CN217029901U - Lifting structure of electronic gear shifter handball - Google Patents

Abstract

The utility model discloses a lifting structure of an electronic gear shifter handball, which comprises the handball, a shell and a lifting component, wherein the shell is provided with a handle; the shell is arranged on the gear shifting mechanism; the lifting assembly is arranged in the shell; the handball is arranged above the lifting assembly and is borne on the shell; the handball can carry out axial lift operation through the elevating assembly. This scheme is through setting up elevation structure under the selector, and the selector is in hidden state before the car does not start, has guaranteed central channel's an organic whole nature, and the selector rises out after the car starts, and the selector descends to hide after putting out a fire, improves the pluralism of selector structure greatly, has increased the holistic science and technology of car and has felt.

Description

Lifting structure of electronic gear shifter handball

Technical Field

The utility model relates to the technical field of automobile manufacturing, in particular to a lifting structure of an electronic gear shifter handball.

Background

At present, most of gear shifters are fixed, and only can be operated in a front-back and left-right angle to shift gears, but cannot be lifted up and down. The shifter is mainly fixed at the position of the central passage, and the integrity of the central passage is influenced and the appearance is influenced because the shifter cannot lift. Meanwhile, the rigid structure cannot reflect the technological sense of the automobile, and differentiation of different automobiles can be performed only through surface treatment.

Therefore, how to improve the aesthetic feeling of the gear shifter is a problem to be solved in the field.

SUMMERY OF THE UTILITY MODEL

Aiming at the technical problem that the structure of the existing gear shifter is single in structure, the utility model aims to provide the lifting structure of the electronic gear shifter handball.

In order to achieve the purpose, the utility model provides a lifting structure of an electronic gear shifter handball, which comprises the handball, a shell and a lifting assembly, wherein the shell is provided with a first opening and a second opening; the shell is arranged on the gear shifting mechanism; the lifting assembly is arranged in the shell; the handball is arranged above the lifting assembly and is borne on the shell; the handball can carry out axial lift operation through the elevating assembly.

Further, the lifting assembly comprises a lead screw and a lead screw nut; the screw rod nut is sleeved on the screw rod.

Further, a bearing is arranged at the top and the root of the screw rod respectively.

Further, the lifting assembly is provided with a driving assembly in a matching manner; the driving assembly is arranged inside the shell.

Further, the driving assembly is directly connected with the lifting assembly in a driving mode.

Furthermore, the handball is arranged above the screw rod, the driving assembly directly drives the screw rod to rotate and to rotate in the screw rod nut to move longitudinally, and then the handball arranged above the screw rod is driven to lift.

Furthermore, the handball is arranged on the screw rod nut, and the driving component directly drives the screw rod nut to rotate and longitudinally move along the screw rod, so that the handball arranged on the screw rod nut is driven to lift.

Furthermore, the driving assembly is indirectly connected with the lifting assembly, and a transmission assembly is arranged between the lifting assembly and the driving assembly; the transmission assembly is controlled by a driving assembly; the transmission component is in driving connection with the lifting component.

Further, the transmission assembly comprises a motor gear and a gear; the motor gear is arranged at the driving end of the driving assembly; the motor gear drives the connecting gear; the gear center is equipped with the mounting hole for set up lifting unit.

Further, the motor gear drives a connecting gear; the gear drives the connecting screw rod, the driving screw rod rotates in the screw rod nut, the lifting of the moving screw rod is achieved, and then the handball arranged on the screw rod is driven to lift.

Further, the motor gear drives a connecting gear; the gear is connected with the screw rod nut in a driving mode, drives the screw rod nut to rotate and longitudinally moves along the screw rod, and drives the handball arranged on the screw rod nut to lift.

Furthermore, a gear belt is arranged between the motor gear and the gear; the gear belt is controlled by a motor gear; the gear belt is meshed with the gear, and the gear is driven to rotate.

Further, the motor is in gear drive connection with a gear belt; the gear belt is in driving connection with a gear; the gear is connected with the lead screw in a driving mode, the lead screw is driven to rotate in the lead screw nut, the moving lead screw is lifted, and then a handball arranged on the lead screw is driven to lift.

Further, the motor is in gear drive connection with a gear belt; the gear belt is in driving connection with a gear; the gear is connected with the screw rod nut in a driving mode, drives the screw rod nut to rotate and longitudinally moves along the screw rod, and drives the handball arranged on the screw rod nut to lift.

According to the lifting structure of the electronic gear shifter handball, the lifting structure is arranged on the gear shifter to lift the gear shifter, the gear shifter is in a hidden state before an automobile is not started, the integrity of a central channel is ensured, the gear shifter is lifted out after the automobile is started, and the gear shifter is lowered and hidden after flameout, so that the diversification of the structure of the gear shifter is greatly improved, and the overall scientific and technological feeling of the automobile is improved.

Drawings

The utility model is further described below in conjunction with the appended drawings and the detailed description.

FIG. 1 is a schematic view of the installation of the lifting structure of the handball of the electronic gear shifter;

FIG. 2 is a schematic view of the driving assembly of the present electronic shifter handball lifting structure;

FIG. 3 is a schematic view of the construction of the present lift assembly showing the assembly of the bearings;

FIG. 4 is an assembly view of the drive assembly and the transmission assembly of the present electronic shifter handball lifting structure;

FIG. 5 is a schematic view of the drive assembly of the present electronic shifter handball lift structure;

FIG. 6 is an assembly view of the drive assembly and the lift assembly of the present electronic shifter handball lift structure;

FIG. 7 is a schematic view of the lifting assembly of the present electronic shifter handball lifting structure;

FIG. 8 is an assembly schematic of the present electronic shifter handball lift structure lift assembly;

the following are references describing the components in the drawings:

100. handball 200, drive assembly 210, plug 310, motor gear 320, gear belt 330, gear 410, lead screw 420, lead screw nut 411, bearing 500, housing

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further explained by combining the specific drawings.

Because current selector is fixed and influence the pleasing to the eye of car central channel, therefore the elevation structure of electron selector handball that this scheme provided, it realizes the lift of selector through lead screw and screw-nut, the selector is in hidden state before the car does not start, has guaranteed central channel's wholeness, the selector rises out after the car starts, the selector descends and hides after flame-out, improve the pluralism of selector structure greatly, increased the holistic science and technology of car and felt.

Specifically, the lifting structure of the automobile gear shifter in the scheme, as shown in fig. 1, comprises a shell 500, a driving assembly 200 and a lifting assembly; the driving assembly 200 drives the lifting assembly to lift, and then drives the handball arranged on the lifting assembly to lift.

Further, the housing 500 is a supporting body of the handball 100 and an installation body of the driving assembly 200 and the lifting assembly; the driving assembly 200 and the lifting assembly are disposed inside the housing 500, and the entire lifting system is protected by disposing the housing 500.

The bottom of the housing 500 is arranged on the automobile gear shifting structure and is a connecting piece between the handball 100 and the gear shifting structure; the handball 100 can be matched with a gear shifting structure through the shell 500, and the gear shifting is carried out by the angle operation of front, back, left and right.

The housing 100 has two built-in cavities therein for the driving assembly 200 and the lifting assembly, respectively.

Referring to fig. 2, a connector 210 is provided on the drive assembly for connection to the PCBA and control of the drive assembly 200.

After the automobile is started and after the PCBA senses the opening state, the driving component 200 is started to drive the lifting component to ascend, and at the moment, the handball 100 ascends; after flameout, after the PCBA senses a flameout state, the driving component 200 is started to drive the lifting component to descend, and at the moment, the handball 100 descends and is hidden; this structure improves the pluralism of selector structure greatly, has increased the holistic science and technology of car and has felt.

The composition of the driving assembly is not limited herein, and may be, for example, the motor 200, which may be determined according to the actual situation.

The lifting assembly is used for lifting the handball 100 and is controlled by the driving assembly 200; the lift assembly includes a lead screw 410 and a lead screw nut 420.

Wherein, one end of the lead screw 410 is matched with the driving component 200, the lead screw nut 420 is sleeved on the lead screw 410, and the thread inside the lead screw nut 420 is matched with the external thread of the lead screw 410; the screw nut 420 is sleeved on the screw 410 and is connected with the screw 410 in a matching way.

In order to ensure the stability of the screw 410 during operation, referring to fig. 3, a bearing 411 is respectively arranged at the top and the root of the screw 410; the bearing 411 can support the screw rod 410, and can reduce the friction coefficient of the screw rod 410 during rotation, thereby ensuring the stability of the screw rod 410 during rotation.

The lifting assembly 200 in the scheme is not limited in structure, for example, the lifting assembly can also be lifted up and down through a gear and rack structure, specific selection is not limited, and the lifting assembly can be lifted up and down only by driving the gear shifter according to actual conditions.

In the scheme, the connection mode of the driving assembly 200 and the lifting assembly can be divided into direct connection and indirect connection;

the direct attachment is specifically illustrated in the following two examples:

the first embodiment is as follows:

directly driving the screw 410 to move:

one end of the lead screw 410 is connected with the handball 100; the lead screw nut 420 is sleeved on the lead screw 410 and fixed on the shell 500; the driving end of the driving assembly 200 is directly connected with the lead screw 410 for driving, and the lead screw 410 is driven to rotate in the lead screw nut 420, so as to realize the lifting of the moving lead screw 410, and further drive the handball 100 arranged on the lead screw 410 to lift.

Example two:

directly driving the feed screw nut 420 to move:

the handball 100 is arranged at two ends of the screw rod nut 420, and the screw rod 410 is fixed in the shell 500; the driving end of the driving assembly 200 is directly connected to the lead screw nut 420 for driving the lead screw nut 420 to rotate, and the lead screw nut 420 moves longitudinally along the lead screw 410 when rotating, so as to drive the handball 100 arranged on the lead screw nut 420 to lift.

The indirect connection is such that a transmission assembly is provided between the drive assembly 200 and the lifting assembly; the driving force of the driving component is transmitted to the lifting component through the transmission component, and the lifting component is driven to lift.

Wherein the transmission assembly comprises a motor gear 310 and a gear 330; the motor gear 310 is disposed at the driving end of the driving assembly 200, and the motor gear 310 is driven to rotate by the rotation of the driving assembly 200.

A mounting hole is formed in the center of the gear 330, and a threaded hole matched with the lifting assembly is formed in the inner part of the mounting hole; the lifting assembly is disposed within a mounting hole in the center of the gear 330.

The connection and the cooperation of the working relationship between the transmission assembly and the driving assembly can be described in the following two embodiments:

example three:

the driving motor 200 is in driving connection with the motor gear 310, the motor gear 310 is in driving connection with the gear 330, the gear 330 is in driving connection with the lead screw 410, the lead screw 410 is driven to rotate in the lead screw nut 420, the lifting of the moving lead screw 410 is achieved, and then the handball 100 arranged on the lead screw 410 is driven to lift.

Example four:

the driving motor 200 is in driving connection with the motor gear 310, the motor gear 310 is in driving connection with the gear 330, the gear 330 is in driving connection with the lead screw nut 420, and the lead screw nut 420 rotates and moves longitudinally along the lead screw 410 to drive the handball 100 arranged on the lead screw nut 420 to lift.

In addition, referring to fig. 4-8, a gear belt 320 may be disposed between the motor gear 310 and the gear 320, and the specific working cooperation relationship can be divided into the following two embodiments for description:

example five:

the motor gear 310 is in driving connection with the gear belt 320, and the gear 330 is arranged in the gear belt 320 and meshed with the gear belt 320; the motor gear 310 drives the gear belt 320, and the gear 330 rotates.

The gear 330 is in driving connection with the lead screw 410, and drives the lead screw 410 to rotate in the lead screw nut 420, so as to realize the lifting of the motion lead screw 410, and further drive the handball 100 arranged on the lead screw 410 to lift.

Example six:

the motor gear 310 is connected with the gear belt 320 in a driving way, and the gear 330 is arranged in the gear belt 320 and is meshed with the gear belt 320; the motor gear 310 drives the gear belt 320, and the gear 330 rotates.

The gear 330 is in driving connection with the lead screw nut 420, and the lead screw nut 420 rotates to move longitudinally along the lead screw 410, so as to drive the handball 100 arranged on the lead screw nut 420 to lift.

The composition of the transmission assembly is not limited to the above components, and only the lifting assembly needs to be driven to rotate, and the specific selection can be determined according to actual conditions.

The lifting structure of the electronic gear shifter handball provided by the scheme is particularly applied;

when the gear shifter is in a hidden state before the automobile is not started, the integrity of the central channel is ensured.

After the automobile is started and the PCBA senses the opening state, the starting motor 200 directly or indirectly drives the lifting component to ascend, and the handball 100 arranged on the lifting component ascends.

After putting out a fire, PCBA response flame-out state back, starter motor 200 directly or set up the indirect drive lift subassembly that drives of drive assembly and descend, and then set up that handball 100 on the lift subassembly descends and hides.

The elevation structure of the electron selector handball that constitutes by above-mentioned scheme, it is through setting up elevation structure under the selector, and the selector is in hidden state before the car does not start, has guaranteed central channel's wholeness, and the selector rises out after the car starts, and the selector drops and hides after flame-out, has increased the holistic science and technology of car and has felt.

The foregoing shows and describes the general principles, principal features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (14)

1. A lifting structure of an electronic gear shifter handball comprises the handball and is characterized by further comprising a shell and a lifting component; the shell is arranged on the gear shifting mechanism; the lifting assembly is arranged in the shell; the handball is arranged above the lifting assembly and is borne on the shell; the handball can carry out axial lift operation through the lift subassembly.

2. The lifting structure of an electronic shifter handball as claimed in claim 1, wherein said lifting assembly comprises a lead screw and a lead screw nut; the screw rod nut is sleeved on the screw rod.

3. The lifting structure of an electronic gear shifter handball as claimed in claim 2, wherein a bearing is arranged at the top and the root of said screw rod respectively.

4. The lifting structure of an electronic gear shifter handball as claimed in claim 1, wherein said lifting assembly is cooperatively provided with a driving assembly; the driving assembly is arranged inside the shell.

5. The lifting structure of an electronic shifter handball as claimed in claim 4, wherein said drive assembly is in direct drive connection with said lifting assembly.

6. The lifting structure of the hand ball of the electronic gear shifter as claimed in any one of claims 1, 2 and 4, wherein the hand ball is disposed above the lead screw, and the driving assembly directly drives the lead screw to rotate and to rotate in the lead screw nut to move longitudinally, thereby lifting the hand ball disposed above the lead screw.

7. The lifting structure of an electronic gear shifter hand ball according to any one of claims 1, 2 and 4, wherein the hand ball is arranged on the lead screw nut, and the driving assembly directly drives the lead screw nut to rotate and longitudinally move along the lead screw, so as to drive the hand ball arranged on the lead screw nut to lift.

8. The lifting structure of an electronic gear shifter handball as claimed in claim 4, wherein said drive assembly is indirectly connected to the lifting assembly, and a transmission assembly is provided between the lifting assembly and the drive assembly; the transmission assembly is controlled by a driving assembly; the transmission component is in driving connection with the lifting component.

9. The electronic shifter handball lifting structure according to claim 8, wherein said transmission assembly comprises a motor gear and a gear; the motor gear is arranged at the driving end of the driving assembly; the motor gear drives the connecting gear; the gear center is equipped with the mounting hole for set up lifting unit.

10. The elevating structure of an electronic shifter handball as set forth in claim 9 wherein said motor gear drive connects gears; the gear drives the connecting screw rod, the driving screw rod rotates in the screw rod nut, the lifting of the moving screw rod is achieved, and then the handball arranged on the screw rod is driven to lift.

11. The elevating structure of an electronic shifter handball as set forth in claim 9 wherein said motor gear drive connects gears; the gear is connected with the lead screw nut in a driving mode, drives the lead screw nut to rotate and longitudinally move along the lead screw, and drives the handball arranged on the lead screw nut to lift.

12. The lifting structure of an electronic shifter handball as claimed in claim 9, wherein a gear belt is arranged between said motor gear and said gear; the gear belt is controlled by a motor gear; the gear belt is meshed with the gear, and the gear is driven to rotate.

13. The lifting structure of an electronic shifter handball according to any one of claims 9 and 12, wherein said motor is in gear drive connection with a gear belt; the gear belt is in driving connection with a gear; the gear drives the connecting screw rod, the driving screw rod rotates in the screw rod nut, the lifting of the moving screw rod is achieved, and then the handball arranged on the screw rod is driven to lift.

14. The lifting structure of an electronic shifter handball according to any one of claims 9 and 12, wherein said motor is in gear drive connection with a gear belt; the gear belt is in driving connection with a gear; the gear is connected with the lead screw nut in a driving mode, drives the lead screw nut to rotate and longitudinally move along the lead screw, and drives the handball arranged on the lead screw nut to lift.

Images