CN216829546U - Automatic locking or loosening jig cover plate device - Google Patents

Abstract

The utility model discloses an automatic locking or loosen tool apron device, include: the cover plate pressing mechanism is opposite to the automatic cover plate locking or loosening mechanism; the automatic locking or unlocking cover plate mechanism comprises a fortieth supporting frame, a forty Z shaft driving assembly arranged on the fortieth supporting frame, a mold handle clamping and rotating mechanism arranged on the fortieth supporting frame and arranged below the forty Z shaft driving assembly, two fortieth rotating mechanisms arranged at the output ends of the forty Z shaft driving assembly, a fortieth distance-changing assembly arranged at the output end of each fortieth rotating mechanism, and a mechanical clamp arranged on the fortieth distance-changing assembly. The utility model replaces manual operation with machinery, saves time and labor, has high working efficiency, saves labor cost, can loosen or lock the die cover plate, and is convenient and practical; the forty-th variable pitch component occupies small space, has high stability, reduces the manufacturing cost and has high speed; the impact of the motion part can be effectively buffered by the design of the fortieth buffering supporting rod, and the service life is influenced.

Description

Automatic locking or loosening jig cover plate device

Technical Field

The utility model relates to an automation equipment technical field, in particular to automatic locking or loosen tool apron device.

Background

With the rapid development of the existing automation technology, the application range of the automation production equipment in different fields is gradually deepened, and in the traditional manufacturing industry, in order to improve the traditional single production mode, the automation production equipment is increasingly adopted for production. At present, when going up the tool apron, loosen or lock through the manual work, waste time and energy, work efficiency is low, and the human cost is higher.

SUMMERY OF THE UTILITY MODEL

To the problem that prior art exists, the utility model provides an automatic locking or loosen tool apron device.

In order to achieve the above purpose, the utility model discloses technical scheme as follows:

an automatic locking or loosening jig cover plate device, comprising: the cover plate pressing mechanism is opposite to the automatic cover plate locking or loosening mechanism;

the automatic locking or unlocking cover plate mechanism comprises a fortieth supporting frame, a forty Z-axis driving assembly arranged on the fortieth supporting frame, a mold handle clamping and rotating mechanism arranged on the fortieth supporting frame and arranged below the forty Z-axis driving assembly, two fortieth rotating mechanisms arranged at the output ends of the forty Z-axis driving assembly, a fortieth distance-changing assembly arranged at the output end of each fortieth rotating mechanism, and a mechanical clamp arranged on the fortieth distance-changing assembly;

the mold handle clamping and rotating mechanism comprises a fortieth driving module, two fortieth rotating mechanisms arranged at the output end of the fortieth driving module, and a fortieth clamping and rotating hand arranged at the output end of each fortieth rotating mechanism;

the mechanical clamp comprises a fortieth driving mechanism, a fortieth sliding assembly, a fortieth jacking assembly arranged at the output end of the fortieth driving mechanism, a forty left cam plate and a forty right cam plate which are arranged on the fortieth jacking assembly, and two fortieth clamping jaws arranged on the forty left cam plate and the forty right cam plate; and the forty-fourth left cam plate and the forty-fourth right cam plate are respectively in sliding connection with a forty-fourth sliding assembly.

Preferably, the forty Z-th axis driving unit includes a forty Z-th axis driving cylinder, a forty first sliding unit, a forty sliding plate disposed on the forty first sliding unit, a forty buffer plate mounted on the forty sliding plate, and two forty buffer mechanisms disposed at upper and lower ends of the forty buffer plate.

Preferably, each forty-fourth rotating mechanism comprises a forty-fourth rotating cylinder, and a forty-fourth mounting seat arranged below the forty-fourth rotating cylinder; the fortieth rotary cylinder and the fortieth mounting seat are both arranged on the fortieth sliding plate.

Preferably, the forty-fourth pitch assembly comprises a forty-fourth track plate, a forty-second slide assembly, a forty-fourth rotating plate, a forty-fourth bearing and a forty-third slide assembly; the fortieth track board is installed at the upper end part of the fortieth installation seat; the forty-second sliding assembly is arranged at the lower end of a forty-mounting seat; a fortieth cam notch is formed in each of two sides of the fortieth track plate; one end of the forty-fourth rotating plate is arranged at the output end of the forty-fourth rotating cylinder, and the other end of the forty-fourth rotating plate is arranged at a forty-fourth cam groove port through a forty-fourth bearing; the forty-third sliding assembly is in sliding connection with the forty-second sliding assembly and is mounted on a forty-bearing.

Preferably, the mechanical clip is provided on a forty-third slide assembly; the forty-th driving mechanism is set as a forty-th driving cylinder; the forty-fourth jacking assembly is set as a forty-fourth jacking plate.

Preferably, the cover plate pressing mechanism comprises a fortieth supporting seat, a forty-first driving air cylinder and a forty-fifth sliding assembly which are arranged on the fortieth supporting seat, and a forty pressing block which is in sliding connection with the forty-fifth sliding assembly; and the output end of the forty-first driving air cylinder is connected with a forty-second pressing block.

Preferably, the forty-first driving module comprises a forty-second driving cylinder, two forty-sixth sliding assemblies arranged oppositely, a forty-first sliding seat connected with the two forty-sixth sliding assemblies in a sliding manner, two forty-first buffer mechanisms arranged on the forty-first sliding seat, a forty-second limit stop opposite to each forty-first buffer mechanism, and a forty-second buffer mechanism arranged on two sides of the forty-second driving cylinder and opposite to the forty-first sliding seat; and the output end of the forty-second driving air cylinder is connected with a forty-fourth sliding seat.

Preferably, the forty-first rotating mechanism is a forty-first rotating cylinder, and the forty-first rotating cylinder is disposed on a forty-fourth sliding seat.

Preferably, each of the forty-fourth sliding assembly, the forty-first sliding assembly, the forty-second sliding assembly, the forty-third sliding assembly, the forty-fifth sliding assembly and the forty-sixth sliding assembly includes a sliding track and a sliding small block disposed on the sliding track.

Preferably, the forty-fourth buffer mechanisms, the forty-first buffer mechanisms, and the forty-second buffer mechanisms are each a forty-fourth buffer strut.

Adopt the technical scheme of the utility model, following beneficial effect has: the utility model replaces manual operation with machinery, saves time and labor, has high working efficiency, saves labor cost, can loosen or lock the die cover plate, and is convenient and practical; the forty-th variable pitch component occupies small space, has high stability, reduces the manufacturing cost and has high speed; the impact of a moving part can be effectively buffered by the design of the forty-th buffering support rod, so that the service life is influenced; the cover plate pressing mechanism is convenient to loosen or lock the cover plate, and is convenient and practical.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a rear view of the structure of the present invention;

fig. 3 is a first structural schematic diagram of the automatic locking or unlocking cover plate mechanism of the present invention;

fig. 4 is a second structural schematic view of the automatic locking or unlocking mechanism of the present invention;

FIG. 5 is a schematic view of a portion of the cover mechanism for automatically locking and unlocking the cover;

fig. 6 is a schematic view of a part of the structure of the mold handle clamping and rotating mechanism of the present invention;

fig. 7 is a schematic structural view of the cover plate pressing mechanism of the present invention;

in the figure: a forty-Z axis drive unit 681, a forty-Z axis drive cylinder 681a, a forty-first slide unit 681b, a forty-sliding plate 681c, a forty-buffering plate 681d, two forty-buffering mechanisms 681e, two forty-rotating mechanisms 682, a forty-rotating cylinder 682a, a forty-mounting seat 682b, a slide mechanism, and a slide mechanism,

A forty-fourth pitch assembly 683, a forty-fourth track plate 683a, a forty-second sliding assembly 683b, a forty-fourth rotating plate 683c, a forty-fourth bearing 683d, a forty-third sliding assembly 683e,

Mechanical clip 684, a fortieth drive mechanism 684a, a fortieth slide assembly 684b, a fortieth lift assembly 684c, a forty left and forty right cam plates 684d, two fortieth jaws 684e,

A mold handle clamping and rotating mechanism 685, a forty-second driving cylinder 685a, a forty-sixth sliding assembly 685b, a forty-sliding seat 685c, two forty-first buffer mechanisms 685d, a forty-limit stop 68e, a forty-first rotating mechanism 685f, a forty-clamping and rotating hand 685g, a forty-second buffer mechanism 685h, a cover plate pressing mechanism 686, a forty-supporting seat 686a, a forty-first driving cylinder 686b, a forty-fifth sliding assembly 686c, a forty-pressing block 686d and a forty-supporting seat 687.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present invention, unless expressly stated or limited otherwise, the first feature "on" or "is connected to" the second feature

"under" may include the first and second features being in direct contact, and may also include the first and second features not being in direct contact, but being in contact with each other through additional features between them. 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. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature.

Referring to fig. 1 to 7, the utility model provides an automatic locking or loosening tool apron device, include: a cover plate pressing mechanism 686 which is opposite to the cover plate automatic locking or loosening mechanism;

the automatic locking or unlocking mechanism for the cover plate comprises a forty-first supporting frame 687, a forty-Z-first shaft driving component 681 arranged on the forty-first supporting frame 687, a mold handle clamping and rotating mechanism 685 arranged on the forty-first supporting frame 687 and positioned below the forty-Z-first shaft driving component 681, two forty-first rotating mechanisms 682 arranged at the output ends of the forty-Z-first shaft driving component 681, a forty-second distance varying component 683 arranged at the output end of each forty-first rotating mechanism 682, and a mechanical clamp 684 arranged on the forty-second distance varying component 683; the mold handle clamping and rotating mechanism 685 comprises a fortieth driving module, two fortieth rotating mechanisms 685f arranged at the output end of the fortieth driving module, and a fortieth clamping and rotating hand 685g arranged at the output end of each forty-first rotating mechanism 685 f; the mechanical clips 684 include a forty-first drive mechanism 684a, a forty-second slide assembly 684b, a forty-second lift assembly 684c disposed at an output of the forty-first drive mechanism 684a, forty-first and forty-second cam plates 684d disposed on the forty-second lift assembly 684c, and two forty-second jaws 684e disposed on the forty-first and forty-second cam plates 684 d; the forty-fourth left cam plate and the forty-fourth right cam plate 684d are each slidably connected to a forty-fourth slide assembly 684 b.

Referring to fig. 2 to 5, in this embodiment, a forty Z axis driving cylinder 681a is mounted on a top plate of a forty support frame 687, a number of forty first sliding assemblies 681b is 2, the forty first sliding assemblies 681b are mounted on both sides of the forty support frame 687 and disposed below the forty Z axis driving cylinder 681a, each forty first sliding assembly 681b includes a forty first sliding rail and two forty first sliding small blocks disposed on the forty first sliding rail, a forty sliding plate 681c is mounted on the forty first sliding small block, and the operation principle of the forty Z axis driving assembly 681 is as follows: the forty Z axis driving cylinder 681a drives to drive the forty sliding plate 681c to move up and down along the forty first sliding unit 681b, so as to drive the two forty rotating mechanisms 682 mounted on the forty sliding plate 681c to move, and the two forty buffering mechanisms 681e are designed to play a role in buffering; the forty Z-th axis driving unit 681 includes a forty Z-th axis driving cylinder 681a, a forty-first sliding unit 681b, a forty-fourth sliding plate 681c provided on the forty-first sliding unit 681b, a forty-fourth buffer plate 681d mounted on an end of the forty-fourth sliding plate 681c, and two forty-fourth buffer mechanisms 681e provided at upper and lower ends of the forty-fourth buffer plate 681 d; the forty-fourth buffer mechanisms 681e are arranged as forty-fourth buffer struts, wherein one forty-fourth buffer strut is mounted on the top plate of a forty-fourth support frame 687, the other forty-fourth buffer strut 681e is arranged on the forty-fourth support frame 687 through a connecting plate, and the two forty-fourth buffer struts are arranged oppositely.

Referring to fig. 3 to 5, in this embodiment, two forty-third rotating cylinders 682a are arranged side by side, and when the forty-third rotating cylinder 682a is driven, the forty-third rotating plate 683c is driven to rotate along the forty-third cam notch, so as to drive the forty-third sliding assembly 683e to move, and thus the mechanical clip 684 installed on the forty-third sliding assembly 683e is driven to move; each forty-first rotating mechanism 682 comprises a forty-first rotating cylinder 682a, a forty-second mounting seat 682b arranged below the forty-first rotating cylinder 682 a; the forty-th rotary cylinder 682a and the forty-th mounting base 682b are both mounted on a forty-th sliding plate 681 c. In this embodiment, the forty-second sliding assembly 683b comprises a forty-second sliding track and two forty-second sliding small blocks arranged on the forty-second sliding track; the forty-third sliding assembly 683e comprises a forty-third sliding track and two forty-third sliding small blocks arranged on the forty-third sliding track, wherein the forty-second sliding track is arranged on the forty-fourth mounting seat 682b, and the two forty-third sliding small blocks are arranged on the forty-second sliding small blocks through a fixing plate; the forty-fourth pitch assembly 683 comprises a forty-fourth track plate 683a, a forty-second sliding assembly 683b, a forty-fourth rotating plate 683c, a forty-fourth bearing 683d and a forty-third sliding assembly 683 e; the fortieth track board 683a is installed at the upper end part of a fortieth installation seat 682 b; the forty-second sliding assembly 683b is arranged at the lower end part of the forty-second mounting seat 682 b; both sides of the fortieth track plate 683a are provided with fortieth cam notches; a forty-fourth rotating plate 683c is arranged at the output end of the forty-fourth rotating cylinder 682a at one end and at the forty-fourth cam groove port through a forty-fourth bearing 683d at the other end; the forty-third sliding component 683e is slidably connected with the forty-second sliding component 683b and is mounted on a forty-fourth bearing.

Referring to fig. 3 to 5, in the present embodiment, the forty-first driving mechanism 684a is mounted on the forty-third sliding rail through a mounting plate, the first sliding rail of the forty-first sliding assembly 684b is mounted at the bottom of the mounting plate, the forty-first left cam plate and the forty-second right cam plate 684d are mounted on the forty-first jacking assembly 684c through shafts, the forty-first left cam plate and the forty-second right cam plate 684d are both provided with cam groove openings, and the corresponding shafts are disposed in the cam groove openings; the mechanical clip 684 operates on the principle: the fortieth driving cylinder drives the fortieth jacking assembly 684c to move along the opening of the cam groove, so that the fortieth left cam plate and the fortieth right cam plate 684d are driven to move on the fortieth sliding assembly 684b, the fortieth clamping jaws 684e are driven to move to clamp the handle 400 of the mold (the handle 400 can be folded), and the jig cover plate is locked or loosened; the mechanical clip 684 is disposed on the forty-third slide assembly 683 e; the forty-first driving mechanism 684a is provided as a forty-first driving cylinder; the forty-fourth jacking assembly 684c is provided as a forty-fourth jacking plate; the fortieth slide assembly 684b includes a first slide rail, and two first slide nubs disposed on the first slide rail.

Referring to fig. 2 and 6, in the present embodiment, the forty-sixth sliding assembly 685b includes a forty-sixth sliding rail and forty-sixth sliding small blocks disposed on the forty-sixth sliding rail, and the forty-sixth sliding assemblies 685b and the forty-fourth limit stops 68e are both mounted on the forty-support frame 687; the working principle of the mold handle clamping and rotating mechanism 685 is as follows: the forty-second driving cylinder 685a drives the forty-second sliding seat 685c to move along the forty-sixth sliding assembly 685b, so as to drive the forty-first rotating mechanism 685f installed on the forty-second sliding seat 685c to move, and when the tool handle 400 is moved, the forty-first rotating mechanism 685f drives the forty-second clamping rotating hand 685g to flatten the tool handle 400; the forty-fourth driving module comprises a forty-second driving cylinder 685a, two forty-sixth sliding assemblies 685b arranged oppositely, forty-fourth sliding seats 685c connected with the two forty-sixth sliding assemblies 685b in a sliding manner, two forty-first cushion mechanisms 685d arranged on the forty-fourth sliding seats 685c, a forty-limit stop 68e opposite to each forty-first cushion mechanism 685d, and a forty-second cushion mechanism 685h arranged on both sides of the forty-second driving cylinder 685a and opposite to the forty-fourth sliding seat 685 c; the output end of the forty-second driving cylinder 685a is connected with a forty-second sliding seat 685 c. Both the forty-first cushion mechanisms 685d and the forty-second cushion mechanisms 685h are forty-second cushion struts; the forty-first rotation mechanism 685f is a forty-first rotation cylinder provided on the forty-first sliding seat 685 c.

Referring to fig. 7, in this embodiment, a forty-first driving cylinder 686b is disposed at the top of a forty-first supporting seat 686a, a forty-fifth sliding assembly 686c is mounted below the forty-first driving cylinder 686b, a forty-fifth pressing block 686d is slidably connected with the forty-fifth sliding small block, and the working principle of the cover plate pressing mechanism 686 is as follows: the forty-first driving cylinder 686b drives the forty-fifth pressing block 686d to move along the forty-fifth sliding track of the forty-fifth sliding assembly 686c to press the jig cover plate below, so that the forty-fifth clamping jaws 684e of the mechanical clamps 684 can clamp the handle 400 of the jig to lock or loosen the jig cover plate; the cover plate pressing mechanism 686 comprises a forty-first supporting seat 686a, a forty-first driving cylinder 686b and a forty-fifth sliding assembly 686c which are arranged on the forty-first supporting seat 686a, and a forty-second pressing block 686d in sliding connection with the forty-fifth sliding assembly 686 c; the output end of the forty-first driving cylinder 686b is connected with a forty-second pressing block 686 d; the forty-fifth slide assembly 686c includes a forty-fifth slide rail and a forty-fifth slide nub disposed on the forty-fifth slide rail.

The utility model discloses the theory of operation as follows:

in operation, the operation principle of the forty-Z axis driving assembly 681 is as follows: a forty Z axis driving cylinder 681a drives the forty sliding plate 681c to move up and down along the forty first sliding unit 681b, thereby driving the two forty rotating mechanisms 682 mounted on the forty sliding plate 681c to move;

when the forty-first rotating cylinder 682a of the forty-first rotating mechanism 682 is driven, the forty-first rotating plate 683c is driven to rotate along the forty-first cam notch, and then the forty-third sliding component 683e is driven to move, so that the mechanical clamp 684 arranged on the forty-third sliding component 683e is driven to move;

the mechanical clip 684 operates on the principle: the fortieth driving mechanism 684a drives the fortieth jacking assembly 684c to move along the opening of the cam groove, so that the fortieth cam plate and the fortieth cam plate 684d are driven to move on the fortieth sliding assembly 684b, and the fortieth clamping jaws 684e are driven to move to clamp the handle 400 of the mold (the handle 400 can be folded), and the jig cover plate is locked or unlocked;

the working principle of the cover plate pressing mechanism 686 is as follows: the forty-first driving cylinder 686b drives the forty-fifth pressing block 686d to move along the forty-fifth sliding component 686c to press the jig cover plate below, so that the forty-fourth clamping jaws 684e of the mechanical clamps 684 can conveniently grip the handles 400 of the jigs to lock or loosen the jig cover plate;

the working principle of the mold handle clamping and rotating mechanism 685 is as follows: the forty-second driving cylinder 685a drives the forty-second sliding seat 685c to move along the forty-sixth sliding assembly 685b, so as to drive the forty-first rotating mechanism 685f installed on the forty-second sliding seat 685c to move, and when the tool handle 400 is moved, the forty-first rotating mechanism 685f drives the forty-second clamping rotating handle 685g to flatten the tool handle 400.

The above only be the preferred embodiment of the utility model discloses a not consequently restriction the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform of what the content was done in the description and the attached drawing, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. The utility model provides an automatic locking or loosen tool apron device which characterized in that includes: the cover plate pressing mechanism is opposite to the automatic cover plate locking or loosening mechanism;

the automatic locking or unlocking cover plate mechanism comprises a fortieth supporting frame, a forty Z-axis driving assembly arranged on the fortieth supporting frame, a mold handle clamping and rotating mechanism arranged on the fortieth supporting frame and arranged below the forty Z-axis driving assembly, two fortieth rotating mechanisms arranged at the output ends of the forty Z-axis driving assembly, a fortieth distance-changing assembly arranged at the output end of each fortieth rotating mechanism, and a mechanical clamp arranged on the fortieth distance-changing assembly;

the mold handle clamping and rotating mechanism comprises a fortieth driving module, two fortieth rotating mechanisms arranged at the output end of the fortieth driving module, and a fortieth clamping and rotating hand arranged at the output end of each fortieth rotating mechanism;

the mechanical clamp comprises a fortieth driving mechanism, a fortieth sliding assembly, a fortieth jacking assembly arranged at the output end of the fortieth driving mechanism, a forty left cam plate and a forty right cam plate which are arranged on the fortieth jacking assembly, and two fortieth clamping jaws arranged on the forty left cam plate and the forty right cam plate; and the forty-fourth left cam plate and the forty-fourth right cam plate are respectively in sliding connection with a forty-fourth sliding assembly.

2. The automatic locking or unlocking device for the cover plate of the jig according to claim 1, wherein the forty Z axis driving means comprises a forty Z axis driving cylinder, a forty first sliding means, a forty sliding plate disposed on the forty first sliding means, a forty buffer plate mounted on the forty sliding plate, and two forty buffer mechanisms disposed at the upper end and the lower end of the forty buffer plate.

3. The automatic locking or unlocking device for the cover plate of the jig according to claim 2, wherein each of the forty-fourth rotating mechanisms includes a forty-fourth rotating cylinder, a forty-fourth mounting seat disposed below the forty-fourth rotating cylinder; the fortieth rotary cylinder and the fortieth mounting seat are both arranged on the fortieth sliding plate.

4. The automatic locking or unlocking jig cover device according to claim 3, wherein the forty-fourth distance varying assembly comprises a forty-fourth track plate, a forty-second sliding assembly, a forty-fourth rotating plate, a forty-fourth bearing and a forty-third sliding assembly; the fortieth track board is installed at the upper end part of the fortieth installation seat; the forty-second sliding assembly is arranged at the lower end of a forty-mounting seat; a fortieth cam notch is formed in each of two sides of the fortieth track plate; one end of the forty-fourth rotating plate is arranged at the output end of the forty-fourth rotating cylinder, and the other end of the forty-fourth rotating plate is arranged at a forty-fourth cam groove port through a forty-fourth bearing; the forty-third sliding assembly is in sliding connection with the forty-second sliding assembly and is mounted on a forty-bearing.

5. The automatic locking or unlocking jig cover device according to claim 4, wherein the mechanical clip is provided on a forty-third slide assembly; the forty-th driving mechanism is set as a forty-th driving cylinder; the forty-fourth jacking assembly is set as a forty-fourth jacking plate.

6. The automatic locking or unlocking device for the cover plate of the jig according to claim 5, wherein the cover plate pressing mechanism comprises a forty-fourth supporting seat, a forty-first driving cylinder and a forty-fifth sliding assembly which are arranged on the forty-fourth supporting seat, and a forty-fourth pressing block which is slidably connected with the forty-fifth sliding assembly; and the output end of the forty-first driving air cylinder is connected with a forty-second pressing block.

7. The automatic locking or unlocking device for the cover plate of the jig according to claim 6, wherein the forty-fourth driving module comprises a forty-second driving cylinder, two forty-sixth sliding assemblies arranged oppositely, a forty-fourth sliding seat connected with the two forty-sixth sliding assemblies in a sliding manner, two forty-first buffer mechanisms arranged on the forty-fourth sliding seat, a forty-fourth limit stop block opposite to each forty-first buffer mechanism, and forty-second buffer mechanisms arranged on two sides of the forty-second driving cylinder and opposite to the forty-fourth sliding seat; and the output end of the forty-second driving air cylinder is connected with a forty-fourth sliding seat.

8. The apparatus of claim 7, wherein the forty-first rotating mechanism is a forty-first rotating cylinder, and the forty-first rotating cylinder is disposed on the forty-second sliding seat.

9. The automatic locking or unlocking device for the cover plate of the jig of claim 7, wherein the forty-fourth sliding assembly, the forty-first sliding assembly, the forty-second sliding assembly, the forty-third sliding assembly, the forty-fifth sliding assembly and the forty-sixth sliding assembly each comprise a sliding track and a sliding small block arranged on the sliding track.

10. The apparatus of claim 7, wherein the forty-fourth buffer mechanisms, the forty-first buffer mechanisms and the forty-second buffer mechanisms are respectively configured as a forty-fourth buffer strut.

Images