CN112012598B - Electromagnetic driven hidden type vehicle door outer handle - Google Patents

Abstract

The invention relates to an electromagnetic-driven hidden type vehicle door outer handle, which comprises a base arranged on a vehicle door sheet metal, wherein a handle is hinged to the left end of the base, the leftmost end of the handle is hinged to a kidney-shaped hole at the left end of a connecting rod, the right end of the connecting rod is hinged to a push-pull electromagnet, the push-pull electromagnet is connected with an external power supply, a traction rod moves to pull the connecting rod so as to drive the handle to rotate to a popup position, a user can continuously pull the handle to a door opening position, a torsion spring is arranged at the torsion spring mounting part of the base, and the torsion spring can push the handle to return to a hidden state. The push-pull electromagnet replaces the traditional actuator of a gear set mechanism driven by a small motor, so that the driving structure of the hidden door handle is greatly simplified; the reliability is high; the durability is better; meanwhile, the cost of the hidden door handle is reduced; the mute performance is better; the damper can slow down the rebound and reset speeds of the handle, so that the user experience is better; the hidden position of the handle is provided with the sucker type magnet and the permanent magnet, so that the safety of the automobile is enhanced.

Description

Electromagnetic driven hidden type vehicle door outer handle

Technical Field

The invention relates to the technical field of vehicle locks, in particular to an electromagnetic-driven hidden type vehicle door outer handle.

Background

With the innovative development of vehicle technology, the hidden door handle is applied to some high-grade vehicles, most of the actuators of the hidden door handle in the prior art adopt a mode that a small motor transmits power through a transmission mechanism to eject the handle, the transmission mechanism is a worm gear set, the push rod is added with a cam mechanism and a connecting rod, in either mode, the structure is complex, the problems of insufficient driving moment (insufficient ejection force of a handle), unstable operation, poor durability, large action noise and the like are caused by the complex structure, so that about 50% of failure modes of the hidden door handle are derived from related problems of the actuators, and finally, the hidden door handle is poor in user experience.

To solve the above problems, it is often necessary to use a more powerful silent drive motor, a higher grade gear material, and a precise assembly of the various drive components during the actuator packaging process, thereby making the cost of the individual actuator assembly a relatively high percentage of the total cost of the entire hidden handle. Even then, the above problems caused by the complicated structure are not completely overcome.

Disclosure of Invention

In order to overcome the defects or shortcomings of the prior art, the invention aims to provide the electromagnetic driven hidden type vehicle door outer handle which has the advantages of simple structure, stable driving force and reliable ejection and silencing of the handle.

In order to solve the technical problems, the invention comprises the following components:

The invention discloses an electromagnetic driven hidden type vehicle door outer handle, which comprises a base arranged on a vehicle door sheet metal, wherein the base is of a strip-shaped thin-wall shell structure, a handle is hinged to the left end of the base through a main shaft pin, the width direction of the handle is hidden in an open shell on one side of the base outwards in a centering manner, the leftmost end of the handle is hinged with a kidney-shaped hole on the left end of a connecting rod, the right end of the connecting rod is hinged with the end part of a traction rod of a push-pull electromagnet, the push-pull electromagnet is fixed below the base and connected with an external power supply, and the traction rod of the push-pull electromagnet moves to pull the connecting rod so as to drive the handle to rotate to an ejecting position, so that a user can continuously pull the handle out to a door opening position manually; the side wall outside sets up along vertical with the coaxial torsional spring installation department in base main shaft hole around the base, the outside suit torsional spring portion of torsional spring installation department, be located handle main shaft hole left side on the handle and set up fore-and-aft mandrel hole, the assembly mandrel in the mandrel hole, the tip fluting of mandrel is in order to fix the torsional spring tip, the side wall outside is along vertical setting up with the coaxial guiding axle in mandrel hole around the handle, open the guiding groove with guiding axle motion trail correspondence department on the base, the torsional spring tip compresses the torsional spring along with the handle rotation when the handle pops out, when releasing the handle, the torsional spring passes through the mandrel and promotes the handle and get back to the hidden state.

The damper is mounted on the damper mounting hole on the base.

The damper is a gear damper, a damping gear of the gear damper is installed on one side of the handle, a fan-shaped tooth-shaped boss is arranged on the side wall of the handle, and tooth shapes on the outer circumference of the fan-shaped tooth-shaped boss are meshed with a gear of the tooth-shaped damper.

The middle part of the base is provided with a sucker type electromagnet, and a permanent magnet is arranged on a handle corresponding to the sucker type electromagnet.

A sucking disc type electromagnet and a permanent magnet are arranged at the corresponding positions of the far right ends of the base and the handle.

A balance weight is arranged in the middle of the mandrel and positioned on the inner side of the handle.

The handle can be composed of a lower cover and an upper cover, the main structure of the handle is arranged on the lower cover, and the upper cover is used as a cover plate to be buckled with the lower cover or fastened by a screw.

The base is made of glass fiber reinforced polypropylene material, and the handle is made of thermoplastic composite material.

Compared with the prior art, the invention has the advantages that:

The push-pull electromagnet of the hidden type vehicle door outer handle replaces the actuator of the traditional small motor gear set mechanism, greatly simplifies the structure of the door handle, is visible from the action process of the handle, has high reliability and better durability because of simple structure, and simultaneously reduces the cost of the door handle.

Since the electromagnet is much less noisy than the motor, the door handle of the present invention has better silencing performance.

The torsion spring is used for resetting the handle, and the structure is simple and practical.

The damper is arranged when the handle rebounds, the handle pop-up and resetting speed is slowed down, and the user experience degree is better.

When the handle is hidden, two pairs of electromagnets and permanent magnets are arranged on the handle and the base, so that risks caused by misoperation are reduced, and the safety of the automobile is enhanced.

Drawings

Fig. 1: front perspective view of the present invention;

Fig. 2: a top view of the present invention;

fig. 3: a cross-sectional view A-A of the top view of the present invention (handle hidden position view);

Fig. 4: the embodiment of the base 1 of the present invention is shown;

fig. 5: an embodiment of the handle 2 of the present invention is shown;

fig. 6: an embodiment of the damper 6 of the present invention is shown;

fig. 7: a front perspective view of the handle pop-up position of the present invention;

fig. 8: the handle of the present invention is a front perspective view of the door opening position.

Detailed Description

The conception, specific structure, and technical effects of the present invention will be further described with reference to the accompanying drawings to fully understand the objects, features, and effects of the present invention.

For more clearly illustrating the technical solution of the present application, the azimuth words described below are defined based on the view shown in fig. 1, and the usage of the azimuth words in fig. 1 should not limit the protection scope of the present application as claimed, corresponding to the outside and the inside of the vehicle door.

The handle of the hidden door outer handle needs to be switched among three position states of hiding, ejecting and opening. In the running process of the vehicle, the handle is hidden in the vehicle door, the outer surface of the handle is coplanar with the outer surface of the vehicle door, and the curve of the handle is matched with the curve of the vehicle door, so that the appearance of the vehicle body is more attractive, the situation that the handle is exposed outside and is contaminated with dirt to pollute hands of passengers is avoided, and wind noise is reduced; when the vehicle door needs to be opened after parking, a driver sends out a signal, and the control module controls the handle to pop up to the outer side of the vehicle door; the user holds the handle to rotate further, releases the locking state of the vehicle door and opens the vehicle door. The mechanism of the invention mainly comprises an executing part for driving the handle to act, and a door lock part is not specifically described.

As shown in fig. 1,2 and 3, the electromagnetic driven hidden type vehicle door outer handle comprises a base 1 arranged on a vehicle door sheet metal, wherein the base 1 is of a strip-shaped thin-wall shell structure, a handle 2 is hinged to the left end of the base 1 through a main shaft pin 7, the width direction of the handle 2 is centrally hidden in an open shell on the upward side of the base 1, a triangle connecting part 2a protruding downwards at the leftmost end of the handle 2 is hinged to a waist-shaped hole at the left end of a connecting rod 3, the right end of the connecting rod 3 is hinged to the end part of a traction rod of a push-pull electromagnet 4, and the push-pull electromagnet 4 is arranged below the base 1 and connected with an external power supply. The push-pull electromagnet 4 pulls the connecting rod 3 rightwards, then drives the handle 2 to rotate anticlockwise around the main shaft pin 7, and ejects the handle 2.

As shown in fig. 1,4 and 5, the main shaft pin 7 passes through a base main shaft hole 1d in the longitudinal direction (i.e. the front-rear direction in fig. 1) and a handle main shaft hole 2d in the longitudinal direction to hinge the two holes, and positions the main shaft pin 7 axially, and bosses coaxial with the main shaft holes are arranged on the outer sides of the front wall and the rear wall of the handle 2, so that the handle 2 can be hidden in the base 1 in the longitudinal direction in a centered manner. In fig. 4, the front and rear outer walls of the base spindle hole 1d are provided with column-shaped bosses, which are called torsion spring mounting portions 1a, the torsion spring mounting portions 1a are coaxial with the base spindle hole 1d, torsion spring portions 5a (see fig. 1) are sleeved on the outer sides of the torsion spring mounting portions, in order to facilitate the mounting of the torsion springs 5, the circumferential outer walls of the torsion spring mounting portions 1a are uniformly provided with protruding structures, and torsion spring end portions 5b are fixed on another spindle 8. In fig. 5, a longitudinal spindle hole 2b is provided on the handle 2 at the left side of the handle spindle hole 2d, a spindle 8 is assembled in the spindle hole 2b, the end of the spindle 8 is slotted to fix a torsion spring end 5b, front and rear walls of the spindle hole 2b on the handle 2 are outwards protruded with cylindrical bosses called guide shafts 2c, the guide shafts 2c are coaxial with the spindle hole 2b, when the guide shafts 2c rotate with the handle 2, the movement track is a curve, corresponding to the curve, a guide groove 1b is opened on the base 1, that is, the guide shaft 2c on the handle 2 moves in the guide groove 1b of the base 1, and in order to make the contact section between the guide shaft 2c and the guide groove 1b longer, bosses are provided on the inner wall of the periphery of the guide groove 1b of the base 1 to increase the depth of the guide groove 1b, so that the guide shaft 2c moves more smoothly and stably. In the process of opening the handle 2 from the hidden door opening position, the torsion spring end 5b on the mandrel 8 rotates around the center of the torsion spring 5a along with the handle 2, the torsion spring 5a is compressed, and when the driver releases the handle 2, the torsion spring 5a pulls the torsion spring end 5b back to the initial position, so that the torsion spring end 5b pushes the mandrel 8 to push the handle 2 to rotate clockwise, and the handle 2 returns to the hidden position.

As shown in fig. 4 and 6, a damper mounting hole 1c is provided in the right lower side of the base spindle hole 1d, and a damper 6 is mounted therein, and in this embodiment, a gear damper is used, and a damper gear of the gear damper is mounted on the side facing the handle 2. As shown in fig. 5, a fan-shaped tooth-shaped boss is arranged on the front side wall of the handle 2, tooth shapes are arranged on the outer circumference of the fan-shaped tooth-shaped boss, the damping gear is meshed with the tooth shapes of the fan-shaped tooth-shaped boss of the handle 2, and the fan-shaped tooth-shaped boss on the handle 2 can be connected with a boss coaxial with a handle spindle hole 2d to form a boss, so that the processing is convenient. In the process that the handle 2 returns to the hidden position from the door opening position, the damping gear can control the speed of the handle 2, so that the handle 2 slowly returns to the groove of the base 1, the handle 2 is prevented from returning too fast to strike the car door and generating noise, and therefore, the damper 6 is arranged to prevent the noise generated by the handle, and good user experience can be obtained.

When the handle 2 is hidden in the base 1, in order to avoid that the handle 2 is ejected by misoperation, as shown in fig. 3, a sucker type electromagnet 9 is installed in the middle of the base 1, and a permanent magnet 10 is installed at the position of the handle 2 corresponding to the sucker type electromagnet 9. When the handle 2 is in the hidden position, the sucker type electromagnet 9 is electrified to be attracted with the permanent magnet 10 on the handle 2, so as to fix the handle 2. When the control module controls the push-pull electromagnet 4 to be electrified to enable the handle 2 to pop out, the sucker type electromagnet 9 is powered off to lose magnetic force, so that the handle 2 is not fixed. Considering that if the handle 2 is long, in order to fix the end of the handle 2, the whole handle 2 is more reliably fixed at the hidden position, a sucking disc type electromagnet 9 and a permanent magnet 10 are also arranged at the corresponding positions of the far right ends of the base 1 and the handle 2, and the action principle and the action are the same as those of the sucking disc type electromagnet 9 and the permanent magnet 10 arranged in the middle of the base. The sucker type electromagnet 9 and the permanent magnet 10 are arranged on the base 1 and the handle 2, so that the handle 2 is more reliably fixed at the hidden position, the misoperation of opening the vehicle door is avoided, the safety of the vehicle is effectively improved,

In fig. 3, because the position of the rotating main shaft of the handle 2 is stronger from the left end of the handle 2, when the handle 2 is longer, the weight difference between the left side and the right side of the rotating main shaft of the handle 2 is larger, so that a balance block 11 is arranged in the middle of the mandrel 8 and positioned on the inner side of the handle 2 to compensate the weight difference between the left side and the right side of the handle 2, the two sides of the handle 2 are more balanced, and the handle 2 is safer and more reliable in action.

In the above embodiment, the torsion spring 5 and the damper 6 may be provided on both the front and rear sides of the base 1 and the handle 2, or may be provided on only one side thereof.

As shown in fig. 5, as an embodiment of the handle 2, the handle 2 may be composed of a lower cover 21 and an upper cover 22, the main structure of the handle 2 is disposed on the lower cover 21, the upper cover 22 is only used as a cover plate, and is buckled with the lower cover 21 or fastened by a screw, so that the processing technology of the split handle 2 is simpler, and the split handle 2 is also convenient for processing the two materials.

As shown in fig. 4, the base 1 is connected to the door panel by a base mounting portion 1e provided at the periphery thereof, and the base mounting portion 1e in the form of a thin plate can be provided at a desired position at the periphery of the base 1.

The base 1 is preferably made of glass fiber reinforced polypropylene material, and has light weight, high rigidity and good heat resistance. The handle 2 may be made of a thermoplastic composite material.

The working procedures of hiding, ejecting and opening the door of the outer handle of the vehicle door are as follows:

Fig. 3 is a hidden state of the handle 2, at this time, when the control module receives a signal for ejecting the handle 2, the pull rod of the push-pull electromagnet 4 is controlled to act rightward to pull the connecting rod 3, the left end of the connecting rod 3 pulls the handle 2 to rotate downward, so that the handle 2 rotates counterclockwise around the spindle pin 7, meanwhile, the sucker electromagnet 9 is electrified in a reversing manner, the suction force on the handle 2 is released, the permanent magnets at the end of the handle 2 are separated, the right end of the handle 2 is rotated outwards to be opened, when the handle 2 is opened to an ejecting state of 30 degrees or other angles (shown in fig. 7), the handle 2 is connected with the left end of the kidney-shaped hole of the connecting rod 3, and the pull rod of the push-pull electromagnet 4 is positioned at the rightmost side.

The driver continues to pull out the handle 2 outwards, the handle 2 continues to rotate anticlockwise until the door is opened by about 45 degrees or other angles (shown in fig. 8), in the process, the push-pull electromagnet 4 and the connecting rod 3 do not act, the left end of the handle 2 rotates inwards along with the anticlockwise rotation of the handle 2, and the hinge shaft of the handle 2 and the connecting rod 3 moves from the leftmost end to the rightmost end of the kidney-shaped hole of the connecting rod 3. The handle 2 pushes the door lock to unlock and opens the door while the driver pulls the handle 2 from the pop-up state to the door-open state.

When the driver releases the handle 2, under the action of the torsion spring 5, the handle 2 rotates clockwise around the spindle pin 7, the left end of the handle 2 rotates outwards, meanwhile, the traction rod of the push-pull electromagnet 4 pushes out leftwards, the connecting rod 3 moves leftwards and rotates leftwards, the hinging shaft of the handle 2 and the connecting rod 3 moves leftwards from the rightmost end of the kidney-shaped hole of the connecting rod 3 until the traction rod of the push-pull electromagnet 4 returns leftmost, the hinging shaft of the connecting rod 3 and the handle 2 returns to the leftmost end of the kidney-shaped hole, the handle 2 returns to a hidden state, and at the moment, the sucker electromagnet 9 is electrified to attract the handle 2.

From the above description, the push-pull electromagnet 4 of the hidden type vehicle door outer handle replaces the actuator of the traditional small motor gear set mechanism, greatly simplifies the structure of the door handle, and is also visible from the action process of the handle 2, and has the advantages of high reliability, better durability and reduced cost of the door handle because of simple structure; the electromagnet has much smaller noise than the motor, so that the door handle has better silencing performance; the torsion spring 5 is used for resetting the handle 2, so that the structure is simple and practical; the damper 6 is arranged in the rebound process of the handle 2, so that the rebound speed of the handle is slowed down, and the user experience is better; the sucker type electromagnet and the permanent magnet are arranged at the hidden position of the handle to fix the handle, so that risks caused by misoperation are reduced, and safety of an automobile is enhanced.

The above embodiments are only for illustrating the present invention, and are not limiting of the present invention. While the invention has been described in detail with reference to the embodiments, those skilled in the art will appreciate that various combinations, modifications, and equivalent substitutions can be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and it is intended to cover the scope of the claims of the present invention.

Claims (5)

1. The utility model provides a hidden door outer handle of electromagnetic drive, its characterized in that includes base (1) of installing on the door panel beating, base (1) are rectangular form thin wall shell structure, handle (2) pass through main pivot (7) articulated in the left end of base (1), handle (2) width direction is hidden in the middle in the open casing of base (1) outwards one side, handle (2) left end articulates with the kidney-shaped hole of connecting rod (3) left end, the right-hand member of connecting rod (3) articulates with the tip of push-pull electromagnet (4) draw bar, push-pull electromagnet (4) are fixed in base (1) below and are connected with external power source, the draw bar of push-pull electromagnet (4) removes to draw connecting rod (3) thereby drive handle (2) rotate to pop-up position, the user can continue the manual pull handle (2) to open door position;

A torsion spring mounting part (1 a) coaxial with a base spindle hole (1 d) is arranged on the outer sides of the front side wall and the rear side wall of the base (1) along the longitudinal direction, a torsion spring part (5 a) is sleeved outside the torsion spring mounting part (1 a), a longitudinal spindle hole (2 b) is arranged on the left side of the handle spindle hole (2 d) on the handle (2), a spindle (8) is assembled in the spindle hole (2 b), a torsion spring end part (5 b) is fixed by slotting at the end part of the spindle (8), a guide shaft (2 c) coaxial with the spindle hole (2 b) is arranged on the outer sides of the front side wall and the rear side wall of the handle (2) along the longitudinal direction, a guide groove (1 b) is formed on the base (1) corresponding to the movement track of the guide shaft (2 c), the torsion spring end part (5 b) rotates along with the handle (2) to compress the torsion spring (5), and when the handle (2) is released, the torsion spring (5) pushes the handle (2) to a hidden state;

a damper (6) is arranged on a damper mounting hole (1 c) on the base (1);

The damper (6) is a gear damper, a damping gear of the gear damper is installed on one side of the handle (2), a fan-shaped tooth-shaped boss is arranged on the side wall of the handle (2), and tooth shapes on the outer circumference of the fan-shaped tooth-shaped boss are meshed with a gear of the gear damper;

The middle part of the base (1) is provided with a sucker type electromagnet (9), and the handle (2) corresponding to the sucker type electromagnet (9) is provided with a permanent magnet (10).

2. The electromagnetic driven hidden door outer handle according to claim 1, wherein one of the suction cup type electromagnet (9) and one of the permanent magnets (10) are installed at the positions corresponding to the rightmost ends of the base (1) and the handle (2).

3. The electromagnetically driven hidden door handle according to claim 1, characterised in that a counterweight (11) is mounted in the centre of said spindle (8) inside said handle (2).

4. The electromagnetic driven hidden door outer handle according to claim 1, wherein the handle (2) is composed of a lower cover (21) and an upper cover (22), the main structure on the handle (2) is arranged on the lower cover (21), and the upper cover (22) is fastened with the lower cover (21) as a cover plate or by using screws.

5. The electromagnetically driven hidden door outer handle according to claim 1, characterised in that said base (1) is a glass fibre reinforced polypropylene material and said handle (2) is a thermoplastic composite material.