CN105824112A - Adjusting support and travelling microscope - Google Patents

Abstract

The invention provides an adjusting support and a travelling microscope in order to solve the technical problem that in the prior art, a common support adopted in a microscope has no function of assisting a lens in fine focusing, and the microscope cannot carry out fast and precise detection. The adjusting support comprises a deformable support, the deformable support comprises a deformable pipe, a driving device, a transmission shaft and a locating rod, one end of the deformable pipe is a fixed end, and the other end of the deformable pipe is a movable end. The driving device is arranged at the movable end. One end of the transmission shaft is in transmission connection with the driving device, the other end of the transmission shaft is sleeved with a moving sleeve, and the transmission shaft is in threaded connection with the moving sleeve. The locating rod is used for limiting circumferential movement of the moving sleeve. One end of the locating rod is fixedly connected with a shell of the driving device, and the other end of the locating rod is movably connected with the moving sleeve. The extending direction of the locating rod is the same as the axial direction of the moving sleeve. In the use process, the driving device drives the transmission shaft to rotate. The transmission shaft drives the moving sleeve to move in the axial direction of the transmission shaft.

Description

Regulation support and travelling microscope

Technical field

The present invention relates to support technology field, especially relate to a kind of regulation support and travelling microscope.

Background technology

Microscope is a kind of optical instrument being made up of lens or several lens combination, is that the mankind enter atom-age mark；One a whole new world is presented in the visual field of the mankind by it by high minute mark rate, people see hundreds of " new " animalcule and plant for the first time, and the internal structure of various things such as from human body to Plant fiber, it becomes the instrument that human eye can be seen for a kind of for amplifying small items, and travelling microscope is one therein.

In travelling microscope detection field, microscopical camera lens is mainly played fixation by ordinary stent, the manual regulatory function of ordinary stent makes camera lens be adjusted in a detection range substantially only, within the range, the position that camera lens is presently in and the position being most suitable for detection often have certain skew, although the moving range of microscope itself is relatively big, but the micrometric displacement displacement error of its camera lens is the biggest, and the flexibility ratio of camera lens is poor.Therefore, be currently used for support microscope camera lens ordinary stent do not have auxiliary microscope camera lens be finely adjusted Jiao function, use the microscope of this ordinary stent to detect fast accurate.

Summary of the invention

It is an object of the invention to provide a kind of regulation support, the ordinary stent used to solve microscope present in prior art does not have attachment lens and is finely adjusted the function of Jiao and causes microscope can not carry out the technical problem detected fast accurate.

For reaching above-mentioned purpose, the embodiment of the present invention by the following technical solutions:

A kind of regulation support, it includes deformable stent.

Described deformable stent includes:

Deformable tube, its one end is movable end for fixing end, the other end；

Driving means, is installed in described movable end；

Power transmission shaft, its one end and described driving means are in transmission connection, be arranged with movable sleeving on the other end, and described power transmission shaft is threaded connection mode with described movable sleeving and is connected；

Location bar, for limiting the circumferential movement of described movable sleeving, one end of described location bar and the shell of described driving means are connected, the other end can be dynamically connected with described movable sleeving, and the bearing of trend of described location bar is the most identical with described movable sleeving；

During use, described driving means drives described drive axis, and described power transmission shaft drives described movable sleeving to move in the axial direction of described power transmission shaft.

As the further improvement of technique scheme, above-mentioned regulation support also includes brackets with height-adjustable.

Described brackets with height-adjustable includes:

Vertical type fixes axle；

Vertical type tooth bar, is installed on described fixing axle；

Gear, engages with described tooth bar, and described tooth bar is between described fixing axle and described gear；

U-shaped housing, the U-shaped mouth of described housing is just to described tooth bar, and the both sides of described U-shaped mouth are slidably connected with described fixing axle, and described gear is installed in described housing；The fixing end of described deformable tube is connected on the bottom of described housing；

Rotary shaft, its one end is connected with described gear, the other end is positioned at the outside of described housing；

During use, described gear is driven to move downward or upward along described tooth bar by the rotation of described rotary shaft.

As the further improvement of technique scheme, described driving means includes that motor and decelerator, described motor are in transmission connection with described decelerator, and described motor is installed in described movable end, and described power transmission shaft is in transmission connection with described decelerator.

As the further improvement of technique scheme, the outer surface of described movable sleeving being provided with hole, location, one end of described location bar and the shell of described motor are connected, the other end is movably located in hole, described location.

As the further improvement of technique scheme, the material of described fixing axle is steel, and the material of described housing is rigid plastics, and the both sides of described U-shaped mouth slope inwardly；During use, by the frictional force between clamping force and described fixing axle and the described U-shaped mouth of described U-shaped mouth, described housing and described gear are positioned in the setting height of described fixing axle.

As the further improvement of technique scheme, the material of described fixing axle is steel, and the material of described housing is rigid plastics, and the both sides of described U-shaped mouth offer through hole, are equipped with bolt in described through hole；During use, by rotating described bolt, described housing and described gear are positioned in the setting height of described fixing axle.

As the further improvement of technique scheme, it is positioned on the termination of the described rotary shaft outside described housing and is equiped with rotating handles.

As the further improvement of technique scheme, the bottom of described fixing axle is equiped with positioning seat.

As the further improvement of technique scheme, described deformable tube is 360 degree of rotary-type metal hoses.

As the further improvement of technique scheme, on described movable sleeving, the one end away from described location bar is equiped with travelling microscope camera lens.

The regulation support that the present invention provides, deformable stent therein includes deformable tube, before using, is fixed at a certain fixed position or a certain movable position by the fixing end of this deformable tube, is installed on the end of movable sleeving by travelling microscope camera lens.During use, start driving means, driving means drives power transmission shaft to rotate, owing to one end of location bar is connected with driving means, the other end can be dynamically connected with described movable sleeving, and the bearing of trend of location bar is identical with the axis of movable sleeving, this location bar is not have resilient shaft on common meaning simultaneously, then location bar can only produce relative displacement with movable sleeving in the axial direction of the bearing of trend of location bar or movable sleeving, actually, in the present invention, the bearing of trend of location bar is the most identical with movable sleeving；When power transmission shaft drives movable sleeving, it is connected owing to being threaded connection mode between power transmission shaft with movable sleeving, power transmission shaft can only drive movable sleeving to move in its axial direction, so, by arranging deformable tube, the detection range of the travelling microscope being installed on movable sleeving end can be regulated by operator first, and this regulation includes the regulation of any direction and scope；The variable range of deformable tube and direction are arbitrariness, by microscopical camera lens with arbitrarily towards being positioned at optional position, and then can be accurately positioned any detection range of above-mentioned camera lens；Again by movable sleeving movement in its axial direction, utilize driving means that movable sleeving is positioned optional position in its axial direction, the actuating speed of driving means is adjustable, on movable sleeving, micro-focusing synchronous of camera lens is carried out, by repeatedly regulating the actuating speed of driving means, operator can be by camera adjusting to the position being best suitable for detection.

In prior art, microscopical camera lens is mainly played fixation by ordinary stent, the manual regulatory function of ordinary stent makes camera lens be adjusted in a detection range substantially only, within the range, the position that camera lens is presently in and the position being most suitable for detection often have certain skew, although the moving range of microscope itself is relatively big, but the micrometric displacement displacement error of its camera lens is the biggest, and the flexibility ratio of camera lens is poor.Therefore, be currently used for support microscope camera lens ordinary stent do not have auxiliary microscope camera lens be finely adjusted Jiao function, use the microscope of this ordinary stent to detect fast accurate.

Compared to prior art, the regulation support that the present invention provides, it uses deformable tube as the regulation instrument of regulation microscope camera lens, substitute ordinary stent of the prior art, the ingenious flexibility and changeability utilizing deformable tube itself, can arbitrarily adjust in using camera lens towards and position, and camera lens can be made to be adjusted in the scope that precision is higher, within the range, deviation between position and the position being most suitable for detection that camera lens is presently in is less, in addition movable sleeving is with the synchronizing moving of driving means, the flexibility ratio of camera lens improves further, control by means of driving means, the micrometric displacement of camera lens adjusts with better function, acquired image becomes apparent from, acquired data are more accurate.Above-mentioned regulation support not only possesses the function accurately determining detection range, being also equipped with the function assisting camera lens to carry out micrometric displacement adjustment, allow the operator to detect quickly and accurately, whole operating process is convenient, the precision of acquired detection data is high, improves detection efficiency simultaneously.

The present invention also provides for a kind of travelling microscope, and the ordinary stent used to solve microscope present in prior art does not have attachment lens and is finely adjusted the function of Jiao and causes microscope can not carry out the technical problem detected fast accurate.

Described travelling microscope includes regulating as above support, and on the described movable sleeving of described regulation support, the one end away from described location bar is equiped with travelling microscope camera lens.

Above-mentioned travelling microscope, compared to the beneficial effect of prior art, is same as the above-mentioned regulation support beneficial effect compared to prior art, and here is omitted,

Accompanying drawing explanation

In order to be illustrated more clearly that the specific embodiment of the invention or technical scheme of the prior art, the accompanying drawing used required in detailed description of the invention or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

The schematic diagram of the regulation support that Fig. 1 provides for the embodiment of the present invention；

The partial schematic diagram of the regulation support that Fig. 2 provides for the embodiment of the present invention.

Reference:

01-deformable stent, 02-brackets with height-adjustable；

101-deformable tube, 102-motor, 103-decelerator, 104-power transmission shaft, 105-movable sleeving, 106-positions bar, and 107-positions hole；

201-fixes axle, 202-tooth bar, 203-gear, 204-housing, 205-rotary shaft, 206-rotating handles, 207-positioning seat.

Detailed description of the invention

Below in conjunction with accompanying drawing, technical scheme is clearly and completely described, it is clear that described embodiment is a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

In describing the invention, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " be based on orientation shown in the drawings or position relationship; be for only for ease of the description present invention and simplifying and describe; rather than instruction or imply indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention.Additionally, term " first ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or hint relative importance.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " is installed ", " being connected ", " connection " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood with concrete condition.

The schematic diagram of the regulation support that Fig. 1 provides for the embodiment of the present invention；The partial schematic diagram of the regulation support that Fig. 2 provides for the embodiment of the present invention.

Shown in seeing figures.1.and.2, the regulation support that the present invention provides includes deformable stent 01；Described deformable stent 01 includes: deformable tube 101, and its one end is movable end for fixing end, the other end；Driving means, is installed in described movable end；Power transmission shaft 104, its one end and described driving means are in transmission connection, be arranged with movable sleeving 105 on the other end, and described power transmission shaft 104 is threaded connection mode with described movable sleeving 105 and is connected；Location bar 106, for limiting the circumferential movement of described movable sleeving 105, one end of described location bar 106 and described driving means are connected, the other end can be dynamically connected with described movable sleeving 105, and the bearing of trend of described location bar 106 is the most identical with described movable sleeving 105；During use, described driving means drives described power transmission shaft 104 to rotate, and described power transmission shaft 104 drives described movable sleeving 105 to move in the axial direction of described power transmission shaft 104.

The regulation support that the present invention provides, deformable stent therein includes deformable tube, before using, is fixed at a certain fixed position or a certain movable position by the fixing end of this deformable tube, travelling microscope is installed on the end of movable sleeving.During use, start driving means, driving means drives power transmission shaft to rotate, owing to one end of location bar is connected with driving means, the other end can be dynamically connected with described movable sleeving, and the bearing of trend of location bar is identical with the axis of movable sleeving, this location bar is not have resilient shaft on common meaning simultaneously, then location bar can only produce relative displacement with movable sleeving in the axial direction of the bearing of trend of location bar or movable sleeving, actually, in the present invention, the bearing of trend of location bar is the most identical with movable sleeving；When power transmission shaft drives movable sleeving, it is connected owing to being threaded connection mode between power transmission shaft with movable sleeving, power transmission shaft can only drive movable sleeving to move in its axial direction, so, by arranging deformable tube, the detection range of the travelling microscope being installed on movable sleeving end can be regulated by operator first, and this regulation includes the regulation of any direction and scope；The variable range of deformable tube and direction are arbitrariness, by microscopical camera lens with arbitrarily towards being positioned at optional position, and then can be accurately positioned any detection range of above-mentioned camera lens；Again by movable sleeving movement in its axial direction, utilize driving means that movable sleeving is positioned optional position in its axial direction, the actuating speed of driving means is adjustable, on movable sleeving, micro-focusing synchronous of camera lens is carried out, by repeatedly regulating the actuating speed of driving means, operator can be by camera adjusting to the position being best suitable for detection.

In prior art, microscopical camera lens is mainly played fixation by ordinary stent, the manual regulatory function of ordinary stent makes camera lens be adjusted in a detection range substantially only, within the range, the position that camera lens is presently in and the position being most suitable for detection often have certain skew, although the moving range of microscope itself is relatively big, but the micrometric displacement displacement error of its camera lens is the biggest, and the flexibility ratio of camera lens is poor.Therefore, be currently used for support microscope camera lens ordinary stent do not have auxiliary microscope camera lens be finely adjusted Jiao function, use the microscope of this ordinary stent to detect fast accurate.

Compared to prior art, the regulation support that the present invention provides, it uses deformable tube as the regulation instrument of regulation microscope camera lens, substitute ordinary stent of the prior art, the ingenious flexibility and changeability utilizing deformable tube itself, can arbitrarily adjust in using camera lens towards and position, and camera lens can be made to be adjusted in the scope that precision is higher, within the range, deviation between position and the position being most suitable for detection that camera lens is presently in is less, in addition movable sleeving is with the synchronizing moving of driving means, the flexibility ratio of camera lens improves further, control by means of driving means, the micrometric displacement of camera lens adjusts with better function, acquired image becomes apparent from, acquired data are more accurate.Above-mentioned regulation support not only possesses the function accurately determining detection range, being also equipped with the function assisting camera lens to carry out micrometric displacement adjustment, allow the operator to detect quickly and accurately, whole operating process is convenient, the precision of acquired detection data is high, improves detection efficiency simultaneously.

nullSpecifically，With continued reference to shown in Fig. 1 and Fig. 2，Above-mentioned location bar can be dynamically connected with movable sleeving，And movable sleeving can only move along the bearing of trend of location bar，Specifically，In the present embodiment，By arranging hole 107, location on the outer surface of described movable sleeving 105，The one end making described location bar 106 is connected with described motor 102、The other end is movably located in hole, described location 107，In addition to the internal drive structure of motor is in use in running status，Motor for protecting the shell of above-mentioned drive mechanism to remain static the most all the time，Then fix the location bar being connected with the shell of motor the most also for resting state，When power transmission shaft drives movable sleeving，Location bar owing to remaining static all the time is located in hole, location，Prevent the circumferential movement of movable sleeving，Power transmission shaft can only drive movable sleeving moving in its axial direction.

Preferably, described deformable tube is 360 degree of rotary-type metal hoses, on the basis of proof strength, meets the demand that above-mentioned microscope camera lens can be adjusted at any angle.

As the further improvement of above-mentioned regulation support, with continued reference to shown in Fig. 1, for enabling above-mentioned regulation support to operate in the plane of differing heights, in the present embodiment, above-mentioned regulation support is set and also includes brackets with height-adjustable 02；Described brackets with height-adjustable includes: vertical type fixes axle 201；Vertical type tooth bar 202, is installed on described fixing axle 201；Gear 203, engages with described tooth bar 202, and described tooth bar 202 is between described fixing axle 201 and described gear 203；U-shaped housing 204, the U-shaped mouth of described housing 204 is just to described tooth bar 202, and the both sides of described U-shaped mouth are slidably connected with described fixing axle 201, and described gear 203 is installed in described housing 204；The fixing end of described deformable tube 101 is connected on the bottom of described housing 204；Rotary shaft 205, its one end is connected with described gear 203, the other end is positioned at the outside of described housing 204；During use, described gear 203 is driven to move downward or upward along described tooth bar 202 by the rotation of described rotary shaft 205.

In conjunction with above-mentioned deformable stent, before using, the fixing end of this deformable tube is fixed on the bottom of above-mentioned housing, makes deformable stent be connected with brackets with height-adjustable, travelling microscope is installed on the end of movable sleeving.During use, start driving means, driving means drives power transmission shaft to rotate, when power transmission shaft drives movable sleeving, power transmission shaft can only drive movable sleeving to move in its axial direction, by arranging deformable tube, the detection range of the travelling microscope being installed on movable sleeving end can be regulated by operator first, and this regulation includes the regulation of any direction and scope；And above-mentioned any direction and any range can be positioned to arbitrary plane by brackets with height-adjustable, make the adjustable area of microscope camera lens on movable sleeving bigger.

Preferably, with continued reference to shown in Fig. 1 and Fig. 2, in the present embodiment, described driving means includes motor 102 and decelerator 103, described motor 102 is in transmission connection with described decelerator 103, motor is preferably motor, by the deceleration of decelerator, reduce the transmission speed of motor, making this transmission speed be adapted to the detection speed of camera lens, further, described motor 102 is installed in described movable end, described power transmission shaft 104 is in transmission connection with described decelerator 103, is transferred to power transmission shaft with the transmission speed after reducing.

When said gear moves to setting height, this gear need to be positioned at this setting height, owing to housing is indirectly connected with gear, housing is fixed on fixing axle, the position of gear is fixed simultaneously, and the first implementation is: arrange the material of described fixing axle be steel, the material of described housing be that rigid plastics, the both sides of described U-shaped mouth slope inwardly；During use, the both sides of U-shaped mouth are clipped on the surface of fixing axle, frictional force between Steel material and rigid plastics is relatively big, by the frictional force between clamping force and described fixing axle and the described U-shaped mouth of described U-shaped mouth, described housing and described gear is positioned in the setting height of described fixing axle.This kind of location mode, without realizing by miscellaneous part, simplifies the structure of whole regulation support.

The second embodiment is: arrange the material of described fixing axle be steel, the material of described housing be that rigid plastics, the both sides of described U-shaped mouth offer through hole, described through hole is equipped with bolt；During use, by rotating described bolt, described housing and described gear are positioned in the setting height of described fixing axle.

With continued reference to shown in Fig. 1, operate for ease of operator, be easy to when rotating above-mentioned rotary shaft apply power, drive pinion rotation, the termination of the described rotary shaft 205 being positioned at outside described housing 204 is equiped with rotating handles 206.

Further, the bottom of described fixing axle 201 is equiped with positioning seat 207, in order to balance places described regulation support.

The present invention also provides for a kind of travelling microscope, and including regulating support as above, on the described movable sleeving of described regulation support, the one end away from described location bar is equiped with travelling microscope camera lens.

Above-mentioned travelling microscope, compared to the beneficial effect of prior art, is same as the above-mentioned regulation support beneficial effect compared to prior art, and here is omitted,

Last it is noted that various embodiments above is only in order to illustrate technical scheme, it is not intended to limit；Although the present invention being described in detail with reference to foregoing embodiments, it will be understood by those within the art that: the technical scheme described in foregoing embodiments still can be modified by it, or the most some or all of technical characteristic is carried out equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a regulation support, it is characterised in that include deformable stent；Described deformable stent includes:

Deformable tube, its one end is movable end for fixing end, the other end；

Driving means, is installed in described movable end；

Power transmission shaft, its one end and described driving means are in transmission connection, be arranged with movable sleeving on the other end, and described power transmission shaft is threaded connection mode with described movable sleeving and is connected；

Location bar, for limiting the circumferential movement of described movable sleeving, one end of described location bar and the shell of described driving means are connected, the other end can be dynamically connected with described movable sleeving, and the bearing of trend of described location bar is the most identical with described movable sleeving；

During use, described driving means drives described drive axis, and described power transmission shaft drives described movable sleeving to move in the axial direction of described power transmission shaft.

Regulation support the most according to claim 1, it is characterised in that also include brackets with height-adjustable；Described brackets with height-adjustable includes:

Vertical type fixes axle；

Vertical type tooth bar, is installed on described fixing axle；

Gear, engages with described tooth bar, and described tooth bar is between described fixing axle and described gear；

U-shaped housing, the U-shaped mouth of described housing is just to described tooth bar, and the both sides of described U-shaped mouth are slidably connected with described fixing axle, and described gear is installed in described housing；The fixing end of described deformable tube is connected on the bottom of described housing；

Rotary shaft, its one end is connected with described gear, the other end is positioned at the outside of described housing；

During use, described gear is driven to move downward or upward along described tooth bar by the rotation of described rotary shaft.

Regulation support the most according to claim 1, it is characterised in that described driving means includes that motor and decelerator, described motor are in transmission connection with described decelerator, and described motor is installed in described movable end, and described power transmission shaft is in transmission connection with described decelerator.

Regulation support the most according to claim 3, it is characterised in that being provided with hole, location on the outer surface of described movable sleeving, one end of described location bar and the shell of described motor are connected, the other end is movably located in hole, described location.

Regulation support the most according to claim 2, it is characterised in that the material of described fixing axle is steel, the material of described housing is rigid plastics, and the both sides of described U-shaped mouth slope inwardly；

During use, by the frictional force between clamping force and described fixing axle and the described U-shaped mouth of described U-shaped mouth, described housing and described gear are positioned in the setting height of described fixing axle.

Regulation support the most according to claim 2, it is characterised in that the material of described fixing axle is steel, the material of described housing is rigid plastics, and the both sides of described U-shaped mouth offer through hole, are equipped with bolt in described through hole；

During use, by rotating described bolt, described housing and described gear are positioned in the setting height of described fixing axle.

Regulation support the most according to claim 2, it is characterised in that be positioned on the termination of the described rotary shaft outside described housing and be equiped with rotating handles.

Regulation support the most according to claim 2, it is characterised in that be equiped with positioning seat on the bottom of described fixing axle.

Regulation support the most according to claim 1, it is characterised in that described deformable tube is 360 degree of rotary-type metal hoses.

10. a travelling microscope, it is characterised in that including the regulation support as described in any one of claim 1-9, on the described movable sleeving of described regulation support, the one end away from described location bar is equiped with travelling microscope camera lens.