CN203758508U - Automatic adjusting and measuring apparatus of five-axis image - Google Patents

Abstract

The utility model relates to an automatic adjusting and measuring apparatus of a five-axis image, which is provided with a horizontal base, a longitudinal base, a testing platform, a longitudinal installation base, a probe, a probe lifting device and a lens, wherein the probe lifting device is assembled on the longitudinal installation base; the probe is assembled on the probe lifting device; the lens is an automatic zoom lens; the probe lifting device is provided with a driving mechanism, a transmission mechanism and a connection jig; an installation frame, a guide rail, a movable base, a flange base and a screw rod are arranged on the transmission mechanism; the connection jig is provided with a first connecting part and a second connection part, which are fixedly connected with each other. The automatic adjusting and measuring apparatus of the five-axis image disclosed by the utility model is capable of adjusting the distance between probe distance testing platforms through the probe lifting device and automatically replacing the multiplying power of the lens in the testing process, and has the characteristics of being convenient to adjust and accurate in testing result.

Description

Five axle images are adjusted measuring instrument automatically

Technical field

The utility model relates to surveying instrument technical field, particularly relates to a kind of five axle images and automatically adjusts measuring instrument.

Background technology

Along with progress and the development of technology, radiographic measurement has been widely used in the various aspects of industrial technology.Because radiographic measurement has the advantages such as rapid, direct, accurate, image automatic measurer is also updated thereupon.

Image measurer of the prior art is provided with a pedestal conventionally, is provided with test platform on pedestal, and probe and camera lens are arranged at test platform top, by probe and camera lens to test sample survey, shooting etc.Pedestal is provided with transverse moving mechanism (also claiming X-axis adjusting mechanism) and longitudinal moving mechanism (also claiming Y-axis adjusting mechanism) conventionally, to regulate test board in the position of base-plates surface, thereby at testing process change probe and camera lens, the detection position of sample is adjusted.

Some image automatic measuring instrument is also provided with longitudinal moving mechanism (also claiming Z axis adjusting mechanism), adjusts the distance between probe and camera lens and test platform by longitudinal moving mechanism.When longitudinal moving mechanism is adjusted after lengthwise position, probe and the spacing of test between sample also just determined, can not automatic lifting probe, and applicability is poor.

In addition, the camera lens of these radiographic measurement instruments can not automatically carry out multiplying power replacing in measuring process, needs manually to change multiplying power.Not only troublesome poeration but also precision are limited.

Therefore,, for prior art deficiency, provide a kind of five axle images that can adjust flexibly according to specific needs automatically to adjust measuring instrument very necessary to overcome prior art deficiency.

Summary of the invention

The purpose of this utility model is to avoid the deficiencies in the prior art part and provides a kind of five axle images automatically to adjust measuring instrument, this five axles image is adjusted measuring instrument automatically not only can carry out the adjustment of X-axis, Y-axis and Z axis, can also adjust the multiplying power that probe carries out automatic lifting and can automatically change camera lens, there is easy to operate, result feature accurately.

Above-mentioned purpose of the present utility model realizes by following technological means.

A kind of five axle images are adjusted measuring instrument automatically, be provided with horizontal base, longitudinal pedestal, test platform, longitudinal mount pad, probe, probe jacking gear and camera lens, described horizontal base and vertical setting of described longitudinal pedestal, described test platform is assemblied in described horizontal base, described longitudinal mount pad is assemblied in described longitudinal pedestal, and described probe and described camera lens are assemblied in respectively described longitudinal mount pad;

Described probe jacking gear is assemblied in described longitudinal mount pad, and described probe is assemblied in described probe jacking gear, and described camera lens is set to automatic variable power lens.

Above-mentioned probe jacking gear is provided with driving mechanism, gear train and connection fixture;

Described driving mechanism is fixedly assemblied in described longitudinal mount pad, described gear train is connected with described driving mechanism, orthogonal two straight lines in test platform are defined as respectively to X-axis and Y-axis, be defined as Z-direction by crossing test platform and the straight line vertical with described test platform, described driving mechanism drives described gear train to move along being parallel to Z-direction, described connection fixture one end is connected with described gear train, and the described connection fixture other end is fixedly connected with described probe;

When driving mechanism drive transmission device is when being parallel to Z-direction and moving, gear train drives connection fixture also to move along being parallel to Z-direction, thereby thereby connection fixture drives probe to be parallel to Z-direction moves the spacing regulating between probe and test platform.

Above-mentioned gear train is provided with erecting frame, guide rail, Mobile base, flange seat, screw mandrel;

Described erecting frame, described guide rail are all fixed on described longitudinal mount pad, described guide rail parallel is in Z axis, described Mobile base is provided with groove, described Mobile base is assemblied in described guide rail by described groove activity, described flange seat is fixed on described Mobile base, described screw mandrel is assemblied in described flange seat, and described screw mandrel two ends are assemblied in described erecting frame, and described flange seat is fixedly connected with described connection fixture.

Above-mentioned connection fixture is provided with the first web member and the second web member that are mutually permanently connected, described the first web member is parallel to Z-direction, described the second web member is parallel with described test platform, described the first web member is fixedly connected with described flange seat, and described the second web member is fixedly connected with described probe.

Above-mentioned the second web member is provided with the governor motion that can regulate spacing between probe and described longitudinal pedestal, and described governor motion is arranged at described the second web member.

Above-mentioned governor motion is set to multiple through holes that are arranged in a linear, and described the second web member is fixed on described the first web member by one of them through hole.

Above-mentioned driving mechanism is set to motor, and described motor is provided with motor base, and described motor base is fixed on described longitudinal mount pad, and the motor drive shaft of described motor drives described gear train to move along being parallel to Z-direction.

Preferably, above-mentioned five axle images are automatically adjusted measuring instrument and are also provided with the Z axis adjusting mechanism that drives described longitudinal mount pad to move along Z axis, and described Z axis adjusting mechanism is fixed on described longitudinal pedestal, and described Z axis adjusting mechanism is flexibly connected with described longitudinal mount pad.

Preferably, above-mentioned five axle images are automatically adjusted measuring instrument and are also provided with X-axis adjusting mechanism and Y-axis adjusting mechanism, and described X-axis adjusting mechanism is arranged at respectively described horizontal base with Y-axis adjusting mechanism and drives and be connected with described test platform.

Preferably, above-mentioned five axle images are automatically adjusted measuring instrument and are also provided with control gear, and described control gear is electrically connected with described probe jacking gear, camera lens, Z axis adjusting mechanism, X-axis adjusting mechanism and Y-axis adjusting mechanism respectively.

Five axle images of the present utility model are adjusted measuring instrument automatically, be provided with horizontal base, longitudinal pedestal, test platform, longitudinal mount pad, probe, probe jacking gear and camera lens, described horizontal base and vertical setting of described longitudinal pedestal, described test platform is assemblied in described horizontal base, described longitudinal mount pad is assemblied in described longitudinal pedestal, and described probe and described camera lens are assemblied in respectively described longitudinal mount pad; Described probe jacking gear is assemblied in described longitudinal mount pad, and described probe is assemblied in described probe jacking gear, and described camera lens is set to automatic variable power lens.This five axles image is adjusted measuring instrument automatically, owing to being provided with probe jacking gear, can after determining, lengthwise position adjust the distance between probe distance test platform by probe jacking gear, adopt automatic variable power lens simultaneously, can in test process, automatically change multiplying power, there is easy to operate, test result feature accurately.

Brief description of the drawings

Utilize accompanying drawing to be further described the utility model, but content in accompanying drawing does not form any restriction of the present utility model.

Fig. 1 is the structural representation that a kind of five axle images of the utility model are adjusted measuring instrument automatically;

Fig. 2 is the part-structure schematic diagram that a kind of five axle images of the utility model are adjusted measuring instrument automatically;

Fig. 3 is the part-structure schematic diagram of Fig. 2;

Fig. 4 is the part-structure schematic diagram that a kind of five axle images of the utility model are adjusted measuring instrument embodiment 2 automatically.

In Fig. 1 to Fig. 4, comprising:

Horizontal base 100, test platform 110,

Longitudinally pedestal 200, longitudinally mount pad 210,

Probe 300,

Camera lens 400,

Motor 511, motor base 512,

Erecting frame 521, guide rail 522, Mobile base 523,

Groove 524, flange seat 525, screw mandrel 526,

Connection fixture 530,

The first web member 531, the second web member 532, through hole 533,

X-axis adjusting mechanism 600,

Y-axis adjusting mechanism 700,

Z axis adjusting mechanism 800,

Support body 900.

Embodiment

With the following Examples the utility model is further described.

embodiment 1.

A kind of five axle images are adjusted measuring instrument automatically, as shown in Figure 1 to Figure 3, be provided with and be installed on the horizontal base 100 of support body 900, longitudinal pedestal 200, test platform 110, longitudinal mount pad 210, probe 300, probe jacking gear and camera lens 400, horizontal base 100 and the longitudinally vertical setting of pedestal 200, test platform 110 is assemblied in horizontal base 100, longitudinally mount pad 210 is assemblied in longitudinal pedestal 200, and probe 300 and camera lens 400 are assemblied in respectively longitudinal mount pad 210.Probe jacking gear is assemblied in longitudinal mount pad 210, and probe 300 is assemblied in probe jacking gear, and camera lens 400 is set to automatic variable power lens 400.

Camera lens 400 is set to automatic variable power lens 400, the multiplying power of camera lens 400 can automatically switch, in the time that identical product is measured, can switch different multiplying powers and measure, overcome in prior art and can only under same multiplying power, measure, defect that midway can not switch magnification.There is easy to operate, the accurate feature of measurement result.

For convenience of description, two vertical directions in test platform 110 planes are defined as respectively to X-axis and the Y-axis of coordinate, are defined as Z-direction by crossing test platform 110 and the straight line vertical with test platform 110.It should be noted that, the orientation of three coordinate axis is not limited to the mode of the present embodiment, also can be set to X-axis or Y-axis by Z axis, does not affect this technology.

This five axles image is automatically adjusted measuring instrument and is provided with the Z axis adjusting mechanism 800 that drives longitudinal mount pad 210 to move along Z axis, and Z axis adjusting mechanism 800 is fixed on longitudinal pedestal 200, and Z axis adjusting mechanism 800 is flexibly connected with longitudinal mount pad 210.In addition, this five axles image is automatically adjusted measuring instrument and is also provided with X-axis adjusting mechanism 600 and Y-axis adjusting mechanism 700, and X-axis adjusting mechanism 600 is arranged at respectively horizontal base 100 with Y-axis adjusting mechanism 700 and drives and be connected with test platform 110.X-axis adjusting mechanism 600, Y-axis adjusting mechanism 700 and Z axis adjusting mechanism 800 are the conventional knowledge in this area, and concrete structure repeats no more.

Can adjust by X-axis adjusting mechanism 600 and Y-axis adjusting mechanism 700 position of testing sample on test platform 110.Can adjust the spacing between longitudinal mount pad 210 distance test platforms 110 by Z axis adjusting mechanism 800, that is also adjust the spacing between probe 300, camera lens 400 distance test platforms 110.But, in actual testing process, be only to regulate probe 300 apart from the spacing between detection samples not enough by Z axis adjusting mechanism 800, in actual testing process, also need according to the actual conditions that detect sample, the position of probe 300 to be adjusted immediately.Therefore this five axles image is automatically adjusted measuring instrument probe jacking gear is set, and by probe jacking gear, probe 300 is adjusted immediately.

Probe jacking gear is provided with driving mechanism, gear train and connection fixture 530.Driving mechanism is fixedly assemblied in longitudinal mount pad 210, gear train is connected with driving mechanism, driving mechanism drive transmission device moves along being parallel to Z-direction, and connection fixture 530 one end are connected with gear train, and connection fixture 530 other ends are fixedly connected with probe 300.

When driving mechanism drive transmission device is when being parallel to Z-direction and moving, gear train drives connection fixture 530 also to move along being parallel to Z-direction, thereby thereby connection fixture 530 drives probe 300 to be parallel to Z-direction moves the spacing regulating between probe 300 and test platform 110.

Concrete, gear train is provided with erecting frame 521, guide rail 522, Mobile base 523, flange seat 525, screw mandrel 526.

Erecting frame 521, guide rail 522 are all fixed on longitudinal mount pad 210, guide rail 522 is parallel to Z axis, Mobile base 523 is provided with groove 524, Mobile base 523 is assemblied in guide rail 522 by groove 524 activities, flange seat 525 is fixed on Mobile base 523, screw mandrel 526 is assemblied in flange seat 525, and screw mandrel 526 two ends are assemblied in erecting frame 521, and flange seat 525 is fixedly connected with connection fixture 530.

Concrete, connection fixture 530 is provided with the first web member 531 and the second web member 532 that are mutually permanently connected, the first web member 531 is parallel to Z-direction, the second web member 532 is parallel with test platform 110, the first web member 531 is fixedly connected with flange seat 525, and the second web member 532 is fixedly connected with probe 300.

Driving mechanism is set to motor 511, and motor 511 is provided with motor base 512, and motor base 512 is fixed on longitudinal mount pad 210, and motor base 512 makes motor 511 more firm, and the motor 511 axle drive transmission devices of motor 511 move along being parallel to Z-direction.

It should be noted that, driving mechanism is not limited only to the motor in the present embodiment, also can be set to cylinder or other.

It should be noted that, the form of gear train is not limited only to the situation of the present embodiment, also can be set to cam structure or other version.

When motor 511 CD-ROM drive motor 511 axle rotations, thereby drive screw mandrel 526 to rotate, flange seat 525 also moves along screw mandrel 526, and the first web member 531 being connected with flange seat 525 is also parallel to the motion of Z-direction.Because the first web member 531 is fixedly connected with the second web member 532, therefore the second web member 532 is also parallel to the movement of Z-direction along with moving of the first web member 531 with probe 300, thereby adjust the distance between probe 300 and detection platform.

By probe jacking gear, can be parallel to Z-direction adjustment to probe 300, adjust neatly the spacing between probe 300 and testing sample.

This five axles image is automatically adjusted measuring instrument and is also provided with control gear, and control gear is electrically connected with probe jacking gear, camera lens 400, Z axis adjusting mechanism 800, X-axis adjusting mechanism 600 and Y-axis adjusting mechanism 700 respectively.By control gear is set, can accurately control this five axles image and automatically adjust the operation of measuring instrument.

The course of work that this five axles image is adjusted measuring instrument is automatically such: test sample is positioned over to test platform 110, adjust test specimens product by X-axis adjusting mechanism 600 and Y-axis adjusting mechanism 700 and be positioned at test specification, adjust the distance between camera lens 400 distance test samples by Z axis adjusting mechanism 800, in test process, by probe jacking gear, the spacing between probe 300 and test sample is adjusted according to specific needs.In testing process, camera lens 400 can be changed multiplying power automatically.Automatically adjust measuring instrument by this five axles image, can adjust flexibly X-axis, Y-axis, Z axis, probe 300 positions and camera lens 400 multiplying powers, have easy to detectly, test result accurately and not affects the quality of image.

In addition, this five axles image is automatically adjusted measuring instrument and is had feature simple in structure.

embodiment 2.

A kind of five axle images are adjusted measuring instrument automatically, and other structure is identical with embodiment 1, and difference is also have following technical characterictic:

As shown in Figure 4, the second web member 532 that this five axles image is adjusted measuring instrument is automatically provided with the governor motion that can regulate spacing between probe 300 and longitudinal pedestal 200, and governor motion is arranged at the second web member 532.

Governor motion is set to the multiple through hole being arranged in a linear 533, the second web members 532 and is fixed on the first web member 531 by one of them through hole 533.By governor motion, can in the time that assembling, probe 300 adjust the spacing between probe 300 and longitudinal pedestal 200 according to difference test sample, adjust more flexible.The through hole 533 that employing is arranged in a linear, has feature simple in structure, with low cost.

It should be noted that, the quantity of through hole is not limited to three of the present embodiment, can arrange flexibly as required.

Finally should be noted that; above embodiment is the restriction in order to the technical solution of the utility model to be described but not to the utility model protection domain only; although the utility model is explained in detail with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can modify or be equal to replacement the technical solution of the utility model, and not depart from essence and the scope of technical solutions of the utility model.

Claims (10)

1. an axle image is adjusted measuring instrument automatically, it is characterized in that: be provided with horizontal base, longitudinal pedestal, test platform, longitudinal mount pad, probe, probe jacking gear and camera lens, described horizontal base and vertical setting of described longitudinal pedestal, described test platform is assemblied in described horizontal base, described longitudinal mount pad is assemblied in described longitudinal pedestal, and described probe and described camera lens are assemblied in respectively described longitudinal mount pad;

Described probe jacking gear is assemblied in described longitudinal mount pad, and described probe is assemblied in described probe jacking gear, and described camera lens is set to automatic variable power lens.

2. five axle images according to claim 1 are adjusted measuring instrument automatically, it is characterized in that: described probe jacking gear is provided with driving mechanism, gear train and connection fixture;

Described driving mechanism is fixedly assemblied in described longitudinal mount pad, described gear train is connected with described driving mechanism, orthogonal two straight lines in test platform are defined as respectively to X-axis and Y-axis, be defined as Z axis by crossing test platform and the straight line vertical with described test platform, described driving mechanism drives described gear train to move along being parallel to Z-direction, described connection fixture one end is connected with described gear train, and the described connection fixture other end is fixedly connected with described probe;

When driving mechanism drive transmission device is when being parallel to Z-direction and moving, gear train drives connection fixture also to move along being parallel to Z-direction, thereby thereby connection fixture drives probe to be parallel to Z-direction moves the spacing regulating between probe and test platform.

3. five axle images according to claim 2 are automatically adjusted measuring instrument and be it is characterized in that: described gear train is provided with erecting frame, guide rail, Mobile base, flange seat, screw mandrel;

Described erecting frame, described guide rail are all fixed on described longitudinal mount pad, described guide rail parallel is in Z axis, described Mobile base is provided with groove, described Mobile base is assemblied in described guide rail by described groove activity, described flange seat is fixed on described Mobile base, described screw mandrel is assemblied in described flange seat, and described screw mandrel two ends are assemblied in described erecting frame, and described flange seat is fixedly connected with described connection fixture.

4. five axle images according to claim 3 are adjusted measuring instrument automatically, it is characterized in that: described connection fixture is provided with the first web member and the second web member that are mutually permanently connected, described the first web member is parallel to Z-direction, described the second web member is parallel with described test platform, described the first web member is fixedly connected with described flange seat, and described the second web member is fixedly connected with described probe.

5. five axle images according to claim 4 are adjusted measuring instrument automatically, it is characterized in that: described the second web member is provided with the governor motion that can regulate spacing between probe and described longitudinal pedestal, and described governor motion is arranged at described the second web member.

6. five axle images according to claim 5 are adjusted measuring instrument automatically, it is characterized in that: described governor motion is set to multiple through holes that are arranged in a linear, and described the second web member is fixed on described the first web member by one of them through hole.

7. five axle images according to claim 2 are adjusted measuring instrument automatically, it is characterized in that: described driving mechanism is set to motor, described motor is provided with motor base, described motor base is fixed on described longitudinal mount pad, and the motor drive shaft of described motor drives described gear train to move along being parallel to Z-direction.

8. automatically adjust measuring instrument according to five axle images described in claim 1 to 7 any one, it is characterized in that: be also provided with the Z axis adjusting mechanism that drives described longitudinal mount pad to move along Z axis, described Z axis adjusting mechanism is fixed on described longitudinal pedestal, and described Z axis adjusting mechanism is flexibly connected with described longitudinal mount pad.

9. automatically adjust measuring instrument according to five axle images described in claim 1 to 7 any one, it is characterized in that: be also provided with X-axis adjusting mechanism and Y-axis adjusting mechanism, described X-axis adjusting mechanism is arranged at respectively described horizontal base with Y-axis adjusting mechanism and drives and be connected with described test platform.

10. five axle images according to claim 9 are adjusted measuring instrument automatically, it is characterized in that: be also provided with control gear, described control gear is electrically connected with described probe jacking gear, camera lens, Z axis adjusting mechanism, X-axis adjusting mechanism and Y-axis adjusting mechanism respectively.