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CN-121992996-A - Electric control lock and storage cabinet

CN121992996ACN 121992996 ACN121992996 ACN 121992996ACN-121992996-A

Abstract

The invention relates to the technical field of storage devices, in particular to an electric control lock and a storage cabinet, wherein the electric control lock is used for being matched with a lock catch fixed on a mounting seat, the mounting seat is arranged on one of a cabinet door and a cabinet body, the electric control lock comprises a shell, a lock hook and an ice breaking mechanism, the shell is used for being arranged on the other of the cabinet door and the cabinet body, the lock hook is rotatably arranged in the shell, the lock hook can move relative to the shell and has a locking position matched with the lock catch in a clamping way and an unlocking position separated from the lock catch, the ice breaking mechanism comprises a push rod and a driving component, the push rod is movably arranged in the shell, the push rod comprises a force bearing end positioned in the shell and a force bearing end extending out of the shell, when the cabinet door and the cabinet body are frozen, the driving component applies impact force to the force bearing end of the push rod to the mounting seat, ice between the cabinet body and the cabinet door can be easily broken so as to open the cabinet door, the ice breaking efficiency is high, the energy consumption can be reduced, and the energy utilization rate can be improved.

Inventors

  • GU JINKAI
  • WANG FENG
  • LI QIANG
  • SUN JIANYU

Assignees

  • 威海新北洋数码科技有限公司
  • 山东新北洋信息技术股份有限公司

Dates

Publication Date
20260508
Application Date
20241101

Claims (11)

  1. 1. An electrically controlled lock for cooperation with a shackle (20) secured to a mount (10), comprising: a housing (1); the lock hook (2) is rotatably arranged in the shell (1), and the lock hook (2) can move relative to the shell (1) to have a locking position in clamping fit with the lock catch (20) and an unlocking position separated from the lock catch (20); Icebreaking mechanism (3), including ejector pin (31) and drive assembly (32), ejector pin (31) movably install in casing (1), ejector pin (31) are including being located stress end (311) in casing (1) and stretch to application of force end (312) outside casing (1), drive assembly (32) are configured to stress end (311) is applyed impact force, so that application of force end (312) striking mount pad (10).
  2. 2. The electric control lock according to claim 1, characterized in that the driving assembly (32) comprises a driving piece (321) and a transmission piece (323), the transmission piece (323) is movably connected with the shell (1), and the transmission piece (323) can be abutted or separated from the stress end (311) when moving relative to the shell (1); the driving piece (321) is configured to drive the transmission piece (323) to move, and the transmission piece (323) is enabled to strike the stress end (311) when abutting against the stress end (311) so as to apply impact force to the stress end (311).
  3. 3. The electrically controlled lock according to claim 2, wherein the drive assembly (32) further comprises a first elastic member (328) connected to the transmission member (323), the first elastic member (328) being configured to always have a movement tendency of the transmission member (323) to separate from the stressed end (311); The driving piece (321) comprises an electric telescopic rod (322) capable of being extended and retracted in a reciprocating mode, when the electric telescopic rod (322) is extended, the electric telescopic rod (322) drives the transmission piece (323) to move and enable the transmission piece (323) to strike the stressed end (311), and when the electric telescopic rod (322) is retracted, the first elastic piece (328) enables the transmission piece (323) to be separated from the stressed end (311).
  4. 4. An electric control lock according to claim 3, characterized in that the transmission member (323) comprises a transmission member body (324) rotatably connected to the housing (1), and a driving part (325) fixedly connected to the transmission member body (324); the electric telescopic rod (322) and the ejector rod (31) are respectively positioned at two sides of the driving part (325), when the electric telescopic rod (322) stretches out, the electric telescopic rod (322) and the driving part (325) push the driving part (325) to strike the stress end (311), and the driving part (325) drives the transmission part main body (324) to rotate.
  5. 5. An electrically controlled lock according to claim 2, characterized in that the transmission member (323) is rotatably connected with the housing (1), the transmission member (323) having a stop position, the transmission member (323) cooperating with the locking hook (2) in the locking position when the transmission member (323) is in the stop position, the transmission member (323) preventing the locking hook (2) in the locking position from rotating towards the unlocking position and the transmission member (323) being separated from the force-receiving end (311), the transmission member (323) being separated from the locking hook (2) when the transmission member (323) is out of the stop position, the locking hook (2) being rotatable towards the unlocking position and the transmission member (323) being able to strike the force-receiving end (311); The driving member (321) is further configured to drive the transmission member (323) to rotate from the stop position in a direction away from the stop position, and when the transmission member (323) is away from the stop position, the driving member (321) is configured to drive the transmission member (323) to strike the force receiving end (311).
  6. 6. The electrically controlled lock according to claim 5, wherein the locking hook (2) comprises a locking groove (211) and a force receiving portion (22), the transmission member (323) comprises an abutment portion (326) and a driving portion (325), when the locking hook (2) is in the locking position and the transmission member (323) is in the stopping position, the locking groove (211) is used for being in clamping fit with the lock catch (20), the abutment portion (326) abuts against the force receiving portion (22) and prevents the locking groove (211) from being separated from the lock catch (20), and when the transmission member (323) is out of the stopping position, the abutment portion (326) is separated from the force receiving portion (22) and enables the locking groove (211) to be separated from the lock catch (20), and the driving portion (325) is capable of knocking the force receiving end (311).
  7. 7. The electric control lock according to claim 5, characterized in that the driving member (321) drives the transmission member (323) to rotate from the stop position in a direction away from the stop position, the height of the center of gravity of the transmission member (323) gradually decreasing.
  8. 8. An electrically controlled lock according to any one of claims 1-7, characterized in that the ice breaking mechanism (3) further comprises a second elastic member (37), the second elastic member (37) being connected to the carrier rod (31), and the second elastic member (37) being configured such that the carrier rod (31) always has a tendency to move in a direction extending out of the housing (1).
  9. 9. A locker, characterized by comprising a cabinet body (50), a cabinet door (60), a mounting seat (10), a lock catch (20) and an electric control lock (30) according to any one of claims 1-8; The cabinet body (50) is provided with an opening (503), the cabinet door (60) is movably connected with the cabinet body (50), the cabinet door (60) can move relative to the cabinet body (50) and is provided with an opening position for opening the opening (503) and a closing position for closing the opening (503), the lock catch (20) is fixedly connected with the mounting seat (10), the mounting seat (10) is mounted on one of the cabinet body (50) and the cabinet door (60), and the electric control lock (30) is mounted on the other one of the cabinet body (50) and the cabinet door (60).
  10. 10. The cabinet according to claim 9, wherein the ejector rod (31) is movable with respect to the housing (1) having an extended position and a retracted position, and wherein the ejector rod (31) is in the retracted position when the cabinet door (60) is in the closed position and wherein the ejector rod (31) is in the extended position when the cabinet door (60) is in the open position; The locker further comprises a controller, the electric control lock further comprises a sensor (40), and the sensor (40) is used for detecting the position of the ejector rod (31); The controller executes an instruction for unlocking the lock hook (2), detects detection signals output by the sensor (40) at fixed time, and controls the driving assembly (32) to intermittently strike the stress end (311) of the ejector rod (31) for a preset number of times when the sensor (40) outputs detection signals of the ejector rod (31) at the retracted position, and until the sensor (40) outputs detection signals of the ejector rod (31) at the extended position.
  11. 11. A locker, comprising: A cabinet body (50) provided with an opening; the cabinet door (60) is movably connected with the cabinet body (50), and the cabinet door (60) can move relative to the cabinet body (50) and has an opening position for opening the opening and a closing position for closing the opening; A lock mounted to the cabinet body (50) or the cabinet door (60), and configured to lock a position of the cabinet door (60) when the cabinet door (60) is located at the closed position; An ice breaking mechanism (3) comprising a push rod (31) and a driving assembly (32), wherein the push rod (31) is movably mounted on one of the cabinet body (50) and the cabinet door (60), the push rod (31) comprises a stress end (311) and a force application end (312), and the driving assembly (32) is configured to apply an impact force to the stress end (311) so that the force application end (312) impacts the other of the cabinet body (50) and the cabinet door (60).

Description

Electric control lock and storage cabinet Technical Field The invention relates to the technical field of storage devices, in particular to an electric control lock and a storage cabinet. Background Nowadays, locker application occasions are becoming wider and wider, for example, a locker for storing express is arranged in a office building or a residential area, a locker for storing personal articles is arranged in a supermarket, and a locker for self-picking and vending is arranged in a scenic spot or a commercial street. The locker that provides among the related art generally includes the cabinet body, cabinet door and electric control lock, and wherein, the cabinet body is equipped with spacedly, and cabinet door and cabinet body pin joint, and the cabinet door is used for opening or seals spacedly, and electric control lock installs in the cabinet body, and electric control lock includes rotatable latch hook, is provided with the hasp on the cabinet door, when the cabinet door seals spacedly, latch hook and hasp joint to the position of locking cabinet door. For the locker of placing in outdoor open-air place, when outdoor temperature falls below the freezing point, the rainwater or the snow water of remaining between cabinet door and the cabinet body freeze easily between cabinet door and the cabinet body, in order to guarantee that the cabinet door can normally open, the locker that provides among the correlation technique still includes the electric tracing area that sets up in the cabinet body and/or cabinet door, when the cabinet door seals spacedly, electric tracing area encircles spacedly, when the user needs to open the cabinet door, relies on electric tracing area heating to melt the ice and snow of freezing between the cabinet body and cabinet door, and then guarantees that the cabinet door can normally open. However, the electric tracing band has high power consumption during operation, and the generated heat has larger loss due to heat transfer, so that the energy utilization rate is lower, and in addition, a certain time is needed in the ice and snow melting process, so that the waiting time of a user is increased. Therefore, the locker in the related art has the problems of high energy consumption, low energy utilization rate and low efficiency when melting ice and snow between the cabinet body and the cabinet door. Disclosure of Invention The invention aims to provide an electric control lock and a locker, which can improve efficiency, reduce energy consumption and improve energy utilization rate when ice and snow between a locker body and a locker door are melted. In a first aspect, the present invention provides an electrically controlled lock for cooperation with a shackle secured to a mount, the electrically controlled lock comprising: A housing; The lock hook is rotatably arranged in the shell, and can move relative to the shell to have a locking position matched with the lock catch in a clamping way and an unlocking position separated from the lock catch; The ice breaking mechanism comprises a push rod and a driving assembly, wherein the push rod is movably installed in the shell, the push rod comprises a force bearing end positioned in the shell and a force application end extending out of the shell, and the driving assembly is configured to apply impact force to the force bearing end so that the force application end impacts the installation seat. As a preferable technical scheme of the electric control lock, the driving assembly comprises a driving piece and a transmission piece, wherein the transmission piece is movably connected with the shell, and can be abutted or separated from the stress end when moving relative to the shell; The driving piece is configured to drive the transmission piece to move, and the transmission piece is enabled to strike the stress end when being abutted with the stress end so as to apply impact force to the stress end. As a preferable technical scheme of the electric control lock, the driving assembly further comprises a first elastic piece connected with the transmission piece, wherein the first elastic piece is configured to enable the transmission piece to always have a movement trend separated from the stress end; The driving piece comprises an electric telescopic rod capable of extending and retracting in a reciprocating mode, when the electric telescopic rod extends, the electric telescopic rod drives the transmission piece to move and enable the transmission piece to strike the stressed end, and when the electric telescopic rod retracts, the first elastic piece enables the transmission piece to be separated from the stressed end. As a preferable technical scheme of the electric control lock, the transmission member comprises a transmission member main body rotatably connected with the shell and a driving part fixedly connected with the transmission member main body; the electric telescopic rod and the ejector rod are respectively positioned