CN112141781A - Inclined plane area body middle part drive arrangement - Google Patents
Inclined plane area body middle part drive arrangement Download PDFInfo
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- CN112141781A CN112141781A CN202010991302.5A CN202010991302A CN112141781A CN 112141781 A CN112141781 A CN 112141781A CN 202010991302 A CN202010991302 A CN 202010991302A CN 112141781 A CN112141781 A CN 112141781A
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- coil spring
- type buffer
- butt joint
- spring stretching
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H20/00—Advancing webs
- B65H20/02—Advancing webs by friction roller
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Abstract
The invention discloses a middle driving device of an inclined plane belt body, which comprises a main thread sleeve. When the belt body driving device is installed, the working height can be quickly adjusted, when the belt body driving device works, the inclined plane of the belt body is upwards arranged on the upper surface of the plane supporting plate, the driving column is put down, at the moment, due to the action of the inclined plane, the two spiral spring stretching type buffer mechanisms are obliquely transformed, meanwhile, the spiral springs in the two spiral spring stretching type buffer mechanisms play a stretching role, the driving column is subjected to angle change relative to the inclined plane of the belt body, the bottom of the driving column can be abutted against the inclined plane of the belt body, meanwhile, downward pressure is applied to the driving column under the compression action of the main spiral spring, the pressure and the pressure formed by stretching of the spiral springs in the spiral spring stretching type buffer mechanisms are combined to apply abutting pressure to the inclined plane of the belt body, and at the moment, when the driving column rotates, the belt body can.
Description
Technical Field
The invention relates to the technical field of driving devices, in particular to a middle driving device of an inclined belt body.
Background
At present, when a belt body is machined, the belt body needs to be driven, and the surface of the belt body is an inclined surface, so that the belt body cannot be driven, only manual driving can be performed, and the working efficiency is low.
Disclosure of Invention
The present invention is directed to a driving device for a middle portion of an inclined belt, so as to solve the above problems in the prior art.
In order to achieve the purpose, the invention provides the following technical scheme: a middle driving device of an inclined plane belt body comprises a main thread sleeve, wherein a thread section communicated with two end faces of the main thread sleeve is arranged at the center inside the main thread sleeve, a thread structure is arranged on the inner wall of the thread section of the main thread sleeve, the bottom and the top of the thread section are respectively connected with a bottom threaded rod and a top threaded rod through the thread structure, the bottom threaded rod and the top threaded rod are respectively provided with a limiting hole inside opposite ends, a limiting rod is inserted into the two limiting holes, the other two ends of the bottom threaded rod and the top threaded rod are respectively provided with a first connecting plate and a second connecting plate, the bottom of the first connecting plate and the top of the second connecting plate are respectively provided with a bottom mounting substrate and a plane supporting plate, the upper surface of the plane supporting plate is provided with two opposite rotary butt joint mechanisms, and the movable ends of the two rotary butt joint mechanisms are respectively provided with a spiral spring, the end parts of the two spiral spring stretching type buffer mechanisms are respectively installed on the end surfaces of auxiliary connecting plates at two ends of a top supporting plate through another group of rotary butt joint mechanisms, two opposite main hollow shells are installed at the bottom of the top supporting plate, a main telescopic space is arranged at the center of each main hollow shell, a main spiral spring in a compressed state is arranged in each main telescopic space, a main movable plate is respectively installed at the bottom of each main spiral spring, a main telescopic rod is respectively installed at the center of the bottom of each main movable plate, rod bodies of the two main telescopic rods respectively penetrate through the centers of the bottom ends of the two main hollow shells, a part installation block is respectively installed at the bottom ends of the two main telescopic rods, symmetrical main driving motors are respectively installed on the side surfaces of the two part installation blocks, a main motor shaft of each main driving motor penetrates through the part installation block, and a main bearing is installed between the penetrating parts, and the opposite ends of the two motor main shafts are provided with a driving column.
Further, the helicitic texture is including setting up the internal thread structure at the internal wall of main thread sleeve and setting up the external thread structure on the bottom threaded rod and the top threaded rod body of rod, and is located the helicitic texture's on the bottom threaded rod and the top threaded rod body of rod screw opposite direction.
Furthermore, the rotary docking mechanism comprises a connecting plate for the rotary docking mechanism, a bolt hole for the rotary docking mechanism, a hemispherical hollow shell for the rotary docking mechanism, a spherical groove structure for the rotary docking mechanism, a spherical body for the rotary docking mechanism, a mounting hole for the rotary docking mechanism and a plane structure for the rotary docking mechanism.
Further, the inside of rotation type connecting plate for docking mechanism is provided with the rotation type bolt hole for docking mechanism, the center of rotation type connecting plate upper surface for docking mechanism is provided with a plurality of with rotation type connecting plate for docking mechanism formula structure's rotation type for docking mechanism hemisphere hollow shell, rotation type for docking mechanism hemisphere hollow shell's inside center is provided with rotation type for docking mechanism spherical groove structure, rotation type for docking mechanism hemisphere hollow shell is lieing in rotation type for docking mechanism spherical body for spherical groove structure's internally mounted rotation type for docking mechanism, the center at rotation type for docking mechanism spherical body top is provided with rotation type for docking mechanism planar structure, rotation type for docking mechanism planar structure's bottom is provided with rotation type for docking mechanism mounting hole.
Furthermore, the volume formed by the inner surface of the spherical groove structure for the rotary docking mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body for the rotary docking mechanism.
Furthermore, the bottom end of the bolt hole for the rotary type butt joint mechanism is arranged on the plate body of the main vertical plate and the end face of the main connecting plate, and a spiral spring stretching type buffer mechanism is arranged in the mounting hole for the rotary type butt joint mechanism.
Further, the coil spring stretching type buffer mechanism comprises a coil spring stretching type buffer mechanism hollow shell, a coil spring stretching type buffer mechanism stretching space, a coil spring stretching type buffer mechanism moving plate, a coil spring stretching type buffer mechanism stretching rod, a coil spring stretching type buffer mechanism coil spring, a coil spring stretching type buffer mechanism first connecting plate, a coil spring stretching type buffer mechanism second connecting plate and a coil spring stretching type buffer mechanism bolt hole.
Further, the inside center of the hollow shell for the coil spring stretching type buffer mechanism is provided with a stretching space for the coil spring stretching type buffer mechanism, a movable plate for the coil spring stretching type buffer mechanism is arranged inside the stretching space for the coil spring stretching type buffer mechanism, a telescopic rod for the coil spring stretching type buffer mechanism is installed at the center of one end face of the movable plate for the coil spring stretching type buffer mechanism, a rod body of the telescopic rod for the coil spring stretching type buffer mechanism penetrates through the center of one end face of the hollow shell for the coil spring stretching type buffer mechanism, the telescopic rod for the coil spring stretching type buffer mechanism is sleeved with a coil spring for the coil spring stretching type buffer mechanism in a compression state on the rod body located inside the hollow shell for the coil spring stretching type buffer mechanism, and the other end face of the hollow shell for the coil spring stretching type buffer mechanism and the telescopic rod for the coil spring stretching type buffer mechanism are respectively located at one end located outside Install first connecting plate and second connecting plate for the helical spring tensile formula buffer gear, the inside of first connecting plate and the helical spring tensile formula second connecting plate for the buffer gear for the helical spring tensile formula buffer gear all is equipped with the bolt hole for the helical spring tensile formula buffer gear.
Further, the first connecting plate for the coil spring tension type buffer mechanism is installed inside the installation hole for the rotary type docking mechanism located on the surface of the planar supporting plate.
Furthermore, the coil spring stretching type buffer mechanism is installed in the installation hole for the rotary type butt joint mechanism on the side surface of the top supporting plate through a second connecting plate.
Compared with the prior art, the invention has the beneficial effects that: when the belt body driving device is installed, the working height can be quickly adjusted, when the belt body driving device works, the inclined plane of the belt body is upwards arranged on the upper surface of the plane supporting plate, the driving column is put down, at the moment, due to the action of the inclined plane, the two spiral spring stretching type buffer mechanisms are obliquely transformed, meanwhile, the spiral springs in the two spiral spring stretching type buffer mechanisms play a stretching role, the driving column is subjected to angle change relative to the inclined plane of the belt body, the bottom of the driving column can be abutted against the inclined plane of the belt body, meanwhile, downward pressure is applied to the driving column under the compression action of the main spiral spring, the pressure and the pressure formed by stretching of the spiral springs in the spiral spring stretching type buffer mechanisms are combined to apply abutting pressure to the inclined plane of the belt body, and at the moment, when the driving column rotates, the belt body can.
Drawings
FIG. 1 is a schematic view of a full-section structure of a middle driving device of an inclined belt body according to the present invention;
FIG. 2 is a schematic structural view of a rotary docking mechanism in the middle driving device of an inclined belt according to the present invention;
FIG. 3 is a schematic structural view of a coil spring tension type buffer mechanism in the middle driving device of the inclined belt body according to the present invention;
in the figure: 1, main thread sleeve, 2, thread section, 3, thread structure, 4, bottom threaded rod, 5, top threaded rod, 6, limit hole, 7, limit rod, 8, first connecting plate, 9, second connecting plate, 10, bottom mounting base plate, 11, planar support plate, 12, rotary docking mechanism, 121, connecting plate for rotary docking mechanism, 122, bolt hole for rotary docking mechanism, 123, hemispherical hollow housing for rotary docking mechanism, 124, spherical groove structure for rotary docking mechanism, 125, spherical body for rotary docking mechanism, 126, mounting hole for rotary docking mechanism, 127, planar structure for rotary docking mechanism, 13, coil spring tension-type buffer mechanism, 131, hollow housing for coil spring tension-type buffer mechanism, 132, telescopic space for coil spring tension-type buffer mechanism, 133, moving plate for coil spring tension-type buffer mechanism, 134, an expansion link for a coil spring extension type buffer mechanism, 135, a coil spring for a coil spring extension type buffer mechanism, 136, a first connecting plate for a coil spring extension type buffer mechanism, 137, a second connecting plate for a coil spring extension type buffer mechanism, 138, a bolt hole for a coil spring extension type buffer mechanism, 14, an auxiliary connecting plate, 15, a top supporting plate, 16, a main hollow housing, 17, a main expansion space, 18, a main coil spring, 19, a main movable plate, 20, a main expansion link, 21, a component mounting block, 22, a main driving motor, 23, a motor main shaft, 24, and a driving column.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, an embodiment of the present invention: the novel screw thread type connecting device comprises a main thread sleeve 1, wherein a thread section 2 communicated with two end faces of the main thread sleeve 1 is arranged at the center inside the main thread sleeve 1, a thread structure 3 is arranged on the inner wall of the thread section 2 of the main thread sleeve 1, the bottom and the top of the thread section 2 are respectively connected with a bottom threaded rod 4 and a top threaded rod 5 through the thread structure 3, the bottom threaded rod 4 and the top threaded rod 5 are respectively provided with a limiting hole 6 inside opposite ends, a limiting rod 7 is inserted into the two limiting holes 6, the other two ends of the bottom threaded rod 4 and the top threaded rod 5 are respectively provided with a first connecting plate 8 and a second connecting plate 9, the bottom of the first connecting plate 8 and the top of the second connecting plate 9 are respectively provided with a bottom mounting base plate 10 and a plane supporting plate 11, and two opposite rotary type butt joint mechanisms 12 are arranged on the upper surface, a spiral spring stretching type buffer mechanism 13 is respectively installed at the movable end of each of the two rotary type docking mechanisms 12, the end portions of the two spiral spring stretching type buffer mechanisms 13 are respectively installed at the end surfaces of auxiliary connecting plates 14 at the two ends of a top supporting plate 15 through another set of rotary type docking mechanism 12, two opposite main hollow shells 16 are installed at the bottom of the top supporting plate 15, a main telescopic space 17 is respectively arranged at the center of each of the two main hollow shells 16, a main spiral spring 18 in a compressed state is respectively installed inside each of the two main telescopic spaces 17, a main movable plate 19 is respectively installed at the bottom of each of the two main spiral springs 18, a main telescopic rod 20 is respectively installed at the center of the bottom of each of the two main movable plates 19, the rod bodies of the two main telescopic rods 20 respectively penetrate through the centers of the bottom ends of the two main hollow shells 16, and a part installation block 21 is respectively installed at the bottom, the side surfaces of the two component mounting blocks 21 are respectively provided with a symmetrical main driving motor 22, a motor main shaft 23 of the main driving motor 22 penetrates through the component mounting blocks 21, a main bearing is arranged between the penetrating parts of the two motor main shafts 23, and a driving column 24 is arranged at the opposite end of each of the two motor main shafts 23.
And the thread structure 3 comprises an internal thread structure arranged on the inner wall of the main thread sleeve 1 and an external thread structure arranged on the bottom threaded rod 4 and the top threaded rod 5, and is positioned on the bottom threaded rod 4 and the top threaded rod 5, wherein the thread directions of the thread structures on the rod bodies are opposite.
Referring to fig. 2, the rotary docking mechanism 12 includes a connecting plate 121 for rotary docking mechanism, a bolt hole 122 for rotary docking mechanism, a hemispherical hollow housing 123 for rotary docking mechanism, a spherical recess structure 124 for rotary docking mechanism, a spherical body 125 for rotary docking mechanism, a mounting hole 126 for rotary docking mechanism, and a planar structure 127 for rotary docking mechanism; the rotary docking mechanism connecting plate 121 is internally provided with a rotary docking mechanism bolt hole 122, a plurality of hemispherical hollow housings 123 for the rotary docking mechanism which are integrated with the connecting plate 121 for the rotary docking mechanism are arranged at the center of the upper surface of the connecting plate 121 for the rotary docking mechanism, the inner center of the hemispherical hollow shell 123 for the rotary docking mechanism is provided with a spherical groove structure 124 for the rotary docking mechanism, the rotary docking mechanism hemispherical hollow housing 123 mounts a rotary docking mechanism spherical body 125 inside the rotary docking mechanism spherical recess structure 124, the center of the top of the rotary docking mechanism spherical body 125 is provided with a rotary docking mechanism planar structure 127, the bottom of the plane structure 127 for the rotary docking mechanism is provided with a mounting hole 126 for the rotary docking mechanism; the volume formed by the inner surface of the spherical groove structure 124 for the rotary docking mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body 125 for the rotary docking mechanism; the bottom end of the bolt hole 122 for the rotary type butt joint mechanism is installed on the plate body of the main vertical plate 4 and the end surface of the main connecting plate 17, and the coil spring stretching type buffer mechanism 13 is installed inside the installation hole 126 for the rotary type butt joint mechanism.
Referring to fig. 3, the coil spring stretching type buffer mechanism 13 includes a coil spring stretching type buffer mechanism hollow housing 131, a coil spring stretching type buffer mechanism stretching space 132, a coil spring stretching type buffer mechanism moving plate 133, a coil spring stretching type buffer mechanism stretching rod 134, a coil spring 135, a coil spring stretching type buffer mechanism first connecting plate 136, a coil spring stretching type buffer mechanism second connecting plate 137, and a coil spring stretching type buffer mechanism bolt hole 138; the coil spring stretching type buffer gear is equipped with the stretching space 132 for the coil spring stretching type buffer gear at the inside center of hollow shell 131 for the coil spring stretching type buffer gear, a coil spring stretching type buffer gear is laid with movable plate 133 in the inside of stretching space 132 for the coil spring stretching type buffer gear, a coil spring stretching type buffer gear is installed with a terminal surface center telescopic link 134 of movable plate 133 for the coil spring stretching type buffer gear, the body of rod of coil spring stretching type buffer gear 134 runs through a terminal surface center of hollow shell 131 for the coil spring stretching type buffer gear, coil spring stretching type buffer gear is cup jointed a compression state's coil spring 135 for the coil spring stretching type buffer gear on the body of rod that lies in hollow shell 131 inside for the coil spring stretching type buffer gear, another terminal surface of hollow shell 131 for the coil spring stretching type buffer gear and coil spring stretching type buffer gear telescopic link 134 are in place for the coil spring stretching type buffer gear A first connecting plate 136 for a coil spring tension type buffer mechanism and a second connecting plate 137 for a coil spring tension type buffer mechanism are respectively installed at one external end, and a bolt hole 138 for a coil spring tension type buffer mechanism is respectively arranged inside the first connecting plate 136 for a coil spring tension type buffer mechanism and the second connecting plate 137 for a coil spring tension type buffer mechanism; the first connecting plate 136 for the coil spring tension type buffer mechanism is installed inside the installation hole 126 for the rotary type docking mechanism located on the surface of the planar support plate 11; the coil spring tension type buffer mechanism is mounted inside the rotary docking mechanism mounting hole 126 located on the side of the top support plate 11 by the second connecting plate 137.
The specific use mode is as follows: in the invention, the bottom mounting base plate 10 is mounted on the ground, then the main thread sleeve 1 is rotated, under the action of the reverse thread structure, the height adjustment effect is achieved, the surface of the plane supporting plate 11 is consistent with that of a workbench for transportation, then the driving column 24 is upwards supported, the inclined plane of the belt body is upwards, then the driving column 24 is placed on the upper surface of the plane supporting plate 11, at the moment, due to the effect of the inclined plane, the two spiral spring stretching type buffer mechanisms 13 are obliquely transformed, meanwhile, the spiral springs in the driving column 24 play a stretching role, the angle change of the driving column 24 relative to the inclined plane of the belt body is caused, the bottom of the driving column 24 can be abutted against the inclined plane of the belt body, meanwhile, under the compression effect of the main spiral spring 18, downward pressure is simultaneously applied to the driving column 24, and the pressure combined with the pressure formed by the stretching of the spiral springs in the spiral spring stretching type buffer mechanisms 13 applies abutting type pressure to the inclined plane of the belt body, at this time, the driving column 24 can drive the belt body to move when rotating.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (10)
1. The utility model provides an inclined plane area body middle part drive arrangement, includes main thread sleeve (1), its characterized in that: the thread section (2) communicated with the two end faces of the main thread sleeve (1) is arranged at the center of the interior of the main thread sleeve (1), a thread structure (3) is arranged on the inner wall of the thread section (2) of the main thread sleeve (1), the bottom and the top of the thread section (2) are connected with a bottom threaded rod (4) and a top threaded rod (5) through the thread structure (3), limit holes (6) are formed in the opposite ends of the bottom threaded rod (4) and the top threaded rod (5), a limit rod (7) is inserted into the two limit holes (6), a first connecting plate (8) and a second connecting plate (9) are respectively installed at the other two ends of the bottom threaded rod (4) and the top threaded rod (5), a bottom installing base plate (10) and a plane supporting plate (11) are respectively installed at the bottom of the first connecting plate (8) and the top of the second connecting plate (9), two opposite rotary butt joint mechanisms (12) are mounted on the upper surface of the plane support plate (11), a spiral spring stretching type buffer mechanism (13) is mounted at the movable end of each of the two rotary butt joint mechanisms (12), the end parts of the two spiral spring stretching type buffer mechanisms (13) are mounted on the end surfaces of auxiliary connecting plates (14) at the two ends of a top support plate (15) through another set of rotary butt joint mechanism (12), two opposite main hollow shells (16) are mounted at the bottom of the top support plate (15), a main telescopic space (17) is arranged at the center of each of the two main hollow shells (16), a main spiral spring (18) in a compression state is mounted inside each of the two main telescopic spaces (17), a main movable plate (19) is mounted at the bottom of each of the two main spiral springs (18), and a main telescopic rod (20) is mounted at the center of the bottom of each of the two main movable plates (19), two the body of rod of main telescopic link (20) runs through two main hollow shell (16) bottom centers respectively, and two a part installation piece (21) is installed respectively to the bottom of main telescopic link (20), two main driving motor (22) of a symmetry is installed respectively to the side of part installation piece (21), motor spindle (23) of main driving motor (22) run through part installation piece (21), and both install the base bearing between running through the position, two motor spindle (23) are at an opposition end installation drive post (24).
2. The middle driving device of a slope belt as claimed in claim 1, wherein: the thread structure (3) comprises an internal thread structure arranged on the inner wall of the main thread sleeve (1) and an external thread structure arranged on the body of the bottom threaded rod (4) and the top threaded rod (5), and is located in the opposite direction of the threads of the thread structures on the body of the bottom threaded rod (4) and the top threaded rod (5).
3. The middle driving device of a slope belt as claimed in claim 1, wherein: the rotary type butt joint mechanism (12) comprises a connecting plate (121) for the rotary type butt joint mechanism, a bolt hole (122) for the rotary type butt joint mechanism, a hemispherical hollow shell (123) for the rotary type butt joint mechanism, a spherical groove structure (124) for the rotary type butt joint mechanism, a spherical body (125) for the rotary type butt joint mechanism, a mounting hole (126) for the rotary type butt joint mechanism and a plane structure (127) for the rotary type butt joint mechanism.
4. The middle driving device of a slope belt as claimed in claim 3, wherein: the rotary type butt joint mechanism is characterized in that a rotary type butt joint mechanism bolt hole (122) is formed in the connecting plate (121) for the rotary type butt joint mechanism, a plurality of rotary type butt joint mechanism hemispherical hollow shells (123) which are integrated with the connecting plate (121) for the rotary type butt joint mechanism are arranged at the center of the upper surface of the connecting plate (121) for the rotary type butt joint mechanism, a rotary type butt joint mechanism spherical groove structure (124) is arranged at the center of the rotary type butt joint mechanism hemispherical hollow shell (123), a rotary type butt joint mechanism spherical body (125) is arranged in the rotary type butt joint mechanism spherical groove structure (124), a rotary type butt joint mechanism plane structure (127) is arranged at the center of the top of the rotary type butt joint mechanism spherical body (125), and a rotary type butt joint mechanism mounting hole (127) is formed in the bottom of the rotary type butt joint mechanism plane structure (127) 126).
5. The middle driving device of a slope belt as claimed in claim 4, wherein: the volume formed by the inner surface of the spherical groove structure (124) for the rotary docking mechanism is 3/5-3/4 of the volume formed by the outer surface of the spherical body (125) for the rotary docking mechanism.
6. The middle driving device of a slope belt as claimed in claim 4, wherein: the bottom end of the bolt hole (122) for the rotary butt joint mechanism is arranged on the end faces of the plate body of the main vertical plate (4) and the main connecting plate (17), and the spiral spring stretching type buffer mechanism (13) is arranged in the mounting hole (126) for the rotary butt joint mechanism.
7. The middle driving device of a slope belt as claimed in claim 1, wherein: the coil spring stretching type buffer mechanism (13) comprises a coil spring stretching type buffer mechanism hollow shell (131), a coil spring stretching type buffer mechanism stretching space (132), a coil spring stretching type buffer mechanism moving plate (133), a coil spring stretching type buffer mechanism stretching rod (134), a coil spring stretching type buffer mechanism coil spring (135), a coil spring stretching type buffer mechanism first connecting plate (136), a coil spring stretching type buffer mechanism second connecting plate (137) and a coil spring stretching type buffer mechanism bolt hole (138).
8. The apparatus as claimed in claim 7, wherein: the telescopic structure is characterized in that a telescopic space (132) for the coil spring stretching type buffer mechanism is arranged at the center inside a hollow shell (131) for the coil spring stretching type buffer mechanism, a movable plate (133) for the coil spring stretching type buffer mechanism is arranged inside the telescopic space (132) for the coil spring stretching type buffer mechanism, a telescopic rod (134) for the coil spring stretching type buffer mechanism is arranged at the center of one end face of the movable plate (133) for the coil spring stretching type buffer mechanism, a rod body of the telescopic rod (134) for the coil spring stretching type buffer mechanism penetrates through the center of one end face of the hollow shell (131) for the coil spring stretching type buffer mechanism, and the telescopic rod (134) for the coil spring stretching type buffer mechanism is sleeved with a coil spring (135) for the coil spring stretching type buffer mechanism in a compression state on the rod body inside the hollow shell (131) for the coil spring stretching type buffer mechanism, the other end face of the hollow shell (131) for the coil spring stretching type buffer mechanism and the telescopic rod (134) for the coil spring stretching type buffer mechanism are respectively provided with a first connecting plate (136) for the coil spring stretching type buffer mechanism and a second connecting plate (137) for the coil spring stretching type buffer mechanism at one end positioned outside, and bolt holes (138) for the coil spring stretching type buffer mechanism are arranged inside the first connecting plate (136) for the coil spring stretching type buffer mechanism and the second connecting plate (137) for the coil spring stretching type buffer mechanism.
9. The apparatus as claimed in claim 8, wherein: the first connecting plate (136) for the coil spring tension type buffer mechanism is installed inside the installation hole (126) for the rotary type docking mechanism on the surface of the plane support plate (11).
10. The apparatus as claimed in claim 8, wherein: the second connecting plate (137) for the spiral spring stretching type buffer mechanism is arranged in a mounting hole (126) for the rotary type butt joint mechanism, which is positioned on the side surface of the top supporting plate (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202010991302.5A CN112141781A (en) | 2020-09-20 | 2020-09-20 | Inclined plane area body middle part drive arrangement |
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Application Number | Priority Date | Filing Date | Title |
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CN202010991302.5A CN112141781A (en) | 2020-09-20 | 2020-09-20 | Inclined plane area body middle part drive arrangement |
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CN112141781A true CN112141781A (en) | 2020-12-29 |
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CN202010991302.5A Withdrawn CN112141781A (en) | 2020-09-20 | 2020-09-20 | Inclined plane area body middle part drive arrangement |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5029742A (en) * | 1989-03-22 | 1991-07-09 | Man Roland Druckmaschinen Ag | Web pulling system, particularly for threading a paper web in a rotary printing machine |
JPH1110259A (en) * | 1997-06-17 | 1999-01-19 | Youwa Sangyo Kk | Air pressure driving roll feeding device |
CN105084070A (en) * | 2015-08-21 | 2015-11-25 | 重庆洋迪机电有限公司 | Belt conveying mechanism capable of pressing through slope |
CN207497728U (en) * | 2017-08-18 | 2018-06-15 | 广东金威达彩印有限公司 | A kind of stacker start stop apparatus of automatic die cutter |
CN210763666U (en) * | 2019-06-24 | 2020-06-16 | 南京美华羽绒制品有限公司 | Winding device of fiber spinning machine |
-
2020
- 2020-09-20 CN CN202010991302.5A patent/CN112141781A/en not_active Withdrawn
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5029742A (en) * | 1989-03-22 | 1991-07-09 | Man Roland Druckmaschinen Ag | Web pulling system, particularly for threading a paper web in a rotary printing machine |
JPH1110259A (en) * | 1997-06-17 | 1999-01-19 | Youwa Sangyo Kk | Air pressure driving roll feeding device |
CN105084070A (en) * | 2015-08-21 | 2015-11-25 | 重庆洋迪机电有限公司 | Belt conveying mechanism capable of pressing through slope |
CN207497728U (en) * | 2017-08-18 | 2018-06-15 | 广东金威达彩印有限公司 | A kind of stacker start stop apparatus of automatic die cutter |
CN210763666U (en) * | 2019-06-24 | 2020-06-16 | 南京美华羽绒制品有限公司 | Winding device of fiber spinning machine |
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Application publication date: 20201229 |