CN112378678B - Device for testing automobile glass lifting system - Google Patents

Abstract

The invention discloses a device for testing an automobile glass lifting system, which comprises: a base; the upper window frame guide groove module can be movably arranged on the base along the Y-axis direction; the front window frame guide groove module and the rear window frame guide groove module are oppositely arranged along the X-axis direction and can move along the X-axis direction and the Y-axis direction on the base; the inner and outer water cutting modules are oppositely arranged along the Y-axis direction, are arranged on the base and can move along the Y-axis direction; the window regulator guide module is mounted on the base and disposed opposite the upper sash guide slot module to be movable in an X-axis direction and a Y-axis direction. The parts for installing the window glass in the vehicle door are modularized, so that the parts for installing the window glass are split into a plurality of small modules, the distance between the modules is adjusted, different size requirements are adapted, vehicle door metal plates with various sizes do not need to be produced, and the cost is reduced. The modularized component is adopted to replace a real vehicle door metal plate assembly, so that the test manufacturing process and time can be shortened, and the glass lifting system can be simulated to find product problems in advance.

Description

Device for testing automobile glass lifting system

Technical Field

The invention relates to the technical field of automobiles, in particular to a device for an automobile glass lifting system test.

Background

The existing glass lifting system opening and closing endurance test mainly adopts a real vehicle metal plate to carry out the test. The glass lifting system mainly comprises window glass, an inner water cutter, an outer water cutter, a guide groove sealing strip, a glass lifter assembly, a decorative plate and the like. The guide groove sealing strip comprises an upper window frame guide groove module, a front window frame guide groove module and a rear window frame guide groove module; the glass lifter assembly mainly comprises a motor, a transmission steel wire, guide rails and the like, wherein some doors are double guide rails, and some doors are single guide rails. During the test, all parts of the glass lifting system are required to be installed on the door metal plate assembly.

However, since the size of the real vehicle door metal plate assembly is fixed after the manufacture, the size cannot be adjusted, and various sizes are involved in the research of the influence of the size precision of the door metal plate on the failure of the glass lifting system, so that the real vehicle door metal plates with various sizes need to be produced in the product development process. Because the trial-manufacturing period of the door metal plate is long, the sample-mixing time lags behind other parts in the test, the problems of overlong sample preparation time, short product problem solving time and the like are often caused.

Therefore, how to provide a device for testing an automobile glass lifting system, which meets the test purpose of automobile glass lifting systems with different sizes, is a problem to be solved urgently by those skilled in the art.

Disclosure of Invention

In view of the above, the invention provides a device for testing an automobile glass lifting system, which meets the test purpose of automobile glass lifting systems with different sizes.

In order to achieve the purpose, the invention provides the following technical scheme:

an apparatus for testing an automotive window lift system, comprising:

a base;

the upper window frame guide groove module, the front window frame guide groove module, the rear window frame guide groove module, the inner water cutting module and the outer water cutting module can be spliced into a window frame, and the upper window frame guide groove module can be movably arranged on the base along the Y-axis direction; the front window frame guide groove module and the rear window frame guide groove module are oppositely arranged along the X-axis direction and are installed on the base, and the front window frame guide groove module and the rear window frame guide groove module can move along the X-axis direction and the Y-axis direction on the base; the inner water cutting module and the outer water cutting module are oppositely arranged along the Y-axis direction and are installed on the base, and both the inner water cutting module and the outer water cutting module can move along the Y-axis direction on the base;

the window glass lifter guide rail module can be mounted on the base in a manner of moving along the X-axis direction and the Y-axis direction, and is arranged opposite to the upper window frame guide groove module.

Preferably, the apparatus for testing a window regulator system of an automobile further comprises: and the upper window frame guide groove control table is arranged on the base and positioned above the base, and the upper window frame guide groove module can be movably arranged on the upper window frame guide groove control table along the Y-axis direction.

Preferably, in the above apparatus for testing a window glass lifting system of an automobile, the upper sash guide groove console is provided with a plurality of mounting holes and positioning pin holes along the Y-axis direction for mounting the upper sash guide groove module.

Preferably, the apparatus for testing a glass-frame lifting system of an automobile further comprises:

the front window frame guide groove module control platform is arranged on the base and is positioned below the upper window frame guide groove control platform, and the front window frame guide groove module can be movably arranged on the front window frame guide groove module control platform along the X-axis direction and the Y-axis direction;

the rear window frame guide groove module control console is installed on the base, is located below the upper window frame guide groove module control console and is arranged opposite to the front window frame guide groove module control console along the X-axis direction, and the rear window frame guide groove module is installed on the rear window frame guide groove module control console in a manner of moving along the X-axis direction and the Y-axis direction.

Preferably, in the above apparatus for testing a window regulator system of an automobile, the front sash guide groove module console comprises:

the base is arranged on the base in a manner that the base can slide along the X-axis direction through the X-axis direction slide rail assembly;

the panel is used for fixing the front window frame guide groove module and is connected with the base through a Y-axis direction sliding rail assembly capable of moving along the Y-axis direction;

the structure of the front window frame guide groove module control console is the same as that of the rear window frame guide groove module control console, and the panel of the rear window frame guide groove module control console is used for fixing the rear window frame guide groove module.

Preferably, the apparatus for testing a glass-frame lifting system of an automobile further comprises:

the inner water cutting module control table and the outer water cutting module control table are arranged on the base in a relative mode in the Y-axis direction, the inner water cutting module control table and the outer water cutting module control table are located below the front window frame guide groove module and are arranged in a relative mode with the upper window frame guide groove module, the inner water cutting module can be arranged on the inner water cutting module control table in a moving mode in the Y-axis direction, and the outer water cutting module can be arranged on the outer water cutting module control table in a moving mode in the Y-axis direction.

Preferably, in the above apparatus for testing a glass lifting system of an automobile, the inner water cutting module console comprises an inner water cutting base fixed on the base and an inner water cutting panel slidably mounted on the inner water cutting base through a Y-axis guide rail, and the inner water cutting panel is used for mounting the inner water cutting module;

the outer water cutting module control console comprises an outer water cutting base fixed on the base and an outer water cutting panel slidably mounted on the outer water cutting base through a Y-axis direction guide rail, and the outer water cutting panel is used for mounting the outer water cutting module.

Preferably, the device for testing the automobile glass lifting system further comprises a glass lifter guide rail module control platform installed on the base, and the glass lifter guide rail module is installed on the glass lifter guide rail module control platform and can move along the X-axis direction and the Y-axis direction.

Preferably, in the above apparatus for testing a window regulator system of an automobile, the window regulator guide rail module console comprises:

the mounting base is slidably mounted on the base through an X-direction sliding guide rail and an X-direction sliding table;

the installation panel, the installation panel passes through Y to sliding guide and Y to slip table slidable mounting be in on the installation base, just the glass-frame riser guide rail module is installed on the installation panel.

Preferably, in the device for the automobile glass lifting system test, two glass lifter guide rail modules are oppositely arranged along the Y-axis direction, and the glass lifter guide rail modules are correspondingly installed on the installation panels one to one.

Preferably, the device for the automobile glass lifting system test further comprises a control unit for controlling the movement of the upper window frame guide groove module, the front window frame guide groove module, the rear window frame guide groove module, the inner water cutting module, the outer water cutting module and the glass lifter guide rail module, and the control unit is installed on the base.

According to the device for the automobile glass lifting system test, the part for installing the automobile window glass in the automobile door is modularized, so that the part for installing the automobile window glass is split into the plurality of small modules, the distance between the modules is adjusted, different size requirements are met, automobile door metal plates with various sizes do not need to be produced, and the cost is reduced. In addition, the modularized component is adopted to replace a real vehicle door metal plate assembly, so that the test manufacturing process and time can be shortened, and the glass lifting system can be simulated to find product problems in advance.

Drawings

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

FIG. 1 is an exploded view of a modular door of the apparatus for testing a window lift system of an automobile as disclosed in an embodiment of the present invention;

FIG. 2 is an assembly view of a modular door of the apparatus for testing an automotive window lift system as disclosed in an embodiment of the present invention;

FIG. 3 is a schematic illustration of a disassembled structure of the apparatus for testing a glass lifting system of an automobile disclosed in the embodiment of the invention;

FIG. 4 is a schematic illustration of a disassembled structure of a base of the device for testing the automobile glass lifting system disclosed in the embodiment of the invention;

FIG. 5 is a schematic illustration of a disassembled structure of an upper window frame guide groove control console of the device for testing the automobile glass lifting system, which is disclosed in the embodiment of the invention;

FIG. 6 is an exploded view of the front sash channel module console of the apparatus for testing a window lift system of an automobile as disclosed in an embodiment of the present invention;

FIG. 7 is an exploded view of the internal water cut module console of the apparatus for testing an automotive window lift system as disclosed in an embodiment of the present invention;

FIG. 8 is an exploded view of the outer water cutting module console of the apparatus for testing an automotive window lift system as disclosed in an embodiment of the present invention;

FIG. 9 is an exploded view of the glass lifter rail module console of the apparatus for testing an automotive glass lifting system as disclosed in an embodiment of the present invention;

FIG. 10 is an assembly view of the apparatus for testing a window lift system of an automobile as disclosed in an embodiment of the present invention.

Detailed Description

The invention discloses a device for testing automobile glass lifting systems, which meets the test aim of automobile glass lifting systems with different sizes.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1-10, the present application further discloses a device for testing an automobile window glass lifting system, comprising a base 7, an upper window frame guide groove module 1, a front window frame guide groove module 2, a rear window frame guide groove module 3, an inner water cutting module 4, an outer water cutting module 5 and a window glass lifter guide rail module 6. Wherein, the base 7 is used as the installation basis of the whole test device, and the specific size and the shape of the base can be set according to the actual requirement. The upper window frame guide groove module 1, the front window frame guide groove module 2, the rear window frame guide groove module 3, the inner water cutting module 4 and the outer water cutting module 5 can be spliced into a window frame of an automobile, and the glass lifter guide rail module 6 is of a structure for lifting automobile glass. Specifically, the upper sash guide groove module 1 is movably mounted on the base 7 along the Y-axis direction; the front window frame guide groove module 2 and the rear window frame guide groove module 3 are oppositely arranged and installed on the base 7, and the front window frame guide groove module 2 and the rear window frame guide groove module 3 can move on the base 7 along the X-axis direction and the Y-axis direction; the inner water cutting module 4 and the outer water cutting module 5 are oppositely arranged and installed on the base 7, and both the inner water cutting module 4 and the outer water cutting module 5 can move on the base 7 along the Y-axis direction. The above-described lifter guide rail module 6 is movably installed on the base 7 in the X-axis direction and the Y-axis direction, and the lifter guide rail module 6 is disposed opposite to the upper sash guide groove module 1.

The part of installation window glass has carried out the modularization in this application in the door, makes the part split of installation window glass become a plurality of little modules, through adjusting the distance between each module to the different dimensional requirement of adaptation need not produce multiple size door panel beating, the cost is reduced. In addition, the modularized component is adopted to replace a real vehicle door metal plate assembly, so that the test manufacturing process and time can be shortened, and the glass lifting system can be simulated to find product problems in advance.

In a specific embodiment, the apparatus for testing an automobile glass lifting system further includes an upper sash guide groove console 11 mounted on the base 7 and located above the base, and the upper sash guide groove module 1 is movably mounted on the upper sash guide groove console 11 along the Y-axis direction. The upper sash channel console 11 acts as a jig for the upper sash and is used to change the position of the upper sash channel module 1. The specific structure of the upper-sash guide-groove console 11 is not particularly limited, and the protection range is within the range as long as the upper-sash guide-groove module 1 can move along the Y-axis direction. In practice the upper sash channel console 11 can be fixed to the base 7, while the upper sash channel module 1 can move; the upper window frame guide groove module 1 can also be fixed on an upper window frame guide groove control platform 11, and the upper window frame guide groove control platform 11 can move along the Y-axis direction; in addition, the upper sash guide module 1 and the upper sash guide console 11 may be mounted to move in the Y-axis direction. It will be appreciated by those skilled in the art that the selection can be made according to the dimensional requirements of the test and all within the scope of protection.

In the application, the upper window frame guide groove control platform 11 is provided with a plurality of mounting holes and positioning pin holes used for mounting the upper window frame guide groove module 1 along the Y-axis direction, and when the upper window frame guide groove control platform is used, the corresponding mounting holes and positioning pin holes are selected according to different size requirements to mount the upper window frame guide groove module 1 on the upper window frame guide groove control platform 11. Furthermore, a sliding rail connection may also be used, i.e. the sliding mounting of the upper sash guide channel module 1 on the upper sash guide channel console 11 is achieved by the cooperation of the sliding rail and the guide rail. The matching mode of the sliding rail and the guide rail is simple in structure, the adjustment of any size can be realized, the adjustment range is large, the automation can be realized through the driving of the motor, and the labor intensity of an operator is reduced.

In a further embodiment, the above apparatus for testing a glass-frame lifting system of an automobile further comprises: a front window frame channel module console 21 and a rear window frame channel module console 31. The front window frame guide groove module control platform 21 is arranged on the base 7 and is positioned below the upper window frame guide groove control platform 11, and the front window frame guide groove module 2 can be movably arranged on the front window frame guide groove module control platform 21 along the X-axis direction and the Y-axis direction; the rear window frame guide groove module console 31 is installed on the base 7 below the upper window frame guide groove module console 11 and is arranged opposite to the front window frame guide groove module console 21 in the X-axis direction, and the rear window frame guide groove module 3 is installed on the rear window frame guide groove module console 31 movably in the X-axis direction and the Y-axis direction. The front frame guide groove module control board 21 and the rear frame guide groove module control board 31 are respectively used as installation bases of the front frame guide groove module 2 and the rear frame guide groove module 3, and specific shapes and sizes can be set according to actual requirements. The manner of movement of the front sash guide channel module 2 relative to the base in the X-axis direction and the Y-axis direction may be such that the front sash guide channel module 2 moves relative to the front sash guide channel module console 21, or both. Similarly, the installation principle of the rear frame channel module 3 is the same as that of the front frame channel module 2, and will not be described in detail.

The aforementioned front window frame channel module console 21 and rear window frame channel module console 31 are identical in structure and each include: a base and a faceplate. The description will be given by taking the window frame channel module console 21 as an example: the base 212 of the front window frame guide groove module control platform 21 is arranged on the base 7 in a manner of sliding along the X-axis direction through the X-axis direction sliding rail assembly; the front frame channel module 2 is fixed on the panel 211, and the panel 211 is connected to the base 212 through a Y-axis sliding rail assembly that can slide along the Y-axis direction. Here, a specific structure of the front frame channel module console 21 and the rear frame channel module console 31 is disclosed, and in practice, the front frame channel module 2 and the rear frame channel module 3 can be moved by using a lead screw nut. In addition, the slide rail assembly in the X-axis direction comprises an X-direction slide rail 214 and an X-direction electric sliding table 213 which are connected in a matched manner, and the X-direction electric sliding table 213 can be electrically controlled to realize electric driving, so that the labor intensity of an operator is reduced. Similarly, the Y-axis direction slide rail assembly includes a Y-direction slide rail 216 and a Y-direction electric sliding table 215 which are connected in a matching manner, and the front window frame guide groove module 2 moves along the X-direction through the Y-direction slide rail 216 and the Y-direction electric sliding table 215.

In practice, the guide groove sealing strip structure related to the glass lifting system test of some vehicle doors further comprises an independent guide groove module, the guide groove of some vehicle doors is further composed of a decorative plate, an inner water cutting module 4 and an outer water cutting module 5 are installed at the waist of a door sheet metal, a glass lifter guide rail module 6 and the independent guide groove module are connected with corresponding screw holes in the door sheet metal through bolts, the decorative plate is also fixed on a front window frame guide groove module 2 and a rear window frame guide groove module 2 through related structures, the independent guide groove installation point has an X-direction position adjusting function and a Y-direction position adjusting function, the adjustment is realized through an XY bidirectional adjusting sliding table, and the sliding table can be selected to be in a manual or electric mode.

In a further embodiment, the apparatus for testing a glass lifting system of an automobile further comprises an inner water cutting module console 41 and an outer water cutting module console 51. Wherein, interior water is cut module control cabinet 41 and outer water and is cut module control cabinet 51 and install on base 7 along Y axle direction mutual disposition, and just interior water is cut module control cabinet 41 and outer water and is cut module control cabinet 51 and all be located preceding window frame guide slot module 2 below and all with last window frame guide slot module 1 mutual disposition, and the installation that module 4 can be followed the removal of Y axle direction is cut on interior water is cut module control cabinet 41 to interior water, and what module 5 can be followed the removal of Y axle direction is cut to outer water installs on outer water is cut module control cabinet 51. The installation positions of the inner water cutting module control table 41, the outer water cutting module control table 51, the upper window frame guide groove control table 11, the front window frame guide groove module control table 21 and the rear window frame guide groove module control table 31 need to be arranged according to the shape of the vehicle window, and the vehicle window needs to be spliced. The specific structures of the inner water cutting module console 41 and the outer water cutting module console 51 can be set according to different requirements.

In the preferred embodiment, the inner water cutting module console 41 comprises an inner water cutting base 412 and an inner water cutting panel 411, and the outer water cutting module console 51 comprises an outer water cutting base 512 and an outer water cutting panel 511. The inner water cutting base 412 is fixed on the base 7, the inner water cutting panel 411 is slidably mounted on a Y-axis sliding table 413 of the inner water cutting base 412 through a Y-axis guide rail 414, and the inner water cutting module 4 is mounted on the inner water cutting panel 411. The inner water cutting module 4 moves on the base 7 along the Y-axis direction through the sliding fit of the Y-axis guide rail 414 and the Y-axis sliding table 413. The inner water cutting base 412 can be matched with the base 7 in a sliding mode to realize Y-axis direction movement.

The outer water cutting base 512 is fixed on the base 7, the outer water cutting panel 511 is slidably mounted on a Y-axis sliding table 513 of the outer water cutting base 512 through a Y-axis guide rail 514, and the outer water cutting module 51 is mounted on the outer water cutting panel 511. The outer water cutting module 5 moves on the base 7 along the Y-axis direction through the matching of the Y-axis direction guide rail 514 and the Y-axis direction sliding table 513. The Y-axis direction movement can also be realized by adopting the sliding fit of the external water cutting base 512 and the base 7. The guide rail structure can also be a ball screw structure. The dimensions and mounting of the guide rail are not particularly limited.

The device for testing the automobile glass lifting system disclosed in the application further comprises a glass lifter guide rail module control platform 61 installed on the base 7, and the glass lifter guide rail module 6 can be movably installed on the glass lifter guide rail module control platform 61 along the X-axis direction and the Y-axis direction. The device can meet different size requirements through movement in the X-axis direction and the Y-axis direction, and tests on different vehicle types are achieved. In practice, the manner of mounting on the base 7 is within the scope of protection as long as it enables the movement of the window regulator rail module 6 relative to the base 7 in the X-axis direction and the Y-axis direction. Specifically, the window regulator guide module console 61 is located below the inside and outside water cut module consoles 41 and 51, and the specific arrangement position can be set according to the actual window condition.

The window regulator guide rail module console 61 disclosed in the present application includes: a mounting base 611 and a mounting panel 612. Wherein, the mounting base 611 is slidably mounted on the base 7 through an X-direction sliding guide 614 and an X-direction sliding table 613; and the installation panel 612 is slidably installed on the installation base 611 by the Y-direction slide rail 616 and the Y-direction slide table 615, and the window regulator rail module 6 is installed on the installation panel 612. A specific structure of the window regulator guide module console 61 is disclosed herein, by which the window regulator guide module 6 can be slid in the X-axis direction and the Y-axis direction, and it will be understood by those skilled in the art that the movement in the X-axis direction and the Y-axis direction can be practically implemented by a ball screw structure. During operation, the mounting base 611 can be driven to slide along the X-direction sliding guide rail 614, so that the glass lifter guide rail module 6 can slide along the X-direction; sliding of the window regulator rail module 6 in the Y-direction is achieved by driving the mounting panel 612 to slide along the Y-direction slide rail 616.

In addition, in the device for the automobile glass lifting system test disclosed in the application, two glass lifting guide rail modules 6 are arranged oppositely along the Y-axis direction, in addition, the glass lifting guide rail modules 6 and the installation panels 612 are installed in a one-to-one correspondence mode, the two installation panels 612 are both connected with the same glass lifting guide rail module control console 61, in practice, the X direction of the two installation panels 612 can be connected through the same double-motor sliding table, and the two installation panels can move independently. It will be appreciated by those skilled in the art that adjustments in the X and Y directions can be made for a particular drive and installation.

In a further embodiment, the testing apparatus further comprises a control unit for controlling the movement of the upper sash guide module 1, the front sash guide module 2, the rear sash guide module 3, the inside water cutting module 4, the outside water cutting module 5 and the window regulator guide rail module 6, and the control unit is mounted on the base 7. The control unit can control the functional modules to move, specifically, the functional modules are matched with the sliding rail through the electric sliding table respectively, the motor can be driven to move mechanically, the control unit can control the motor to start and stop, and accordingly labor intensity of operators is further reduced. For the control unit there may be a power switch or a control signal. Specifically, a control computer and a switch structure may be mounted on the outside water cutting console 51. In addition, a plurality of accessories, such as a computer tray, a socket, a cable protection tow chain, a warning light, a switch and the like, are arranged on the base 7. In practice, the functional units with corresponding functions can be arranged according to different requirements. The control unit can control each control platform to move from the original point position to the required preset position so as to meet different size requirements, and the detailed control process is not described in detail herein.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (11)

1. An apparatus for testing an automotive window lift system, comprising:

a base (7);

the window frame comprises an upper window frame guide groove module (1), a front window frame guide groove module (2), a rear window frame guide groove module (3), an inner water cutting module (4) and an outer water cutting module (5) which can be spliced into a window frame, wherein the upper window frame guide groove module (1) can be movably installed on a base (7) along the Y-axis direction; the front window frame guide groove module (2) and the rear window frame guide groove module (3) are oppositely arranged along the X-axis direction and are installed on the base (7), and the front window frame guide groove module (2) and the rear window frame guide groove module (3) can move along the X-axis direction and the Y-axis direction on the base (7); the inner water cutting module (4) and the outer water cutting module (5) are oppositely arranged along the Y-axis direction and are installed on the base, and both the inner water cutting module (4) and the outer water cutting module (5) can move along the Y-axis direction on the base (7);

the glass lifter guide rail module (6) is movably mounted on the base (7) along the X-axis direction and the Y-axis direction, and the glass lifter guide rail module (6) and the upper window frame guide groove module (1) are oppositely arranged along the Y-axis direction;

the X axis is the length direction of the base (7), and the Y axis is the thickness direction of the base (7).

2. The apparatus for testing an automotive window regulator system of claim 1, further comprising: and the upper window frame guide groove control platform (11) is arranged on the base (7) and positioned above the base, and the upper window frame guide groove module (1) can be movably arranged on the upper window frame guide groove control platform (11) along the Y-axis direction.

3. The apparatus for testing an automobile window regulator system according to claim 2, wherein the upper sash guide groove console (11) is provided with a plurality of mounting holes and positioning pin holes for mounting the upper sash guide groove module (1) in the Y-axis direction.

4. The apparatus for testing an automotive window regulator system of claim 2, further comprising:

the front window frame guide groove module control platform (21) is installed on the base (7) and located below the upper window frame guide groove control platform (11), and the front window frame guide groove module (2) is installed on the front window frame guide groove module control platform (21) in a manner that the front window frame guide groove module control platform can move along the X-axis direction and the Y-axis direction;

back window frame guide slot module control cabinet (31), back window frame guide slot module control cabinet (31) is installed just be located on base (7) go up window frame guide slot control cabinet (11) below and with preceding window frame guide slot module control cabinet (21) are along X axle direction mutual disposition, back window frame guide slot module (3) can be followed the installation that X axle direction and Y axle direction removed on back window frame guide slot module control cabinet (31).

5. The apparatus for automotive window glass run system test according to claim 4, wherein the front sash guide channel module console (21) comprises:

the base (212) is installed on the base (7) in a manner that the base (212) can slide along the X-axis direction through an X-axis direction slide rail assembly;

the panel (211) is used for fixing the front window frame guide groove module (2), and the panel (211) is connected with the base (212) through a Y-axis direction sliding rail assembly capable of moving along the Y-axis direction;

the structure of the front window frame guide groove module control platform (21) is the same as that of the rear window frame guide groove module control platform (31), and a panel of the rear window frame guide groove module control platform (31) is used for fixing the rear window frame guide groove module (3).

6. The apparatus for testing a window regulator system of an automobile of claim 1, further comprising:

install along Y axle direction relative arrangement interior water on base (7) is cut module control platform (41) and outer water and is cut module control platform (51), interior water cut module control platform (41) with outer water is cut module control platform (51) and all is located preceding window frame guide slot module (2) below and all with go up window frame guide slot module (1) relative arrangement, interior water cut module (4) can follow the installation that Y axle direction removed and cut on module control platform (41) in the interior water, outer water cut module (5) can follow the installation that Y axle direction removed cut on module control platform (51).

7. The device for testing the automobile glass lifting system according to claim 6, wherein the inner water cutting module console (41) comprises an inner water cutting base (412) fixed on the base (7) and an inner water cutting panel (411) slidably mounted on the inner water cutting base (412) through a Y-axis guide rail (414), and the inner water cutting panel (411) is used for mounting the inner water cutting module (4);

module control cabinet is cut to extra income (51) is including fixing base (512) is cut to extra income on base (7) and through Y axle direction guide rail (514) slidable mounting be in extra income on base (512) is cut to extra income and is cut panel (511), extra income is cut panel (511) and is used for the installation module (5) is cut to extra income.

8. The apparatus for automotive glazing system test according to claim 1, further comprising a glazing guide rail module console (61) mounted on the base (7), the glazing guide rail module (6) being movably mounted on the glazing guide rail module console (61) in the X-axis direction and the Y-axis direction.

9. The apparatus for automotive glazing system test according to claim 8, characterized in that the glazing guide rail module console (61) comprises:

the mounting base (611) is mounted on the base (7) in a sliding mode through an X-direction sliding guide rail (614) and an X-direction sliding table (613);

installation panel (612), installation panel (612) through Y to sliding guide (616) and Y to slip table (615) slidable mounting on installation base (611), just glass-frame riser guide module (6) is installed on installation panel (612).

10. The apparatus for testing an automobile window regulator system according to claim 9, wherein the two window regulator guide modules (6) are oppositely arranged along the Y-axis direction, and the window regulator guide modules (6) are installed in one-to-one correspondence with the installation panels (612).

11. The apparatus for automotive window glass run test according to any one of claims 1-10, further comprising a control unit for controlling the movement of the upper sash guide channel module (1), the front sash guide channel module (2), the rear sash guide channel module (3), the inside water cutting module (4), the outside water cutting module (5) and the window glass lifter guide rail module (6), the control unit being mounted on the base (7).

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