lock cabin device, and the opening and closing unit of the lock cabin device opens the electronic lock outlet communicated with the accommodating cavity to enable the electronic lock to be output. The electronic lock will charge when holding in the chamber waiting to use, and the contact that charges that needs the charging unit of lock storehouse device is connected with the interface that charges of electronic lock.

The opening and closing unit and the charging unit of the lock bin device in the related art are integrated with a lock bin main body with an accommodating cavity, the opening and closing element of the opening and closing unit is driven by a driving mechanism consisting of an electric push rod and a lever, and the charging contact of the charging unit is fixed on the lock bin main body.

In implementing the present disclosure, the inventors found that the above related art bin locking device has the following disadvantages:

the electric push rod and the lever of the opening and closing unit occupy larger space, and the whole cabin locking device has larger volume and mass and is inconvenient to carry.

The charging contact is fixed on the lock cabin body, in order to ensure the stable contact of the charging contact, a certain contact force is required between the charging contact and the lock cabin body, and the charging contact with the contact force is large to obstruct the output of the electronic lock, so that the electronic lock is blocked easily and cannot output.

SUMMERY OF THE UTILITY MODEL

The invention aims to provide a bin locking device and automatic sealing equipment which are simplified in structure, small in size and low in cost.

The first aspect of the present disclosure provides a lock storehouse device for storing and releasing electronic lock, including lock storehouse main part and switching unit, the lock storehouse main part have be used for holding the electronic lock hold the chamber and with hold the electronic lock delivery outlet of chamber intercommunication, the switching unit includes:

the opening and closing unit triggering piece is arranged in a reciprocating manner along a first direction between a lock releasing triggering initial position and a lock releasing triggering ending position relative to the lock cabin body;

the opening and closing unit stop piece is arranged in a reciprocating manner between a stop position and an avoidance position along a second direction forming an included angle with the first direction relative to the lock bin main body; and

an opening and closing unit linkage through which the opening and closing unit stopper is drivingly connected with the opening and closing unit trigger, wherein the opening and closing unit linkage is configured to: the opening and closing unit stop piece is positioned at the stop position at the unlocking triggering initial position of the opening and closing unit triggering piece so as to close the output port of the electronic lock; and the unlocking unit stop piece is positioned at the avoiding position at the unlocking triggering termination position of the unlocking unit triggering piece so as to open the output port of the electronic lock.

In the magazine locking device of some embodiments, the opening and closing unit linkage mechanism includes:

the opening and closing unit linkage rod is connected with the opening and closing unit trigger piece to move along with the opening and closing unit trigger piece; and

the opening and closing unit linkage rod is arranged in the stop piece driving groove in a sliding mode along the extending direction of the stop piece driving groove, and the extending direction of the stop piece driving groove is obliquely arranged relative to the first direction and the second direction.

In the magazine locking device of some embodiments, the opening and closing unit further includes an opening and closing unit trigger guide structure that guides movement of the opening and closing unit trigger.

In the lock-bin device of some embodiments,

the opening and closing unit trigger piece comprises an opening and closing unit trigger rod;

the opening and closing unit trigger piece guide structure comprises one or more than two opening and closing unit guide sleeves in sliding fit with the opening and closing unit trigger rod.

In the lock-bin device of some embodiments,

the opening and closing unit comprises an opening and closing unit shell, and at least one opening and closing unit guide sleeve in the one or more than two opening and closing unit guide sleeves is arranged on the opening and closing unit shell; and/or

The lock storehouse device including set up in lock storehouse main part the lock storehouse main part mounting panel of electronic lock delivery outlet one side, at least one switching unit uide bushing is established in the switching unit uide bushing more than one or two is arranged on the lock storehouse main part mounting panel.

In the lock case device of some embodiments, the opening/closing unit further includes an opening/closing unit returning mechanism configured to apply a force to the opening/closing unit trigger so that it tends to move toward the unlock trigger initial position.

In the magazine locking device of some embodiments, the opening and closing unit further includes a stopper guide structure guiding movement of the opening and closing unit stopper.

In the magazine locking device of some embodiments, the stopper guide structure includes an opening-closing unit guide groove slidably fitted with the opening-closing unit stopper.

In the lock storehouse device of some embodiments, the switching unit includes the switching unit casing, the lock storehouse device is including setting up in lock storehouse main part the electronic lock delivery outlet one side lock storehouse main part mounting panel, the guide way set up in the switching unit casing with lock between the storehouse main part mounting panel.

In the lock magazine apparatus of some embodiments, further comprising a charging unit configured to charge the electronic lock within the receiving cavity, the charging unit comprising:

the charging unit trigger is arranged in a reciprocating manner along the first direction between a power-off trigger initial position and a power-off trigger termination position relative to the lock cabin body;

the contact mounting piece is arranged in a reciprocating manner between a charging position and a power-off position along a third direction forming an included angle with the first direction relative to the lock bin main body, and a contact circuit board is mounted on the contact mounting piece and comprises a charging contact connected with a charging interface of the electronic lock; and

a charging unit linkage through which the contact mounting is drivingly connected with the charging unit trigger, wherein the charging unit linkage is configured to: at the power-off triggering initial position of the charging unit triggering part, enabling the contact mounting part to be at the charging position, so that the charging contact is at a position connected with a charging interface of the electronic lock in the accommodating cavity; at the power-off trigger termination position of the charging unit trigger, the contact mounting member is brought to the power-off position to bring the charging contact to a position of disconnection from a charging interface of the electronic lock in the accommodating cavity.

In the bin locking device of some embodiments, the charging unit linkage comprises:

the charging unit linkage rod is connected with the charging unit triggering piece to move along with the charging unit triggering piece; and

the contact mounting piece driving part is connected to the contact mounting piece, the contact mounting piece driving part is provided with a contact mounting piece driving groove, the charging unit linkage rod is slidably arranged in the contact mounting piece driving groove along the extending direction of the contact mounting piece driving groove, and the extending direction of the contact mounting piece driving groove is obliquely arranged relative to the first direction and the third direction.

In some embodiments of the lockbox apparatus, the charging unit further comprises a charging unit trigger guide structure that guides movement of the charging unit trigger.

In the lock-bin device of some embodiments,

the charging unit trigger piece comprises a charging unit trigger rod;

the charging unit trigger piece guide structure comprises one or more than two charging unit guide sleeves in sliding fit with the charging unit trigger rod.

In the lock-bin device of some embodiments,

the charging unit comprises a charging unit shell, and at least one charging unit guide sleeve in the one or more than two charging unit guide sleeves is arranged on the unit shell; and/or

The lock storehouse device including set up in lock storehouse main part the lock storehouse main part mounting panel of electronic lock delivery outlet one side, at least one charging unit uide bushing is established in the more than one or two charging unit uide bushings lock storehouse main part mounting panel is last.

In the bin lock device of some embodiments, the charging unit further comprises a charging unit reset mechanism configured to apply a force to the charging unit trigger tending to move it toward the power-off trigger initial position.

In some embodiments, the magazine apparatus further comprises a contact mount guide structure that guides movement of the contact mount.

In the lock-bin device of some embodiments, the contact mount guide structure comprises:

the contact mounting piece guide hole is arranged on the contact mounting piece; and

and the contact mounting piece guide rod is arranged on the lock bin main body and is in sliding fit with the contact mounting piece guide hole.

In the lock-bin device of some embodiments, further comprising a contact mount reset mechanism configured to apply a force to the contact mount tending to move it toward the charging position.

In the lock cabin device of some embodiments, in the first direction, a distance between an end surface of the trigger end of the charging unit trigger at the power-off trigger initial position and the output port of the electronic lock is greater than a distance between an end surface of the trigger end of the opening and closing unit trigger at the lock-out trigger initial position and the output port of the electronic lock.

The second aspect of the present disclosure provides an automatic sealing device, including the lock cabin device of the first aspect of the present disclosure.

In some embodiments, the automatic sealing device further includes a movable supporting plate, the movable supporting plate is disposed in a manner of being capable of reciprocating in the first direction with respect to the lock chamber main body, the movement of the movable supporting plate drives the opening and closing unit trigger to move, and at the lock releasing trigger termination position of the opening and closing unit trigger, the movable supporting plate receives the electronic lock output from the electronic lock output port.

In some embodiments, the automatic sealing device further comprises a locking unit, and the movement of the movable supporting plate drives the charging unit trigger to move.

Based on this a lock storehouse device that this disclosure provided, its switching unit need not to set up electric putter and lever, can cooperate the get lock mechanism (if the activity layer board uses) of the automatic device of sealing, and the structure is simplified, and the size is less, and the cost is lower.

Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the disclosure and together with the description serve to explain the disclosure and not to limit the disclosure. In the drawings:

fig. 1 is a schematic structural diagram of a bin locking device according to an embodiment of the present disclosure.

Fig. 2 is a schematic sectional structural view of the magazine locking device of the embodiment shown in fig. 1.

Fig. 3 is a partial structural schematic diagram of the embodiment shown in fig. 1.

Fig. 4 is a partial structural schematic view of the magazine locking device of the embodiment shown in fig. 1.

Fig. 5 is a schematic structural view of a combined structure of a stopper and a stopper driving part of the magazine locking device of the embodiment shown in fig. 1.

Fig. 6 to 9 are schematic sectional structural views of the lock chamber device of the embodiment shown in fig. 1 at different stages of the unlocking process.

Fig. 10 is a partial structural schematic diagram of the embodiment shown in fig. 1.

Fig. 11 is a schematic structural diagram of a combined structure of the contact mounting piece of the magazine locking device of the embodiment shown in fig. 1, and the contact circuit board and the contact mounting piece driving part thereon.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

The relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present disclosure unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the description of the present disclosure, it should be understood that the terms "first", "second", etc. are used to define the components, and are used only for convenience of distinguishing the corresponding components, and if not otherwise stated, the terms have no special meaning, and thus, should not be construed as limiting the scope of the present disclosure.

In the description of the present disclosure, it is to be understood that the orientation or positional relationship indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the orientation or positional relationship shown in the drawings, and are presented only for the convenience of describing and simplifying the disclosure, and in the absence of a contrary indication, these directional terms are not intended to indicate and imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be taken as limiting the scope of the disclosure; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Fig. 1-11 illustrate a lockbin device of some embodiments of the present disclosure. The lock chamber device is used for storing and releasing the electronic lock L.

As shown in fig. 1 to 11, the magazine locking device of this embodiment mainly includes a magazine locking body 1 and an opening and closing unit 2.

The lock chamber body 1 has an accommodating chamber 1A for accommodating the electronic lock L and an electronic lock output port 1B communicating with the accommodating chamber 1A.

The opening/closing unit 2 mainly includes an opening/closing unit trigger 21, an opening/closing unit stopper 22, and an opening/closing unit link mechanism. The opening/closing unit trigger 21 is disposed to be reciprocally movable in the first direction Z between an unlock trigger initial position and an unlock trigger final position with respect to the lock case body 1. The opening/closing unit stopper 22 is provided reciprocally movable between a stopper position and a retreat position in a second direction X forming an angle with the first direction Z with respect to the magazine main body 1.

The opening/closing unit stopper 22 is drivingly connected to the opening/closing unit trigger 21 through an opening/closing unit link mechanism. The opening-closing unit linkage mechanism is configured to: the opening and closing unit stopper 22 is in the stopping position at the unlocking triggering initial position of the opening and closing unit triggering member 21 to close the electronic lock output port 1B; the opening/closing unit stopper 22 is brought to the retreat position at the lock release termination position of the opening/closing unit trigger 21 to open the electronic lock outlet 1B.

The opening and closing unit of the bin locking device disclosed by the embodiment of the disclosure does not need to be provided with an electric push rod and a lever, can be matched with a locking mechanism (used as a movable supporting plate) of an automatic sealing device, and has the advantages of simplified structure, smaller size and lower cost.

As shown in fig. 2 to 10, in the magazine locking device of some embodiments, the opening and closing unit interlocking mechanism includes an opening and closing unit interlocking lever 25 and a stopper driving part 26. The opening and closing unit interlocking lever 25 is connected to the opening and closing unit trigger 21 to follow the movement of the opening and closing unit trigger 21. The stopper driving part 26 is connected to the opening and closing unit stopper 22, the stopper driving part 26 has a stopper driving groove 261, the opening and closing unit interlocking bar 25 is slidably disposed in the stopper driving groove 261 along an extending direction of the stopper driving groove 261, and the extending direction of the stopper driving groove 261 is obliquely disposed with respect to both the first direction Z and the second direction X. The stopper drive portion 26 is, for example, a drive plate, and the stopper drive groove 261 is, for example, a long hole provided in the drive plate.

In the embodiment shown in fig. 1 to 11, the first direction Z and the second direction X are perpendicular to each other.

The opening and closing unit linkage mechanism comprises the opening and closing unit linkage rod 25 and the stop piece driving part 26, can realize stable linkage between the opening and closing unit trigger piece 21 and the stop piece driving part 26, and is favorable for reliably realizing opening and closing operation of the output port 1B of the electronic lock through the movement of the opening and closing unit trigger piece 21.

As shown in fig. 2 to 4 and 6 to 9, in the magazine locking device of some embodiments, the opening and closing unit 2 further includes an opening and closing unit trigger guide structure that guides the movement of the opening and closing unit trigger 21.

As shown in fig. 2 to 4, 6 to 9, in the lock case device of some embodiments, the opening/closing unit trigger 21 includes an opening/closing unit trigger lever. The opening and closing unit trigger piece guide structure comprises one or more than two opening and closing unit guide sleeves in sliding fit with the opening and closing unit trigger rod.

As shown in fig. 2 to 4, 6 to 9, in the magazine locking device of some embodiments, the opening and closing unit 2 includes an opening and closing unit housing 29, and at least one opening and closing unit guide sleeve 23A of one or more than two opening and closing unit guide sleeves is provided on the opening and closing unit housing 29; and/or the lock storehouse device is including setting up lock storehouse main part mounting panel 4 in lock storehouse main part 1's electronic lock delivery outlet 1B one side, and at least one switching unit uide bushing 23B in the switching unit uide bushing of one or more than two sets up on lock storehouse main part mounting panel 4.

The arrangement of the guide structure of the opening and closing unit trigger makes the motion path and the working position of the opening and closing unit trigger and the stop piece driving part 26 linked with the opening and closing unit trigger more accurate and stable, and is favorable for reliably realizing the opening and closing control of the output port 1B of the electronic lock through the movement of the opening and closing unit trigger 21.

As shown in fig. 2 to 4, 6 to 9, in the lock magazine device of some embodiments, the opening-and-closing unit 2 further includes an opening-and-closing unit returning mechanism 24, and the opening-and-closing unit returning mechanism 24 is configured to apply a force to the opening-and-closing unit trigger 21 so that it tends to move toward the lock trigger initial position.

The opening/closing unit returning mechanism 24 includes, for example, a compression spring, and the compression spring may be fitted over the opening/closing unit trigger lever.

The opening/closing unit returning mechanism 24 facilitates automatic returning of the opening/closing unit trigger 21 without providing a special driving mechanism or performing related operations for switching the operating position of the opening/closing unit trigger 21.

As shown in fig. 2 to 4, and 6 to 9, in the magazine locking device of some embodiments, the opening and closing unit 2 further includes a stopper guide structure guiding the movement of the opening and closing unit stopper 22.

As shown in fig. 2 to 4, 6 to 9, in the magazine locking device of some embodiments, the stopper guide structure may include an opening and closing unit guide groove G slidably fitted with the opening and closing unit stopper 22. For example, the opening/closing unit 2 includes an opening/closing unit case 29, the lock magazine device includes a lock magazine main body mounting plate 4 provided on the electronic lock output port 1B side of the lock magazine main body 1, and the guide groove G is provided between the opening/closing unit case 29 and the lock magazine main body mounting plate 4. As shown in fig. 1 to 3, the guide groove G is opened on the surface of the magazine main body mounting plate 4 on the side of the magazine main body 1.

As shown in fig. 1, 4, 10 to 11, in some embodiments of the magazine locking device, the magazine locking device further includes a charging unit 3. The charging unit 3 is configured to charge the electronic lock L in the housing chamber 1A.

The charging unit 3 mainly includes a charging unit trigger 31, a contact mounting member 32, and a charging unit link mechanism.

The charging unit trigger 31 is disposed to be movable back and forth between a power-off trigger initial position and a power-off trigger end position in the first direction Z with respect to the lock case body 1.

Contact installed part 32, but for lock storehouse main part 1 along the third direction Y who forms the contained angle with first direction Z set up reciprocating motion between position and outage position, install contact circuit board 3A on the contact installed part 32, contact circuit board 3A includes the contact 31A that charges that is used for being connected with the interface that charges of electronic lock L.

The contact mounting member 32 is drivingly connected to the charging unit trigger 31 via a charging unit linkage. The charging unit linkage is configured to: at the power-off triggering initial position of the charging unit triggering part 31, the contact mounting part 32 is made to be at the charging position, so that the charging contact 31A is in a position connected with the charging interface of the electronic lock L in the accommodating cavity 1A; in the power-off trigger end position of the charging unit trigger 31, the contact mounting member 32 is brought into the power-off position to bring the charging contact 31A into a position of being disconnected from the charging interface of the electronic lock L in the housing chamber 1A.

When the electronic lock is output by the lock cabin body, the charging unit trigger piece 31 acts to enable the charging contact to be completely separated from the charging interface of the electronic lock, so that the electronic lock is more smoothly output and more reliable in action.

As shown in fig. 1, 4, 10, in some embodiments of the magazine locking device, the charging unit linkage mechanism includes a charging unit linkage rod 35 and a contact mount drive 36. The charging unit linkage 35 is connected to the charging unit trigger 31 to move with the charging unit trigger 31. The contact-mount driving section 36 is connected to the contact mount 32. The contact mount driving part 36 has a contact mount driving groove 361. The charging unit linkage 35 is slidably disposed in the contact mount driving groove 361 in an extending direction of the contact mount driving groove 361. The extending direction of the contact mount driving groove 361 is obliquely arranged with respect to both the first direction Z and the third direction Y.

The contact mount driving groove 361 is, for example, a driving plate, and the contact mount driving groove 361 is, for example, a long hole provided in the driving plate.

In the embodiment shown in fig. 1 to 11, the first direction Z and the third direction Y are perpendicular to each other. The third direction Y and the second direction X are also perpendicular to each other.

The charging unit linkage mechanism comprises a charging unit linkage rod 35 and a contact mounting piece driving portion 36, stable linkage between the charging unit trigger piece 31 and the contact mounting piece driving portion 36 can be achieved, and connection and disconnection control of the charging contact 31A and a charging interface of the corresponding electronic lock L can be achieved reliably through movement of the charging unit trigger piece 31.

As shown in fig. 4 and 10, in some embodiments of the magazine locking device, the charging unit 3 further includes a charging unit trigger guide structure that guides the movement of the charging unit trigger 31.

As shown in fig. 4 and 10, in some embodiments of the magazine locking device, the charging unit trigger 31 includes a charging unit trigger lever; the charging unit trigger guide structure comprises one or more than two charging unit guide sleeves in sliding fit with the charging unit trigger rod.

As shown in fig. 4 and 10, in some embodiments of the magazine locking device, the charging unit 3 includes a charging unit housing 39, and at least one charging unit guide sleeve 33A of one or more charging unit guide sleeves is disposed on the unit housing 29; and/or the lock storehouse device is including setting up lock storehouse main part mounting panel 4 in lock storehouse main part 1's electronic lock delivery outlet 1B one side, and at least one charging unit uide bushing 33B in the charging unit uide bushing of one or two above sets up on lock storehouse main part mounting panel 4.

The arrangement of the charging unit trigger piece guide structure enables the movement path and the working position of the charging unit trigger piece 31 and the contact mounting piece driving portion 36 linked with the charging unit trigger piece to be more accurate and stable, and the charging contact 31A and the corresponding electronic lock L are reliably connected and disconnected for operation through the movement of the charging unit trigger piece 31.

As shown in fig. 4 and 10, in the magazine locking device of some embodiments, the charging unit 3 further includes a charging unit returning mechanism 34, and the charging unit returning mechanism 34 is configured to apply a force to the charging unit trigger 31 so that it tends to move toward the power-off trigger initial position.

The charging unit return mechanism 34 includes, for example, a compression spring that may be sleeved over the charging unit trigger lever.

The charging unit resetting mechanism 34 facilitates automatic resetting of the charging unit trigger 31 without requiring a special driving mechanism or performing related operations for switching the operating position of the charging unit trigger 31.

As shown in fig. 4 and 10, in some embodiments of the magazine apparatus, the magazine apparatus further includes a contact mount guide structure that guides movement of the contact mount 32.

As shown in fig. 4 and 10, in some embodiments of the lockhouse device, the contact mount guide structure includes contact mount guide holes and contact mount guide bars 37. The contact mount guide holes are provided on the contact mount 32. The contact mount guide bar 37 is mounted on the lock housing body 1 and is in sliding fit with the contact mount guide hole.

Contact installed part guide structure does benefit to the motion path and the operating position of contact installed part 32 more accurate, stable, does benefit to reliably to realize charging contact 31A and the connection and the disconnection of the interface that charges of the electronic lock L that corresponds and controls.

In some embodiments of the magazine apparatus, as shown in fig. 4 and 10, the magazine apparatus further comprises a contact mount return mechanism 38, the contact mount return mechanism 38 being configured to apply a force to the contact mount 32 tending to move it towards the charging position.

The contact mount return mechanism 38 includes, for example, a compression spring that can be fitted over the contact mount guide rod 37.

The contact mount reset mechanism 38 facilitates automatic resetting of the contact mount 32 without requiring a special drive mechanism or performing related operations to switch the operating position of the contact mount 32.

As shown in fig. 4 and 10, in the lock magazine device of some embodiments, in the first direction Z, the distance between the end surface of the trigger end of the charging unit trigger 31 in the power-off trigger initial position and the output port 1B of the electronic lock is greater than the distance between the end surface of the trigger end of the opening and closing unit trigger 21 in the lock-out trigger initial position and the output port 1B of the electronic lock.

This setting does benefit to the electronic lock L that locates at electronic lock delivery outlet 1B and leaves the whole in-process of electronic lock delivery outlet 1B contact 31A that charges all be in with the state of the electronic lock L's that corresponds interface disconnection that charges to it is more smooth and easy to do benefit to the output of electronic lock L, and the action is more reliable.

The embodiment of the disclosure further provides an automatic sealing device, which comprises the cabin locking device of the embodiment of the disclosure.

The automatic sealing equipment of the embodiment of the disclosure has the advantages of the bin locking device of the embodiment of the disclosure.

As shown in fig. 2, 6 to 9, in some embodiments of the automatic sealing apparatus, the automatic sealing apparatus further includes a movable blade 5, and the movable blade 5 is reciprocally disposed in the first direction Z with respect to the lock chamber body 1. The movement of the movable supporting plate 5 drives the opening and closing unit trigger 21 to move, and the movable supporting plate 5 receives the electronic lock L output from the electronic lock output port 1B at the lock-out trigger termination position of the opening and closing unit trigger 21.

The movement of the opening and closing unit trigger piece 21 is realized by the action of the movable supporting plate 5, so that the electronic lock is output, an independent power device is not required to be provided for opening the output port 1B of the electronic lock, the structure and the control are simplified, and the overall reliability of the automatic sealing equipment is improved.

In some embodiments of the automatic sealing apparatus, the movement of the movable pallet 5 moves the charging unit trigger 31.

The movement of the charging unit trigger piece 31 is realized by the action of the movable supporting plate 5, so that each charging contact 31A of the charging unit 3 is disconnected with the charging interface of the corresponding electronic lock L, an independent power device is not required to be provided for disconnecting the charging contact 31A, the structure and the control are simplified, and the overall reliability of the automatic sealing equipment is improved.

The magazine locking device and the automatic sealing device according to the embodiment of the present disclosure are further described below with reference to fig. 1 to 11.

The automatic sealing equipment mainly comprises a bin locking device and a movable supporting plate 5.

The bin locking device mainly comprises a bin locking main body 1, an opening and closing unit 2, a charging unit 3 and a bin locking main body mounting plate 4. In this embodiment, the plurality of magazine locking bodies 1 are arranged on the magazine locking body mounting plate 4 along the second direction X. Each lock cabin body 1 is correspondingly provided with two opening and closing units 2 and a charging unit 3. Two opening and closing units 2 corresponding to each lock cabin body 1 are symmetrically arranged on two sides of the lock cabin body 1 along the second direction X.

The lock box body 1 includes a cylindrical structure extending in a first direction Z (vertical direction in the present embodiment) and a cover body covering the cylindrical structure. The inside holding chamber 1A that can hold a plurality of electronic locks L that forms of tube-shape structure, tube-shape structure bottom form the electronic lock delivery outlet 1B. An opening is correspondingly arranged on the lock bin main body mounting plate 4 and corresponds to the electronic lock output port 1B of each lock bin main body 1 so as to prevent the lock bin main body mounting plate 4 from influencing the output of the electronic lock L.

Each opening/closing unit 2 includes an opening/closing unit trigger 21, an opening/closing unit stopper 22, an opening/closing unit link mechanism, an opening/closing unit trigger guide structure, an opening/closing unit returning mechanism 24, a stopper guide structure, and an opening/closing unit case 29.

The part of the opening/closing unit trigger 21 other than the trigger end (lower end in the embodiment shown in fig. 1 to 11), the opening/closing unit stopper 22, the opening/closing unit link mechanism, the opening/closing unit trigger guide structure, the opening/closing unit returning mechanism 24, and the stopper guide structure other than the opening/closing unit trigger 21 are provided in the opening/closing unit case 29. The trigger end of the opening/closing unit trigger 21 is located outside the opening/closing unit case 29 and is triggered by an external force.

The opening and closing unit trigger 21 includes two opening and closing unit trigger levers.

The opening and closing unit stopper 22 includes a stopper plate.

The opening and closing unit link mechanism includes an opening and closing unit link lever 25 and a stopper driving portion 26. The opening and closing unit linkage rod 25 is connected between the two opening and closing unit trigger rods. The stopper driving portion 26 includes two driving plates, which are respectively connected to both ends of the corresponding stopper plates to form a U-shaped structure with the stopper plates. The two driving plates and the corresponding stop plates can be integrally formed.

Each drive plate is provided with an elongated hole as a stopper drive slot 261. The extending direction of the stopper driving groove 261 is disposed obliquely with respect to both the first direction Z and the second direction X. As shown in fig. 2 to 9, the stopper drive groove 261 extends from top to bottom in a direction away from the magazine main body 1.

In the opening and closing unit trigger piece guide structure, two opening and closing unit guide sleeves are arranged in sliding fit with each opening and closing unit trigger rod. One opening/closing unit guide sleeve 23A of the two opening/closing unit guide sleeves is provided on the opening/closing unit housing 29, and one opening/closing unit guide sleeve 23B is provided on the lock case main body mounting plate 4.

The opening and closing unit returning mechanism 24 includes a compression spring. The compression springs and the opening and closing unit trigger rods are sleeved on the opening and closing unit trigger rods in a one-to-one correspondence mode.

The stopper guide structure includes an opening and closing unit guide groove G slidably engaged with the stopper plate. The opening/closing unit guide groove G is provided on the upper surface of the lock case main body attachment plate 4 below the opening/closing unit case 29.

The opening-closing unit trigger lever can slide in the opening-closing unit guide sleeves 23A and 23B. The opening and closing unit linkage rod 25 and the opening and closing unit trigger rod are fixed together and move along with the opening and closing unit trigger rod. The opening and closing unit linkage rod 25 passes through the strip holes of the two corresponding driving plates. When the opening and closing unit trigger rod drives the opening and closing unit linkage rod 25 to move up and down, the opening and closing unit linkage rod 25 drives the driving plate and the stop plate connected with the driving plate to move along the second direction X.

As shown in fig. 10 and 11, the charging unit 3 includes a charging unit trigger 31, a contact mounting member 32, a charging unit interlocking mechanism, a charging unit trigger guide structure, a charging unit returning mechanism 34, a contact mounting member guide structure, a contact mounting member returning mechanism 38, and a charging unit housing 39. The charging unit trigger 31, the contact mount 32, the charging unit linkage, the charging unit trigger guide, the charging unit return mechanism 34, the contact mount guide, and the contact mount return mechanism 38 are all located within the charging unit housing 39, except for the trigger end (lower end in the embodiment shown in fig. 1-11). The trigger end of the charging unit trigger 31 is disposed outside the charging unit housing 39 for requiring external force to trigger.

The charging unit trigger 31 includes two charging unit trigger levers.

The contact mount 32 mounts a plurality of contact circuit boards 3A. The contact circuit board 3A includes a charging contact 31A for connection with a charging interface of the electronic lock L. The number and the positions of the contact circuit boards 3A correspond to the number and the positions of the electronic locks L that can be accommodated in the accommodating chamber 1A. The contact mounts 32 are, for example, contact mounting plates.

The charging unit linkage mechanism includes a charging unit linkage rod 35 and a contact mount drive section 36.

The charging unit linkage rod 35 is connected between the two charging unit trigger rods. The contact mounting member driving part 36 includes two driving plates which are connected to both ends of the corresponding contact mounting plates, respectively, to form a U-shaped structure with the contact mounting plates. The two drive plates and the contact mounting plate can be integrally formed. Each of the driving plates is provided with a long hole as a contact mounting member driving groove 361.

The extending direction of the contact mount driving groove 361 is obliquely arranged with respect to both the first direction Z and the third direction Y. As shown in fig. 10, the contact mount driving groove 361 extends from top to bottom in a direction away from the magazine main body 1.

In the guiding structure of the charging unit trigger piece, two charging unit guiding sleeves are arranged in sliding fit with each charging unit trigger rod. One of the two charging unit guide sleeves 33A is disposed on the charging unit housing 39, and one of the charging unit guide sleeves 33B is disposed on the lock case body mounting plate 4.

The charging unit return mechanism 34 includes a compression spring. The compression springs and the charging unit trigger rods are sleeved on the charging unit trigger rods in a one-to-one correspondence mode.

The contact mount guide structure includes a contact mount guide hole provided on the contact mount 32 and a contact mount guide rod 37 mounted on the magazine main body 1 and slidably fitted with the contact mount guide hole. The number of contact mount guide bars 37 may be set according to the guiding requirements, for example, as shown in fig. 10, three rows of contact mount guide bars 37 are provided along the first direction Z, each row including two contact mount guide bars 37.

The contact mount return mechanism 38 includes a compression spring. The compression springs are sleeved on the contact mounting piece guide rods 37 in one-to-one correspondence with the charging unit trigger rods.

The charging unit trigger lever can slide in the charging unit guide sleeves 33A and 33B. The charging unit linkage rod 35 and the charging unit trigger rod are fixed together and move with the charging unit trigger rod. The charging unit linkage rod 35 passes through the strip holes of the two corresponding driving plates. When the charging unit trigger rod drives the charging unit linkage rod 35 to move up and down, the charging unit linkage rod 35 drives the driving plate and the contact mounting piece 32 connected with the driving plate to move along the third direction Y.

The following describes the unlocking process of the lock chamber device according to the embodiment of the present disclosure with reference to fig. 2 and fig. 6 to 9 as follows:

as shown in fig. 2, at the start of lock taking, the opening/closing unit trigger lever as the opening/closing unit trigger 21 is at the lock release trigger initial position, and correspondingly, the stopper plate as the opening/closing unit stopper 22 is at the stopper position. The charging unit trigger lever as the charging unit trigger 31 is in the power-off trigger initial position, and correspondingly, the contact mounting member 32 is in the charging position, and each charging contact 31A thereon is connected to the charging interface of the corresponding electronic lock L (if there is an electronic lock L in that position).

The movable blade 5 moves relative to the lock case body 1 in the first direction Z toward the side close to the electronic lock output port 1B of the lock case body 1 (upward movement in the embodiment shown in fig. 1 to 11). The movable supporting plate 5 pushes against an end surface (a lower end surface in the embodiment shown in fig. 1 to 11) of the trigger end of the opening and closing unit trigger rod in the upward moving process, and the opening and closing unit trigger rod drives the stop plates of the two opening and closing units 2 to move back to back along the second direction X and gradually separate along with the upward movement of the movable supporting plate 5. The movable supporting plate 5 also pushes against the end face (the lower end face in the embodiment shown in fig. 1 to 11) of the trigger end of the charging unit trigger rod in the upward moving process, the charging unit trigger rod moves upward along with the movable supporting plate 5, the contact mounting member 32 and the charging contact 31A arranged on the contact mounting member are driven to retreat from one side away from the lock cabin body 1 along the third direction Y, and each charging contact 31A is gradually separated from the charging interface of the electronic lock L located in the accommodating cavity 1A.

As shown in fig. 6, the movable blade 5 continues to travel upward to a position where the opening and closing unit trigger lever as the opening and closing unit trigger 21 is at the unlocking trigger end position and correspondingly the stopper plate as the opening and closing unit stopper 22 is at the escape position. The charging unit trigger lever as the charging unit trigger 31 is in the power-off trigger end position, and correspondingly, the contact mounting member 32 is in the power-off position, and each charging contact 31A thereon is disconnected from the charging interface of the corresponding electronic lock L (if there is an electronic lock L in that position). At this time, the two stopper plates of the two opening and closing units 2 corresponding to the same lock magazine body 1 are completely opened, and all the electronic locks L in the housing chamber 1A fall onto the movable pallet 5 together.

As shown in fig. 7, the movable supporting plate 5 starts to move in a direction away from the output port 1B of the electronic lock (in the embodiment shown in fig. 1 to 11, downward movement is performed), the trigger rod of the opening and closing unit moves downward under the action of the compression spring and gravity, and the two stop plates move toward the inside of the lock chamber body in the second direction X and abut against the electronic lock L at the lowest position. At the same time, the charging unit trigger lever starts to move toward the side close to the lock chamber body 1 in the third direction Z under the action of the compression spring serving as the contact mounting piece returning mechanism 24, and accordingly, the contact mounting piece 32 and each charging contact 31A thereon gradually approach the corresponding electronic lock L (if there is an electronic lock L at that position).

As shown in fig. 8, the movable supporting plate 5 continues to move downward, and all the electronic locks L move downward along with the movable supporting plate 5 until the chamfer on the upper portion of the lock body of the lowermost electronic lock L moves to the stop plate, the lowermost electronic lock L no longer blocks the stop plate from moving toward the inside of the lock chamber body 1, and the stop plate reaches the stop position under the driving force of the compression spring serving as the opening and closing unit trigger resetting mechanism 24, and blocks all the electronic locks L above the lowermost electronic lock L. The charging unit trigger lever continues to move in the third direction Z toward the side close to the latch main body 1 under the action of the compression spring as the contact mount return mechanism 24. The charging unit trigger lever continues to move in the third direction Z toward the side close to the lock case body under the action of the compression spring serving as the contact mounting piece returning mechanism 24, and accordingly, the contact mounting piece 32 and each charging contact 31A thereon continue to approach the corresponding electronic lock L (if there is an electronic lock L in this position). As the movable supporting plate 5 continues to move downward, the movable supporting plate is separated from the charging unit trigger lever, the charging unit trigger lever returns to the power-off trigger initial position, correspondingly, the contact mounting member 32 returns to the charging position, and each charging contact 31A on the contact mounting member is connected with the charging interface of the corresponding electronic lock L (if the electronic lock L is located at the position).

At this point, the movable supporting plate 5 takes away the electronic lock L at the lowermost layer in the accommodating cavity 1A, and the lock taking process is completed.

The above embodiments are not intended to limit the present disclosure. For example, each guide structure in the above embodiments may be replaced by another type of guide structure, for example, the guide may be implemented by a linear bearing or a rail-slider mechanism. For another example, the number of the opening and closing units corresponding to each of the magazine main bodies may be 1 or more. For another example, the number of the opening and closing unit linkage rods 25 of each opening and closing unit and the number of the corresponding driving plates may be greater or less. The form of the opening/closing unit stopper or the contact attachment member is not limited to the plate, and may be other forms such as a fork and a grid.

As can be seen from the above description, the magazine locking device and the automatic sealing device of the embodiment of the present disclosure have at least one of the following advantages:

the structure of the bin locking device is simplified, the size is small, and the cost is low.

When the electronic lock is output by the lock cabin body, the charging unit trigger piece acts to enable the charging contact to be completely separated from the charging contact of the electronic lock, so that the electronic lock is more smoothly output and more reliable in action.

The output electronic lock does not need an independent power device, simplifies the structure and control, and improves the overall reliability of the automatic sealing equipment.

Finally, it should be noted that: the above examples are intended only to illustrate the technical solutions of the present disclosure and not to limit them; although the present disclosure has been described in detail with reference to preferred embodiments, those of ordinary skill in the art will understand that: modifications to the embodiments of the disclosure or equivalent replacements of parts of the technical features may be made, which are all covered by the technical solution claimed by the disclosure.

Claims (22)

1. A lock storehouse device for storing and releasing electronic lock (L), characterized by, including lock storehouse main part (1) and switching unit (2), lock storehouse main part (1) have be used for holding electronic lock (L) hold chamber (1A) and with hold electronic lock delivery outlet (1B) that chamber (1A) communicates, switching unit (2) include:

an opening/closing unit trigger (21) which is provided so as to be movable back and forth between an unlocking trigger initial position and an unlocking trigger final position in a first direction (Z) with respect to the lock case body (1);

an opening/closing unit stopper (22) which is provided so as to be movable back and forth between a stopper position and an escape position in a second direction (X) forming an angle with the first direction (Z) with respect to the lock case body (1); and

an opening and closing unit linkage through which the opening and closing unit stopper (22) is drivingly connected with the opening and closing unit trigger (21), wherein the opening and closing unit linkage is configured to: the opening and closing unit stopper (22) is in the stopper position at the unlocking trigger initial position of the opening and closing unit trigger (21) to close the electronic lock output port (1B); and at the unlocking triggering termination position of the opening and closing unit triggering piece (21), enabling the opening and closing unit stop piece (22) to be at the avoidance position so as to open the electronic lock output port (1B).

2. The lock bin device according to claim 1, wherein the opening and closing unit linkage mechanism comprises:

an opening/closing unit linkage rod (25) connected to the opening/closing unit trigger (21) to move along with the opening/closing unit trigger (21); and

a stopper driving part (26) connected to the opening and closing unit stopper (22), the stopper driving part (26) having a stopper driving groove (261), the opening and closing unit linkage rod (25) being slidably disposed in the stopper driving groove (261) along an extending direction of the stopper driving groove (261), the extending direction of the stopper driving groove (261) being obliquely disposed with respect to both the first direction (Z) and the second direction (X).

3. The lock magazine arrangement according to claim 1, characterized in that the opening and closing unit (2) further comprises an opening and closing unit trigger guide structure guiding the movement of the opening and closing unit trigger (21).

4. The lock bin device of claim 3,

the opening and closing unit trigger member (21) includes an opening and closing unit trigger lever;

the opening and closing unit trigger piece guide structure comprises one or more than two opening and closing unit guide sleeves in sliding fit with the opening and closing unit trigger rod.

5. The lock bin device of claim 4,

the opening and closing unit (2) comprises an opening and closing unit shell (29), and at least one opening and closing unit guide sleeve in the one or more than two opening and closing unit guide sleeves is arranged on the opening and closing unit shell (29); and/or

The lock storehouse device including set up in lock storehouse main part (1) lock storehouse main part mounting panel (4) of electronic lock delivery outlet (1B) one side, at least one switching unit uide bushing is established in the switching unit uide bushing of one or two above switching unit uide bushings lock on storehouse main part mounting panel (4).

6. The lock-bin device according to claim 1, wherein the opening-closing unit (2) further comprises an opening-closing unit returning mechanism (24), the opening-closing unit returning mechanism (24) being configured to apply a force to the opening-closing unit trigger (21) that tends to move toward the lock-out trigger initial position.

7. The lock magazine arrangement according to claim 1, characterized in that the opening and closing unit (2) further comprises a stopper guide structure guiding the movement of the opening and closing unit stopper (22).

8. The lock bin device according to claim 7, wherein the stopper guide structure comprises an opening and closing unit guide groove (G) slidably engaged with the opening and closing unit stopper (22).

9. The lock bin device according to claim 8, wherein the opening and closing unit (2) comprises an opening and closing unit housing (29), the lock bin device comprises a lock bin body mounting plate (4) provided on the side of the electronic lock outlet (1B) of the lock bin body (1), and the guide groove (G) is provided between the opening and closing unit housing (29) and the lock bin body mounting plate (4).

10. The lock-bin device according to any one of claims 1 to 9, further comprising a charging unit (3), the charging unit (3) being configured to charge the electronic lock (L) inside the housing cavity (1A), the charging unit (3) comprising:

a charging unit trigger (31) reciprocally movably disposed in the first direction (Z) with respect to the magazine main body (1) between a power-off trigger initial position and a power-off trigger final position;

a contact mounting member (32) which is arranged in a manner of reciprocating motion between a charging position and a power-off position along a third direction (Y) forming an included angle with the first direction (Z) relative to the lock chamber main body (1), wherein a contact circuit board (3A) is mounted on the contact mounting member (32), and the contact circuit board (3A) comprises a charging contact (31A) connected with a charging interface of the electronic lock (L); and

a charging unit linkage through which the contact mount (32) is drivingly connected with the charging unit trigger (31), wherein the charging unit linkage is configured to: -in the power-off triggering initial position of the charging unit trigger (31), bringing the contact mounting (32) in the charging position, so that the charging contact (31A) is in a position of connection with a charging interface of the electronic lock (L) inside the housing cavity (1A); -in the power-off triggering end position of the charging unit trigger (31), bringing the contact mount (32) in the power-off position to bring the charging contact (31A) in a position disconnected from the charging interface of the electronic lock (L) inside the housing cavity (1A).

11. The lock bin device of claim 10 wherein the charging unit linkage comprises:

a charging unit linkage rod (35) connected to the charging unit trigger (31) to move along with the charging unit trigger (31); and

a contact mount drive (36) connected to the contact mount (32), the contact mount drive (36) having a contact mount drive slot (361), the charging unit linkage (35) being slidably disposed within the contact mount drive slot (361) along a direction of extension of the contact mount drive slot (361), the direction of extension of the contact mount drive slot (361) being obliquely disposed relative to both the first direction (Z) and the third direction (Y).

12. The lock magazine device according to claim 10, characterized in that the charging unit (3) further comprises a charging unit trigger guide structure guiding the movement of the charging unit trigger (31).

13. The lock magazine apparatus of claim 12,

the charging unit trigger (31) comprises a charging unit trigger lever;

the charging unit trigger piece guide structure comprises one or more than two charging unit guide sleeves in sliding fit with the charging unit trigger rod.

14. The lock bin device of claim 13,

the charging unit (3) comprises a charging unit shell (39), and at least one charging unit guide sleeve in the one or more than two charging unit guide sleeves is arranged on the unit shell (29); and/or

The lock storehouse device including set up in lock storehouse main part (1) lock storehouse main part mounting panel (4) of electronic lock delivery outlet (1B) one side, at least one charging unit uide bushing is established in the charging unit uide bushing of one or two above is in lock storehouse main part mounting panel (4) are last.

15. The lock-bin device according to claim 10, wherein the charging unit (3) further comprises a charging unit reset mechanism (34), the charging unit reset mechanism (34) being configured to apply a force to the charging unit trigger (31) tending to move it towards the de-energized trigger initial position.

16. The lock-bin device of claim 10 further comprising a contact mount guide structure that guides movement of the contact mount (32).

17. The lock bin device of claim 16 wherein the contact mount guide structure comprises:

a contact mounting piece guide hole provided on the contact mounting piece (32); and

and the contact mounting piece guide rod (37) is arranged on the lock bin main body (1) and is in sliding fit with the contact mounting piece guide hole.

18. The lock-bin device of claim 17 further comprising a contact mount reset mechanism (38), the contact mount reset mechanism (38) being configured to apply a force to the contact mount (32) tending to move it toward the charging position.

19. The lock magazine device according to claim 10, characterized in that in the first direction (Z), the distance between the end face of the trigger end of the charging unit trigger (31) in the power-off trigger initial position and the electronic lock outlet (1B) is greater than the distance between the end face of the trigger end of the opening and closing unit trigger (21) in the lock-out trigger initial position and the electronic lock outlet (1B).

20. An automatic sealing apparatus, comprising a lock magazine device according to any one of claims 1 to 19.

21. The automatic sealing device according to claim 20, further comprising a movable pallet (5), wherein the movable pallet (5) is reciprocally movably disposed along the first direction (Z) with respect to the lock magazine body (1), the movement of the movable pallet (5) drives the opening and closing unit trigger (21) to move, and at the lock release trigger end position of the opening and closing unit trigger (21), the movable pallet (5) receives the electronic lock (L) output from the electronic lock output port (1B).

22. The automatic sealing apparatus according to claim 21, wherein the magazine locking device comprises a charging unit (3), and the movement of the movable pallet (5) moves the charging unit trigger (31).

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