CN112589533A - Circulating axial scale adjustment mechanism for machining - Google Patents

Abstract

The invention discloses a circulating axial scale adjusting mechanism for machining, which comprises a driven device, wherein an adjusting device is connected at the position of the side end of the driven device in a contact manner, the driven device comprises a first sleeve disc, a rack, a second sleeve disc, a connecting shaft rod, a first sheet tooth, a second sheet tooth, a guide disc and a support column, the first sleeve disc is arranged on one side of the inner end of the driven device, the side end of the first sleeve disc is fixedly connected with the second sleeve disc through the rack, the side end of the second sleeve disc is fixedly connected with the guide disc through the support column, the connecting shaft rod penetrates through the central positions of the first sleeve disc, the second sleeve disc and the guide disc, one side of the connecting shaft rod is respectively and rotatably connected with the first sheet tooth and the second sheet tooth, and the adjusting device comprises a limiting structure, a driving structure and a transmission structure. The invention relates to a circulating axial scale adjusting mechanism for machining, which realizes the purpose of inner end scale adjustment through the arrangement of an adjusting device.

Description

Circulating axial scale adjustment mechanism for machining

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to a circulating axial scale adjusting mechanism for machining.

Background

Inner mechanical connection regulation of scale guiding mechanism accessible for machining, realize the adjustment of rotating the scale, realize the control work of rotation efficiency, help carries out real-time accurate rotational positioning, can also help carry out mechanical transmission connection work, solve the inconvenience of tradition connection scale adjustment, can conveniently carry out holistic connection setting simultaneously, make machining can adapt to more mechanical internal environment with scale guiding mechanism, time saving and labor saving's purpose has been reached, conveniently carry out subsequent maintenance work, guarantee the inside connection quality of machinery, but present machining has following problem with scale guiding mechanism:

in the use process, the phenomenon of inconvenient reciprocating adjustment can occur, better efficiency utilization can be realized through reciprocating motion, and meanwhile, the phenomenon that the inside is inconvenient to match and connect is also caused, so certain inconvenience can be caused, and improvement is needed.

Disclosure of Invention

The invention aims to provide a circulating axial scale adjusting mechanism for machining, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a circulating axial scale adjusting mechanism for machining comprises a driven device, wherein an adjusting device is connected to the position of the side end of the driven device in a contact mode, the driven device comprises a first sleeve disc, a rack, a second sleeve disc, a connecting shaft rod, a first sheet tooth, a second sheet tooth, a guide disc and a supporting column, the first sleeve disc is arranged on one side of the inner end of the driven device, the side end of the first sleeve disc is fixedly connected with the second sleeve disc through the rack, the side end of the second sleeve disc is fixedly connected with the guide disc through the supporting column, the connecting shaft rod penetrates through the central positions of the first sleeve disc, the second sleeve disc and the guide disc, one side of the connecting shaft rod is respectively and rotatably connected with the first sheet tooth and the second sheet tooth, the adjusting device comprises a limiting structure, a driving structure and a transmission structure, the driving structure is arranged on one side of the inner end of the adjusting device, and the side end of the driving structure is rotatably connected with the transmission structure, the side of transmission structure rotates with limit structure mutually to be connected, limit structure includes spacing sleeve, first fluted disc, mount, crossbearer, fixed calorie axle, baffle, motor and second fluted disc, the inner bottom at limit structure is established to the baffle, the rear end of baffle is fixed mutually with the crossbearer, fixed calorie axle fixed connection is in the upper portion position of crossbearer and baffle, the center upper end of baffle rotates and is connected with first fluted disc and second fluted disc, the upper end position department cover of first fluted disc and second fluted disc is equipped with spacing sleeve, the motor is installed to upper end one side position of baffle, the center top and the mount looks fixed connection of crossbearer, the drive structure includes actuating lever and driving-disc, the driving-disc is established at the inner center of drive structure, the actuating lever symmetry is established at the upper and lower both ends of driving-disc, the transmission structure includes set post, Protruding frame, centre frame, cyclic annular dish, round pin pedestal, linkage frame and grafting piece, the inner one side at transmission structure is established to the cyclic annular dish, the upper end of cyclic annular dish articulates through round pin pedestal has the linkage frame, the side position department of linkage frame is through inserting the piece and set up with the cover post is articulated mutually, the lower part one side and the protruding frame looks fixed connection of cover post, the bottom position of cover post is pegged graft mutually with the centre frame and is set up.

Preferably, the center frame at the inner end of the transmission structure is inserted into the fixing clamping shaft at the inner end of the limiting structure, and the center frame can be rotatably connected with the inner end of the fixing clamping shaft.

Preferably, the sleeve column at the inner end of the transmission structure is rotatably connected and arranged at the center of the fixed frame.

Preferably, the bottom of the annular disc at the inner end of the transfer structure is inserted into the limit sleeve.

Preferably, the drive rod at the inner end of the drive structure is arranged in an arc-shaped protruding manner and is meshed and connected with the first fluted disc and the second fluted disc through the drive rod.

Preferably, the first sleeve disc, the tooth rack and the second sleeve disc at the inner end of the driven device are integrally designed, the tooth rack in the center is arranged in a conical structure, and the middle parts of the first sleeve disc and the second sleeve disc are designed in a hollow structure.

Preferably, the first plate tooth and the second plate tooth at the inner end of the driven device are symmetrically arranged in contact with the convex frame at the inner end of the transmission structure.

Preferably, the inner end of the transmission structure drives the pin shaft frame to rotate around the center through the annular disc, so that the linkage frame is driven to reciprocate in a sector range.

Preferably, the central position of the linkage frame is made of elastic materials, so that the stretching deformation of two ends can be realized.

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

firstly, by installing a driven device, the inner end of the driven device is connected with a convex frame at the inner end of a transmission structure through a first sheet tooth and a second sheet tooth, the first sheet tooth and the second sheet tooth are driven to integrally move through the movement of the convex frame between the first sheet tooth and the second sheet tooth, the convex frames respectively act on the two ends to drive the first sheet tooth and the second sheet tooth to intermittently move in the same direction, the first sheet tooth and the second sheet tooth act on the side end position of a connecting shaft rod through the movement of the first sheet tooth and the second sheet tooth, a first sleeve disc, a tooth frame and a second sleeve disc are driven to rotate through the connecting shaft rod, a guide disc and a support column at the rear end position are used for limiting the first sleeve disc, the tooth frame and the second sleeve disc, the driving adjustment work of the tooth frame can be realized through the rotation of the first sleeve disc, the tooth frame and the second sleeve disc, and the tooth frame is arranged in a conical structure, so that the surface is connected with the outside more smoothly, through the adjustment of the toothed rack, the driven device can integrally drive the external connecting piece to carry out scale type adjustment work.

Two, through installation adjusting device, adjusting device inner limit structure is used for bearing transmission work, rotate through the inner driving-disc of motor drive structure, and the actuating lever of upper end is connected with first fluted disc and second fluted disc, it rotates to drive first fluted disc and second fluted disc, advance the transmission of action power through spacing sleeve, make the ring type dish of upper end follow and carry out the rotation work, the rotation through the ring type dish can drive the round pin pedestal and rotate around the centre of a circle of ring type dish, and because the setting of linkage frame center elastic material, thereby can drive the linkage frame and carry out curved motion, thereby it carries out reciprocal rotation through the sleeve post that the centre frame is connected to drive the lower extreme, carry out being connected with the inner of slave unit through the protruding frame.

Drawings

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

FIG. 2 is a schematic structural diagram of a driven device according to the present invention;

FIG. 3 is a schematic view of an adjusting device according to the present invention;

FIG. 4 is a schematic structural view of a position limiting structure according to the present invention;

FIG. 5 is a schematic structural diagram of a driving structure according to the present invention;

FIG. 6 is a schematic structural diagram of a transfer structure according to the present invention.

In the figure: 1-a driven device; 2-adjusting means; 3-a first set of discs; 4-a rack; 5-a second set of discs; 6-connecting the shaft rod; 7-first plate tooth; 8-second plate teeth; 9-a guide disc; 10-a support column; 11-a limiting structure; 12-a drive arrangement; 13-a transfer structure; 14-a limit sleeve; 15-a first toothed disc; 16-a fixing frame; 17-a cross frame; 18-fixing the clamp shaft; 19-a baffle plate; 20-an electric motor; 21-a second fluted disc; 22-a drive rod; 23-a drive disc; 24-column sleeving; 25-a convex frame; 26-a central frame; 27-an annular disc; 28-pin pedestal; 29-a linkage frame; 30-plug-in block.

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. 1-6, the present invention provides a technical solution: a circulating axial scale adjusting mechanism for machining comprises a driven device 1, an adjusting device 2 is connected to the position of the side end of the driven device 1 in a contact mode, the driven device 1 comprises a first sleeve disc 3, a toothed rack 4, a second sleeve disc 5, a connecting shaft rod 6, a first piece of tooth 7, a second piece of tooth 8, a guide disc 9 and a support column 10, the first sleeve disc 3 is arranged on one side of the inner end of the driven device 1, the side end of the first sleeve disc 3 is fixedly connected with the second sleeve disc 5 through the toothed rack 4, the side end of the second sleeve disc 5 is fixedly connected with the guide disc 9 through the support column 10, the connecting shaft rod 6 penetrates through the center positions of the first sleeve disc 3, the second sleeve disc 5 and the guide disc 9, one side of the connecting shaft rod 6 is respectively connected with the first piece of tooth 7 and the second piece of tooth 8 in a rotating mode, the adjusting device 2 comprises a limiting structure 11, a driving structure 12 and a transmission structure 13, the driving structure 12 is arranged on one side, the side end position of the driving structure 12 is rotatably connected with the transmission structure 13, the side end of the transmission structure 13 is rotatably connected with the limiting structure 11, the limiting structure 11 comprises a limiting sleeve 14, a first fluted disc 15, a fixing frame 16, a cross frame 17, a fixing clamp shaft 18, a baffle plate 19, a motor 20 and a second fluted disc 21, the baffle plate 19 is arranged at the bottom of the inner end of the limiting structure 11, the rear end of the baffle plate 19 is fixed with the cross frame 17, the fixing clamp shaft 18 is fixedly connected with the upper parts of the cross frame 17 and the baffle plate 19, the upper end of the center of the baffle plate 19 is rotatably connected with the first fluted disc 15 and the second fluted disc 21, the limiting sleeve 14 is sleeved at the upper end position of the first fluted disc 15 and the second fluted disc 21, the motor 20 is arranged at one side position of the upper end of the baffle plate 19, the top of the center of the cross frame 17 is fixedly connected with the fixing frame 16, the driving, the driving rods 22 are symmetrically arranged at the upper end and the lower end of the driving disk 23, the transmission structure 13 comprises a sleeve column 24, a convex frame 25, a central frame 26, an annular disk 27, a pin shaft frame 28, a linkage frame 29 and an inserting block 30, the annular disk 27 is arranged at one side of the inner end of the transmission structure 13, the upper end of the annular disk 27 is hinged with the linkage frame 29 through the pin shaft frame 28, the side end position of the linkage frame 29 is hinged with the sleeve column 24 through the inserting block 30, one side of the lower part of the sleeve column 24 is fixedly connected with the convex frame 25, the bottom end position of the sleeve column 24 is connected with the central frame 26 in an inserting way, by installing the driven device 1, the inner end of the driven device 1 is connected with the convex frame 25 at the inner end of the transmission structure 13 through a first sheet tooth 7 and a second sheet tooth 8, the first sheet tooth 7 and the second sheet tooth 8 are driven to move integrally through the movement of the convex frame 25 between the first sheet tooth 7 and the second sheet tooth 8, and the convex frame 25 acts, can drive first piece tooth 7 and second piece tooth 8 and carry out the discontinuous motion of same direction, and through the motion of first piece tooth 7 and second piece tooth 8, be used in the side position department of connecting axostylus axostyle 6, drive first set of dish 3 through connecting axostylus axostyle 6, tooth frame 4 and second set of dish 5 rotate, the guide disc 9 and the support column 10 of rear end position are used for carrying out first set of dish 3, the spacing work of tooth frame 4 and second set of dish 5, through first set of dish 3, the rotation of tooth frame 4 and second set of dish 5, can realize the drive adjustment work of tooth frame 4, and tooth frame 4 adopts the toper structure setting, make the surface more smooth and smooth of being connected with the external world, through the adjustment of tooth frame 4, can realize that driven device 1 wholly drives external connecting piece and carries out the adjustment work of scale formula.

A central frame 26 at the inner end of the transmission structure 13 is inserted into the fixed clamping shaft 18 at the inner end of the limiting structure 11, the central frame 26 can be rotatably connected at the inner end of the fixed clamping shaft 18, a sleeve column 24 at the inner end of the transmission structure 13 is rotatably connected at the center of the fixed frame 16, the bottom of an annular disc 27 at the inner end of the transmission structure 13 is inserted into the limiting sleeve 14, a driving rod 22 at the inner end of the driving structure 12 is arranged in an arc-shaped protruding manner and is meshed and connected with a first fluted disc 15 and a second fluted disc 21 through the driving rod 22, the first fluted disc 3, the toothed frame 4 and the second fluted disc 5 at the inner end of the driven device 1 are integrally designed, the toothed frame 4 at the central position is arranged in a conical structure, the middle positions of the first fluted disc 3 and the second fluted disc 5 are designed in a hollow structure, the first piece of tooth 7 and the second piece of tooth 8 at the inner end of the driven device 1 are symmetrically, the inner end of the transmission structure 13 drives the pin shaft frame 28 to rotate around the center through the annular disc 27, so as to drive the linkage frame 29 to perform reciprocating motion in a sector range, the central position of the linkage frame 29 is made of an elastic material, so that tensile deformation at two ends can be realized, by installing the adjusting device 2, the limiting structure 11 at the inner end of the adjusting device 2 is used for carrying out transmission work, the driving disc 23 at the inner end of the driving structure 12 is driven to rotate through the motor 20, the driving rod 22 at the upper end is connected with the first fluted disc 15 and the second fluted disc 21 to drive the first fluted disc 15 and the second fluted disc 21 to rotate, the transmission of force is carried out through the limiting sleeve 14, so that the annular disc 27 at the upper end rotates along with the annular disc 27, the pin shaft frame 28 is driven to rotate around the center of the annular disc 27 through the rotation of the annular disc 27, and due to the arrangement of the, thereby driving the link frame 29 to perform an arc-shaped motion and thereby driving the lower end to perform a reciprocating rotation through the sleeve post 24 connected to the center frame 26 and to perform a connection with the inner end of the driven device 1 through the protruding frame 25.

The working principle is as follows: when the device needs to work, a user starts the motor 20 to drive the driving rod 22 and the driving disk 23 to rotate, so as to drive the first fluted disc 15 and the second fluted disc 21 to rotate, the limiting sleeve 14 is driven to rotate through transmission, the annular disk 27 connected with the upper end of the limiting sleeve 14 is driven to rotate, the linkage frame 29 is driven to reciprocate through the pin shaft frame 28, the sleeve column 24 is driven to synchronously move through the central frame 26, the convex frame 25 is connected with the central positions of the first sheet tooth 7 and the second sheet tooth 8 at the inner end of the driven device 1, the first sheet tooth 7 and the second sheet tooth 8 rotate intermittently at the same time, so as to drive the connecting shaft rod 6 to act on the positions of the first sleeve disc 3, the tooth frame 4 and the second sleeve disc 5, so as to realize the transmission function, and by installing the driven device 1, the inner end of the driven device 1 is connected with the convex frame 25 at the inner end of the transmission structure 13 through the first sheet tooth 7 and the second sheet tooth 8, the first sheet tooth 7 and the second sheet tooth 8 are driven to move integrally through the movement of the convex frame 25 between the first sheet tooth 7 and the second sheet tooth 8, the first sheet tooth 7 and the second sheet tooth 8 can be driven to move discontinuously in the same direction through the respective action of the convex frame 25 at two ends, the first sheet tooth 7 and the second sheet tooth 8 are driven to rotate through the connecting shaft rod 6 at the side end position of the connecting shaft rod 6 through the movement of the first sheet tooth 7 and the second sheet tooth 8, the guide disc 9 and the support column 10 at the rear end position are used for limiting the first sleeve disc 3, the toothed frame 4 and the second sleeve disc 5, the driving adjustment work of the toothed frame 4 can be realized through the rotation of the first sleeve disc 3, the toothed frame 4 and the second sleeve disc 5, the toothed frame 4 is arranged in a conical structure, the surface is connected with the outside more smoothly, and the adjustment of the toothed frame 4 is realized through the adjustment of the toothed frame 4, the driven device 1 can integrally drive the external connecting piece to perform scale type adjustment work, the adjusting device 2 is installed, the limiting structure 11 at the inner end of the adjusting device 2 is used for carrying out bearing transmission work, the driving disc 23 at the inner end of the driving structure 12 is driven to rotate by the motor 20, the driving rod 22 at the upper end is connected with the first fluted disc 15 and the second fluted disc 21 to drive the first fluted disc 15 and the second fluted disc 21 to rotate, the transmission of action force is carried out by the limiting sleeve 14, the annular disc 27 at the upper end is driven to rotate along with the driving disc 27, the pin shaft frame 28 is driven to rotate around the center of the annular disc 27 by the rotation of the annular disc 27, and due to the arrangement of the elastic material at the center of the linkage frame 29, the linkage frame 29 is driven to perform arc-shaped motion, so as to drive the sleeve column 24 at the lower end connected by the central frame 26 to perform reciprocating rotation, and the connection with the, 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 (9)

1. The utility model provides a circulating axial scale guiding mechanism for machining, includes slave unit (1), its characterized in that: the side end position of the driven device (1) is in contact connection with an adjusting device (2), the driven device (1) comprises a first sleeve disc (3), a toothed rack (4), a second sleeve disc (5), a connecting shaft rod (6), a first sheet tooth (7), a second sheet tooth (8), a guide disc (9) and a support column (10), the first sleeve disc (3) is arranged on one side of the inner end of the driven device (1), the side end of the first sleeve disc (3) is fixedly connected with the second sleeve disc (5) through the toothed rack (4), the side end position of the second sleeve disc (5) is fixedly connected with the guide disc (9) through the support column (10), the connecting shaft rod (6) penetrates through the central positions of the first sleeve disc (3), the second sleeve disc (5) and the guide disc (9), one side of the connecting shaft rod (6) is respectively in rotating connection with the first sheet tooth (7) and the second sheet tooth (8), adjusting device (2) includes limit structure (11), drive structure (12) and transmission structure (13), establish inner one side at adjusting device (2) drive structure (12), the side position and the transmission structure (13) of drive structure (12) are rotated mutually and are connected, the side and the limit structure (11) of transmission structure (13) are rotated mutually and are connected, limit structure (11) are including spacing sleeve (14), first fluted disc (15), mount (16), crossbearer (17), fixed calorie of axle (18), baffle (19), motor (20) and second fluted disc (21), baffle (19) are established in the inner bottom of limit structure (11), the rear end and the crossbearer (17) of baffle (19) are fixed mutually, fixed calorie of axle (18) fixed connection is in the upper portion position of crossbearer (17) and baffle (19), the center upper end of baffle (19) rotates and is connected with first fluted disc (15) and second fluted disc (21), the upper end position department cover of first fluted disc (15) and second fluted disc (21) is equipped with stop sleeve (14), motor (20) are installed to upper end one side position of baffle (19), the central top and the mount (16) looks fixed connection of crossbearer (17), drive structure (12) are including actuating lever (22) and driving-disc (23), driving-disc (23) are established at the inner center of drive structure (12), the upper and lower both ends at driving-disc (23) are established to actuating lever (22) symmetry, transfer structure (13) are including set post (24), protruding frame (25), centre frame (26), cyclic annular dish (27), round pin axle frame (28), link frame (29) and plug block (30), establish in the inner one side of transfer structure (13) cyclic annular dish (27), the upper end of cyclic annular dish (27) is articulated through round pin axle frame (28) and is had link frame (29), the side position department of linkage frame (29) sets up with set post (24) through pegging graft piece (30) looks articulated, the lower part one side and protruding frame (25) looks fixed connection of set post (24), the bottom position and the central frame (26) of set post (24) are pegged graft mutually and are set up.

2. The circulating axial scale adjustment mechanism for machining according to claim 1, wherein: the center frame (26) at the inner end of the transfer structure (13) is inserted into the fixed clamping shaft (18) at the inner end of the limiting structure (11), and the center frame (26) can be rotatably connected with the inner end of the fixed clamping shaft (18).

3. The circulating axial scale adjustment mechanism for machining according to claim 1, wherein: the sleeve column (24) at the inner end of the transmission structure (13) is rotatably connected with the center of the fixed frame (16).

4. The circulating axial scale adjustment mechanism for machining according to claim 1, wherein: the bottom of the annular disc (27) at the inner end of the transmission structure (13) is inserted into the limiting sleeve (14).

5. The circulating axial scale adjustment mechanism for machining according to claim 1, wherein: the drive rod (22) at the inner end of the drive structure (12) is arranged in an arc-shaped protruding mode and is meshed and connected with the first fluted disc (15) and the second fluted disc (21) through the drive rod (22).

6. The circulating axial scale adjustment mechanism for machining according to claim 1, wherein: the first sleeve disc (3), the tooth rack (4) and the second sleeve disc (5) at the inner end of the driven device (1) are integrally designed, the tooth rack (4) at the central position is arranged in a conical structure, and the middle positions of the first sleeve disc (3) and the second sleeve disc (5) are designed in a hollow structure.

7. The circulating axial scale adjustment mechanism for machining according to claim 1, wherein: the first plate tooth (7) and the second plate tooth (8) at the inner end of the driven device (1) are symmetrically arranged in contact with the convex frame (25) at the inner end of the transmission structure (13).

8. The circulating axial scale adjustment mechanism for machining according to claim 1, wherein: the inner end of the transmission structure (13) drives the pin shaft frame (28) to rotate around the center through the annular disc (27), so that the linkage frame (29) is driven to reciprocate in a sector range.

9. The circulating axial scale adjustment mechanism for machining according to claim 1, wherein: the central position of the linkage frame (29) is made of elastic materials, so that the stretching deformation of two ends can be realized.

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