CN111045311A - Digital holographic microscopic imaging equipment for irregular precision parts - Google Patents

Abstract

The invention discloses digital holographic microscopic imaging equipment for irregular precise parts, which comprises an imaging box body, wherein the top end of the imaging box body is rotatably provided with a display panel, the top end of the imaging box body is provided with a processing imaging cabinet corresponding to one side of the display panel, one end of the processing imaging cabinet is connected with a control panel in the future, the digital holographic microscopic imaging equipment has a scientific and reasonable structure and is safe and convenient to use, external air can be sucked and filtered through an exhaust fan, an air exhaust outer bin, a blocking inner bin, a filter screen and a flood dragon plate, a crank can be shaken to clean falling dust and fibers, the floating of the external dust and fibers can be avoided to influence the observation effect of the parts, the parts can be clamped and can be subjected to displacement observation through an upper movable plate, a lower movable plate, a pressing plate, a sliding connecting column and a fixed seat during microscopic observation of the parts, the part is convenient to move when being observed.

Description

Digital holographic microscopic imaging equipment for irregular precision parts

Technical Field

The invention relates to the technical field of holographic microscopic imaging, in particular to digital holographic microscopic imaging equipment for irregular precision parts.

Background

In the field of holographic imaging, digital holography has the characteristics of high imaging speed and relatively low requirement on the stability of equipment compared with traditional holography, so that the digital holography is widely applied to the fields of microscopic imaging, three-dimensional imaging, particle tracking and the like and realizes rapid development, and meanwhile, in the process of recording and reproducing an object image by the digital holography, the resolution ratio which can be realized by the imaging equipment for recording the hologram is in the micron level;

however, when the existing digital holographic microscopic imaging equipment is used, when the parts are subjected to microscopic observation, the parts are easy to generate errors in the microscopic observation due to the fact that dust and fibers are contained in the observation space, and the accuracy of the microscopic observation of the parts is affected.

Disclosure of Invention

The technical scheme provided by the invention can effectively solve the problem that when the parts are subjected to microscopic observation, the accuracy of the microscopic observation of the parts is influenced due to the fact that the parts are easy to have errors during the microscopic observation because the observation space contains dust and fibers.

In order to achieve the purpose, the invention provides the following technical scheme: the digital holographic microscopic imaging equipment for the irregular precision parts comprises an imaging box body, wherein a display panel is rotatably arranged at the top end of the imaging box body, a processing imaging cabinet is arranged at the position, corresponding to one side of the display panel, of the top end of the imaging box body, a control panel is connected in the way of one end of the processing imaging cabinet, a placing groove is formed in one end of the imaging box body, and a microscopic observation lens is connected to the bottom end of the processing imaging cabinet;

the other end of the imaging box body is connected with a dust removal collecting mechanism, and the dust removal collecting mechanism comprises an air exhaust outer bin, a blocking inner bin, an air exhaust hole, an air inlet hole, an air exhaust fan, a filter screen, a collecting bin, a rotating shaft, a flood dragon plate, a crank and a cover plate;

the inner wall of one end of the imaging box body is connected with an air exhaust outer bin, the inner wall of the air exhaust outer bin is provided with a blocking inner bin, the inner wall of one end of the imaging box body is uniformly provided with exhaust holes corresponding to the inner position of the air exhaust outer bin, the inner wall of one end of the imaging box body is uniformly provided with air inlet holes corresponding to the positions of the exhaust holes, the inner wall of one end of the imaging box body is symmetrically connected with an exhaust fan corresponding to the positions of the exhaust holes, the inner walls of the air exhaust outer bin and the blocking inner bin are connected with filter screens, the bottom end of the air exhaust outer bin is connected with a collecting bin, the inner wall of one end of the collecting bin is rotatably provided with a rotating shaft, the outer side of the rotating shaft is uniformly connected with a flood dragon plate, one end of;

the input end of the control panel is electrically connected with the output end of the commercial power, and the output end of the control panel is electrically connected with the input end of the exhaust fan.

Preferably, the outer side of the flood dragon plate is in contact with the collection bin, and anti-skid grains are formed in the outer side of the crank.

Preferably, a part fixing and moving mechanism is mounted on the inner wall of the bottom end of the placing groove and comprises a slide rail, a limiting plate, a telescopic rod, a protective spring, a protective base plate, a lower moving plate, a fixed seat, a sliding connecting column, an upper moving plate, a fixed column, a pressing plate, a pressing spring, a fixed ring and a pull handle;

the inner wall of the bottom end of the placing groove is symmetrically provided with slide rails, one end of each slide rail is connected with a limit plate, one end of the limiting plate is evenly connected with a telescopic rod corresponding to the outer side of the slide rail, the outer side of the telescopic rod is wrapped with a protective spring, one end of the telescopic rod is connected with a protective backing plate, the top end of the sliding rail is connected with a lower moving plate in a sliding way, the top end of the lower movable plate is fixedly provided with a fixed seat, the inner wall of the fixed seat is provided with a sliding connecting column in a sliding way, the top end of the sliding connecting column is fixedly connected with an upper moving plate, four corners of the top end of the upper moving plate are connected with fixed columns, a pressing plate is slidably mounted on the outer side of the fixed column, a pressing spring is connected to the position, corresponding to the top end of the pressing plate, of the outer side of the fixed column, the outer side of the fixed column is connected with a fixed ring corresponding to the top end of the compression spring, and one end of the upper moving plate is connected with a pull handle.

Preferably, the top end of the compression spring is fixedly connected with the fixing ring, and a rubber pad is attached to one end of the protective backing plate.

Preferably, a drying and accommodating mechanism is mounted at the top end of the imaging box body, and the drying and accommodating mechanism comprises an accommodating bin, an accommodating partition plate, a sliding groove, a sliding baffle, an embedded groove, an activated carbon plate and a push plate;

the imaging box is characterized in that a storage bin is installed on the inner wall of the top end of the imaging box body, a storage partition plate is symmetrically connected to the inner wall of the bottom end of the storage bin body, a sliding groove is formed in the imaging box body and corresponds to the position of the storage bin body, a sliding baffle is slidably installed on the inner wall of the sliding groove, an embedded groove is uniformly formed in the bottom end of the sliding baffle, an activated carbon plate is attached to the inner wall of the embedded groove, and a push plate is connected to the top end of the sliding.

Preferably, micropores are uniformly formed in the outer side of the activated carbon plate, and the top end of the push plate is coated with an anti-slip rubber sleeve.

Preferably, the outer side position of the bottom end of the microscopic observation lens is connected with an illumination adjusting mechanism, and the illumination adjusting mechanism comprises a moving groove, a limiting ring, a moving block, an illumination plate and an LED lamp bead;

a moving groove is formed in the outer side of the bottom end of the microscopic observation lens, a limiting circular ring is connected to the inner wall of the moving groove, a moving block is slidably mounted on the outer side of the limiting circular ring, the bottom end of the moving block is connected with an illumination plate, and LED lamp beads are uniformly embedded and mounted at one end of the illumination plate;

the output end of the control panel is electrically connected with the input end of the LED lamp bead.

Preferably, the corners of the illumination plate are smooth round corners, and soft metal strips are embedded in the illumination plate.

Preferably, the four corners of the bottom end of the imaging box body are connected with damping support mechanisms, and each damping support mechanism comprises a base, a mounting groove, a mounting column, a linkage groove, a linkage rod and a damping spring;

the utility model discloses a damping device of a vibration damping device, including formation of image box, the bottom four corners position department of formation of image box is connected with the erection column, the outside slidable mounting of erection column has the base, the top of base corresponds erection column position department and has seted up the mounting groove, the top of base corresponds mounting groove outside position department and has evenly seted up the linkage groove, the inner wall slidable mounting in linkage groove has the gangbar, the outside of gangbar is connected with damping spring.

Preferably, the top end of the damping spring is fixedly connected with the bottom end of the imaging box body, and the bottom end of the damping spring is fixedly connected with the top end of the base.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. through the air discharge fan that sets up, bleed outer storehouse, separation interior storehouse, filter screen and flood dragon board, the operation of accessible air discharge fan, with the external gas suction inlet port to filter through the filter screen, and can wave the crank, drive axis of rotation and flood dragon board and rotate, clear up the dust and the fibre that drop, when can avoiding observing the part, float because of external dust and fibre, influence part observation effect.

2. Through the last movable plate, the movable plate that moves down, clamp plate, slip even post and the fixing base that set up, the accessible clamp plate carries out the centre gripping to the part to can promote to draw the handle when carrying out micro-imaging to the part, drive the movable plate and pass through slip even post and slide in the fixing base is inside, can shift the observation to the part, fixed and removal when being convenient for the part is observed microscopically, move when being convenient for observe the part.

3. Through push pedal, slide damper, sliding tray, collecting storage and the active carbon board that sets up, can place the instrument and the part that need the storage and separate in collecting storage to can carry out the dry protection to instrument and part that the collecting storage was interior, be convenient for carry out categorised storage to instrument and part, the condition that wets and damage appears when also can avoiding instrument and part to save.

4. Through the shifting chute, illumination board, spacing ring and the LED lamp pearl that set up, the position of adjustable illumination board to through the operation of LED lamp pearl, carry out the illumination when forming images a little to the spare part, avoid because of the illumination condition, influence the effect of the micro-formation of image of part.

5. Through erection column, base, linkage groove, gangbar and damping spring that set up, can support the formation of image box, to carrying out elastic connection between the formation of image box, reduce external vibrations and transmit to the formation of image box inside, influence the formation of image effect of part.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the mounting structure of the microscopic observation lens and the processing imaging cabinet of the present invention;

FIG. 3 is a schematic view of the dust collecting mechanism of the present invention;

FIG. 4 is a schematic view of the installation structure of the rotating shaft and flood dragon plate of the present invention;

FIG. 5 is a schematic structural view of a part fixing and moving mechanism of the present invention;

FIG. 6 is a schematic view of the mounting structure of the fixing base and the sliding connecting column of the present invention;

FIG. 7 is a schematic structural view of the drying intake mechanism of the present invention;

FIG. 8 is a schematic structural view of the illumination adjustment mechanism of the present invention;

FIG. 9 is a schematic view of the mounting structure of the moving block and the illumination board of the present invention;

FIG. 10 is a schematic structural view of the shock absorbing support mechanism of the present invention;

reference numbers in the figures: 1. an imaging box body; 2. a display panel; 3. processing the imaging cabinet; 4. a control panel; 5. a placement groove; 6. a microscopic observation lens;

7. a dust removal collection mechanism; 701. an air exhaust outer bin; 702. blocking the inner bin; 703. an exhaust hole; 704. an air inlet; 705. an exhaust fan; 706. a filter screen; 707. a collection bin; 708. a rotating shaft; 709. a flood dragon plate; 710. a crank; 711. a cover plate;

8. a part fixing and moving mechanism; 801. a slide rail; 802. a limiting plate; 803. a telescopic rod; 804. a guard spring; 805. a protective backing plate; 806. a lower moving plate; 807. a fixed seat; 808. sliding the connecting column; 809. moving the plate upwards; 810. fixing a column; 811. pressing a plate; 812. a compression spring; 813. a fixing ring; 814. pulling a handle;

9. a drying and storing mechanism; 901. a storage bin; 902. a storage partition plate; 903. a sliding groove; 904. a sliding baffle; 905. a groove is embedded; 906. an activated carbon plate; 907. pushing the plate;

10. an illumination adjustment mechanism; 1001. a moving groove; 1002. a limiting ring; 1003. a moving block; 1004. an illumination panel; 1005. LED lamp beads;

11. a shock-absorbing support mechanism; 1101. a base; 1102. mounting grooves; 1103. mounting a column; 1104. a linkage groove; 1105. a linkage rod; 1106. a shock absorbing spring.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-10, the invention provides a technical solution, an irregular precision part digital holographic microscopic imaging device, comprising an imaging box 1, wherein a display panel 2 is rotatably installed at the top end of the imaging box 1, a processing imaging cabinet 3 is installed at a position, corresponding to one side of the display panel 2, at the top end of the imaging box 1, a control panel 4 is connected in the way of one end of the processing imaging cabinet 3, a placing groove 5 is arranged at one end of the imaging box 1, and a microscopic observation lens 6 is connected at the bottom end of the processing imaging cabinet 3;

the other end of the imaging box body 1 is connected with a dust removal collecting mechanism 7, and the dust removal collecting mechanism 7 comprises an air extraction outer bin 701, a blocking inner bin 702, an air exhaust hole 703, an air inlet hole 704, an air exhaust fan 705, a filter screen 706, a collecting bin 707, a rotating shaft 708, a dragon board 709, a crank 710 and a cover plate 711;

an air exhaust outer bin 701 is connected to the inner wall of one end of the imaging box body 1, a blocking inner bin 702 is installed on the inner wall of the air exhaust outer bin 701, exhaust holes 703 are uniformly formed in the position, corresponding to the inner position of the air exhaust outer bin 701, of the inner wall of one end of the imaging box body 1, air inlet holes 704 are uniformly formed in the position, corresponding to the positions of the exhaust holes 703, of the inner wall of one end of the imaging box body 1, exhaust fans 705 are symmetrically connected to the positions, corresponding to the positions of the exhaust holes 703, of the inner walls of the air exhaust outer bin 701 and the blocking inner bin 702, a filter screen 706 is connected to the inner walls of the air exhaust outer bin 701, a collecting bin 707 is connected to the bottom end of the air exhaust outer bin 701, a rotating shaft 708 is rotatably installed on the inner wall of one end of the collecting bin 707, a;

the input of control panel 4 electric connection commercial power's output, control panel 4's output electric connection exhaust fan 705's input, flood dragon board 709's the outside and collect storehouse 707 contact, and anti-skidding line has been seted up to the outside of crank 710, is convenient for clear up the dust in collecting the storehouse 707 through flood dragon board 709.

A part fixing and moving mechanism 8 is installed on the inner wall of the bottom end of the placing groove 5, and the part fixing and moving mechanism 8 comprises a sliding rail 801, a limiting plate 802, an expansion rod 803, a protection spring 804, a protection base plate 805, a lower moving plate 806, a fixing seat 807, a sliding connecting column 808, an upper moving plate 809, a fixing column 810, a pressing plate 811, a pressing spring 812, a fixing ring 813 and a pull handle 814;

sliding rails 801 are symmetrically installed on the inner wall of the bottom end of the placing groove 5, a limiting plate 802 is connected to one end of each sliding rail 801, telescopic rods 803 are evenly connected to one end of each limiting plate 802 corresponding to the outer side of the corresponding sliding rail 801, a protective spring 804 wraps the outer side of each telescopic rod 803, a protective cushion plate 805 is connected to one end of each telescopic rod 803, a lower moving plate 806 is connected to the top end of each sliding rail 801 in a sliding mode, a fixed seat 807 is fixedly installed at the top end of each lower moving plate 806, a sliding connecting column 808 is installed on the inner wall of each fixed seat 807 in a sliding mode, an upper moving plate 809 is fixedly connected to the top end of each sliding connecting column 808, fixed columns 810 are connected to four corners of the top end of each upper moving plate 809, pressing plates 811 are installed on the outer sides of the fixed columns 810 in a sliding mode, the top end of the pressing spring 812 is fixedly connected with the fixing ring 813, and a rubber pad is attached to one end of the protective backing plate 805, so that an anti-collision protective mechanism of the protective backing plate 805 is added.

A drying and accommodating mechanism 9 is mounted at the top end of the imaging box body 1, and the drying and accommodating mechanism 9 comprises an accommodating bin 901, an accommodating partition plate 902, a sliding groove 903, a sliding baffle 904, an embedded groove 905, an activated carbon plate 906 and a push plate 907;

storage bin 901 is installed to the top inner wall of formation of image box 1, storage bin 901's bottom inner wall symmetric connection has storage baffle 902, sliding tray 903 has been seted up to the inside of formation of image box 1 corresponding storage bin 901 position department, sliding tray 903 has sliding baffle 904 in sliding tray 903's inner wall slidable mounting, embedded groove 905 has evenly been seted up to sliding baffle 904's bottom, the inner wall of embedded groove 905 is attached to have activated carbon plate 906, sliding baffle 904's top is connected with push pedal 907, activated carbon plate 906's the outside has evenly been seted up the micropore, the top cladding of push pedal 907 has the anti-skidding rubber cover, activated carbon plate 906 and the area of contact of air have been increaseed.

The outer side of the bottom end of the microscopic observation lens 6 is connected with an illumination adjusting mechanism 10, and the illumination adjusting mechanism 10 comprises a moving groove 1001, a limiting ring 1002, a moving block 1003, an illumination plate 1004 and an LED lamp bead 1005;

a moving groove 1001 is formed in the outer side of the bottom end of the microscopic observation lens 6, a limiting circular ring 1002 is connected to the inner wall of the moving groove 1001, a moving block 1003 is slidably mounted on the outer side of the limiting circular ring 1002, the bottom end of the moving block 1003 is connected with an illuminating plate 1004, and LED lamp beads 1005 are uniformly embedded and mounted at one end of the illuminating plate 1004;

the output electric connection of control panel 4 LED lamp pearl 1005's input, the corner of illumination board 1004 is smooth fillet, and the inside embedding of illumination board 1004 has soft metal strip, is convenient for adjust the bend angle of illumination board 1004.

The four corners of the bottom end of the imaging box body 1 are connected with a damping support mechanism 11, and the damping support mechanism 11 comprises a base 1101, a mounting groove 1102, a mounting column 1103, a linkage groove 1104, a linkage bar 1105 and a damping spring 1106;

the bottom four corners position department of formation of image box 1 is connected with erection column 1103, the outside slidable mounting of erection column 1103 has base 1101, the top of base 1101 corresponds erection column 1103 position department and has seted up mounting groove 1102, linkage groove 1104 has evenly been seted up to the top of base 1101 and corresponds mounting groove 1102 outside position department, linkage groove 1104's inner wall slidable mounting has gangbar 1105, the outside of gangbar 1105 is connected with damping spring 1106, damping spring 1106's top and the bottom fixed connection of formation of image box 1, damping spring 1106's bottom and base 1101 top fixed connection, be convenient for carry out elastic connection between base 1101 and the formation of image box 1 through damping spring 1106.

The working principle and the using process of the invention are as follows: when the digital holographic microscopic imaging equipment for the irregular precise parts is used, the pull handle 814 can be pulled to drive the upper moving plate 809 and the lower moving plate 806 to move along the sliding rail 801, the parts to be observed are placed at the top end of the upper moving plate 809, the parts can be clamped through the pressing plate 811, the pull handle 814 can be pushed when the parts are subjected to microscopic imaging, the upper moving plate 809 is driven to slide in the fixing seat 807 through the sliding connecting column 808, the parts can be subjected to displacement observation, and the fixing and the moving of the parts during the microscopic observation are facilitated;

when a part is observed, the exhaust fan 705 can be controlled to operate through the control panel 4, the air in the air exhaust outer bin 701 and the air in the blocking inner bin 702 can be exhausted from the exhaust hole 703, the external air can pass through the air inlet hole 704, the entering external air is filtered through the filter screen 706, dust and fibers generated by filtering can fall in the collection bin 707, a user can shake the crank 710 to drive the rotating shaft 708 and the dragon board 709 to rotate, the falling dust and fibers are cleaned, and the phenomenon that the part observation effect is influenced due to the fact that the external dust and the fibers float when the part is observed can be avoided;

the push plate 907 is pushed to drive the sliding baffle 904 to move along the sliding groove 903, the storage bin 901 is exposed, tools and parts to be stored can be placed in the storage bin 901 and are stored in a separated mode through the storage partition plate 902, and by combining the activated carbon plate 906 embedded in the groove 905 at the bottom end of the sliding baffle 904, the tools and the parts stored in the storage bin 901 can be protected in a drying mode, the tools and the parts can be stored in a classified mode conveniently, and the situation that the tools and the parts are damaged due to damp during storage can be avoided;

when the part is subjected to microscopic imaging, the lighting plate 1004 can be pushed to move along the limiting ring 1002, the position of the lighting plate 1004 is adjusted, the LED lamp beads 1005 at one end of the lighting plate 1004 are controlled to operate through the control panel 4, and the part is subjected to lighting during microscopic imaging, so that the effect of the part microscopic imaging is prevented from being influenced due to lighting conditions;

through the erection column 1103 and the base 1101 of formation of image box 1 bottom, can support formation of image box 1, combine linkage bar 1105 outside damper spring 1106 in base 1101 top linkage groove 1104, can carry out elastic connection between the formation of image box 1, reduce outside vibrations and transmit inside formation of image box 1, influence the formation of image effect of part.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an irregular precision parts digital holography microscopic imaging equipment, includes formation of image box (1), its characterized in that: the imaging device comprises an imaging box body (1), a display panel (2) is rotatably mounted at the top end of the imaging box body (1), a processing imaging cabinet (3) is mounted at the position, corresponding to one side of the display panel (2), of the top end of the imaging box body (1), a control panel (4) is connected in the forward process of one end of the processing imaging cabinet (3), a placing groove (5) is formed in one end of the imaging box body (1), and a microscopic observation lens (6) is connected at the bottom end of the processing imaging cabinet (3);

the other end of the imaging box body (1) is connected with a dust collection mechanism (7), and the dust collection mechanism (7) comprises an air extraction outer bin (701), a blocking inner bin (702), an air exhaust hole (703), an air inlet hole (704), an air exhaust fan (705), a filter screen (706), a collection bin (707), a rotating shaft (708), a dragon board (709), a crank (710) and a cover plate (711);

the imaging box body (1) is characterized in that an outer air exhaust bin (701) is connected to the inner wall of one end of the imaging box body (1), an inner separation bin (702) is installed on the inner wall of the outer air exhaust bin (701), exhaust holes (703) are uniformly formed in the inner wall of the outer air exhaust bin (701), air inlet holes (704) are uniformly formed in the positions below the exhaust holes (703) and correspond to the inner wall of one end of the imaging box body (1), exhaust fans (705) are symmetrically connected to the positions of the exhaust holes (703) and correspond to the inner wall of one end of the imaging box body (1), filter screens (706) are connected to the inner walls of the outer air exhaust bin (701) and the inner separation bin (702), a collection bin (707) is connected to the bottom end of the outer air exhaust bin (701), a rotating shaft (708) is installed on the inner wall of one end of the collection bin (707) in a rotating mode, one end of the rotating shaft (708) penetrates through the imaging box body (1) and is fixedly provided with a crank (710), and one end of the collecting bin (707) is rotatably provided with a cover plate (711) at a position corresponding to the crank (710);

the input end of the control panel (4) is electrically connected with the output end of a commercial power, and the output end of the control panel (4) is electrically connected with the input end of the exhaust fan (705).

2. The digital holographic microscopic imaging device for the irregular precise parts according to claim 1, wherein the outer side of the dragon plate (709) is in contact with the collection bin (707), and the outer side of the crank (710) is provided with anti-skid lines.

3. The digital holographic microscopic imaging device for the irregular precise parts, according to claim 1, is characterized in that a part fixing and moving mechanism (8) is installed on the inner wall of the bottom end of the placing groove (5), and the part fixing and moving mechanism (8) comprises a sliding rail (801), a limiting plate (802), a telescopic rod (803), a protection spring (804), a protection base plate (805), a lower moving plate (806), a fixing seat (807), a sliding connecting column (808), an upper moving plate (809), a fixing column (810), a pressing plate (811), a pressing spring (812), a fixing ring (813) and a pull handle (814);

sliding rails (801) are symmetrically installed on the inner wall of the bottom end of the placing groove (5), one end of each sliding rail (801) is connected with a limiting plate (802), telescopic rods (803) are evenly connected to positions, corresponding to the outer sides of the corresponding sliding rails (801), of one end of each limiting plate (802), protective springs (804) wrap the outer sides of the telescopic rods (803), one end of each telescopic rod (803) is connected with a protective base plate (805), the top end of each sliding rail (801) is connected with a lower moving plate (806) in a sliding mode, a fixing seat (807) is fixedly installed at the top end of each lower moving plate (806), sliding connecting columns (808) are installed on the inner walls of the fixing seats (808) in a sliding mode, upper moving plates (809) are fixedly connected to the top ends of the sliding connecting columns (808), moving plates (810) are connected to four corners of the top, the outer side of the fixed column (810) is connected with a pressing spring (812) corresponding to the top end of the pressing plate (811), the outer side of the fixed column (810) is connected with a fixing ring (813) corresponding to the top end of the pressing spring (812), and one end of the upper moving plate (809) is connected with a pull handle (814).

4. The digital holographic microscopic imaging device for the irregular precise parts, according to claim 3, is characterized in that the top end of the compression spring (812) is fixedly connected with the fixing ring (813), and a rubber pad is attached to one end of the protective backing plate (805).

5. The digital holographic microscopic imaging device for the irregular precise parts, according to claim 1, is characterized in that a dry storage mechanism (9) is installed at the top end of the imaging box body (1), wherein the dry storage mechanism (9) comprises a storage bin (901), a storage partition plate (902), a sliding groove (903), a sliding baffle plate (904), an embedded groove (905), an activated carbon plate (906) and a push plate (907);

the imaging box comprises an imaging box body (1), a storage bin (901) is installed on the inner wall of the top end of the imaging box body (1), a storage partition plate (902) is symmetrically connected to the inner wall of the bottom end of the storage bin (901), a sliding groove (903) is formed in the position, corresponding to the storage bin (901), of the imaging box body (1), a sliding baffle (904) is installed on the inner wall of the sliding groove (903) in a sliding mode, an embedded groove (905) is evenly formed in the bottom end of the sliding baffle (904), an activated carbon plate (906) is attached to the inner wall of the embedded groove (905), and a push plate (907) is connected to the top.

6. The digital holographic microscopic imaging device for the irregular precise parts as claimed in claim 5, wherein micropores are uniformly formed in the outer side of the activated carbon plate (906), and the top end of the push plate (907) is coated with an anti-slip rubber sleeve.

7. The digital holographic microscopic imaging device for the irregular precise parts as claimed in claim 1, wherein a lighting adjustment mechanism (10) is connected to the outer side position of the bottom end of the microscopic observation lens (6), and the lighting adjustment mechanism (10) comprises a moving groove (1001), a limiting ring (1002), a moving block (1003), a lighting plate (1004) and an LED lamp bead (1005);

a moving groove (1001) is formed in the outer side of the bottom end of the microscopic observation lens (6), the inner wall of the moving groove (1001) is connected with a limiting circular ring (1002), a moving block (1003) is slidably mounted on the outer side of the limiting circular ring (1002), the bottom end of the moving block (1003) is connected with an illumination plate (1004), and LED lamp beads (1005) are uniformly embedded and mounted at one end of the illumination plate (1004);

the output end of the control panel (4) is electrically connected with the input end of the LED lamp bead (1005).

8. The digital holographic microscopic imaging device for irregular precision parts according to claim 7, characterized in that the corners of the illumination plate (1004) are smooth and round corners, and the inside of the illumination plate (1004) is embedded with soft metal strips.

9. The digital holographic microscopic imaging device for the irregular precise parts, according to claim 1, is characterized in that four corners of the bottom end of the imaging box body (1) are connected with a damping support mechanism (11), and the damping support mechanism (11) comprises a base (1101), a mounting groove (1102), a mounting column (1103), a linkage groove (1104), a linkage rod (1105) and a damping spring (1106);

the utility model discloses an imaging box, including formation of image box (1), the bottom four corners position department of formation of image box (1) is connected with erection column (1103), the outside slidable mounting of erection column (1103) has base (1101), mounting groove (1102) have been seted up to the top of base (1101) corresponding erection column (1103) position department, linkage groove (1104) have evenly been seted up to the top of base (1101) corresponding mounting groove (1102) outside position department, the inner wall slidable mounting of linkage groove (1104) has gangbar (1105), the outside of gangbar (1105) is connected with damping spring (1106).

10. The digital holographic microscopic imaging device for irregular precision parts according to claim 9, characterized in that the top end of the damping spring (1106) is fixedly connected with the bottom end of the imaging box body (1), and the bottom end of the damping spring (1106) is fixedly connected with the top end of the base (1101).

Images