CN215323679U - Convenient specification book case device of transferring - Google Patents

Abstract

The utility model discloses a convenient specification-adjusting folding box device, which comprises: the lifting mechanism comprises a lifting part frame and a lifting adjusting assembly, and the lifting adjusting assembly is used for enabling the lifting part frame to move in the Z-axis direction relative to the rack and to be locked and fixed; the width adjusting mechanism comprises two transverse moving frames which are arranged on a lifting part frame in a sliding mode at intervals, a locking fixing component and a scale component are arranged between each transverse moving frame and the lifting part frame, the locking fixing component is used for locking and fixing the relative position between the transverse moving frame and the lifting part frame, the box folding mechanism comprises two box folding components, the two box folding components are respectively arranged on the two transverse moving frames, each box folding component comprises a box folding frame which is arranged on the transverse moving frame in a turnover mode and a box folding driving unit which is in transmission connection with the box folding frames, and the carton folding mechanism can be used for folding cartons with different sizes and specifications.

Description

Convenient specification book case device of transferring

Technical Field

The utility model relates to the technical field of packaging, in particular to a folding box device convenient for specification adjustment.

Background

Along with the rapid development of the domestic automation market, the requirements on finished product packaging machines in the fields of ceramic tiles and the like are higher and higher, and because the types of the ceramic tiles are multiple, the packaging machine with single traditional specification can not meet the requirements of most enterprises, so that the compatibility of the ceramic tile packaging machine is required to be high, and the space requirement and the equipment cost expenditure of the enterprises are reduced.

The technology is mainly used for optimizing and upgrading the box folding station of the packaging machine so as to improve the convenience of adjusting the specification of the whole machine and improve the automation degree of equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a folding box device convenient for specification adjustment, which is used for solving one or more technical problems in the prior art and at least provides a beneficial selection or creation condition.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a conveniently transfer specification bellows device, conveniently transfer specification bellows device has mutually orthogonal X axle, Y axle and Z axle, conveniently transfer specification bellows device includes: the lifting mechanism comprises a lifting part frame and a lifting adjusting assembly, and the lifting adjusting assembly is used for enabling the lifting part frame to move in the Z-axis direction relative to the rack and to be locked and fixed; the width adjusting mechanism comprises two transverse moving frames which are arranged on a lifting part frame in a sliding mode at intervals along the X axial direction, the transverse moving frames are arranged on the lifting part frame in a sliding mode in the X axial direction relative to the lifting part frame, a locking fixing component and a scale component are arranged between each transverse moving frame and the lifting part frame, the locking fixing component is used for locking and fixing the relative position between the transverse moving frame and the lifting part frame, the scale component comprises scale battens which extend along the X axial direction and pointers which correspond to the scale battens, and the scale battens and the pointers are fixed on the lifting part frame and the transverse moving frames respectively; the folding box mechanism comprises two folding box components which are respectively arranged on the two transverse moving frames, the folding box components comprise folding box frames which are arranged on the transverse moving frames in a turnover mode and folding box driving units which are connected with the folding box frames in a transmission mode, the folding box frames are provided with folding box turnover axes which are arranged along the Y-axis in an extending mode, and the folding box driving units drive the folding box frames to wind the folding box turnover axes to rotate.

The utility model has the beneficial effects that: when the folding boxes of the cartons with different sizes and specifications are folded and sealed, the lifting part frame is used for moving in the Z axial direction and locking and fixing the lifting part frame relative to the rack, so that the height of the two folding box frames in the Z axial direction is adjusted, the corresponding locking and fixing assemblies are loosened, the position of the corresponding transverse moving frame in the X axial direction is adjusted, the position of the corresponding folding box assembly in the X axial direction is adjusted, meanwhile, accurate adjustment is performed according to position indication between the pointer and the scale lath, so that the width distance of the two folding box assemblies in the X axial direction and the position of each folding box assembly in the X axial direction are adjusted, the folding box frame corresponding to each folding box driving unit after adjustment rotates around the corresponding folding box turnover axis, and therefore the folding boxes of the cartons with different sizes and specifications are folded.

As a further improvement of the above technical solution, the lifting part frame includes two lifting frame bodies, the two lifting frame bodies are arranged at intervals along the Y axial direction, the two traversing frames are arranged between the two lifting frame bodies, the two traversing frames are connected with the two lifting frame bodies in a sliding manner, the lifting adjusting assembly includes two lifting adjusting units, the two lifting adjusting units are in one-to-one correspondence with the two lifting frame bodies, the lifting adjusting units include a fixing frame which is relatively fixedly arranged with the frame, a lifting screw rod which extends along the Z axial direction, and a lifting nut seat which is fixedly connected with the lifting frame bodies, the lifting screw rod can be rotatably installed on the fixing frame around the lifting screw rod, the lifting frame bodies can be connected with the fixing frame along the Z axial direction in a sliding manner, and the lifting screw rod is in threaded transmission connection with the lifting nut seat.

The lift portion frame in this scheme is for dividing the body structure, and it divide into two lift support bodies, and falls the adjusting part and drive two lift support bodies respectively through two lift adjustment unit and go up and down, specifically, the lift adjustment unit of this scheme adopts the screw-thread fit of lift lead screw and lift nut seat, and one comes when rotating the lift lead screw, can drive the lift frame body relative to the mount Z endwise slip, and two accessible lift lead screw realizes locking fixedly with the screw-thread fit of lift nut seat.

As a further improvement of the technical scheme, a guide rod which extends along the Z-axis direction is fixed on the fixing frame, the lifting frame body is connected with the guide rod in a sliding manner, and one end of the lifting screw rod is connected with a lifting hand wheel.

This scheme rotates the lift lead screw through the lifting hand wheel, and the operation of being convenient for, the lifting frame body and guide bar sliding fit can improve lifting frame body elevating movement's stability simultaneously.

As a further improvement of the technical scheme, the lifting frame body is provided with a locking screw hole, the locking screw hole is in threaded connection with a locking screw, and the inner end of the locking screw penetrates through the locking screw hole from outside to inside and then is abutted to the guide rod. After the height of the lifting frame body is adjusted, the locking screw can be screwed, and the relative position of the lifting frame body and the fixing frame is further locked and fixed. Wherein the locking screw can adopt a handle type screw.

As a further improvement of the technical scheme, the two lifting frame bodies are provided with slide rails which extend along the X axial direction, and two sides of the transverse moving frame are respectively connected with the two slide rails in a sliding manner.

When the positions of the two transverse moving frames in the X axial direction are adjusted, the locking fixing components are loosened, the corresponding transverse moving frames can be pushed to slide along the sliding rails, and the locking fixing components are locked after the adjustment is finished.

As a further improvement of the technical scheme, the locking fixing assembly comprises a locking rack fixed on the lifting frame body, a locking gear and a locking bolt, the locking gear and the locking bolt are arranged on the cross sliding frame, the locking rack extends along the X axial direction, a central locking hole is formed in the center of the locking gear, the locking bolt penetrates through the central locking hole to be in threaded connection with the cross sliding frame, and the locking gear is meshed with the locking rack.

According to the scheme, the locking and fixing effects are achieved through the meshing of the locking rack and the locking gear, specifically, when the cross sliding frame needs to be adjusted, the locking bolt is unscrewed, and the locking gear can move on the locking rack; when the cross sliding frame needs to be locked, the locking bolt is screwed down, locking and fixing are achieved through the meshing of the locking gear and the locking rack, and therefore the locking rack can be locked without gaps and cannot shake.

As a further improvement of the above technical solution, the locking fixing assembly includes two locking racks, two locking gears, two locking bolts, two locking racks are respectively fixed on the two lifting frame bodies, and two locking gears are respectively arranged on two sides of the traversing frame which are arranged at intervals along the Y axis direction.

In order to improve the stability of locking and fixing, the scheme is that two locking gears are arranged on each transverse moving frame for locking and fixing.

As a further improvement of the technical scheme, the folding box driving unit comprises a folding box driving cylinder, one end of the folding box driving cylinder is hinged to the folding box frame, a hinge axis at the hinged position between one end of the folding box driving cylinder and the folding box frame is eccentrically arranged with a turnover axis of the folding box, and the other end of the folding box driving cylinder is hinged to the transverse moving frame.

This scheme drives actuating cylinder through the bellows and drives the bellows frame around the action of bellows upset axis rotates, realizes the bellows.

As a further improvement of the technical scheme, the transverse moving frame comprises a first cross beam, a second cross beam and an oblique beam, wherein the first cross beam and the second cross beam are respectively arranged along the X axial direction in an extending way, the oblique beam is obliquely arranged along the Y axial direction, two ends of the oblique beam are respectively connected with one end of the first cross beam and one end of the second cross beam, the first cross beam and the second cross beam are arranged on the same side of the oblique beam in a mutually parallel way, the length of the first cross beam is greater than that of the second cross beam, the other ends of the first cross beam and the second cross beam are respectively arranged on a straight line parallel to the Y axial direction, the two transverse moving frames are arranged in a central symmetry way by taking a projection center on an XY axial plane between the two lifting frame bodies as a center, the folding box frame is connected with a rotating shaft rod which is coaxially arranged with the turnover axis of the folding box, two ends of the rotating shaft rod are respectively rotatably connected with the other ends of the first cross beam and the second cross beam, one end of the folding box driving cylinder is hinged with the periphery of the rotating shaft rod, the other end of the bellows driving cylinder is hinged with the oblique beam, and the hinged position between the bellows driving cylinder and the oblique beam is arranged at one end, close to the first cross beam, of the oblique beam.

This scheme is inclined plane dislocation set with two sideslip framves, can avoid because the width problem adjusts the specification inadequately.

As a further improvement of the above technical scheme, the periphery of the rotating shaft rod is connected with a first torque arm, the first torque arm is hinged to a bellows driving cylinder, the bellows frame comprises a bellows rod extending along the Y axis, the periphery of the bellows rod is connected with a plurality of second torque arms, and the bellows rod is connected with the rotating shaft rod through the second torque arms.

Drawings

The utility model is further described with reference to the accompanying drawings and examples;

FIG. 1 is a schematic structural diagram of an embodiment of a convenient size-adjusting box folding apparatus provided by the present invention, wherein three arrows respectively indicate an X-axis, a Y-axis and a Z-axis;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

fig. 3 is a top view of an embodiment of a folding box device with convenient size adjustment provided by the present invention.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if words such as "a plurality" are described, the meaning is one or more, the meaning of a plurality is two or more, more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 3, the convenient specification-adjusting box folding device of the present invention is made as follows:

the convenient specification bellows device of transferring of this embodiment includes: the device comprises a frame, a height adjusting mechanism, a width adjusting mechanism and a box folding mechanism.

Wherein height adjusting mechanism includes lift portion frame, lift adjustment subassembly is used for making the lift portion frame for the frame moves and locks fixedly in Z axle is last for, specifically: the lifting part frame of this embodiment adopts a split structure, the lifting part frame includes two lifting frame bodies 500, the two lifting frame bodies 500 are arranged at intervals along the Y-axis direction, the lifting adjusting assembly includes two lifting adjusting units, the two lifting adjusting units correspond to the two lifting frame bodies 500 one by one, the lifting adjusting unit includes a fixed frame 600 fixedly arranged opposite to the frame, a lifting screw 610 extending along the Z-axis direction, and a lifting nut seat 620 fixedly connected to the lifting frame bodies 500, the lifting screw 610 is rotatably mounted on the fixed frame 600 around itself, the lifting frame bodies 500 and the fixed frame 600 are slidably connected along the Z-axis direction, the lifting screw 610 is in threaded transmission connection with the lifting nut seat 620, the lifting adjusting assembly drives the two lifting frame bodies 500 to lift through the two lifting adjusting units, specifically, the lifting adjusting unit of this scheme adopts the threaded fit of the lifting screw 610 and the lifting nut seat 620, firstly, when the lifting screw 610 is rotated, the lifting frame body 500 can be driven to slide in the Z-axis direction relative to the fixing frame 600, and secondly, the locking and fixing can be realized through the thread matching of the lifting screw 610 and the lifting nut seat 620. And simultaneously a guide rod 630 extending along the Z-axis direction is fixed on the fixing frame 600, the lifting frame body 500 is connected with the guide rod 630 in a sliding manner, and one end of the lifting screw 610 is connected with a lifting hand wheel 650.

In addition, the lifting frame body 500 is provided with a locking screw hole, the locking screw hole is in threaded connection with a locking screw 640, and the inner end of the locking screw 640 is abutted against the guide rod 630 after passing through the locking screw hole from outside to inside. After the height of the lifting frame body 500 is adjusted, the locking screw 640 may be screwed to further lock and fix the relative position of the lifting frame body 500 and the fixing frame 600. Wherein the locking screw 640 may be a handle screw.

And width adjustment mechanism includes to be two sideslip framves 100 that the interval slides and sets up on the frame of lift portion along the X axial, sideslip frame 100 sets up for the frame of lift portion slides in the X axial, at each be provided with locking fixed subassembly and scale subassembly between sideslip frame 100 and the frame of lift portion, locking fixed subassembly is used for locking the relative position between fixed sideslip frame 100 and the frame of lift portion, the scale subassembly includes along the scale lath 200 of X axial extension setting, the pointer 300 that corresponds with scale lath 200, scale lath 200 and pointer 300 are fixed in respectively on frame of lift portion and the sideslip frame 100, specifically: the two traverse frames 100 are arranged between the two elevator bodies 500, the two traverse frames 100 are slidably connected with the two elevator bodies 500, the scale slats 200 are arranged on the elevator bodies 500, and the pointers 300 are arranged on the traverse frames 100; the locking and fixing assembly of the embodiment includes a locking rack 700 fixed on the lifting frame body 500, a locking gear 710 arranged on the traversing frame 100, and a locking bolt 720, wherein the locking rack 700 extends along the X-axis direction, a central locking hole is arranged in the center of the locking gear 710, the locking bolt 720 passes through the central locking hole to be in threaded connection with the traversing frame 100, and the locking gear 710 is engaged with the locking rack 700, the locking and fixing effect is realized by the engagement of the locking rack 700 and the locking gear 710, specifically, when the traversing frame 100 needs to be adjusted, the locking bolt 720 is unscrewed, and at this time, the locking gear 710 can move on the locking rack 700; when the cross sliding frame 100 needs to be locked, the locking bolt 720 is screwed, and locking and fixing are realized through the meshing of the locking gear 710 and the locking rack 700, so that no gap exists after locking, and no shaking is generated.

Further, the locking fixing assembly includes two locking racks 700, two locking gears 710, two locking bolts 720, two locking racks 700 are respectively fixed on two lifting frame bodies 500, and two locking gears 710 are respectively disposed on two sides of the traverse frame 100 along the Y-axis direction at intervals. Two the lifting frame body 500 is provided with a slide rail 510 extending along the X axis, and two sides of the traverse frame 100 are slidably connected to the slide rail 510.

The roll over a case mechanism of this embodiment includes two roll over case subassemblies, two the roll over case subassembly is installed respectively on two sideslip framves 100, the roll over case subassembly is including installing the roll over case frame 400 on the sideslip frame 100, the roll over case drive unit who is connected with roll over case frame 400 transmission with can overturning, the roll over case frame 400 that the roll over case frame 400 has along the setting of Y axial extension turns over the axis, the drive of roll over case drive unit the roll over case frame 400 wind roll over the roll over axis of a case and rotate, specifically: the bellows driving unit comprises a bellows driving cylinder 800, one end of the bellows driving cylinder 800 is hinged to the bellows frame 400, a hinge axis of a hinge joint between one end of the bellows driving cylinder 800 and the bellows frame 400 is eccentrically arranged with a bellows overturning axis, the other end of the bellows driving cylinder 800 is hinged to the transverse moving frame 100, and the bellows driving cylinder 800 drives the bellows frame 400 to rotate around the bellows overturning axis to realize the action of the bellows.

Furthermore, the traverse frames 100 comprise a first beam 110 and a second beam 120 which are both arranged along the X-axis in an extending manner, and an oblique beam 130 which is obliquely arranged along the Y-axis, two ends of the oblique beam 130 are respectively connected with one end of the first beam 110 and one end of the second beam 120, the first beam 110 and the second beam 120 are arranged on the same side of the oblique beam 130 in parallel, the length of the first beam 110 is greater than that of the second beam 120, the other ends of the first beam 110 and the second beam 120 are both arranged on a straight line which is parallel to the Y-axis in parallel, the two traverse frames 100 are arranged in central symmetry with the projection center on the XY-axis plane between the two lifting frame bodies 500 as the center, the box folding frame 400 is connected with a rotating shaft lever 410 which is coaxially arranged with the folding box overturning axis, two ends of the rotating shaft lever 410 are respectively connected with the other ends of the first beam 110 and the second beam 120 in a rotating manner, one end of the bellows driving cylinder 800 is hinged to the periphery of the rotating shaft rod 410, the other end of the bellows driving cylinder 800 is hinged to the oblique beam 130, the hinged position between the bellows driving cylinder 800 and the oblique beam 130 is arranged at one end, close to the first cross beam 110, of the oblique beam 130, the two transverse moving frames 100 are arranged in a staggered mode in an inclined plane mode, and the situation that specifications are not adjusted enough due to the width problem can be avoided.

The outer periphery of the rotating shaft 410 is connected with a first torsion arm 420, the first torsion arm 420 is hinged to the bellows driving cylinder 800, the bellows frame 400 comprises a bellows rod 430 extending along the Y axis, the outer periphery of the bellows rod 430 is connected with a plurality of second torsion arms 440, and the bellows rod 430 is connected with the rotating shaft 410 through the second torsion arms 440.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the utility model as set forth in the claims appended hereto.

Claims (10)

1. The utility model provides a conveniently transfer specification bellows device which characterized in that: the convenient specification adjusting folding box device is provided with an X axis, a Y axis and a Z axis which are mutually orthogonal, and the convenient specification adjusting folding box device comprises:

a frame;

the height adjusting mechanism comprises a lifting part frame and a lifting adjusting assembly, and the lifting adjusting assembly is used for enabling the lifting part frame to move in the Z-axis direction relative to the machine frame and to be locked and fixed;

the width adjusting mechanism comprises two transverse moving frames (100) which are arranged on a lifting part frame in a sliding mode at intervals along the X axial direction, the transverse moving frames (100) are arranged on the lifting part frame in a sliding mode in the X axial direction relative to the lifting part frame, a locking fixing component and a scale component are arranged between each transverse moving frame (100) and the lifting part frame, the locking fixing component is used for locking and fixing the relative position between the transverse moving frame (100) and the lifting part frame, the scale component comprises scale battens (200) which extend along the X axial direction and pointers (300) which correspond to the scale battens (200), and the scale battens (200) and the pointers (300) are fixed on the lifting part frame and the transverse moving frames (100) respectively;

the folding box mechanism comprises two folding box components which are respectively arranged on two transverse moving frames (100), the folding box components comprise folding box frames (400) which are arranged on the transverse moving frames (100) in a turnover mode and folding box driving units which are in transmission connection with the folding box frames (400), the folding box frames (400) are provided with folding box turnover axes which are arranged along the Y axial direction in an extending mode, and the folding box driving units drive the folding box frames (400) to wind the folding box turnover axes to rotate.

2. The convenient specification-adjusting folding box device according to claim 1, characterized in that:

the lifting part frame comprises two lifting frame bodies (500), the two lifting frame bodies (500) are arranged at intervals along the Y-axis direction, the two transverse moving frames (100) are arranged between the two lifting frame bodies (500), the two transverse moving frames (100) are connected with the two lifting frame bodies (500) in a sliding way, the lifting adjusting component comprises two lifting adjusting units which are in one-to-one correspondence with the two lifting frame bodies (500), the lifting adjusting unit comprises a fixed frame (600) which is fixedly arranged opposite to the frame, a lifting screw rod (610) which extends along the Z-axis direction, and a lifting nut seat (620) which is fixedly connected with the lifting frame body (500), the lifting screw rod (610) can be arranged on the fixed frame (600) in a way of rotating around itself, the lifting frame body (500) is connected with the fixed frame (600) in a sliding way along the Z-axis direction, the lifting screw rod (610) is in threaded transmission connection with the lifting nut seat (620).

3. The convenient specification-adjusting folding box device according to claim 2, characterized in that:

be fixed with guide bar (630) that set up along the Z axial extension on mount (600), lifting frame body (500) and guide bar (630) sliding connection, the one end of lift lead screw (610) is connected with lifting handwheel (650).

4. The convenient specification-adjusting box folding device according to claim 3, characterized in that:

the lifting frame body (500) is provided with a locking screw hole, the locking screw hole is in threaded connection with a locking screw (640), and the inner end of the locking screw (640) is abutted against the guide rod (630) after passing through the locking screw hole from outside to inside.

5. The convenient specification-adjusting folding box device according to claim 2, characterized in that:

the two lifting frame bodies (500) are provided with sliding rails (510) extending along the X axial direction, and two sides of the transverse moving frame (100) are respectively connected with the two sliding rails (510) in a sliding manner.

6. The convenient specification-adjusting folding box device according to claim 2, characterized in that:

the locking fixing assembly comprises a locking rack (700) fixed on a lifting frame body (500), a locking gear (710) and a locking bolt (720) arranged on a transverse moving frame (100), wherein the locking rack (700) extends along the X axial direction, a central locking hole is formed in the center of the locking gear (710), the locking bolt (720) penetrates through the central locking hole to be connected with the transverse moving frame (100) in a threaded manner, and the locking gear (710) is meshed with the locking rack (700).

7. The convenient specification-adjusting folding box device according to claim 6, characterized in that:

the locking fixing assembly comprises two locking racks (700), two locking gears (710) and two locking bolts (720), the two locking racks (700) are fixed on the lifting frame body (500) respectively, and the two locking gears (710) are arranged on two sides of the transverse moving frame (100) in the Y-axis direction at intervals respectively.

8. The convenient specification-adjusting folding box device according to claim 2, characterized in that:

the bellows driving unit comprises a bellows driving cylinder (800), one end of the bellows driving cylinder (800) is hinged to a bellows frame (400), a hinge axis of a hinged position between one end of the bellows driving cylinder (800) and the bellows frame (400) is eccentrically arranged with a bellows overturning axis, and the other end of the bellows driving cylinder (800) is hinged to a transverse moving frame (100).

9. The convenient specification-adjusting box folding device according to claim 8, wherein:

the transverse moving frames (100) comprise a first cross beam (110) and a second cross beam (120) which extend along the X axial direction and an oblique beam (130) which is obliquely arranged along the Y axial direction, two ends of the oblique beam (130) are respectively connected with one end of the first cross beam (110) and one end of the second cross beam (120), the first cross beam (110) and the second cross beam (120) are arranged on the same side of the oblique beam (130) in parallel, the length of the first cross beam (110) is greater than that of the second cross beam (120), the other ends of the first cross beam (110) and the second cross beam (120) are arranged on the same parallel straight line in the Y axial direction, the two transverse moving frames (100) are arranged in central symmetry by taking the projection center on the XY axial plane between the two lifting frame bodies (500) as the center, the box folding frame (400) is connected with a rotating shaft lever (410) which is coaxially arranged with the turnover axis of the folding box, the two ends of the rotating shaft rod (410) are respectively and rotatably connected with the other ends of the first cross beam (110) and the second cross beam (120), one end of the bellows driving cylinder (800) is hinged to the periphery of the rotating shaft rod (410), the other end of the bellows driving cylinder (800) is hinged to the oblique beam (130), and the hinged position between the bellows driving cylinder (800) and the oblique beam (130) is arranged at one end, close to the first cross beam (110), of the oblique beam (130).

10. The convenient specification-adjusting box folding device according to claim 9, wherein:

the periphery of rotatory axostylus axostyle (410) is connected with first torque arm (420), first torque arm (420) drive actuating cylinder (800) with the bellows and articulate, bellows frame (400) include bellows pole (430) along the axial extension of Y, the periphery of bellows pole (430) is connected with a plurality of second torque arms (440), bellows pole (430) are connected with rotatory axostylus axostyle (410) through second torque arm (440).

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