CN113178753A - Locking and unlocking structure of charging gun lock hook - Google Patents

Abstract

The invention discloses a locking and unlocking structure of a charging gun lock hook, which comprises: a front mounting base; the first end of the charging gun shell is installed on the front installation seat, and the second end part of the charging gun shell extends to one side far away from the front installation seat to form a cantilever beam; the charging gun locking hook is rotatably connected to the cantilever beam through an upper support on the cantilever beam, a clamping part is arranged at the first end of the charging gun locking hook, and an elastic supporting part is arranged between the second end of the charging gun locking hook and the cantilever beam; the upper support is arranged on the cantilever beam between the first end of the charging rifle latch hook and the second end of the charging rifle latch hook; the attraction part has magnetic conductivity and is arranged on the charging gun lock hook; and the electromagnet is arranged on the charging gun shell and used for adsorbing and fixing the attraction part after the electromagnet is electrified.

Description

Locking and unlocking structure of charging gun lock hook

Technical Field

The invention relates to the technical field of electric automobile charging, in particular to a locking and unlocking structure of a charging gun lock hook.

Background

With the continuous development of the new energy electric automobile industry, people put forward higher requirements on the electric automobile charging process: hope to realize more conveniently, swiftly in the charging process that the rifle latch hook that charges locks, unblock and the rifle plug that charges to make the charging process become simpler, convenient in order to improve user experience.

However, when a conventional charging gun is charged, the locking (keeping the state that the locking hook cannot be lifted) of the locking hook is realized by that the lock tongue of the motor type electronic lock abuts against a corresponding structure (such as a boss) on the locking hook, the lock tongue and the boss form movement interference, so that the locking of the locking hook is realized, when the motor type electronic lock receives an unlocking signal, the motor type electronic lock needs to drive the lock tongue to move by virtue of the rotation of the motor, after the contact part of the lock tongue and the locking hook is completely separated, the locking hook can be pressed and lifted, so that the charging gun is pulled out from the charging seat, the process usually needs hundreds of milliseconds or even longer, only the gun can be pulled out after unlocking, and the gun is pulled out in a real sense.

And the other kind of operation mode that promotes user experience is that the user is in the charging process, press the unlock button on the rifle that charges, just can give the signal of filling electric pile with the outage, the stake is given the feedback immediately, and control electronic lock unblock, because the continuity of action, this process time difference is not more than 100ms when touching unlock button surface to the latch hook rear end from the user finger and beginning the atress and move down, it is very obvious, the spring bolt of traditional electronic lock can't release completely in this time, just can cause the electronic lock spring bolt to be pushed down by the corresponding arch on the lock hook this moment, the unable motion of electronic lock, cause the problem of unblock jamming.

Disclosure of Invention

The invention provides a multichannel plate laser cutting and blanking mechanism, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the following technical scheme:

a locking and unlocking structure of a charging gun lock hook comprises: a front mounting base; the first end of the charging gun shell is installed on the front installation seat, and the second end part of the charging gun shell extends to one side far away from the front installation seat to form a cantilever beam; the charging gun locking hook is rotatably connected to the cantilever beam through an upper support on the cantilever beam, a clamping part is arranged at the first end of the charging gun locking hook, and an elastic supporting part is arranged between the second end of the charging gun locking hook and the cantilever beam; the upper support is arranged on the cantilever beam between the first end of the charging rifle latch hook and the second end of the charging rifle latch hook; the attraction part has magnetic conductivity and is arranged on the charging gun lock hook; and the electromagnet is arranged on the charging gun shell and used for adsorbing and fixing the attraction part after the electromagnet is electrified.

In some embodiments, the charging gun further comprises a first switch, the first switch is arranged on the charging gun shell, the first switch is triggered to work through pressing of the charging gun locking hook, and the triggering work is used for electrifying the electromagnet.

In some embodiments, the charging device further comprises a second switch, the second switch is arranged on the charging gun locking hook, the second switch is triggered to work by pressing, the triggering is used for powering off the electromagnet, and the first switch and the second clamp switch are mutually exclusive switches.

In some embodiments, the charging gun locking device further comprises a second switch, the second switch is arranged on the charging gun locking hook between the upper support and the elastic support portion, the second switch is triggered to work through pressing, the triggering work is used for powering off the electromagnet, and when the second switch is pressed, the first end of the charging gun locking hook rotates upwards through the upper support, and the pressing of the first switch is removed.

In some embodiments, the resilient support is a shackle return spring.

Compared with the prior art, the invention has the beneficial effects that:

1. the problem of traditional rifle that charges realize charging rifle and the mode that the automobile body charging seat realized the closure through the electronic lock and can't realize really filling promptly, pull out promptly and walk is solved.

2. The second switch is fixed at the second end of the charging gun locking hook, the first end of the charging gun locking hook can be lifted up and the gun can be pulled out by pressing the second end of the charging gun locking hook when the second switch is pressed down, so that the operation is convenient, the time is saved, the whole charging process is quick and convenient, and the requirement of high-power charging of the current customer is met.

3. Compared with the traditional locking and unlocking mode realized through an electronic lock, the locking and unlocking functions of the charging process implemented through the electrification and the outage of the electromagnet are quicker in response, the service life is longer, the failure rate is lower, and the safety is higher.

Drawings

Fig. 1 is a schematic structural view of a locking and unlocking structure of a charging gun lock hook according to some embodiments of the present application.

Fig. 2 is a schematic cross-sectional view of a charging gun shackle latching and unlatching structure according to some embodiments of the present application.

The labels in the figure are: 101-front mounting seat, 102-charging gun locking hook, 103-charging gun shell, 104-first switch, 105-attraction part, 106-electromagnet, 107-second switch, 108-elastic supporting part and 109-upper support.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

On the contrary, this application is intended to cover any alternatives, modifications, equivalents, and alternatives that may be included within the spirit and scope of the application as defined by the appended claims. Furthermore, in the following detailed description of the present application, certain specific details are set forth in order to provide a better understanding of the present application. It will be apparent to one skilled in the art that the present application may be practiced without these specific details.

The embodiment of the application relates to a locking and unlocking structure of a charging gun lock hook, which can really realize a charging mode of plug-and-charge and pull-and-go after charging, and the traditional mode of locking the charging gun and a charging seat by adopting an electronic lock has the defects of electronic lock unlocking delay, clamping stagnation and the like in the application of plug-and-go and pull-and-go.

Fig. 1 is a schematic structural view of a locking and unlocking structure of a charging gun lock hook according to some embodiments of the present application. Fig. 2 is a schematic cross-sectional view of a charging gun shackle latching and unlatching structure according to some embodiments of the present application. The locking and unlocking structure of the charging gun lock hook according to the embodiment of the present application will be described in detail below with reference to fig. 1 and 2. It should be noted that the following examples are only for explaining the present application and do not constitute a limitation to the present application.

In an embodiment of the present application, as shown in fig. 1, the locking and unlocking structure of the charging gun lock hook 102 includes: a front mount 101; a charging gun housing 103, wherein a first end of the charging gun housing 103 is mounted on the front mounting seat 101, and a second end part of the charging gun housing 103 extends to a side far away from the front mounting seat 101 to form a cantilever; the charging gun locking hook 102 is rotatably connected to the cantilever beam through an upper support 109 on the cantilever beam, a clamping part is arranged at the first end of the charging gun locking hook 102, and an elastic supporting part 108 is arranged between the second end of the charging gun locking hook 102 and the cantilever beam; the upper support 109 is arranged on the cantilever beam between the first end of the charging gun locking hook 102 and the second end of the charging gun locking hook 102; the attraction part 105, the attraction part 105 has magnetic permeability, the attraction part 105 is installed on the charging gun lock hook 102; and the electromagnet 106 is arranged on the charging gun shell 103 and is used for adsorbing and fixing the attraction part 105 after the electromagnet 106 is electrified.

The second end of the charging gun locking hook 102 is pressed through the elastic supporting part 108, the charging gun locking hook 102 rotates through the upper support 109 to rotate like a seesaw, the first end of the charging gun locking hook tilts, meanwhile, the elastic supporting part 108 is squeezed, after the charging gun is inserted into an on-vehicle socket, the pressing on the second end of the charging gun locking hook 102 is removed, the second end of the charging gun locking hook 102 resets under the action of the elastic supporting part 108, the clamping part at the first end of the charging gun locking hook 102 resets, and the clamping part arranged at the first end of the charging gun locking hook 102 hooks the socket to prevent the charging gun and the socket from loosening and falling off in the charging process; an attraction part 105 fixed on the charging gun locking hook 102 and attracted with the electromagnet 106 when being electrified; electrifying the electromagnet 106, and generating electromagnetic force to adsorb the attraction component when the electromagnet 106 is electrified; thereby enabling charging bayonet hook 102 latching. The locking of the charging gun locking hook 102 and the vehicle body charging socket is realized, and the charging gun locking hook 102 is always in a locking state and cannot be lifted up randomly in the whole charging process, so that the charging gun cannot fall off from the vehicle body.

When a user needs to stop charging and pull out the gun during charging or charging, the electromagnet 106 is powered off, and the electromagnet 106 releases the attraction part 105, so that the charging gun locking hook 102 is unlocked.

The electromagnet 106 is used for generating magnetic force to enable the electromagnet 106 and the attraction part 105 to be attracted tightly, so that the charging gun lock hook 102 is hooked on a charging socket on a vehicle firmly in the charging process, and the safety of the charging process is guaranteed. The attraction part 105 is made of ferrous metal, such as iron, copper, etc., capable of being attracted by the electromagnet 106; the attraction part 105 is required to be fixed on the charging gun locking hook 102 to ensure that the attraction part 105 drives the charging gun locking hook 102 to move together when attracting and separating the electromagnet 106 so as to lock and unlock the charging gun locking hook 102.

In some embodiments, the charging gun further comprises a first switch 104, the first switch 104 is arranged on the charging gun housing 103, and the first switch 104 is triggered by pressing the charging gun lock hook 102, and the trigger is used for electrifying the electromagnet 106. In this embodiment, the first switch 104 for energizing the electromagnet 106 is turned on and off by pressing down the charging gun lock hook 102, so that the operator does not need to separately control or press the first switch 104, and the convenience of operation is greatly improved.

In some embodiments, the charging gun locking hook further comprises a second switch 107, the second switch 107 is disposed on the charging gun locking hook 102, the second switch 107 is triggered by pressing, the trigger is used for powering off the electromagnet 106, and the first switch 104 and the second snap switch are mutually exclusive switches. In this embodiment, when the second switch 107 is triggered by pressing, a power-off command is sent to the electromagnet 106, and meanwhile, since the first switch 104 and the second card switch are mutually exclusive switches, when the second switch 107 is operated, the first switch 104 is automatically turned off. In this embodiment, the closing of the first switch 104 is not completely dependent on the contact pressing of the charging gun lock hook 102 to the first switch 104.

In some embodiments, the charging gun lock hook 102 further comprises a second switch 107, the second switch 107 is arranged on the charging gun lock hook 102 between the upper support 109 and the elastic support 108, the second switch 107 is triggered by pressing, the trigger is used for powering off the electromagnet 106, and when the second switch 107 is pressed, the first end of the charging gun lock hook 102 rotates upwards through the upper support 109, and the first switch 104 is released from being pressed. In this embodiment, the second switch 107 is designed and fixed at the handle end of the charging gun, i.e. the second end of the charging gun locking hook 102, so that the owner can press the second switch 107 to send an instruction to power off the electromagnet 106 when holding the charging gun, thereby unlocking the charging gun locking hook 102, when pressing the button of the second switch 107, the charging gun locking hook 102 rotates through the upper support 109 through the elastic support 108, and rotates like a seesaw, the first end of the charging gun locking hook tilts, so that the charging gun locking hook 102 releases the pressing of the first switch 104, and the power off of the electromagnet 106 is realized, thereby achieving the unlocking and the gun pulling simultaneously.

In some embodiments, the resilient support 108 is a shackle return spring. The charging rifle latch hook 102 is helped to reset automatically after the hand is released, so that the user experience is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The utility model provides a rifle latch hook shutting, unblock structure charge which characterized in that includes:

a front mounting base;

the first end of the charging gun shell is installed on the front installation seat, and the second end part of the charging gun shell extends to one side far away from the front installation seat to form a cantilever beam;

the charging gun locking hook is rotatably connected to the cantilever beam through an upper support on the cantilever beam, a clamping part is arranged at the first end of the charging gun locking hook, and an elastic supporting part is arranged between the second end of the charging gun locking hook and the cantilever beam; the upper support is arranged on the cantilever beam between the first end of the charging rifle latch hook and the second end of the charging rifle latch hook;

the attraction part has magnetic conductivity and is arranged on the charging gun lock hook;

and the electromagnet is arranged on the charging gun shell and used for adsorbing and fixing the attraction part after the electromagnet is electrified.

2. The locking and unlocking structure of the charging gun lock hook according to claim 1, further comprising

The first switch is arranged on the charging gun shell, the first switch triggers work through pressing of the charging gun lock hook, and the triggering work is used for electrifying the electromagnet.

3. The locking and unlocking structure of the charging gun lock hook according to claim 2, further comprising

The second switch is arranged on the charging gun lock hook and triggers through pressing, the triggering work is used for powering off the electromagnet, and the first switch and the second clamp switch are mutually exclusive switches.

4. The locking and unlocking structure of the charging gun lock hook according to claim 2, further comprising

The second switch, the second switch sets up on last support and the rifle latch hook that charges between the elastic support portion, the second switch triggers work through pressing, trigger the work as for the electro-magnet outage, just when the second switch is pressed, the first end of rifle latch hook that charges upwards rotates through last support, removes the pressing to first switch.

5. The locking and unlocking structure of the charging gun lock hook according to any one of claims 1 to 4, wherein the elastic support is a lock hook return spring.

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