CN114991617B - Direction-adjustable frameless car door lifter structure - Google Patents

Abstract

The invention discloses a direction-adjustable frameless car door lifter structure, and aims to solve the problems that a gap between car door glass and A, B columns of a traditional structure, the front and back car door glass are poor in surface and the glass cannot be lifted to the top. The automobile door glass lifter comprises a lifter body, wherein the lifter body is fixedly installed on an automobile door inner plate, automobile door glass is installed on the lifter body, and the lifter body comprises a lifter guide rail, a glass installation base arranged on the lifter guide rail, a driving mechanism and a glass Y-direction adjusting mechanism arranged on the lifter guide rail; the glass mounting base can enable the whole glass to be adjusted towards the lifter body X, Z; the glass Y-direction adjusting mechanism can realize the Y-direction surface adjustment of the door glass; the adjustable X, Y, Z-direction design can be adopted, and the problems of gaps between front and rear door glass and A, B, C columns, Y-direction surface difference and Z-direction height are effectively solved.

Description

Direction-adjustable frameless car door lifter structure

Technical Field

The invention relates to the technical field of automobiles, in particular to a frameless automobile door lifter structure with adjustable direction.

Background

With the development of the automobile market and the application of advanced technology, the requirements of people on the appearance quality of the whole automobile are higher. The prior art frameless car door lifter adopts the traditional structure, and the lifter can not be adjusted in X, Y, Z directions, and reasons such as sound front and back door glass size structure lead to glass and A, B, C post clearance inconsistent, and Y is poor great to the face, leads to the lifter Z to the error simultaneously, and glass-frame riser is not to the top problem, produces NVH problem.

Chinese patent publication No. CN210118035U, publication day 2020, month 02 and 28, which discloses a door glass lifter and a vehicle having the same. The door glass lifter includes: the lifter guide rail is provided with the buffer element, and the buffer element includes: support skeleton and elastic buffer. According to the door glass lifter disclosed by the embodiment of the utility model, the buffer element is positioned on one side close to the door glass, and when the door glass shakes, the door glass can strike the buffer element, so that the door glass can be effectively prevented from colliding with metals such as the lifter guide rail and hard plastics. The gap between the glass of the storage door and A, B columns, the surface difference between the glass of the front and rear doors and the problem that the glass cannot be lifted to the top are insufficient.

Disclosure of Invention

The invention overcomes the defects of the gap between the door glass and A, B columns of the traditional structure, the surface difference between the front door glass and the rear door glass and the problem that the glass cannot be lifted to the top, and provides the frameless door lifter structure with the adjustable direction, which can adopt the design with the adjustable X, Y, Z direction and effectively solve the problems of the gap between the front door glass and the rear door glass and the A, B, C columns, the Y-direction surface difference and the Z-direction height.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides a frameless door lifter structure of adjustable direction, includes the lifter body, and lifter body fixed mounting is on the door inner panel, and door glass installs on the lifter body, and the lifter body includes the lifter guide rail, sets up glass installation base, actuating mechanism on the lifter guide rail, sets up glass Y direction adjustment mechanism on the lifter guide rail; the glass mounting base can enable the whole glass to be adjusted towards the lifter body X, Z; the glass Y-direction adjusting mechanism can realize the Y-direction surface adjustment of the door glass; the driving mechanism can drive the door glass mounting base to move on the lifter guide rail, so as to drive the frameless door glass to realize the lifting function.

The invention adopts a flexible design scheme, and the lifter and the door glass adopt an adjustable method, so that the lifter can drive the glass to find any adjustment in three spaces X, Y, Z, the gap and Y-direction face difference adjustment between ABC columns of the frameless door glass can be realized, and the high-precision manufacturing of the door system can be realized.

Preferably, the lifter guide rail comprises a lifter guide rail I and a lifter guide rail II, and the glass mounting base comprises a glass mounting seat I and a glass mounting seat II; the driving mechanism comprises a wire coil seat arranged on the first lifter guide rail, a lifter motor arranged on the wire coil seat, a fixed pulley I arranged at one end part of the lifter guide rail, a fixed pulley II arranged at the two end parts of the lifter guide rail, and a plurality of lifter pull ropes, wherein each lifter pull rope comprises a lifter pull rope I, a lifter pull rope II and a lifter pull rope III; one end of a first lifter stay cord is connected to the wire coil seat, and the other end of the first lifter stay cord bypasses an upper fixed pulley II on a second lifter guide rail to be connected with a second glass mounting seat; one end of a second lifter stay cord is connected to the wire coil seat, and the other end of the second lifter stay cord bypasses a first lower fixed pulley on the first lifter guide rail and is connected with a first glass mounting seat; one end of the lifter stay cord III bypasses the upper end fixed pulley I on the glass mounting seat I to be connected with the glass mounting seat I, and the other end bypasses the lower end fixed pulley II on the lifter guide rail II to be connected with the glass mounting seat II. When the door glass needs to be lifted and adjusted, the lifter motor is started firstly, and the lifter motor is started to drive the three lifter pull ropes to synchronously drive, so that the first glass mounting seat and the second glass mounting seat synchronously slide on the lifter guide rail, and the door glass is driven to be opened or closed relative to the door inner plate.

Preferably, the second glass mounting seat comprises a first mounting seat arranged on the second lifter guide rail in a sliding manner, a first glass bracket, a first lifter mounting glass bracket, a locking nut and a locking bolt, the door glass is arranged on the first glass bracket, a round hole is formed in the first glass bracket, and the first lifter mounting glass bracket and the round hole are matched with the locking nut through the locking bolt. The first glass mounting seat comprises a second mounting seat and a second glass bracket which are arranged on the first lifter guide rail in a sliding manner, and the door glass is fixedly mounted through the first glass bracket and the second glass bracket; the door glass is adhered to the glass bracket through the colloid, the door glass bracket and the lifter glass bracket are integrally fixed on the glass mounting bracket of the lifter, the door glass bracket and the lifter glass bracket are fixed by adopting a clamp and screw, the glass bracket and the screw are in a through hole design and form a gap design with the screw, and the whole glass can be adjusted towards the lifter X, Z.

Preferably, the first mounting seat is provided with a clamping hook, the lifter mounting glass bracket is provided with a plurality of limiting strips, the lifter mounting glass bracket between the limiting strips is provided with a protruding block, and one end of the lifter mounting glass bracket can be connected to the first mounting seat through the matching of the clamping hook and the protruding block. The two limiting strips are arranged in parallel on the surface of the front side wall body of the glass bracket installed on the lifter, and the structure can prevent the clamping hooks from shifting on the convex blocks so as to generate dislocation; the stability of the lifter after the glass bracket is fixedly installed with the glass bracket is greatly improved.

Preferably, the glass Y-direction adjusting mechanism comprises an upper mounting seat and a lower mounting seat, wherein the upper mounting seat enables one end of the lifter guide rail to be connected with the inner plate of the vehicle door through a stud, a waist hole is formed in the lower mounting seat, and a through hole bolt at the other end of the lifter guide rail penetrates through the waist hole to be fixed. The design of the waist hole structure can enable the lifter guide rail to be fixedly installed along the waist hole direction, namely the Y direction in the invention.

Preferably, the end part of the lifter guide rail is provided with an adjusting plate, the lower mounting seat is provided with a rectangular groove, and the adjusting plate can be adjusted in the Y direction in the rectangular groove. With this structure, the Y-direction adjustment accuracy of the door glass can be improved.

Preferably, a plurality of limit baffles are arranged on the lifter guide rail, a connecting body is arranged on the glass mounting base, a shock absorption block is arranged on the connecting body, and the movement limit of the shock absorption block can be limited through the limit baffles. Two limit baffles are arranged on each lifter guide rail, two limit baffles are fixedly arranged on the lifter guide rail I between the two fixed pulleys I, two limit baffles are fixedly arranged on the lifter guide rail II between the two fixed pulleys II, and the limit baffles can limit the moving range of the door glass.

Preferably, the lifter guide rail is provided with a through hole, and the through hole is arranged on one side close to the limit baffle. The design of the through hole structure can reduce the production cost of the lifter guide rail and facilitate the installation of the shock absorption block on the connector.

Preferably, the connector is provided with a mounting groove with a cross structure, the end part of the lifting rope is provided with a mounting head with a T-shaped structure, and the mounting head is arranged in the mounting groove.

Preferably, a reinforcing plate is provided between the door inner panel and the lifter rail.

Compared with the prior art, the invention has the beneficial effects that: the invention adopts a flexible design scheme, and the lifter and the door glass adopt an adjustable method, so that the lifter can drive the glass to find any adjustment in three spaces X, Y, Z, the gap and Y-direction face difference adjustment between ABC columns of the frameless door glass can be realized, and the high-precision manufacturing of the door system can be realized.

Drawings

FIG. 1 is a schematic illustration of a direction-adjustable frameless door lifter construction of the present invention;

FIG. 2 is a schematic view of the structure of the lifter body of the present invention;

FIG. 3 is a schematic view of the combination of the first lifter rail and the second glass mount base of the present invention;

FIG. 4 is a cross-sectional view taken at "A-A" in FIG. 2;

FIG. 5 is a schematic view showing the structure of the connection of the door glass of the present invention to the glass bracket;

FIG. 6 is a cross-sectional view taken at "B-B" in FIG. 2;

FIG. 7 is a top view of the lower mount of the present invention;

In the figure: the door glass comprises a lifter body 1, a door inner panel 2, a door glass 3, a lifter guide rail 4, a glass mounting base 5, a lifter guide rail 1, a lifter guide rail 7, a glass mounting seat 8, a glass mounting seat 9, a wire coil seat 10, a lifter motor 11, a fixed pulley 12a, a fixed pulley 12b, a fixed pulley 13a, a fixed pulley 13b, a lifter pull rope 14a, a lifter pull rope 14b, a lifter pull rope three 14c, a mounting seat 15, a glass bracket 16, a lifter mounting glass bracket 17, a lock nut 18, a lock bolt 19, a round hole 20, a mounting seat 21, a glass bracket 22, an upper mounting seat 23, a lower mounting seat 24, a stud 25, a waist hole 26, a clamping hook 27, a bump 28, a limit stop 29, an adjusting plate 30, a rectangular groove 31, a limit stop 32, a connecting body 33, a shock absorber 34, a through hole 35, a mounting groove 36, a reinforcing plate 37, a clamping groove 38 and a clamping section 39.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The technical scheme of the invention is further specifically described by the following specific embodiments with reference to the accompanying drawings:

Example 1: the frameless car door lifter structure with adjustable direction (see fig. 1-7) comprises a lifter body 1 and a car door inner plate 2, wherein the lifter body 1 is fixedly arranged on the car door inner plate 2, a car door glass 3 is arranged on the lifter body 1, and the lifter body 1 comprises a lifter guide rail 4, a glass mounting base 5 arranged on the lifter guide rail 4, a driving mechanism and a glass Y-direction adjusting mechanism arranged on the lifter guide rail 4; a glass mounting base 5 for allowing the entire glass to be adjusted in a direction relative to the lifter body X, Z; the glass Y-direction adjusting mechanism can realize the Y-direction surface adjustment of the door glass; the driving mechanism can drive the glass mounting base to move on the lifter guide rail, so as to drive the frameless door glass to realize opening or closing.

The lifter guide rail 4 comprises a lifter guide rail I6 and a lifter guide rail II 7, and the glass mounting base 5 comprises a glass mounting seat I8 and a glass mounting seat II 9; the driving mechanism comprises a wire coil seat 10 arranged on a first lifter guide rail 6, a lifter motor 11 arranged on the wire coil seat 10, a first fixed pulley arranged at the end part of the first lifter guide rail 6, a second fixed pulley arranged at the end part of a second lifter guide rail 7, and a plurality of lifter pull ropes 14, wherein each lifter pull rope comprises a first lifter pull rope 14a, a second lifter pull rope 14b and a third lifter pull rope 14c; one end of a lifter stay cord 14a is connected to the wire coil seat 10, and the other end of the lifter stay cord bypasses an upper fixed pulley 13a on a lifter guide rail II to be connected with a glass mounting seat 9; one end of a lifter stay cord II 14b is connected to the wire coil seat 10, and the other end bypasses a fixed pulley I12 b at the lower end on a lifter guide rail I6 to be connected with a glass mounting seat I8; one end of the lifter stay cord III 14c bypasses the upper end fixed pulley II 13b on the lifter guide rail II 7 to be connected with the glass mounting seat II 9, and the other end bypasses the upper end fixed pulley II 12a on the glass mounting seat I8 to be connected with the glass mounting seat I8.

The second glass mounting seat 9 comprises a first mounting seat 15, a first glass bracket 16, a first lifter mounting glass bracket 17, a locking nut 18 and a locking bolt 19 which are arranged on the second lifter guide rail 7 in a sliding manner, the door glass 3 is arranged on the first glass bracket 16, a round hole 20 is formed in the first glass bracket 16, and the locking bolt 19 penetrates through the first mounting seat 15, the first lifter mounting glass bracket 17 and the round hole 20 to be matched with the locking nut 18; the first glass mounting seat 8 comprises a second mounting seat 21 and a second glass bracket 22 which are arranged on the first lifter guide rail 6 in a sliding manner, and the door glass 3 is fixedly mounted through the first glass bracket 16 and the second glass bracket 22; the door glass is adhered to the glass bracket through the colloid, the door glass bracket and the lifter glass bracket are integrally fixed on the glass mounting bracket of the lifter, the door glass bracket and the lifter glass bracket are fixed by adopting a clamp and screw, the glass bracket and the screw are in a through hole design and form a gap design with the screw, and the whole glass can be adjusted towards the lifter X, Z.

The glass Y-direction adjusting mechanism comprises an upper mounting seat 23 and a lower mounting seat 24, wherein the upper mounting seat enables one end of a lifter guide rail to be connected with the inner door plate 2 through a stud bolt 25, a waist hole 26 is formed in the lower mounting seat 24, and a through hole bolt at the other end of the lifter guide rail penetrates through the waist hole to be fixed. The design of the waist hole structure can enable the lifter guide rail to be fixedly installed along the waist hole direction, namely the Y direction in the invention.

The invention adopts a flexible design scheme, and the lifter and the door glass adopt an adjustable method, so that the lifter can drive the glass to find any adjustment in three spaces X, Y, Z, the gap and Y-direction face difference adjustment between ABC columns of the frameless door glass can be realized, and the high-precision manufacturing of the door system can be realized.

The working flow is as follows:

When the door glass needs to be lifted and adjusted, the lifter motor is started firstly, and the lifter motor is started to drive the three lifter pull ropes to synchronously drive, so that the first glass mounting seat and the second glass mounting seat synchronously slide on the lifter guide rail, and the door glass is driven to be opened or closed relative to the door inner plate.

Specific example 2:

The clamping structure (see fig. 2, 3 and 4) is additionally arranged on the basis of the specific embodiment 1, the clamping structure comprises a clamping hook 27 arranged on the first mounting seat and a protruding block 28 arranged on the lifter mounting glass bracket, two limit strips 29 which are arranged in parallel are arranged on the lifter mounting glass bracket, the protruding block is arranged between the limit strips, one end of the lifter mounting glass bracket can be connected to the first mounting seat through matching of the clamping hook and the protruding block, a clamping groove 38 is formed in the first mounting seat, a clamping section 39 is arranged on the first lifter mounting glass bracket, the clamping section 39 is buckled in the clamping groove, the other end of the lifter mounting glass bracket can be connected to the first mounting seat, and further the fixed mounting of the lifter mounting glass bracket and the first mounting seat can be realized. The two limiting strips are arranged in parallel on the surface of the front side wall body of the glass bracket installed on the lifter, and the structure can prevent the clamping hooks from shifting on the convex blocks so as to generate dislocation; the stability of the lifter after the glass bracket is fixedly installed with the glass bracket is greatly improved.

Specific example 3:

In this embodiment, a structure is added on the basis of embodiment 1, an adjusting plate 30 (see fig. 2,6 and 7) is arranged at the end of the lifter guide rail, a rectangular groove 31 is arranged on the lower mounting seat, and the adjusting plate can be adjusted in the rectangular groove along the Y direction. With this structure, the Y-direction adjustment accuracy of the door glass can be improved.

Specific example 4:

In this embodiment, a limit baffle 32 (see fig. 2 and 3) is added on the basis of embodiment 1, the limit baffle is disposed on a lifter guide rail, a connector 33 is disposed on a glass mounting base, a damper 34 is mounted on the connector, and the limit of movement of the damper can be limited by the limit baffle. Two limit baffles are arranged on each lifter guide rail, two limit baffles are fixedly arranged on the lifter guide rail I between the two fixed pulleys I, two limit baffles are fixedly arranged on the lifter guide rail II between the two fixed pulleys II, and the limit baffles can limit the moving range of the door glass.

Specific example 5:

In this embodiment, through holes 35 (see fig. 2 and 3) are added on the basis of embodiment 1, and the through holes are disposed on lifter guide rails, two through holes are disposed on each lifter guide rail, and the through holes are disposed on one side close to the limit baffle. The design of the through hole structure can reduce the production cost of the lifter guide rail and facilitate the installation of the shock absorption block on the connector.

Specific example 6:

In this embodiment, a mounting groove 36 (see fig. 3) is added on the basis of embodiment 1, the mounting groove is disposed on the connector and is in a cross-shaped structural design, the mounting groove is composed of a through hole and a guide groove communicated with the through hole, a reinforcing rib is fixedly disposed between the walls in the through hole and used for reinforcing the overall structure of the mounting groove, a mounting head of a T-shaped structure is disposed at the end of a pull rope of the lifter, and the mounting head is disposed in the mounting groove.

Specific example 7:

in this embodiment, a reinforcing plate 37 (see fig. 1) is added on the basis of embodiment 1, and the reinforcing plate is disposed between the inner plate of the vehicle door and the lifter guide rail, so that the lifter body is more convenient to detach and install.

The above-described embodiments are merely preferred embodiments of the present invention, and the present invention is not limited in any way, and other variations and modifications may be made without departing from the technical aspects set forth in the claims.

Claims (9)

1. The frame-free car door lifter structure comprises a lifter body, wherein the lifter body is fixedly installed on a car door inner plate, and car door glass is installed on the lifter body; the glass mounting base can enable the whole glass to be adjusted towards the lifter body X, Z; the glass Y-direction adjusting mechanism can realize the Y-direction surface adjustment of the door glass; the driving mechanism can drive the door glass mounting base to move on the lifter guide rail so as to drive the frameless door glass to realize the lifting function;

The bottom of the car door glass is provided with a glass bracket, the glass bracket and the lifter glass bracket adopt a clamp and screw fixing mode, the glass bracket and the screws adopt a via hole design, and a gap design is formed between the glass bracket and the screws;

The first mounting seat is provided with a clamping hook, the lifter mounting glass bracket is provided with a plurality of limiting strips, the lifter mounting glass bracket between the limiting strips is provided with a convex block, and one end of the lifter mounting glass bracket can be connected to the first mounting seat through the matching of the clamping hook and the convex block;

the glass Y-direction adjusting mechanism comprises a lower mounting seat provided with a waist hole.

2. The adjustable orientation frameless door lifter assembly of claim 1 wherein the lifter rail comprises a lifter rail one and a lifter rail two, the glass mount base comprises a glass mount base one and a glass mount base two; the driving mechanism comprises a wire coil seat arranged on the first lifter guide rail, a lifter motor arranged on the wire coil seat, a fixed pulley I arranged at one end part of the lifter guide rail, a fixed pulley II arranged at the two end parts of the lifter guide rail, and a plurality of lifter pull ropes, wherein each lifter pull rope comprises a lifter pull rope I, a lifter pull rope II and a lifter pull rope III; one end of a first lifter stay cord is connected to the wire coil seat, and the other end of the first lifter stay cord bypasses an upper fixed pulley II on a second lifter guide rail to be connected with a second glass mounting seat; one end of a second lifter stay cord is connected to the wire coil seat, and the other end of the second lifter stay cord bypasses a first lower fixed pulley on the first lifter guide rail and is connected with a first glass mounting seat; one end of the lifter stay cord III bypasses the upper end fixed pulley I on the glass mounting seat I to be connected with the glass mounting seat I, and the other end bypasses the lower end fixed pulley II on the lifter guide rail II to be connected with the glass mounting seat II.

3. The direction-adjustable frameless door lifter structure according to claim 2, wherein the second glass mounting seat comprises a first mounting seat arranged on the second lifter guide rail in a sliding manner, a first glass bracket, a first lifter mounting glass bracket, a locking nut and a locking bolt, the door glass is arranged on the first glass bracket, a round hole is formed in the first glass bracket, and the first glass bracket penetrates through the first mounting seat, the first lifter mounting glass bracket and the round hole to be matched with the locking nut through the locking bolt.

4. A frameless door lifter structure according to claim 1,2 or 3, wherein the glass Y-direction adjusting mechanism further comprises an upper mount which connects one end of the lifter rail to the door inner panel by a stud bolt, and the other end of the lifter rail is fixed by a through-hole bolt penetrating through the waist hole.

5. The adjustable direction frameless door lifter assembly of claim 4 wherein the lifter rail ends are provided with an adjustment plate, and wherein the lower mounting bracket is provided with a rectangular slot in which the adjustment plate is adjustable in the Y-direction.

6. The direction-adjustable frameless door lifter structure according to claim 5, wherein a plurality of limit baffles are arranged on the lifter guide rail, a connecting body is arranged on the glass mounting base, a shock absorption block is arranged on the connecting body, and the movement limit of the shock absorption block can be limited through the limit baffles; two limit baffles are arranged on each lifter guide rail and are arranged between fixed pulleys of the lifter guide rails.

7. A direction-adjustable frameless door lifter structure according to claim 1,2 or 3, wherein the lifter guide rail is provided with a through hole provided on a side close to the stopper plate.

8. The direction-adjustable frameless door lifter structure of claim 1 wherein the connector is provided with a cross-shaped mounting groove, the lifter pull cord end is provided with a T-shaped mounting head, and the mounting head is disposed in the mounting groove.

9. A direction-adjustable frameless door lifter structure according to claim 1 or 2 or 3, wherein a reinforcing plate is provided between the door inner panel and the lifter guide rail.