CN211577555U - Horizontal adjustment module - Google Patents

Abstract

The utility model relates to a level (l) ing module. The X-drive adjusting mechanism comprises a base plate, a lower base is fixed on the upper end face of the base plate, the lower base is connected with an X adjusting platform, a transverse sliding groove is formed in the lower base, an X protruding block is inserted into the transverse sliding groove, an X movable groove is formed in the transverse sliding groove, an X driving block is arranged on the X protruding block in a downward extending mode, the X driving block is inserted into the X movable groove, a longitudinal slot is formed in the lower base, the longitudinal slot is communicated with the X movable groove, an X adjusting rod is arranged in the longitudinal slot, the X adjusting rod is movably connected with the lower base, the longitudinal slot is inserted into one end of the X adjusting rod, an X driving structure is arranged between the end of the X adjusting rod and the X driving block, and the X adjusting. The utility model discloses a to adjust the pole setting in the side direction of adjusting the platform to through rack toothing's mode, adjust the pole drive and adjust the platform and remove, reduce the activity space on adjusting the platform moving direction, and convenient operation.

Description

Horizontal adjustment module

Technical Field

The utility model relates to a sharp module technical field especially relates to a horizontal adjustment module.

Background

In physical and biological laboratories, a microscope and other magnifying devices are often used to perform fine observation on an object, and during observation, the object is generally placed on an object stage, and the position of the object is adjusted by adjusting the object stage; present adjusting device generally adopts the level (l) ing module, and present level (l) ing module generally adopts screw-nut's structure, the lead screw is connected with the regulation platform of regulation layer, adjust the position of adjusting the platform through rotatory lead screw, this kind of adjustment mode makes the length direction of lead screw the same with its regulation platform moving direction that corresponds, thereby make operating position be located the moving direction who adjusts the platform, and then make its required activity space great, amplification device need set up great protection space.

Disclosure of Invention

An object of the utility model is to prior art not enough, provide a horizontal adjustment module, the regulating unit operating position of this horizontal adjustment module is in the moving direction outside of adjusting the platform, reduces the needs in activity space, and space utilization is higher.

The utility model provides a horizontal adjustment module, its includes the base plate, and the up end of base plate is fixed with lower base, and lower base sliding connection has X to adjust the platform, horizontal spout has been seted up at the middle part of lower base, X adjust the lower extreme of platform be equipped with horizontal spout matched with X lug, and the X lug inserts horizontal spout, the X movable groove has been seted up at the middle part of horizontal spout, the middle part downwardly extending of X lug has X transmission piece, and X transmission piece inserts the X movable groove, vertical slot has been seted up to the lower base, and vertical slot and X movable groove intercommunication are equipped with the X regulation pole in the vertical slot, and X regulation pole and lower base swing joint, the vertical slot is inserted to the one end of X regulation pole, are equipped with X transmission structure between the tip of X regulation pole and the X transmission piece, and the X regulation pole can drive X transmission piece through X drive mechanism along X.

Furthermore, the X transmission structure comprises a rack arranged at the lower end of the X transmission block, and the side face of the end part of the X adjusting rod is provided with a convex tooth matched with the rack, and the convex tooth is meshed with the rack.

As another structural variation: the X transmission structure comprises a rack arranged at the lower end of the X transmission block, the side face of the end part of the X adjusting rod is connected with a main gear matched with the rack, and the main gear is meshed with the rack.

Furthermore, the X movable groove is connected with an intermediate gear, the intermediate gear comprises two transmission gears which are coaxially arranged, the intermediate gear is positioned between the main gear and the rack, one of the transmission gears is meshed with the main gear, and the other transmission gear is meshed with the rack.

Furthermore, a bearing is arranged in the longitudinal groove, and the X adjusting rod is connected with the bearing.

Furthermore, two ends of the X-shaped bump are respectively provided with a limiting block.

Furthermore, the transverse sliding groove is arranged in a dovetail shape, and the X-shaped convex block is also arranged in a dovetail shape.

Furthermore, the lower base is provided with a middle groove, a pressing plate is formed between the middle groove and the transverse sliding groove, and one side of the pressing plate is pressed against the X bump; the other side of lower base is connected with the anchorage bar, and anchorage bar and lower base threaded connection, and the tip of anchorage bar stretches into middle groove and clamp plate butt.

Further, an operation block is connected to an outer end portion of the fastening rod.

Further, platform fixedly connected with upper base is adjusted to X, and upper base sliding connection has Y to adjust the platform, and vertical spout has been seted up at the middle part of upper base, Y adjust the lower extreme of platform be equipped with vertical spout matched with Y lug, the Y lug inserts vertical spout, the Y movable groove has been seted up at the middle part of vertical spout, the middle part downwardly extending of Y lug has Y transmission piece, and Y transmission piece inserts the Y movable groove, horizontal slot has been seted up to the upper base, and horizontal slot and Y movable groove intercommunication are equipped with Y in the horizontal slot and adjust the pole, and Y adjusts pole and upper base swing joint, and horizontal slot is inserted to the one end of Y regulation pole, is equipped with Y transmission structure between the tip of Y regulation pole and the Y transmission piece, and Y adjusts the pole and can drive Y transmission piece along Y movable groove longitudinal movement.

The utility model has the advantages that: the utility model discloses a to adjust the pole setting in the side direction of adjusting the platform to through rack toothing's mode, adjust the pole drive and adjust the platform and remove, reduce the activity space on adjusting the platform moving direction, and convenient operation.

Drawings

Fig. 1 is a schematic structural diagram of the present embodiment.

Fig. 2 is another schematic view of the present embodiment.

FIG. 3 is a schematic view of the structure of FIG. 1 with the X adjustment stage removed.

Fig. 4 is another schematic structural diagram of the present embodiment.

Reference numerals:

1-X adjusting rod; 2-X adjust the platform; 3, pressing a plate; 4-intermediate tank; 5-X bumps; 6-X movable groove; 7-a limiting block; 8-X transmission block; 9-operation block; 10-lower base; 11-a substrate; 12-fastening rod; 13-transverse chute; 15-convex tooth; 16-Y adjusting rod; 17-Y adjust the platform; 18-upper base.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings. As shown in fig. 1-4.

Example (b): see fig. 1 to 3; a horizontal adjusting module comprises a base plate 11, a lower base 10 is fixed on the upper end surface of the base plate 11, the lower base 10 is connected with an X adjusting platform 2 in a sliding way, referring to figure 3, the middle part of the lower base 10 is provided with a transverse sliding chute 13, the lower end of the X adjusting platform 2 is provided with an X convex block 5 matched with the transverse sliding chute 13, the X convex block 5 is inserted into the transverse sliding chute 13, an X movable groove 6 is arranged in the middle of the transverse sliding groove 13, an X driving block 8 extends downwards in the middle of the X bump 5, the X driving block 8 is inserted into the X movable groove 6, the X-shaped adjusting mechanism is characterized in that a longitudinal slot is formed in the lower base 10 and is communicated with the X movable groove 6, an X adjusting rod 1 is arranged in the longitudinal slot, the X adjusting rod 1 is movably connected with the lower base 10, one end of the X adjusting rod 1 is inserted into the longitudinal slot, an X transmission structure is arranged between the end portion of the X adjusting rod 1 and the X transmission block 8, and the X adjusting rod 1 can drive the X transmission block 8 to transversely move along the X movable groove 6 through an X transmission mechanism.

According to the technical scheme, the X adjusting rod 1 is arranged on the side surface of the lower base 10, which is vertical to the longitudinal direction, and the length direction of the X adjusting rod 1 is vertical to the moving direction of the X adjusting platform 2, so that the transverse moving space is reduced; the space utilization rate is improved. During specific adjustment, the X transmission block 8 moves transversely along the X movable groove 6 by manipulating the X adjusting rod 1. The X-projection 5 cooperates with the lateral sliding groove 13 such that the X-adjustment platform 2 is in linear movement when moving laterally.

Furthermore, the X transmission structure comprises a rack arranged at the lower end of the X transmission block 8, a convex tooth 15 matched with the rack is arranged on the side face of the end of the X adjusting rod 1, and the convex tooth 15 is meshed with the rack.

In order to enable the X adjusting rod 1 to drive the X transmission block 8 to move transversely, the technical scheme adopts a gear rack structure, and the X adjusting rod 1 is rotated to drive the X transmission block 8 to move transversely.

As another structural variation: the X transmission structure comprises a rack arranged at the lower end of the X transmission block 8, the side face of the end part of the X adjusting rod 1 is connected with a main gear matched with the rack, and the main gear is meshed with the rack.

Furthermore, the X-shaped movable slot 6 is connected with an intermediate gear, the intermediate gear comprises two coaxially arranged transmission gears, the intermediate gear is located between the main gear and the rack, one of the transmission gears is engaged with the main gear, and the other transmission gear is engaged with the rack.

In order to conveniently control the transverse movement precision, the technical scheme is provided with the intermediate gear, and the input ratio and the output ratio are adjusted through the intermediate gear.

Furthermore, a bearing is arranged in the longitudinal groove, and the X adjusting rod 1 is connected with the bearing.

In order to conveniently and movably fix the X adjusting rod 1 in the longitudinal groove, the bearing is arranged in the longitudinal groove, and the X adjusting rod 1 can rotate relative to the lower base 10.

Furthermore, two ends of the X-shaped bump 5 are respectively provided with a limiting block 7.

In order to prevent the X-shaped bump 5 from separating from the X-shaped movable groove 6 or the X-shaped adjusting rod 1, the two ends of the X-shaped bump 5 are respectively provided with a limiting block 7. The limiting block 7 can be a bolt which is fixed on the X-shaped convex block 5 to form the limiting block 7.

Further, the transverse sliding groove 13 is arranged in a dovetail shape, and the X-shaped projection 5 is also arranged in a dovetail shape.

The transverse sliding groove 13 is arranged in a dovetail shape, so that the transverse sliding groove is more stable when moving transversely.

Furthermore, the lower base 10 is provided with a middle groove 4, a pressing plate 3 is formed between the middle groove 4 and the transverse sliding groove 13, and one side of the pressing plate 3 is pressed against the X-shaped bump 5; the other side of the lower base 10 is connected with a fastening rod 12, the fastening rod 12 is in threaded connection with the lower base 10, and the end of the fastening rod 12 extends into the middle groove 4 to be abutted against the pressing plate 3.

When horizontal regulation is accomplished, need adjust platform 2 to X and fix, this technical scheme has set up fastening rod 12, and through rotatory fastening rod 12, fastening rod 12 supports and presses clamp plate 3 for the frictional force between clamp plate 3 and the X lug 5 increases, and then adjusts platform 2 location with X.

Further, an operation block 9 is connected to an outer end portion of the fastening rod 12.

In order to facilitate the operation of the fastening rod 12, the fastening rod 12 is connected with an operation block 9 for facilitating the operation.

Referring to fig. 4, further, the X adjusting platform 2 is fixedly connected with an upper base 18, the upper base 18 is slidably connected with a Y adjusting platform 17, a longitudinal sliding groove is formed in the middle of the upper base 18, the lower end of the Y adjusting platform 17 is provided with a Y convex block matched with the longitudinal sliding groove, the Y convex block is inserted into the longitudinal sliding groove, a Y movable groove is arranged in the middle of the longitudinal sliding groove, a Y transmission block extends downwards in the middle of the Y convex block and is inserted into the Y movable groove, the upper base 18 is provided with a transverse slot which is communicated with the Y movable groove, a Y adjusting rod 16 is arranged in the transverse slot, the Y adjusting rod 16 is movably connected with the upper base 18, one end of the Y adjusting rod 16 is inserted into the transverse slot, a Y transmission structure is arranged between the end part of the Y adjusting rod 16 and the Y transmission block, and the Y adjusting rod 16 can drive the Y transmission block to longitudinally move along the Y movable groove.

In order to enable the horizontal adjusting module to be adjusted in the longitudinal direction, another group of longitudinal adjusting modules is arranged on the lower base 10. The Y drive structure may adopt the same structural orientation as the X drive structure. The principle is basically the same as that described above, and the description is omitted.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (9)

1. The utility model provides a horizontal adjustment module, its includes the base plate, and the up end of base plate is fixed with lower base, and lower base sliding connection has X to adjust the platform, horizontal spout has been seted up at the middle part of lower base, X adjusts the lower extreme of platform and is equipped with the X lug with horizontal spout matched with, and the X lug inserts horizontal spout, its characterized in that: the X driving structure is characterized in that an X movable groove is formed in the middle of the transverse sliding groove, an X driving block extends downwards in the middle of the X bump, the X driving block is inserted into the X movable groove, a longitudinal slot is formed in the lower base, the longitudinal slot is communicated with the X movable groove, an X adjusting rod is arranged in the longitudinal slot and movably connected with the lower base, one end of the X adjusting rod is inserted into the longitudinal slot, an X driving structure is arranged between the end of the X adjusting rod and the X driving block, and the X adjusting rod can drive the X driving block to move transversely along the X movable groove through an X driving mechanism.

2. A leveling module according to claim 1, wherein: the X transmission structure comprises a rack arranged at the lower end of the X transmission block, the side face of the end of the X adjusting rod is provided with a convex tooth matched with the rack, and the convex tooth is meshed with the rack.

3. A leveling module according to claim 1, wherein: the X transmission structure comprises a rack arranged at the lower end of the X transmission block, the side face of the end part of the X adjusting rod is connected with a main gear matched with the rack, and the main gear is meshed with the rack.

4. A leveling module according to claim 3, wherein: the X movable groove is connected with an intermediate gear, the intermediate gear comprises two transmission gears which are coaxially arranged, the intermediate gear is positioned between the main gear and the rack, one transmission gear is meshed with the main gear, and the other transmission gear is meshed with the rack.

5. A leveling module according to claim 1, wherein: and two ends of the X-shaped convex block are respectively provided with a limiting block.

6. A leveling module according to claim 1, wherein: the transverse sliding groove is arranged in a dovetail shape, and the X-shaped convex block is also arranged in a dovetail shape.

7. A leveling module according to claim 1, wherein: the lower base is provided with a middle groove, a pressing plate is formed between the middle groove and the transverse sliding groove, and one side of the pressing plate is pressed against the X convex block; the other side of lower base is connected with the anchorage bar, and anchorage bar and lower base threaded connection, and the tip of anchorage bar stretches into middle groove and clamp plate butt.

8. The leveling module of claim 7, wherein: the outer end of the fastening rod is connected with an operation block.

9. A leveling module according to any one of claims 1-8, wherein: x adjusts platform fixedly connected with upper base, and upper base sliding connection has Y to adjust the platform, and vertical spout has been seted up at the middle part of upper base, Y adjust the lower extreme of platform be equipped with vertical spout matched with Y lug, and the Y lug inserts vertical spout, the Y movable groove has been seted up at the middle part of vertical spout, the middle part downwardly extending of Y lug has Y transmission piece, and Y transmission piece inserts the Y movable groove, horizontal slot has been seted up to the upper base, horizontal slot and Y movable groove intercommunication are equipped with Y regulation pole in the horizontal slot, and Y adjusts pole and upper base swing joint, and horizontal slot is inserted to the one end of Y regulation pole, is equipped with Y transmission structure between the tip of Y regulation pole and the Y transmission piece, and Y regulation pole can drive Y transmission piece along Y movable groove longitudinal movement.

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