CN112965234A - Microscope capable of being adjusted according to indoor brightness - Google Patents

Abstract

The invention relates to the technical field of microscopes, in particular to a microscope capable of being adjusted according to indoor brightness, which comprises a base, a lens bracket, an ocular lens, an objective lens and an object carrying mechanism, wherein the base is fixedly connected with the bottom of the lens bracket, the ocular lens is arranged at the top of the lens bracket, the lens bracket is provided with the objective lens which is positioned above the object carrying mechanism, when in use, a glass slide is placed on the object carrying mechanism, the sleeving angle between an inner rubber sleeve and a sleeve shaft is changed by lifting a bottom plate, a mounting plate is in an inclined state, a carrier platform is still horizontal, the effective enhancement of indoor brightness is realized by matching with the inner wall of a mirror surface of the lens bracket, the structure is simple, the use is convenient, the microscope is suitable for being used in a dark environment, the change of the size of an optical aperture is realized by rotating a first worm, the adjustment of the, the slide glass does not need to be moved during observation, so that the abrasion of the surface of the slide glass caused by frequently moving the slide glass is avoided.

Description

Microscope capable of being adjusted according to indoor brightness

Technical Field

The invention relates to the technical field of microscopes, in particular to a microscope capable of being adjusted according to indoor brightness.

Background

The microscope is an optical instrument formed by combining one lens or a plurality of lenses, is mainly used for magnifying tiny objects to enable the tiny objects to be seen by naked eyes of people, can be divided into a polarizing microscope, an optical microscope, a digital microscope and an electronic microscope according to the microscopic principle, has similar main body structures, but is not suitable for students to use under the condition of poor indoor light, the brightness on a stage is poor, the operation is inconvenient, the light adjustment in a light through hole during the observation depends on a rotating reflector, the reflector is easy to be broken or broken by students with small ages in the teaching activities of education, the safety is poor, the microscope is not suitable for the students to use, the change of an illumination area can be realized by changing the size of a light shielding hole, but the position of the light through hole is fixed, when different positions of the slide are observed, the slide is required to move on the glass carrying platform, and the surface of the slide is easy to wear, is not favorable for the preservation of the slide glass.

Disclosure of Invention

The invention aims to provide a microscope capable of being adjusted according to indoor brightness, which has the advantages of simple structure, convenient use, suitability for being used in a device in a dark environment, capability of adjusting light rays of a glass slide in one step, simple operation and suitability for students, capability of changing an illumination area of the glass slide by changing the size of an optical hole, no need of moving the glass slide during observation, and avoidance of abrasion on the surface of the glass slide caused by frequent moving of the glass slide, so as to solve the problems that students with small ages are easy to remove or break reflectors during education and teaching activities, poor safety, unsuitability for students, capability of changing the size of an illumination area, fixed position of a light through hole, easy abrasion on the surface of the glass slide caused by moving the glass slide on a glass carrying table when the different positions of the glass slide are observed, is not beneficial to the preservation of the slide glass.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a can be according to microscope of indoor luminance and regulation, the on-line screen storage device comprises a base, the mirror holder, the eyepiece, objective and year thing mechanism, the bottom fixed connection of base and mirror holder, the eyepiece is installed at the top of mirror holder, install objective on the mirror holder, objective is located the top of carrying thing mechanism, it includes the objective table to carry thing mechanism, the sleeve axle, the bottom plate, interior gum cover, the mounting panel, the bellows, outer loop frame and year thing subassembly, the bottom of objective table is fixed on the mirror holder, the top surface fixed mounting of objective table has the sleeve axle, the fixed cover in the top of sleeve axle is equipped with interior gum cover, interior gum cover cup joints with the bottom plate, the top of bottom plate is fixed with the mounting panel, the top surface center department of mounting panel is provided with the bellows, the.

Preferably, the outer ring frame is an annular frame member with an open top, and the outer ring frame is fixedly connected with the outer wall of the inner side of the spectacle frame through a strip-shaped convex block arranged on the outer wall.

Preferably, the inner outer wall of the spectacle frame is a mirror outer wall.

Preferably, the object carrying assembly comprises a glass carrying table, a glass substrate, a sliding groove, a limit knob, a sliding sheet, an inner transmission part, a first worm, an inner ring frame and an unthreaded hole adjusting structure, the glass substrate is fixed on the inner wall of the glass carrying table, one end outer frame of the glass carrying table extends outwards, the sliding groove is formed in the glass carrying table at the extending part, the sliding sheet is movably sleeved inside the sliding groove and attached to the limit knob, the limit knob is arranged on the glass carrying table, the bottom of the sliding sheet is inserted into the inner transmission part, the inner transmission part is connected with the first worm, and the end part of the first worm extends into the inner ring frame and is connected with the unthreaded hole adjusting structure.

Preferably, interior driving medium includes the planking, left worm wheel and first rack, right worm wheel, the planking sets up to a hollow plate member, the tip activity suit of planking is on first worm, first worm meshes with the left worm wheel that sets up in the planking is inside, left worm wheel meshes with the one end of first rack, the other end and the right worm wheel meshing of first rack, right worm wheel sets up the inside at the gleitbretter, the gleitbretter sets up to a hollow piece member, one side inner wall of gleitbretter is provided with the tooth structure, the gleitbretter passes through the tooth structure and the right worm wheel meshing that set up on the inner wall.

Preferably, the unthreaded hole is adjusted the structure and is included link plate, second rack, limiting plate, telescopic link, second worm, flabellum and open slot, and the link plate is provided with the multiunit, is connected through telescopic link between two sets of adjacent link plates, and telescopic link sets up to the arc pole component, the one end fixed connection of link plate and second rack, and the other end of second rack passes limiting plate and second worm meshing, and the limiting plate is fixed on the inner wall of interior ring holder, and second worm movable mounting is on interior ring holder, the bottom and the flabellum fixed connection of second worm.

Preferably, annular open slot has been seted up to the inboard outer wall of interior ring holder, and the inboard of interior ring holder is provided with a plurality of flabellums, and the inboard of interior ring holder forms the disc type component that the middle part was provided with the poroid structure after the laminating of adjacent two sets of flabellums, and first worm passes hollow interior ring holder and cup joints with a set of even board.

The microscope capable of being adjusted according to indoor brightness has the advantages that:

1. this microscope that can adjust according to indoor luminance makes the interior gum cover change with the angle that cup joints of cover axle through lifting up the bottom plate, and the mounting panel is in the tilt state, and the effective reinforcing of indoor bright is realized to the mirror surface inner wall of cooperation mirror holder, simple structure, and convenient to use more is applicable to and uses under the darker indoor environment of light.

2. This can be according to indoor luminance and the microscope of adjusting, through rotating first worm, make the area grow of the through-hole structure that forms between the multiunit fanning strip, the light of following the through-hole structure and showing more, slide glass is brighter, the transmission effect through interior driving medium drives the gleitbretter downstream simultaneously for distance between slide glass and the unthreaded hole becomes nearly, further strengthens the observation effect of slide glass, further can realize the regulation of slide glass light, and easy operation more is applicable to the student and uses.

3. This microscope that can adjust according to indoor luminance can also change the illumination zone of slide through changing the unthreaded hole size, need not to remove the slide during the observation, avoids frequently removing the wearing and tearing that the slide caused to the slide surface.

Drawings

Fig. 1 is a schematic view of an overall structure of a microscope capable of being adjusted according to indoor brightness according to the present invention;

FIG. 2 is a schematic structural diagram of a loading mechanism of a microscope capable of being adjusted according to indoor brightness according to the present invention;

FIG. 3 is a schematic diagram of a bottom plate structure of a microscope capable of being adjusted according to indoor brightness according to the present invention;

FIG. 4 is a schematic structural diagram of a microscope stage assembly capable of being adjusted according to the brightness of a room according to the present invention;

FIG. 5 is a schematic view of the structure of an internal transmission member of a microscope according to the present invention, which can be adjusted according to the brightness of the room;

fig. 6 is a schematic structural diagram of an aperture adjusting structure of a microscope capable of adjusting according to indoor brightness according to the present invention.

In the figure: 1. a base; 2. a frame; 3. an eyepiece; 4. an objective lens; 5. a carrying mechanism; 51. an object stage; 52. a sleeve shaft; 53. a base plate; 54. an inner rubber sleeve; 55. mounting a plate; 56. a bellows; 57. an outer ring frame; 58. a carrier assembly; 581. a glass loading table; 582. a glass substrate; 583. a chute; 584. a limit knob; 585. sliding blades; 586. an inner transmission member; 5861. an outer plate; 5862. a left worm gear; 5863. a first rack; 5864. a right worm gear; 587. a first worm; 588. an inner ring frame; 589. a light aperture adjusting structure; 5891. connecting plates; 5892. a second rack; 5893. a limiting plate; 5894. a telescopic connecting rod; 5895. a second worm; 5896. a fan-shaped sheet; 5897. an open slot.

Detailed Description

The technical scheme in the embodiment of the invention will be made clear below by combining the attached drawings in the embodiment of the invention; fully described, it is to be understood that the described embodiments are merely exemplary of some, but not all, embodiments of the invention and that all other embodiments, which can be derived by one of ordinary skill in the art based on the described embodiments without inventive faculty, are within the scope of the invention.

Referring to fig. 1, a microscope capable of being adjusted according to indoor brightness comprises a base 1, a lens frame 2, an eyepiece 3, an objective lens 4 and an object carrying mechanism 5, wherein the base 1 is fixedly connected with the bottom of the lens frame 2, the outer wall of the inner side of the lens frame 2 is a mirror outer wall, the eyepiece 3 is installed at the top of the lens frame 2, the objective lens 4 is installed on the lens frame 2, the objective lens 4 is located above the object carrying mechanism 5, a glass slide is placed on the object carrying mechanism 5 during use, and the object carrying condition on the glass slide is observed through the eyepiece 3 after the position of the objective lens 4 is adjusted.

Referring to fig. 2-3, the object carrying mechanism 5 includes an object stage 51, a sleeve shaft 52, a bottom plate 53, an inner rubber sleeve 54, a mounting plate 55, a bellows 56, an outer ring frame 57 and an object carrying assembly 58, wherein the bottom of the object stage 51 is fixed on the lens holder 2, the top surface of the object stage 51 is fixedly provided with the sleeve shaft 52, the top of the sleeve shaft 52 is fixedly sleeved with the inner rubber sleeve 54, the inner rubber sleeve 54 is sleeved with the bottom plate 53, the top of the bottom plate 53 is fixed with the mounting plate 55, the top center of the top surface of the mounting plate 55 is provided with the bellows 56, the top of the bellows 56 is fixedly connected with the bottom surface of the outer ring frame 57, the object carrying assembly 58 is installed inside the outer ring frame 57, the outer ring frame 57 is provided with an open top type ring frame member, the outer ring frame 57 is fixedly connected with the inner outer wall of the lens holder 2 through a strip-shaped protrusion arranged on the outer wall, the inner part of the object, when the novel glasses bracket is used, the bottom plate 53 is lifted, so that the sleeving angle between the inner rubber sleeve 54 and the sleeve shaft 52 is changed, one side of the corrugated pipe 56 is compressed, the whole mounting plate 55 is in an inclined state, and the effective enhancement of indoor brightness is realized by matching with the inner wall of the mirror surface of the glasses bracket 2.

Referring to fig. 4, the object carrying assembly 58 includes a glass carrying platform 581, a glass substrate 582, a sliding slot 583, a limit knob 584, a sliding sheet 585, an inner transmission member 586, a first worm 587, an inner ring holder 588 and an aperture adjusting structure 589, the glass substrate 582 is fixed on the inner wall of the glass carrying platform 581, an outer frame at one end of the glass carrying platform 581 extends outward, the sliding slot 583 is formed in the glass carrying platform 581 at the extending portion, the sliding sheet 585 is movably sleeved inside the sliding slot 583, the sliding sheet 585 is attached to the limit knob 584, the limit knob 584 is disposed on the glass carrying platform 581, the bottom of the sliding sheet 585 is inserted into the inner transmission member 586, the inner transmission member 586 is connected to the first worm 587, the end of the first worm 587 extends into the inner side of the inner ring holder 588 and is connected to the aperture adjusting structure 589, the glass substrate 582 is placed on the glass substrate, and the position of the top of the sliding sheet 585 in the sliding slot.

Referring to fig. 5, the inner transmission member 586 includes an outer plate 5861, a left worm wheel 5862, a first rack 5863, and a right worm wheel 5864, the outer plate 5861 is configured as a hollow plate member, an end portion of the outer plate 5861 is movably sleeved on the first worm wheel 587, the first worm 587 is engaged with the left worm wheel 5862 disposed inside the outer plate 5861, the left worm wheel 5862 is engaged with one end of the first rack 5863, the other end of the first rack 5863 is engaged with the right worm wheel 5864, the right worm wheel 5864 is disposed inside the sliding sheet 585, the sliding sheet 585 is configured as a hollow sheet member, a side inner wall of the sliding sheet 585 is provided with a tooth structure, the sliding sheet is engaged with the right worm wheel 5864 through the tooth structure disposed on the inner wall, when the first worm 587 is rotated, the left worm wheel 5862 is driven to rotate, power is transmitted to the right worm wheel 5864 through transmission of the first rack 5863, the right worm wheel 5864 is engaged with the tooth structure disposed on the inner wall of the sliding sheet, the position of the slide plate 585 in the Z-axis direction changes, and the height of the slide stage 581 is adjusted.

Referring to fig. 6, the unthreaded hole adjusting structure 589 includes a connecting plate 5891, a second rack 5892, a limiting plate 5893, a telescopic link 5894, a second worm 5895, a fan-shaped piece 5896 and an open slot 5897, the connecting plate 5891 is provided with a plurality of groups, two adjacent groups of connecting plates 5891 are connected through the telescopic link 5894, the telescopic link 5894 is an arc rod member, the connecting plate 5891 is fixedly connected with one end of the second rack 5892, the other end of the second rack 5892 penetrates through the limiting plate 5893 to be meshed with the second worm 5895, the limiting plate 5893 is fixed on the inner wall of the inner ring 588, the second worm 5895 is movably installed on the inner ring 588, the bottom of the second worm 5895 is fixedly connected with the fan-shaped piece 5896, the first worm 587 rotates and simultaneously drives the connecting plate 5891 sleeved on the first worm 587 to move outwards, at this time, the distance between the two adjacent groups of connecting plates 5891 increases, the telescopic link 5894 extends, the second rack 5892 moves outwards to drive the second worm 5895 to rotate, the fan-shaped sheets 5896 which are originally in the two-to-two attaching state rotate outwards, the area of the through hole structure formed among the multiple groups of fan-shaped sheets 5896 is enlarged, more light is transmitted out of the through hole structure, and the glass slide is brighter.

An annular open groove 5897 is formed in the outer wall of the inner side of the inner ring frame 588, a plurality of fan-shaped pieces 5896 are arranged on the inner side of the inner ring frame 588, a disc-shaped component with a hole-shaped structure is arranged in the middle of the inner side of the inner ring frame 588 after two adjacent groups of fan-shaped pieces 5896 are attached to each other, and the first worm 587 penetrates through the hollow inner ring frame 588 to be sleeved with the connecting plate 5891.

The working principle is as follows: the object stage 51 is internally provided with a light source structure, light emitted by the light source structure penetrates through the hollow sleeve shaft 52 and is emitted upwards from the central through hole of the object carrying assembly 58, when the object carrying assembly is used, the bottom plate 53 is lifted to ensure that the sleeving angle between the inner rubber sleeve 54 and the sleeve shaft 52 is changed, one side of the corrugated pipe 56 is compressed, the whole mounting plate 55 is in an inclined state and is matched with the inner wall of the mirror surface of the mirror bracket 2 to realize effective enhancement of indoor light, a glass slide is placed on the glass substrate 582, the position limitation of the top of the sliding sheet 585 in the sliding chute 583 is realized through the limit knob 584, when the first worm 587 is rotated, the left worm wheel 5862 is driven to rotate, power is transmitted to the right worm wheel 5864 through the transmission of the first rack 5863, the right worm wheel 5864 is meshed with a tooth structure arranged on the inner wall of the sliding sheet 585, when the right worm wheel 5864 rotates, the bottom of the, when the first worm 587 rotates, the connecting plates 5891 sleeved on the first worm 587 can be driven to move outwards, the distance between every two adjacent connecting plates 5891 is increased, the telescopic connecting rod 5894 extends, the second rack 5892 moves outwards to drive the second worm 5895 to rotate, the fan-shaped pieces 5896 in the two-two fit state originally are enabled to rotate outwards, the area of the through hole structure formed among the multiple groups of fan-shaped pieces 5896 is increased, more light is emitted from the through hole structure, and the glass slides are brighter.

In summary, according to the microscope capable of being adjusted according to indoor brightness, the light source structure is installed inside the object stage 51, light emitted by the light source structure penetrates through the hollow sleeve shaft 52 and is emitted upwards from the central through hole of the object carrying assembly 58, when the microscope is used, the bottom plate 53 is lifted up, so that the sleeve joint angle between the inner rubber sleeve 54 and the sleeve shaft 52 is changed, one side of the corrugated pipe 56 is compressed, the whole mounting plate 55 is in an inclined state, and the whole mounting plate is matched with the inner wall of the mirror surface of the mirror frame 2, so that the indoor brightness is effectively enhanced, the structure is simple, the use is convenient, and the microscope; through rotating first worm 587, drive the even board 5891 of suit on first worm 587 and outwards remove, the fan-shaped piece 5896 that is in two liang of laminating states originally outwards rotates, the area grow of the through-hole structure that forms between the multiunit fan-shaped piece 5896, the light of seeing out from the through-hole structure is more, the slide glass is brighter, drive gleitbretter 585 downstream through the transmission effect of interior driving medium 586 simultaneously, make the distance between slide glass and the unthreaded hole become nearly, further strengthen the observation effect of slide glass, further can realize the regulation of slide glass light, moreover, the operation is simple, and the slide glass is more suitable for students to use, and can also change the illumination zone of slide glass through changing the unthreaded hole size, need not to remove the slide glass during the observation, avoid frequently moving the wearing and tearing that the slide glass caused to the slide glass surface.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (7)

1. A microscope capable of being adjusted according to indoor brightness comprises a base (1), a lens frame (2), an eyepiece (3), an objective lens (4) and an object carrying mechanism (5), and is characterized in that the base (1) is fixedly connected with the bottom of the lens frame (2), the eyepiece (3) is mounted at the top of the lens frame (2), the objective lens (4) is mounted on the lens frame (2), the objective lens (4) is positioned above the object carrying mechanism (5), the object carrying mechanism (5) comprises an object carrying table (51), a sleeve shaft (52), a bottom plate (53), an inner rubber sleeve (54), a mounting plate (55), a corrugated pipe (56), an outer ring frame (57) and an object carrying component (58), the bottom of the object carrying table (51) is fixed on the lens frame (2), the sleeve shaft (52) is fixedly mounted on the top surface of the object carrying table (51), and the inner rubber sleeve (54) is mounted at the top of the sleeve, the inner rubber sleeve (54) is sleeved with the bottom plate (53), the top of the bottom plate (53) is fixed with the mounting plate (55), the center of the top surface of the mounting plate (55) is provided with the corrugated pipe (56), the top of the corrugated pipe (56) is fixedly connected with the bottom surface of the outer ring frame (57), and the inner part of the outer ring frame (57) is provided with the object carrying assembly (58).

2. A microscope according to claim 1 adjustable according to room brightness, wherein: the outer ring frame (57) is arranged to be a top opening type annular frame body component, and the outer ring frame (57) is fixedly connected with the inner side outer wall of the spectacle frame (2) through a strip-shaped convex block arranged on the outer wall.

3. A microscope according to claim 1 adjustable according to room brightness, wherein: the outer wall of the inner side of the spectacle frame (2) is a mirror surface outer wall.

4. A microscope according to claim 1 adjustable according to room brightness, wherein: the object carrying assembly (58) comprises a glass carrying table (581), a glass substrate (582), a sliding groove (583), a limiting knob (584), a sliding sheet (585), an inner transmission piece (586), a first worm (587), an inner ring frame (588) and an unthreaded hole adjusting structure (589), wherein the glass substrate (582) is fixed on the inner wall of the glass carrying table (581), an outer frame at one end of the glass carrying table (581) extends outwards, the sliding groove (583) is formed in the glass carrying table (581) at the extending part, the sliding sheet (585) is movably sleeved in the sliding groove (583), the sliding sheet (585) is attached to the limiting knob (584), the limiting knob (584) is arranged on the glass carrying table (581), the bottom of the sliding sheet (585) is inserted into the inner transmission piece (586), the inner transmission piece (586) is connected with a first worm (587), and the end part of the first worm (587) extends into the inner side of the inner ring frame (588) to be connected with the unthreaded hole adjusting structure (589).

5. A microscope according to claim 4 adjustable according to room brightness, wherein: interior driving medium (586) includes planking (5861), left worm wheel (5862) and first rack (5863), right worm wheel (5864), planking (5861) set up to a hollow plate member, the tip activity suit of planking (5861) is on first worm (587), first worm (587) with set up in the inside left worm wheel (5862) meshing of planking (5861), left worm wheel (5862) meshes with the one end of first rack (5863), the other end and the meshing of right worm wheel (5864) of first rack (5863), right worm wheel (5864) set up in the inside of gleitbretter (585), gleitbretter (585) set up to a hollow piece member, one side inner wall of gleitbretter (585) is provided with the tooth structure, gleitbretter (585) are through the tooth structure and the meshing of right worm wheel (5864) that set up on the inner wall.

6. A microscope according to claim 4 adjustable according to room brightness, wherein: the unthreaded hole adjusting structure (589) comprises connecting plates (5891), a second rack (5892), a limiting plate (5893), a telescopic connecting rod (5894), a second worm (5895), a fan-shaped sheet (5896) and an open slot (5897), wherein the connecting plates (5891) are provided with multiple groups, two adjacent groups of connecting plates (5891) are connected through the telescopic connecting rod (5894), the telescopic connecting rod (5894) is an arc-shaped rod member, the connecting plates (5891) are fixedly connected with one end of the second rack (5892), the other end of the second rack (5892) penetrates through the limiting plate (5893) to be meshed with the second worm (5895), the limiting plate (5893) is fixed on the inner wall of the inner ring frame (588), the second worm (5895) is movably installed on the inner ring frame (588), and the bottom of the second worm (5895) is fixedly connected with the fan-shaped sheet (5896).

7. A microscope according to claim 4 adjustable according to room brightness, wherein: annular open slot (5897) have been seted up to the inboard outer wall of interior ring frame (588), and the inboard of interior ring frame (588) is provided with a plurality of flabellums (5896), and the inboard of interior ring frame (588) forms the disc type component that the middle part was provided with the poroid structure after adjacent two sets of flabellums (5896) laminating, and first worm (587) pass hollow interior ring frame (588) and cup joint with a set of even board (5891).

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