CN112621331A - Double-drive type fixed torque driving part for machining - Google Patents

Abstract

The invention discloses a double-drive fixed torque driving component for machining, which comprises a transmission component, wherein the side end position of the transmission component is rotatably connected with an output component, the transmission component comprises a connecting structure and a supporting structure, the supporting structure is arranged at the bottom position of the inner end of the transmission component, the upper end of the center of the supporting structure is sleeved with the connecting structure, the connecting structure comprises an adjusting device, a limiting pin, a rotating fluted disc, a transmission column and a central frame column, the central frame column is arranged at the center of the inner end of the connecting structure, the side end position of the connecting structure is sleeved with the adjusting device, the side end of the adjusting device is slidably connected with the limiting pin, the lower end of the limiting pin is hinged with the rotating fluted disc, and the lower end position of the rotating fluted disc is rotatably connected with the transmission disc. The invention relates to a double-drive fixed torque driving component for machining, which realizes the purpose of inner end transmission through the arrangement of a transmission component.

Description

Double-drive type fixed torque driving part for machining

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to a double-drive type fixed torque driving part for machining.

Background

Machining can help carrying out the inside drive work of machinery with driving the part, setting through inner accessories, can realize that the transmission drives integrative work purpose, help carrying out the operation drive function of mechanical complete machine, solve inner transmission efficiency problem, promote holistic flexibility, processing production operation for the mechanization provides necessary technical support, solve the inconvenience that traditional machinery inner drove, can improve inside transmission efficiency simultaneously, make machining can adapt to more processing production environment with driving the part, time saving and labor saving's purpose has been reached, conveniently maintain work, guarantee the quality of product, but present machining has following problem with driving the part:

in the use process, the phenomenon that the inner is not convenient for fixing torque regulation and control can be caused, the control work of the rotating force can not be carried out, and the synchronous externally-driven setting can not be carried out, so that certain inconvenience can be caused, and improvement is needed.

Disclosure of Invention

The invention aims to provide a double-drive type fixed torque driving part for machining, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the double-drive fixed torque driving component for machining comprises a transmission component, wherein the side end position of the transmission component is rotatably connected with an output component, the transmission component comprises a connecting structure and a supporting structure, the supporting structure is arranged at the bottom position of the inner end of the transmission component, the upper end of the center of the supporting structure is sleeved with the connecting structure, the connecting structure comprises an adjusting device, a limiting pin, a rotary fluted disc, a transmission column and a central frame column, the central frame column is arranged at the center of the inner end of the connecting structure, the side end position of the connecting structure is sleeved with the adjusting device, the side end of the adjusting device is slidably connected with the limiting pin, the lower end of the limiting pin is hinged with the rotary fluted disc, the lower end position of the rotary fluted disc is rotatably connected with the transmission disc, the transmission column is fixedly connected to the lower end position of the transmission disc, and the adjusting device comprises a sleeve shaft frame, The device comprises a displacement groove, a clamping plate, a first contact frame and a second contact frame, wherein the clamping plate is arranged at the center of the inner end of an adjusting device, the displacement groove is formed in one end of the clamping plate, the center of the clamping plate is welded with a sleeve shaft frame, the upper part of the other end of the clamping plate is fixedly connected with the first contact frame and the second contact frame, the supporting structure comprises a first placing plate, a supporting frame column, a first supporting plate, a second supporting plate and a second placing plate, the first supporting plate and the second supporting plate are symmetrically arranged at the bottom of the inner end of the supporting structure, the upper end positions of the first supporting plate and the second supporting plate are fixedly connected with the supporting frame column, the upper end positions of the supporting frame column are respectively and fixedly connected with the first placing plate and the second placing plate, the output part comprises a first output fluted disc, a matching disc frame, a second output fluted disc, a sleeve column, a spring, a matching tooth block and a ring shaft frame, the first output fluted disc is arranged on one side of the inner end of the output component, the center of the output component is rotatably connected with a second output fluted disc at the side end through a matching disc frame, the side end position of the second output fluted disc is sleeved with a ring shaft frame, the side end of the ring shaft frame is fixedly connected with a sleeve column, one end of the sleeve column is elastically connected with a spring, and the outer wall position of the matching disc frame is fixedly connected with a matching tooth block.

Preferably, one end of the spring at the inner end of the output part is elastically connected with the inner side positions of the first output fluted disc and the second output fluted disc.

Preferably, the matching toothed block on the matching disc frame is matched with the first contact frame and the second contact frame at the inner end of the adjusting device, and the gap between the first contact frame and the second contact frame is larger than the thickness of the matching toothed block.

Preferably, the central point of the first placing plate and the second placing plate at the inner end of the supporting structure is provided with a groove structure, and the first placing plate and the second placing plate are sleeved with the central frame column through the central groove structure.

Preferably, the first contact frame and the second contact frame at the inner end of the adjusting device are arranged in a staggered mode, a gap is formed between the first contact frame and the second contact frame, the first contact frame and the second contact frame are arranged in an inclined structure and can be in adaptive contact with the matching tooth blocks.

Preferably, a displacement groove formed in the side end of the clamping plate at the inner end of the adjusting device is in adaptive connection with the limiting pin, and the rotating fluted disc can slide on the displacement groove through the limiting pin.

Preferably, the rotating fluted disc, the transmission disc and the transmission column at the inner end of the connecting structure are symmetrically arranged and are meshed and connected with the outside through the same gear.

Preferably, the limiting pin at the inner end of the connecting structure drives the adjusting device to be connected in a rotating mode through the rotating fluted disc.

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

the inner end of the connecting structure is connected with the outside through a rotating fluted disc at the side part and is symmetrically arranged and connected through the same outside gear to drive the rotating fluted disc which is symmetrically arranged up and down to move in opposite hour directions so as to drive a limiting pin to rotate, the adjusting device can perform reciprocating rotating work around a central frame column through the connection of the limiting pin and the adjusting device and acts on the top position of the adjusting device so as to drive the connecting structure to drive the specific work of the output part, and the inner end of the connecting structure is provided with a conducting disc and a conducting column which are used for performing central position connection and can be installed in a manner of being matched with an outside bearing seat, the rotation of the center is convenient to carry out, the inner end of the adjusting device is connected with the center frame column through the sleeve shaft frame, the adjusting device can rotate around the center frame column, the displacement groove at the bottom position is matched with the limiting pin, the limiting pin can slide at the inner end of the displacement groove to drive the displacement groove to displace, so that the first contact frame and the second contact frame are driven to be in contact with the inner end matching toothed block of the output part to drive the matching toothed block to rotate, the adjusting device is also symmetrically arranged, the output part can be driven to rotate through different hour hands of the symmetrically arranged rotating toothed discs, the mutual motion interference condition is prevented, the supporting structure is installed, the first placing disc and the second placing disc are sleeved with the center frame column and act on the first supporting plate and the second supporting plate through the transmission of the supporting frame column, the bottom is supported by the first support plate and the second support plate, and integral installation and erection are facilitated.

Two, through the installation output unit, output unit inner first output fluted disc and second output fluted disc can carry out the contact rotation with the external world, thereby can realize external accurate drive purpose, cooperation tooth piece through cooperation plate rail outer end contacts with first contact frame and second contact frame, make cooperation tooth piece drive cooperation plate rail carry out the rotation work, and cooperation plate rail side is through the sleeve post, spring and ring shaft frame respectively with first output fluted disc and second output fluted disc and carry out elastic connection, realize mutual connection, thereby realize the position of first output fluted disc and second output fluted disc and prescribe a limit to, because first contact frame and second contact frame rotate through the drive of rotating the fluted disc, can realize and the rotation of being connected between the cooperation plate rail, thereby realize accurate control's purpose.

Drawings

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

FIG. 2 is a schematic structural view of a transmission member of the present invention;

FIG. 3 is a schematic structural view of a connection structure according to the present invention;

FIG. 4 is a schematic view of the structure of the adjusting device of the present invention;

FIG. 5 is a schematic structural view of a support structure according to the present invention;

FIG. 6 is a schematic structural view of an output member of the present invention;

fig. 7 is an enlarged view of a portion of the output member of the present invention at a.

In the figure: 1-a transmission component; 2-an output member; 3-a linking structure; 4-a support structure; 5-a regulating device; 6-a limit pin; 7-rotating the fluted disc; 8-a conductive disc; 9-a transfer column; 10-a central frame post; 11-a sleeve shaft frame; 12-a displacement groove; 13-a clamping plate; 14-a first contact frame; 15-a second contact frame; 16-a first holding tray; 17-a strut column; 18-a first support plate; 19-a second support plate; 20-a second holding tray; 21-a first output fluted disc; 22-mating tray frame; 23-a second output fluted disc; 24-column sleeving; 25-a spring; 26-mating tooth blocks; 27-ring shaft bracket.

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 double-drive type fixed torque driving component for machining comprises a transmission component 1, an output component 2 is rotatably connected to the side end position of the transmission component 1, the transmission component 1 comprises a connecting structure 3 and a supporting structure 4, the supporting structure 4 is arranged at the bottom position of the inner end of the transmission component 1, the connecting structure 3 is sleeved at the upper end of the center of the supporting structure 4, the connecting structure 3 comprises an adjusting device 5, a limiting pin 6, a rotating fluted disc 7, a transmission disc 8, a transmission column 9 and a central frame column 10, the central frame column 10 is arranged at the center of the inner end of the connecting structure 3, the side end position of the connecting structure 3 is sleeved with the adjusting device 5, the side end of the adjusting device 5 is slidably connected with the limiting pin 6, the lower end of the limiting pin 6 is hinged with the rotating fluted disc 7, the lower end position of the rotating fluted disc 7 is rotatably connected with the transmission disc 8, the transmission column 9 is fixedly connected to the, the adjusting device 5 comprises a sleeve shaft frame 11, a displacement groove 12, a clamping plate 13, a first contact frame 14 and a second contact frame 15, the clamping plate 13 is arranged at the center of the inner end of the adjusting device 5, the displacement groove 12 is formed in one end of the clamping plate 13, the center of the clamping plate 13 is welded with the sleeve shaft frame 11, the upper portion of the other end of the clamping plate 13 is fixedly connected with the first contact frame 14 and the second contact frame 15, the supporting structure 4 comprises a first placing disc 16, a supporting frame column 17, a first supporting plate 18, a second supporting plate 19 and a second placing disc 20, the first supporting plate 18 and the second supporting plate 19 are symmetrically arranged at the bottom of the inner end of the supporting structure 4, the upper end positions of the first supporting plate 18 and the second supporting plate 19 are fixedly connected with the supporting frame column 17, the upper end position of the supporting frame column 17 is fixedly connected with the first placing disc 16 and the second placing disc 20 respectively, the output part 2 comprises a first output fluted disc 21, a second output fluted disc 21, The matching disc frame 22, the second output fluted disc 23, the sleeve column 24, the spring 25, the matching toothed block 26 and the ring shaft frame 27, the first output fluted disc 21 is arranged at one side of the inner end of the output part 2, the center of the output part 2 is rotationally connected with the second output fluted disc 23 at the side end through the matching disc frame 22, the side end position of the second output fluted disc 23 is sleeved with the ring shaft frame 27, the side end of the ring shaft frame 27 is fixedly connected with the sleeve column 24, one end of the sleeve column 24 is elastically connected with the spring 25, the matching toothed block 26 is fixedly connected at the outer wall position of the matching disc frame 22, by installing the transmission part 1, the inner end of the transmission part 1 is composed of a connecting structure 3 and a supporting structure 4, wherein the connecting structure 3 is used for performing the transmission function of the power, the supporting structure 4 is used for performing the supporting work at the center position, the inner end of the connecting structure 3 is connected with the, the rotating fluted disc 7 is symmetrically arranged and is connected through the same external gear, the rotating fluted disc 7 which is symmetrically arranged up and down can be driven to move anticlockwise so as to drive the limit pin 6 to rotate, the adjusting device 5 can perform reciprocating rotating work around the central frame column 10 through the connection of the limit pin 6 and the adjusting device 5 and act on the top position of the adjusting device 5 so as to drive the connecting structure 3 to drive the output component 2 to perform specific work, the transmission disc 8 and the transmission column 9 at the inner end of the connecting structure 3 are used for performing central position connection and can be installed in a matching way with an external bearing seat to facilitate central rotation, the inner end of the adjusting device 5 is connected with the central frame column 10 through the sleeve shaft frame 11 so as to enable the adjusting device 5 to rotate around the central frame column 10, and the displacement groove 12 at the bottom position is matched with the limit pin 6, make the spacer pin 6 can slide in displacement groove 12 the inner, it carries out the displacement to drive displacement groove 12, thereby drive first contact frame 14 and second contact frame 15, carry out the contact with output part 2 the inner cooperation tooth piece 26, thereby drive the rotation of cooperation tooth piece 26, and adjusting device 5 also adopts the symmetry setting, rotation in the different hour hands of the rotation fluted disc 7 that sets up through the symmetry, thereby can reach common drive output part 2's purpose, thereby prevent mutual motion interference condition, and bearing structure 4's installation, set up with centre frame post 10 through first setting up dish 16 and second setting up of putting, transmission through support frame post 17, be used in first backup pad 18 and second backup pad 19, carry out the support of bottom through first backup pad 18 and second backup pad 19, help carrying out holistic installation and erect.

One end of a spring 25 at the inner end of the output part 2 is elastically connected with the inner side positions of a first output fluted disc 21 and a second output fluted disc 23, a matching toothed block 26 on a matching plate frame 22 is matched with a first contact frame 14 and a second contact frame 15 at the inner end of the adjusting device 5, the gap between the first contact frame 14 and the second contact frame 15 is larger than the thickness of the matching toothed block 26, the central positions of a first placing plate 16 and a second placing plate 20 at the inner end of the supporting structure 4 are both provided with groove body structures, the first placing plate 16 and the second placing plate 20 are sleeved with a central frame column 10 through the central groove body structures, the first contact frame 14 and the second contact frame 15 at the inner end of the adjusting device 5 are arranged in a staggered mode, a gap is arranged between the first contact frame 14 and the second contact frame 15, the first contact frame 14 and the second contact frame 15 are arranged in an inclined mode and can be in adaptive contact with the matching toothed block 26, a displacement groove 12 formed at the side end of a clamping plate 13 at the inner end of the adjusting device 5, the rotating fluted disc 7 can slide on the displacement slot 12 through the limiting pin 6, the rotating fluted disc 7, the conducting disc 8 and the conducting post 9 at the inner end of the connecting structure 3 are symmetrically arranged and are meshed and connected with the outside through the same gear, the limiting pin 6 at the inner end of the connecting structure 3 drives the adjusting device 5 to be rotationally connected through the rotating fluted disc 7, the first output fluted disc 21 and the second output fluted disc 23 at the inner end of the output part 2 can be contacted and rotated with the outside through installing the output part 2, so that the accurate driving purpose of the outside can be realized, the matching fluted block 26 at the outer end of the matching disk frame 22 is contacted with the first contact frame 14 and the second contact frame 15, so that the matching fluted block 26 drives the matching disk frame 22 to rotationally work, and the side end of the matching disk frame 22 is respectively and elastically connected with the first output fluted disc 21 and the second output fluted disc 23 through the sleeve column 24, the spring 25 and the ring shaft frame 27, mutual connection is realized, so that the position limitation of the first output fluted disc 21 and the second output fluted disc 23 is realized, and the first contact frame 14 and the second contact frame 15 are driven to rotate through the rotating fluted disc 7, so that the connection rotation between the first contact frame and the matching disc frame 22 can be realized, and the aim of accurate control is realized.

The working principle is as follows: when the device needs to work, a user drives the rotating fluted disc 7 which is symmetrically arranged to rotate by starting an external gear, the adjusting device 5 is driven to rotate by the sleeve shaft frame 11 through the movement of the limiting pin 6 on the displacement groove 12 at the inner end of the adjusting device 5, so that the first contact frame 14 and the second contact frame 15 are in contact with the matching toothed block 26 on the matching dish frame 22, and the matching dish frame 22 is driven to be accurately driven, and then the first output fluted disc 21 and the second output fluted disc 23 are driven to rotate by the sleeve column 24, the spring 25 and the ring shaft frame 27, so that the purpose of driving the external drive is realized, the inner end of the transmission part 1 is composed of the connecting structure 3 and the supporting structure 4 by installing the transmission part 1, wherein the connecting structure 3 is used for carrying out the transmission function of the action force, and the supporting structure 4 is used for carrying out the supporting work at the central position, the inner end of the connecting structure 3 is connected with the outside through a rotating fluted disc 7 on the side part, the rotating fluted disc 7 is symmetrically arranged and is connected through the same gear on the outside, the rotating fluted disc 7 which is symmetrically arranged up and down can be driven to move anticlockwise, so that the limiting pin 6 can be driven to rotate, the adjusting device 5 can perform reciprocating rotating work around a central frame column 10 through the connection of the limiting pin 6 and the adjusting device 5 and acts on the top position of the adjusting device 5, so that the connecting structure 3 is driven to drive the output part 2 to perform specific work, the inner end of the connecting structure 3 is provided with a conducting disc 8 and a conducting column 9 which are used for performing connection of a central position and can be installed in a matching way with an outside bearing seat, the rotation of the center is convenient, the inner end of the adjusting device 5 is connected with the central frame column 10 through a sleeve shaft frame 11, so that the adjusting device 5 can rotate around the central frame column, the displacement groove 12 at the bottom position is matched with the limit pin 6, so that the limit pin 6 can slide at the inner end of the displacement groove 12 to drive the displacement groove 12 to displace, thereby driving the first contact frame 14 and the second contact frame 15 to contact with the inner end of the output part 2 to match with the tooth block 26, thereby driving the rotation of the matching tooth block 26, the adjusting device 5 is also symmetrically arranged, the output part 2 can be driven together by rotating the rotating fluted discs 7 symmetrically arranged at different hour angles, thereby preventing the mutual motion interference situation, the supporting structure 4 is installed, the first placing disc 16 and the second placing disc 20 are sleeved with the central frame column 10, the first supporting plate 18 and the second supporting plate 19 are acted on by the transmission of the supporting frame column 17, and the bottom is supported by the first supporting plate 18 and the second supporting plate 19, the installation and erection of the whole are facilitated, through the installation of the output component 2, the first output fluted disc 21 and the second output fluted disc 23 at the inner end of the output component 2 can be in contact rotation with the outside, so that the accurate driving purpose of the outside can be realized, the matching fluted block 26 at the outer end of the matching dish rack 22 is in contact with the first contact rack 14 and the second contact rack 15, so that the matching fluted block 26 drives the matching dish rack 22 to rotate, the side end of the matching dish rack 22 is in elastic connection with the first output fluted disc 21 and the second output fluted disc 23 respectively through the sleeve column 24, the spring 25 and the ring shaft rack 27, so that the mutual connection is realized, the position limitation of the first output fluted disc 21 and the second output fluted disc 23 is realized, and the connection rotation between the first contact rack 14 and the second contact rack 15 can be realized through the driving of the rotating fluted disc 7, so that the accurate control purpose is realized, and finishing the work.

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 (8)

1. The utility model provides a machining drives part with two formula fixed torque that drive, includes drive disk assembly (1), its characterized in that: the side end position of the transmission component (1) is rotatably connected with an output component (2), the transmission component (1) comprises a connecting structure (3) and a supporting structure (4), the supporting structure (4) is arranged at the bottom position of the inner end of the transmission component (1), the connecting structure (3) is sleeved at the upper center end of the supporting structure (4), the connecting structure (3) comprises an adjusting device (5), a limiting pin (6), a rotating fluted disc (7), a transmission disc (8), a transmission column (9) and a central frame column (10), the central frame column (10) is arranged at the center of the inner end of the connecting structure (3), the side end position of the connecting structure (3) is sleeved with the adjusting device (5), the side end of the adjusting device (5) is slidably connected with the limiting pin (6), the lower end of the limiting pin (6) is hinged with the rotating fluted disc (7), the lower end position of the rotating fluted disc (7) is rotatably connected with a transmission disc (8), the transmission guide post (9) is fixedly connected with the lower end position of the transmission disc (8), the adjusting device (5) comprises a sleeve shaft frame (11), a displacement groove (12), a clamping plate (13), a first contact frame (14) and a second contact frame (15), the clamping plate (13) is arranged at the center of the inner end of the adjusting device (5), the displacement groove (12) is formed in one end of the clamping plate (13), the center position of the clamping plate (13) is welded with the sleeve shaft frame (11), the upper part of the other end of the clamping plate (13) is fixedly connected with the first contact frame (14) and the second contact frame (15), the supporting structure (4) comprises a first placing disc (16), a supporting frame column (17), a first supporting plate (18), a second supporting plate (19) and a second placing disc (20), the first supporting plate (18) and the second supporting plate (19) are symmetrically arranged at the bottom of the inner end of the supporting structure (4), the upper end positions of the first supporting plate (18) and the second supporting plate (19) are fixedly connected with a supporting frame column (17), the upper end position of the supporting frame column (17) is fixedly connected with a first placing disc (16) and a second placing disc (20) respectively, the output part (2) comprises a first output fluted disc (21), a matching disc frame (22), a second output fluted disc (23), a sleeve column (24), a spring (25), a matching toothed block (26) and a ring shaft frame (27), the first output fluted disc (21) is arranged on one side of the inner end of the output part (2), the center of the output part (2) is rotatably connected with a second output fluted disc (23) at the side end through the matching disc frame (22), and the side end position of the second output fluted disc (23) is sleeved with the ring shaft frame (27), the side end of the ring shaft frame (27) is fixedly connected with a sleeve column (24), one end of the sleeve column (24) is elastically connected with a spring (25), and a matching tooth block (26) is fixedly connected to the outer wall of the matching disc frame (22).

2. The double-drive fixed torque driver component for machining according to claim 1, wherein: one end of a spring (25) at the inner end of the output component (2) is elastically connected with the inner side positions of the first output fluted disc (21) and the second output fluted disc (23).

3. The double-drive fixed torque driver component for machining according to claim 1, wherein: the matching tooth block (26) on the matching disc frame (22) is matched with the first contact frame (14) and the second contact frame (15) at the inner end of the adjusting device (5), and the gap between the first contact frame (14) and the second contact frame (15) is larger than the thickness of the matching tooth block (26).

4. The double-drive fixed torque driver component for machining according to claim 1, wherein: the center position of first safe plate (16) and second safe plate (20) that bearing structure (4) are inner all is equipped with the groove structure, first safe plate (16) and second safe plate (20) are through central groove structure and central frame post (10) cup joint the setting mutually.

5. The double-drive fixed torque driver component for machining according to claim 1, wherein: first contact frame (14) and second contact frame (15) at adjusting device (5) inner adopt the dislocation set, and are equipped with the clearance between them, first contact frame (14) and second contact frame (15) adopt the slant structure setting, can with cooperation tooth piece (26) looks adaptation contact.

6. The double-drive fixed torque driver component for machining according to claim 1, wherein: and a displacement groove (12) formed in the side end of a clamping plate (13) at the inner end of the adjusting device (5) is in adaptive connection with the limiting pin (6), and the rotating fluted disc (7) can slide on the displacement groove (12) through the limiting pin (6).

7. The double-drive fixed torque driver component for machining according to claim 1, wherein: the rotating fluted disc (7), the transmission disc (8) and the transmission guide post (9) at the inner end of the connecting structure (3) are symmetrically arranged and are meshed and connected with the outside through the same gear.

8. The double-drive fixed torque driver component for machining according to claim 1, wherein: and the limiting pin (6) at the inner end of the connecting structure (3) drives the adjusting device (5) to rotate and connect through the rotating fluted disc (7).

Images