CN212843412U - Test equipment for modular tool remodeling - Google Patents

Abstract

The utility model discloses a test equipment that modularization frock remodeled relates to preceding shelves glass check out test set technical field, and this check out test set is including consecutive industrial computer, electrical control device and test equipment body, the test equipment body includes first test frame and second test frame, first test frame sets up with second test frame relatively, first test frame upper surface is provided with first support frame, be provided with HUD calibration board module on the first support frame, second test frame upper surface is provided with second support frame, HUD module support and industry camera module support, second support frame top is provided with glass support module, industry camera module support top is provided with the industry camera module. The glass positioning and changing device is simple in structure, low in cost, simple and convenient to change, and solves the problems that glass positioning and changing are slow, the occupied area is large, the later-stage investment of equipment is large, the time consumption is long, and the maintenance is complex.

Description

Test equipment for modular tool remodeling

Technical Field

The utility model relates to an automobile glass check out test set, in particular to modular frock remodelling's test equipment.

Background

The positioning detection of the front windshield of the automobile is very important for the manufacturers of the whole automobile glass and HUD manufacturers. At present, both finished automobile glass manufacturers and HUD manufacturers simulate a glass profiling surface or a fixed positioning point on a production line to perform positioning detection on front windshield glass, simulate the finished automobile posture and meet certain requirements.

The existing glass positioning detection technical mode can only test the glass of a single model, once a plurality of models are tested, the tool of the whole glass rack or the glass supporting part needs to be replaced, the existing model replacing mode is the replacement of a single supporting column, the rhythm of a production line is damaged after long-term operation, and the quick and accurate positioning test cannot be realized.

SUMMERY OF THE UTILITY MODEL

For overcoming the above-mentioned problem that exists among the prior art, the utility model provides a modular frock remodels's test equipment.

The specific technical scheme is as follows:

a test device for changing a modular tool comprises an industrial personal computer, an electric control device and a test device body which are sequentially connected, wherein the test device body comprises a first test rack and a second test rack which are oppositely arranged,

the upper surface of the first test rack is provided with a first support frame, the first support frame is provided with a HUD calibration board module, the HUD calibration board module is used for HUD imaging position reference and camera position calibration,

the upper surface of the second testing machine frame is provided with a second supporting frame, a HUD module bracket and an industrial camera module bracket,

a glass supporting module is arranged above the second supporting frame and used for fixing the HUD front windshield to be tested based on the positioning mode of loading,

a HUD module is arranged above the HUD module bracket and used for imaging feedback on a front windshield,

the industrial camera module is arranged above the industrial camera module support and used for simulating the postures of upper, middle and lower eyepoints and simulating the imaging observation effect under different eyebox states.

Preferably, the first support frame comprises a bottom plate, two guide rails, a limiting strip and a calibration plate support, the guide rails are arranged on the bottom plate in parallel, a plurality of positioning holes are formed in the surface of the limiting strip, the limiting strip is arranged on one side of any guide rail in parallel, the bottom of the calibration plate support stretches over the two guide rails, a fixing hole is formed in one side of the calibration plate support and is opposite to any positioning hole of the limiting strip, and the fixing hole is fixedly connected with the positioning holes through positioning pins.

Preferably, the glass support module comprises a left support module, a right support module and a rear support module, the left support module and the right support module are identical in structure and are symmetrically arranged by taking a central line of the second test frame as a symmetry axis, the rear support module is arranged behind the left support module and the right support module, the HUD module is arranged between the right support module and the rear support module, and the industrial camera module is arranged behind the rear support module.

Preferably, a glass limiting module is arranged on the left support module.

Preferably, the glass centering module further comprises a glass centering module, one end of the glass centering module abuts against the tail of the left support module, and the other end of the glass centering module abuts against the tail of the right support module.

Compared with the prior art, the utility model following beneficial effect has:

the application provides test equipment that modularization frock remodeled, wherein HUD calibration board module sets up on first support frame, glass supports the module setting in second support frame top, the HUD module sets up on HUD module support, industry camera module sets up on industry camera module support, when the preceding grade glass of the different models of survey, can directly change corresponding module, make whole car glass's remodel demarcation more swift, stable, and the cost is lower, investment in earlier stage and later maintenance cost have also been reduced to the while, the compatibility of equipment use and sustainability have been promoted.

Drawings

FIG. 1 is a schematic diagram of an overall structure of a testing device for a modified modular tool of the present application;

FIG. 2 is an enlarged view of the whole structure at the position A in the testing equipment for the model change of the modular tooling of the present application;

fig. 3 is an enlarged view of the whole structure at the position B in the testing equipment with the modified modular tooling of the present application.

In the figure, 1-first test frame, 2-second test frame, 3-HUD calibration template, 4-bottom plate, 5-guide rail, 6-spacing strip, 7-calibration plate bracket, 8-left support module, 9-right support module, 10-rear support module, 11-glass spacing module, 12-glass centering module, 13-HUD module, 14-industrial camera module.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

The application discloses test equipment that modularization frock remodeled, including consecutive industrial computer, electric control device and test equipment body, the industrial computer is total accuse of rack in this application, takes over the electrical part control of rack on the one hand, and compatible different grade type software control is surveyed to the one hand, and electric control equipment is PLC etc. and is correlated with electrical function total accuse.

As shown in fig. 1 to 3, the test apparatus body includes a first test rack 1 and a second test rack 2, the first test rack 1 is disposed opposite to the second test rack 2,

the upper surface of the first test rack 1 is provided with a first support frame, the first support frame is provided with a HUD calibration board module, the HUD calibration board module is used for HUD imaging position reference and camera position calibration,

the upper surface of the second testing machine frame 2 is provided with a second supporting frame, a HUD module bracket and an industrial camera module bracket,

a glass supporting module is arranged above the second supporting frame and used for fixing the HUD front windshield to be tested based on the positioning mode of loading,

a HUD module 13 is arranged above the HUD module bracket, the HUD module 13 is used for imaging feedback on the front windshield,

an industrial camera module 14 is arranged above the industrial camera module support, and the industrial camera module 14 is used for simulating the postures of upper, middle and lower eyepoints and simulating the imaging observation effect under different eyebox states.

As shown in fig. 2, the first support frame comprises a bottom plate 4, two guide rails 5, a limiting strip 6 and a calibration plate support 7, wherein the two guide rails 5 are arranged on the bottom plate 4 in parallel, a plurality of positioning holes are formed in the surface of the limiting strip 6, the limiting strip 6 is arranged on one side of any guide rail 5 in parallel, the bottom of the calibration plate support 7 stretches over the two guide rails 5, a fixing hole is formed in one side of the calibration plate support 7, the fixing hole is arranged opposite to any positioning hole of the limiting strip 6, and the fixing hole is fixedly connected with the positioning holes through positioning pins. Calibration plate support 7 can slide on guide rail 5, and concrete position can be modified according to the actual operation demand, and calibration plate support 7 limits and fixes through the fixed orifices on spacing 6.

As shown in fig. 1, the glass support module comprises a left support module 8, a right support module 9 and a rear support module 10, the left support module 8 and the right support module 9 are identical in structure, and are symmetrically arranged by taking a central line of the second test frame as a symmetry axis, the rear support module 10 is arranged behind the left support module 8 and the right support module 9, the HUD module 13 is arranged between the right support module 9 and the rear support module 10, and the industrial camera module 14 is arranged behind the rear support module 10.

As shown in fig. 3, the left support module 8 is provided with a glass stopper module 11. The glass centering module 12 is further included, one end of the glass centering module 12 abuts against the tail of the left support module 8, and the other end of the glass centering module 12 abuts against the tail of the right support module 9.

All be detachable the connection between each module in this application and the support, according to the test vehicle type, can directly replace the frock module, and the structure of each support frame in this application is as shown in figure 1, but does not confine this picture to, can reach the support frame of this technical scheme technical effect all among the prior art.

The working process is as follows: according to the current demand test motorcycle type, select the frock module of suitable motorcycle type, respectively in proper order with the module installation can, the linear module location of remodeling frock subassembly part through the high accuracy, the screw locking is twisted to the hand realizes quick location and dismouting. And after the model changing part is installed, starting the control system part, and operating the camera or the brightness meter to perform related tests and generate related reports. The specific process is as follows:

1. test equipment modularization frock remodelling

And selecting the tool module of the model according to the current test vehicle model, respectively installing the tool module to each module, confirming the test vehicle model and selecting the test software of the vehicle model at the upper computer control end.

2. Operation of the electric control section

And controlling by using an upper computer at the industrial personal computer end, selecting the model needing to be tested, and confirming the model with the model of the currently installed modular model changing tool.

3. Detection system

The industrial personal computer is compatible with required test software, the upper computer is used for editing the test case, customized test operation is carried out, the test button is clicked, and the test report is checked.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (5)

1. The utility model provides a test equipment that modularization frock remodeled which characterized in that: comprises an industrial personal computer, an electric control device and a testing equipment body which are connected in sequence, wherein the testing equipment body comprises a first testing machine frame and a second testing machine frame which are arranged oppositely,

the upper surface of the first test rack is provided with a first support frame, the first support frame is provided with a HUD calibration board module, the HUD calibration board module is used for HUD imaging position reference and camera position calibration,

the upper surface of the second testing machine frame is provided with a second supporting frame, a HUD module bracket and an industrial camera module bracket,

a glass supporting module is arranged above the second supporting frame and used for fixing the HUD front windshield to be tested based on the positioning mode of loading,

a HUD module is arranged above the HUD module bracket and used for imaging feedback on a front windshield,

the industrial camera module is arranged above the industrial camera module support and used for simulating the postures of upper, middle and lower eyepoints and simulating the imaging observation effect under different eyebox states.

2. The modular tooling remodelling test equipment of claim 1, wherein: the first support frame comprises a bottom plate, two guide rails, a limiting strip and a calibration plate support, wherein the guide rails are arranged on the bottom plate in parallel, a plurality of positioning holes are formed in the surface of the limiting strip, the limiting strip is arranged on one side of any guide rail in parallel, the bottom of the calibration plate support stretches over the two guide rails, a fixing hole is formed in one side of the calibration plate support and is arranged opposite to any positioning hole of the limiting strip, and the fixing hole is fixedly connected with the positioning holes through positioning pins.

3. The modular tooling remodelling test equipment of claim 2, wherein: the glass support module comprises a left support module, a right support module and a rear support module, the left support module and the right support module are identical in structure and are symmetrically arranged by taking a central line of the second test frame as a symmetry axis, the rear support module is arranged at the rear of the left support module and the right support module, the HUD module is arranged between the right support module and the rear support module, and the industrial camera module is arranged at the rear of the rear support module.

4. The modular tooling remodelling test equipment of claim 3, wherein: and a glass limiting module is arranged on the left support module.

5. The modular tooling remodelling test equipment of claim 4, wherein: the glass centering module is characterized by further comprising a glass centering module, one end of the glass centering module is abutted to the tail of the left supporting module, and the other end of the glass centering module is abutted to the tail of the right supporting module.

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