CN114473071B - Quick burring equipment of thin wall class metal body - Google Patents

Abstract

The invention relates to the technical field of metal processing, and discloses quick deburring equipment for a thin-wall metal pipe body, which comprises a base, wherein a support column is fixedly arranged at the upper end of the base, a metal round sleeve is fixedly arranged at the upper end of the support column, a special-shaped air bag is arranged in the metal round sleeve and is divided into a left half and a right half, a scraping rod I and a scraping rod II are arranged on the outer wall of the special-shaped air bag, metal stabilizing rings are arranged on two sides of the metal round sleeve, the metal stabilizing rings are fixedly arranged at the upper end of the base, a fixed metal rod and a cylindrical sliding block are arranged in the metal stabilizing rings, and one end of the fixed metal rod is fixedly connected with the inner wall of the metal stabilizing rings. The invention processes burrs at the inner and outer ports of the thin-wall metal pipeline to achieve a faster processing speed, and simultaneously makes the thin-wall metal pipeline uniformly stressed, prevents deformation, makes fragments fall off, and prevents fragments from being clamped and cleaning speed from being reduced.

Description

Quick burring equipment of thin wall class metal body

Technical Field

The invention relates to the technical field of metal processing, in particular to a quick deburring device for a thin-wall metal pipe body.

Background

The metal pipeline needs to be cut in the metal processing process, burrs are needed to be formed on the metal pipeline after the metal pipeline is cut, the burrs need to be processed after the metal pipeline is cut each time, most of the burrs need to be scraped by the file at present, each section of metal pipeline needs to be scraped, the burrs on the inner wall of the metal pipeline are difficult to scrape, when the thin-wall-shaped metal pipeline is processed, the opening of the thin-wall-shaped metal pipeline is easy to be depressed to deform in the process of scraping the burrs, and the burrs at the upper end of the thin-wall-shaped metal pipeline are difficult to be completely cleaned by gently scraping the thin-wall-shaped metal pipeline, so that the quick deburring equipment for the thin-wall-shaped metal pipeline is provided.

Disclosure of Invention

The invention aims to provide a quick deburring device for a thin-wall metal-like pipe body, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the quick deburring equipment for the thin-wall metal-like pipe body comprises a base, wherein a support column is fixedly arranged at the upper end of the base, a metal round sleeve is fixedly arranged at the upper end of the support column, a special-shaped air bag is arranged in the metal round sleeve and is divided into a left half and a right half, and a scraping rod I and a scraping rod II are arranged on the outer wall of the special-shaped air bag;

the metal stabilizing device is characterized in that metal stabilizing rings are arranged on two sides of the metal round sleeve, the metal stabilizing rings are fixedly arranged at the upper end of the base, a fixed metal rod and a cylindrical sliding block are arranged in the metal stabilizing rings, and one end of the fixed metal rod is fixedly connected with the inner wall of the metal stabilizing rings.

Preferably, the metal round sleeve and the metal stabilizing ring are arranged coaxially, and the metal stabilizing ring has no elasticity.

Preferably, the two half special-shaped air bags are symmetrically arranged, the side walls of the two half special-shaped air bags are fixedly connected with the inner wall of the metal round sleeve, the interiors of the two half special-shaped air bags are in a sealing state, and the two half special-shaped air bags are in an expansion state;

the two halves the middle of special-shaped air bag is the semicircle setting of inflation, the side of special-shaped air bag is the setting of buckling and slope extension and the inner wall fixed connection of metal round cover, makes the port cladding of thin wall form metal pipeline inner and outer wall that special-shaped air bag can be fine.

Preferably, the inner wall that special-shaped gasbag semicircle ball set up is fixed to be glued and is had star form metal, star form metal has elasticity setting, can prevent the special-shaped gasbag of semicircle ball department to expand, and simultaneously when special-shaped gasbag was at the time of pausing, can star form metal present the effect of vibrations, the tip fixedly connected with metal of star form metal connects the ball, metal connects the ball and is solid to set up the metal and connect the ball and make star form metal vibrations's effect better under inertial effect.

Preferably, the first scraping rod is fixedly connected to the outer wall of the special-shaped air bag ball, one side of the first scraping rod is provided with a cutting surface, and one end of the first scraping rod is close to the bending part of the special-shaped air bag;

the scraping rod II is fixedly arranged on the outer wall of the inclined extension part of the special-shaped air bag, one side of the scraping rod II is provided with a cutting face, and burrs on the ports of the inner wall and the outer wall of the thin-wall metal pipeline can be scraped well.

Preferably, the inner wall of the inclined extension part of the special-shaped air bag is fixedly connected with arc-shaped metal, the arc-shaped metal is attached to the inclined extension part of the special-shaped air bag, one end of the arc-shaped metal extends out of the special-shaped air bag and is fixedly connected with the inner wall of the metal round sleeve, and one end of the arc-shaped metal, extending out of the special-shaped air bag, is outwards-diffused and bent to guide the thin-wall metal pipeline.

Preferably, one end of the arc-shaped metal, which is positioned in one half of the special-shaped air bag, is fixedly connected with a metal ball, the outer wall of the metal ball is fixedly connected with two arc-shaped plates I, and a plurality of small grooves which are uniformly distributed are formed in the opposite surfaces of the two arc-shaped plates I;

the other half arc metal and metal ball of also fixedly connected with on the dysmorphism gasbag inner wall, fixedly mounted has arc second on the outer wall of metal ball, the welding has little arch on the arc second outer wall, arc second centre gripping is between two arcs, and little arch and little recess are the cooperation setting, arc first and arc second produce mutual slip, and little recess and little arch carry out mutual cooperation and produce vibrations, reach a higher vibration frequency, shake the piece off on the dysmorphism gasbag outer wall.

Preferably, the fixed metal pole is the arc setting, and fixed metal pole one end keeps away from the metal gradually and stablizes the circle, fixed metal pole keeps away from the one end fixedly connected with cylinder of metal and supports the piece, the cylinder slider slides and sets up on fixed metal pole, set up flutedly on the lateral wall of cylinder slider, the gyro wheel is installed in the recess internal rotation, and when rotating thin wall form metal pipe, it slides along the arc degree of fixed metal pole to make the cylinder slider, carries out the centre gripping with thin wall form metal pipe tightly, makes simultaneously to present coaxial line setting between the metal round cover that thin wall form metal pipe can be fine, and under the effect of gyro wheel, thin wall form metal pipe still can be continuous rotate.

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

(1) According to the invention, the thin-wall metal pipeline is wrapped at the bending part of the special-shaped air bag, the special-shaped air bag is extruded by star-shaped metal, the expansion of the part where the semicircular ball of the special-shaped air bag is arranged is prevented, the arc-shaped metal is arranged at the inclined extending part, and the expansion is difficult to be carried out, so that the special-shaped air bag can wrap the end part of the thin-wall metal pipeline well, the thin-wall metal pipeline is rotated, the first scraping rod and the second scraping rod process burrs at the inner and outer ports of the thin-wall metal pipeline, the faster processing speed is achieved, the stress of the thin-wall metal pipeline is uniform, and the deformation is prevented.

(2) When the thin-walled metal pipe is inserted into the metal round sleeve, the metal round sleeve and the thin-walled metal pipe are slid under the guidance of the arc metal, the outer wall of the special-shaped air bag at the inclined extension part is pushed, the arc-shaped plate I and the arc-shaped plate II slide mutually, the small groove and the small bulge are matched mutually to generate vibration, the metal round sleeve and the thin-walled metal pipe can be well positioned on the same axis, and deformation caused by pressure inconsistency can be prevented.

(3) According to the invention, the special-shaped air bag can move along the thin-wall metal pipeline, and can recover when rotating to a certain extent, so that the metal connecting ball and the metal ball are stressed to generate certain vibration, fragments falling on the outer wall of the special-shaped air bag can slide along the outer wall of the special-shaped air bag to a good extent, meanwhile, the arc-shaped plate I and the arc-shaped plate II slide along the side direction to generate vibration, so that the vibration with higher frequency is achieved, the fragments fall more easily, and the fragments are prevented from being clamped and the cleaning speed is reduced.

(4) According to the invention, in the process of rotating the thin-wall metal pipeline, the cylindrical sliding block slides along the arc degree of the fixed metal rod, so that the contact with the thin-wall metal pipeline is tighter, the thin-wall metal pipeline can be well arranged coaxially with the metal round sleeve, the port of the thin-wall metal pipeline is well deburred, and the port is effectively prevented from deforming.

Drawings

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

FIG. 2 is a schematic view of a metal stabilizer ring according to the present invention;

FIG. 3 is a schematic view of a semi-sectional structure of a metal round sleeve according to the present invention;

FIG. 4 is a schematic view of a star-shaped metal structure according to the present invention;

fig. 5 is an enlarged view of a portion of fig. 3 a in accordance with the present invention.

In the figure: 1. a base; 2. a support post; 3. a metal round sleeve; 4. a special-shaped air bag; 5. star-shaped metal; 51. metal connecting balls; 6. a scraping rod I; 7. a scraping rod II; 8. arc-shaped metal; 81. a metal ball; 82. an arc-shaped plate I; 83. a small groove; 84. arc-shaped plate II; 85. a small protrusion; 9. a metal stabilizer ring; 91. fixing a metal rod; 92. a cylindrical abutting block; 93. a cylindrical slider; 94. and a roller.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-5, the present invention provides a technical solution: a quick deburring device for a thin-wall metal-like pipe body comprises a base 1, wherein a support column 2 is fixedly arranged at the upper end of the base 1, a metal round sleeve 3 is fixedly arranged at the upper end of the support column 2, a special-shaped air bag 4 is arranged in the metal round sleeve 3, the special-shaped air bag 4 is divided into a left half and a right half, and a scraping rod I6 and a scraping rod II 7 are arranged on the outer wall of the special-shaped air bag 4;

the both sides of metal circle cover 3 are equipped with metal stabilizer 9, metal stabilizer 9 fixed mounting is in the upper end of base 1, be equipped with fixed metal pole 91 and cylinder slider 93 in the metal stabilizer 9, fixed metal pole 91 one end and the inner wall fixed connection setting of metal stabilizer 9, the department parcel thin wall form metal pipeline through the buckling of dysmorphism gasbag 4, dysmorphism gasbag 4 receives the extrusion, star form metal 5 prevents the part that dysmorphism gasbag 4 semicircle ball set up to expand, slope extension department is equipped with arc metal 8, also be difficult to expand, make dysmorphism gasbag 4 buckling department and buckling department's edge expand, dysmorphism gasbag 4 can be fine wrap up thin wall form metal pipeline tip, rotate thin wall form metal pipeline, make scraper bar one 6 and scraper bar two 7 handle the burr of thin wall form metal pipeline internal and external port, reach a faster processing speed, make thin wall form metal pipeline atress even simultaneously, prevent to produce deformation.

The metal round sleeve 3 and the metal stabilizing ring 9 are arranged coaxially, and the metal stabilizing ring 9 has no elasticity.

The two half special-shaped air bags 4 are symmetrically arranged, the side walls of the two half special-shaped air bags 4 are fixedly connected with the inner wall of the metal round sleeve 3, the interiors of the two half special-shaped air bags 4 are in a sealing state, and the two half special-shaped air bags 4 are in an expansion state;

the middle of the two half special-shaped air bags 4 is provided with an expanded semicircle, and the side edges of the special-shaped air bags 4 are bent and obliquely extended to be fixedly connected with the inner wall of the metal round sleeve 3.

The inner wall of the semicircular ball of the special-shaped air bag 4 is fixedly adhered with a star-shaped metal 5, the star-shaped metal 5 is elastically arranged, the end part of the star-shaped metal 5 is fixedly connected with a metal connecting small ball 51, and the metal connecting small ball 51 is solid.

The first scraping rod 6 is fixedly connected to the outer wall of the spherical arrangement of the special-shaped air bag 4, one side of the first scraping rod 6 is provided with a cutting face, and one end of the first scraping rod 6 is close to the bending position of the special-shaped air bag 4;

the scraping rod II 7 is fixedly arranged on the outer wall of the inclined extension part of the special-shaped air bag 4, and one side of the scraping rod II 7 is provided with a cutting face.

Fixedly connected with arc metal 8 on the inner wall of dysmorphism gasbag 4 slope extension position, arc metal 8 and dysmorphism gasbag 4 slope extension position laminating set up, and the one end of arc metal 8 extends dysmorphism gasbag 4 and is fixed connection with the inner wall of metal round cover 3, and the one end that arc metal 8 extended dysmorphism gasbag 4 is the crooked setting of out diffusion.

One end of the arc-shaped metal 8 positioned in one half of the special-shaped air bag 4 is fixedly connected with a metal ball 81, the outer wall of the metal ball 81 is fixedly connected with two arc-shaped plates 82, and a plurality of small grooves 83 which are uniformly distributed are formed in the opposite surfaces of the two arc-shaped plates 82;

the other half of the special-shaped air bags 4 are fixedly connected with arc-shaped metal 8 and metal balls 81, the outer wall of each metal ball 81 is fixedly provided with an arc-shaped plate II 84, the outer wall of each arc-shaped plate II 84 is welded with a small bulge 85, each arc-shaped plate II 84 is clamped between the corresponding arc-shaped plates I82, the small bulge 85 and the corresponding small groove 83 are matched, when the metal pipe is inserted into the metal round sleeve 3, the metal round sleeve is guided by the arc-shaped metal 8 to slide, the outer wall of the special-shaped air bag 4 at the inclined extension is pushed, the arc-shaped plates I82 and II 84 slide mutually, the small grooves 83 and the small bulges 85 are matched mutually to generate vibration, the metal round sleeve 3 and the thin-walled metal pipe can be well positioned in a coaxial line, and deformation caused by pressure inconsistencies can be prevented; can move along thin wall form metal pipeline through special-shaped gasbag 4, rotate to the certain degree time, can resume again, make metal connection ball 51 and metal ball 81 atress, produce the vibrations of certain degree, make the piece that drops on special-shaped gasbag 4 outer wall can fine degree slide along special-shaped gasbag 4's outer wall, arc one 82 and arc two 84 appear simultaneously and produce the slip along the direction of side, and produce vibrations, reach the vibrations that a frequency is faster, make the piece drop more easily, prevent the card of piece to establish and the clearance speed reduces.

The fixed metal pole 91 is the arc setting, and fixed metal pole 91 one end is kept away from metal stabilizer ring 9 gradually, fixed metal pole 91 is kept away from metal stabilizer ring 9's one end fixedly connected with cylinder and is supported piece 92, cylinder slider 93 slides and sets up on fixed metal pole 91, set up flutedly on the lateral wall of cylinder slider 93, the gyro wheel 94 is installed to the recess internal rotation, through rotating thin wall form metal pipeline in-process, cylinder slider 93 slides along fixed metal pole 91's arc degree, it is inseparabler with thin wall form metal pipeline's contact, make thin wall form metal pipeline can be fine appear the coaxial line setting between the metal round cover 3, fine messenger thin wall form metal pipeline's port carries out the burring, simultaneously effectually prevent that the port from producing the deformation.

When the metal pipe is used, firstly, a thin-wall metal pipe needing to be subjected to burr treatment is inserted into the metal round sleeve 3 from one end of the metal stabilizing ring 9, and after the metal round sleeve is inserted tightly, the thin-wall metal pipe is rotated, so that:

the special-shaped air bag 4 is extruded by the thin-wall metal pipeline, meanwhile, the thin-wall metal pipeline is firstly contacted along the inclined extension part of the special-shaped air bag 4, and is extruded along the inclined plane of the inclined extension part, so that the bent part of the special-shaped air bag 4 is wrapped by the thin-wall metal pipeline, the special-shaped air bag 4 is extruded and is expanded, the star-shaped metal 5 fixedly arranged on the inner wall of the semicircular sphere of the special-shaped air bag 4 prevents the part of the semicircular sphere of the special-shaped air bag 4 from expanding, the arc-shaped metal 8 is arranged at the inclined extension part and is difficult to expand, only the bent part of the special-shaped air bag 4 and the edge of the bent part can be expanded, the special-shaped air bag 4 can well wrap the end part of the thin-wall metal pipeline, and the thin-wall metal pipeline is rotated, so that the first scraping rod 6 and the second scraping rod 7 process burrs at the inner port and the outer port of the thin-wall metal pipeline;

when the thin-walled metal pipe is inserted into the metal round sleeve 3, the metal round sleeve 3 and the thin-walled metal pipe can be well positioned on the coaxial line by sliding under the guidance of the arc-shaped metal 8 and pushing the outer wall of the special-shaped air bag 4 at the inclined extension part, so that the arc-shaped plate I82 and the arc-shaped plate II 84 slide mutually, and the small groove 83 and the small bulge 85 are matched mutually to generate vibration;

when the thin-wall metal pipeline is rotated, the special-shaped air bag 4 can move along the thin-wall metal pipeline in an expansion and compression state, and the special-shaped air bag 4 can be restored when rotated to a certain extent, so that the metal connecting small ball 51 and the metal ball 81 can be stressed in the restored extrusion to generate a certain degree of vibration, fragments falling on the outer wall of the special-shaped air bag 4 can slide along the outer wall of the special-shaped air bag 4 to a good degree, meanwhile, the first arc-shaped plate 82 and the second arc-shaped plate 84 slide along the side direction to generate vibration, so that the vibration with a faster frequency is achieved, and the fragments fall easily;

in the process of rotating the thin-wall metal pipeline, the cylindrical sliding block 93 is contacted with the thin-wall metal pipeline, and slides along the arc degree of the fixed metal rod 91 in the rotating process, so that the thin-wall metal pipeline is in closer contact with the thin-wall metal pipeline, and then the thin-wall metal pipeline can be well arranged coaxially with the metal round sleeve 3, the port of the thin-wall metal pipeline is well deburred, and the port is effectively prevented from deforming.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The utility model provides a quick burring equipment of thin wall class metal body, includes base (1), its characterized in that: the novel scraper comprises a base (1), wherein a support column (2) is fixedly arranged at the upper end of the base (1), a metal round sleeve (3) is fixedly arranged at the upper end of the support column (2), a special-shaped air bag (4) is arranged in the metal round sleeve (3), the special-shaped air bag (4) is divided into a left half and a right half, and a scraping rod I (6) and a scraping rod II (7) are arranged on the outer wall of the special-shaped air bag (4);

the two sides of the metal round sleeve (3) are provided with metal stabilizing rings (9), the metal stabilizing rings (9) are fixedly arranged at the upper end of the base (1), fixed metal rods (91) and cylindrical sliding blocks (93) are arranged in the metal stabilizing rings (9), and one ends of the fixed metal rods (91) are fixedly connected with the inner wall of the metal stabilizing rings (9);

the metal round sleeve (3) and the metal stabilizing ring (9) are coaxially arranged, and the metal stabilizing ring (9) has no elasticity;

the two half special-shaped air bags (4) are symmetrically arranged, the side walls of the two half special-shaped air bags (4) are fixedly connected with the inner wall of the metal round sleeve (3), the interiors of the two half special-shaped air bags (4) are in a sealing state, and the two half special-shaped air bags (4) are in an expansion state;

the middle of each of the two half special-shaped air bags (4) is provided with an expanded semicircle, and the side edges of the special-shaped air bags (4) are bent and obliquely extended and fixedly connected with the inner wall of the metal round sleeve (3);

the inner wall of the semicircular ball of the special-shaped air bag (4) is fixedly adhered with a star-shaped metal (5), the star-shaped metal (5) is elastically arranged, the end part of the star-shaped metal (5) is fixedly connected with a metal connecting small ball (51), and the metal connecting small ball (51) is in solid arrangement;

the first scraping rod (6) is fixedly connected to the outer wall of the spherical ball of the special-shaped air bag (4), one side of the first scraping rod (6) is provided with a cutting edge surface, and one end of the first scraping rod (6) is close to the bending part of the special-shaped air bag (4);

the second scraping rod (7) is fixedly arranged on the outer wall of the inclined extension part of the special-shaped air bag (4), and one side of the second scraping rod (7) is provided with a cutting surface;

the special-shaped air bag is characterized in that an arc-shaped metal (8) is fixedly connected to the inner wall of the inclined extension part of the special-shaped air bag (4), the arc-shaped metal (8) is attached to the inclined extension part of the special-shaped air bag (4), one end of the arc-shaped metal (8) extends out of the special-shaped air bag (4) and is fixedly connected with the inner wall of the metal round sleeve (3), and one end of the arc-shaped metal (8) extending out of the special-shaped air bag (4) is outwards-diffused and bent.

2. The rapid deburring apparatus for thin-walled metal tubular bodies of claim 1, wherein: one end of the arc-shaped metal (8) positioned in one half of the special-shaped air bag (4) is fixedly connected with a metal ball (81), the outer wall of the metal ball (81) is fixedly connected with two arc-shaped plates I (82), and a plurality of small grooves (83) which are uniformly distributed are formed in the opposite surfaces of the arc-shaped plates I (82);

the other half arc metal (8) and metal ball (81) are fixedly connected to the inner wall of the special-shaped air bag (4), an arc plate II (84) is fixedly installed on the outer wall of the metal ball (81), a small bulge (85) is welded on the outer wall of the arc plate II (84), the arc plate II (84) is clamped between the arc plates I (82), and the small bulge (85) and the small groove (83) are arranged in a matched mode.

3. The rapid deburring apparatus for thin-walled metal tubular bodies of claim 1, wherein: the fixed metal rod (91) is arc-shaped, one end of the fixed metal rod (91) is gradually far away from the metal stabilizing ring (9), one end of the fixed metal rod (91) far away from the metal stabilizing ring (9) is fixedly connected with a cylinder supporting block (92), the cylinder sliding block (93) is arranged on the fixed metal rod (91) in a sliding mode, a groove is formed in the side wall of the cylinder sliding block (93), and the roller (94) is installed in the groove in a rotating mode.