CN111365382A - Integrative multi-functional formula rotary part middle part connecting device - Google Patents

Abstract

The invention discloses an integrated multifunctional middle connecting device of a rotating part, which comprises a main cylindrical hollow shell, can control the maximum rotating force between a driving shaft and a driven shaft and the unidirectional rotation between the driving shaft and the driven shaft while the connecting and fixing are realized, has multiple functions and strong practicability, has a threaded structure connected with a coil spring type maximum rotation resistance control mechanism, can control the maximum rotating capacity between the driving shaft and the driven shaft by utilizing the elasticity of a coil spring, can replace the device by utilizing the coil spring to realize the control action of different forces, and has the advantages that the device is internally sleeved with a coil spring elastic control type buffer pressure mechanism, can realize the buffer pressure control action on a downward moving mechanism by utilizing the elasticity of the coil spring, and can realize the moving pressure action, in addition, the device is provided with a triangular annular socket joint type unidirectional rotation driving mechanism.

Description

Integrative multi-functional formula rotary part middle part connecting device

Technical Field

The invention relates to the technical field of middle part connection of rotating parts, in particular to an integrated multifunctional middle part connecting device of a rotating part.

Background

At present, most of the connection modes of the rotating parts are that bolts with single structures are connected with flange plates, and the functions of the connection modes are only rigid connection, so that the functions are very single.

Disclosure of Invention

The invention aims to provide an integrated multifunctional middle connecting device of a rotating component, which is used for solving the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a middle connecting device of an integrated multifunctional rotating component comprises a main cylindrical hollow shell and a main rotating column, wherein a first rotating shaft is installed at the center of one end of the main cylindrical hollow shell through a main connecting plate, a second rotating shaft is installed at the center of one end of the main rotating column through another main connecting plate, a plurality of threaded sleeve structures arranged in an annular array mode are arranged on the side face of the main cylindrical hollow shell, a first clamping space is arranged at the center of the inner portion of the main cylindrical hollow shell, a main internal thread section is arranged inside the threaded sleeve structures, a threaded structure is installed on the side face of the main internal thread section through the main internal thread structure and connected with a helical spring type maximum rotation resistance control mechanism, a plurality of push rod jacks are arranged inside the main cylindrical hollow shell, and an annular rotating body is installed inside the first clamping space, the side surface of the annular rotating body is provided with a plurality of hemispherical groove structures arranged in an annular array, a push rod is arranged at the center of one end of the threaded structure connected with the helical spring type maximum rotation resistance control mechanism, the rod body of the push rod penetrates through the push rod insertion hole, the end part of each push rod is correspondingly inserted into the inner part of the hemispherical groove structure, a second clamping space is arranged at the center of the annular rotating body, a plurality of installation spaces of the elastic control type buffering and pressing mechanism of the helical spring are arranged in an annular array in the annular rotating body, the inner sleeve installation spiral spring elastic control type buffer pressing mechanism is arranged in the installation space of the inner sleeve installation spiral spring elastic control type buffer pressing mechanism, the side surface of the main rotating column is provided with a triangular annular sleeved unidirectional rotation driving mechanism, and the triangular annular sleeved unidirectional rotation driving mechanism is connected with the inside of the second clamping space in a clamping manner.

Further, the thread structure connection coil spring type maximum rotation resistance control mechanism comprises a thread structure connection coil spring type maximum rotation resistance control mechanism rotating plate, a thread structure connection coil spring type hollow column for maximum rotation resistance control mechanism, a thread structure connection coil spring type external thread structure for maximum rotation resistance control mechanism, a thread structure connection coil spring type hollow structure for maximum rotation resistance control mechanism, a thread structure connection coil spring type spiral spring for maximum rotation resistance control mechanism, a thread structure connection coil spring type movable plate for maximum rotation resistance control mechanism and a thread structure connection coil spring type rod body insertion groove structure; the screw structure connection screw spring type maximum rotation resistance control mechanism is characterized in that one end face of the rotating plate for the screw structure connection screw spring type maximum rotation resistance control mechanism is provided with a hollow column for the screw structure connection screw spring type maximum rotation resistance control mechanism which is of an integrated structure, the inner center of the hollow column for the screw structure connection screw spring type maximum rotation resistance control mechanism is provided with a hollow structure for the screw structure connection screw spring type maximum rotation resistance control mechanism, the side face of the hollow column for the screw structure connection screw spring type maximum rotation resistance control mechanism is provided with an external thread structure for the screw structure connection screw spring type maximum rotation resistance control mechanism, a compressed screw structure connection screw spring for the screw structure connection screw spring type maximum rotation resistance control mechanism is arranged in the hollow structure, and a screw structure connection screw spring is arranged at the bottom of the screw spring for the screw structure connection screw spring type maximum rotation resistance control mechanism The structure is connected with a moving plate for the helical spring type maximum rotation resistance control mechanism, and a threaded structure is arranged in the center of the bottom of the moving plate for the helical spring type maximum rotation resistance control mechanism and connected with a rod body inserting groove structure for the helical spring type maximum rotation resistance control mechanism.

Further, the thread structure is connected with a helical spring type external thread structure for the maximum rotation resistance control mechanism and is meshed with the main internal thread structure.

Furthermore, the threaded structure is connected with the screw spring type rod body inserted into the groove structure for the maximum rotation resistance control mechanism, and the rod body at one end of the push rod is installed inside the groove structure.

Further, the inner sleeve mounting spiral spring elastic control type buffering and pressing mechanism comprises a hollow shell for the inner sleeve mounting spiral spring elastic control type buffering and pressing mechanism, a hollow structure for the inner sleeve mounting spiral spring elastic control type buffering and pressing mechanism, a spiral spring for the inner sleeve mounting spiral spring elastic control type buffering and pressing mechanism, a buffering plate for the inner sleeve mounting spiral spring elastic control type buffering and pressing mechanism, an annular groove structure for the inner sleeve mounting spiral spring elastic control type buffering and pressing mechanism, a vertical triangular structure for the inner sleeve mounting spiral spring elastic control type buffering and pressing mechanism, an inclined plane structure for the inner sleeve mounting spiral spring elastic control type buffering and pressing mechanism and a vertical plane structure for the inner sleeve mounting spiral spring elastic control type buffering and pressing mechanism; the center of one end face of the hollow shell for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism is provided with a hollow structure for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, the inside of the hollow structure for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism is provided with a compressed inner sleeve installation spiral spring elastic control type spiral spring for the buffering and pressing mechanism, the end part of the spiral spring for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism is provided with a buffer plate for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, the bottom ends of the hollow shell for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism and the buffer plate for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism are provided with an annular groove structure for the inner sleeve installation spiral spring elastic control type buffering, the bottom center of the buffer plate for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism is provided with a vertical triangular structure for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism, and the bottom side end face of the vertical triangular structure for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism forms an inclined plane structure for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism and a vertical plane structure for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism.

Furthermore, the curvature radian of the annular groove structure for the inner sleeve-mounted spiral spring elastic control type buffering and pressing mechanism is consistent with that of the main rotating column.

Further, the inner sleeve mounting coil spring elastic control type buffer pressing mechanism hollow shell is mounted inside the inner sleeve mounting coil spring elastic control type buffer pressing mechanism mounting space.

Further, the triangular annular muff-coupling type unidirectional rotation driving mechanism comprises a shaft sleeve ring body for the triangular annular muff-coupling type unidirectional rotation driving mechanism, a muff-coupling hole for the triangular annular muff-coupling type unidirectional rotation driving mechanism, a triangular bulge structure for the triangular annular muff-coupling type unidirectional rotation driving mechanism, an inclined surface structure for the triangular annular muff-coupling type unidirectional rotation driving mechanism and a vertical surface structure for the triangular annular muff-coupling type unidirectional rotation driving mechanism; the utility model discloses a socket joint type unidirectional rotation drive mechanism for triangular ring, including the socket joint type unidirectional rotation drive mechanism for triangular ring, the socket joint type unidirectional.

Furthermore, the structural shape and the size of the triangular convex structure for the triangular annular sleeved one-way rotation driving mechanism are the same as those of the vertical triangular structure for the inner sleeve-mounted spiral spring elastic control type buffering and pressurizing mechanism.

Furthermore, the triangular annular sleeved unidirectional rotation driving mechanism in the shaft sleeve ring body for the triangular annular sleeved unidirectional rotation driving mechanism is sleeved on the side face of the main rotating column by the inside of the sleeved hole.

Compared with the prior art, the invention has the beneficial effects that: the device has the advantages that the maximum rotation force between the driving shaft and the driven shaft can be controlled, the unidirectional rotation function between the driving shaft and the driven shaft can be controlled, the device has multiple purposes and strong practicability, the device is provided with the maximum rotation resistance control mechanism of the screw thread structure connected with the coil spring, the maximum rotation capacity between the driving shaft and the driven shaft can be controlled by utilizing the elasticity of the coil spring, the device can be replaced by utilizing the coil spring to realize the control function of different forces, in addition, the device is internally provided with the coil spring elastic control type buffering pressure mechanism, the buffering pressure control function of the downward moving mechanism can be realized by utilizing the elasticity of the coil spring, the moving pressure function can be realized, in addition, the device is provided with the triangular annular socket joint type unidirectional rotation driving mechanism, and different functions in different directions can be realized for the upward moving mechanism, realizing unidirectional rotation.

Drawings

FIG. 1 is a schematic view of a middle connection device of an integrated multifunctional rotating member according to the present invention;

FIG. 2 is a schematic structural view of a helical spring type maximum rotation resistance control mechanism connected to a thread structure in a middle connecting device of an integrated multifunctional rotating member according to the present invention;

FIG. 3 is a schematic structural diagram of an elastic control type buffering and pressing mechanism with a coil spring installed inside a middle connecting device of an integrated multifunctional rotating component according to the present invention;

FIG. 4 is a schematic structural view of a triangular annular nested unidirectional rotation driving mechanism in a middle connecting device of an integrated multifunctional rotating component according to the present invention;

in the figure: 1, a main cylindrical hollow housing, 2, a main connecting plate, 3, a first rotating shaft, 4, a threaded sleeve structure, 5, a main internal thread section, 6, a main internal thread structure, 7, a push rod jack, 8, a threaded structure connecting with a coil spring type maximum rotation resistance control mechanism, 81, a threaded structure connecting with a rotating plate for a coil spring type maximum rotation resistance control mechanism, 82, a threaded structure connecting with a hollow column for a coil spring type maximum rotation resistance control mechanism, 83, a threaded structure connecting with an external thread structure for a coil spring type maximum rotation resistance control mechanism, 84, a threaded structure connecting with a hollow structure for a coil spring type maximum rotation resistance control mechanism, 85, a threaded structure connecting with a coil spring for a coil spring type maximum rotation resistance control mechanism, 86, a threaded structure connecting with a moving plate for a coil spring type maximum rotation resistance control mechanism, 87, a screw structure connecting the screw spring type rod body for the maximum rotation resistance control mechanism to insert into the groove structure, 9, a first clamping space, 10, a ring-shaped rotating body, 11, a hemispherical groove structure, 12, a second clamping space, 13, a mounting space for the screw spring elasticity control type buffer pressing mechanism, 14, a screw spring elasticity control type buffer pressing mechanism, 141, a hollow shell for the screw spring elasticity control type buffer pressing mechanism mounted on the inner sleeve, 142, a hollow structure for the screw spring elasticity control type buffer pressing mechanism mounted on the inner sleeve, 143, a screw spring for the screw spring elasticity control type buffer pressing mechanism mounted on the inner sleeve, 144, a buffer plate for the screw spring elasticity control type buffer pressing mechanism mounted on the inner sleeve, 145, a ring-shaped groove structure for the screw spring elasticity control type buffer pressing mechanism mounted on the inner sleeve, 146, a vertical triangular structure for the screw spring elasticity control type buffer pressing mechanism mounted, 147, the inner sleeve is provided with a helical spring elastic control type inclined plane structure for the buffer pressing mechanism, 148, the inner sleeve is provided with a helical spring elastic control type vertical plane structure for the buffer pressing mechanism, 15, a triangular annular socket joint type unidirectional rotation driving mechanism, 151, a sleeve ring body for the triangular annular socket joint type unidirectional rotation driving mechanism, 152, a socket hole for the triangular annular socket joint type unidirectional rotation driving mechanism, 153, a triangular bulge structure for the triangular annular socket joint type unidirectional rotation driving mechanism, 154, an inclined plane structure for the triangular annular socket joint type unidirectional rotation driving mechanism, 155, a vertical plane structure for the triangular annular socket joint type unidirectional rotation driving mechanism, 16, a main rotating column, 17, 18, a second rotating shaft, 19 and a push rod.

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: comprises a main cylindrical hollow shell 1 and a main rotary column 16, wherein a first rotary shaft 3 is arranged at the center of one end of the main cylindrical hollow shell 1 through a main connecting plate 2, a second rotary shaft 18 is arranged at the center of one end of the main rotary column 16 through another main connecting plate 2, a plurality of threaded sleeve structures 4 arranged in an annular array are arranged on the side surface of the main cylindrical hollow shell 1, a first clamping space 9 is arranged at the center of the inner part of the main cylindrical hollow shell 1, a main internal thread interval 5 is arranged in the threaded sleeve structures 4, a threaded structure connecting spiral spring type maximum rotation resistance control mechanism 8 is arranged on the side surface of the main internal thread interval 5 through a main internal thread structure 6, a plurality of push rod jacks 7 are arranged in the main cylindrical hollow shell 1, and an annular rotary body 10 is arranged in the first clamping space 9, a plurality of hemispherical groove structures 11 arranged in an annular array are arranged on the side surface of the annular rotator 10, a push rod 19 is installed at the center of one end of the thread structure connected coil spring type maximum rotation resistance control mechanism 8, the rod body of the push rod 19 penetrates through a push rod jack 7, the end part of each push rod 19 is correspondingly inserted into the hemispherical groove structure 11, a second clamping space 12 is arranged at the center of the annular rotator 10, a plurality of inner sleeve installation coil spring elastic control type buffering and pressurizing mechanism installation spaces 13 arranged in an annular array are arranged in the annular rotator 10, an inner sleeve installation coil spring elastic control type buffering and pressurizing mechanism 14 is installed in the inner sleeve installation coil spring elastic control type buffering and pressurizing mechanism installation space 13, a triangular annular socket type unidirectional rotation driving mechanism 15 is installed on the side surface of the main rotary column 16, the triangular annular sleeved unidirectional rotation driving mechanism 15 is clamped in the second clamping space 12.

Referring to fig. 2, the thread-structure-connected coil-spring-type maximum rotation resistance control mechanism 8 includes a thread-structure-connected coil-spring-type maximum rotation resistance control mechanism rotating plate 81, a thread-structure-connected coil-spring-type hollow column 82 for maximum rotation resistance control mechanism, a thread-structure-connected coil-spring-type external thread structure 83 for maximum rotation resistance control mechanism, a thread-structure-connected coil-spring-type hollow structure 84 for maximum rotation resistance control mechanism, a thread-structure-connected coil-spring-type coil spring 85 for maximum rotation resistance control mechanism, a thread-structure-connected coil-spring-type moving plate 86 for maximum rotation resistance control mechanism, and a thread-structure-connected coil-spring-type rod-body insertion groove structure 87 for maximum rotation resistance control mechanism; one end face of the rotating plate 81 for the thread structure connecting coil spring type maximum rotation resistance control mechanism is provided with a hollow column 82 for the thread structure connecting coil spring type maximum rotation resistance control mechanism, which is of an integral structure with the rotating plate, the center inside the hollow column 82 for the thread structure connecting coil spring type maximum rotation resistance control mechanism is provided with a hollow structure 84 for the thread structure connecting coil spring type maximum rotation resistance control mechanism, the side face of the hollow column 82 for the thread structure connecting coil spring type maximum rotation resistance control mechanism is provided with an external thread structure 83 for the thread structure connecting coil spring type maximum rotation resistance control mechanism, the inside of the hollow structure 84 for the thread structure connecting coil spring type maximum rotation resistance control mechanism is provided with a compressed thread structure connecting coil spring 85 for the coil spring type maximum rotation resistance control mechanism, a screw thread structure connection screw spring type moving plate 86 for the maximum rotation resistance control mechanism is installed at the bottom of the screw thread structure connection screw spring type coil spring 85 for the maximum rotation resistance control mechanism, and a screw thread structure connection screw spring type rod body insertion groove structure 87 for the maximum rotation resistance control mechanism is arranged at the center of the bottom of the screw thread structure connection screw spring type moving plate 86 for the maximum rotation resistance control mechanism; the thread structure is connected with the helical spring type external thread structure 83 for the maximum rotation resistance control mechanism and is meshed with the main internal thread structure 6; the screw thread structure connects the body of rod of coil spring formula maximum rotation resistance control mechanism and inserts the body of rod of groove structure 87 internally mounted with push rod 19 one end, and its main function is: the thread structure is connected with the helical spring type external thread structure 83 for the maximum rotation resistance control mechanism and is meshed with the main internal thread structure 6; the rod body that the screw thread structure connects coil spring formula maximum rotation resistance control mechanism and inserts groove structure 87 internally mounted with the rod body of push rod 19 one end, when the resistance surpassed the elasticity of coil spring 85 for the screw thread structure connection coil spring formula maximum rotation resistance control mechanism, coil spring 85 for the screw thread structure connection coil spring formula maximum rotation resistance control mechanism can be compressed, and at this moment, push rod 19 will release the inside of push rod recess 11, and the part can't continue to drive rotatoryly.

Referring to fig. 3, the inner sleeve-mounted coil spring elastic control type buffering and pressing mechanism 14 includes a hollow housing 141 for the inner sleeve-mounted coil spring elastic control type buffering and pressing mechanism, a hollow structure 142 for the inner sleeve-mounted coil spring elastic control type buffering and pressing mechanism, a coil spring 143 for the inner sleeve-mounted coil spring elastic control type buffering and pressing mechanism, a buffer plate 144 for the inner sleeve-mounted coil spring elastic control type buffering and pressing mechanism, a ring-shaped groove structure 145 for the inner sleeve-mounted coil spring elastic control type buffering and pressing mechanism, a vertical triangular structure 146 for the inner sleeve-mounted coil spring elastic control type buffering and pressing mechanism, an inclined surface structure 147 for the inner sleeve-mounted coil spring elastic control type buffering and pressing mechanism, and a vertical surface structure 148 for the inner sleeve-mounted coil spring elastic control type; a hollow structure 142 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism is arranged at the center of one end face of the hollow shell 141 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism, a compressed spiral spring 143 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism is arranged in the hollow structure 142 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism, a buffer plate 144 for the inner sleeve installation spiral spring elastic buffer pressing mechanism is arranged at the end part of the spiral spring 143 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism, a ring-shaped groove structure 145 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism is arranged at the bottom end of the hollow shell 141 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism and the buffer plate 144 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism, the bottom center of the buffer plate 144 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism is provided with a vertical triangular structure 146 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism, and the bottom side end surface of the vertical triangular structure 146 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism forms an inclined surface structure 147 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism and a vertical surface structure 148 for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism; the curvature radian of the annular groove structure 145 for the inner sleeve installation spiral spring elastic control type buffering pressure mechanism is consistent with that of the main rotating column 16; the hollow shell 141 for the inner sleeve installation spiral spring elastic control type buffering and pressurizing mechanism is installed in the inner sleeve installation spiral spring elastic control type buffering and pressurizing mechanism installation space 13, and the main functions of the hollow shell are as follows: the curvature radian of the annular groove structure 145 for the inner sleeve-mounted helical spring elastic control type buffering and pressing mechanism is consistent with that of the main rotating column 16; the hollow housing 141 for the inner sleeve-mounted coil spring elastic control type cushioning and pressurizing mechanism is mounted inside the inner sleeve-mounted coil spring elastic control type cushioning and pressurizing mechanism mounting space 13, so that when the vertical triangular structure 146 for the inner sleeve-mounted coil spring elastic control type cushioning and pressurizing mechanism rotates in accordance with the inclined plane, the buffer plate 144 for the inner sleeve-mounted coil spring elastic control type cushioning and pressurizing mechanism moves, and the rotation cannot be continuously driven.

Referring to fig. 4, the triangular annular nested unidirectional rotation driving mechanism 15 includes a shaft sleeve ring 151 for the triangular annular nested unidirectional rotation driving mechanism, a nested hole 152 for the triangular annular nested unidirectional rotation driving mechanism, a triangular protrusion structure 153 for the triangular annular nested unidirectional rotation driving mechanism, an inclined surface structure 154 for the triangular annular nested unidirectional rotation driving mechanism, and a vertical surface structure 155 for the triangular annular nested unidirectional rotation driving mechanism; the inner center of the shaft sleeve ring body 151 for the triangular annular sleeved one-way rotary driving mechanism is provided with a sleeved hole 152 for the triangular annular sleeved one-way rotary driving mechanism, the side surface of the shaft sleeve ring body 151 for the triangular annular sleeved one-way rotary driving mechanism is provided with a plurality of triangular protruding structures 153 for the triangular annular sleeved one-way rotary driving mechanism which are integrated with the shaft sleeve ring body, and the outer sides of the triangular protruding structures 153 for the triangular annular sleeved one-way rotary driving mechanism form an inclined surface structure 154 for the triangular annular sleeved one-way rotary driving mechanism and a vertical surface structure 155 for the triangular annular sleeved one-way rotary driving mechanism; the structural shape and the size of the triangular convex structure 153 for the triangular annular sleeved one-way rotary driving mechanism are the same as those of the vertical triangular structure 146 for the inner sleeve-mounted spiral spring elastic control type buffering and pressurizing mechanism; the triangular ring-shaped sleeved unidirectional rotation driving mechanism in the shaft sleeve ring body 151 for the triangular ring-shaped sleeved unidirectional rotation driving mechanism is sleeved on the side surface of the main rotating column 16 by the sleeving hole 152, and the main function is as follows: the structural shape and the size of the triangular convex structure 153 for the triangular annular sleeved one-way rotary driving mechanism are the same as those of the vertical triangular structure 146 for the inner sleeve-mounted spiral spring elastic control type buffering and pressurizing mechanism; the triangular annular muff-coupling unidirectional rotation driving mechanism in the bushing ring body 151 for the triangular annular muff-coupling unidirectional rotation driving mechanism is internally muff-coupled to the side surface of the main rotating column 16, so that the driving function is realized.

The specific use mode is as follows: in the working process of the invention, a first rotating shaft 3 and a second rotating shaft 18 are fixedly connected with the end parts of a driving shaft and a driven shaft, when the resistance caused by rotation is larger than the control value of a thread structure connection coil spring type maximum rotation resistance control mechanism 8, a push rod 19 exits from a hemispherical groove structure 11, so that the first rotating shaft 3 can relatively rotate the second rotating shaft 18 and cannot further drive to rotate, when the reverse rotation occurs, a coil spring elastic control type buffer pressure mechanism 14 and a triangular annular socket joint type one-way rotation driving mechanism 15 are arranged in an inner sleeve to work, and the first rotating shaft 3 can relatively rotate the second rotating shaft 18 and cannot further drive to rotate.

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 integrative multi-functional formula rotary part middle part connecting device, includes main cylindrical hollow shell (1) and main column spinner (16), its characterized in that: a first rotating shaft (3) is installed at the center of one end of the main cylindrical hollow shell (1) through a main connecting plate (2), a second rotating shaft (18) is installed at the center of one end of the main rotating column (16) through another main connecting plate (2), a plurality of threaded sleeve structures (4) arranged in an annular array are arranged on the side face of the main cylindrical hollow shell (1), a first clamping space (9) is arranged at the center of the inside of the main cylindrical hollow shell (1), a main internal thread interval (5) is arranged inside the threaded sleeve structures (4), a threaded structure connection helical spring type maximum rotation resistance control mechanism (8) is installed on the side face of the main internal thread interval (5) through a main internal thread structure (6), a plurality of push rod jacks (7) are arranged inside the main cylindrical hollow shell (1), and an annular rotating body (10) is installed inside the first clamping space (9), the side of the annular rotator (10) is provided with a plurality of hemispherical groove structures (11) arranged in an annular array, a push rod (19) is installed at the center of one end of the threaded structure connected with the coil spring type maximum rotation resistance control mechanism (8), a rod body of the push rod (19) penetrates through a push rod jack (7), the end of each push rod (19) is correspondingly inserted into the hemispherical groove structure (11), a second clamping space (12) is arranged at the center of the annular rotator (10), inner sleeve installation coil spring elastic control type buffering and pressing mechanism installation spaces (13) arranged in a plurality of annular arrays are arranged in the annular rotator (10), an inner sleeve installation coil spring elastic control type buffering and pressing mechanism installation space (14) is installed in the inner sleeve installation coil spring elastic control type buffering and pressing mechanism installation space (13), the side mounting of main column spinner (16) triangle annular socket joint formula single direction rotary driving mechanism (15), triangle annular socket joint formula single direction rotary driving mechanism (15) joint is in the inside in second joint space (12).

2. The middle connection device of an integrated multifunctional rotating component as claimed in claim 1, wherein: the thread structure connection spiral spring type maximum rotation resistance control mechanism (8) comprises a thread structure connection spiral spring type maximum rotation resistance control mechanism rotating plate (81), a thread structure connection spiral spring type maximum rotation resistance control mechanism hollow column (82), a thread structure connection spiral spring type maximum rotation resistance control mechanism external thread structure (83), a thread structure connection spiral spring type maximum rotation resistance control mechanism hollow structure (84), a thread structure connection spiral spring type maximum rotation resistance control mechanism spiral spring (85), a thread structure connection spiral spring type maximum rotation resistance control mechanism moving plate (86) and a thread structure connection spiral spring type maximum rotation resistance control mechanism rod body insertion groove structure (87); one end face of the rotating plate (81) for the thread structure connecting coil spring type maximum rotation resistance control mechanism is provided with a hollow column (82) for the thread structure connecting coil spring type maximum rotation resistance control mechanism, the center of the inside of the hollow column (82) for the thread structure connecting coil spring type maximum rotation resistance control mechanism is provided with a hollow structure (84) for the thread structure connecting coil spring type maximum rotation resistance control mechanism, the side face of the hollow column (82) for the thread structure connecting coil spring type maximum rotation resistance control mechanism is provided with an external thread structure (83) for the thread structure connecting coil spring type maximum rotation resistance control mechanism, the inside of the hollow structure (84) for the thread structure connecting coil spring type maximum rotation resistance control mechanism is provided with a compressed thread structure connecting coil spring (85) for the coil spring type maximum rotation resistance control mechanism, the threaded structure is connected with a moving plate (86) for the helical spring type maximum rotation resistance control mechanism is installed at the bottom of a helical spring (85) for the helical spring type maximum rotation resistance control mechanism, and a rod body inserting groove structure (87) for the threaded structure connected with the helical spring type maximum rotation resistance control mechanism is arranged in the center of the bottom of the moving plate (86) for the threaded structure connected with the helical spring type maximum rotation resistance control mechanism.

3. The middle connection device of an integrated multifunctional rotating component as claimed in claim 2, wherein: the thread structure is connected with a helical spring type external thread structure (83) for the maximum rotation resistance control mechanism and is meshed with the main internal thread structure (6).

4. The middle connection device of an integrated multifunctional rotating component as claimed in claim 2, wherein: the screw thread structure is connected with a rod body inserted into the groove structure (87) for the helical spring type maximum rotation resistance control mechanism, and the rod body at one end of the push rod (19) is installed inside the groove structure.

5. The middle connection device of an integrated multifunctional rotating component as claimed in claim 1, wherein: the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism (14) comprises a hollow shell (141) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, a hollow structure (142) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, a spiral spring (143) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, a buffer plate (144) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, an annular groove structure (145) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, a vertical triangular structure (146) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, an inclined plane structure (147) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism and a vertical plane structure (148) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism; a hollow structure (142) for an inner sleeve installation spiral spring elastic control type buffering and pressing mechanism is arranged at the center of one end face of a hollow shell (141) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, a compressed inner sleeve installation spiral spring elastic control type buffering and pressing mechanism spiral spring (143) is arranged in the hollow structure (142) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism, a buffer plate (144) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism is arranged at the end part of the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism spiral spring (143), a ring-shaped groove structure (145) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism is arranged at the bottom ends of the hollow shell (141) for the inner sleeve installation spiral spring elastic control type buffering and pressing mechanism buffer plate (144), the bottom center of the buffer plate (144) for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism is provided with a vertical triangular structure (146) for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism, and the bottom side end face of the vertical triangular structure (146) for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism forms an inclined plane structure (147) for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism and a vertical plane structure (148) for the inner sleeve installation spiral spring elastic control type buffer pressing mechanism.

6. The middle connection device of an integrated multifunctional rotating component as claimed in claim 5, wherein: the curvature radian of the annular groove structure (145) for the inner sleeve-mounted spiral spring elastic control type buffering and pressing mechanism is consistent with that of the main rotating column (16).

7. The middle connection device of an integrated multifunctional rotating component as claimed in claim 5, wherein: the hollow shell (141) for the inner sleeve installation spiral spring elastic control type buffering and pressurizing mechanism is installed in the installation space (13) of the inner sleeve installation spiral spring elastic control type buffering and pressurizing mechanism.

8. The middle connection device of an integrated multifunctional rotating component as claimed in claim 1, wherein: the triangular annular sleeved one-way rotation driving mechanism (15) comprises a shaft sleeve ring body (151) for the triangular annular sleeved one-way rotation driving mechanism, a sleeved hole (152) for the triangular annular sleeved one-way rotation driving mechanism, a triangular convex structure (153) for the triangular annular sleeved one-way rotation driving mechanism, an inclined surface structure (154) for the triangular annular sleeved one-way rotation driving mechanism and a vertical surface structure (155) for the triangular annular sleeved one-way rotation driving mechanism; the utility model discloses a socket joint formula unidirectional rotation for actuating mechanism, including triangle annular socket joint formula unidirectional rotation for actuating mechanism axle sleeve ring body (151), the inside center of triangle annular socket joint formula unidirectional rotation for actuating mechanism axle sleeve ring body (151) is provided with socket joint hole (152) for the unidirectional rotation for actuating mechanism of triangle annular socket joint formula, the side of triangle annular socket joint formula unidirectional rotation for actuating mechanism axle sleeve ring body (151) is provided with triangle-shaped protruding structure (153) for the unidirectional rotation for actuating mechanism of triangle annular socket joint formula a plurality of and its integral type structure, the outside of triangle-shaped annular socket joint formula for unidirectional rotation for actuating mechanism triangle-shaped protruding structure (153) forms slope structure (154) for the unidirectional rotation for actuating mechanism of triangle annular socket joint formula.

9. The middle connection device of an integrated multifunctional rotating component as claimed in claim 8, wherein: the structure appearance and the size of the triangular convex structure (153) for the triangular annular sleeved one-way rotary driving mechanism are the same as those of the vertical triangular structure (146) for the inner sleeve-mounted spiral spring elastic control type buffering and pressurizing mechanism.

10. The middle connection device of an integrated multifunctional rotating component as claimed in claim 8, wherein: the triangular annular sleeved one-way rotation driving mechanism in the shaft sleeve ring body (151) for the triangular annular sleeved one-way rotation driving mechanism is sleeved on the side face of the main rotating column (16) through a sleeving hole (152).

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