CN110984765A

CN110984765A - Motor underlying window lifter system for automobile window

Info

Publication number: CN110984765A
Application number: CN201911020717.1A
Authority: CN
Inventors: 刘剑; 李贤龙; 黄伟; 吴昶
Original assignee: Dongfeng Boze Automobile System Co ltd
Current assignee: Dongfeng Boze Automobile System Co ltd
Priority date: 2019-10-25
Filing date: 2019-10-25
Publication date: 2020-04-10

Abstract

The invention discloses a motor-underneath window winder system for automobile windows, which comprises a guide rail, a guide wheel and a motor, wherein the guide wheel is arranged at the top of the guide rail, the bottom of the guide rail is fixedly provided with a cover plate in an inserted manner, the cover plate is fixedly provided with the motor, a motor rotating shaft of the motor is provided with a winding wheel, the guide rail is provided with a lifting slider in a lifting and sliding manner, the cover plate is provided with a winding wheel groove corresponding to the winding wheel, the edge of the winding wheel groove is provided with an oil storage groove, the guide rail is provided with a cover plate connecting part, the two sides of the insertion groove of the cover plate connecting part are respectively provided with a guide rail inserting end A and a guide rail inserting end B, the cover plate is provided with a guide rail inserting groove. The motor is arranged at the lower end of the guide rail, so that the limitation of the thickness of the motor on the thickness of the vehicle door can be eliminated, the space in the vehicle is increased, the comfort of passengers is improved, and the cost of the window lifter is reduced.

Description

Motor underlying window lifter system for automobile window

Technical Field

The invention relates to the field of lifting of automobile windows, in particular to a motor underlying window lifter system for automobile windows.

Background

The window winder of a common automobile window is arranged in the middle of a motor, and the thickness of the motor is larger, so that the door panel of the automobile door can be made to be relatively thick. If set up window winder's motor in the bottom position time, compare the motor and be located the middle part position, the motor is far away with leading wheel distance, and when motor drive wire rope moved, it caused wire rope to appear rocking about easily. The motor of traditional window winder is direct through the fix with screw in guide rail middle part position, if window winder's motor is put down, is to adopt the motor to pass through the fix with screw in the guide rail bottom, because motor and leading wheel are far away, the drive that the motor provided is easy for the bigger torsion in guide rail bottom, causes the apron and the guide rail bottom of motor not hard up easily. Therefore, the motor is arranged below the motor, the stability problem of the motor, the cover plate and the bottom of the guide rail under the operation of the motor needs to be solved, the lifting slide block is easy to shake due to the shaking of the steel wire rope, the user experience is influenced, and the service life of the product can be reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a motor underlying window winder system for automobile windows.

The purpose of the invention is realized by the following technical scheme:

a motor underneath type window winder system for automobile windows comprises a guide rail, a guide wheel and a motor, wherein the guide wheel is installed at the top of the guide rail, a cover plate is fixedly installed at the bottom of the guide rail in an inserted mode, the motor is fixed on the cover plate, a winding wheel is installed on a motor rotating shaft of the motor, a lifting slider is installed on the guide rail in a lifting sliding mode, a steel wire rope is wound on the winding wheel and comprises an upper steel wire rope and a lower steel wire rope, the upper steel wire rope bypasses the guide wheel and is fixedly connected with the lifting slider, and the end portion of the lower steel wire rope is fixedly connected with the lifting slider; the cover plate is provided with a winding wheel groove corresponding to the winding wheel, the middle part of the winding wheel groove is provided with a motor shaft mounting hole matched with a motor rotating shaft, the edge of the winding wheel groove is provided with an oil storage groove corresponding to the winding wheel, and the cover plate is provided with a steel wire rope outlet groove A and a steel wire rope outlet groove B corresponding to the winding wheel; the guide rail is provided with a cover plate connecting part, the middle part of the cover plate connecting part is provided with a splicing groove, the splicing groove of the cover plate connecting part is provided with a guide rail elastic sheet, the two sides of the splicing groove of the cover plate connecting part are respectively provided with a guide rail splicing end A and a guide rail splicing end B, the cover plate is provided with a guide rail splicing groove B which is spliced with the guide rail splicing end A in a matched mode, the cover plate is provided with a guide rail splicing groove A which is spliced with the guide rail splicing end B in a matched mode, and the cover plate is provided with a guide rail elastic sheet.

In order to better realize the invention, a steel wire rope supporting guide frame is arranged on the guide rail corresponding to the upper steel wire rope, and the steel wire rope supporting guide frame comprises a guide rail connecting support and a steel wire rope supporting seat arranged on the guide rail connecting support.

According to the further technical scheme, the left side and the right side of the steel wire rope supporting seat are respectively provided with a steel wire rope anti-unhooking C, the two steel wire rope anti-unhooking Cs are located on the rear side of the steel wire rope supporting seat, the middle of the front side of the steel wire rope supporting seat is provided with a steel wire rope anti-unhooking A, and the rear side of the steel wire rope supporting seat is provided with a square; the guide rail linking bridge includes guide rail connection panel and assembly support, guide rail connection panel is fixed in on the guide rail, it has the anticreep hook groove A with wire rope mousing-hook A matched with to open between guide rail connection panel and the assembly support, it has the quad slit with square checkpost matched with assembly to open on the assembly support, go up the wire rope and be located between the wire rope supporting seat front and back side.

According to a further technical scheme, a steel wire rope anti-unhooking groove B matched with the steel wire rope anti-unhooking groove B is formed in the middle of the rear side of the steel wire rope supporting seat, a steel wire rope supporting seat is installed on the steel wire rope supporting seat, the rear side of the steel wire rope supporting seat is provided with an anti-unhooking groove B, the upper steel wire rope is located above the steel wire rope supporting seat, and the upper steel wire rope is located between the two steel wire rope anti-unhooking grooves C and the steel wire.

Preferably, the wire rope support platform has guide slopes on both left and right sides thereof.

Preferably, the guide rail inserting groove A of the cover plate is internally provided with a contact block, a cavity A is formed in the cover plate connecting part of the guide rail, and a contact rib for correspondingly clamping the contact block is arranged in the cavity A of the cover plate connecting part; the guide rail plug-in groove B of the cover plate is internally provided with a contact block, a cavity B is formed in the cover plate connecting part of the guide rail, and a contact rib corresponding to the clamping contact block is arranged in the cavity B of the cover plate connecting part.

Preferably, one side of the winding wheel groove of the cover plate is provided with a steel wire rope anti-falling arc-shaped convex block, and the other side of the winding wheel groove of the cover plate is provided with a cover plate water leakage hole.

Preferably, the guide wheel is provided with an upper buffer block corresponding to the top of the lifting slide block, and the bottom of the lifting slide block is provided with a lower buffer block in an inserted manner.

Preferably, the cover plate is provided with a plurality of motor mounting positions, and the cover plate is provided with a plurality of bolt mounting positions.

Preferably, the cover plate is provided with three motor mounting positions which are arranged in a triangular shape; the cover plate is provided with three bolt mounting positions which are arranged in a triangular shape.

Compared with the prior art, the invention has the following advantages and beneficial effects:

(1) the cover plate connecting part of the guide rail and the cover plate connecting part of the guide rail are positioned in a mutual inserting mode, and then are elastically fixed in place through the guide rail elastic sheet and the guide rail elastic sheet matching block, so that the cover plate connecting part of the guide rail is inserted in the middle of the cover plate, the cover plate is uniformly stressed, and the torsion action of the motor in operation is counteracted by depending on the inside of the cover plate; install the motor on the apron through motor installation position, realize installing motor, apron on the automobile body through bolt installation position, overall structure performance is more stable, goes up and down more steadily.

(2) According to the invention, the guide rail is fixedly provided with the plurality of steel wire rope supporting guide frames for guiding the upper steel wire ropes to move, the lower steel wire ropes move in the guide rail grooves of the guide rail and are vertically arranged, so that the stable movement of the upper steel wire ropes and the lower steel wire ropes can be realized, and the stable lifting movement of the lifting slide block can be realized.

(3) According to the invention, the cover plate is provided with the winding wheel groove for the motion of the winding wheel, and meanwhile, the steel wire rope anti-falling arc-shaped bump and the steel wire rope anti-falling bump are arranged in the winding wheel groove, so that the separation of a steel wire rope in the winding wheel can be effectively prevented; meanwhile, the oil storage groove is circumferentially arranged at the edge of the winding wheel groove, so that lubricating oil can be stored, and the winding wheel can rotate more smoothly; the invention is provided with the wire rope outlet groove for the wire rope reeling and unreeling operation of the upper and lower wire ropes, and can play a role in guiding the movement of the wire rope.

(4) According to the invention, the upper buffer block for the upward movement of the lifting slide block is arranged on the guide wheel, so that when the glass swings in the normal direction, the glass can be prevented from impacting the metal part of the lifter, and the lower buffer block is arranged at the bottom of the lifting slide block, so that the impact force of the lifting slide block which descends to the bottom to the cover plate can be effectively reduced.

(5) The motor is arranged at the lower end of the guide rail, namely the motor is arranged at the bottom of the vehicle door, so that the limitation of the thickness of the motor on the thickness of the vehicle door can be eliminated, the vehicle door can be thinned, the space in the vehicle is enlarged, and the comfort of passengers is improved; moreover, the structure also reduces the number of parts, so that the cost of the whole window winder is reduced.

Drawings

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

FIG. 2 is a schematic structural view of the cover plate of FIG. 1;

FIG. 3 is a cross-sectional view of the rail with the cover plate attachment portion removed;

FIG. 4 is a schematic view of the structure of the cover plate connection portion of the guide rail;

FIG. 5 is a schematic view of the assembly between the cover plate and the mating portion of the rail;

FIG. 6 is a cross-sectional view of the arrangement of all of the contact ribs of the cover attachment portion of the present invention;

FIG. 7 is a schematic diagram illustrating the cover plate and the cover plate connection portion;

FIG. 8 is a schematic view of the installation between the guide connection bracket and the guide;

FIG. 9 is a schematic view of the rail attachment bracket;

FIG. 10 is a schematic top view of the steel cable support;

fig. 11 is a schematic perspective view of a steel wire rope support seat.

Wherein, the names corresponding to the reference numbers in the drawings are:

1-guide rail, 11-guide rail spring plate, 12-guide rail plug-in end a, 13-guide rail plug-in end B, 14-contact rib, 2-guide wheel, 3-cover plate, 31-motor mounting position, 32-bolt mounting position, 33-steel cable outlet groove a, 34-steel cable outlet groove B, 35-guide rail spring plate mating block, 36-steel cable anti-slip arc projection, 37-oil storage groove, 38-motor shaft mounting hole, 39-cover plate water leakage hole, 40-guide rail plug-in groove a, 41-guide rail plug-in groove B, 4-motor, 5-reel, 6-lifting slider, 61-lower buffer block, 7-steel cable support guide, 71-guide rail connection panel, 72-assembly bracket, 721-square hole, 73-anti-slip groove a, 74-steel cable support base, 741-square clip, 742-steel cable anti-slip B, 743-steel cable anti-slip a, 744-steel cable support base, 745-steel wire rope mousing-hook C, 746-guide inclined plane, 8-upper steel wire rope, 9-lower steel wire rope, 10-upper buffer block.

Detailed Description

The present invention will be described in further detail with reference to the following examples:

examples

As shown in fig. 1 to 11, a motor-underneath type window winder system for automobile windows comprises a guide rail 1, a guide wheel 2 and a motor 4, wherein the guide wheel 2 is installed at the top of the guide rail 1, the guide wheel 2 of the embodiment is riveted at the upper end of the guide rail through a hollow rivet, an upper buffer block 10 is an umbrella-shaped Y-direction rubber buffer block, the upper buffer block 10 is assembled on the hollow rivet through a center hole of the hollow rivet, a rod part of the upper buffer block 10 is in interference fit with the center hole, and the Y-direction buffer block (i.e., the upper buffer block 10) is used for preventing glass from shaking in the glass normal direction and impacting the guide rail 1. The fixed mounting that pegs graft in guide rail 1 bottom has apron 3, is fixed with motor 4 on the apron 3, installs reel 5 in motor 4's the motor shaft, and reel 5 design has interior ring gear, and motor shaft design has the gear, and reel 5 passes through the gear cooperation assembly in motor shaft. The motor is installed on the plastic cover plate through 3 mounting bolts, and the metal rod part of the motor output shaft is matched with the center hole of the cover plate. The guide rail 1 goes up and down to have slidable mounting has a lifting slide 6, and the winding wheel 5 goes up the winding has wire rope, and wire rope includes wire rope 8 and lower wire rope 9, goes up wire rope 8 and walks around leading wheel 2 and is connected fixedly with lifting slide 6, and lower wire rope 9 tip is connected fixedly with lifting slide 6. The cover plate 3 is provided with a winding wheel groove corresponding to the winding wheel 5, the middle part of the winding wheel groove is provided with a motor shaft mounting hole 38 matched with a motor rotating shaft, the edge of the winding wheel groove is provided with an oil storage groove 37 corresponding to the winding wheel 5, and the cover plate 3 is provided with a steel wire rope outlet groove A33 and a steel wire rope outlet groove B34 corresponding to the winding wheel 5. Guide rail 1 has the apron connecting portion, it has the grafting recess to open at apron connecting portion middle part, the grafting recess of apron connecting portion is equipped with guide rail shell fragment 11, apron connecting portion has guide rail grafting end A12 and guide rail grafting end B13 respectively in grafting recess both sides, it has the guide rail inserting groove B41 of pegging graft with guide rail grafting end A12 cooperation to open on the apron 3, it has the guide rail inserting groove A40 of pegging graft with guide rail grafting end B13 cooperation to open on the apron 3, apron 3 is equipped with and cooperates piece 35 with guide rail shell fragment 11 matched with guide rail shell fragment.

As shown in fig. 1, a steel wire rope supporting guide frame 7 is installed on the guide rail 1 corresponding to the upper steel wire rope 8, the steel wire rope supporting guide frame 7 provides a supporting surface for the steel wire rope, and 3 unhooking-preventing hooks are designed on the steel wire rope supporting guide frame 7 to prevent the steel wire rope from falling off. The wire rope support guide 7 includes a rail attachment bracket and a wire rope support seat 74 mounted on the rail attachment bracket. As shown in fig. 10 and 11, two wire rope unhooking prevention C745 is respectively disposed on the left and right sides of the wire rope support 74, the two wire rope unhooking prevention C745 are located on the rear side of the wire rope support 74, a wire rope unhooking prevention a743 is disposed in the middle of the front side of the wire rope support 74, and a square clip 741 is disposed on the rear side of the wire rope support 74. The guide rail connecting bracket comprises a guide rail connecting panel 71 and an assembling bracket 72, the guide rail connecting panel 71 is fixed on the guide rail 1, an anti-drop hook groove A73 matched with the steel wire rope anti-drop hook A743 is formed between the guide rail connecting panel 71 and the assembling bracket 72, a square hole 721 matched and assembled with the square clip 741 is formed in the assembling bracket 72, and the upper steel wire rope 8 is located between the front side and the rear side of the steel wire rope supporting seat 74.

As shown in fig. 10, a rope unhooking prevention B742 is disposed in the middle of the rear side of the rope support base 74, a rope support base 744 is mounted on the rope support base 74, an unhooking prevention groove B matched with the rope unhooking prevention B742 is disposed on the rear side of the rope support base 744, the upper wire rope 8 is located above the rope support base 744, and the upper wire rope 8 is located between two rope unhooking prevention C745 and rope unhooking prevention a 743. As shown in fig. 11, the left and right sides of the wire rope support table 744 (here, the upper and lower sides of the wire rope support table 744 if the wire rope lifting direction is used as a reference) are respectively provided with guide slopes 746, and the guide slopes 746 of the wire rope support table 744 can guide the wire rope.

As shown in fig. 6, the guide rail inserting groove a40 of the cover plate 3 of the present embodiment may have a contact block therein, a cavity a is opened inside the cover plate connecting portion of the guide rail 1, and a contact rib 14 for correspondingly clamping the contact block is provided in the cavity a of the cover plate connecting portion; after the cover plate 3 is inserted into the cover plate connecting part of the guide rail 1, all the contact ribs 14 in the cavity A are correspondingly, tightly matched and clamped with all the contact blocks in the guide rail inserting groove A40 one by one. A contact block is arranged in the guide rail inserting groove B41 of the cover plate 3, a cavity B is formed in the cover plate connecting part of the guide rail 1, and a contact rib 14 for correspondingly clamping the contact block is arranged in the cavity B of the cover plate connecting part; after the cover plate 3 is inserted into the cover plate connecting part of the guide rail 1, all the contact ribs 14 in the cavity B are tightly matched and clamped and fixed with all the contact blocks in the guide rail inserting groove B41 in a one-to-one correspondence manner. The lower end of the guide rail 1 is inserted into the cover plate 3, the cover plate 3 is provided with a corresponding insertion groove corresponding to the section of the guide rail, and the lower end of the guide rail 1 is provided with a guide rail elastic sheet 11 to limit the guide rail 1 to shake in the large-area normal direction.

As shown in fig. 2, a steel wire rope anti-drop arc-shaped projection 36 is disposed on one side of the winding wheel groove of the cover plate 3, and a cover plate water leakage hole 39 is disposed on the other side of the winding wheel groove of the cover plate 3. The cover plate 3 is provided with a plurality of motor mounting positions 31, and the cover plate 3 is provided with a plurality of bolt mounting positions 32. The preferred apron 3 of this embodiment is equipped with three motor installation position 31, and three motor installation position 31 are the triangle-shaped and arrange, adopts the triangle-shaped to arrange like this, and mechanical properties is more stable. The preferred apron 3 of this embodiment is equipped with three bolt installation position 32, and three bolt installation position 32 are the triangle-shaped and arrange, adopt the triangle-shaped to arrange like this, and mechanical properties is more stable.

As shown in figure 1, an upper buffer block 10 corresponding to the top of the lifting slide block 6 is arranged on the guide wheel 2, the upper buffer block 10 used for the lifting slide block 6 to move upwards is arranged on the guide wheel 2, and when the glass swings in the normal direction, the glass can be prevented from impacting the metal part of the lifter. Lower part buffer block 61 is installed in the grafting of 6 bottoms of lifting slide, is equipped with lower part buffer block 61 in lifting slide 6 bottoms, can effectively reduce lifting slide 6 and drop to the impact force of bottom position to apron 3. Lifting slide 3 of this embodiment is plastic slider, at two glass clip mounted positions, 2 becket inserts have been embedded, lifting slide 3 and glass clip's joint strength has been strengthened, the slider bottom is equipped with Z to rubber buffer block (be lower part buffer block 61), when glass moves to the lower dead center, because of glass and 2 glass clip fixed connection, glass clip again with lifting slide 3 fixed connection, Z plays the spacing effect of glass lower dead center to the buffer block, the spacing door sash that passes through of glass top dead center.

When the motor 4 rotates anticlockwise, the winding wheel 5 rotates along with the rotation, the upper steel wire rope 8 is pulled to move downwards, the upper steel wire rope 8 bypasses the guide wheel 2 to pull the lifting slide block 5 to move upwards, and the lifting slide block 5 moves upwards to drive the glass to move upwards, so that the car window is closed; the motor 4 rotates clockwise, the reel 5 rotates along with the reel, the lower steel wire rope 9 is pulled to move downwards, the lower steel wire rope 9 pulls the lifting slide block 5 to move downwards, and the lifting slide block 5 moves downwards and drives the glass to move downwards, so that the car window is opened.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a window winder system of formula of putting under motor for car door window, includes guide rail (1), leading wheel (2) and motor (4), its characterized in that: the guide wheel (2) is installed at the top of the guide rail (1), the bottom of the guide rail (1) is fixedly provided with a cover plate (3) in an inserted connection mode, a motor (4) is fixed on the cover plate (3), a winding wheel (5) is installed on a motor rotating shaft of the motor (4), a lifting slide block (6) is installed on the guide rail (1) in a lifting sliding mode, a steel wire rope is wound on the winding wheel (5), the steel wire rope comprises an upper steel wire rope (8) and a lower steel wire rope (9), the upper steel wire rope (8) bypasses the guide wheel (2) and is fixedly connected with the lifting slide block (6), and the end portion of the lower steel wire rope (9) is fixedly connected with the lifting slide block (; a winding wheel groove is formed in the cover plate (3) corresponding to the winding wheel (5), a motor shaft mounting hole (38) matched with a motor rotating shaft is formed in the middle of the winding wheel groove, an oil storage groove (37) corresponding to the winding wheel (5) is formed in the edge of the winding wheel groove, and a steel wire rope outlet groove A (33) and a steel wire rope outlet groove B (34) corresponding to the winding wheel (5) are formed in the cover plate (3); the guide rail (1) is provided with a cover plate connecting part, an inserting groove is formed in the middle of the cover plate connecting part, a guide rail elastic sheet (11) is arranged in the inserting groove of the cover plate connecting part, a guide rail inserting end A (12) and a guide rail inserting end B (13) are respectively arranged on two sides of the inserting groove of the cover plate connecting part, a guide rail inserting groove B (41) which is inserted in a matched mode with the guide rail inserting end A (12) is formed in the cover plate (3), a guide rail inserting groove A (40) which is inserted in a matched mode with the guide rail inserting end B (13) is formed in the cover plate (3), and a guide rail elastic sheet matching block (35) which is matched with the guide rail elastic sheet.

2. An under-motor window winder system for vehicle windows according to claim 1, characterised in that: the steel wire rope supporting and guiding device is characterized in that the guide rail (1) is correspondingly provided with a steel wire rope supporting and guiding frame (7) corresponding to the upper steel wire rope (8), and the steel wire rope supporting and guiding frame (7) comprises a guide rail connecting support and a steel wire rope supporting seat (74) arranged on the guide rail connecting support.

3. An under-motor window winder system for vehicle windows according to claim 2, characterised in that: the left side and the right side of the steel wire rope supporting seat (74) are respectively provided with a steel wire rope unhooking prevention C (745), the two steel wire rope unhooking prevention C (745) are positioned at the rear side of the steel wire rope supporting seat (74), the middle part of the front side of the steel wire rope supporting seat (74) is provided with a steel wire rope unhooking prevention A (743), and the rear side of the steel wire rope supporting seat (74) is provided with a square clamp (741); the guide rail connecting bracket comprises a guide rail connecting panel (71) and an assembling bracket (72), the guide rail connecting panel (71) is fixed on the guide rail (1), a square hole (721) matched and assembled with a square clip (741) is formed in the assembling bracket (72), and the upper steel wire rope (8) is located between the front side and the rear side of the steel wire rope supporting seat (74).

4. An under-motor window winder system for vehicle windows according to claim 3, characterised in that: the steel wire rope hook comprises a steel wire rope supporting seat (74), a steel wire rope unhooking prevention groove B (742) is arranged in the middle of the rear side of the steel wire rope supporting seat (74), a steel wire rope supporting seat (744) is installed on the steel wire rope supporting seat (74), an unhooking prevention groove B matched with the steel wire rope unhooking prevention groove B (742) is formed in the rear side of the steel wire rope supporting seat (744), an upper steel wire rope (8) is located above the steel wire rope supporting seat (744), and the upper steel wire rope (8) is located between two steel wire rope unhooking prevention grooves C (745) and.

5. An under-motor window winder system for vehicle windows according to claim 4, characterised in that: the left side and the right side of the steel wire rope supporting platform (744) are respectively provided with a guide inclined plane (746).

6. An under-motor window winder system for vehicle windows according to claim 1, characterised in that: a contact block is arranged in a guide rail inserting groove A (40) of the cover plate (3), a cavity A is formed in a cover plate connecting part of the guide rail (1), and a contact rib (14) for correspondingly clamping the contact block is arranged in the cavity A of the cover plate connecting part; the guide rail plug-in groove B (41) of the cover plate (3) is internally provided with a contact block, a cavity B is formed in the cover plate connecting part of the guide rail (1), and a contact rib (14) corresponding to the contact block is arranged in the cavity B of the cover plate connecting part.

7. An under-motor window winder system for vehicle windows according to claim 1, characterised in that: and a steel wire rope anti-falling arc-shaped convex block (36) is arranged in the winding wheel groove of the cover plate (3), and a cover plate water leakage hole (39) is formed in the other side of the winding wheel groove of the cover plate (3).

8. An under-motor window winder system for vehicle windows according to claim 1, characterised in that: the guide wheel (2) is provided with an upper buffer block (10) corresponding to the top of the lifting slide block (6), and the bottom of the lifting slide block (6) is provided with a lower buffer block (61) in an inserting manner.

9. An under-motor window winder system for vehicle windows according to claim 1, characterised in that: the motor cover is characterized in that a plurality of motor installation positions (31) are arranged on the cover plate (3), and a plurality of bolt installation positions (32) are arranged on the cover plate (3).

10. An under-motor window winder system for a vehicle window according to claim 9, characterised in that: the cover plate (3) is provided with three motor mounting positions (31), and the three motor mounting positions (31) are arranged in a triangular shape; the cover plate (3) is provided with three bolt mounting positions (32), and the three bolt mounting positions (32) are arranged in a triangular shape.