CN211838863U - Adjusting carrying platform - Google Patents

Abstract

The utility model belongs to the technical field of the electronic product makes, a adjust microscope carrier is disclosed. This regulation microscope carrier includes: a carrier plate; the fixed support assembly is arranged on the bearing plate along a first direction and is used for bearing and fixing one side of a workpiece to be processed; the adjusting and supporting assembly is arranged on the bearing plate along a first direction and used for bearing and fixing the other side of the workpiece to be processed, and the adjusting and supporting assembly slides relative to the fixed and supporting assembly according to the width of the workpiece to be processed along a second direction, so that the distance between the adjusting and supporting assembly and the fixed and supporting assembly is adjustable, wherein the first direction and the second direction are perpendicular to each other. The adjusting carrying platform can adapt to workpieces to be processed in various specifications, has strong universality, and can realize the bearing of the workpieces to be processed in various specifications by adopting the same adjusting platform compared with the prior art, thereby effectively reducing the production cost.

Description

Adjusting carrying platform

Technical Field

The utility model relates to an electronic product makes technical field, especially relates to an adjust microscope carrier.

Background

Electronic products are generally provided with a display screen for displaying patterns. In the actual manufacturing process of the display screen, the terminal of the display screen needs to be coated with solvent type glue, such as Tuffy glue and the like. The main purposes of coating are: the solvent-based glue can prevent conductive foreign matters from falling on exposed terminals to cause short circuit, and can also prevent the terminals from being corroded to influence functions due to long-term exposure in the atmosphere, or prevent the terminals from being damaged easily due to improper external force in subsequent engineering operation to cause bad effects on strength and service life.

When the existing display screen terminal is coated with glue, the glue coating area is closer to the glass edge, so that the glue is easily coated on the carrying platform in the coating process, the back of a product behind an automatic line is easily polluted by the glue, and the coating edge is required to be suspended out of the carrying platform in the coating process. In order to ensure the flatness of a coating area of a product, a support is required below a gluing edge, so that products with different specifications need carrying tables with different sizes, the universality is poor, and the production cost is increased by the carrying tables of different types.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an adjust microscope carrier according to the work piece of different specifications, can carry out free adjustment.

To achieve the purpose, the utility model adopts the following technical proposal:

an adjustable stage comprising:

a carrier plate;

the fixed support assembly is arranged on the bearing plate along a first direction and is used for bearing and fixing one side of a workpiece to be processed;

the adjusting support assembly is used for bearing and fixing the other side of the workpiece to be processed, and is configured to slide relative to the fixed support assembly according to the width of the workpiece to be processed along a second direction, so that the distance between the adjusting support assembly and the fixed support assembly is adjustable, wherein the first direction and the second direction are perpendicular to each other.

Preferably, the fixed supporting assembly comprises a fixed supporting block, the fixed supporting block is arranged on the bearing plate along the first direction, a first fixed air nozzle is formed in the fixed supporting block, and the first fixed air nozzle is communicated with the vacuum generator and used for adsorbing the workpiece to be processed.

Preferably, the fixed supporting component comprises an adsorption upright post, the adsorption upright post is arranged on the bearing plate, a second fixed air nozzle is arranged on the adsorption upright post, and the second fixed air nozzle is communicated with the vacuum generator and used for adsorbing the workpiece to be processed.

Preferably, the adjusting support assembly comprises an adjusting support block, the adjusting support block is arranged in the bearing plate in parallel with the fixed support assembly along the first direction, a first adjusting air nozzle is arranged on the adjusting support block and communicated with the vacuum generator for adsorbing the workpiece to be processed.

Preferably, the adjusting support assembly further comprises:

the first cantilever is convexly arranged on one side of the adjusting supporting block close to the fixed supporting component;

the second cantilever is convexly arranged on one side, close to the fixed supporting component, of the adjusting supporting block and is arranged in parallel with the first cantilever at intervals, and the first cantilever and the second cantilever are jointly used for bearing the workpiece to be machined.

Preferably, the adjusting support assembly further comprises:

the guide rail is arranged on the bearing plate along the second direction;

the first sliding block is arranged at the bottom of the adjusting supporting block and is in sliding fit with the guide rail;

and the second sliding block is arranged at the bottom of the first suspension arm and is in sliding fit with the guide rail.

Preferably, the second slider includes:

the supporting part is positioned above the first sliding block and is respectively connected with the first sliding block and the adjusting and supporting block;

the sliding part is arranged on the supporting part, a sliding groove is formed in the sliding part, and the sliding groove is in sliding fit with the guide rail.

Preferably, the adjusting and supporting assembly further comprises a locking member, and the locking member is arranged on the sliding portion in a penetrating manner and used for locking between the second sliding block and the guide rail.

Preferably, the sliding portion has a gap along a height direction thereof, the sliding portion has a threaded hole along the first direction for the locking piece to pass through, and the gap is respectively communicated with the threaded hole and the sliding groove.

Preferably, the bearing plate further comprises a rotating assembly, the rotating assembly is connected to the bottom of the bearing plate, and the rotating assembly can drive the bearing plate to rotate.

The utility model has the advantages that:

the utility model provides an adjust microscope carrier is used for bearing and fixes one side of treating the processing work piece through setting up fixed stay subassembly, adjusts the opposite side that the stay subassembly is used for bearing and fixes the processing work piece of treating, and fixed stay subassembly and regulation stay subassembly are used for treating bearing and fixing of processing work piece jointly, and bearing capacity is strong, and is fixed effectual, reduces the removal of treating the processing work piece, guarantees to treat the positional stability of processing work piece. According to the width of the workpiece to be machined along the second direction, the adjusting support component can slide relative to the fixed support component, so that the distance between the adjusting support component and the fixed support component is adjustable, the adjusting carrying platform can adapt to the workpieces to be machined in various specifications, the universality is high, compared with the prior art, the bearing of the workpieces to be machined in various specifications can be realized by adopting the same adjusting platform, and the production cost is effectively reduced.

Drawings

Fig. 1 is a schematic structural diagram of an adjusting carrier of the present invention;

FIG. 2 is a schematic structural view of a part of a workpiece to be machined, which is hidden on the adjusting carrier of the present invention;

FIG. 3 is a schematic structural view of the adjusting stage of the present invention for hiding all the workpieces to be processed;

fig. 4 is a partial enlarged view of fig. 3 at a.

In the figure:

100. a workpiece to be processed;

1. fixing the support component; 2. adjusting the support assembly; 3. a carrier plate; 4. a vacuum generator; 5. a vacuum degree regulating valve; 6. a vacuum detection meter; 7. a rotating assembly;

11. fixing a supporting block; 111. a first fixed air tap;

12. adsorbing the upright column; 121. a second fixed air tap;

21. adjusting the supporting block; 211. a first air adjusting nozzle;

22. a first cantilever; 221. a second air adjusting nozzle;

23. a second cantilever; 231. a first air adjusting nozzle;

24. a guide rail; 25. a first slider; 26. a second slider; 27. a locking member;

261. a support portion; 262. a sliding part; 2621. a chute; 2622. a gap;

71. a mounting frame; 72. a rotary drive source.

Detailed Description

In order to make the technical problems, technical solutions and technical effects achieved by the present invention more clear, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

The embodiment provides an adjusting carrying platform, which is suitable for the technical field of gluing of display screen terminals, wherein the following workpiece 100 to be processed specifically refers to the display screen terminals. As shown in fig. 1, the adjustment stage includes: the bearing plate 3 is of a rectangular flat plate-shaped structure, and the bearing plate 3 plays roles of intermediate connection and integral support. The length direction of the bearing plate 3 is defined as a first direction, the width direction of the bearing plate 3 is defined as a second direction, and the first direction and the second direction are perpendicular to each other, wherein the first direction and the second direction only represent the spatial direction and have no practical significance.

The bearing plate 3 is respectively provided with a fixed supporting component 1 and an adjusting supporting component 2 along a first direction, the fixed supporting component 1 is used for bearing and fixing one side of a workpiece 100 to be processed, the adjusting supporting component 2 is used for bearing and fixing the other side of the workpiece 100 to be processed, and according to the width of the workpiece 100 to be processed along a second direction, the adjusting supporting component 2 is configured to slide relative to the fixed supporting component 1, so that the distance between the adjusting supporting component 2 and the fixed supporting component 1 is adjustable.

The regulation microscope carrier that this embodiment provided is used for bearing and the fixed one side of waiting to process work piece 100 through setting up fixed stay subassembly 1, adjusts the opposite side that support subassembly 2 is used for bearing and fixes waiting to process work piece 100, and fixed stay subassembly 1 and regulation stay subassembly 2 are used for waiting to process work piece 100 jointly to bear and fix, and bearing capacity is strong, and is fixed effectual, reduces the removal of waiting to process work piece 100, guarantees to wait to process work piece 100's positional stability. According to the width of the workpiece 100 to be processed along the second direction, the adjusting support component 2 can slide relative to the fixed support component 1, so that the distance between the adjusting support component 2 and the fixed support component 1 is adjustable, the adjusting carrying platform can adapt to the workpieces 100 to be processed in various specifications, the universality is high, compared with the prior art, the bearing of the workpieces 100 to be processed in various specifications can be realized by adopting the same adjusting platform, and the production cost is effectively reduced.

Further, as shown in fig. 2, the fixed supporting assembly 1 includes a fixed supporting block 11, the fixed supporting block 11 is a rectangular parallelepiped structure, and the fixed supporting block 11 is disposed on the loading plate 3 along the first direction. The inside of fixed supporting shoe 11 is hollow structure, has seted up fixed cavity along its axial direction in the inside of fixed supporting shoe 11, has seted up first fixed air cock 111 along its direction of height on the top surface of fixed supporting shoe 11, and first fixed air cock 111 communicates in vacuum generator 4 through fixed cavity, utilizes vacuum generator 4 to extract the vacuum for fixed cavity and the inside negative pressure that produces of first fixed air cock 111, thereby the realization is treated one side of processing work piece 100 and is adsorbed.

It can be understood that the number of the first fixed air nozzles 111 is plural, the plural first fixed air nozzles 111 are arranged in parallel at intervals, and the plural first fixed air nozzles 111 are arranged in a line shape on the fixed supporting block 11 along the first direction, so that the adsorption effect on the workpiece 100 to be processed is good.

In order to further guarantee the bearing and the fixation of one side of the workpiece 100 to be processed, the fixed supporting assembly 1 comprises an adsorption upright post 12, the adsorption upright post 12 is arranged on the bearing plate 3 and located inside the fixed supporting block 11, a second fixed air nozzle 121 is arranged on the adsorption upright post 12 along the height direction of the adsorption upright post, the second fixed air nozzle 121 is communicated with the vacuum generator 4, the vacuum generator 4 is utilized to extract vacuum, so that negative pressure is generated inside the second fixed air nozzle 121, and auxiliary adsorption is realized on one side of the workpiece 100 to be processed.

It can be understood that the number of the second fixed air nozzles 121 is plural, the plurality of second fixed air nozzles 121 are arranged in parallel at intervals, and the plurality of second fixed air nozzles 121 are arranged in a linear shape along the first direction on the bearing plate 3, so that the workpiece 100 to be processed is further fixed, the workpiece 100 to be processed is grabbed effectively, and the stability of the workpiece 100 to be processed is ensured.

Further, as shown in fig. 2, the adjusting support assembly 2 includes an adjusting support block 21, the adjusting support block 21 is a rectangular parallelepiped structure, and the adjusting support block 21 is disposed on the carrier plate 3 along a first direction. The inside of adjusting supporting shoe 21 is hollow structure, has seted up the regulation cavity along its axial direction in the inside of adjusting supporting shoe 21, has seted up first regulation air cock 211 along its direction of height on the top surface of adjusting supporting shoe 21, first regulation air cock 211 communicates in vacuum generator 4 through adjusting the cavity, utilize vacuum generator 4 to extract the vacuum for adjust the inside negative pressure that produces of cavity and first regulation air cock 211, thereby the realization is treated one side of processing work piece 100 and is adsorbed.

It can be understood that the number of the first air adjustment nozzles 211 is plural, the plural first air adjustment nozzles 211 are arranged in parallel at intervals, and the plural first air adjustment nozzles 211 are arranged in a straight line along the first direction on the adjustment support block 21, so that the adsorption effect on the workpiece 100 to be processed is good.

Further, the adjusting and supporting assembly 2 further comprises a first cantilever 22 and a second cantilever 23, the first cantilever 22 and the second cantilever 23 are respectively and convexly arranged on one side of the adjusting and supporting block 21 close to the fixed supporting assembly 1, the first cantilever 22 and the second cantilever 23 are arranged in parallel at intervals, and the first cantilever 22 and the second cantilever 23 are jointly used for bearing the workpiece 100 to be processed. It is understood that the number of the first suspension arm 22 and the second suspension arm 23 is not limited in this embodiment, and it is preferable that the number of the first suspension arm 22 is four, the number of the second suspension arm 23 is two, and the second suspension arm 23 is disposed between any two adjacent first suspension arms 22. In this way, when the size of the workpiece 100 to be processed is within a certain range, the bearing of the workpiece 100 to be processed can be ensured.

Optionally, a second adjusting air nozzle 221 is disposed on the first cantilever 22 along the height direction thereof, the second adjusting air nozzle 221 is communicated with the vacuum generator 4, a third adjusting air nozzle 231 is disposed on the second cantilever 23 along the height direction thereof, the second adjusting air nozzle 221 is communicated with the vacuum generator 4, and the vacuum generator 4 is utilized to draw vacuum, so that negative pressure is generated inside the second adjusting air nozzle 221 and the third adjusting air nozzle 231, and auxiliary adsorption is realized on the other side of the workpiece 100 to be processed.

Wherein, as shown in fig. 2, vacuum generator 4 is connected in loading board 3, still is provided with vacuum degree control valve 5, vacuum detection table 6 on loading board 3, and vacuum generator 4 communicates respectively in vacuum degree control valve 5, vacuum detection table 6, through setting up vacuum degree control valve 5, realizes controlling vacuum generator 4's vacuum degree. And a vacuum detection table 6 is arranged for detecting the vacuum degree. Optionally, the first fixed air nozzle 111, the second fixed air nozzle 121, the first air adjusting nozzle 211, the second air adjusting nozzle 221 and the third air adjusting nozzle 231 are respectively matched with a corresponding vacuum switch. According to the sizes of different workpieces 100 to be processed, the vacuum switch is independently controlled, the adsorption can be carried out in different areas, and the adjusting carrier can be vacuumized in sections.

In order to realize that the adjusting support assembly 2 can slide relative to the fixed support assembly 1, as shown in fig. 3-4, the adjusting support assembly 2 further comprises a guide rail 24, a first slider 25 and a second slider 26, the guide rail 24 is arranged on the bearing plate 3 along the second direction, the first slider 25 is arranged at the bottom of the adjusting support block 21, and the first slider 25 is in sliding fit with the guide rail 24, so that the guiding effect on the adjusting support block 21 is achieved, and the smoothness in the moving process is ensured. The second sliding block 26 is arranged at the bottom of the first suspension arm 22, and the second sliding block 26 is in sliding fit with the guide rail 24, so that the guide effect on the first suspension arm 22 is achieved, and the smoothness in the moving process is ensured.

According to the specification and size of the workpiece 100 to be processed, after the first slider 25 and the second slider 26 slide along the guide rail 24 to the preset position, in order to avoid the movement of the first slider 25 and the second slider 26 at this time, the adjusting and supporting assembly 2 further includes a locking member 27, the locking member 27 is embodied as a screw with a handle, and the locking member 27 is inserted into the sliding portion 262 for locking between the second slider 26 and the guide rail 24. The width of the adjusting stage in the second direction depends on the width of the workpiece 100 to be machined, and when adjustment is required, the locking member 27 is first loosened to allow the first and second sliders 25 and 26 to slide along the guide rails 24 thereof, the positions of the first and second sliders 25 and 26 relative to the guide rails 24 are adjusted according to the size of the workpiece 100 to be machined, and then the locking member 27 is tightened to lock the adjusted positions.

Specifically, as shown in fig. 4, the second slider 26 includes a support portion 261 and a slide portion 262, and the support portion 261 and the slide portion 262 are disposed perpendicular to each other to form an L-shaped structure. The supporting portion 261 abuts on the top surface of the first slider 25, and the sliding portion 262 abuts on the side surface of the first slider 25, so that an accommodating space for accommodating the first slider 25 is formed between the supporting portion 261 and the sliding portion 262. The supporting portion 261 is located above the first slider 25 and is respectively connected to the first slider 25 and the adjusting support block 21, and the supporting portion 261 plays a role of intermediate connection, so that the moving synchronism of the first slider 25 and the second slider 26 is ensured. The sliding portion 262 is disposed on one side of the supporting portion 261 close to the fixed supporting block 11, a sliding groove 2621 is disposed on the sliding portion 262, the sliding groove 2621 is a rectangular groove, and the sliding of the second sliding block 26 is ensured by sliding fit of the sliding groove 2621 and the guide rail 24.

Further, the sliding part 262 has been seted up gap 2622 along its direction of height, through setting up gap 2622 to cut apart into two substructures with sliding part 262, make the distance between two substructures adjustable, gap 2622 has improved the removal space for two substructures, if the terminal surface of two substructures when butt each other, this position is extreme position. The sliding portion 262 is opened with a threaded hole along the first direction for the locking member 27 to pass through, and the slit 2622 is communicated with the threaded hole and the chute 2621, respectively. In this way, when the locking element 27 is screwed through the threaded hole, the distance between the two substructures is reduced, and the side wall of the chute 2621 formed by the two substructures abuts against the guide rail 24, so that the locking effect is achieved; when the locking member 27 is loosened by rotating it in the opposite direction through the threaded hole, the distance between the two sub-structures is gradually increased and the side walls of the sliding groove 2621 formed by the two sub-structures abut against the guide rail 24, thereby releasing the locking between the second slider 26 and the guide rail 24.

Further, as shown in fig. 3, the adjusting stage further includes a rotating assembly 7, the rotating assembly 7 is connected to the bottom of the bearing plate 3, and the rotating assembly 7 can drive the bearing plate 3 to rotate. The angle adjustment of the adjusting carrier is realized by arranging the rotating assembly 7.

Specifically, the rotating assembly 7 includes a mounting bracket 71 and a rotary drive source 72, the mounting bracket 72 is disposed below the bearing plate 3, the mounting bracket 72 is used for bearing and fixing the rotary drive source 72, the rotary drive source 72 is specifically a DD motor, an output end of the rotary drive source 72 is connected to the bearing plate 3, and the rotary drive source 72 can drive the bearing plate 3 to rotate 180 degrees, so as to adjust the angle of the workpiece 100 to be processed.

The working process of the adjusting carrier provided by this embodiment is as follows:

when adjustment is required, the locking member 27 is first released to allow the first and second sliders 25 and 26 to slide along the guide rails 24 thereof, the positions of the first and second sliders 25 and 26 with respect to the guide rails 24 are adjusted according to the size of the workpiece 100 to be machined, and then the locking member 27 is tightened to lock the adjusted positions.

The rotary driving source 72 can drive the bearing plate 3 to rotate 180 degrees, so as to adjust the angle of the workpiece 100 to be processed.

In the description herein, it is to be understood that the terms "upper", "lower", "right", and the like are used in an orientation or positional relationship based on that shown in the drawings for convenience of description and simplicity of operation, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used merely for descriptive purposes and are not intended to have any special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

In addition, the foregoing is only the preferred embodiment of the present invention and the technical principles applied thereto. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. An adjustable stage, comprising:

a carrier plate (3);

the fixed support assembly (1) is arranged on the bearing plate (3) along a first direction, and the fixed support assembly (1) is used for bearing and fixing one side of a workpiece (100) to be processed;

the adjusting and supporting assembly (2) is arranged on the bearing plate (3) along the first direction, the adjusting and supporting assembly (2) is used for bearing and fixing the other side of the workpiece (100) to be processed, the adjusting and supporting assembly (2) is configured to slide relative to the fixed and supporting assembly (1) according to the width of the workpiece (100) to be processed along the second direction, so that the distance between the adjusting and supporting assembly (2) and the fixed and supporting assembly (1) is adjustable, and the first direction and the second direction are perpendicular to each other.

2. The adjustable carrier as claimed in claim 1, wherein the fixed support assembly (1) comprises a fixed support block (11), the fixed support block (11) is disposed on the carrier plate (3) along the first direction, a first fixed air nozzle (111) is disposed on the fixed support block (11), and the first fixed air nozzle (111) is connected to the vacuum generator (4) for absorbing the workpiece (100) to be processed.

3. The adjustment stage as claimed in claim 2, characterized in that the fixed support assembly (1) comprises an absorption column (12), the absorption column (12) is disposed on the carrier plate (3), a second fixed air nozzle (121) is disposed on the absorption column (12), and the second fixed air nozzle (121) is connected to the vacuum generator (4) for absorbing the workpiece (100) to be processed.

4. The adjusting carrier as claimed in claim 1, wherein the adjusting support assembly (2) comprises an adjusting support block (21), the adjusting support block (21) is disposed on the carrier plate (3) along the first direction and is parallel to the fixed support assembly (1), a first adjusting air nozzle (211) is disposed on the adjusting support block (21), and the first adjusting air nozzle (211) is communicated with the vacuum generator (4) for absorbing the workpiece (100) to be processed.

5. Adjusting stage according to claim 4, characterized in that the adjusting support assembly (2) further comprises:

the first cantilever (22) is convexly arranged on one side of the adjusting supporting block (21) close to the fixed supporting component (1);

the second cantilever (23) is convexly arranged on one side, close to the fixed supporting component (1), of the adjusting supporting block (21) and is arranged in parallel with the first cantilever (22) at intervals, and the first cantilever (22) and the second cantilever (23) are jointly used for bearing the workpiece (100) to be machined.

6. Adjusting stage according to claim 5, characterized in that the adjusting support assembly (2) further comprises:

a guide rail (24) arranged on the carrier plate (3) along the second direction;

the first sliding block (25) is arranged at the bottom of the adjusting supporting block (21) and is in sliding fit with the guide rail (24);

and the second sliding block (26) is arranged at the bottom of the first suspension arm (22) and is in sliding fit with the guide rail (24).

7. The adjustment stage of claim 6, characterized in that the second slide (26) comprises:

a support portion (261) located above the first slider (25) and connected to the first slider (25) and the adjustment support block (21), respectively;

and the sliding part (262) is arranged on the supporting part (261), a sliding groove (2621) is formed in the sliding part (262), and the sliding groove (2621) is in sliding fit with the guide rail (24).

8. Adjusting stage according to claim 7, characterized in that the adjusting support assembly (2) further comprises a locking member (27), the locking member (27) being arranged through the sliding portion (262) for locking between the second slide (26) and the guide rail (24).

9. The adjustment stage as set forth in claim 8, characterized in that the slide portion (262) is provided with a slit (2622) along a height direction thereof, the slide portion (262) is provided with a screw hole along the first direction for the lock member (27) to pass through, and the slit (2622) is communicated with the screw hole and the chute (2621), respectively.

10. Adjusting stage according to claim 1, characterized in that it further comprises a rotating assembly (7), wherein the rotating assembly (7) is connected to the bottom of the carrier plate (3), and the rotating assembly (7) can drive the carrier plate (3) to rotate.

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