CN115157067A - Multidirectional numerical control turntable polishing machine for side surfaces of pliers - Google Patents

Abstract

The invention provides a multi-directional numerical control turntable polishing machine for the side surface of a clamp, which relates to the technical field of polishing machines and comprises a rotary motion mechanism and a polishing mechanism, wherein the rotary motion mechanism rotates for 360 degrees, the surface of the rotary motion mechanism is provided with a plurality of clamping and positioning mechanisms which are arranged at intervals and used for clamping and positioning the clamp, the plurality of clamping and positioning mechanisms surround the center of the rotary motion mechanism and synchronously rotate with the rotary motion mechanism, and the polishing mechanism is arranged above the rotary motion mechanism. When the clamping and positioning mechanism rotates to the position below the polishing mechanism, the polishing mechanism is used for polishing the pliers arranged on the clamping and positioning mechanism, particularly for carrying out multi-directional numerical control polishing on the side surfaces of the pliers, and the defects that in the prior art, the pliers are polished by manually matching equipment, the labor intensity is high, the processing efficiency is low, and the polishing quality is difficult to control are overcome.

Description

Multidirectional numerical control turntable polishing machine for side surfaces of pliers

Technical Field

The invention relates to the technical field of polishing machines, in particular to a multi-azimuth numerical control turntable polishing machine for a side face of a clamp.

Background

Polishing is a processing method for reducing the roughness of the surface of a workpiece by using mechanical, chemical or electrochemical action to obtain a bright and flat surface, and particularly relates to a processing method for modifying the surface of the workpiece by using a polishing tool and abrasive particles or other polishing media.

At present, the pliers are widely used as hardware tools, the demand is large, and the hardware tools such as the pliers and the like have a polishing procedure after the main body is machined and formed. The mode that relies on artifical cooperation equipment has intensity of labour bigger than normal, machining efficiency lower than normal, the polishing quality is difficult to the problem of accuse among the prior art, and the quality is difficult to the pincers size that accuse specifically means each processing differs, and the width is different and the round edge is different.

In the face of the increasing tool use requirements and the phenomenon of labor shortage, how to improve the polishing efficiency of the pliers becomes a technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

In view of the above, the invention aims to provide a multi-directional numerical control turntable polishing machine for a lateral surface of a pair of pliers, so as to solve the technical problems that in the prior art, the labor intensity is large, the processing efficiency is low, and the polishing quality is difficult to control due to manual matching of equipment for polishing the pliers.

In order to achieve the purpose, the invention provides a multi-azimuth numerical control turntable polishing machine for the side face of a clamp, which comprises a rotary motion mechanism and a polishing mechanism, wherein the rotary motion mechanism rotates in 360 degrees, a plurality of clamping and positioning mechanisms which are arranged at intervals and used for clamping and positioning the clamp are arranged on the surface of the rotary motion mechanism, the plurality of clamping and positioning mechanisms surround the center of the rotary motion mechanism and rotate synchronously with the rotary motion mechanism, the polishing mechanism is arranged above the rotary motion mechanism, and when the clamping and positioning mechanisms rotate to the lower side of the polishing mechanism, the polishing mechanism is used for polishing the clamp arranged on the clamping and positioning mechanisms.

Preferably, the device further comprises a vibration feeding mechanism, wherein the vibration feeding mechanism is movably arranged on the edge of the rotary motion mechanism and used for feeding the clamping and positioning mechanism.

Preferably, vibration feed mechanism includes supporting seat, vibration tray and drive assembly, but vibration tray vibratedly install in on the supporting seat, drive assembly locates the tip of vibration tray, and with the vibration tray is perpendicular, drive assembly is used for will arranging in pliers on the vibration tray removes extremely on the centre gripping positioning mechanism.

Preferably, the driving assembly comprises a feeding cylinder and a sliding block, the feeding cylinder is in driving connection with the sliding block, and the sliding block moves towards the clamping and positioning mechanism to drive the pliers to move towards the clamping and positioning mechanism.

Preferably, the clamping and positioning mechanism comprises a fixed block, a sliding block and a clamping cylinder, the fixed block and the sliding block are arranged oppositely, and a dovetail groove for accommodating a pliers is arranged between the fixed block and the sliding block.

Preferably, the pneumatic slip ring driving mechanism is located above the center of the rotary motion mechanism and used for enabling the air supply pipe of the clamping and positioning mechanism and the clamping and positioning mechanism to rotate synchronously.

Preferably, the pneumatic slip ring driving mechanism comprises a first servo motor, a motor gear and an electric slip ring, the first servo motor is in driving connection with the motor gear, the motor gear is in meshing transmission connection with the electric slip ring, the first servo motor and the rotary motion mechanism have the same rotating frequency, and the electric slip ring drives the air supply pipe to rotate synchronously.

Preferably, the polishing mechanism comprises a second servo motor, a transmission wheel and an abrasive belt, and the second servo motor is arranged above the transmission wheel and is in transmission connection with the transmission wheel through the abrasive belt.

Preferably, a tensioning wheel is further included, which tensioning wheel is placed inside the sanding belt.

Preferably, a base is arranged below the rotary motion mechanism, the rotary motion mechanism comprises a rotary disc, a driving motor, a transmission assembly and a divider, the driving motor drives the divider to rotate through the transmission assembly, the divider drives the rotary disc to rotate through the transmission assembly, a supporting upright post is arranged between the rotary disc and the base, and a rolling bearing which is abutted against the bottom surface of the rotary disc is arranged at the top of the supporting upright post.

The multi-azimuth numerical control turntable polishing machine for the side surface of the pliers has the following technical effects:

the invention discloses a multi-directional numerical control turntable polishing machine for the side face of a clamp, which comprises a rotary motion mechanism and a polishing mechanism, wherein the rotary motion mechanism rotates at 360 degrees, a plurality of clamping and positioning mechanisms are arranged on the surface of the rotary motion mechanism at intervals, the clamping and positioning mechanisms are used for clamping and positioning the clamp, the plurality of clamping and positioning mechanisms surround the center of the rotary motion mechanism and synchronously rotate with the rotary motion mechanism, and the polishing mechanism is arranged above the rotary motion mechanism.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic perspective view of a multi-directional numerical control turntable polishing machine for the lateral surfaces of pliers according to an embodiment of the invention;

FIG. 2 is a schematic perspective view of a vibration feeding mechanism of the multi-directional numerical control turntable polishing machine on the side of the pliers shown in FIG. 1;

FIG. 3 is a schematic perspective view of a clamping and positioning mechanism of the multi-directional numerical control turntable polishing machine on the side of the pliers shown in FIG. 1;

FIG. 4 is a schematic perspective view of a polishing mechanism of the multi-directional numerical control turntable polishing machine on the side of the pliers shown in FIG. 1;

fig. 5 is a schematic perspective view of a pneumatic slip ring driving mechanism of the multi-azimuth numerical control turntable polishing machine on the side surface of the pliers in fig. 1.

Wherein, fig. 1-5:

1. a base; 11. supporting the upright post;

2. a rotational movement mechanism; 21. rotating the disc; 22. a drive motor;

3. a polishing mechanism; 31. a second servo motor; 32. a driving wheel; 33. a driven wheel; 34. a tension wheel; 35. an abrasive belt;

4. vibrating the feeding mechanism; 41. a supporting base; 42. vibrating the tray; 43. a slider; 44. a feeding cylinder; 45. a positioning member;

5. a clamping and positioning mechanism; 51. a clamping cylinder; 52. a fixed block; 53. a slider; 54. a dovetail groove;

6. a pneumatic slip ring drive mechanism; 61. a first servo motor; 62. a motor gear; 63. an electrical slip ring;

7. a pair of pliers.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

In the description of the present invention, it is to be noted that, unless otherwise specified, "a plurality" means two or more; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood as appropriate to those of ordinary skill in the art.

The technical scheme of the invention is explained in detail by combining the specific attached figures 1-4.

As shown in fig. 1, which is a schematic perspective view of a side polishing machine of a nipper 7 according to the present invention, the side polishing machine of the nipper 7 is used to perform a polishing process on a side of the nipper 7, where the polishing process includes a single side polishing process and a reverse side polishing process.

The side polishing machine for the pliers 7 comprises a base 1, a rotary motion mechanism 2 and a polishing processing mechanism 3, wherein the rotary motion mechanism 2 is installed on the base 1 and can rotate 360 degrees under the driving of a driving force, the top surface of the rotary motion mechanism 2 is provided with a plurality of clamping and positioning mechanisms 5, the clamping and positioning mechanisms 5 are located on the edge of the rotary motion mechanism 2, the number of the clamping and positioning mechanisms 5 is preferably eight, the eight clamping and positioning mechanisms 5 are distributed in an array mode with the center of the rotary motion mechanism 2, and the clamping and positioning mechanisms 5 are mainly used for clamping and positioning the pliers 7.

The clamping and positioning mechanism 5 of the invention surrounds the center of the rotary motion mechanism 2 and can synchronously rotate with the rotary motion mechanism 2, six of the eight clamping and positioning mechanisms 5 are provided with a polishing mechanism 3 above, and the polishing mechanism 3 also comprises six mechanisms which are respectively used for front end side surface angle rough polishing, front end side surface angle fine polishing, side surface plane rough polishing, side surface plane fine polishing, front end side surface angle small line fine polishing (left) and front end side surface angle small line fine polishing (right).

The specific process is as follows: the clamping and positioning mechanism 5 clamps the pliers 7, the rotary motion mechanism 2 automatically rotates to drive the clamping and positioning mechanism 5 to rotate to the lower part of the polishing and processing mechanism 3, and the polishing and processing mechanism 3 performs front end side angle rough polishing, front end side angle fine polishing, side plane rough polishing, side plane fine polishing, front end side angle small line fine polishing (left) and front end side angle small line fine polishing (right) on the pliers 7 arranged on the clamping and positioning mechanism 5.

According to the invention, the rotary motion mechanism 2, the clamping and positioning mechanism 5 and the polishing mechanism 3 are mutually matched, so that the side surface of the pliers 7 is polished, the labor intensity of workers is reduced, the polishing efficiency is improved, and the polishing quality is favorably controlled.

Specifically, in order to realize the automatic feeding of the pliers 7, as shown in fig. 1 and fig. 2, the automatic feeding device further includes a vibration feeding mechanism 4, the vibration feeding mechanism 4 is movably disposed at an edge of the rotary motion mechanism 2, and the main function of the vibration feeding mechanism 4 is to clamp the positioning mechanism 5 for feeding, that is, the pliers 7 is moved to the clamping positioning mechanism 5 by the vibration feeding mechanism 4 for subsequent processing of the polishing processing mechanism 3.

Further, as shown in fig. 2, the vibration feeding mechanism 4 includes a supporting seat 41, a vibration tray 42 and a driving assembly, the driving assembly includes a feeding cylinder 44 and a slider 43, the feeding cylinder 44 is connected to the slider 43 in a driving manner, the vibration tray 42 is vibratably mounted on the supporting seat 41, the feeding cylinder 44 and the slider 43 are disposed at an end of the vibration tray 42 and perpendicular to the vibration tray 42, and when the vibration tray 42 vibrates the forceps 7 to a terminal end, the feeding cylinder 44 drives the slider 43 to drive the forceps 7 to move toward the clamping and positioning mechanism 5.

It should be noted that the specific structure of the vibration feeding mechanism 4 is not limited in the present invention, and for example, the vibration feeding mechanism may be other types of feeding mechanisms, and the present invention is within the protection scope of the present invention as long as the purpose of conveying the nippers 7 to the clamping and positioning mechanism 5 can be achieved.

In addition, in order to strengthen the fixation of the forceps 7 and prevent the forceps 7 from moving back and forth, the slide block 43 is further provided with a positioning piece 45, the positioning piece 45 is positioned at the top end of the slide block 43, and the forceps 7 is further fixed in the dovetail groove 54 between the slide block 53 and the fixing block from the top through the positioning piece 45.

Specifically, as shown in fig. 1 and 3, the clamping and positioning mechanism 5 includes a fixed block 52, a sliding block 53 and a clamping cylinder 51, the fixed block 52 and the sliding block 53 are oppositely arranged, a dovetail groove 54 is arranged between the fixed block 52 and the sliding block 53, the dovetail groove 54 is used for accommodating the forceps 7, the clamping cylinder 51 is in driving connection with the sliding block 53, and when the forceps 7 is conveyed to the dovetail groove 54, the clamping cylinder 51 drives the sliding block 53 to move towards the fixed block 52 for clamping and fixing the forceps 7.

As shown in fig. 3, the dovetail groove 54 of the present invention enables only the nippers 7 to be placed sideways, so that the burnishing mechanism 3 is used to burnish the side surfaces of the nippers 7.

Specifically, in order to prevent the air supply pipe of the clamping cylinder 51 of each clamping and positioning mechanism 5 from winding when the rotary motion mechanism 2 rotates, the side polisher for the pliers 7 of the present invention further comprises a pneumatic sliding ring driving mechanism 6, as shown in fig. 1 and 5, wherein the pneumatic sliding ring driving mechanism 6 is located above the center of the rotary motion mechanism 2 and mainly functions to rotate the air supply pipe of the clamping and positioning mechanism 5 and the clamping and positioning mechanism 5 synchronously.

Further, as shown in fig. 5, the pneumatic slip ring driving mechanism 6 includes a first servo motor 61, a motor gear 62 and an electric slip ring 63, the first servo motor 61 is connected with the motor gear 62 in a driving manner, the motor gear 62 is connected with the electric slip ring 63 in a meshing transmission manner, the first servo motor 61 is started, the first servo motor 61 drives the motor gear 62 to rotate, the electric slip ring 63 rotates along with the motor gear 62 and the electric slip ring 63 in a meshing transmission manner, and the electric slip ring 63 and the rotary movement mechanism 2 rotate in a step-by-step manner, so that the electric slip ring 63 drives the air supply pipe to rotate synchronously.

Specifically, as shown in fig. 1 and 4, the polishing mechanism 3 includes a second servo motor 31, a transmission wheel and an abrasive belt 35, and the second servo motor 31 is disposed above the transmission wheel and is in transmission connection with the transmission wheel through the abrasive belt 35.

The number of the driving wheels is three, the top of the driving wheels is one, the bottom of the driving wheels is two, the driving wheels at the top are driving wheels 32, the two driving wheels at the bottom are driven wheels 33, abrasive belts 35 pass through the two driven wheels 33, and the grinding angles of the abrasive belts 35 can be changed through the two driven wheels 33.

It should be noted that the connection and transmission manner of the second servo motor 31, the transmission wheel and the abrasive belt 35 is common in the prior art, and as long as the detailed connection manner and structure of the present invention are not described in detail.

In order to prevent the sanding belt 35 from slackening, a tension pulley 34 is also included, as shown in fig. 4, the tension pulley 34 being placed inside the sanding belt 35 while being located between the driving pulley 32 and the driven pulley 33.

More specifically, as shown in fig. 1, the rotary motion mechanism 2 includes a rotary disc 21, a driving motor 22, a transmission assembly, and a divider, wherein the driving motor 22 drives the divider to rotate through the transmission assembly, and the divider drives the rotary disc 21 to rotate through the transmission assembly.

The specific process is as follows: the driving motor 22 drives the divider to rotate, the divider drives the rotating disc 21 to rotate, the pliers 7 rotates along with the rotating disc 21 on the station of the clamping and positioning mechanism 5, the lower portions of abrasive belts 35 of different polishing and processing mechanisms 3 are achieved, the abrasive belts 35 at all angles are used for polishing the side faces of the pliers 7, and after one side face of the pliers 7 is polished, the vibration feeding mechanism 4 is used for polishing the other side face after blanking.

As shown in fig. 1, a supporting column 11 is arranged between the rotating disc 21 and the base 1, a rolling bearing abutting against the bottom surface of the rotating disc 21 is arranged at the top of the supporting column 11, the supporting column 11 can ensure the normal rotation of the rotating disc 21, and the rolling bearing reduces the friction force between the rotating disc 21 and the supporting column 11.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a diversified numerical control carousel burnishing machine in pliers side, its characterized in that, includes rotary motion mechanism and polishing processing agency, 360 degrees rotations of rotary motion mechanism, the surface is equipped with the centre gripping positioning mechanism that is used for centre gripping location pliers that a plurality of interval set up, a plurality of centre gripping positioning mechanism centers on rotary motion mechanism's center and with rotary motion mechanism rotates in step, polishing processing agency arranges in rotary motion mechanism's top, works as centre gripping positioning mechanism is rotatory extremely when polishing processing agency below, polishing processing agency be used for to place in pliers on the centre gripping positioning mechanism polish the processing.

2. The machine as claimed in claim 1, further comprising a vibration feeding mechanism movably disposed at an edge of the rotary motion mechanism for feeding the clamping and positioning mechanism.

3. The machine as claimed in claim 2, wherein the vibration feeding mechanism comprises a support base, a vibration tray and a driving component, the vibration tray is vibratably mounted on the support base, the driving component is disposed at an end of the vibration tray and is perpendicular to the vibration tray, and the driving component is used for moving the pliers placed on the vibration tray to the clamping and positioning mechanism.

4. The machine as claimed in claim 3, wherein the driving assembly comprises a loading cylinder and a slide block, the loading cylinder is in driving connection with the slide block, and the slide block moves towards the clamping and positioning mechanism to drive the pliers to move towards the clamping and positioning mechanism.

5. The machine as claimed in claim 2, wherein the clamping and positioning mechanism comprises a fixed block, a sliding block and a clamping cylinder, the fixed block and the sliding block are arranged oppositely, and dovetail grooves for accommodating the pliers are arranged between the fixed block and the sliding block.

6. The machine as claimed in claim 1, further comprising a pneumatic slip ring driving mechanism located above the center of the rotary motion mechanism for rotating the air supply pipe of the clamping and positioning mechanism synchronously with the clamping and positioning mechanism.

7. The machine as claimed in claim 6, wherein the pneumatic slip ring driving mechanism comprises a first servo motor, a motor gear and an electrical slip ring, the first servo motor is connected with the motor gear in a driving manner, the motor gear is connected with the electrical slip ring in a meshing transmission manner, the first servo motor and the rotary motion mechanism rotate at the same frequency, and the electrical slip ring drives the air supply pipe to rotate synchronously.

8. The machine as claimed in claim 1, wherein the polishing mechanism comprises a second servo motor, a driving wheel and an abrasive belt, the second servo motor is disposed above the driving wheel and is in transmission connection with the driving wheel through the abrasive belt.

9. The machine of claim 8, further comprising a tension wheel, said tension wheel being positioned inside said belt.

10. The machine according to any one of claims 1 to 9, wherein a base is provided below the rotational mechanism, the rotational mechanism comprises a rotating disc, a driving motor, a transmission assembly, and a divider, the driving motor drives the divider to rotate through the transmission assembly, the divider drives the rotating disc to rotate through the transmission assembly, a supporting column is provided between the rotating disc and the base, and a rolling bearing abutting against the bottom surface of the rotating disc is provided at the top of the supporting column.

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