CN204988184U - Disappearance mould laser survey machine - Google Patents

Abstract

The utility model belongs to the industrial machinery field relates to a disappearance mould laser survey machine, UG after treatment system, measurement control system, servo drive system, rectilinear movement mechanism, measurement system, laser survey feedback system including the order connection, rectilinear movement mechanism includes that stand, X are to guide rail, Y to crossbeam, Z to the main shaft, two parallel arrangement X lies in the stand to the guide rail, and X installs sharp slider to the guide rail up end, Y is to the crossbeam through sharp slider and guide's X rail coupling to can follow the orientation seesaw of X to the guide rail, technical scheme's beneficial effect does: the utility model provides a to disappearance mould size detection's non -contact point laser survey machine, compare with the spatial value of three -dimensional digifax set point through the three -dimensional coordinate value that some laser survey on the mould is ordered, can confirm whether qualified the mould size is, and this laser survey machine simple structure, operation are stably, the precision is reliable and efficiency is higher.

Description

A kind of evaporative pattern mold laser measuring machine

Technical field

The utility model belongs to mechanical industry field, relating to a kind of to using polyfoam to make and the dimensional measurement machine producing the design of part full mold mould cast in cavityless casting, being specifically related to a kind of evaporative pattern mold laser measuring machine.

Background technology

Evaporative pattern mold quality is soft, complex structure, and thin-walled is many, precision is high, and routine measurement instrument (tape measure, slide calliper rule etc.) cannot reach measurement requirement.Three coordinate measuring machine, be main mainly with contact, price is high, measuring accuracy can reach micron order, but after gauge head touching thin-walled evaporative pattern mold, mould easily deforms, movement, and measurement data is inaccurate, and require high to environment temperature, humidity, vibration, Compressed Air degree etc., be not suitable for evaporative pattern mold and measure.The non-contact type measuring device such as gage beam, laser tracker, image scanner are worth high, measuring accuracy≤0.05mm, mould can be met and measure requirement, but genus low load with strong power, waste resource, and based on manual operation, operate professional require high, need measurement more than 400 measurement point, artificial length consuming time, inefficiency.Measurement requirement for the complicated die of batch production cannot meet.

Summary of the invention

For prior art exist deficiency, the utility model provides a kind of Stability Analysis of Structures, reliable, environmental requirement is low, cheap and can meet evaporative pattern mold measure robotization point evaporative pattern mold laser measuring machine.

In order to solve the deficiency that prior art exists, the technical scheme of a kind of evaporative pattern mold laser measuring machine that the utility model provides is:

A kind of evaporative pattern mold laser measuring machine, comprises the UG after-treatment system, Measurement and Control System, servo drive system, linear moving mechanism, measuring system, the laser measurement feedback system that are linked in sequence;

Described linear moving mechanism comprises column, X direction guiding rail, Y-direction crossbeam, Z-direction main shaft;

Two described X direction guiding rails be arranged in parallel are positioned on column, and X direction guiding rail upper surface is provided with linear slider, and described Y-direction crossbeam is connected with X direction guiding rail by linear slider, and can seesaw along the direction of X direction guiding rail;

Line slideway is installed in described Y-direction crossbeam side, and line slideway connects slide, and described Z-direction main shaft is arranged on the slide of Y-direction crossbeam, and can move along the direction perpendicular to Y-direction crossbeam;

Described measuring system comprises the first calibration air power steering device and the second calibration air power steering device, steering gear connector, puts airborne laser range finder, grating scale; Described first calibration air power steering device is arranged on Z-direction main shaft bottom, described second calibration air power steering device is connected with the first calibration air power steering device by steering gear connector, described some airborne laser range finder is installed on the second calibration air power steering device, and the side of X direction guiding rail, Y-direction crossbeam, Z-direction main shaft is separately installed with described grating scale.

Further, described column by the welded steel structure matter layer of Ageing Treatment, and is installed with on anti-seismic foundation by pre-buried foot bolt;

Further, described steering gear connector is " L " shape, it has mutually perpendicular surface level and vertical plane, the lower end of the first calibration air power steering device of horizontal positioned connects the surface level of described steering gear connector upper end, a side of the second calibration air power steering device of vertical placement is arranged on the vertical plane of described steering gear connector lower end, set-point airborne laser range finder on another side of the second calibration air power steering device;

Further, described X direction guiding rail, Y-direction crossbeam are made up of marble;

Further, described slide and Z-direction main shaft are all made of cast iron, and while steady strain, ensure rigidity;

Further, described Z-direction main shaft can along perpendicular to about Y-direction crossbeam or move up and down;

Further, described first calibration air power steering device, the second calibration air power steering device are that fixed angle rotates, each rotation is the multiple of 15 °, described first calibration air power steering device rotates along Z-direction main-shaft axis in ± 180 ° of directions, and described second calibration air power steering device is rotating in 0-105 ° of direction perpendicular to Z-direction main-shaft axis.

The beneficial effect of technical scheme described in the utility model is: the utility model provides a kind of specially for contactless some laser measuring machine of evaporative pattern mold size detection, by the spatial value comparison of the D coordinates value and three-dimensional digital-to-analogue set point of mould being put laser measurement point, can determine that whether die size is qualified; And this laser measuring machine structure is simple, stable, precision is reliable and efficiency is higher, automatically measure for the noncontact of evaporative pattern mold product, conventional workshop condition can carry out.

Accompanying drawing explanation

Fig. 1 evaporative pattern mold laser measuring machine schematic diagram;

Fig. 2 evaporative pattern mold laser measuring machine process flow diagram;

In figure: 1, X direction guiding rail, 2, Y-direction crossbeam, 3, column, 4, Z-direction main shaft, the 5, first calibration air power steering device, 6, steering gear connector, 7, some airborne laser range finder, the 8, second calibration air power steering device, 9, grating scale.

Embodiment

In order to make those skilled in the art better understand the technical solution of the utility model, below in conjunction with accompanying drawing, the utility model is described in further detail.

As shown in Figure 1, 2, a kind of evaporative pattern mold laser measuring machine described in the utility model, comprises linear moving mechanism, measuring system, servo drive system, Measurement and Control System, UG after-treatment system, laser measurement feedback system;

Described linear moving mechanism comprises column 3, X direction guiding rail 1, Y-direction crossbeam 2, Z-direction main shaft 4; Described X direction guiding rail 1 is positioned on column 3, and X direction guiding rail 1 upper end is provided with linear slider, described Y-direction crossbeam 2 is connected with X direction guiding rail 1 by linear slider, and described Y-direction crossbeam 2 side connects slide by the line slideway installed, and described Z-direction main shaft 4 is arranged on the slide of Y-direction crossbeam 2;

Described measuring system comprises that steering angle is ± 180 °, the first calibration air power steering device 5 of 0-105 ° and the second calibration air power steering device 8, steering gear connector 6, some airborne laser range finder 7, grating scale 9; Described first calibration air power steering device 5 is arranged on Z-direction main shaft 4 bottom, described second calibration air power steering device 8 is connected with the first calibration air power steering device 5 by steering gear connector 6, described some airborne laser range finder 7 is installed on the second calibration air power steering device 8, and the side of X direction guiding rail, Y-direction crossbeam, Z-direction main shaft is separately installed with described grating scale 9;

Described column 3 by the welded steel structure matter layer of Ageing Treatment, and is installed with on anti-seismic foundation by pre-buried foot bolt;

Described X direction guiding rail 1, Y-direction crossbeam 2 are made up of marble; Described slide and Z-direction main shaft 4 are all made of cast iron; Described first calibration air power steering device 5, second calibration air power steering device 8 is fixed angle rotation, each rotation is the multiple of 15 °, described first calibration air power steering device 5 rotates along Z-direction main shaft 4 axis in ± 180 ° of directions, and described second calibration air power steering device 8 is rotating in 0-105 ° of direction perpendicular to Z-direction main shaft 4 axis.

Evaporative pattern mold laser measuring machine specific works process is: Y-direction crossbeam 2 is movable along X to 1 guide rail, Z-direction main shaft 4 vertical Y is to crossbeam about 2 or move up and down, and measuring system moves along each direction of principal axis of X, Y, Z-direction in stroke range by linear moving mechanism.UG after-treatment system, by three-dimensional model, sets position to be measured, and generates step file, generate text and import Measurement and Control System, Measurement and Control System, according to position to be measured, edits measurement scheme, generate Measure macro program, Optimized Simulated measures walking path, checks walking interference problem.Measure macro program input measurement machine control system, measuring system is moved to measurement point according to macroprogram linear moving mechanism by servo drive control system, first calibration air power steering device 5 and the second calibration air power steering device 8 are according to rotate instruction, and the light beam of guarantee point airborne laser range finder 7 is mapped on mould tested point, the testing result of Measurement and Control System 10 position-based sensor grating scale 9, draws the X Y Z-direction rectilinear movement amount measuring main body reference point, measures main body reference point and locates in the top flange center of the first calibration air power steering device 5, Measurement and Control System is from measuring machine X, Y, Z-direction grating scale 9 reading numerical values, airborne laser range finder measured value, calibration air power steering device oscillating quantity three computing, draw measurement point coordinate figure, the volume coordinate deviation of some airborne laser range finder 7 reference point and measuring system reference point turns to combination to calculate by fixing calibration, result is built in Measurement and Control System, in measuring process, measuring system reference point coordinate and actual calibration turn to combined value to calculate airborne laser range finder base 7 spatial value on schedule, the measured value of some airborne laser range finder 7 is directly transferred in Measurement and Control System, changed by polar coordinates and rectangular coordinate system, and calculate the spatial value of evaporative pattern mold tested point with the spatial value of an airborne laser range finder, finally, Measurement and Control System records according to evaporative pattern mold three-dimensional model and this measuring machine that spatial value is compared, matching, calculates the geometric sense data of mould.

Be described in detail the technical scheme that the application provides above, above explanation is just for helping its core concept understanding the application; Meanwhile, for one of ordinary skill in the art, according to the thought of the application, all will change in specific embodiments and applications, in sum, this description should not be construed as the restriction to the application.

Claims (7)

1. an evaporative pattern mold laser measuring machine, comprises the UG after-treatment system, Measurement and Control System, servo drive system, linear moving mechanism, measuring system, the laser measurement feedback system that are linked in sequence; It is characterized in that,

Described linear moving mechanism comprises column, X direction guiding rail, Y-direction crossbeam, Z-direction main shaft;

Two described X direction guiding rails be arranged in parallel are positioned on column, and X direction guiding rail upper surface is provided with linear slider, and described Y-direction crossbeam is connected with X direction guiding rail by linear slider, and can seesaw along the direction of X direction guiding rail;

Line slideway is installed in described Y-direction crossbeam side, and line slideway connects slide, and described Z-direction main shaft is arranged on the slide of Y-direction crossbeam, and can move along the direction perpendicular to Y-direction crossbeam;

Described measuring system comprises the first calibration air power steering device and the second calibration air power steering device, steering gear connector, puts airborne laser range finder, grating scale; Described first calibration air power steering device is arranged on Z-direction main shaft bottom, described second calibration air power steering device is connected with the first calibration air power steering device by steering gear connector, described some airborne laser range finder is installed on the second calibration air power steering device, and the side of X direction guiding rail, Y-direction crossbeam, Z-direction main shaft is separately installed with described grating scale.

2. a kind of evaporative pattern mold laser measuring machine according to claim 1, is characterized in that, described column by the welded steel structure matter layer of Ageing Treatment, and is installed with on anti-seismic foundation by pre-buried foot bolt.

3. a kind of evaporative pattern mold laser measuring machine according to claim 1, it is characterized in that, described steering gear connector is " L " shape, it has mutually perpendicular surface level and vertical plane, the lower end of the first calibration air power steering device of horizontal positioned connects the surface level of described steering gear connector upper end, a side of the second calibration air power steering device of vertical placement is arranged on the vertical plane of described steering gear connector lower end, set-point airborne laser range finder on another side of the second calibration air power steering device.

4. a kind of evaporative pattern mold laser measuring machine according to claim 1, is characterized in that, described X direction guiding rail, Y-direction crossbeam are made up of marble.

5. a kind of evaporative pattern mold laser measuring machine according to claim 1, is characterized in that, described slide and Z-direction main shaft are all made of cast iron, and while steady strain, ensures rigidity.

6. a kind of evaporative pattern mold laser measuring machine according to claim 1, is characterized in that, described Z-direction main shaft can along perpendicular to about Y-direction crossbeam or move up and down.

7. a kind of evaporative pattern mold laser measuring machine according to claim 1, it is characterized in that, described first calibration air power steering device, the second calibration air power steering device are that fixed angle rotates, each rotation is the multiple of 15 °, described first calibration air power steering device rotates along Z-direction main-shaft axis in ± 180 ° of directions, and described second calibration air power steering device is rotating in 0-105 ° of direction perpendicular to Z-direction main-shaft axis.