CN112761465A

CN112761465A - Glass fast-lifting vehicle door

Info

Publication number: CN112761465A
Application number: CN202110055392.1A
Authority: CN
Inventors: 郭成伟; 王冉冉; 李自豪; 李功文; 徐妍妍; 仪张婷
Original assignee: Gaomi City Power Supply Company State Grid Shandong Electric Power Co; Shandong Agricultural University
Current assignee: Gaomi City Power Supply Company State Grid Shandong Electric Power Co; Shandong Agricultural University
Priority date: 2021-01-15
Filing date: 2021-01-15
Publication date: 2021-05-07
Anticipated expiration: 2041-01-15
Also published as: CN112761465B

Abstract

The invention relates to the field of vehicle door structures, in particular to a glass rapid lifting vehicle door which can simultaneously have two lifting speeds of different driving modes and has a simple structure. The utility model provides a glass fast lifting door, includes a body, glass and elevating gear, glass and a body sliding connection, the glass bottom has set firmly the main slide rail of horizontal direction, elevating gear includes main lifing arm and vice lifing arm, main lifing arm middle part rotationally is connected with vice lifing arm middle part, main power device is connected to main lifing arm one end, the other end and main slide rail sliding connection, main lifing arm is connected on a body through the pivot, vice lifing arm one end and main slide rail sliding connection, other end sliding connection are to the level setting on the vice slide rail, vice slide rail sets firmly on the body, main lifing arm still connects vice power device.

Description

Glass fast-lifting vehicle door

Technical Field

The invention relates to the field of vehicle door structures, in particular to a glass rapid lifting vehicle door.

Background

At present, the lifting speed of the glass lifter of an automobile is lower than 200mm/s under the best environmental condition, and the slow lifting speed cannot deal with some sudden conditions needing the automobile window glass to be quickly lifted in the use process of the automobile, such as the running process, when sewage outside the automobile is about to splash into the automobile, when a sudden road meets a dust environment, when foreign matters such as stones are about to fly into the automobile, and the like. The lifting speed of door window receives the restriction of motor power, if improve motor power, can increase the space that the riser occupy on the one hand, on the other hand too fast lifting speed also can cause danger at ordinary times.

Disclosure of Invention

In view of the above disadvantages of the prior art, the present invention provides a fast lift car door with a simple structure, which can simultaneously have two lifting speeds of different driving modes.

The scheme provided by the invention is as follows:

the utility model provides a glass fast lifting door, includes a body, glass and elevating gear, glass and a body sliding connection, the glass bottom has set firmly the main slide rail of horizontal direction, elevating gear includes main lifing arm and vice lifing arm, main lifing arm middle part rotationally is connected with vice lifing arm middle part, main power device is connected to main lifing arm one end, the other end and main slide rail sliding connection, main lifing arm is connected on a body through the pivot, vice lifing arm one end and main slide rail sliding connection, other end sliding connection are to the level setting on the vice slide rail, vice slide rail sets firmly on the body, main lifing arm still connects vice power device. The main power device is used for controlling the lifting of the glass at ordinary times, the lifting of the glass can be realized through the rotation of the main lifting arm and the auxiliary lifting arm which are arranged in a crossed mode, the auxiliary power device can be selectively used according to actual situation requirements, the rapid lifting of a car window is realized, and meanwhile the structure of the main power device is not damaged.

Preferably, the main power device comprises a motor, a main gear and a sector gear, the motor is fixedly connected with the main gear, the main gear is meshed with the sector gear, the transmission ratio is less than 1, and the sector gear is fixedly connected with the main lifting arm. The motor drives the main gear, and the main gear drives the sector gear, so that the control of the main lifting arm can be realized.

Preferably, the main lifting arm is provided with a sliding groove along the length direction, and the sliding groove is connected with the rotating shaft in a sliding manner. The sliding groove is arranged to enable the main lifting arm to move relative to the door body, so that the main lifting arm is separated from the meshed state of the main gear and the sector gear, the auxiliary power device is driven, and the main power device is not affected.

Preferably, the main lifting arm is connected with the door body through an electromagnetic push rod, and the axial direction of the electromagnetic push rod is parallel to the length direction of the sliding groove. The electromagnetic push rod can quickly separate the main gear from the sector gear, and can still keep the main gear meshed with the sector gear when the auxiliary power device is not used.

Preferably, the auxiliary power device is a hydraulic oil cylinder, and two ends of the auxiliary power device are respectively hinged to the main lifting arm and the door body. The hydraulic oil cylinder has larger thrust and higher reaction speed.

Preferably, two main sliding blocks are arranged on the main sliding rail and are connected with the main sliding rail in a sliding mode, and the two main sliding blocks are respectively connected with the main lifting arm and the auxiliary lifting arm in a rotating mode. The main lifting arm and the auxiliary lifting arm are connected with the main sliding rail through the sliding block, so that the supporting stability of the main sliding rail can be improved.

Preferably, the auxiliary sliding rail is provided with an auxiliary sliding block, the auxiliary sliding block is connected with the auxiliary sliding rail in a sliding manner, and the auxiliary sliding block is rotatably connected with the auxiliary lifting arm. The auxiliary lifting arm is connected with the auxiliary sliding rail through the auxiliary sliding block, so that the supporting stability of the auxiliary sliding rail on the auxiliary lifting arm can be improved.

Preferably, hydraulic cylinder connects two three-way solenoid valves, two three-way solenoid valves include 0 mouthful, P mouth, A mouth and B mouth, O mouth and P mouth are connected oil pump and oil tank respectively, the both ends of hydraulic cylinder are connected respectively to A mouth and B mouth, O mouth passes through electromagnetism on-off valve and connects the oil tank. When the auxiliary power device does not work, the electromagnetic on-off valve is in an open state, no oil pressure exists in the hydraulic oil cylinder, the hydraulic oil cylinder cannot interfere the work of the main power device, and the pressure in the oil pump can be transmitted to the hydraulic oil cylinder after the electromagnetic on-off valve is closed, so that the hydraulic oil cylinder is driven to work.

Preferably, the door body is provided with friction blocks on two sides of the glass, and the door body is provided with a buffer block above the glass. The friction block can play the deceleration effect after glass rises to a certain height, and the buffer block can prevent that glass and door body from producing the impact.

The invention has the following beneficial effects:

1. the vehicle window is provided with the main power device and the auxiliary power device at the same time, the main power device is used for lifting glass at ordinary times, the auxiliary power device can realize the quick lifting of the glass under special conditions, and the main power device cannot be influenced;

2. the main lifting arm can move, and power transmission with the main power device can be quickly cut off in a moving mode, so that the auxiliary power device can control the main lifting arm;

3. the hydraulic oil cylinder can realize the rapid lifting of the glass, and the hydraulic oil cylinder does not have oil pressure inside when not working, does not generate self-locking and cannot influence the work of the main power device.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic illustration of a hydraulic ram connection.

In the figure: 1-a main lifting arm, 2-an auxiliary lifting arm, 3-a main slide rail, 4-a main gear, 5-a hydraulic oil cylinder, 6-an auxiliary slide rail, 7-a chute, 8-a rotating shaft, 9-an electromagnetic push rod, 10-a sector gear, 11-a main slide block, 12-an auxiliary slide block, 13-a two-position three-way electromagnetic valve, 14-an oil pump, 15-an oil tank and 16-an electromagnetic on-off valve.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a part of the embodiment of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and fig. 2, the embodiment provides a glass fast lifting vehicle door, including a door body, glass and elevating gear, glass and a door body sliding connection, glass bottom sets firmly main slide rail 3 that has the horizontal direction, elevating gear includes main lifing arm 1 and vice lifing arm 2, main lifing arm 1 middle part is rotationally connected with vice lifing arm 2 middle part, main power device is connected to main lifing arm 1 one end, the other end and main slide rail 3 sliding connection, main lifing arm 1 is connected on a body through pivot 8, vice lifing arm 2 one end and main slide rail 3 sliding connection, other end sliding connection is to the level setting on the vice slide rail 6, vice slide rail 6 sets firmly on a body, main lifing arm 1 still connects vice power device. The door body is provided with friction blocks at two sides of the glass, and a buffer block is arranged above the glass.

The main power device comprises a motor, a main gear 4 and a sector gear 10, the motor is fixedly connected with the main gear 4, the main gear 3 is meshed with the sector gear 10, the transmission ratio is smaller than 1, and the sector gear 10 is fixedly connected with the main lifting arm 1. Two main sliding blocks 11 are arranged on the main sliding rail 3, the main sliding blocks 11 are connected with the main sliding rail 3 in a sliding mode, and the two main sliding blocks 11 are respectively connected with the main lifting arm 1 and the auxiliary lifting arm 2 in a rotating mode. And an auxiliary sliding block 12 is arranged on the auxiliary sliding rail 6, the auxiliary sliding block 12 is connected with the auxiliary sliding rail 6 in a sliding manner, and the auxiliary sliding block 12 is rotatably connected with the auxiliary lifting arm 2.

The auxiliary power device is a hydraulic oil cylinder 5, and two ends of the hydraulic oil cylinder 5 are respectively hinged on the main lifting arm 1 and the door body. The main lifting arm 1 is provided with a sliding groove 7 along the length direction, and the sliding groove 7 is connected with a rotating shaft 8 in a sliding manner. The main lifting arm 1 is connected with the door body through an electromagnetic push rod 9, and the axial direction of the electromagnetic push rod 9 is parallel to the length direction of the sliding chute 7.

The hydraulic cylinder 5 is connected with a two-position three-way electromagnetic valve 13, the two-position three-way electromagnetic valve 13 comprises a port 0, a port P, a port A and a port B, the port O and the port P are respectively connected with an oil pump 14 and an oil tank 15, the port A and the port B are respectively connected with two ends of the hydraulic cylinder 5, and the port O is connected with the oil tank 15 through an electromagnetic on-off valve 16.

The working mode of the invention is as follows:

when the window glass normally works, the electromagnetic on-off valve 16 is opened, no pressure exists in the hydraulic oil cylinder 5, and the work of the main power device is not influenced. The motor can drive the main lifting arm 1 and the auxiliary lifting arm 2 to rotate through the main gear 4 and the sector gear 10, so that the glass is lifted or lowered.

When the rapid lifting is needed, the electromagnetic push rod 9 acts to pull the main lifting arm 1, so that the main gear 4 is disengaged from the sector gear 10, the electromagnetic on-off valve 16 is closed, the oil pump 14 drives the hydraulic oil cylinder 5 to move, and the hydraulic oil cylinder 5 replaces a motor to drive the main lifting arm 1 and the auxiliary lifting arm 2.

Although the present invention has been described in detail by referring to the drawings in connection with the preferred embodiments, the present invention is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. The utility model provides a glass fast rising door which characterized in that: including a body, glass and elevating gear, glass and a body sliding connection, the glass bottom has set firmly the main slide rail of horizontal direction, elevating gear includes main lifing arm and vice lifing arm, main lifing arm middle part rotationally is connected with vice lifing arm middle part, main power device is connected to main lifing arm one end, the other end and main slide rail sliding connection, main lifing arm is connected on the body through the pivot, vice lifing arm one end and main slide rail sliding connection, other end sliding connection are to the level setting on the vice slide rail, vice slide rail sets firmly on the body, main lifing arm still connects vice power device.

2. The fast glass-lifting vehicle door as claimed in claim 1, wherein: the main power device comprises a motor, a main gear and a sector gear, the motor is fixedly connected with the main gear, the main gear is meshed with the sector gear, the transmission ratio is smaller than 1, and the sector gear is fixedly connected with the main lifting arm.

3. The fast glass-lifting vehicle door as claimed in claim 2, wherein: the main lifting arm is provided with a sliding groove along the length direction, and the sliding groove is connected with the rotating shaft in a sliding mode.

4. The fast glass-lifting vehicle door as claimed in claim 3, wherein: the main lifting arm is connected with the door body through an electromagnetic push rod, and the axial direction of the electromagnetic push rod is parallel to the length direction of the sliding groove.

5. The fast glass-lifting vehicle door as claimed in claim 4, wherein: the auxiliary power device is a hydraulic oil cylinder, and two ends of the auxiliary power device are respectively hinged to the main lifting arm and the door body.

6. The fast glass-lifting vehicle door as claimed in claim 1, wherein: the main slide rail is provided with two main slide blocks, the main slide blocks are connected with the main slide rail in a sliding mode, and the two main slide blocks are respectively and rotatably connected with the main lifting arm and the auxiliary lifting arm.

7. The fast glass-lifting vehicle door as claimed in claim 1, wherein: and the auxiliary sliding rail is provided with an auxiliary sliding block, the auxiliary sliding block is connected with the auxiliary sliding rail in a sliding manner, and the auxiliary sliding block is rotationally connected with the auxiliary lifting arm.

8. The fast glass-lifting vehicle door as claimed in claim 5, wherein: the hydraulic cylinder is connected with a two-position three-way electromagnetic valve, the two-position three-way electromagnetic valve comprises a port 0, a port P, a port A and a port B, the port O and the port P are respectively connected with an oil pump and an oil tank, the port A and the port B are respectively connected with two ends of the hydraulic cylinder, and the port O is connected with the oil tank through an electromagnetic on-off valve.

9. The fast glass-lifting vehicle door as claimed in claim 1, wherein: the door body is provided with friction blocks on two sides of the glass, and the door body is provided with a buffer block above the glass.