CN113107983B

CN113107983B - Linkage adjustment type driving connection structure

Info

Publication number: CN113107983B
Application number: CN202110238119.2A
Authority: CN
Inventors: 王义成
Original assignee: Fujian Hongtuo Machinery Manufacturing Co ltd
Current assignee: Fujian Hongtuo Machinery Manufacturing Co ltd
Priority date: 2021-03-04
Filing date: 2021-03-04
Publication date: 2023-03-28
Anticipated expiration: 2041-03-04
Also published as: CN113107983A

Abstract

The invention discloses a linkage adjusting type driving connection structure which comprises a first connection structure, wherein a driving structure is rotatably connected to the center position of one side of the first connection structure, a second connection structure is rotatably connected to the side end position of the driving structure, the first connection structure comprises an adjusting part and a linkage part, the adjusting part is arranged at the bottom position of the inner end of the first connection structure, the side end position of the adjusting part and the linkage part are rotatably inserted and arranged, the adjusting part comprises a stabilizing part and a driven connecting part, the stabilizing part is arranged on one side of the inner end of the adjusting part, the side end position of the stabilizing part and the driven connecting part are rotatably connected, the stabilizing part comprises a stabilizing support, a stand column rod frame and a sleeve ring frame, and the sleeve ring frame is arranged at the center position of the inner end of the stabilizing part. The invention relates to a linkage adjustment type driving connection structure, which realizes the purpose of inner end connection transmission through the arrangement of a first connection structure.

Description

Linkage adjusting type driving connection structure

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to a linkage adjusting type driving connecting structure.

Background

Drive connection structure application in mechanical internal environment, through inner connection, can realize the transmission of strength, the help carries out the inside processing drive of machinery, realize inner connection function, through installation and setting, can help carry out the work of mutually supporting between the machinery, conveniently carry out holistic installation setting, through inner connection cooperation, can help carry out the operation of machinery, realize that the inner drive of machinery is connected, and conveniently carry out machinery and external being connected, realize mutual connection function, thereby reach mechanical production's purpose, but it has following problem to drive connection structure at present:

the phenomenon that regulation type conversion of inner power is inconvenient to carry out exists, certain inconvenience can be caused, power adjustment is inconvenient to carry out, and simultaneously, inner inconvenient linkage type limiting driving needs to be improved.

Disclosure of Invention

The present invention is directed to a linkage adjustment type driving connection structure to solve the problems of the related art.

In order to achieve the purpose, the invention provides the following technical scheme: a linkage adjustment type driving connection structure comprises a first connection structure, a driving structure is rotatably connected to the center position of one side of the first connection structure, a second connection structure is rotatably connected to the side end position of the driving structure, the first connection structure comprises an adjusting part and a linkage part, the adjusting part is arranged at the bottom position of the inner end of the first connection structure, the side end position of the adjusting part and the linkage part are rotatably inserted and arranged, the adjusting part comprises a stabilizing part and a driven connecting part, the stabilizing part is arranged on one side of the inner end of the adjusting part, the side end position of the stabilizing part and the driven connecting part are rotatably connected, the stabilizing part comprises a stabilizing support, a stand column frame and a sleeve disc ring frame, the sleeve disc ring frame is arranged at the center position of the inner end of the stabilizing part, the upper end position of the sleeve disc ring frame is fixedly connected with the stand column frame, the upper end position of the upright post rod frame is fixedly connected with the stabilizing support, the driven connecting piece comprises an external frame, a transmission connecting rod, a transmission plate frame, a casing frame, a central shaft rod, a hook toothed plate and a spring seat, the external frame is arranged on one side of the inner end of the driven connecting piece, the side end position of the external frame is fixedly connected with the transmission connecting rod, the side end position of the transmission connecting rod is fixedly connected with the transmission plate frame, the top position of the transmission plate frame is sleeved with the casing frame, the side end position of the casing frame is elastically connected with the spring seat, the side end position of the spring seat is elastically connected with the hook toothed plate, the central position of the spring seat is connected with the central shaft rod in a penetrating way, the linkage component comprises a motor, a threaded rod, a pushing frame, a rotating sleeve ring, a first rotating shaft rod, a second rotating shaft rod, a smooth rod and a cylinder, the rotating sleeve ring is arranged at the central position of the inner end of the linkage component, the upper end position of the rotating lantern ring is hinged with a first rotating shaft rod, the upper end position of the first rotating shaft rod is hinged with a second rotating shaft rod, the upper end position of the second rotating shaft rod is in sleeve joint with a pushing frame, the inner end of the pushing frame is in threaded connection with a threaded rod, the motor is installed at the top position of the threaded rod, the cylinders are symmetrically and circumferentially distributed at the side end positions of the linkage parts, the lower end positions of the cylinders are in telescopic arrangement with the smooth sliding rods, the driving structure comprises a transmission guide rod, a tooth plate and a double-head motor, the double-head motor is installed at the inner end center position of the driving structure, the side end positions of the double-head motor are in rotary connection with the tooth plate, and the side end positions of the tooth plate are in rotary connection with the transmission guide rod.

Preferably, the first rotating shaft lever and the second rotating shaft lever at the inner end of the linkage component are circumferentially and symmetrically distributed and are connected with the pushing frames which are symmetrically arranged.

Preferably, the second rotating shaft rod performs passive pushing work under the action of the smooth rod through the rotation of the rotating lantern ring.

Preferably, the rotating lantern ring at the inner end of the linkage part is sleeved at the outer end of the tooth sheet disc.

Preferably, the transmission guide rod at the inner end of the driving structure is matched with the hook tooth plate.

Preferably, the hook toothed plate can be clamped with the transmission guide rod, and the hook toothed plate, the transmission disc rack and the casing rack are driven to rotate through rotation of the transmission guide rod.

Preferably, the sleeve disc ring frame is connected to the rear end of the conduction disc frame and is communicated with the conduction connecting rod.

Preferably, the pushing frame and the second rotating shaft rod can be in contact with the hook tooth plate to drive the hook tooth plate to adjust the angle through the spring seat.

Compared with the prior art, the invention has the beneficial effects that:

1. through installing first connection structure and second connection structure, first connection structure and second connection structure adopt the symmetry to set up, and central point puts all to be connected with drive structure, central drive through drive structure, can drive the function of first connection structure and second connection structure respectively, can carry out the transmission work of power through first connection structure and second connection structure, can be connected with the external world through first connection structure and second connection structure, realize external drive work, and the setting of first connection structure and second connection structure inner end structure, conveniently carry out inside regulation work, conveniently carry out inner opening and stopping work, help carrying out inside quick power adjustment function.

2. Through installation drive structure, drive structure is through being connected with first connection structure and second connection structure, realize the center drive of first connection structure and second connection structure, the help carries out the concentrated work that provides of power, can realize through drive structure with the cooperation of first connection structure and second connection structure, conveniently carry out the conduction of power, can carry out the adaptation setting with the inner of first connection structure and second connection structure, the efficiency and the speed of conversion are improved, and the help carries out two-way power transmission, conveniently carry out the installation setting of mechanical inner.

Drawings

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

FIG. 2 is a schematic structural diagram of a first connecting structure according to the present invention;

FIG. 3 is a schematic view of a regulating member according to the present invention;

fig. 4 is a schematic structural view of the stabilizing member of the present invention;

FIG. 5 is a schematic view of the driven link of the present invention;

FIG. 6 is a schematic view of the linkage assembly of the present invention;

fig. 7 is a schematic structural diagram of a driving structure according to the present invention.

In the figure: 1-a first connecting structure; 2-a drive structure; 3-a second connecting structure; 4-a regulatory component; 5-a linkage member; 6, a stabilizing piece; 7-a driven connection; 8-stabilizing the support; 9-upright post rack; 10-a set of disc ring frames; 11-external frame; 12-a conductive connecting rod; 13-a conductive tray frame; 14-a jacket frame; 15-a central shaft; 16-hook toothed plate; 17-a spring seat; 18-an electric motor; 19-a threaded rod; 20-a pushing frame; 21-rotating the collar; 22-a first rotating shaft; 23-a second rotating shaft; 24-a smooth slide bar; 25-cylinder; 26-a transport guide; 27-a toothed disc; 28-double-head motor.

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. 1-7, the present invention provides a technical solution: a linkage adjustment type driving connection structure comprises a first connection structure 1, a driving structure 2 is rotatably connected to the center position of one side of the first connection structure 1, a second connection structure 3 is rotatably connected to the side end position of the driving structure 2, the first connection structure 1 comprises an adjusting part 4 and a linkage part 5, the adjusting part 4 is arranged at the bottom position of the inner end of the first connection structure 1, the side end position of the adjusting part 4 is rotatably inserted into the linkage part 5, the adjusting part 4 comprises a stabilizing part 6 and a driven connecting part 7, the stabilizing part 6 is arranged at one side of the inner end of the adjusting part 4, the side end position of the stabilizing part 6 is rotatably connected with the driven connecting part 7, the stabilizing part 6 comprises a stabilizing support 8, a stand column rod frame 9 and a sleeve disc ring frame 10, the sleeve disc ring frame 10 is arranged at the center position of the inner end of the stabilizing part 6, and the upper end position of the sleeve disc ring frame 10 is fixedly connected with the stand column rod frame 9, the upper end position of the upright post rod frame 9 is fixedly connected with the stable bracket 8, the driven connecting piece 7 comprises an external frame 11, a conduction connecting rod 12, a conduction plate frame 13, a casing frame 14, a central shaft rod 15, a hook tooth plate 16 and a spring seat 17, the external frame 11 is arranged on one side of the inner end of the driven connecting piece 7, the side end position of the external frame 11 is fixedly connected with the conduction connecting rod 12, the side end position of the conduction connecting rod 12 is fixedly connected with the conduction plate frame 13, the top position of the conduction plate frame 13 is sleeved with the casing frame 14, the side end position of the casing frame 14 is elastically connected with the spring seat 17, the side end position of the spring seat 17 is elastically connected with the hook tooth plate 16, the central shaft rod 15 is connected with the central position of the spring seat 17 in a penetrating manner, the linkage part 5 comprises a motor 18, a threaded rod 19, a pushing frame 20, a rotating sleeve ring 21 and a first rotating shaft rod 22, A second rotating shaft rod 23, a smooth rod 24 and a cylinder 25, wherein the rotating sleeve 21 is arranged at the central position of the inner end of the linkage part 5, the upper end of the rotating sleeve 21 is hinged with the first rotating shaft rod 22, the upper end of the first rotating shaft rod 22 is hinged with the second rotating shaft rod 23, the upper end of the second rotating shaft rod 23 is sleeved with the push frame 20, the inner end of the push frame 20 is in threaded connection with the threaded rod 19, the motor 18 is arranged at the top position of the threaded rod 19, the cylinders 25 are symmetrically and circumferentially distributed at the side end of the linkage part 5, the lower end of the cylinder 25 is telescopically arranged with the smooth rod 24, the driving structure 2 comprises a transmission guide rod 26, a toothed disc 27 and a double-head motor 28, the double-head motor 28 is arranged at the central position of the inner end of the driving structure 2, the side end of the double-head motor 28 is rotatably connected with the toothed disc 27, the position of the toothed disc 27 is rotatably connected with the transmission guide rod 26, the first connecting structure 1, the driving structure 2 and the second connecting structure 3 are assembled, then the driving structure 2 is started, the driving structure is arranged with the second rotating sleeve 23 and the second rotating shaft rod 23, when the transmission guide rod 20 and the second rotating sleeve 21 are hinged with the second rotating shaft, the second rotating shaft rod 23, the transmission guide rod 20, the transmission guide rod 23, the transmission structure is hinged with the second rotating shaft 23, the second rotating sleeve rod 23, the second rotating shaft rod 23, through the displacement of the pushing and moving frame 20 and the second rotating shaft rod 23, act on the first rotating shaft rod 22, can drive the rotating lantern ring 21 to rotate and adjust, make the smooth rod 24 connected at the side end position stretch out and draw back under the effect of the cylinder 25, make the hook toothed plate 16 contact with the bottom position of the second rotating shaft rod 23, when the hook toothed plate 16 contacts the second rotating shaft rod 23, the hook toothed plate 16 can rotate due to the effect of the central shaft rod 15 and the spring seat 17, the hook toothed plate 16 can contact with the transmission guide rod 26, mutual clamping is realized, rotation through the transmission guide rod 26 can drive the common rotation of the conduction plate frame 13 and the sheathing frame 14, then transfer is performed through the conduction connecting rod 12, make the external frame 11 rotate, connect with the outside through the external frame 11, realize the driving operation to the outside, realize the conversion of power, when power transfer does not need to be performed, the reverse driving motor 18, drive the pushing and moving back of the second rotating frame 20 and the second rotating shaft rod 23, make the second rotating shaft rod 23 not contact with the hook shaft rod 16, realize the operation of the independent support of the hook, the support can realize the support of the support frame 18 and the support of the stand 8, the support frame can be stably and the stand support frame 8 and can be realized through the top of the stand column support frame 8.

The first rotating shaft rod 22 and the second rotating shaft rod 23 at the inner end of the linkage component 5 are distributed in a circumferential symmetric manner and are connected with pushing frames 20 which are symmetrically arranged, the second rotating shaft rod 23 performs passive pushing work under the action of a smooth rod 24 through rotation of a rotating sleeve ring 21, the rotating sleeve ring 21 at the inner end of the linkage component 5 is sleeved at the outer end position of a tooth disc 27, a transmission guide rod 26 at the inner end of the driving structure 2 and a hook tooth plate 16 are arranged in a matched manner, the hook tooth plate 16 can be clamped with the transmission guide rod 26, the hook tooth plate 16, the transmission disc frame 13 and the sleeve shell frame 14 are driven to perform rotating work through rotation of the transmission guide rod 26, the sleeve disc ring frame 10 is connected at the rear end position of the transmission disc frame 13 and is arranged to be communicated with the transmission connecting rod 12, the pushing frame 20 and the second rotating shaft rod 23 can be in contact with the hook tooth plate 16, the hook tooth plate 16 is driven to perform angle adjustment through a spring seat 17, by installing the first connecting structure 1 and the second connecting structure 3, the first connecting structure 1 and the second connecting structure 3 are symmetrically arranged, the central position of the first connecting structure 1 and the central position of the second connecting structure 3 are both connected with the driving structure 2, the first connecting structure 1 and the second connecting structure 3 can be driven by the central driving of the driving structure 2 respectively, the power transmission work can be carried out by the first connecting structure 1 and the second connecting structure 3, the first connecting structure 1 and the second connecting structure 3 can be connected with the outside, the outside driving work is realized, the arrangement of the inner end structures of the first connecting structure 1 and the second connecting structure 3 is convenient for the internal regulation work, the start-stop work of the inner end is convenient, the internal quick power regulation function is facilitated, by installing the driving structure 2, the driving structure 2 is connected with the first connecting structure 1 and the second connecting structure 3, realize first connection structure 1 and second connection structure 3's central drive, the help carries out the concentration of power and provides work, can realize through drive structure 2 with first connection structure 1 and second connection structure 3's cooperation, conveniently carry out the conduction of power, can carry out the adaptation setting with first connection structure 1 and second connection structure 3's the inner, improve the efficiency and the speed of conversion, and the help carries out two-way power transmission, conveniently carry out the inner installation setting of machinery.

The working principle is as follows: when the working is needed, a user assembles the first connecting structure 1, the driving structure 2 and the second connecting structure 3, then starts the driving structure 2, the double-head motor 28 at the inner end of the driving structure 2 performs central driving work, the double-head motor 28 drives the toothed disc 27 to rotate and acts on the transmission guide rod 26 to rotate the transmission guide rod 26, at this time, the driving structure 2 performs independent work, when external conduction needs to be performed through the first connecting structure 1 and the second connecting structure 3, the motor 18 is started, the motor 18 drives the threaded rod 19 to rotate and acts on the positions of the pushing frame 20 and the second rotating shaft rod 23 to push the positions of the pushing frame 20 and the second rotating shaft rod 23, the side end of the second rotating shaft rod 23 is hinged with the first rotating shaft rod 22, the side end of the first rotating shaft rod 22 is hinged with the rotating sleeve ring 21, through the displacement of the pushing frame 20 and the second rotating shaft rod 23, acting on the first rotating shaft rod 22, the rotating sleeve ring 21 is driven to rotate and adjust, the smooth rod 24 connected with the side end position is made to stretch under the action of the cylinder 25, the hook toothed plate 16 can be in contact with the bottom position of the second rotating shaft rod 23, when the hook toothed plate 16 is in contact with the second rotating shaft rod 23, the hook toothed plate 16 can rotate under the action of the central shaft rod 15 and the spring seat 17, the hook toothed plate 16 can be in contact with the transmission guide rod 26, mutual clamping is realized, the transmission guide rod 26 rotates to drive the transmission plate frame 13 and the housing frame 14 to rotate together, then the transmission is carried out through the transmission connecting rod 12, the external frame 11 rotates, through the connection between the external frame 11 and the outside, the driving operation to the outside is realized, and the power conversion is realized, when power transmission is not needed, the motor 18 is driven reversely, the pushing frame 20 and the second rotating shaft rod 23 are driven to move back, the second rotating shaft rod 23 is not in contact with the hook toothed plate 16, independent operation is achieved, through the arrangement of the sleeve disc ring frame 10, the supporting work of the stabilizing support 8 and the upright post frame 9 can be assisted, the stabilizing installation operation of the motor 18 and the cylinder 25 can be achieved through the stabilizing support 8, the top support is achieved, and work is completed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a linkage regulation formula drives connection structure, includes first connection structure (1), its characterized in that: one side central point of first connection structure (1) puts to rotate and is connected with drive structure (2), the side position of drive structure (2) rotates and is connected with second connection structure (3), first connection structure (1) is including regulation and control part (4) and linkage part (5), the inner bottom position at first connection structure (1) is established in regulation and control part (4), the side position of regulation and control part (4) is rotated with linkage part (5) mutually and is pegged graft the setting, regulation and control part (4) are including firm subassembly (6) and driven connecting piece (7), firm subassembly (6) are established in the inner one side of regulation and control part (4), the side position of firm subassembly (6) rotates with driven connecting piece (7) mutually and is connected the setting, firm subassembly (6) are including firm support (8), stand pole frame (9) and sleeve disc ring frame (10), the inner central point at firm subassembly (6) is established to sleeve disc ring frame (10), the upper end position and stand fixed connection pole frame (9) of sleeve disc ring frame (10) mutually, the conduction frame (13) and conduction frame (12) are established mutually with stand (9), the upper end of sleeve disc ring frame (11), conduction frame (11) mutually including firm support (7), driven connecting piece (7), the conduction frame (11) is established mutually, the transmission device comprises a central shaft rod (15), a hook tooth plate (16) and a spring seat (17), wherein an external frame (11) is arranged on one side of the inner end of a driven connecting piece (7), the side end position of the external frame (11) is fixedly connected with a transmission connecting rod (12), the side end position of the transmission connecting rod (12) is fixedly connected with a transmission disc frame (13), the top position of the transmission disc frame (13) is sleeved with a casing frame (14), the side end position of the casing frame (14) is elastically connected with the spring seat (17), the side end position of the spring seat (17) is elastically connected with the hook tooth plate (16), the central position of the spring seat (17) is connected with the central shaft rod (15) in a penetrating manner, a linkage part (5) comprises a motor (18), a threaded rod (19), a pushing frame (20), a rotating sleeve ring (21), a first rotating shaft rod (22), a second rotating shaft rod (23), a smooth rod (24) and a cylinder (25), the rotating sleeve ring (21) is arranged at the central position of the inner end of the linkage part (5), the upper end position of the first rotating shaft rod (22) is hinged with the rotating sleeve ring (23), and the second rotating shaft rod (23) is hinged with the rotating sleeve ring (22), the inner end threaded connection of pushing away frame (20) has threaded rod (19), the top position department at threaded rod (19) is installed in motor (18), cylinder (25) symmetry circumference distributes in the side position department of linkage part (5), the lower extreme position and the smooth rod (24) of cylinder (25) set up with stretching out and drawing back mutually, drive structure (2) are including transmission guide arm (26), flight dish (27) and double-head motor (28), the inner central point department of putting in drive structure (2) is installed in double-head motor (28), the side position and the flight dish (27) of double-head motor (28) rotate mutually and are connected, the side position and the transmission guide arm (26) of flight dish (27) rotate mutually and are connected.

2. The linkage adjustable type belt drive connection structure as claimed in claim 1, wherein: the first rotating shaft lever (22) and the second rotating shaft lever (23) at the inner end of the linkage component (5) are circumferentially and symmetrically distributed and are connected with the symmetrically arranged pushing frame (20).

3. The linkage adjustable type belt drive connection structure as claimed in claim 1, wherein: the second rotating shaft lever (23) performs passive pushing work under the action of the smooth rod (24) through the rotation of the rotating sleeve ring (21).

4. The linkage adjustable type belt drive connection structure as claimed in claim 1, wherein: the rotating lantern ring (21) at the inner end of the linkage part (5) is sleeved at the outer end of the tooth sheet disc (27).

5. The linkage adjustable type belt drive connection structure as claimed in claim 1, wherein: the transmission guide rod (26) at the inner end of the driving structure (2) is matched with the hook tooth plate (16).

6. The linkage adjustable type belt drive connection structure as claimed in claim 1, wherein: the hook tooth plate (16) can be clamped with the transmission guide rod (26), and the hook tooth plate (16), the transmission disc rack (13) and the casing rack (14) are driven to rotate through rotation of the transmission guide rod (26).

7. The linkage adjustable type belt drive connection structure as claimed in claim 1, wherein: the sleeve disc ring frame (10) is connected to the rear end position of the conduction disc frame (13) and is communicated with the conduction connecting rod (12).

8. The linkage adjustable type belt drive connection structure as claimed in claim 1, wherein: the pushing frame (20) and the second rotating shaft rod (23) can be in contact with the hook tooth plate (16) to drive the hook tooth plate (16) to adjust the angle through the spring seat (17).