CN108436740B

CN108436740B - Adjustable vibration polishing equipment

Info

Publication number: CN108436740B
Application number: CN201810232276.0A
Authority: CN
Inventors: 蔡惠文
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-03-21
Filing date: 2018-03-21
Publication date: 2024-01-16
Anticipated expiration: 2038-03-21
Also published as: CN108436740A

Abstract

The invention discloses an adjustable vibration polishing device; belonging to the technical field of part processing; the technical key point of the vibration light device comprises a base, wherein a vibration light cylinder is connected above the base through a buffer mechanism, a mounting hole is formed in the center of the inner bottom of the vibration light cylinder, and a vibration cylinder with an opening facing the mounting hole is arranged in the vibration light cylinder at the mounting hole; two groups of vibration transmission grooves are obliquely and oppositely arranged in the vibration cylinder and are respectively connected with the inner wall of the vibration cylinder through corresponding vibration transmission fixing frames; a vibration seat is arranged in the vibration cylinder and is connected with the vibration conduction groove through a vibration rod; the vibration seat is connected with a first lifting adjusting mechanism; the base is provided with a second lifting adjusting mechanism, the second lifting adjusting mechanism is provided with a support, the support is provided with a driving motor, and the free end of a power output shaft of the driving motor is connected with an eccentric wheel matched with the vibration seat; the invention aims to provide an adjustable vibration polishing device which is compact in structure and good in use effect; is used for polishing parts.

Description

Adjustable vibration polishing equipment

Technical Field

The present invention relates to a vibratory finishing apparatus, and more particularly, to an adjustable vibratory finishing apparatus.

Background

The vibration polishing is to drive the eccentric wheel connected with the power output shaft of the driving motor to rotate rapidly and strike the vibration cylinder to enable the vibration cylinder to vibrate continuously, the vibration cylinder drives the hardware parts and the abrasive materials in the vibration cylinder to rub, so that the effect of removing paint pollution, oxide layers and scratches on the hardware parts is achieved, in the prior art, the vibration intensity of the vibration polishing equipment is the same, and therefore the polishing efficiency is low and the consumed time is long.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide the adjustable vibration polishing equipment which is compact in structure and good in use effect.

The technical scheme of the invention is realized as follows: the adjustable vibration polishing equipment comprises a base, wherein a vibration light cylinder is connected above the base through a buffer mechanism, a mounting hole is formed in the center of the bottom in the vibration light cylinder, a vibration cylinder with an opening facing the mounting hole is arranged in the vibration light cylinder at the mounting hole, and abrasive materials are filled in the vibration light cylinder at the periphery of the vibration cylinder;

two groups of vibration transmission grooves are obliquely and oppositely arranged in the vibration cylinder and are respectively connected with the inner wall of the vibration cylinder through corresponding vibration transmission fixing frames; a vibration seat is arranged in the vibration cylinder and is connected with the vibration conduction groove through a vibration rod; the included angle alpha between the vibration transmission groove and the horizontal plane is 65-80 degrees; the vibration seat is connected with a first lifting adjusting mechanism;

the base is provided with a second lifting adjusting mechanism, the second lifting adjusting mechanism is provided with a support, the support is provided with a driving motor, and the free end of a power output shaft of the driving motor is connected with an eccentric wheel matched with the vibration seat.

In the adjustable vibration polishing equipment, the buffer mechanism consists of at least two buffer assemblies, wherein each buffer assembly consists of a first mounting sleeve arranged on the base, a buffer spring arranged in the first mounting sleeve and a second mounting sleeve arranged at the free end of the buffer spring; the second installation sleeve is fixedly connected with the shake light cylinder.

In the adjustable vibration polishing device, the vibration conduction fixing frame is composed of a horizontal fixing beam fixedly connected with the vibration conduction groove and a vibration conduction rod radially fixed between the inner wall of the vibration cylinder and the fixing beam.

In the adjustable vibration polishing device, the first lifting adjusting mechanism mainly comprises a guide seat arranged on the inner wall of the vibration cylinder, a first guide rod movably penetrating through the guide seat, an adjusting screw rod hinged with the upper end of the first guide rod, an outer hexagonal operating nut arranged at the upper end of the adjusting screw rod, an installation seat arranged at the lower end of the first guide rod and a linkage mechanism arranged at the bottom of the installation seat; the linkage mechanism is connected with the vibration seat.

In the adjustable vibration polishing equipment, the linkage mechanism consists of two rotating shafts which are horizontally erected on the inner wall of the vibration seat and are parallel to the vibration rod, chain wheels sleeved on the rotating shafts, linkage chains meshed with the two chain wheels, a first rack meshed with the linkage chains, a second guide rod arranged at the bottom of the installation seat and a traction sliding block movably connected with the second guide rod through a sliding seat; the included angle beta between the second guide rod and the horizontal plane is 5-15 degrees;

the vibration seat is provided with a first inclined plane which is opposite to the linkage chain, and the first rack is arranged on the first inclined plane; the traction sliding block is provided with a second inclined plane which is opposite to the linkage chain, and the second rack is arranged on the second inclined plane; the first inclined plane and the second inclined plane have the same inclination direction and the same inclination angle as the inclination direction of the vibration transmission groove.

In the adjustable vibration polishing equipment, the mounting seat is provided with the mounting frame, and the mounting frame is provided with the upper limit passive proximity switch and the lower limit passive proximity switch at intervals along the vertical direction; an induction turntable is arranged between the upper limit passive proximity switch and the lower limit passive proximity switch and is fixedly connected with a power output shaft of the driving motor through a rotating shaft; the upper limit passive proximity switch and the lower limit passive proximity switch are connected with the second lifting adjusting mechanism.

In the above-mentioned adjustable vibration polishing device, the second lifting adjusting mechanism is composed of a fixed seat arranged at the bottom center of the base, a lifting cylinder arranged on the fixed seat, guide posts circumferentially arranged on the fixed seat at the periphery of the lifting cylinder, guide sleeves movably sleeved on the guide posts and limiting blocks arranged at the free ends of the guide posts; each guide sleeve is fixedly connected with the support; the free end of the lifting cylinder piston rod is connected with the bottom of the support, and the lifting cylinder is connected with an external compressed air source pipeline.

In the adjustable vibration polishing device, the side wall of the outer hexagonal operation screw cap is provided with a first fixing ring, the outer wall of the top of the vibration cylinder is provided with a plurality of second fixing rings corresponding to the first fixing rings along the circumference of the outer hexagonal operation screw cap, the vibration cylinder is provided with through holes matched with the second fixing rings, and the outer hexagonal operation screw cap is inserted into the first fixing rings, the corresponding second fixing rings and the through holes through fixing pins.

In the adjustable vibration polishing device, a buffer gasket is arranged at the bottom of the base.

After the structure is adopted, the vibration is generated by driving the eccentric wheel on the electric motor to be matched with the vibration seat, then the vibration is transmitted to the vibration cylinder by the matching of the vibration seat and the vibration rod and the matching of the vibration rod and the vibration transmission fixing frame, and the vibration cylinder drives the whole vibration cylinder to vibrate, so that the grinding material and the part to be polished are rubbed with each other, and the purpose of vibration polishing is achieved. Further, in order to enable the equipment to adapt to parts with different polishing requirements, a first lifting adjusting mechanism connected with the vibration seat is arranged in the vibration cylinder, and the distance between the vibration seat and the eccentric wheel is adjusted through the first lifting adjusting mechanism, so that the vibration strength is adjustable, and the purpose of effectively polishing the parts according to different oxidation degrees is achieved.

Drawings

The invention is described in further detail below in connection with the embodiments in the drawings, but is not to be construed as limiting the invention in any way.

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

FIG. 2 is an enlarged schematic view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged partial schematic view at B in FIG. 2;

FIG. 4 is an enlarged partial schematic view at C in FIG. 1;

FIG. 5 is a schematic cross-sectional view of the structure of FIG. 1 in the direction D-D;

FIG. 6 is an enlarged partial schematic view at E in FIG. 5;

fig. 7 is a schematic structural view of the mounting base of the present invention.

In the figure: the vibration damping device comprises a base 1, a damping mechanism 2, a first mounting sleeve 2a, a damping spring 2b, a second mounting sleeve 2c, a vibration cylinder 3, a grinding material 3a, a vibration cylinder 4, a vibration transmission groove 5, a vibration transmission fixing frame 6, a horizontal fixing beam 6a, a vibration transmission rod 6b, a vibration seat 7, a vibration rod 8, a first lifting adjusting mechanism 9, a guide seat 9a, a first guide rod 9b, an adjusting screw rod 9c, an outer hexagonal operating nut 9d, a mounting seat 9e, a linkage mechanism 9f, a rotating shaft 9g, a chain wheel 9h, a linkage chain 9i, a first rack 9j, a second rack 9k, a second guide rod 9l, a sliding seat 9m, a traction sliding block 9n, a mounting frame 9o, an upper limit passive proximity switch 9p, a lower limit passive proximity switch 9q, a sensing rotary disc 9r, a second lifting adjusting mechanism 10, a fixing seat 10a lifting cylinder 10b, a guide column 10c, a guide sleeve 10d, a limiting block 10e, a support 11, a driving motor 12, an eccentric wheel 13, a first fixing ring 14, a second fixing ring 15, a second fixing ring 16, a damping washer 17 and a fixing pin.

Detailed Description

Referring to fig. 1 to 7, an adjustable vibration polishing apparatus of the present invention includes a base 1, and a cushion ring 17 is provided at the bottom of the base 1. The shake light section of thick bamboo 3 is connected with through buffer gear 2 in base 1 top, buffer gear 2 comprises two at least buffer components, and in this embodiment, buffer component is provided with four along circumference. The buffer assembly consists of a first mounting sleeve 2a arranged on the base 1, a buffer spring 2b arranged in the first mounting sleeve 2a and a second mounting sleeve 2c arranged at the free end of the buffer spring 2 b. The second mounting sleeve 2c is fixedly connected with the shake light cylinder 3. Through buffer gear, can offset equipment vibrations, avoid vibrations conduction to the base.

The center of the inner bottom of the vibration tube 3 is provided with a mounting hole, the vibration tube 4 with an opening facing the mounting hole is fixedly arranged in the vibration tube 3 at the mounting hole, and the vibration tube 3 at the periphery of the vibration tube 4 is filled with abrasive materials 3a. The granularity of the abrasive depends on the requirement of the workpiece to be polished.

Two groups of vibration transmission grooves 5 are obliquely and oppositely arranged in the vibration cylinder 4, and the two groups of vibration transmission grooves 5 are respectively connected with the inner wall of the vibration cylinder 4 through corresponding vibration transmission fixing frames 6; a vibration seat 7 is arranged in the vibration cylinder 4, and the vibration seat 7 is connected with the vibration transmission groove 5 through a vibration rod 8. The included angle alpha between the vibration transmission groove 5 and the horizontal plane is 65-80 degrees, and the reasonable included angle can be effectively matched with the vibration seat to generate and transmit vibration; the vibration seat 7 is connected with a first lifting adjusting mechanism 9.

Preferably, the vibration conduction fixing frame 6 is composed of a horizontal fixing beam 6a fixedly connected with the vibration conduction groove 5 and a vibration conduction rod 6b radially fixed between the inner wall of the vibration cylinder 4 and the horizontal fixing beam 6 a. Through being radial vibrations conducting rod, can with vibrations that vibrations seat produced, more evenly transmit to vibrations section of thick bamboo, not only make vibrations section of thick bamboo atress more even, vibration frequency is more stable moreover.

The base 1 is provided with a second lifting adjusting mechanism 10, the second lifting adjusting mechanism 10 is provided with a support 11, the support 11 is provided with a driving motor 12, and the free end of a power output shaft of the driving motor 12 is connected with an eccentric wheel 13 matched with the vibration seat 7. Specifically, the second lifting adjustment mechanism 10 is composed of a fixed seat 10a arranged at the bottom center of the base 1, a lifting cylinder 10b arranged on the fixed seat 10a, guide posts 10c circumferentially arranged on the fixed seat 10a at the periphery of the lifting cylinder 10b, guide sleeves 10d movably sleeved on the guide posts 10c, and limiting blocks 10e arranged at the free ends of the guide posts 10 c; each guide sleeve 10d is fixedly connected with the support 11; the free end of the piston rod of the lifting cylinder 10b is connected with the bottom of the support 11, and the lifting cylinder 10b is connected with an external compressed air source pipeline. The arrangement of the guide post and the guide sleeve can prevent the lifting cylinder from breaking due to the vibration of the driving motor in the lifting process of the lifting cylinder.

Through vibrations transmission groove and first lift adjustment mechanism cooperation, realize the regulation of interval between vibrations seat and the eccentric wheel to realize shaking the regulation of optical equipment vibration intensity, make equipment can be according to the polishing requirement of different work pieces of waiting to process, adjust vibration intensity.

In this embodiment, the first lifting adjustment mechanism 9 mainly includes a guide seat 9a disposed on the inner wall of the vibration cylinder 4, a first guide rod 9b movably penetrating through the guide seat 9a, an adjusting screw rod 9c hinged to the upper end of the first guide rod 9b, an outer hexagonal operating nut 9d disposed on the upper end of the adjusting screw rod 9c, an installation seat 9e disposed on the lower end of the first guide rod 9b, and a linkage mechanism 9f disposed at the bottom of the installation seat 9 e; the linkage mechanism 9f is connected with the vibration seat 7. Preferably, the linkage mechanism 9f is composed of two rotating shafts 9g which are horizontally erected on the inner wall of the vibration seat 7 and are parallel to the vibration rod 8, chain wheels 9h sleeved on the rotating shafts 9g, a linkage chain 9i meshed with the two chain wheels 9h, a first rack 9j meshed with the linkage chain 9i, a second rack 9k meshed with the linkage chain 9i, a second guide rod 9l arranged at the bottom of the mounting seat 9e and a traction sliding block 9n movably connected with the second guide rod 9l through a sliding seat 9 m; the included angle beta between the second guide rod 9l and the horizontal plane is 5-15 degrees.

The vibration seat 7 is provided with a first inclined plane which is opposite to the linkage chain 9i, and the first rack 9j is arranged on the first inclined plane; the traction sliding block 9n is provided with a second inclined plane which is opposite to the linkage chain 9i, and the second rack 9k is arranged on the second inclined plane; the inclination directions of the first inclined plane and the second inclined plane are the same as the inclination direction of the vibration transmission groove 5 and the inclination angle is the same.

Meanwhile, in order to realize that the eccentric wheel can automatically rise and fall along with the rising and falling of the vibration seat, a mounting frame 9o is arranged on the mounting seat 9e, and an upper limit passive proximity switch 9p and a lower limit passive proximity switch 9q are arranged on the mounting frame 9o at intervals along the vertical direction; an induction turntable 9r is arranged between the upper limit passive proximity switch 9p and the lower limit passive proximity switch 9q, and the induction turntable 9r is fixedly connected with a power output shaft of a driving motor 12 through a rotating shaft. The upper and lower limit passive proximity switches 9p,9q are connected with the second lifting adjusting mechanism 10, namely, with an electromagnetic valve for controlling the lifting cylinder.

Further, in order to avoid the change of vibration intensity caused by the rotation of the adjusting screw rod in the vibration process, a first fixing ring 14 is arranged on the side wall of the outer hexagonal operation screw cap 9d, a plurality of second fixing rings 15 corresponding to the first fixing rings 14 are arranged on the outer wall of the top of the vibration cylinder 4 along the circumference of the outer hexagonal operation screw cap 9d, through holes matched with the second fixing rings 15 are formed in the vibration cylinder 4, and the outer hexagonal operation screw cap 9d is inserted into the first fixing rings 14, the corresponding second fixing rings 15 and the through holes through fixing pins 16.

During operation, according to the different oxidation degrees of the workpiece to be processed, the outer hexagonal operation screw cap is screwed, the adjusting screw rod connected with the outer hexagonal operation screw cap is driven to be adjusted with the first guide rod and the linkage mechanism connected with the adjusting screw rod, when the oxidation degree of the workpiece to be processed is lighter, the outer hexagonal operation screw cap is adjusted, the traction sliding block is enabled to move upwards, the vibration seat is driven to move downwards through the cooperation of the chain wheel and the first rack and the second rack, meanwhile, the lower limit passive proximity switch detects that the induction turntable is close, the lower limit passive proximity switch gives out a signal, and the second lifting adjusting mechanism is controlled to drive the driving motor to descend, so that the eccentric wheel is always opposite to the vibration seat.

When the oxidation degree of the workpiece to be processed is serious, the outer hexagonal operating nut is adjusted, the traction sliding block moves upwards, the vibration seat is driven to move downwards through the cooperation of the chain wheel and the chain and the first rack and the second rack, meanwhile, the upper limit passive proximity switch detects that the induction turntable is close, the upper limit passive proximity switch gives out a signal, and the second lifting adjusting mechanism is controlled to drive the driving motor to ascend, so that the eccentric wheel is always opposite to the vibration seat. When the distance between the vibration seat and the eccentric wheel is adjusted, the fixing pin is inserted into the first fixing ring and the second fixing ring, so that the adjusting screw rod cannot rotate due to vibration, and the vibration intensity is changed; after the vibration intensity of the vibration light equipment is adjusted, the driving motor is started, the eccentric wheel connected with the power output shaft of the driving motor impacts the vibration seat, the vibration rod penetrating through the vibration seat impacts the vibration transmission grooves connected with the two ends of the vibration rod, the vibration transmission fixing frame fixedly connected with the vibration transmission grooves vibrates, the vibration cylinder fixedly connected with the vibration transmission fixing frame is driven to vibrate at last, the abrasive in the vibration light cylinder rubs with a workpiece to be processed through vibration, and the polishing effect of the workpiece to be processed is finally achieved.

The above examples are provided for convenience of description of the present invention and are not to be construed as limiting the invention in any way, and any person skilled in the art will make partial changes or modifications to the invention by using the disclosed technical content without departing from the technical features of the invention.

Claims

1. The adjustable vibration polishing equipment comprises a base (1) and is characterized in that a vibration barrel (3) is connected above the base (1) through a buffer mechanism (2), a mounting hole is formed in the center of the inner bottom of the vibration barrel (3), a vibration barrel (4) with an opening facing the mounting hole is arranged in the vibration barrel (3) at the mounting hole, and abrasive materials (3 a) are filled in the vibration barrel (3) at the periphery of the vibration barrel (4);

two groups of vibration transmission grooves (5) are obliquely and oppositely arranged in the vibration cylinder (4), and the two groups of vibration transmission grooves (5) are respectively connected with the inner wall of the vibration cylinder (4) through corresponding vibration transmission fixing frames (6); a vibration seat (7) is arranged in the vibration cylinder (4), and the vibration seat (7) is connected with the vibration transmission groove (5) through a vibration rod (8); the included angle alpha between the vibration transmission groove (5) and the horizontal plane is 65-80 degrees; the vibration seat (7) is connected with a first lifting adjusting mechanism (9);

a second lifting adjusting mechanism (10) is arranged on the base (1), a support (11) is arranged on the second lifting adjusting mechanism (10), a driving motor (12) is arranged on the support (11), and the free end of a power output shaft of the driving motor (12) is connected with an eccentric wheel (13) matched with the vibration seat (7);

the buffer mechanism (2) consists of at least two buffer components, wherein the buffer components consist of a first mounting sleeve (2 a) arranged on the base (1), a buffer spring (2 b) arranged in the first mounting sleeve (2 a) and a second mounting sleeve (2 c) arranged at the free end of the buffer spring (2 b); the second mounting sleeve (2 c) is fixedly connected with the shake light cylinder (3);

the vibration conduction fixing frame (6) consists of a horizontal fixing beam (6 a) fixedly connected with the vibration conduction groove (5) and a vibration conduction rod (6 b) radially fixed between the inner wall of the vibration cylinder (4) and the horizontal fixing beam (6 a).

2. The adjustable vibration polishing device according to claim 1, wherein the first lifting adjusting mechanism (9) mainly comprises a guide seat (9 a) arranged on the inner wall of the vibration cylinder (4), a first guide rod (9 b) movably penetrating through the guide seat (9 a), an adjusting screw rod (9 c) hinged with the upper end of the first guide rod (9 b), an outer hexagonal operating nut (9 d) arranged at the upper end of the adjusting screw rod (9 c), a mounting seat (9 e) arranged at the lower end of the first guide rod (9 b) and a linkage mechanism (9 f) arranged at the bottom of the mounting seat (9 e); the linkage mechanism (9 f) is connected with the vibration seat (7).

3. An adjustable vibrating polishing device according to claim 2, characterized in that the linkage mechanism (9 f) consists of two rotating shafts (9 g) horizontally erected on the inner wall of the vibrating seat (7) and parallel to the vibrating rod (8), chain wheels (9 h) sleeved on the rotating shafts (9 g), a linkage chain (9 i) meshed with the two chain wheels (9 h), a first rack (9 j) meshed with the linkage chain (9 i), a second rack (9 k) meshed with the linkage chain (9 i), a second guide rod (9 l) arranged at the bottom of the mounting seat (9 e) and a traction slider (9 n) movably connected with the second guide rod (9 l) through a sliding seat (9 m); the included angle beta between the second guide rod (9 l) and the horizontal plane is 5-15 degrees;

the vibration seat (7) is provided with a first inclined plane which is opposite to the linkage chain (9 i), and the first rack (9 j) is arranged on the first inclined plane; the traction sliding block (9 n) is provided with a second inclined plane which is opposite to the linkage chain (9 i), and the second rack (9 k) is arranged on the second inclined plane; the inclination directions of the first inclined plane and the second inclined plane are the same as the inclination direction of the vibration transmission groove (5) and the inclination angle is the same.

4. An adjustable vibration polishing device according to claim 2, characterized in that the mounting base (9 e) is provided with a mounting frame (9 o), and an upper limit passive proximity switch (9 p) and a lower limit passive proximity switch (9 q) are arranged on the mounting frame (9 o) at intervals along the vertical direction; an induction turntable (9 r) is arranged between the upper limit passive proximity switch (9 p) and the lower limit passive proximity switch (9 q), and the induction turntable (9 r) is fixedly connected with a power output shaft of a driving motor (12) through a rotating shaft; the upper limit passive proximity switch (9 p) and the lower limit passive proximity switch (9 q) are respectively connected with the second lifting adjusting mechanism (10).

5. The adjustable vibration polishing apparatus according to claim 1 or 4, wherein the second lifting adjusting mechanism (10) is composed of a fixed seat (10 a) arranged at the bottom center of the base (1), a lifting cylinder (10 b) arranged on the fixed seat (10 a), guide posts (10 c) circumferentially arranged on the fixed seat (10 a) at the periphery of the lifting cylinder (10 b), guide sleeves (10 d) movably sleeved on the guide posts (10 c), and limiting blocks (10 e) arranged at the free ends of the guide posts (10 c); each guide sleeve (10 d) is fixedly connected with the support (11); the free end of a piston rod of the lifting cylinder (10 b) is connected with the bottom of the support (11), and the lifting cylinder (10 b) is connected with an external compressed air source pipeline.

6. An adjustable vibration polishing device according to claim 2, characterized in that a first fixing ring (14) is arranged on the side wall of the outer hexagonal operating nut (9 d), a plurality of second fixing rings (15) corresponding to the first fixing rings (14) are arranged on the outer wall of the top of the vibration cylinder (4) along the circumference of the outer hexagonal operating nut (9 d), through holes matched with the second fixing rings (15) are arranged on the vibration cylinder (4), and the outer hexagonal operating nut (9 d) is inserted into the first fixing rings (14) and the corresponding second fixing rings (15) and the through holes through fixing pins (16).

7. An adjustable vibratory finishing apparatus according to claim 1, wherein the base (1) is provided with a buffer gasket (17) at the bottom.