CN105407247A - 3D scanner with good adaptability - Google Patents

Abstract

The invention discloses a 3D scanner with good adaptability. The 3D scanner comprises a stage, a motor, a chute and a power unit. The motor and the stage are in drive connection. The stage, the motor and the chute are in sliding connection. The power unit drives the stage and the motor to move along the length direction of the chute. One end of the chute is provided with N first scanning units. The 3D scanner can scan materials of different heights and widths, and can realize three-dimensional scanning of objects on the stage due to rotation of the stage, thereby having a large scanning range, complete scanning data and good scanning effects. Unnecessary scanning operations are reduced, so that the resources are saved and the efficiency is improved. The 3D scanner can scan the object fromabove and below, thereby effectively guaranteeing the scanning quality.

Description

The 3D scanner that a kind of adaptability is good

Technical field

The present invention relates to scanner technology field, particularly relate to the 3D scanner that a kind of adaptability is good.

Background technology

Along with the fast development of computer technology, the miscellaneous equipment relevant to computer also obtains swift and violent development, such as scanner, scanner is a kind of computer external instrument equipment, by catching image and it being converted to the digitlization input equipment that computer can show, edits, stores and export.To the real-world object of certain length, width and height.As: tire screw, the three dimensional objects such as toy car, teacup, teapot all can be used as sweep object, extract and convert original lines, figure, word, photo, plane material object to can edit and add in file device.

Chinese patent literature CN203873121U discloses a kind of disc rotary type pin shape spatial digitizer, comprise machine rack, gear wheel is provided with in described machine rack end face one end along its length, gear wheel top is connected with toughened glass disk, also comprise the pinion engaged with gear wheel, pinion is connected with servomotor, the other end relative with the one end arranging toughened glass disk in machine rack is provided with sole scanner, and one end identical with arranging sole scanner above machine rack is provided with instep scanner.The scanning that above-mentioned patent can avoid pin to carry out repeatedly when artificial mobile by the automatic rotation of toughened glass disk, the favourable data error avoiding pin secondary acquisition after movement, makes accuracy higher; By instep spatial digitizer to the three-dimensional vision information on pin top and sole scanner to the three-dimensional vision information of foot bottom, then carrying out the synthesis of three-dimensional data and foot bottom three-dimensional data above pin, is the three-dimensional data of whole pin shape.

But also there is the problem that versatility is not strong and sole scanning space is limited in above-mentioned disc rotary type pin shape spatial digitizer, is further improved.

Summary of the invention

In order to solve the technical problem existed in background technology, the present invention proposes the 3D scanner that a kind of adaptability is good, easy to use, flexibility is good.

The 3D scanner that a kind of adaptability is good, comprise objective table, motor, chute, power unit, Information Collecting & Processing module, Executive Module, this motor and objective table are in transmission connection, the surface of this objective table is provided with at least 2 protrusion element, this protrusion element comprises some rectangular preiections, the bearing of trend of the projection in a protrusion element and the bearing of trend oblique or vertical of the projection in another protrusion element; This objective table, motor are connected with slide, and chute is horizontally disposed with, and this power unit driving objective table, motor move along track length direction;

By the design of projection, by arranging at least 2 protrusion element, different projection can both apply the frictional force of different directions, different size to object, and different protrusion element is different to the frictional strength of object, effective guarantee friction effect, prevents object from objective table landing.

Utilize driven by motor objective table to rotate, be convenient to carry out comprehensive scanning, the distance between objective table and the first scanning element can be adjusted flexibly, avoid because apart from excessive or too small and impact scanning effect, flexibility, better adaptability.

The top of this objective table is provided with slide bar, ultrasound distance transducer, the first hydraulic cylinder, the second hydraulic cylinder, this slide bar is horizontally disposed with, this slide bar is provided with slide plate, this slide plate is connected with sliding bar, this the first Driven by Hydraulic Cylinder slide plate is along the bearing of trend displacement of slide bar, and this slide plate and slide bar oblique or vertical, in embodiment, vertically to arrange, and allow slide plate be horizontally disposed with; This slide plate is provided with sliding shoe, this sliding shoe is connected with slide plate slides, this the second Driven by Hydraulic Cylinder sliding shoe is along the bearing of trend displacement of slide plate, and this ultrasound distance transducer is arranged on sliding shoe, and the transmitting terminal of this ultrasound distance transducer points to objective table;

Utilize the height of different parts of ultrasound distance transducer inspected object and the width of the horizontal direction of correspondence, and form corresponding height track and width track, for reference, limit sweep limits according to height track and width track, avoid unnecessary scanning operation.

The side of this chute is provided with N number of first scanning element, this first scanning element comprises the first support bar, the first cross bar, the first cylinder, this first support bar is vertically arranged, during concrete enforcement, vertically to arrange, this first cross bar and the first support bar oblique or vertical, when specifically implementing, vertically arranged; This first cross bar and the first support bar are slidably connected, and this first air cylinder driven first cross bar is along the bearing of trend displacement of the first support bar; This first cross bar is provided with the second cylinder, at least one first slide block, and this first slide block and the first cross bar are slidably connected, and this second air cylinder driven first slide block is along the bearing of trend displacement of the first cross bar; This first slide block is provided with the first probe, and this first probe points to objective table direction, and this first probe is connected with Computer signal;

The first air cylinder driven first cross bar is utilized to carry out displacement at vertical direction, the second air cylinder driven first slide block is utilized to carry out displacement in the horizontal direction, can both be able to scan the material of differing heights, different in width, objective table is coordinated to rotate, the first probe is allowed to realize 3-D scanning to the object on objective table, sweep limits is large, and scan-data is comprehensive, scans effective.

This Information Collecting & Processing module is connected with ultrasound distance transducer, Executive Module signal, and this Executive Module is connected with the first cylinder, the second cylinder, motor signal and controls the first cylinder, the second cylinder, motor movement;

Ultrasound distance transducer, for the width of the horizontal direction of the height and correspondence that detect the different parts being positioned over object on objective table, and forms corresponding height track and width track;

Information Collecting & Processing module, for obtaining above-mentioned height track and width track, forming the profilogram of object, and this profilogram is passed to Executive Module according to above-mentioned height track and width track;

Executive Module, defines the first cross bar between the displacement field of vertical direction and between the first probe displacement field in the horizontal direction according to above-mentioned profilogram.

The height of different objects and width are different, ultrasound distance transducer is utilized to obtain height track and the width track of object, Information Collecting & Processing module is utilized to produce corresponding profilogram, Executive Module according to this profilogram limit the first cross bar vertical direction certain area intrinsic displacement, limit the first probe hospital areas intrinsic displacement in the horizontal direction, avoid unnecessary scanning operation like this, save cost, save time.

Preferably, 3D scanner also comprises at least one second scanning element, at least one the second scanning element is positioned at the top of objective table, this second scanning element comprises the second support bar, second cross bar, 3rd cylinder, four-cylinder, back-up block, this second support bar is horizontally disposed with, this second cross bar and the second support bar oblique or vertical, this second cross bar and the second support bar are slidably connected, 3rd air cylinder driven second cross bar is along the bearing of trend displacement of the second support bar, this four-cylinder drives back-up block along the bearing of trend displacement of the second cross bar, this back-up block is provided with the second probe, this second probe points to objective table direction, this second probe is connected with Computer signal.

Utilize the second scanning element to scan object from the top of object, the data of scanning can be combined with the scan-data of the first scanning element, mutually confirm to ensure to scan effect; When the first scanning element can not scan certain region of object, can by the second scanning element.

Such as, fluted on object, upwards, now, the first scanning element just can not well scan the region of inside grooves this slot opening.

Preferably, this second scanning element also comprises the 5th cylinder, 5th cylinder and the second cross bar are slidably connected, this the second air cylinder driven the 5th cylinder is along the bearing of trend displacement of the second cross bar, the output of the 5th cylinder vertically stretches, and the output of this back-up block and the 5th cylinder is in transmission connection.

Change the distance of the second probe and object flexibly, to ensure to scan effect.

Preferably, the second scanning element also comprises rotary cylinder, and this rotary cylinder is arranged on the output of the 5th cylinder, and this back-up block is arranged on the output of rotary cylinder.

Like this, what the second probe can rotate scans object, better effects if, and scope is larger.

Preferably, the side of this back-up block is horizontally installed with the 3rd probe, the 3rd probe is connected with Computer signal.

Increase by the 3rd probe and increase sweep limits, ensure quality of scanning.

Preferably, the 3rd cylinder, four-cylinder, the 5th cylinder are all connected with Executive Module signal, this Executive Module define between the second cross bar, the 5th cylinder displacement field in the horizontal direction according to the profilogram of object and back-up block between the displacement field of vertical direction.

According to the profilogram of object, the range of movement of corresponding restriction second cross bar, the 5th cylinder, back-up block, reduces unnecessary scanning operation, saving resource.

Preferably, this back-up block is also provided with light emitting source.

Supplement brightness, convenient scanning, ensure scanning effect.

Preferably, the quantity of the second scanning element is 2, and be placed in the upper and lower side of objective table respectively, this objective table is made up of transparent material.

Can scan object from below, when object has counterbore, and this counterbore is when Open Side Down, and the second scanning element now just can be utilized to scan.

Certainly the second scanning element be positioned at below objective table does not just need the 5th cylinder, rotary cylinder, will be arranged between back-up block on the second cross bar.

Preferably, N=2,2 the first scanning elements are distributed in the both sides of chute.

Increase scan efficiency, ensure scanning effect.

The present invention can both be able to scan the material of differing heights, different in width, and coordinate objective table to rotate, realize 3-D scanning to the object on objective table, sweep limits is large, and scan-data is comprehensive, scans effective; Reduce unnecessary scanning operation, saving resource, raises the efficiency; Can scan from the top of object, below, effectively ensure that quality of scanning.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is the vertical view of the objective table in Fig. 1;

Fig. 3 is the left view of slide bar in Fig. 1, ultrasound distance sensor;

Fig. 4 is the right view of the first scanning element in Fig. 1;

Fig. 5 is the second scanning element left view be positioned at below objective table in Fig. 1;

Fig. 6 is the left view being positioned at the second scanning element comprising the 5th cylinder etc. above objective table in Fig. 1.

Embodiment

With reference to Fig. 1-6:

The 3D scanner that a kind of adaptability that the present invention proposes is good, comprise objective table 1, motor 2, chute 3, power unit 26, Information Collecting & Processing module, Executive Module, this motor 2 is in transmission connection with objective table 1, this objective table 1, motor 2 are slidably connected with chute 3, chute 3 is horizontally disposed with, and this power unit 26 driving objective table 1, motor 2 move along chute 3 length direction.

Utilize motor 2 to drive objective table 1 to rotate, be convenient to carry out omnibearing scanning to object, the distance between objective table 1 and the first scanning element can be adjusted flexibly, avoid because apart from excessive or too small and impact scanning effect, flexibility, better adaptability.

The top of this objective table 1 is provided with slide bar 4, ultrasound distance transducer 5, first hydraulic cylinder 6, second hydraulic cylinder 7, this slide bar 4 is horizontally disposed with, this slide bar 4 is provided with slide plate 8, this slide plate 8 is slidably connected with slide bar 4, this first hydraulic cylinder 6 drives slide plate 8 along the bearing of trend displacement of slide bar 4, and this slide plate 8 and slide bar 4 oblique or vertical, in embodiment, vertically to arrange, and allow slide plate 8 be horizontally disposed with; This slide plate 8 is provided with sliding shoe 9, this sliding shoe 9 is slidably connected with slide plate 8, this second hydraulic cylinder 7 drives sliding shoe 9 along the bearing of trend displacement of slide plate 8, and this ultrasound distance transducer 5 is arranged on sliding shoe 9, and the transmitting terminal of this ultrasound distance transducer 5 points to objective table 1;

Utilize the height of different parts of ultrasound distance transducer 5 inspected object and the width of the horizontal direction of correspondence, and form corresponding height track and width track, for reference, limit sweep limits according to height track and width track, avoid unnecessary scanning operation.

The side of this chute 3 is provided with N number of first scanning element, this first scanning element comprises the first support bar 10, first cross bar 11, first cylinder 12, and this first support bar 10 is vertically arranged, this first cross bar 11 and the first support bar 10 oblique or vertical, during concrete enforcement, vertically arrange; This first cross bar 11 and the first support bar 10 are slidably connected, and this first cylinder 12 drives the first cross bar 11 along the bearing of trend displacement of the first support bar 10; This first cross bar 11 is provided with the second cylinder 13, at least one first slide block 14, and this first slide block 14 and the first cross bar 11 are slidably connected, and this second cylinder 13 drives the first slide block 14 along the bearing of trend displacement of the first cross bar 11; This first slide block 14 is provided with the first probe 15, this first probe 15 points to objective table 1 direction, and this first probe 15 is connected with Computer signal;

The first cylinder 12 is utilized to drive the first cross bar 11 to carry out displacement at vertical direction, the second cylinder 13 is utilized to drive the first slide block 14 to carry out displacement in the horizontal direction, can both be able to scan the object of differing heights, different in width, objective table 1 is coordinated to rotate, the object on the first probe 15 pairs of objective tables 1 is allowed to realize 3-D scanning, sweep limits is large, and scan-data is comprehensive, scans effective.

This Information Collecting & Processing module and ultrasound distance transducer, Executive Module signal are connected, this Executive Module be connected with the first cylinder 12, second cylinder 13, motor 2 signal and control the first cylinder 12, second cylinder 13, motor 2 moves;

Ultrasound distance transducer 5, is positioned over the height of object and the width of horizontal direction on objective table 1 for detecting, and forms corresponding height track and width track;

Information Collecting & Processing module, for obtaining above-mentioned height track and width track, forming the profilogram of object, and this profilogram is passed to Executive Module according to above-mentioned height track and width track;

Executive Module, defines the first cross bar 11 between the displacement field of vertical direction and between the first probe 15 displacement field in the horizontal direction according to above-mentioned profilogram; After good to a Surface scan of object, send instruction to motor, utilize motor 2 to drive objective table 1 to rotate.

The height of different objects and width are different, ultrasound distance transducer 5 is utilized to obtain height track and the width track of object, Information Collecting & Processing module is utilized to produce corresponding profilogram, Executive Module according to this profilogram limit the first cross bar 11 vertical direction certain area intrinsic displacement, limit the first probe 15 hospital areas intrinsic displacement in the horizontal direction, avoid unnecessary scanning operation like this, save cost, save time.

3D scanner also comprises at least one second scanning element, at least one the second scanning element is positioned at the top of objective table 1, in the present embodiment, the quantity of the second scanning element is 2, be placed in the upper and lower side of objective table 1 respectively, this objective table 1 is made up of transparent material, can simultaneously above object, below scans object; This second scanning element comprises the second support bar 16, second cross bar 17, the 3rd cylinder 18, four-cylinder 19, back-up block 20, this second support bar 16 is horizontally disposed with, this second cross bar 17 and the second support bar 16 oblique or vertical, in embodiment, vertically arranged; This second cross bar 17 and the second support bar 16 are slidably connected, 3rd cylinder 18 drives the second cross bar 17 along the bearing of trend displacement of the second support bar 16, this four-cylinder 19 drives back-up block 20 along the bearing of trend displacement of the second cross bar 17, this back-up block 20 is provided with the second probe 21, this second probe 21 points to objective table 1 direction, and this second probe 21 is connected with Computer signal.

Utilize the second scanning element to scan object from the top of object, the data of scanning can be combined with the scan-data of the first scanning element, mutually confirm to ensure to scan effect; When the first scanning element can not scan certain region of object, can by the second scanning element.

Such as, fluted on object, upwards, now, the first scanning element just can not well scan the region of inside grooves this slot opening.

Can scan object from below, when object has counterbore, and this counterbore is when Open Side Down, and the second scanning element now just can be utilized to scan.

The second scanning element be positioned at above objective table 1 also comprises the 5th cylinder 22,5th cylinder 22 and the second cross bar are slidably connected, this four-cylinder 19 drives the 5th cylinder 22 along the bearing of trend displacement of the second cross bar 17, the output of the 5th cylinder 22 vertically stretches, and the output of this back-up block 20 and the 5th cylinder 22 is in transmission connection.

Stretching by the 5th cylinder 22, changes the distance of the second probe 21 and object flexibly, to ensure to scan effect.

Second scanning element also comprises rotary cylinder 13, and this rotary cylinder 23 is arranged on the output of the 5th cylinder 22, and this back-up block 20 is arranged on the output of rotary cylinder 23.

Like this, what the second probe 21 can rotate scans object, and better effects if, scope is larger.

The side of this back-up block 19 is horizontally installed with the 3rd probe the 24, three probe 24 to be connected with Computer signal.

Increase by the 3rd probe 24 and increase sweep limits, ensure quality of scanning.

3rd cylinder 18, four-cylinder 19, the 5th cylinder 22 are all connected with Executive Module signal, this Executive Module define between the second cross bar 17, the 5th cylinder 22 displacement field in the horizontal direction according to the profilogram of object and back-up block 20 between the displacement field of vertical direction.

According to the profilogram of object, the range of movement of corresponding restriction second cross bar the 17, the 5th cylinder 22, back-up block 20, reduces unnecessary scanning operation, saving resource.

This back-up block 19 is also provided with light emitting source 25; Supplement brightness, convenient scanning, ensure scanning effect.

N=2,2 the first scanning elements are distributed in the both sides of chute 3.Increase scan efficiency, ensure scanning effect.

The surface of this objective table 1 is provided with at least 2 protrusion element, and this protrusion element comprises the bearing of trend oblique or vertical of the bearing of trend of projection 27 in some rectangular preiections 27, protrusion element and the projection 27 in another protrusion element.

By the design of protruding 27, by arranging at least 2 protrusion element, different projections 27 can both apply the frictional force of different directions, different size to object, and different protrusion element is different to the frictional strength of object, effective guarantee friction effect, prevents object from objective table 1 landing.

The above; be only the present invention's preferably embodiment; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; be equal to according to technical scheme of the present invention and inventive concept thereof and replace or change, all should be encompassed within protection scope of the present invention.

Claims (8)

1. the 3D scanner that an adaptability is good, it is characterized in that: comprise objective table (1), motor (2), chute (3), power unit (26), Information Collecting & Processing module, Executive Module, the surface of this objective table (1) is provided with at least 2 protrusion element, this protrusion element comprises some rectangular preiections (27), the bearing of trend oblique or vertical of the bearing of trend of the projection (27) in a protrusion element and the projection (27) in another protrusion element; This motor (2) and objective table (1) are in transmission connection, this objective table (1), motor (2) and chute (3) are slidably connected, chute (3) is horizontally disposed with, and this power unit (26) driving objective table (1), motor (2) move along chute (3) length direction;

The top of this objective table (1) is provided with slide bar (4), ultrasound distance transducer (5), the first hydraulic cylinder (6), the second hydraulic cylinder (7), this slide bar (4) is horizontally disposed with, this slide bar (4) is provided with slide plate (8), this slide plate (8) and slide bar (4) are slidably connected, this first hydraulic cylinder (6) drives slide plate (8) along the bearing of trend displacement of slide bar (4), this slide plate (8) and slide bar (4) oblique or vertical; This slide plate (8) is provided with sliding shoe (9), this sliding shoe (9) and slide plate (8) are slidably connected, this second hydraulic cylinder (7) drives sliding shoe (9) along the bearing of trend displacement of slide plate (8), this ultrasound distance transducer (5) is arranged on sliding shoe (9), and the transmitting terminal of this ultrasound distance transducer (5) points to objective table (1);

The side of this chute (3) is provided with N number of first scanning element, this first scanning element comprises the first support bar (10), the first cross bar (11), the first cylinder (12), this first support bar (10) is vertically arranged, this first cross bar (11) and the first support bar (10) oblique or vertical, this first cross bar (11) and the first support bar (10) are slidably connected, and this first cylinder (12) drives the first cross bar (11) along the bearing of trend displacement of the first support bar (10); This first cross bar (11) is provided with the second cylinder (13), at least one first slide block (14), this first slide block (14) and the first cross bar (11) are slidably connected, and this second cylinder (13) drives the first slide block (14) along the bearing of trend displacement of the first cross bar (11); This first slide block (14) is provided with the first probe (15), and this first probe (15) points to objective table (1) direction, and this first probe (15) is connected with Computer signal;

This Information Collecting & Processing module and ultrasound distance transducer, Executive Module signal are connected, this Executive Module be connected with the first cylinder (12), the second cylinder (13), motor (2) signal and control the first cylinder (12), the second cylinder (13), motor (2) move;

Ultrasound distance transducer (5), is positioned over the upper height of different parts of object of objective table (1) and the width of the horizontal direction of correspondence for detecting, and forms corresponding height track and width track;

Information Collecting & Processing module, for obtaining above-mentioned height track and width track, forming the profilogram of object, and this profilogram is passed to Executive Module according to above-mentioned height track and width track;

Executive Module, defines the first cross bar (11) between the displacement field of vertical direction and between the first probe (15) displacement field in the horizontal direction according to above-mentioned profilogram.

2. the 3D scanner that adaptability according to claim 1 is good, it is characterized in that: also comprise at least one second scanning element, at least one the second scanning element is positioned at the top of objective table (1), this second scanning element comprises the second support bar (16), second cross bar (17), 3rd cylinder (18), four-cylinder (19), back-up block (20), this second support bar (16) is horizontally disposed with, this second cross bar (17) and the second support bar (16) oblique or vertical, this second cross bar (17) and the second support bar (16) are slidably connected, 3rd cylinder (18) drives the second cross bar (17) along the bearing of trend displacement of the second support bar (16), this four-cylinder (19) drives back-up block (20) along the bearing of trend displacement of the second cross bar (17), this back-up block (20) is provided with the second probe (21), this second probe (21) points to objective table (1) direction, this second probe (21) is connected with Computer signal.

3. the 3D scanner that adaptability according to claim 2 is good, it is characterized in that: this second scanning element also comprises the 5th cylinder (22), 5th cylinder (22) and the second cross bar (17) are slidably connected, this four-cylinder (19) drives the 5th cylinder (22) along the bearing of trend displacement of the second cross bar (17), the output of the 5th cylinder (22) vertically stretches, and this back-up block (20) is in transmission connection with the output of the 5th cylinder (22).

4. the 3D scanner that adaptability according to claim 3 is good, it is characterized in that: the second scanning element also comprises rotary cylinder (23), this rotary cylinder (23) is arranged on the output of the 5th cylinder (22), and this back-up block (20) is arranged on the output of rotary cylinder (23).

5. the 3D scanner that adaptability according to claim 4 is good, is characterized in that: the side of this back-up block (20) is horizontally installed with the 3rd probe (24), and the 3rd probe (24) is connected with Computer signal.

6. the 3D scanner that the adaptability according to claim 3 or 4 is good, it is characterized in that: the 3rd cylinder (18), four-cylinder (19), the 5th cylinder (22) are all connected with Executive Module signal, this Executive Module define between the second cross bar (17), the 5th cylinder (22) displacement field in the horizontal direction according to the profilogram of object and back-up block (20) between the displacement field of vertical direction.

7. the 3D scanner that adaptability according to claim 2 is good, is characterized in that: the quantity of the second scanning element is 2, is placed in the upper and lower side of objective table (1) respectively, and this objective table (1) is made up of transparent material.

8. the 3D scanner that adaptability according to claim 1 is good, is characterized in that: N=2,2 the first scanning elements are distributed in the both sides of chute (3).