CN106017939A - Vehicle sunroof experiment method - Google Patents

Abstract

The invention discloses a vehicle sunroof experiment method. The method is provided with a support, wherein a synchronous belt is arranged at the two sides of the support; a lifting cylinder arranged at the lower portion of the support, wherein the position of the lifting cylinder can be adjusted through an adjustment cylinder; an installation plate fixedly connected with a piston rod of the lifting cylinder; positioning pins which are arranged at the installation plate and are used for insertion into positioning holes of a sunroof; a stop mechanism fixedly arranged on the installation plate, wherein the upper end of the stop mechanism is provided with a force transducer in contact with glass of the sunroof; a sliding force detection mechanism which is fixedly arranged on the installation plate and is provided with a frictional force sensor, wherein during detection of a frictional force, the frictional force sensor is in contact with the glass of the sunroof; and a wire harness automatic insertion mechanism which is fixedly arranged on the installation plate and automatically finishes plugging and unplugging and detection of a wire harness. According to the invention, unattended operation detection is realized, the work efficiency is high, and labor is saved.

Description

A kind of skylight of vehicle experimental technique

Technical field

The invention belongs to vehicle dormer window performance test technical field, particularly relate to a kind of skylight of vehicle experimental technique.

Background technology

During the test experience of tradition skylight, need to detect a series of performances in skylight, such as anti-grip force, friction Power, in conventional art, each detecting step uses different testing agencies, needs in different inspections during detection Detecting on measurement equipment, need manual operation simultaneously during detection, a dead lift, manually by skylight in different inspections Surveying and transport in mechanism, artificial plug wire harness, manual operation detects.

During realizing the present invention, inventor finds that prior art at least there is problems in that by not Same mechanism's detection, detection efficiency is low, and manual operation labor intensity is big, inefficiency, waste of manpower.

Summary of the invention

The technical problem to be solved is to provide one and is automatically performed the anti-grip force in skylight on an equipment Detect with sliding force, and can adapt to the skylight of vehicle experimental technique of dissimilar vehicle.

In order to solve above-mentioned technical problem, the technical solution adopted in the present invention is: a kind of skylight of vehicle experiment Method, has:

Support, is arranged on the Timing Belt of described support both sides, and described Timing Belt is used for holding vehicles skylight, institute State Timing Belt by belt wheel tensioning, and connected the belt wheel of two Timing Belts, described synchronization by toothed belt transmission axle V belt translation axle is connected with power set；

It is arranged on the lifting cylinder of described support bottom；Described lifting cylinder can adjust position by regulation cylinder； Installing plate, described installing plate is fixing with the piston rod of described lifting cylinder to be connected；

Alignment pin, is arranged on described installing plate, and for inserting the hole, location in skylight；Gear stop mechanism, Being fixedly installed on described installing plate, described gear stop mechanism upper end is provided with the power of the glass contact with described skylight Sensor；Sliding force testing agency, is fixedly installed on described installing plate, in described sliding force testing agency Being provided with friction force sensor, during detection frictional force, described friction force sensor contacts with skylight glass；

Wire harness is automatically inserted into mechanism, is fixedly installed on described installing plate.

Comprise the steps:

1, putting on Timing Belt by skylight, Timing Belt is driven by motor；2, by Timing Belt, skylight is transported to Gear stops place；3, the lifting cylinder after signal that obtains putting in place is lifted, and drives installing plate to rise, the location on installing plate Pin inserts in front end, skylight pin-and-hole, and 4, wire harness is automatically inserted into mechanism and is automatically inserted in the motor of skylight by wire harness；5、 Skylight glass setting in motion, until glass touches the force transducer of gear stop mechanism, skylight glass is stopped After back move, record the power that now force transducer detects, be the anti-grip force in skylight；Skylight glass is back During motion, skylight glass contacts with friction force sensor, friction force sensor detection frictional force, is skylight Sliding force；6, having detected rear lifting cylinder to shrink, skylight is driven by Timing Belt and automatically flows into next station.

Described wire harness is automatically inserted into the column that mechanism includes being fixed on described installing plate, and described column upper end sets Having cylinder, the piston rod of described cylinder is fixing with harness connector plug to be connected.

Described gear stop mechanism is baffle plate, and the height of described baffle plate senses higher than the height of skylight glass, described power Device is fixed on the position that the height of the upper of described baffle plate and described skylight glass is corresponding；Described baffle plate has two groups, Described installing plate is uniformly distributed.

The power set driving described toothed belt transmission axle are motor.

A technical scheme in technique scheme has the advantage that or beneficial effect, is automatically performed wire harness Plug and detection, it is achieved unattended detection, detection data monitor in real time, wire harness plug is automatically performed, Skylight on-line checking.Work efficiency is high, saves manpower.Lifting cylinder can adjust position by regulation cylinder, Thus adjust the position of whole mechanism, to adapt to different types of skylight.

Accompanying drawing explanation

The structural representation of the Fig. 1 skylight of vehicle experimental provision for providing in the embodiment of the present invention；

Labelling in above-mentioned figure is: 1, support, and 2, Timing Belt, 3, toothed belt transmission axle, 4, skylight, 5, installing plate, 6, wire harness be automatically inserted into mechanism, 7, gear stop mechanism, 8, force transducer, 9, alignment pin, 10, lifting cylinder, 11, sliding force testing agency.

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing to the present invention Embodiment is described in further detail.

See Fig. 1, a kind of skylight of vehicle experimental technique, have:

Support, is arranged on the Timing Belt of support both sides, and Timing Belt is used for holding vehicles skylight, and Timing Belt is by carrying Wheel tensioning, and the belt wheel of two Timing Belts is connected by toothed belt transmission axle, toothed belt transmission axle fills with power Put connection；

It is arranged on the lifting cylinder of support bottom；Lifting cylinder can adjust position by regulation cylinder；Installing plate, Installing plate is fixing with the piston rod of lifting cylinder to be connected；

Alignment pin, is arranged on a mounting board, and for inserting the hole, location in skylight；Gear stop mechanism, fixing Arranging on a mounting board, gear stop mechanism upper end is provided with the force transducer of the glass contact with skylight；Sliding force is examined Surveying mechanism, be fixedly installed on a mounting board, sliding force testing agency is provided with friction force sensor, and detection rubs During wiping power, friction force sensor contacts with skylight glass；

Wire harness is automatically inserted into mechanism, is fixedly installed on a mounting board；

Comprise the steps:

1, putting on Timing Belt by skylight, Timing Belt is driven by motor；2, by Timing Belt, skylight is transported to Gear stops place；3, the lifting cylinder after signal that obtains putting in place is lifted, and drives installing plate to rise, the location on installing plate Pin inserts in front end, skylight pin-and-hole, and 4, wire harness is automatically inserted into mechanism and is automatically inserted in the motor of skylight by wire harness；5、 Skylight glass setting in motion, until glass touches the force transducer of gear stop mechanism, skylight glass is stopped After back move, record the power that now force transducer detects, be the anti-grip force in skylight；Skylight glass is back During motion, skylight glass contacts with friction force sensor, friction force sensor detection frictional force, is skylight Sliding force；6, having detected rear lifting cylinder to shrink, skylight is driven by Timing Belt and automatically flows into next station..

Wire harness is automatically inserted into mechanism and includes fixing column on a mounting board, and column upper end is provided with cylinder, cylinder Piston rod and harness connector plug fixing be connected.

Gear stop mechanism is baffle plate, and the height of baffle plate is higher than the height of skylight glass, and force transducer is fixed on baffle plate The upper position corresponding with the height of skylight glass；Baffle plate has two groups, is uniformly distributed on a mounting board.

The power set driving toothed belt transmission axle are motor.

After using above-mentioned scheme, it is automatically performed plug and the detection of wire harness, it is achieved unattended detection, inspection Surveying data to monitor in real time, wire harness plug is automatically performed, skylight on-line checking.Work efficiency is high, saves manpower. Lifting cylinder can adjust position by regulation cylinder, thus adjusts the position of whole mechanism, the most of the same race to adapt to The skylight of class.

Above in conjunction with accompanying drawing, the present invention is exemplarily described, it is clear that the present invention implements not by upper State the restriction of mode, if the various unsubstantialities that the method design that have employed the present invention is carried out with technical scheme Improvement, or the most improved design by the present invention and technical scheme directly apply to other occasion, all exists Within protection scope of the present invention.

Claims (4)

1. a skylight of vehicle experimental technique, it is characterised in that have:

Support, is arranged on the Timing Belt of described support both sides, and described Timing Belt is used for holding vehicles skylight, and described Timing Belt is by belt wheel tensioning, and by the belt wheel of toothed belt transmission axle two Timing Belts of connection, described toothed belt transmission axle is connected with power set；

It is arranged on the lifting cylinder of described support bottom；Described lifting cylinder can adjust position by regulation cylinder；Installing plate, described installing plate is fixing with the piston rod of described lifting cylinder to be connected；

Alignment pin, is arranged on described installing plate, and for inserting the hole, location in skylight；Gear stop mechanism, is fixedly installed on described installing plate, and described gear stop mechanism upper end is provided with the force transducer of the glass contact with described skylight；Sliding force testing agency, is fixedly installed on described installing plate, and described sliding force testing agency is provided with friction force sensor, and during detection frictional force, described friction force sensor contacts with skylight glass；

Wire harness is automatically inserted into mechanism, is fixedly installed on described installing plate；

Comprise the steps:

1, putting on Timing Belt by skylight, Timing Belt is driven by motor；2, by Timing Belt, skylight is transported to gear stop；3, the lifting cylinder after signal that obtains putting in place is lifted, and drives installing plate to rise, and the alignment pin on installing plate inserts in the pin-and-hole of front end, skylight, and 4, wire harness is automatically inserted into mechanism and is automatically inserted in the motor of skylight by wire harness；5, skylight glass setting in motion, until glass touches the force transducer of gear stop mechanism, skylight glass back moves after being stopped, records the power that now force transducer detects, is the anti-grip force in skylight；When skylight glass back moves, skylight glass contacts with friction force sensor, friction force sensor detection frictional force, is skylight sliding force；6, having detected rear lifting cylinder to shrink, skylight is driven by Timing Belt and automatically flows into next station.

2. skylight of vehicle experimental technique as claimed in claim 1, it is characterised in that described wire harness is automatically inserted into the column that mechanism includes being fixed on described installing plate, described column upper end is provided with cylinder, and the piston rod of described cylinder is fixing with harness connector plug to be connected.

3. skylight of vehicle experimental technique as claimed in claim 2; it is characterized in that; described gear stop mechanism is baffle plate, and the height of described baffle plate is higher than the height of skylight glass, and described force transducer is fixed on the position that the height of the upper of described baffle plate and described skylight glass is corresponding；Described baffle plate has two groups, is uniformly distributed on described installing plate.

4. skylight of vehicle experimental technique as claimed in claim 3, it is characterised in that the power set driving described toothed belt transmission axle are motor.