CN111648680B - Automobile front cover switch assembly and control method thereof - Google Patents

Abstract

The invention provides an automobile front cover switch assembly and a control method thereof, wherein the automobile front cover switch assembly comprises a first lock catch, a master lock, an automobile lock sensor, a locking sensor and an unlocking switch; the automobile front cover and the automobile body are locked with the buckle of the first lock catch through the master lock; the lock sensor is connected with an ignition switch of the automobile and judges whether the automobile is flameout or not according to the state of the ignition switch; the unlocking switch is respectively connected with the vehicle lock sensor and the main control lock, and can control the locking and unlocking of the main control lock and the first lock catch when the vehicle lock sensor judges that the vehicle is in a flameout state; the locking inductor is connected with the automobile front cover and used for judging whether the automobile front cover is in lock catch clamping connection with the automobile body. Whether the automobile is in a flameout state or not is identified, so that the front cover can be opened by judging the current automobile state, the main control lock can be opened, and the front cover can be opened by opening the main control lock through the unlocking switch, so that the unlocking operation of a driver is reduced, and the risk that the driver clamps hands due to finding the lock handle by the automobile head is avoided.

Description

Automobile front cover switch assembly and control method thereof

Technical Field

The invention relates to the field of automobiles, in particular to an automobile front cover switch assembly and a control method thereof.

Background

The front cover inner opening handle is generally made of plastic materials and is arranged at the position of the instrument panel lower body and the like. The front engine hood opening mode is that firstly, an opening handle in a cab rotates to open a first lock, and in a second step, a driver needs to stir a lock body from a vehicle head position to open a second lock, so that the front engine hood can be opened.

Open the first lock that the handle passes through the cable and is connected to the front end lock body in the cockpit, because open and be connected by a cable between handle and the protecgulum lock, the cable is inside to be a thicker steel wire line, receive the restriction that factors such as the inside material of steel wire line cause, present stage tradition opening mode is for needing great opening force when opening, need the driver rethread manual mode to find the protecgulum lock second grade lock handle after open the protecgulum, so just there is the operation of unblanking repeatedly of needs, further driver finds the risk that the lock handle still has the protecgulum tong to the locomotive.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, the unlocking operation needs to be repeated and the risk of clamping hands of a front cover caused by finding a lock handle by a driver from a vehicle head is solved. The invention provides an automobile front cover switch assembly and a control method thereof, which judge whether the automobile is in a flameout state or not so as to judge that the front cover can be opened in the current automobile state, further enable a main control lock to be opened, and open the main control lock through an unlocking switch so as to open the front cover, so that a driver is free from the operation of opening a first lock in the prior art and does not need to open a second lock in the prior art at the automobile head, the unlocking operation of the driver is reduced, and the risk of clamping hands caused by finding a lock handle at the automobile head is avoided.

The invention provides an automobile front cover switch assembly which comprises a first lock catch, a main control lock, an automobile lock sensor, a locking sensor and an unlocking switch, wherein the first lock catch is arranged on an automobile body; the front cover and the body of the automobile are locked with the buckle of the first lock catch through the master lock; the lock sensor is connected with an ignition switch of the automobile and judges whether the automobile is flameout or not according to the state of the ignition switch; the unlocking switch is respectively connected with the vehicle lock sensor and the main control lock, and can control the locking and unlocking of the main control lock and the first lock catch when the vehicle lock sensor judges that the vehicle is in a flameout state; the locking inductor is connected with the automobile front cover and used for judging whether the automobile front cover is in lock catch clamping connection with the automobile body.

When the automobile lock is used, the automobile lock sensor judges whether the automobile is flameout or not by identifying the state of an ignition switch of the automobile, so that the front cover can be opened by taking the flameout of the automobile as a necessary condition for opening the front cover and judging the current automobile state, and then the main control lock can be opened. Compared with the first lock unlocking in the prior art, the first lock unlocking method based on the automobile flameout as a necessary condition for unlocking the front cover is more suitable for the operation habit of a driver, and is safer without the risk of opening the front cover because the automobile is still running. And then the unlocking switch is controlled to control the main control lock and the first lock catch to unlock, so that the front cover is opened. Compared with the prior art, the driver can open the front cover only by operating the unlocking switch once, and does not need to walk to the head to find the handle and do not need to repeatedly unlock the lock, so that the problems that the repeated unlocking operation is needed in the prior art and the risk of clamping hands of the front cover caused by the driver finding the head to lock the handle are solved.

According to another specific embodiment of the present invention, the automotive front cover switch assembly disclosed in the embodiment of the present invention, the main control lock includes a first electromagnetic lock cylinder, and a first fastening portion capable of being driven by the first electromagnetic lock cylinder; the first electromagnetic lock cylinder is electrically connected with the unlocking switch and is controlled to be powered on or powered off through the unlocking switch.

By adopting the scheme, the main control lock is an electromagnetic lock, and after the main control lock is electrified, the first electromagnetic lock core generates electromagnetic force to attract the first buckling part, so that the first buckling part is separated from the first lock buckle to be clamped, and unlocking is completed.

According to another specific embodiment of the invention, the automobile front cover switch assembly disclosed by the embodiment of the invention further comprises a second lock catch arranged on the automobile body and an induction lock arranged on the inner side of the automobile front cover; the front cover and the body of the automobile are locked with the buckle of the second lock catch through the induction lock; the induction lock comprises a second electromagnetic lock cylinder and a second buckling part which can be driven by the second electromagnetic lock cylinder; the second electromagnetic lock cylinder is electrically connected with the vehicle lock sensor and is controlled to be powered on or powered off according to the judgment result of the vehicle lock sensor.

By adopting the scheme, the safety is improved through the double-locking structure, and the risk of misoperation is avoided.

According to another specific embodiment of the invention, the automotive front cover switch assembly disclosed by the embodiment of the invention is characterized in that the first lock catch and the second lock catch are arranged on one lock catch at the front side of the automotive body, and the main control lock and the induction lock are arranged on the inner side of the automotive front cover side by side; the first electromagnetic lock cylinder and the second electromagnetic lock cylinder are an electromagnetic component, and the driving force of the first buckling part is larger than that of the second buckling part.

By adopting the scheme, the locking and unlocking of the induction lock and the master control lock can be completed by using one lock catch and one electromagnetic component. In addition, what the unblock switch that this embodiment used was connected with the sense lock and the master control lock of protecgulum is the electric wire, and the electric wire is softer for the steel wire line relatively, can adapt to more complicated front deck overall arrangement, reduces the exposure risk to reduce the opening force, make interior card handle paste more and make the profile with whole.

According to another embodiment of the present invention, the latching sensor is a vibration sensor disposed inside the front cover of the vehicle.

By adopting the scheme, the vibration generated when the cover is closed is taken as a judgment basis, whether the front cover is closed or not and whether the buckling part is aligned with the lock catch or not can be accurately identified, and therefore incomplete locking of the front cover is avoided.

According to another embodiment of the invention, the first electromagnetic lock cylinder and the second electromagnetic lock cylinder are electrically connected with the locking inductor in the automobile front cover switch assembly.

Adopt above-mentioned scheme, the vibrations inductor can set up in the hasp bottom of protecgulum, and after closing the protecgulum and making it press, the protecgulum touched the automobile body, and first clamping part or second clamping part touched the hasp bottom this moment, and the vibrations are sensed to the shutting inductor, and then make the circuit cut off by force, and above-mentioned electromagnetic component loses the circuit and no longer attracts first clamping part or second clamping part, and first clamping part or second clamping part leave the electromagnetic component and lock with the hasp, accomplish the protecgulum and lock and close.

According to another specific embodiment of the invention, in the automobile front cover switch assembly disclosed by the embodiment of the invention, the lock sensor is arranged at the bottom of the lock cylinder of the automobile, and whether the automobile stalls is judged according to the position of the lock cylinder of the automobile.

By adopting the scheme, the vehicle lock sensor is a physical switch, and is considered to be disconnected when the key is inserted, and is considered to be reconnected after the key is pulled out. The specific circuit can only use one end of the electric wire to connect the car lock sensor, the other end of the electric wire to connect the unlocking switch, and the other end of the electric wire is divided into one path to connect the sensing lock, so that the various controls can be completed by simple circuit connection, and the structure is simple and the cost is low.

The control method for controlling the automobile front cover switch assembly comprises the following steps:

s1: judging whether the automobile is flameout or not according to the state of an ignition switch of the automobile;

s2: after the automobile is judged to be flameout, the unlocking switch is used for controlling the main control lock to be unlocked with the first lock catch and starting the locking sensor.

By adopting the scheme, whether the automobile is flameout or not is identified, so that the front cover can be opened by taking the flameout of the automobile as a necessary condition for opening the front cover and judging the current automobile state, and the main control lock can be opened. Compared with the first lock unlocking in the prior art, the first lock unlocking method based on the automobile flameout as a necessary condition for unlocking the front cover is more suitable for the operation habit of a driver, and is safer without the risk of opening the front cover because the automobile is still running. And then the unlocking switch is controlled to control the main control lock and the first lock catch to unlock, so that the front cover is opened. Compared with the prior art, the driver can open the front cover only by operating the unlocking switch once, and does not need to walk to find the lock handle and repeatedly unlock the lock handle, so that the problems that the repeated unlocking operation is needed in the prior art and the risk of clamping hands of the front cover caused by finding the lock handle by the driver are solved.

According to another embodiment of the present invention, the method for controlling the front cover switch assembly of the automobile according to the embodiment of the present invention further includes, before step S2, the following steps:

s1-2: and after the automobile is judged to be flameout, the induction lock is unlocked.

By adopting the scheme, the safety is improved through the double-locking structure, and the risk of misoperation is avoided.

According to another specific embodiment of the present invention, the control method for controlling the front cover switch assembly of the automobile disclosed in the embodiment of the present invention further includes the following steps; and S3, after the locking sensor is started, the locking sensor monitors whether the front cover is in a closed state, and if the front cover is closed, the locking sensor controls the sensing lock and the main control lock to be locked.

By adopting the scheme, the vibration generated when the cover is closed is taken as a judgment basis, whether the front cover is closed or not and whether the buckling part is aligned with the lock catch or not can be accurately identified, and therefore incomplete locking of the front cover is avoided.

The invention has the beneficial effects that:

whether the automobile is in a flameout state or not is identified, so that the front cover can be opened by judging the current automobile state, the front cover can be opened, the main lock is opened through the unlocking switch, and the front cover is opened, so that the driver is free from the operation of opening the first lock in the prior art, and does not need to open the second lock in the prior art at the automobile head, the unlocking operation of the driver is reduced, and the risk that the driver clamps hands due to finding the automobile head to lock the handle is avoided.

Drawings

Fig. 1 is a schematic circuit structure diagram of an automobile front cover switch assembly in embodiment 1 provided by the invention;

FIG. 2 is a schematic circuit diagram of another embodiment of an automobile front cover switch assembly in example 1 according to the present invention;

FIG. 3 is a control flow block diagram of an embodiment of a method for controlling a front cover switch assembly of an automobile according to embodiment 2 of the present invention;

FIG. 4 is a control flow block diagram of another embodiment of a method for controlling a front cover switch assembly of an automobile according to example 2 of the present invention;

fig. 5 is a control flow block diagram of another embodiment of the method for controlling the front cover switch assembly of the automobile in embodiment 2.

Description of reference numerals:

1: an ignition switch; 2: a vehicle lock sensor; 3: an unlock switch;

4: a master control lock; 5: a latching sensor; 6: an induction lock; 7: an electromagnetic member.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure. While the invention will be described in conjunction with the preferred embodiments, it is not intended that features of the invention be limited to these embodiments. On the contrary, the invention is described in connection with the embodiments for the purpose of covering alternatives or modifications that may be extended based on the claims of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be practiced without these particulars. Moreover, some of the specific details have been left out of the description in order to avoid obscuring or obscuring the focus of the present invention. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

It should be noted that in this specification, like reference numerals and letters refer to like items in the following drawings, and thus, once an item is defined in one drawing, it need not be further defined and explained in subsequent drawings.

In the description of the present embodiment, it should be noted that the terms "upper", "lower", "inner", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that are conventionally placed when the products of the present invention are used, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements indicated must have specific orientations, be configured in specific orientations, and operate, and thus, should not be construed as limiting the present invention.

The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present embodiment, it should be further noted that, unless explicitly stated or limited otherwise, the terms "disposed," "connected," and "connected" are to be interpreted broadly, e.g., as a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present embodiment can be understood in specific cases by those of ordinary skill in the art.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

An automobile front cover switch assembly is provided, as shown in fig. 1, comprising a first lock catch arranged on an automobile body, a main control lock 4 arranged on the inner side of an automobile front cover, an automobile lock sensor 2, a locking sensor 5 and an unlocking switch 3; wherein the front cover and the body of the automobile are locked with the buckle of the first lock catch through the master lock 4; the lock sensor 2 is connected with an ignition switch 1 of the automobile and judges whether the automobile is flameout or not according to the state of the ignition switch 1; the unlocking switch 3 is respectively connected with the vehicle lock sensor 2 and the main control lock 4, and when the vehicle lock sensor 2 judges that the vehicle is in a flameout state, the unlocking switch 3 can control the main control lock 4 and the first lock catch to be locked and unlocked; the locking inductor 5 is connected with the automobile front cover to judge whether the automobile front cover is in lock catch clamping connection with the automobile body.

Specifically, the ignition switch 1 may be started by a keyless remote control or may be started by a vehicle key with a key cylinder. The unlocking switch 3 can be arranged in the vehicle, and can be arranged at the setting position of an opening handle at the lower part of the existing instrument desk, or can be arranged on a vehicle key to be started by remote control. The unlock switch 3 may be a switch for controlling the current of the circuit, a switch for controlling the on/off of the circuit, or a controller for sending a control signal, and the present embodiment is not particularly limited.

It should be understood that the control process among the unlocking switch 3, the vehicle lock sensor 2 and the main control lock 4 can be realized by simple circuit on-off by using the electric connection of circuit wires, and can also be connected to a vehicle body control system to enhance the control efficiency. That is, "the connection" in "the unlocking switch 3 is respectively connected with the lock sensor 2 and the master lock 4" may be an electrical connection or a communication connection, that is, the lock sensor 2 completes the operability of the unlocking switch 3 through a simple circuit on/off, or sends a control signal to make the unlocking switch 3 operable, so that the unlocking switch 3 may be further used to control the master lock 4.

More specifically, the lock sensor 2 may be a simple circuit switch, when the ignition switch 1 is a common plug-in key cylinder, the key is plugged to the end, and when the lock sensor 2 is touched, the circuit is broken to determine that the vehicle is not flameout, and when the key is pulled out and the switch of the lock sensor 2 is bounced, the vehicle is determined to be flameout, and the circuit is closed. The lock sensor 2 may also be a pressure-sensitive sensor that determines whether the vehicle is turned off by recognizing a pressed state of the key when inserted, for example, the ohong MEMS pressure sensor 2SMPP-02 ultra-small. In addition, the vehicle lock sensor 2 may be a sensor that determines feedback of the optical sensor when the optical sensor is inserted by an identification key, or may be a sensor that determines a signal of remote ignition of the vehicle by identification, or a sensor that sends a signal to the vehicle controller when the vehicle is in a flameout state.

Further, the lock sensor 5 may be an optical sensor, a vibration sensor, or a press sensor as long as it can determine that the front cover is in contact with the vehicle body. The locking sensor 5 is connected with the front cover of the automobile, and judges whether the front cover of the automobile is in lock catch clamping connection with the automobile body, so that other controls can be further carried out, for example, an alarm can be given out when the contact between the front cover and the automobile body is abnormal, or the main control lock 4 is controlled to be locked after the contact between the front cover and the automobile body is detected. The latching sensors 5 are of a type that does not require a small sensor to display readings, such as a low power MEMS gauge pressure sensor.

When the automobile lock is used, the automobile lock sensor 2 judges whether the automobile is flameout or not by identifying the state of the ignition switch 1 of the automobile, so that the front cover can be opened by taking the flameout of the automobile as a necessary condition for opening the front cover and judging the current automobile state, and the main control lock 4 can be opened. Compared with the first lock unlocking in the prior art, the first lock unlocking method based on the automobile flameout as a necessary condition for unlocking the front cover is more suitable for the operation habit of a driver, and is safer without the risk of opening the front cover because the automobile is still running. And then the unlocking switch 3 is controlled to control the main lock 4 and the first lock catch to unlock, so that the front cover is opened. Compared with the prior art, the driver only needs to operate the unlocking switch 3 once to open the front cover, and does not need to walk to the headstock to find the handle and do not need to repeatedly unlock the lock, so that the problems that the repeated unlocking operation is needed in the prior art and the risk of clamping hands of the front cover caused by the driver finding the headstock to lock the handle are solved.

According to another specific embodiment of the present invention, the embodiment of the present invention discloses a front cover switch assembly for an automobile, wherein the main control lock 4 comprises a first electromagnetic lock cylinder and a first buckling part capable of being driven by the first electromagnetic lock cylinder; the first electromagnetic lock cylinder is electrically connected with the unlocking switch 3 and is controlled to be powered on or powered off through the unlocking switch 3.

Specifically, the main control lock 4 is an electromagnetic lock, and after the main control lock is powered on, the first electromagnetic lock cylinder generates electromagnetic force to attract the first buckling part, so that the first buckling part is separated from the first lock buckle to complete unlocking.

More specifically, the vehicle lock sensor 2 judges that the vehicle is flameout through the state of the ignition switch 1, at the moment, the vehicle lock sensor 2 is electrified as a switch control circuit of the circuit, and as the first electromagnetic lock cylinder is electrically connected with the unlocking switch 3, the unlocking switch 3 is started after the first electromagnetic lock cylinder is electrified to control the first electromagnetic lock cylinder to be electrified and generate magnetic force. When the master lock 4 needs to be unlocked, the unlocking switch 3 is manually controlled.

According to another specific embodiment of the present invention, the automobile front cover switch assembly disclosed in the embodiment of the present invention, as shown in fig. 1, further includes a second lock catch disposed on the automobile body, and an inductive lock 6 disposed inside the automobile front cover; wherein the front cover and the body of the automobile are locked with the buckle of the second lock catch through the induction lock 6; the induction lock 6 comprises a second electromagnetic lock cylinder and a second buckling part which can be driven by the second electromagnetic lock cylinder; the second electromagnetic lock cylinder is electrically connected with the vehicle lock sensor 2, and the second electromagnetic lock cylinder is controlled to be powered on or powered off according to the judgment result of the vehicle lock sensor 2.

Specifically, the second electromagnetic lock core is controlled to be powered on or powered off according to the judgment result of the vehicle lock sensor 2, namely when the vehicle lock sensor 2 judges that the vehicle is flamed out, the unlocking switch 3 and the induction lock 6 are powered on, wherein the unlocking switch 3 is in an open state, and the induction lock 6 is unlocked.

More specifically, the process of sensing the inside of the lock 6 is that the vehicle lock sensor 2 controls the second electromagnetic lock cylinder to be electrified and generates electromagnetic force to attract the second buckling portion, and the second buckling portion is separated from the second lock catch to be clamped, so that unlocking is completed.

By adopting the scheme, the safety is improved through the double-locking structure, and the risk of misoperation is avoided.

According to another embodiment of the present invention, in the automobile front cover switch assembly disclosed in the embodiment of the present invention, as shown in fig. 2, the first latch and the second latch are disposed at the front side of the automobile body, and the main control lock 4 and the inductive lock 6 are disposed at the inner side of the automobile front cover side by side; the first electromagnetic lock cylinder and the second electromagnetic lock cylinder are an electromagnetic component 7, and the driving force of the first buckling part is larger than that of the second buckling part.

Specifically, when the front cover needs to be opened, after the vehicle lock sensor 2 senses that the vehicle is turned off, the electromagnetic member 7 is energized to attract the second buckling portion to be separated from the lock catch, so that the inductive lock 6 is opened, and at this time, the driving force (electromagnetic force) of the electromagnetic member 7 is not enough to enable the first buckling portion to be separated from the lock catch. Furthermore, as the vehicle lock sensor 2 enables the circuit where the unlocking switch 3 is located to be electrified, the unlocking switch 3 can control the electromagnetic component 7, the unlocking switch 3 is operated to increase the current, so that the driving force of the electromagnetic component 7 is increased, the first buckling part is further attracted to be separated from the lock catch to unlock the main control lock 4, and the front cover is opened.

It should be understood that the unlocking switch 3 in this embodiment may be a resistance switch, or other switches that can control the current magnitude of the circuit in which the first electromagnetic lock cylinder and the second electromagnetic lock cylinder are located. The electromagnetic member 7 may be an electromagnet.

By adopting the scheme, the locking and unlocking of the induction lock 6 and the main control lock 4 can be completed by using one lock catch and one electromagnetic component 7. In addition, what the unblock switch 3 that this embodiment used was connected with the response lock and the main control lock 4 of protecgulum is the electric wire, and the electric wire is softer for the steel wire line relatively, can adapt to more complicated front deck overall arrangement, reduces the exposure risk to reduce the opening force, make interior card handle paste more and make the profile with whole.

According to another embodiment of the present invention, the latching sensor 5 is a vibration sensor disposed inside the front cover of the vehicle.

Specifically, the vibration sensor may be disposed at the bottom of the latch of the front cover, and when the front cover is closed and pressed down, the front cover touches the vehicle body, and at this time, the first latching portion or the second latching portion falls down to the bottom of the latch to generate vibration, and the vibration sensor senses the vibration, so that it is determined that the front cover is closed, and the first latching portion or the second latching portion is aligned to the latch, so that the latching sensor 5 can send a next control command after sensing the signal.

By adopting the scheme, the vibration generated when the cover is closed is taken as a judgment basis, whether the front cover is closed or not and whether the buckling part is aligned with the lock catch or not can be accurately identified, and therefore incomplete locking of the front cover is avoided.

Further, as shown in fig. 2, the first electromagnetic key cylinder and the second electromagnetic key cylinder are electrically connected to the lock inductor 5.

Specifically, the lock sensor 5 detects that the first electromagnetic lock cylinder/the second electromagnetic lock cylinder is powered off when the front cover vehicle body is closed.

During the use, the vibrations inductor can set up in the hasp bottom of protecgulum, and after closing the protecgulum and making it press, the protecgulum touched the automobile body, and first clamping part or second clamping part touched the hasp bottom this moment, and vibrations are sensed to shutting inductor 5, and then make the circuit power failure by force, and above-mentioned electromagnetic component 7 loses the circuit and no longer attracts first clamping part or second clamping part, and first clamping part or second clamping part leave electromagnetic component 7 and lock with the hasp, accomplish the protecgulum and lock and close.

According to another embodiment of the invention, in the automobile front cover switch assembly disclosed in the embodiment of the invention, the lock sensor 2 is arranged at the bottom of the lock cylinder of the automobile, and whether the automobile stalls is judged according to the position of the lock cylinder.

By adopting the scheme, the vehicle lock sensor 2 is a physical switch, and is regarded as a disconnected circuit connection when a key is inserted, and is regarded as a reconnected circuit after the key is pulled out. The specific circuit can be connected with the vehicle lock sensor 2 only by one end of a wire, the other end of the wire is connected with the unlocking switch 3, and the wire is divided into a plurality of paths to be connected with the sensing lock 6, so that the various controls can be completed by simple circuit connection, and the structure is simple and the cost is low.

Example 2

There is also provided a control method of controlling the opening and closing assembly of the front cover of the automobile in embodiment 1, as shown in fig. 3, comprising the steps of:

s1: judging whether the automobile is flameout or not according to the state of an ignition switch 1 of the automobile;

s2: after the automobile is judged to be flameout, the unlocking switch 3 controls the main lock 4 to be unlocked with the first lock catch, and the locking sensor 5 is started.

Specifically, the unlocking inductive switch in step S1 determines whether the automobile stalls according to the plugging/unplugging state of the automobile key in the automobile lock cylinder, and when the automobile key is inserted into the lock cylinder, the unlocking inductive switch senses that the automobile does not stall; when the unlocking induction switch senses that the lock cylinder is pulled out of the automobile key, the automobile is judged to be flameout, the induction lock 6 is unlocked, and the locking inductor is started.

By adopting the scheme, whether the automobile is flamed out or not is identified, so that the front cover can be opened by taking the flameout of the automobile as a necessary condition for opening the front cover and judging the current automobile state, and the main control lock 4 can be opened. Compared with the first lock unlocking in the prior art, the first lock unlocking method based on the automobile flameout as a necessary condition for unlocking the front cover is more suitable for the operation habit of a driver, and is safer without the risk of opening the front cover because the automobile is still running. And then the unlocking switch 3 is controlled to control the main lock 4 and the first lock catch to unlock, so that the front cover is opened. Compared with the prior art, the driver only needs to operate the unlocking switch 3 once to open the front cover, and does not need to walk to the headstock to find the handle and do not need to repeatedly unlock the lock, so that the problems that the repeated unlocking operation is needed in the prior art and the risk of clamping hands of the front cover caused by the driver finding the headstock to lock the handle are solved.

In a preferred embodiment, as shown in fig. 4, before step S2, the method further includes the following steps:

s1-2: after the automobile is judged to be flameout, the induction lock 6 is unlocked.

By adopting the scheme, the safety is improved through the double-locking structure, and the risk of misoperation is avoided.

In a preferred embodiment, as shown in fig. 5, the following steps are also included; and S3, after the locking sensor is started, the locking sensor monitors whether the front cover is in a closed state, and if the front cover is closed, the locking sensor 5 controls the sensing lock 6 and the main control lock 4 to be locked.

Specifically, in step S3, the locking sensor determines whether the front cover is in the closed state according to the vibration generated when the front cover is closed, and then controls the inductive lock 6 and the main control lock 4 to lock, wherein the specific control manner may be the manner of locking the inductive lock 6 and the main control lock 4 after the electromagnetic member 7 is powered off in the above embodiment 1, or may be a manner of unlocking through different structures, for example, the locking sensor 5 senses the vibration, but instead of powering off, the other electromagnetic member 7 applies a force that causes the second locking portion/the first locking portion to fasten the lock catch, and the specific locking manner is not limited in this embodiment.

By adopting the scheme, the vibration generated when the cover is closed is taken as a judgment basis, whether the front cover is closed or not and whether the buckling part is aligned with the lock catch or not can be accurately identified, and therefore incomplete locking of the front cover is avoided.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that the foregoing is a more detailed description of the invention, taken in conjunction with the specific embodiments thereof, and that no limitation of the invention is intended thereby. Various changes in form and detail, including simple deductions or substitutions, may be made by those skilled in the art without departing from the spirit and scope of the invention.

Claims (7)

1. An automobile front cover switch assembly is characterized by comprising a first lock catch, a master lock, a lock sensor, a locking sensor and an unlocking switch, wherein the first lock catch is arranged on an automobile body of an automobile; wherein

The automobile front cover and the automobile body are locked through the buckle of the main control lock and the first lock catch;

the lock sensor is connected with an ignition switch of an automobile, and whether the automobile stalls or not is judged according to the state of the ignition switch; and is

The ignition switch is a plug-in type vehicle key lock cylinder, and the vehicle lock sensor judges whether the vehicle is flameout according to whether a vehicle key is inserted into the plug-in type vehicle key lock cylinder;

the unlocking switch is respectively connected with the vehicle lock sensor and the main control lock, and when the vehicle lock sensor judges that the vehicle is in a flameout state, the unlocking switch can control the main control lock and the first lock catch to be locked and unlocked;

the locking sensor is connected with the automobile front cover and used for judging whether the automobile front cover is in lock catch clamping connection with the automobile body;

the master control lock comprises a first electromagnetic lock cylinder and a first clamping part which can be driven by the first electromagnetic lock cylinder;

the first electromagnetic lock cylinder is electrically connected with the unlocking switch, and the first electromagnetic lock cylinder is controlled to be powered on or powered off through the unlocking switch;

the automobile front cover further comprises a second lock catch arranged on the automobile body of the automobile and an induction lock arranged on the inner side of the automobile front cover; wherein

The front cover of the automobile and the automobile body are locked through the buckle of the induction lock and the second lock catch; and is

The induction lock comprises a second electromagnetic lock cylinder and a second clamping part which can be driven by the second electromagnetic lock cylinder;

the second electromagnetic lock cylinder is electrically connected with the lock sensor and is controlled to be powered on or powered off according to the judgment result of the lock sensor;

the first lock catch and the second lock catch are arranged on the front side of the automobile body, and the main control lock and the induction lock are arranged on the inner side of the front cover of the automobile side by side; wherein

The first electromagnetic lock cylinder and the second electromagnetic lock cylinder are an electromagnetic component, and the driving force of the first buckling part is larger than that of the second buckling part.

2. The vehicle front cover switch assembly according to claim 1, wherein the lock sensor is a vibration sensor disposed inside the vehicle front cover.

3. The vehicle front cover switch assembly of claim 2, wherein the first electromagnetic latch core and the second electromagnetic latch core are electrically connected to the latch inductor.

4. The automobile front cover switch assembly as claimed in claim 3, wherein the lock sensor is disposed at a bottom of a lock cylinder of the automobile, and the automobile is determined to be flameout according to a position of the lock cylinder.

5. A control method for a front cover switch assembly of an automobile, wherein the front cover switch assembly of the automobile is the front cover switch assembly of any one of the preceding claims 1-4, the control method comprising the steps of:

s1: judging whether the automobile is flameout or not according to whether the automobile key is inserted into the plug-in automobile key lock cylinder or not;

s2: and after the automobile is judged to be flameout, the unlocking of the main control lock and the first lock catch is controlled through the unlocking switch, and the locking sensor is started.

6. The control method of the opening and closing assembly of the front cover of the automobile according to claim 5, wherein before the step S2, the method further comprises the steps of:

s1-2: and after the automobile is judged to be flameout, the induction lock is unlocked.

7. The control method of an automotive front cover switch assembly according to claim 6, characterized by further comprising the steps of;

and S3, after the locking sensor is started, the locking sensor monitors whether the front cover is in a closed state, and if the front cover is closed, the locking sensor controls the sensing lock and the main control lock to be locked.

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