CN220915312U - Non-contact soft light high-precision photographic scanner - Google Patents

Abstract

The utility model belongs to the field of scanners, in particular to a non-contact soft high-precision photographic scanner, which aims at the problems that the existing non-contact scanner fixes an object through a magnetic limiting piece, however, the object is blocked to a certain extent, so that the scanning effect is poor, the scanning angle of the object cannot be adjusted, and the application range is limited are caused. According to the utility model, through the matching of all the components, not only is shielding reduced on the object reduced, but also the object is flattened while a certain fixing effect is achieved, so that the scanning effect is improved, the angle adjustment of the object can be realized, and the objects of different types can be scanned.

Description

Non-contact soft light high-precision photographic scanner

Technical Field

The utility model relates to the technical field of scanners, in particular to a non-contact soft light high-precision photographic scanner.

Background

The non-contact type platform scanner is always a focused field of people, belongs to the equipment with extremely strong comprehensive functions of light, machinery, electricity, softness and calculation, and relates to research difficulties including the problems of rapid high-precision splicing of high-capacity images of a precise paper feeding mechanism, vector conversion of the high-capacity images, optical illumination imaging and the like;

In the prior art, when a scanner scans, a body to be scanned is tiled on a platform, and the platform is fixed and cannot be adjusted, so that the application range is limited, and the application number for the problems is as follows: 201620921478.2 discloses a non-contact type platform scanner, which relates to the technical field of scanners and comprises a platform for placing a body to be scanned and a camera which is positioned right above the platform and used for shooting the body to be scanned, wherein the platform is connected with a base in a sliding manner, and a plurality of supporting legs for adjusting the height of the base are fixedly arranged at the bottom of the base;

However, the existing non-contact scanner fixes the object through the magnetic limiting piece, however, certain shielding is caused to the object, so that the scanning effect is poor, and the scanning angle of the non-contact scanner cannot be adjusted due to fixed scanning angle, so that the application range is limited.

Disclosure of utility model

The utility model aims to solve the defects in the prior art and provides a non-contact soft light high-precision photographic scanner.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides a high-accuracy photographic scanner of non-contact soft light, includes bottom plate, scanning head and plectane, fixedly connected with riser on the bottom plate, the top fixedly connected with diaphragm of riser, the one end fixedly mounted of diaphragm has the scanning head, fixedly connected with slide rail one on the bottom plate, sliding connection has ring plate one on the slide rail one, rotate on the ring plate one and be connected with two dead levers one, two the one end fixedly connected with of dead lever one is same ring plate two, rotate on the ring plate two and be connected with two dead levers two the one end fixedly connected with same plectane of dead lever two, the plectane corresponds with the scanning head, makes the ring plate one slide on the slide rail one through promoting the ring plate one to realize further promotion scanning effect to the regulation of article.

Specifically, rotate on the plectane and be connected with two threaded rods, two equal threaded connection has slide rail two on the threaded rod, two sliding connection has same transparent plate in the slide rail two, the one end and the riser contact of transparent plate are connected, are convenient for place the article.

Specifically, two one end of threaded rod is all fixed cover and is equipped with gear one, two gear one meshing is connected with same gear two, fixedly connected with transfer line one on the gear two, transfer line one rotates with the plectane to be connected, for dismantling the connection.

Specifically, one end fixed cover of transfer line one is equipped with bevel gear one, meshing is connected with bevel gear two on the bevel gear one, fixedly connected with transfer line two on the bevel gear two, transfer line two rotates with the plectane to be connected, thereby makes through rotating plate one and drive bevel gear one through the transmission of transfer line two and bevel gear two, and bevel gear one drives gear two through the transfer line simultaneously and rotates.

Specifically, one end of the transmission rod II is fixedly connected with a rotating plate I, so that the transmission rod II can be rotated conveniently.

Specifically, one of the fixing rods I penetrates through the annular plate I and one end of the fixing rod I is fixedly connected with the rotating plate II, so that the inclination angle of the annular plate II can be conveniently adjusted.

Specifically, one of the fixing rods II penetrates through the annular plate II, one end of the fixing rod II is fixedly connected with the rotating plate III, and the inclination angle of the circular plate is convenient to adjust.

Specifically, two bearings are fixedly sleeved on the threaded rods, the outer walls of the two bearings are fixedly connected with the circular plate, and the first annular plate is in contact connection with the vertical plate.

Compared with the prior art, the utility model has the beneficial effects that:

(1) According to the non-contact soft light high-precision photographic scanner, the rotating plate I is rotated to drive the bevel gear I to rotate through the transmission of the transmission rod II and the bevel gear II, meanwhile, the bevel gear I drives the gear II to rotate through the transmission rod, meanwhile, the gear II drives the two threaded rods to rotate on the circular plate through meshing transmission with the two gears I, and meanwhile, the two sliding rails II drive the transparent plate to move downwards, so that an object is clamped and fixed, namely the object is flattened, and the scanning head is convenient for scanning the object.

(2) According to the non-contact soft light high-precision photographic scanner, the rotating plate II and the rotating plate III are rotated to enable one fixing rod I and one fixing rod II of the fixing rods I and the fixing rod II to respectively drive the annular plate II and the circular plate to rotate for a certain angle, so that angle adjustment of an object is achieved, and the object is parallel to the scanning head, and therefore scanning effect is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be understood that the drawings described below are merely exemplary, and that the structures, proportions, sizes, etc. shown in the present specification are merely illustrative of the contents of the present specification, for the understanding and appreciation of the skilled artisan, and are not meant to limit the limitations upon the practice of the present utility model, so that there is no technical significance to any modification, change in the proportions, or adjustment of the size of the structures.

FIG. 1 is a schematic diagram of a three-dimensional mechanism of a non-contact soft high-precision photographic scanner according to the present utility model;

FIG. 2 is a schematic diagram showing the anatomy of a front view of a non-contact soft high-definition photographic scanner according to the present utility model;

FIG. 3 is a schematic diagram of a disk, a first gear and a second gear;

Fig. 4 is a schematic structural view of the threaded rod, the second sliding rail and the transparent plate.

In the figure: 1. a bottom plate; 2. a riser; 3. a cross plate; 4. a scanning head; 5. a first slide rail; 6. a first annular plate; 7. a first fixed rod; 8. a second annular plate; 9. a second fixing rod; 10. a circular plate; 11. a threaded rod; 12. a second slide rail; 13. a transparent plate; 14. a first gear; 15. a second gear; 16. a transmission rod I; 17. bevel gears I; 18. bevel gears II; 19. a transmission rod II; 20. a rotating plate I; 21. a second rotating plate; 22. and a rotating plate III.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, a non-contact soft light high-precision photographic scanner comprises a bottom plate 1, a scanning head 4 and a circular plate 10, wherein a vertical plate 2 is fixedly connected to the bottom plate 1, a transverse plate 3 is fixedly connected to the top of the vertical plate 2, the scanning head 4 is fixedly installed at one end of the transverse plate 3, a first slide rail 5 is fixedly connected to the bottom plate 1, a first ring plate 6 is slidingly connected to the first slide rail 5, two fixing rods 7 are rotationally connected to the first ring plate 6, one end of each fixing rod 7 is fixedly connected with a second ring plate 8, two fixing rods 9 are rotationally connected to the second ring plate 8, one end of each fixing rod 9 is fixedly connected with a circular plate 10, the circular plate 10 corresponds to the scanning head 4, and the first ring plate 6 slides on the first slide rail 5 by pushing the first ring plate 6, so that the scanning effect is further improved by adjusting objects. In this embodiment, two threaded rods 11 are rotatably connected to the circular plate 10, two slide rails two 12 are screwed to the threaded rods 11, the same transparent plate 13 is slidably connected to the slide rails two 12, and one end of the transparent plate 13 is in contact connection with the vertical plate 2, so that articles can be placed conveniently.

In this embodiment, one end of each of the two threaded rods 11 is fixedly sleeved with a first gear 14, the two first gears 14 are connected with the same second gear 15 in a meshed manner, a first transmission rod 16 is fixedly connected to the second gear 15, and the first transmission rod 16 is rotatably connected with the circular plate 10 and is detachably connected.

In this embodiment, a bevel gear one 17 is fixedly sleeved at one end of the first transmission rod 16, a bevel gear two 18 is engaged and connected to the bevel gear one 17, a transmission rod two 19 is fixedly connected to the bevel gear two 18, the transmission rod two 19 is rotationally connected with the circular plate 10, the first rotation plate 20 is rotated through the transmission of the transmission rod two 19 and the bevel gear two 18, so that the first rotation plate 20 drives the bevel gear one 17 to rotate, and meanwhile, the bevel gear one 17 drives the gear two 15 to rotate through the transmission rod one 16.

In this embodiment, one end of the second transmission rod 19 is fixedly connected with a first rotating plate 20, so as to facilitate rotation of the second transmission rod 19.

In this embodiment, one of the fixing rods 7 of the two fixing rods 7 penetrates through the ring plate 6, and one end of the fixing rod is fixedly connected with the rotating plate 21, so that the inclination angle of the ring plate 8 can be conveniently adjusted.

In this embodiment, one of the second fixing rods 9 penetrates through the second ring plate 8, and one end of the second fixing rod is fixedly connected with the third rotating plate 22, so as to facilitate adjustment of the inclination angle of the circular plate 10.

In this embodiment, bearings are fixedly sleeved on the two threaded rods 11, the outer walls of the two bearings are fixedly connected with the circular plate 10, and the first annular plate 6 is in contact connection with the vertical plate 2.

Working principle: when the device is used, firstly, an object is placed on a circular plate 10, then a transparent plate 13 corresponds to the object, then the first rotating plate 20 drives the first bevel gear 17 to rotate through the transmission of the second transmission rod 19 and the second bevel gear 18 by rotating the first rotating plate 20, meanwhile, the first bevel gear 17 drives the second bevel gear 15 to rotate through the first transmission rod 16, meanwhile, the second bevel gear 15 drives the two threaded rods 11 to rotate on the circular plate 10 through the meshing transmission of the two first gears 14, and meanwhile, the two sliding rails 12 drive the transparent plate 13 to move downwards, so that the object is clamped and fixed, namely, the object is flattened, and the scanning head 4 is convenient for scanning the object; one of the first fixing rod 7 and the second fixing rod 9 respectively drives the second annular plate 8 and the circular plate 10 to rotate for a certain angle by rotating the second rotating plate 21 and the third rotating plate 22, so that the angle of the object is adjusted, and the object is parallel to the scanning head 4, so that the scanning effect is improved; the first annular plate 6 is pushed to slide on the first sliding rail 5, so that the object is adjusted, and the scanning effect is further improved.

Compared with the prior art, the utility model has the technical advantages that: the shielding of the objects is reduced by the cooperation of the components, and the objects are flattened while a certain fixing effect is achieved, so that the scanning effect is improved, the angle adjustment of the objects can be realized, and the objects of different types can be scanned _.

Claims (8)

1. The utility model provides a high-precision photographic scanner of non-contact soft light, its characterized in that, includes bottom plate (1), scanning head (4) and plectane (10), fixedly connected with riser (2) on bottom plate (1), the top fixedly connected with diaphragm (3) of riser (2), the one end fixedly mounted of diaphragm (3) has scanning head (4), fixedly connected with slide rail one (5) on bottom plate (1), sliding connection has annular plate one (6) on slide rail one (5), rotate on annular plate one (6) and be connected with two dead levers one (7), two the one end fixedly connected with one annular plate two (8) of dead lever one (7), rotate on annular plate two (8) and be connected with two dead levers two (9), two the one end fixedly connected with one plectane (10) of dead lever two (9), plectane (10) correspond with scanning head (4).

2. The non-contact soft high-precision photographic scanner according to claim 1, wherein two threaded rods (11) are rotatably connected to the circular plate (10), two sliding rails (12) are connected to the threaded rods (11) in a threaded manner, the same transparent plate (13) is connected to the sliding rails (12) in a sliding manner, and one end of the transparent plate (13) is connected to the vertical plate (2) in a contact manner.

3. A non-contact soft high-precision photographic scanner according to claim 2, wherein one end of each of the two threaded rods (11) is fixedly sleeved with a first gear (14), the two first gears (14) are connected with the same second gear (15) in a meshed manner, a first transmission rod (16) is fixedly connected to the second gear (15), and the first transmission rod (16) is rotatably connected with the circular plate (10).

4. A non-contact soft high-precision photographic scanner according to claim 3, wherein one end of the first transmission rod (16) is fixedly sleeved with a first bevel gear (17), the first bevel gear (17) is connected with a second bevel gear (18) in a meshed manner, the second bevel gear (18) is fixedly connected with a second transmission rod (19), and the second transmission rod (19) is rotatably connected with the circular plate (10).

5. The non-contact soft high-precision photographic scanner as claimed in claim 4, wherein one end of the transmission rod II (19) is fixedly connected with a rotating plate I (20).

6. A non-contact soft high-precision photographic scanner according to claim 1, wherein one of the fixing rods (7) of the two fixing rods (7) penetrates through the annular plate (6) and is fixedly connected with the rotating plate (21) at one end.

7. A non-contact soft high-precision photographic scanner according to claim 1, wherein one of the two fixing rods (9) penetrates through the annular plate (8) and is fixedly connected with the rotating plate (22) at one end.

8. A non-contact soft high-precision photographic scanner according to claim 3, characterized in that bearings are fixedly sleeved on both threaded rods (11), the outer walls of the two bearings are fixedly connected with a circular plate (10), and the first annular plate (6) is in contact connection with the vertical plate (2).