CN221239134U - Micro microscope base mounting mechanism capable of being kept for long time - Google Patents

Abstract

The utility model discloses a long-term-holding micro microscope base mounting mechanism, which particularly relates to the field of micro microscopes, and comprises a vertical plate, wherein the top end of the vertical plate is fixedly connected with an adjusting mechanism, the adjusting mechanism comprises a bracket, a hand wheel, a rotating rod, a rotating gear, a stressed gear, a threaded rod, a sliding block, a transverse plate and a connecting block, the top end of the vertical plate is fixedly connected with the bracket, the side wall of the bracket is provided with the hand wheel, the output end of the hand wheel is fixedly connected with the rotating rod, the outer wall of the rotating rod is fixedly connected with the rotating gear, and the side wall of the rotating gear is meshed with the stressed gear; according to the utility model, the rotation of the rotating rod and the rotating gear is controlled through the hand wheel by arranging the adjusting mechanism, and the slider is driven to slide back and forth through the stress gear and the threaded rod, so that the connecting block slides left and right at the bottom end of the transverse plate, the position for confirming imaging is convenient to adjust, and the base of the device is kept stable for a long time without obvious displacement.

Description

Micro microscope base mounting mechanism capable of being kept for long time

Technical Field

The present utility model relates to the field of micro microscopes, and more particularly to a long-term retained micro microscope base mounting mechanism.

Background

Micro-microscopy imaging technology is a distinction from non-living imaging such as fluorescence confocal microscopy or wide-field fluorescence microscopy; the non-free movement mouse imaging technology such as MRI imaging, animal CT imaging and two-photon imaging can record the activities of various cells of the central nervous system of an organism under the conditions of physiological state and pathological state without affecting the free movement of the organism and executing normal physiological functions. Before imaging, the imaging equipment is fixed by installing a head-mounted base of the micro-microscope animal, so that stable imaging vision and imaging data are obtained.

The existing micro microscope base mounting mechanism is mainly characterized in that the base is mounted through dental cement; the single dental cement is fixed, often cannot be stably maintained for a long time, and in some activities with larger action amplitudes, the imaging visual field can be subjected to larger shake and cannot be recovered through later-stage motion correction; the problem can be ameliorated to some extent by grinding the skull, adding a skull nail to increase the contact area with the dental cement, but with irreversible damage to both the living organism skull and to brain tissue. Some glues with lower working viscosity have higher fluidity and can permeate into an operation window to affect imaging quality and damage a lens; the glue with higher single working viscosity has larger brittleness and is not ideal for maintaining the stabilizing effect of an imaging picture;

Therefore, a long-term maintenance of a mount mechanism for a micro-microscope has been proposed in view of the above-mentioned problems.

Disclosure of utility model

In order to overcome the above-mentioned drawbacks of the prior art, embodiments of the present utility model provide a long-term retaining micro-microscope base mounting mechanism to solve the above-mentioned problems set forth in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a micro-microscope base installation mechanism that keeps for a long time, includes the riser, the top fixedly connected with adjustment mechanism of riser, adjustment mechanism includes support, hand wheel, rotary rod, rotary gear, atress gear, threaded rod, slider, diaphragm and joint piece.

The top fixedly connected with support of riser, the lateral wall of support is provided with the hand wheel, the output fixedly connected with rotary rod of hand wheel, the outer wall fixedly connected with rotary gear of rotary rod, the lateral wall meshing of rotary gear has the atress gear, the lateral wall fixedly connected with of atress gear runs through with the support inside has the threaded rod, the outer wall threaded connection of threaded rod has the slider, the lateral wall fixedly connected with diaphragm of slider, diaphragm bottom inner wall sliding connection has the joint piece.

Preferably, the bottom fixedly connected with elevating system of linking piece, elevating system includes electric telescopic handle, deflector and fly leaf, the bottom fixedly connected with electric telescopic handle of linking piece, electric telescopic handle's outer wall fixedly connected with deflector, electric telescopic handle's output fixedly connected with and deflector middle part inner wall sliding connection's fly leaf.

Preferably, the bottom fixedly connected with mounting panel of fly leaf, the top of mounting panel is provided with fixed establishment, fixed establishment includes slide rail, electric putter, movable block, slide, rack, flat gear, dead lever, connecting block, fixture block and micro-microscope.

Preferably, the top fixedly connected with slide rail of mounting panel, the top of mounting panel is provided with electric putter, electric putter's output fixedly connected with movable block, the lateral wall fixedly connected with of movable block and slide rail sliding connection's slide, the lateral wall fixedly connected with rack of slide, the lateral wall meshing of rack has the flat gear, the inside of flat gear runs through have with mounting panel top fixedly connected with dead lever, the bottom fixedly connected with connecting block of slide, the lateral wall fixedly connected with fixture block of connecting block, the bottom embedding joint of mounting panel has micro-microscope.

Preferably, the central axis of the rotary gear coincides with the central axis of the rotary rod, and the threaded rod forms a rotary structure with the bracket through the rotary gear and the stress gear.

Preferably, the side wall of the bracket is provided with a sliding groove attached to the side wall of the sliding block, and the sliding block forms a sliding structure with the bracket through a threaded rod.

Preferably, the movable plate and the guide plate form a sliding structure through an electric telescopic rod.

Preferably, the racks are provided with two groups, the positions of the two groups of racks are symmetrically distributed about the center of the fixed rod, and the sliding plate forms a sliding structure with the sliding rail through the movable block.

The utility model has the technical effects and advantages that:

1. Compared with the prior art, the device passes through adjustment mechanism, through the rotation of hand wheel control rotary rod and swivelling gear, and then drives the fore-and-aft slip of slider through atress gear and threaded rod, and the same reason makes its linking piece slide in the bottom left and right sides of diaphragm, is convenient for adjust the position of confirming the formation of image, makes its long-term remaining stable and no obvious displacement of base.

2. Compared with the prior art, the device passes through elevating system, and through the decline of electric telescopic handle control fly leaf, drives micro-microscope and base through the mounting panel and descends, is convenient for adjust the imaging depth from this, has guaranteed the clarity of field of vision, can realize carrying out life full cycle time scale to the mouse brain that medical research is commonly used even, the record under the same imaging field of vision.

3. Compared with the prior art, the device is convenient to fix and detach the micro microscope 410 by the fixing mechanism, the electric push rod is used for controlling the movement of the sliding plate, the connecting block is used for controlling the movement of the clamping block, and the rack is used for controlling the movement of the other group of sliding plate and the clamping block, so that the device is convenient for daily use.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present utility model.

Fig. 2 is a schematic diagram of the adjusting structure of the present utility model.

Fig. 3 is a schematic view of a lifting structure of the present utility model.

Fig. 4 is a schematic view of a fixing structure of the present utility model.

FIG. 5 is a schematic view of the structure of the connecting block of the present utility model

FIG. 6 is a schematic view of a latch according to the present utility model

The reference numerals are: 1. a riser; 2. an adjusting mechanism; 201. a bracket; 202. a hand wheel; 203. a rotating rod; 204. a rotary gear; 205. a force-bearing gear; 206. a threaded rod; 207. a slide block; 208. a cross plate; 209. a joint block; 3. a lifting mechanism; 301. an electric telescopic rod; 302. a guide plate; 303. a movable plate; 5. a mounting plate; 4. a fixing mechanism; 401. a slide rail; 402. an electric push rod; 403. a movable block; 404. a slide plate; 405. a rack; 406. a flat gear; 407. a fixed rod; 408. a connecting block; 409. a clamping block; 410. a micro microscope.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

The long-term-holding micro microscope base mounting mechanism shown in fig. 1 and 2 comprises a vertical plate 1, wherein the top end of the vertical plate 1 is fixedly connected with an adjusting mechanism 2, and the adjusting mechanism 2 comprises a bracket 201, a hand wheel 202, a rotating rod 203, a rotating gear 204, a force-bearing gear 205, a threaded rod 206, a sliding block 207, a transverse plate 208 and a connecting block 209.

The top fixedly connected with support 201 of riser 1, the lateral wall of support 201 is provided with hand wheel 202, the output fixedly connected with rotary rod 203 of hand wheel 202, the outer wall fixedly connected with rotary gear 204 of rotary rod 203, the lateral wall meshing of rotary gear 204 has atress gear 205, the lateral wall fixedly connected with of atress gear 205 runs through with support 201 inside threaded rod 206, the outer wall threaded connection of threaded rod 206 has slider 207, the lateral wall fixedly connected with diaphragm 208 of slider 207, diaphragm 208 bottom inner wall sliding connection has linking piece 209, the axis of rotary gear 204 coincides with the axis of rotary rod 203, threaded rod 206 constitutes revolution mechanic through between rotary gear 204 and atress gear 205 and the support 201, the lateral wall of support 201 is provided with the spout that laminates mutually with slider 207 lateral wall, slider 207 constitutes sliding structure through between threaded rod 206 and the support 201.

Wherein: the hand wheel 202 is screwed to drive the rotary rod 203 to rotate, the rotary gear 204 drives the stressed gear 205 to rotate, the threaded rod 206 is driven to rotate, the sliding block 207 is pushed to slide back and forth along the sliding groove on the side wall of the support 201, the transverse plate 208 is driven to move in the same direction, the connecting block 209 can move left and right along the sliding groove on the bottom end of the transverse plate 208, and the X axis and the Y axis are adjusted, so that the imaging confirmation position is adjusted conveniently.

Example two

On the basis of the first embodiment, the scheme in the first embodiment is further introduced in detail in combination with the following specific working manner, as shown in fig. 1 to 6, and described in detail below: the bottom end of the connecting block 209 is fixedly connected with a lifting mechanism 3, the lifting mechanism 3 comprises an electric telescopic rod 301, a guide plate 302 and a movable plate 303, the bottom end of the connecting block 209 is fixedly connected with the electric telescopic rod 301, the outer wall of the electric telescopic rod 301 is fixedly connected with the guide plate 302, the output end of the electric telescopic rod 301 is fixedly connected with the movable plate 303 which is in sliding connection with the inner wall of the middle part of the guide plate 302, and the movable plate 303 and the guide plate 302 form a sliding structure through the electric telescopic rod 301; further, the electric telescopic rod 301 is opened to slowly push the movable plate 303 to move downwards along the groove on the inner wall of the guide plate 302, so as to drive the micro-microscope 410 and the base to descend, thereby being convenient for adjusting the imaging depth.

As a preferred embodiment, the bottom end of the movable plate 303 is fixedly connected with the mounting plate 5, the top end of the mounting plate 5 is provided with the fixing mechanism 4, the fixing mechanism 4 comprises a sliding rail 401, an electric push rod 402, a movable block 403, a sliding plate 404, a rack 405, a flat gear 406, a fixing rod 407, a connecting block 408, a clamping block 409 and a micro microscope 410, the top end of the mounting plate 5 is fixedly connected with the sliding rail 401, the top end of the mounting plate 5 is provided with the electric push rod 402, the output end of the electric push rod 402 is fixedly connected with the movable block 403, the side wall of the movable block 403 is fixedly connected with the sliding plate 404 in sliding connection with the sliding rail 401, the side wall of the sliding plate 404 is fixedly connected with the rack 405, the side wall of the rack 405 is meshed with the flat gear 406, the fixing rod 407 is fixedly connected with the top end of the mounting plate 5 in a penetrating manner, the bottom end of the sliding plate 404 is fixedly connected with the connecting block 408, the side wall of the connecting block 408 is fixedly connected with the clamping block 409, and the bottom end of the mounting plate 5 is embedded and clamped with the micro microscope 410; further, the base is adsorbed on the micro-microscope 410, the electric push rod 402 is started to drive the movable block 403 to slide left and right along the top end of the mounting plate 5, then the sliding plate 404 is driven to slide in the same direction along the track of the sliding rail 401, the rack 405 is pushed to move left and right, the flat gear 406 is driven to rotate around the outer wall of the fixed rod 407, the rack 405 and the sliding plate 404 on the other side are pushed to do relative movement, when the sliding plate 404 slides, the clamping block 409 is driven to move in the same direction through the connecting block 408, the clamping block 409 is plugged into the groove on the side wall of the micro-microscope 410, the micro-microscope 410 and the base are fixed, the micro-microscope 410 is convenient to fix and detach, and daily use is convenient.

As a preferred embodiment, the racks 405 are provided with two groups, the positions of the two groups of racks 405 are symmetrically distributed about the center of the fixed rod 407, and the sliding plate 404 forms a sliding structure with the sliding rail 401 through the movable block 403; further, the rack 405 moves left and right to drive the flat gear 406 to rotate around the outer wall of the fixed rod 407, so as to push the rack 405 and the sliding plate 404 on the other side to perform relative movement, thereby achieving the purpose of controlling the sliding plate 404 on the other side to perform relative movement.

The working process of the utility model is as follows: when the device is used, firstly, a base is required to be adsorbed on a micro-microscope 410, an electric push rod 402 is started to drive a movable block 403 to slide left and right along the top end of a mounting plate 5, then a sliding plate 404 is driven to slide along the track of a sliding rail 401 in the same direction, a rack 405 is driven to move left and right, a flat gear 406 is driven to rotate around the outer wall of a fixed rod 407, the rack 405 on the other side and the sliding plate 404 are driven to do relative motion, when the sliding plate 404 slides, a clamping block 409 is driven to move in the same direction through a connecting block 408, the clamping block 409 is plugged into a groove on the side wall of the micro-microscope 410, the micro-microscope 410 and the base are fixed, then an electric telescopic rod 301 is started to slowly drive a movable plate 303 to move downwards along the groove on the inner wall of a guide plate 302, the micro-microscope 410 and the base are driven to descend, the imaging depth is regulated, then a hand wheel 202 is required to drive a rotary rod 203 to rotate, a stressed gear 205 is driven to rotate, a threaded rod 206 is driven to rotate, the threaded rod 207 is driven to slide forwards and backwards along a sliding groove on the side wall of a bracket 201, and a transverse plate 208 is driven to move in the same direction, and the position of the sliding groove 208 is regulated along the left and right axis of the sliding groove, and the left axis of the sliding plate 208 can be regulated to move along the X axis and the Y axis is regulated and regulated; after confirming the imaging position and imaging depth, preliminary fixing by photo-curing the fluid resin; then using cyanoacrylate glue to quickly fix with sodium bicarbonate powder; after the micro microscope 410 is separated, filling and fixing the gap between the base and the skull again through acrylate glue and sodium bicarbonate powder; after confirming that the imaging position and imaging quality are good, a protective sleeve is installed.

Finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (8)

1. A long-term maintenance micro-microscope base mounting mechanism comprising a riser (1), characterized by; the top end of the vertical plate (1) is fixedly connected with an adjusting mechanism (2), and the adjusting mechanism (2) comprises a bracket (201), a hand wheel (202), a rotating rod (203), a rotating gear (204), a stress gear (205), a threaded rod (206), a sliding block (207), a transverse plate (208) and a connecting block (209);

the utility model discloses a vertical plate (1) with the fixed connection support, top fixedly connected with support (201), the lateral wall of support (201) is provided with hand wheel (202), the output fixedly connected with rotary rod (203) of hand wheel (202), the outer wall fixedly connected with rotary gear (204) of rotary rod (203), the lateral wall meshing of rotary gear (204) has stress gear (205), the lateral wall fixedly connected with of stress gear (205) has threaded rod (206) with inside running through of support (201), the outer wall threaded connection of threaded rod (206) has slider (207), the lateral wall fixedly connected with diaphragm (208) of slider (207), diaphragm (208) bottom inner wall sliding connection has linking piece (209).

2. The long term retaining micro-microscope base mounting mechanism according to claim 1, wherein: the bottom fixedly connected with elevating system (3) of linking piece (209), elevating system (3) are including electric telescopic handle (301), deflector (302) and fly leaf (303), the bottom fixedly connected with electric telescopic handle (301) of linking piece (209), the outer wall fixedly connected with deflector (302) of electric telescopic handle (301), the output fixedly connected with of electric telescopic handle (301) and fly leaf (303) of deflector (302) middle part inner wall sliding connection.

3. A long-term retaining micro-microscope base mounting mechanism according to claim 2, wherein: the bottom fixedly connected with mounting panel (5) of fly leaf (303), the top of mounting panel (5) is provided with fixed establishment (4), fixed establishment (4) are including slide rail (401), electric putter (402), movable block (403), slide (404), rack (405), flat gear (406), dead lever (407), connecting block (408), fixture block (409) and miniature microscope (410).

4. A long-term retaining micro-microscope base mounting mechanism according to claim 3, wherein: the utility model discloses a miniature microscope, including mounting panel (5), mounting panel, connecting block, sliding plate (405), flat gear (406) and connecting block (408) are run through in the inside of flat gear (406), mounting panel (5) top fixedly connected with dead lever (407), connecting block (408) are connected with in the bottom fixedly connected with of sliding plate (404), sliding plate (404) of lateral wall fixedly connected with and sliding rail (401) sliding connection of sliding block (403), lateral wall fixedly connected with rack (405) of sliding plate (404), the lateral wall meshing of rack (405) has flat gear (406), flat gear (406) inside run through have with mounting panel (5) top fixedly connected with dead lever (407), connecting block (408) are connected with in the bottom fixedly connected with of sliding plate (404), lateral wall fixedly connected with fixture block (409) of connecting block (408), bottom embedding joint of mounting panel (5) has miniature microscope (410).

5. The long term retaining micro-microscope base mounting mechanism according to claim 1, wherein: the central axis of the rotary gear (204) coincides with the central axis of the rotary rod (203), and the threaded rod (206) forms a rotary structure with the bracket (201) through the rotary gear (204) and the stress gear (205).

6. The long term retaining micro-microscope base mounting mechanism according to claim 1, wherein: the side wall of the support (201) is provided with a sliding groove attached to the side wall of the sliding block (207), and the sliding block (207) and the support (201) form a sliding structure through a threaded rod (206).

7. A long-term retaining micro-microscope base mounting mechanism according to claim 3, wherein: the movable plate (303) and the guide plate (302) form a sliding structure through the electric telescopic rod (301).

8. The long term retaining micro-microscope base mounting mechanism according to claim 4, wherein: the racks (405) are provided with two groups, the positions of the two groups of racks (405) are symmetrically distributed about the center of the fixed rod (407), and the sliding plate (404) forms a sliding structure with the sliding rail (401) through the movable block (403).