CN216036216U - Improved storage box - Google Patents

Abstract

The utility model discloses an improved storage box, which relates to the technical field of storage devices and comprises a box body, wherein a storage chamber and a control chamber are arranged in the box body, a storage chamber cover is arranged on the storage chamber, a lock control mechanism matched with the storage chamber cover is arranged in the control chamber, the lock control mechanism comprises a lock rod, a lock block and a control device, the lock rod is hinged in the control chamber, the lock rod is connected with a lock clamping part and a control push rod, a lock groove corresponding to the control push rod is formed in the lock block, a first slide rail is arranged in the control chamber, a first slide block is arranged on the first slide rail in a sliding manner, the lock block is connected to the first slide block, the control device is used for controlling the first slide block to slide on the first slide rail, when a user does not perform control operation on the control device, the storage chamber cover can be freely opened, abnormal locking caused by mistaken touch is avoided, and the use experience is better.

Description

Improved storage box

Technical Field

The utility model relates to the technical field of storage devices, in particular to an improved storage box.

Background

The storage box is used for storing and collecting articles. Storage boxes are also commonly called storage boxes, and storage boxes. The material of the storage box is various, and generally, the storage box is made of plastics, cloth, paper, metal, wood and the like. The actual shape may be varied as needed.

The storing box can set up the tool to lock for the security of guaranteeing the storing usually for lock solid is carried out with the apron lid when the apron lid, reduces and is taken or the risk of stealing by the mistake. Traditional storing box that has a tool to lock is locked by mistake easily, after unlocking promptly: the apron is touched by the mistake and is made the apron lid close on the box body, and the tool to lock can carry out the locking with the apron by oneself, can not respond to the user better and unblank/the true operation of locking, experiences and feels and remains to be improved.

SUMMERY OF THE UTILITY MODEL

The present invention aims to overcome the above-mentioned shortcomings and provide a technical solution to solve the above-mentioned problems.

In order to achieve the purpose, the utility model provides the following technical scheme: an improved storage box comprises a box body, wherein a storage chamber and a control chamber are arranged in the box body, a storage chamber cover is arranged on the storage chamber, and a lock control mechanism matched with the storage chamber cover is arranged in the control chamber; the lock control mechanism comprises a lock rod, a lock block and a control device; the locking rod is hinged in the control chamber and is connected with a locking clamp part and a control push rod; when the lock rod rotates, the locking clamping part and the control push rod are driven to rotate around the hinged part of the lock rod; when the storage chamber cover is closed on the storage chamber: the locking clamping part is provided with a locking state which penetrates out of the control chamber and locks the storage chamber cover in a clamping manner; a locking groove corresponding to the control push rod is formed on the locking block; when the locking clamping part is in a locking state, the locking groove corresponds to the control push rod; a first slide rail is arranged in the control chamber, a first slide block is arranged on the first slide rail in a sliding manner, and the locking block is connected to the first slide block; when the locking clamping part is in a locking state, the first sliding block is in a locking sliding state which enables the locking groove to be clamped with the control push rod on the first sliding rail; the locking groove is clamped with the control push rod and then used for limiting the locking rod to rotate; the control device is used for controlling the first sliding block to slide on the first sliding rail.

As a further scheme of the utility model: the control device comprises a mechanical control module and an electric control module; the mechanical control module comprises a lock body arranged on the control room, a rotating core of the lock body is connected with a shifting piece, and a lock hole of the lock body is communicated with the outside of the control room; a first guide inclined plane corresponding to the shifting sheet is formed on the locking block; when a key of the lock body rotates a rotating core of the lock body to enable the mechanical control module to be in an unlocking control state, the shifting piece pushes the first guide inclined plane to enable the lock block to be driven by the first sliding block to move towards a direction far away from the control push rod; the electric control module comprises a power supply, a controller, an unlocking instruction receiving module and a driving motor, and an eccentric wheel is connected to a rotating shaft of the driving motor; a second guide inclined plane corresponding to the eccentric wheel is formed on the locking block; when the driving motor rotates the eccentric wheel to enable the electric control module to be in an unlocking control state, the far-end of the eccentric wheel pushes the second guide inclined plane to enable the locking block to be driven by the first sliding block to move towards the direction far away from the control push rod; the control device also comprises a first elastic piece matched with the locking block; when the mechanical control module and/or the electric control module are in an unlocking control state, the first elastic piece is pressed by the locking block to perform elastic deformation.

As a further scheme of the utility model: a chamber cover ejecting device is also arranged in the box body; when the locking clamping part is converted into the non-locking state from the locking state, the chamber cover ejecting device is used for ejecting the storage chamber cover.

As a further scheme of the utility model: the chamber cover ejecting device comprises a second slide rail arranged in the control chamber and an ejector rod matched with the storage chamber cover; a second sliding block is arranged on the second sliding rail in a sliding mode, a connecting block is connected onto the second sliding block, and a second elastic piece matched with the connecting block is arranged in the control chamber; a through groove communicated with the storage chamber is formed in the control chamber, one side of the connecting block extends towards the direction of the storage chamber, and one side of the connecting block extends through the through groove, penetrates through the storage chamber and is connected with the ejector rod; when the storage chamber cover is closed on the storage chamber: the storage chamber cover pushes the ejector rod to enable the second sliding block to be located at a sliding position far away from the storage chamber cover on the second sliding rail, and the second elastic piece is pushed by the connecting block to perform elastic deformation.

As a further scheme of the utility model: a microswitch matched with the connecting block is arranged in the control chamber and is electrically connected with the controller; when the second sliding block is positioned at the locked sliding position on the second sliding rail, the micro switch is triggered by the connecting block.

As a further scheme of the utility model: a connecting rod is arranged in the control chamber; when the storage chamber cover is closed on the storage chamber: the connecting block presses down one end of the connecting rod, and the other end of the connecting rod jacks up the control push rod to enable the locking clamping part to be in a locking state.

As a further scheme of the utility model: the unlocking instruction receiving module comprises any one of three instructions of a fingerprint unlocking instruction, a password unlocking instruction and a radio frequency unlocking instruction, or a combination of any two of the three instructions, or all the three instructions.

As a further scheme of the utility model: a third elastic piece matched with the lock rod is arranged in the control chamber; when the locking rod rotates to enable the locking clamping part to be in a locking state, the third elastic piece is pushed by the locking rod to perform elastic deformation.

As a further scheme of the utility model: a locking clamping groove is formed in one side, close to the control chamber, of the storage chamber cover; when the locking clamping part is in a locking state, the locking clamping part is correspondingly clamped into the locking clamping groove.

Compared with the prior art, the utility model has the following beneficial effects: the control device controls the first sliding block to slide to enable the lock groove to be separated from the control push rod, namely when the control device is in an unlocking control state, when the storage chamber cover is touched by mistake to enable the storage chamber cover to be closed on the box body, at the moment, even if the lock rod rotates and enables the locking clamping part to be in a locking state, the lock rod is still in a rotatable state because the control push rod is not clamped with the lock groove, a user can still manually press or push the locking clamping part, the locking clamping part drives the lock rod to rotate reversely, and the locking clamping part is further far away from the storage chamber cover and cannot be locked; when the user is not locking control device, the storage chamber cover can be freely opened, abnormal locking can not be caused due to mistaken touch, and the use experience feeling is better.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the storage compartment of the present invention;

FIG. 3 is a schematic view of the structure of a control room in the present invention;

FIG. 4 is a schematic view of the locking lever of the present invention;

FIG. 5 is an enlarged view of a portion of the structure at A in FIG. 4;

FIG. 6 is a schematic view of the assembly of the locking lever of the present invention;

FIG. 7 is another assembled view of the locking lever of the present invention;

FIG. 8 is a schematic structural view of a lock block of the present invention;

the reference numerals and names in the figures are as follows:

a box body-1, a storage chamber-2, a control chamber-3, a storage chamber cover-4, a lock, a control mechanism-5, a chamber cover ejecting device-6,

a lock bar-51, a lock block-52, a control device-53, a connecting rod-54, a third elastic piece-55,

a second slide rail-61, a second slide block-62, a connecting block-63, a second elastic piece-64 and a mandril-65

A locking clamp part-511, a control push rod-512,

a locking groove-521, a first slide rail-522, a first slide block-523, a first guide inclined surface-524, a second guide inclined surface-525,

the lock comprises a lock body-531, a pull tab-532, a power supply-533, a controller-534, an unlocking instruction receiving module-535, a driving motor-536, an eccentric wheel-537, a first elastic piece-538 and a microswitch-539.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, an improved storage box includes a box body 1, a storage chamber 2 and a control chamber 3 are disposed in the box body 1, a storage chamber cover 4 is disposed on the storage chamber 2, and a lock control mechanism 5 is disposed in the control chamber 3 and is engaged with the storage chamber cover 4. The lock mechanism 5 includes a lock lever 51, a lock block 52, and a control device 53. The lock rod 51 is hinged in the control chamber 3, and the lock rod 51 is connected with a locking clamp part 511 and a control push rod 512; when the lock lever 51 rotates, the locking portion 511 and the control rod 512 are both driven to rotate around the hinge portion of the lock lever 51. When the storage chamber cover 4 is closed on the storage chamber 2: the lock lever 51 is rotated, and the lock locking portion 511 has a lock state of passing through the control chamber 3 and locking the storage chamber cover 4. A locking groove 521 corresponding to the control push rod 512 is formed on the locking block 52; when the locking engagement portion 511 is in the locking state, the locking groove 521 corresponds to the control rod 512. A first slide rail 522 is arranged in the control chamber 3, a first slide block 523 is slidably arranged on the first slide rail 522, and the lock block 52 is coupled to the first slide block 523. When the lock engagement portion 511 is in the locked state, the first slider 523 has a locked sliding state in which the lock groove 521 is engaged with the control lever 512 on the first slide rail 522; the lock slot 521 is engaged with the control push rod 512 to limit the rotation of the lock rod 51; the control device 53 is used for controlling the first slider 523 to slide on the first sliding rail 522.

The control device 53 controls the first slider 523 to slide on the first slide rail 522, and further controls whether the locking groove 521 on the locking block 52 is engaged with the control push rod 512, so as to lock or unlock the storage chamber cover 4.

When the control device 53 controls the first slider 523 to slide to disengage the lock slot 521 from the control rod 512, that is, when the control device 53 is in the unlocking control state: when the storage chamber cover 4 is touched by mistake to cause the storage chamber cover 4 to cover the storage chamber 2, even if the lock rod 51 rotates and enables the locking clamping part 511 to be in a locking state, the lock rod 51 is still in a rotatable state because the control push rod 512 is not clamped with the lock groove 521, a user can still manually press or push the locking clamping part 511, the locking clamping part 511 drives the lock rod 51 to rotate reversely, and then the locking clamping part 511 is far away from the storage chamber cover 4 and cannot be locked. When the user is not performing the locking control operation on the control device 53, the storage chamber cover 4 can be freely opened, so that abnormal locking due to mistaken touching is avoided, and the user experience is better.

Referring to fig. 2-7, the control device 53 includes a mechanical control module and an electrical control module, and a user can perform unlocking/locking control through the mechanical control module or the electrical control module. The mechanical control module comprises a lock body 531 arranged on the control chamber 3, a shifting piece 532 is connected on a rotating core of the lock body 531, and a lock hole of the lock body 531 is communicated with the outside of the control chamber 3; a first guide inclined surface 524 corresponding to the shifting piece 532 is formed on the locking block 52; when the key of the lock body 531 rotates the rotating core of the lock body 531 to make the mechanical control module in the unlocking control state, the dial 532 pushes the first guiding inclined plane 524 to make the lock block 52 driven by the first slider 523 to move in the direction away from the control push rod 512. The electric control module comprises a power supply 533, a controller 534, an unlocking instruction receiving module 535 and a driving motor 536, wherein an eccentric wheel 537 is connected to a rotating shaft of the driving motor 536; a second guide inclined plane 525 corresponding to the eccentric wheel 537 is formed on the locking block 52; when the driving motor 536 rotates the eccentric wheel 537 to make the electronic control module in the unlocking control state, the distal end of the eccentric wheel 537 pushes the second guiding inclined plane 525 to make the locking block 52 moved away from the control push rod 512 by the first sliding block 523. The control device 53 further comprises a first elastic element 538 cooperating with the locking block 52; when the mechanical control module and/or the electronic control module is in the unlocking control state, the first elastic member 538 is pressed by the locking block 531 to be elastically deformed. Preferably, the unlocking instruction receiving module 535 includes any one of three instructions, namely a fingerprint unlocking instruction, a password unlocking instruction and a radio frequency unlocking instruction, or a combination of any two of the three instructions, or all of the three instructions, so that one scheme can be selected for design according to user requirements, and the use is flexible.

Further, a chamber cover ejecting device 6 is also arranged in the box body 1; when the locking portion 511 is turned from the locked state to the unlocked state, the cell lid ejecting device 6 ejects the storage cell lid 4, and the storage cell lid 4 is more easily opened when the lock is unlocked.

Preferably, the chamber lid ejecting device 6 includes a second slide rail 61 disposed in the control chamber 3, and a lift pin 65 engaged with the storage chamber lid 4. A second sliding block 62 is arranged on the second sliding rail 61 in a sliding manner, a connecting block 63 is connected to the second sliding block 62, and a second elastic piece 64 matched with the connecting block 63 is arranged in the control chamber 3; have the logical groove of intercommunication locker 2 on the control room 3, one side of connecting block 63 is connected with ejector pin 65 after extending to penetrate locker 2 through leading to the groove. When the storage chamber cover 4 is closed on the storage chamber 2: the lid 4 pushes the push rod 65 to position the second slider 62 on the second slide rail 61 at a sliding position away from the lid 4, and the second elastic member 64 is pushed by the connecting block 63 to be elastically deformed.

Furthermore, a microswitch 539 matched with the connecting block 63 and/or the eccentric wheel 537 is arranged in the control chamber 3, and the microswitch 539 is electrically connected with the controller 534. When micro-gap switch 539 cooperates with connection block 63: when the second slider 62 is located at the locked sliding position on the second slide rail 61, the microswitch 539 is triggered by the connection block 63. When the microswitch 539 cooperates with the eccentric 537: when the driving motor 536 rotates the eccentric wheel 537 to make the electronic control module in the non-unlocking control state, the micro switch 539 is triggered by the far end of the eccentric wheel 537. The micro switch is arranged, so that the controller 534 of the electric control module can timely obtain whether the storage chamber cover is in a covering state or not, and control drive for unlocking or locking the driving motor is needed, and the control is more accurate.

In the embodiment of the present invention, the control chamber 3 is provided with a link 54. When the storage chamber cover 4 is closed on the storage chamber 2: the connecting block 63 presses down one end of the link 54, and the other end of the link 54 pushes up the control push rod 512 for putting the locking engagement portion 511 in a locking state. The control of the control push rod is more convenient by combining the mechanical control module and the electric control module.

In the embodiment of the present invention, a third elastic member 55 engaged with the lock lever 51 is provided in the control chamber 3. When the lock lever 51 rotates to place the lock latch portion 511 in the locked state, the third elastic member 55 is pressed by the lock lever 51 to be elastically deformed. The control of the control push rod is more convenient by combining the mechanical control module and the electric control module.

In the embodiment of the present invention, a locking slot (not shown) is formed on one side of the storage chamber cover 4 close to the control chamber 3. When the locking clamping part 511 is in a locking state, the locking clamping part 511 is correspondingly clamped into the locking clamping groove. Reduce the part after locking and expose, whole more pleasing to the eye, the setting up of locking draw-in groove makes locking card portion more firm to the kayser of storage chamber lid simultaneously.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. An improved storage box is characterized by comprising a box body, wherein a storage chamber and a control chamber are arranged in the box body, a storage chamber cover is arranged on the storage chamber, and a lock control mechanism matched with the storage chamber cover is arranged in the control chamber;

the lock control mechanism comprises a lock rod, a lock block and a control device;

the locking rod is hinged in the control chamber and is connected with a locking clamp part and a control push rod; when the lock rod rotates, the locking clamping part and the control push rod are driven to rotate around the hinged part of the lock rod; when the storage chamber cover is closed on the storage chamber: the locking clamping part is provided with a locking state which penetrates out of the control chamber and locks the storage chamber cover in a clamping manner;

a locking groove corresponding to the control push rod is formed on the locking block; when the locking clamping part is in a locking state, the locking groove corresponds to the control push rod;

a first slide rail is arranged in the control chamber, a first slide block is arranged on the first slide rail in a sliding manner, and the locking block is connected to the first slide block; when the locking clamping part is in a locking state, the first sliding block is in a locking sliding state which enables the locking groove to be clamped with the control push rod on the first sliding rail; the locking groove is clamped with the control push rod and then used for limiting the locking rod to rotate;

the control device is used for controlling the first sliding block to slide on the first sliding rail.

2. An improved storage box as claimed in claim 1, wherein the control means comprises a mechanical control module and an electrical control module;

the mechanical control module comprises a lock body arranged on the control room, a rotating core of the lock body is connected with a shifting piece, and a lock hole of the lock body is communicated with the outside of the control room; a first guide inclined plane corresponding to the shifting sheet is formed on the locking block; when a key of the lock body rotates a rotating core of the lock body to enable the mechanical control module to be in an unlocking control state, the shifting piece pushes the first guide inclined plane to enable the lock block to be driven by the first sliding block to move towards a direction far away from the control push rod;

the electric control module comprises a power supply, a controller, an unlocking instruction receiving module and a driving motor, and an eccentric wheel is connected to a rotating shaft of the driving motor; a second guide inclined plane corresponding to the eccentric wheel is formed on the locking block; when the driving motor rotates the eccentric wheel to enable the electric control module to be in an unlocking control state, the far-end of the eccentric wheel pushes the second guide inclined plane to enable the locking block to be driven by the first sliding block to move towards the direction far away from the control push rod;

the control device also comprises a first elastic piece arranged in the control chamber, and the first elastic piece is matched with the locking block; when the mechanical control module and/or the electric control module are in an unlocking control state, the first elastic piece is pressed by the locking block to perform elastic deformation.

3. An improved storage box as claimed in claim 2, wherein a chamber lid ejection means is provided in the box body;

when the locking clamping part is converted into the non-locking state from the locking state, the chamber cover ejecting device is used for ejecting the storage chamber cover.

4. An improved storage box as claimed in claim 3, wherein the lid ejection means comprises a second slide rail disposed within the control chamber, and a push rod engaged with the storage lid;

a second sliding block is arranged on the second sliding rail in a sliding mode, a connecting block is connected onto the second sliding block, and a second elastic piece matched with the connecting block is arranged in the control chamber; a through groove communicated with the storage chamber is formed in the control chamber, and one side of the connecting block extends through the through groove to penetrate into the storage chamber and then is connected with the ejector rod;

when the storage chamber cover is closed on the storage chamber: the storage chamber cover pushes the ejector rod to enable the second sliding block to be located at a sliding position far away from the storage chamber cover on the second sliding rail, and the second elastic piece is pushed by the connecting block to perform elastic deformation.

5. An improved storage box as claimed in claim 4, wherein a micro switch cooperating with the connecting block and/or cooperating with the eccentric wheel is provided in the control chamber, the micro switch being electrically connected to the controller;

when micro-gap switch and connecting block cooperate: when the second sliding block is positioned at the locked sliding position on the second sliding rail, the micro switch is triggered by the connecting block;

when the micro-gap switch is matched with the eccentric wheel: when the driving motor rotates the eccentric wheel to enable the electric control module to be in a non-unlocking control state, the microswitch is triggered by the far end of the eccentric wheel.

6. An improved storage box as claimed in any one of claims 4 to 5, wherein a linkage is provided in the control chamber;

when the storage chamber cover is closed on the storage chamber: the connecting block presses down one end of the connecting rod, and the other end of the connecting rod jacks up the control push rod to enable the locking clamping part to be in a locking state.

7. An improved storage box as claimed in any one of claims 2 to 5, wherein the unlocking instruction receiving module includes any one of three instructions of fingerprint unlocking instruction, password unlocking instruction and radio frequency unlocking instruction, or any two of them, or all of them.

8. An improved storage box as claimed in any one of claims 1 to 5, wherein a third resilient member is provided in the control chamber to engage with the locking bar;

when the locking rod rotates to enable the locking clamping part to be in a locking state, the third elastic piece is pushed by the locking rod to perform elastic deformation.

9. An improved storage box as claimed in any one of claims 1 to 5, wherein a locking slot is formed on one side of the storage chamber cover adjacent to the control chamber;

when the locking clamping part is in a locking state, the locking clamping part is correspondingly clamped into the locking clamping groove.

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