CN116787315A - Disposable suction tube ultrasonic micro-burr removing device and processing method - Google Patents

Abstract

The invention discloses a disposable suction tube ultrasonic micro-burr removing device and a processing method thereof, wherein the disposable suction tube ultrasonic micro-burr removing device comprises a suction mechanism and an oscillation mechanism, the suction mechanism is arranged right above the oscillation mechanism, an expansion mechanism and a disposable suction tube are arranged in the suction mechanism at the same time, and a fan is arranged below the oscillation mechanism; the invention discloses a disposable suction tube ultrasonic micro-burr removing device and a processing method, which have the advantages that direct collection in the micro-burr adsorption process is realized, and meanwhile, the blocking effect caused by the inside of a tube and a suction fan can be effectively avoided.

Description

Disposable suction tube ultrasonic micro-burr removing device and processing method

Technical Field

The invention relates to the technical field of ultrasonic deburring equipment, in particular to an ultrasonic micro-deburring device for a disposable suction tube and a processing method.

Background

After the small-sized parts are processed, certain burrs are generally formed on the surfaces of the parts. In order to ensure the quality of the parts, the burrs need to be treated, and the method of removing the burrs by utilizing ultrasonic waves is one of the more common methods.

When utilizing the ultrasonic wave to carry out the removal of burr on the work piece, generally can use the suction tube to adsorb the burr of getting rid of and collect after adsorbing, but because the burr of getting rid of has great burr and less little burr, if use the direct a large amount of absorption of great wind-force, then after entering into the pipeline in a large number of little burr, perhaps adsorb on the suction tube or block up inside the suction fan, simultaneously because little burr naked eye is difficult to see clearly, therefore, when clearing up the suction tube, little burr then probably enters into the air again and influences workman's health, when adsorbing the integration simultaneously, also be difficult for carrying out regularity to little burr.

Disclosure of Invention

The invention discloses a disposable suction tube ultrasonic micro-burr removing device and a processing method, which aim to solve the problem that when a suction tube is cleaned, micro-burrs possibly enter the air again to influence the health of workers, and meanwhile, the micro-burrs are not easy to be regulated when the suction tube is integrated.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the ultrasonic micro-burr removing device for the disposable suction tube comprises a suction mechanism and an oscillation mechanism, wherein the suction mechanism is arranged right above the oscillation mechanism, an expansion mechanism and the disposable suction tube are arranged in the suction mechanism at the same time, and a fan is arranged below the oscillation mechanism;

the suction mechanism comprises a plurality of stay bars, the stay bars are arranged in a surrounding mode at equal density, the top ends of the stay bars are fixedly connected with an annular support plate at the same time, the outer wall of the annular support plate is wrapped with a magnet ring, the outer wall of the top end of the annular support plate is fixedly connected with a support outer cover, the inner wall of the top end of the support outer cover is fixedly connected with an extension pipe, the lower end of each stay bar is simultaneously connected with a support ring, the inner wall of the opposite side of each stay bar is respectively provided with an L-shaped chute, the outer parts of the stay bars are simultaneously sleeved with an outer support pipe body, and the disposable suction pipe is just attached to the outer wall of the stay bars and is positioned in a gap between the outer support pipe body and the stay bars;

a cavity is formed between the outer support tube body and the disposable suction tube, the top end of the cavity is connected with a suction sleeve, one side inner wall of the suction sleeve is connected with a first suction system through a vent pipe, the top end inner wall of the extension tube is tightly connected with an inner suction tube, the inner suction tube is positioned in the suction sleeve and is connected with the suction sleeve through the support sleeve, and one end of the inner suction tube is connected with a second suction system;

the disposable suction tube comprises a plastic tube body, wherein a plurality of ventilation micropores are formed in the inner wall of the plastic tube body at equal density, and a plurality of soft raised strips are arranged on the inner wall of the plastic tube body and positioned on two sides of the ventilation micropores;

the top of plastic tubing body is provided with the metal strip, and the metal strip adsorbs in the bottom of magnet ring, and the bottom outer wall swing joint of outer stay tube body has two centre gripping semi-rings, and the one end of two centre gripping semi-rings is articulated each other, and the relative one end of two centre gripping semi-rings is connected with the screw thread spacing respectively, and has the spacing screw rod of simultaneous engagement in two screw thread spacing.

Through being provided with suction mechanism and disposable suction tube, wherein utilize disposable suction tube to replace the suction tube, because disposable suction tube's constitution material is common and low price, can not bring higher cost expenditure under long-term use, under the effect of soft sand grip, improve disposable suction tube inner wall to the adsorption affinity of little burr, and ventilate through ventilation micropore, can make disposable suction tube all have certain suction all around, thereby supplementary little burr can adhere smoothly on soft sand grip, after a period of time, directly take off disposable suction tube and discard, then realize the direct collection to little burr adsorption process, the big burr is absorbed after the back through interior breathing pipe, reduce the effect of single inhalation volume again, can effectively avoid intraductal and the inside jam that causes of suction fan.

In a preferred scheme, the outer wall of the bottom end of the plastic pipe body is connected with a cone rubber sleeve, and the bottom end of the cone rubber sleeve is provided with an elastic band; the expansion mechanism comprises a plurality of expansion supporting plates, the outer walls of one opposite sides of the expansion supporting plates are respectively connected with a sliding block, each expansion supporting plate is respectively connected with a supporting rod in an L-shaped sliding groove through a sliding block in a movable clamping mode, each expansion supporting plate is respectively connected with a supporting rod through a hinge seat, the outer walls of the top ends of the plurality of supporting rods are simultaneously connected with a connecting frame, the outer walls of two opposite sides of the connecting frame are respectively provided with an electric sliding block, the electric sliding blocks are movably connected in the electric sliding grooves, and the two electric sliding grooves are simultaneously fixed at the top ends of the annular supporting plates and are simultaneously positioned in a supporting outer cover.

Through being provided with expansion mechanism, when electric slider moves down in electric chute, can drive a plurality of expansion fagging and expand outward in the bottom of a plurality of vaulting poles, drive the cone rubber sleeve simultaneously and expand outward to enlarge the absorption mouth diameter, further enlarge the absorption scope, simultaneously, when adsorbing the reverse operation of ending, the cone rubber sleeve is retracted, thereby can block the dropping of burr from the bottom, and the inside burr spills the condition emergence that is difficult to collect when avoiding once only sucking pipe to take off.

In a preferred scheme, the vibration mechanism comprises a vibration groove, the outer wall of the top end of the vibration groove is symmetrically provided with a vibration transmission frame, the inner wall of the bottom end of the vibration groove is provided with a plurality of ventilation holes, the outer wall of the bottom end of the vibration groove is connected with an ultrasonic assembly, the bottom end of the vibration groove is fixedly connected with a mounting frame at a position right below the ventilation holes, a fan is arranged on the mounting frame, the ultrasonic assembly and the bottom end of the mounting frame are fixedly connected with a bottom support plate, and the bottom end of the bottom support plate is provided with a plurality of telescopic supports;

a processing method of a disposable suction tube ultrasonic micro-burr removing device comprises the following specific steps:

s1: installing a disposable suction tube: the disposable suction pipe is sleeved outside the plurality of stay bars and is adsorbed with the magnet ring through the metal strip, and the position is fixed under the clamping action of the two clamping semi-rings;

s2: expanding an adsorption port: the electric sliding block moves in the electric sliding groove to drive the expansion supporting plates to open, and the cone rubber sleeve expansion adsorption port is opened;

s3: placing a workpiece: uniformly placing the workpieces in a vibration groove and paving the workpieces;

s4: vibration deburring: driving the vibration groove to vibrate under the action of the ultrasonic assembly to remove burrs on the surface of the workpiece;

s5: blowing: blowing by a fan to enable the burrs to be blown upwards and absorbed by the suction mechanism;

s6: taking down the disposable suction tube;

s7: cleaning: the upward moving oscillation mechanism cleans the suction mechanism and the expansion mechanism.

Through being provided with vibration mechanism, raise whole vibration mechanism through a plurality of telescopic brackets, make vibration transmission frame laminating outside the outer stay tube, drive whole suction mechanism and expansion mechanism vibration, make the burr of its surface adhesion drop to guide under the effect of fan, make the burr inhale through suction mechanism and collect, thereby can reach the holistic automatic clearance of equipment, reduce the clearance degree of difficulty.

From the above, the disposable suction tube ultrasonic micro-burr removing device comprises a suction mechanism and an oscillation mechanism, wherein the suction mechanism is arranged right above the oscillation mechanism, an expansion mechanism and the disposable suction tube are arranged in the suction mechanism at the same time, and a fan is arranged below the oscillation mechanism; the suction mechanism comprises a plurality of stay bars, the stay bars are arranged in a surrounding mode at equal density, the top ends of the stay bars are fixedly connected with an annular support plate at the same time, the outer wall of the annular support plate is wrapped with a magnet ring, the outer wall of the top end of the annular support plate is fixedly connected with a support outer cover, the inner wall of the top end of the support outer cover is fixedly connected with an extension pipe, the lower end of each stay bar is simultaneously connected with a support ring, the inner wall of the opposite side of each stay bar is respectively provided with an L-shaped chute, the outer parts of the stay bars are simultaneously sleeved with an outer support pipe body, and the disposable suction pipe is just attached to the outer wall of the stay bars and is positioned in a gap between the outer support pipe body and the stay bars; a cavity is formed between the outer support tube body and the disposable suction tube, the top end of the cavity is connected with a suction sleeve, one side inner wall of the suction sleeve is connected with a first suction system through a vent pipe, the top end inner wall of the extension tube is tightly connected with an inner suction tube, the inner suction tube is positioned in the suction sleeve and is connected with the suction sleeve through the support sleeve, and one end of the inner suction tube is connected with a second suction system; the disposable suction tube comprises a plastic tube body, wherein a plurality of ventilation micropores are formed in the inner wall of the plastic tube body at equal density, and a plurality of soft raised strips are arranged on the inner wall of the plastic tube body and positioned on two sides of the ventilation micropores. The ultrasonic micro-burr removing device and the processing method for the disposable suction tube have the technical effects of realizing direct collection in the micro-burr adsorption process, and simultaneously effectively avoiding blockage in the tube and the suction fan.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a disposable suction tube ultrasonic micro-deburring device according to the present invention.

Fig. 2 is a schematic diagram showing an attraction mechanism of a disposable attraction tube ultrasonic micro-burr removing device and an internal sectional view thereof.

Fig. 3 is a schematic diagram of an internal disassembly structure of an attraction mechanism of the disposable attraction tube ultrasonic micro-burr removing device provided by the invention.

Fig. 4 is a cross-sectional view of a disposable suction tube of the ultrasonic micro-deburring device for a disposable suction tube according to the present invention.

Fig. 5 is a schematic diagram of a top end connection structure of an expansion supporting plate of a disposable suction tube ultrasonic micro-deburring device.

Fig. 6 is a schematic structural diagram of an oscillating mechanism of the disposable suction tube ultrasonic micro-deburring device according to the present invention.

Fig. 7 is an overall flowchart of a processing method of the disposable suction tube ultrasonic micro-deburring device provided by the invention.

In the figure: 1. a suction mechanism; 2. a disposable suction tube; 3. an oscillating mechanism; 4. a blower; 5. an expansion mechanism; 101. an inner suction pipe; 102. a support sleeve; 103. a vent pipe; 104. an air suction sleeve; 105. an outer support tube body; 106. clamping the semi-ring; 107. a thread limiting frame; 108. a limit screw; 109. a support ring; 110. a brace rod; 111. an L-shaped chute; 112. an extension tube; 113. a support housing; 114. an annular support plate; 115. a magnet ring; 201. a plastic tube body; 202. ventilation micropores; 203. soft convex strips; 204. a cone rubber sleeve; 205. an elastic band; 206. a metal strip; 301. a vibration transmission frame; 302. a vibration tank; 303. ventilation holes; 304. an ultrasonic assembly; 305. a bottom support plate; 306. a telescopic bracket; 307. a mounting frame; 501. an electric chute; 502. a connecting frame; 503. a support rod; 504. a hinge base; 505. a slide block; 506. expanding the supporting plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The invention discloses an ultrasonic micro-deburring device for a disposable suction tube and a processing method, which are mainly applied to the scene of ultrasonic deburring.

Referring to fig. 1-3, a disposable suction tube ultrasonic micro-burr removing device comprises a suction mechanism 1 and an oscillation mechanism 3, wherein the suction mechanism 1 is arranged right above the oscillation mechanism 3, an expansion mechanism 5 and a disposable suction tube 2 are arranged in the suction mechanism 1 at the same time, and a fan 4 is arranged below the oscillation mechanism 3;

the suction mechanism 1 comprises a plurality of stay bars 110, the stay bars 110 are arranged in an equi-density surrounding manner, the top ends of the stay bars 110 are fixedly connected with an annular support plate 114 at the same time, the outer wall of the annular support plate 114 is wrapped with a magnet ring 115, the outer wall of the top end of the annular support plate 114 is fixedly connected with a support outer cover 113, the inner wall of the top end of the support outer cover 113 is fixedly connected with an extension pipe 112, the lower ends of the stay bars 110 are simultaneously connected with a support ring 109, the inner wall of one side opposite to each stay bar 110 is respectively provided with an L-shaped chute 111, the outer parts of the stay bars 110 are sleeved with an outer support pipe body 105 at the same time, and the disposable suction pipe 2 is just attached to the outer wall of the stay bars 110 and positioned in a gap between the outer support pipe body 105 and the stay bars 110;

a cavity is formed between the outer supporting tube 105 and the disposable suction tube 2, the top end of the cavity is connected with a suction sleeve 104, one side inner wall of the suction sleeve 104 is connected with a first suction system through a ventilation tube 103, the top end inner wall of the extension tube 112 is tightly connected with an inner suction tube 101, the inner suction tube 101 is positioned in the suction sleeve 104 and is connected with the suction sleeve 104 through a supporting sleeve 102, and one end of the inner suction tube 101 is connected with a second suction system;

the disposable suction tube 2 comprises a plastic tube 201, wherein a plurality of ventilation micropores 202 are formed in the inner wall of the plastic tube 201 at equal density, and a plurality of soft raised strips 203 are arranged on the inner wall of the plastic tube 201 and positioned on two sides of the ventilation micropores 202.

Referring to fig. 3 and 4, in a preferred embodiment, a metal strip 206 is disposed at the top end of the plastic tube 201, the metal strip 206 is adsorbed at the bottom end of the magnet ring 115, the outer wall of the bottom end of the outer support tube 105 is movably connected with two clamping half rings 106, one ends of the two clamping half rings 106 are hinged to each other, opposite ends of the two clamping half rings 106 are respectively connected with a threaded limiting frame 107, and the two threaded limiting frames 107 are simultaneously engaged with limiting screws 108.

Referring to fig. 3, 4 and 5, in a preferred embodiment, a cone rubber sleeve 204 is connected to the outer wall of the bottom end of the plastic pipe 201, and an elastic band 205 is provided at the bottom end of the cone rubber sleeve 204;

the expanding mechanism 5 comprises a plurality of expanding supporting plates 506, the outer walls of opposite sides of the expanding supporting plates 506 are respectively connected with sliding blocks 505, and each expanding supporting plate 506 is movably clamped in the L-shaped sliding groove 111 through the sliding blocks 505 and is movably connected with the supporting rod 110.

Referring to fig. 3 and 5, in a preferred embodiment, the top outer wall of each expansion brace 506 is connected with struts 503 through hinge bases 504, respectively, and the top outer walls of a plurality of struts 503 are simultaneously connected with connection frames 502.

Referring to fig. 3 and 5, in a preferred embodiment, the outer walls of two opposite sides of the connecting frame 502 are respectively provided with an electric sliding block, the electric sliding blocks are movably connected in the electric sliding grooves 501, and the two electric sliding grooves 501 are simultaneously fixed at the top ends of the annular supporting plates 114 and are simultaneously located in the supporting housing 113, wherein the cone rubber sleeve 204 at the lower end of the disposable suction tube 2 can be stretched, and has excellent rebound resilience, when the electric sliding blocks move downwards in the electric sliding grooves 501, the connecting frame 502 and the plurality of supporting rods 503 drive the plurality of expansion supporting plates 506 to move downwards along the sliding blocks 505 in the L-shaped sliding grooves 111, when the bottom ends are reached, in the continuous downwards moving process, the hinging seat 504 deforms, and then the sliding blocks 505 move downwards along the L-shaped sliding grooves 111, so that the plurality of expansion supporting plates 506 are driven to expand outwards at the bottom ends of the plurality of supporting rods 110, and simultaneously drive the cone rubber sleeve 204 to expand outwards, so as to expand the diameter of the suction opening, and simultaneously, when the suction ends are reversed operation, the cone rubber sleeve 204 is retracted, so that the burrs are blocked from falling from the bottom ends, and the situation that the burrs are difficult to collect when the disposable suction tube 2 is removed.

Referring to fig. 6, in a preferred embodiment, the oscillating mechanism 3 includes an oscillating tank 302, and the top end outer wall of the oscillating tank 302 is symmetrically provided with an oscillating transmission frame 301, the bottom end inner wall of the oscillating tank 302 is provided with a plurality of ventilation holes 303, and the bottom end outer wall of the oscillating tank 302 is connected with an ultrasonic assembly 304.

Referring to fig. 6, in a preferred embodiment, the bottom end of the vibration groove 302 is located right below the plurality of ventilation holes 303, the installation frame 307 is fixedly connected with, the fan 4 is installed on the installation frame 307, the ultrasonic assembly 304 and the bottom end of the installation frame 307 are fixedly connected with the bottom supporting plate 305, the bottom end of the bottom supporting plate 305 is provided with a plurality of telescopic brackets 306, the workpiece is placed in the vibration groove 302, the amplitude is enlarged through the ultrasonic assembly 304, the workpiece burrs in the vibration groove 302 are driven to fall, the workpiece burrs are lifted by the fan 4 at the bottom end to be absorbed by the suction mechanism 1, after the disposable suction tube 2 is removed, the whole vibration mechanism 3 is lifted by the plurality of telescopic brackets 306, the vibration transmission frame 301 is attached to the outer supporting tube 105, the whole suction mechanism 1 and the expansion mechanism 5 are driven to vibrate, the burrs adhered on the surface of the workpiece fall, and the burrs are guided under the action of the fan 4, the burrs are sucked and collected through the suction mechanism 1, and therefore the whole automatic cleaning of the equipment can be achieved, and the cleaning difficulty is reduced.

Referring to fig. 7, a processing method of the disposable suction tube ultrasonic micro-burr removing device comprises the following specific steps:

s1: installing a disposable suction tube: the disposable suction tube 2 is sleeved outside the plurality of stay bars 110 and is adsorbed with the magnet ring 115 through the metal strip 206, and the position is fixed under the clamping action of the two clamping semi-rings 106;

s2: expanding an adsorption port: the electric sliding block moves in the electric sliding groove 501 to drive the expansion supporting plates 506 to open, and the cone rubber sleeve 204 is opened to expand the adsorption port;

s3: placing a workpiece: uniformly placing the workpieces in the vibration grooves 302 and paving the workpieces;

s4: vibration deburring: driving the vibration groove 302 to vibrate under the action of the ultrasonic assembly 304 to remove burrs on the surface of the workpiece;

s5: blowing: blowing by a fan 4 to enable burrs to be blown upwards and absorbed by the suction mechanism 1;

s6: taking down the disposable suction tube;

s7: cleaning: the upward moving oscillation mechanism 3 cleans the suction mechanism 1 and the expansion mechanism 5.

Working principle: the workpiece is placed in the vibration groove 302, the amplitude is enlarged through the ultrasonic assembly 304, the workpiece burrs in the vibration groove 302 are driven to fall, the workpiece burrs are lifted by the fan 4 at the bottom end and absorbed by the absorbing mechanism 1, the disposable absorbing tube 2 is utilized to replace the absorbing tube, the disposable absorbing tube 2 is common in material and low in cost, high cost is not brought about after long-term use, after the disposable absorbing tube 2 is installed, the top end of the disposable absorbing tube 2 is directly connected with the second absorbing system through the inner absorbing tube 101 to provide absorbing force, the ventilation micropores 202 at the periphery of the disposable absorbing tube 2 are connected with the first absorbing system to provide absorbing force under the action of the absorbing sleeve 104, the absorbing force in the absorbing sleeve 104 is smaller than the inner absorbing tube 101 based on the fact that the ventilation section of the absorbing sleeve 104 is larger than the inner absorbing tube 101, and under the action of the soft convex strips 203 in the absorbing process, the adsorption force of the inner wall of the disposable suction tube 2 to the micro-burrs is improved, and ventilation is carried out through the ventilation micro-holes 202, so that the periphery of the disposable suction tube 2 is provided with a certain suction force, and the auxiliary micro-burrs can be smoothly adhered to the soft raised strips 203, therefore, the plurality of supporting rods 110 play a supporting role, the demand on the supportability of the material of the disposable suction tube 2 is reduced, the expenditure cost is further reduced, the disposable suction tube 2 is directly taken down and discarded after a period of time, the direct collection in the micro-burrs adsorption process is realized, the large burrs are adsorbed by the inner suction tube 101, the blockage caused in the tube and the suction fan can be effectively avoided under the action of reducing the single suction amount, the cone rubber sleeve 204 at the lower end of the disposable suction tube 2 can be stretched, and has excellent rebound resilience, the plurality of expansion supporting plates 506 are driven to move downwards at the L-shaped sliding groove 111 through the connecting frame 502 and the plurality of supporting rods 503, when the bottom end is reached, the hinging seat 504 deforms in the continuous downward moving process, then the sliding block 505 transversely moves along the L-shaped sliding groove 111, thereby driving the plurality of expansion supporting plates 506 to expand outwards at the bottom ends of the plurality of supporting rods 110, simultaneously driving the cone rubber sleeve 204 to expand outwards, thereby expanding the diameter of an adsorption port, further expanding the adsorption range, simultaneously, when the adsorption is finished and the reverse operation is finished, the cone rubber sleeve 204 retracts, thereby blocking the falling of burrs from the bottom end, avoiding the situation that the internal burrs are difficult to collect when the disposable suction tube 2 is taken down, after the disposable suction tube 2 is taken down, the plurality of telescopic brackets 306 lift the integral vibration mechanism 3, the vibration transmission frame 301 is attached to the outer supporting tube body 105, the integral suction mechanism 1 and the expansion mechanism 5 are driven to vibrate, the burrs adhered on the surface of the whole suction mechanism are dropped, and the burrs are guided under the action of the fan 4, the suction mechanism 1 is used for suction collection, and thus the whole automatic cleaning difficulty of equipment can be achieved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (8)

1. The ultrasonic micro-burr removing device for the disposable suction tube comprises a suction mechanism (1) and an oscillation mechanism (3), and is characterized in that the suction mechanism (1) is arranged right above the oscillation mechanism (3), an expansion mechanism (5) and the disposable suction tube (2) are arranged in the suction mechanism (1) at the same time, and a fan (4) is arranged below the oscillation mechanism (3);

the suction mechanism (1) comprises a plurality of supporting rods (110), the supporting rods (110) are arranged in an equal-density surrounding mode, annular supporting plates (114) are fixedly connected to the top ends of the supporting rods (110) at the same time, magnet rings (115) are wrapped on the outer walls of the annular supporting plates (114), supporting outer covers (113) are fixedly connected to the outer walls of the top ends of the annular supporting plates (114), extension pipes (112) are fixedly connected to the inner walls of the top ends of the supporting outer covers (113), supporting rings (109) are connected to the lower ends of the supporting rods (110) at the same time, L-shaped sliding grooves (111) are formed in the inner walls of one side opposite to each supporting rod (110) respectively, outer supporting pipe bodies (105) are sleeved on the outer sides of the supporting rods (110) at the same time, and disposable suction pipes (2) are just attached to the outer walls of the supporting rods (110) and located in gaps between the outer supporting pipe bodies (105) and the supporting rods (110).

A cavity is formed between the outer support tube body (105) and the disposable suction tube (2), the top end of the cavity is connected with a suction sleeve (104), one side inner wall of the suction sleeve (104) is connected with a first suction system through a ventilation tube (103), the top end inner wall of the extension tube (112) is tightly connected with an inner suction tube (101), the inner suction tube (101) is positioned in the suction sleeve (104) and is connected with the suction sleeve (104) through a support sleeve (102), and one end of the inner suction tube (101) is connected with a second suction system;

the disposable suction tube (2) comprises a plastic tube body (201), wherein a plurality of ventilation micropores (202) are formed in the inner wall of the plastic tube body (201) at equal density, and a plurality of soft raised strips (203) are arranged on the inner wall of the plastic tube body (201) and located on two sides of the ventilation micropores (202).

2. The ultrasonic micro-burr removing device for the disposable suction tube according to claim 1, wherein a metal strip (206) is arranged at the top end of the plastic tube body (201), the metal strip (206) is adsorbed at the bottom end of the magnet ring (115), two clamping semi-rings (106) are movably connected to the outer wall of the bottom end of the outer support tube body (105), one ends of the two clamping semi-rings (106) are hinged to each other, threaded limiting frames (107) are respectively connected to opposite ends of the two clamping semi-rings (106), and limiting screws (108) are meshed in the two threaded limiting frames (107) simultaneously.

3. The ultrasonic micro-burr removing device of the disposable suction tube according to claim 1, wherein the outer wall of the bottom end of the plastic tube body (201) is connected with a cone rubber sleeve (204), and the bottom end of the cone rubber sleeve (204) is provided with an elastic band (205);

the expansion mechanism (5) comprises a plurality of expansion supporting plates (506), the outer walls of one sides of the expansion supporting plates (506) in opposite directions are respectively connected with a sliding block (505), and each expansion supporting plate (506) is movably clamped in the L-shaped sliding groove (111) through the sliding block (505) and is movably connected with the supporting rod (110).

4. A disposable suction tube ultrasonic micro-deburring device according to claim 3, characterized in that the top outer wall of each expansion supporting plate (506) is connected with a supporting rod (503) through a hinging seat (504), and the top outer walls of a plurality of supporting rods (503) are simultaneously connected with a connecting frame (502).

5. The ultrasonic micro-deburring device for the disposable suction tube according to claim 4, wherein electric sliding blocks are respectively arranged on the outer walls of two opposite sides of the connecting frame (502), the electric sliding blocks are movably connected in the electric sliding grooves (501), and the two electric sliding grooves (501) are simultaneously fixed at the top ends of the annular supporting plates (114) and are simultaneously positioned in the supporting outer cover (113).

6. The ultrasonic micro-burr removing device for the disposable suction tube according to claim 1, wherein the oscillation mechanism (3) comprises a vibration groove (302), the outer wall of the top end of the vibration groove (302) is symmetrically provided with a vibration transmission frame (301), the inner wall of the bottom end of the vibration groove (302) is provided with a plurality of ventilation holes (303), and the outer wall of the bottom end of the vibration groove (302) is connected with an ultrasonic assembly (304).

7. The ultrasonic micro-burr removing device of a disposable suction tube according to claim 6, wherein the bottom end of the vibration groove (302) is fixedly connected with the mounting frame (307) at a position right below the plurality of ventilation holes (303), the fan (4) is mounted on the mounting frame (307), the ultrasonic assembly (304) and the bottom end of the mounting frame (307) are fixedly connected with the bottom support plate (305), and the bottom end of the bottom support plate (305) is provided with a plurality of telescopic brackets (306).

8. A processing method of a disposable suction tube ultrasonic micro-deburring device, which is applied to the disposable suction tube ultrasonic micro-deburring device as claimed in claim 7, and is characterized by comprising the following specific steps:

s1: installing a disposable suction tube: the disposable suction tube (2) is sleeved outside the plurality of stay bars (110), is adsorbed with the magnet ring (115) through the metal strip (206), and is fixed at the position under the clamping action of the two clamping semi-rings (106);

s2: expanding an adsorption port: the electric sliding block moves in the electric sliding groove (501) to drive the expansion supporting plates (506) to open, and the cone rubber sleeve (204) is opened to expand the adsorption port;

s3: placing a workpiece: uniformly placing the workpieces in a vibration groove (302) and paving the workpieces;

s4: vibration deburring: driving the vibration groove (302) to vibrate under the action of the ultrasonic assembly (304) to remove burrs on the surface of the workpiece;

s5: blowing: the fan (4) blows air to enable burrs to be blown upwards and absorbed by the suction mechanism (1);

s6: taking down the disposable suction tube;

s7: cleaning: the upward-moving oscillation mechanism (3) cleans the suction mechanism (1) and the expansion mechanism (5).