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CN-224213947-U - Wireless beam tap lock

CN224213947UCN 224213947 UCN224213947 UCN 224213947UCN-224213947-U

Abstract

The application relates to a wireless beam tap lock which comprises a shell, a lock pin, a circuit board and an electric unlocking mechanism, wherein the circuit board and the electric unlocking mechanism are arranged in the shell, a through hole is formed in the shell, the lock pin slides along the length direction of the through hole, a pulling block is slidably arranged in the shell, a pull rope is arranged on the pulling block and drives the pulling block to slide so as to drive the lock pin to unlock, a travel switch is electrically connected to the circuit board, a travel compensation structure is arranged on the pulling block, the travel compensation structure comprises an abutting block and a compensation spring, the abutting block is slidably connected to the pulling block, and the compensation spring, the abutting block and the travel switch are arranged in a row. The application has the effects of shortening the travel distance when the pull rope unlocks the tap lock and conducting the travel switch in advance.

Inventors

  • CHEN JINSHUI

Assignees

  • 台州金镖智能科技有限公司

Dates

Publication Date
20260508
Application Date
20250224

Claims (8)

  1. 1. A wireless beam tap lock comprises a shell (1), a lock pin (2) and a circuit board (3) arranged in the shell (1), wherein a through hole (51) is formed in the shell (1), the lock pin (2) slides along the length direction of the through hole (51), the wireless beam tap lock is characterized in that a pulling block (52) is arranged in the shell (1) in a sliding mode, a pull rope (53) is arranged on the pulling block (52), the pull rope (53) drives the pulling block (52) to slide so as to drive the lock pin (2) to unlock, a travel switch (6) is electrically connected to the circuit board (3), a travel compensation structure (521) is arranged on the pulling block (52), the travel compensation structure (521) comprises an abutting block (5211) and a compensation spring (5212), the abutting block (5211) is connected to the pulling block (52) in a row, and the compensation spring (5212), the abutting block (5211) and the travel switch (6) are driven by the pull rope (53) to slide so as to drive the pulling block (52) to drive the pulling block (2) to slide close to the travel switch (5211).
  2. 2. The wireless beam tap lock according to claim 1, wherein a return spring (74) is arranged on the pulling block (52), an accommodating groove (75) for accommodating the return spring is formed in the pulling block (52), one end of the return spring (74) is arranged on the wall of the accommodating groove (75), the other end of the return spring is arranged on the shell (1), the elastic direction of the return spring (74) is parallel to the sliding direction of the lock pin (2), when the pulling rope (53) drives the pulling block (52) to slide, the return spring is compressed, and the return spring (74) is used for resetting the pulling block (52).
  3. 3. The wireless beam tap lock of claim 1, wherein one end of the abutting block (5211) close to the compensation spring (5212) is provided with an anti-falling block (71), the outer diameter of the anti-falling block (71) is larger than that of the abutting block (5211), the pulling block (52) is provided with a sliding groove (72) for sliding of the abutting block (5211), the pulling block (52) is provided with an anti-falling groove (73) for sliding of the anti-falling block (71), the anti-falling groove (73) is communicated with the abutting groove, and the compensation spring (5212) drives the anti-falling block (71) to abut against the side wall of the anti-falling groove (73).
  4. 4. The wireless beam tap lock according to claim 2, wherein the circuit board (3) is electrically connected with a plug connector (76), a contact head of the plug connector (76) is plugged into the circuit board (3), the plug connector (76) is used for electrically connecting an electric vehicle instrument panel, and a contact head of the travel switch (6) is plugged into the circuit board (3).
  5. 5. The wireless beam tap lock according to claim 1, wherein the travel switch (6) comprises a first travel switch (61) and a second travel switch (62), the first travel switch (61) is used for sensing an abutting block (5211), the wireless beam tap lock further comprises an electric unlocking mechanism (4) for driving the lock pin (2) to slide, and the second travel switch (62) is used for sensing an unlocking state of the lock pin (2) when the electric unlocking mechanism (4) is unlocked.
  6. 6. The wireless beam tap lock according to claim 5, further comprising a sliding component (8) for driving the lock pin (2) to slide, wherein the sliding component (8) comprises a sliding block (81) and an energy storage box (82), the energy storage box (82) comprises a connecting block (821) and a sliding spring (822), the connecting block (821) is arranged in the shell (1) in a sliding mode, the lock pin (2) is arranged on the sliding block (81), when the lock pin (2) is driven to unlock by the pulling block (52), the pulling block (52) is abutted to the sliding block (81) to slide, a placing groove (91) is formed in the connecting block (821), the sliding spring (822) is arranged on the opposite sides of the placing groove (91), an assembling groove (92) for accommodating the sliding spring (822) is formed in the opposite sides of the assembling groove (92), the elastic direction of the sliding spring (822) is the same as the elastic direction of the sliding direction of the lock pin (2), and when the lock pin (821) is driven to slide by the electric mechanism (4), the sliding block (821) to drive the sliding block (821) to slide through the sliding block (821), and the lock (821) to unlock.
  7. 7. The wireless beam tap lock according to claim 6, wherein the electric unlocking mechanism (4) comprises a motor (41), a gear box (42) and a connecting gear (43), the input end of the gear box (42) is coaxially fixed with the output end of the motor (41), the output end of the gear box (42) is coaxially fixed on the connecting gear (43), a rack (93) is arranged on the connecting block (821), the connecting gear (43) is meshed with the rack (93), and when the motor (41) drives the connecting gear (43) to rotate, the connecting block (821) slides towards or away from the through hole (51).
  8. 8. The wireless faucet lock of claim 7, wherein the rack (93) and the connection block (821) are integrally molded.

Description

Wireless beam tap lock Technical Field The application relates to the technical field of electric vehicle locks, in particular to a wireless beam tap lock. Background The tap lock is a lock mainly installed on electric vehicles and motorcycles, and is mainly used for locking the tap of the electric vehicle or the motorcycle after the electric vehicle or the motorcycle is parked, so that the electric vehicle or the motorcycle is prevented from being stolen. The common tap lock structure generally includes lockpin, electronic unlocking mechanism and manual unlocking mechanism, and electronic unlocking mechanism includes circuit board, energy storage case, gear train and motor, and manual unlocking mechanism includes stay cord and drives the slip subassembly that the lockpin slided, and during electronic unlocking, the motor drives the gear train rotation, thereby the gear train drives the energy storage case and removes to drive the lockpin and remove, realizes unblanking or locking. When the lock is unlocked manually, the sliding component is driven to slide by the pull rope, so that the lock pin is driven to unlock. A circuit board is arranged in the tap lock, and a travel switch is arranged to sense the unlocking state. And a certain sliding distance of the lock pin is arranged in the circuit board, when a customer requires the stay cord to unlock the tap lock, the stay cord is required to be abutted against the travel switch when a shorter travel is pulled, so that the travel switch is conducted in advance, and the instrument is displayed in time. Disclosure of utility model In order to shorten the travel distance when the pull rope unlocks the tap lock, the travel switch is turned on in advance, and the application provides a wireless beam tap lock. The application provides a wireless beam tap lock, which adopts the following technical scheme: a wireless beam tap lock comprises a shell, a lock pin and a circuit board arranged in the shell, wherein a through hole is formed in the shell, the lock pin slides along the length direction of the through hole, a pulling block is arranged in the shell in a sliding mode, a pull rope is arranged on the pulling block and drives the pulling block to slide so as to drive the lock pin to unlock, a travel switch is electrically connected to the circuit board, a travel compensation structure is arranged on the pulling block and comprises an abutting block and a compensation spring, the abutting block is connected to the pulling block in a sliding mode, the compensation spring, the abutting block and the travel switch are arranged in a row, and when the pull rope drives the pulling block to slide so as to drive the lock pin to unlock, the abutting block is close to the travel switch to slide and abut against the travel switch. Through adopting above-mentioned technical scheme, the stay cord setting is on the pulling piece, and the butt piece slides and connects in the pulling piece, when needs drive the pulling piece through the stay cord and slide and realize the lockpin and unblank, the pulling piece slides and drives the butt piece and slide, and when the butt piece butt travel switch, instrument display tap lock unblanks, makes pulling piece pulling stroke also can the butt travel switch shorter through butt piece and compensation spring, shortens the travel distance when stay cord unblock tap lock, switches on the travel switch in advance. Optionally, be provided with reset spring on the pulling piece, set up the holding tank that supplies reset pressure spring to hold on the pulling piece, reset spring one end sets up at shell holding tank cell wall, and the opposite side sets up on the casing, reset spring pressure spring elasticity direction is parallel with the lockpin slip direction, when the stay cord drove the pulling piece to slide, reset pressure spring compression, reset spring is used for making the pulling piece reset. By adopting the technical scheme, when the pulling block is driven to be pulled by pulling, the return spring is compressed, and when the tap lock is unlocked, the return spring enables the pulling block to return. Optionally, the one end that the butt piece is close to compensation spring is provided with the anticreep piece, the anticreep piece external diameter is greater than the butt piece external diameter, set up the groove that slides that supplies the butt piece to slide on the pulling piece, set up the anticreep groove that supplies the anticreep piece to slide on the pulling piece, anticreep groove intercommunication butt groove, compensation spring drives anticreep piece butt anticreep groove lateral wall. Through adopting above-mentioned technical scheme, the anticreep piece prevents that the butt piece from breaking away from the pulling piece, and when compensation spring compression simultaneously, the butt piece slides stably. Optionally, the circuit board is electrically connected with a plug connector, the contact head of