CN115351692A - Polishing and wire drawing device for stainless steel pipe - Google Patents

Abstract

The invention discloses a polishing and wire drawing device for a stainless steel pipe, and relates to the technical field of polishing and wire drawing. The on-line screen storage device comprises a base, the bracing piece, the outer change of wire drawing wheel and polishing, bracing piece fixed connection is on the base, fixedly connected with dust absorption shell on the base, it is connected with the propelling movement wheel still to rotate on the base, the outer change of polishing rotates to be connected on polishing second support, polishing second support fixed connection is on the base, power transmission through connecting the lower shaft with the polishing drive shaft gives the propelling movement wheel, thereby can polish and propelling movement nonrust steel pipe, adjust through the spring, thereby adapt to the nonrust steel pipe of equidimension not, and guarantee through propelling movement skew pole that the propelling movement wheel possess power all the time when the polishing, rotation through the relapse wire drawing of wire drawing wheel and the nonrust steel pipe of wire drawing ejector pad control, thereby can abundant wire drawing, power transmission through separation bull stick and separation push rod control connection lower shaft, ensure that nonrust steel pipe can not removed by the propelling movement wheel when the wire drawing.

Description

Polishing and wire drawing device for stainless steel pipe

Technical Field

The invention relates to the technical field of polishing and wire drawing, in particular to a polishing and wire drawing device for a stainless steel pipe.

Background

The stainless steel pipe surface is polished and drawn to better treat the surface of the pipe, so that the appearance is improved, the rusting phenomenon in the using process is reduced, the overall use value is relatively improved, the service life is prolonged, the use is durable, and the applicability is enhanced.

The Chinese patent with publication number CN111002163A discloses a wire drawing device for the outer surface of a stainless steel pipe, which comprises a U-shaped support frame and a wire drawing device; the wire drawing device comprises a horizontal supporting plate, a left and right moving plate, a wire drawing roller and a linkage device; the horizontal supporting plate is arranged in the opening of the supporting frame in a lifting way; the left and right moving plates are arranged on the horizontal supporting plate in a left-right moving mode; the wire drawing roller is pivoted between the upper parts of the middle parts of the pair of vertical parts of the supporting frame and is positioned at the upper end of the left and right moving plate; the wire drawing roller is driven to rotate by the left and right movement of the left and right moving plates of the linkage device; the left and right moving plates are provided with limiting devices; a right supporting plate is formed at the right end of the upper end surface of the left and right moving plate; the limiting device comprises a plurality of rotary supporting columns which are uniformly distributed in the front and back and synchronously and rotatably arranged on the right supporting plate; a steel pipe limiting unit is arranged at the left end of the rotary supporting column; the steel pipe limiting unit is located in the steel pipe and used for clamping the steel pipe.

The existing device can only carry out polishing or wire drawing on the steel pipe by one process production, but in the actual production, the same process cannot be determined for each batch of steel pipes, and a factory usually has two sets of polishing and wire drawing equipment, so that the great cost and space are generated, and a device for combining polishing and wire drawing is required and is suitable for the steel pipes with different sizes.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a polishing wire drawing device for nonrust steel pipe, includes base, bracing piece, wire drawing wheel and the outer change of polishing, bracing piece fixed connection on the base, fixedly connected with dust absorption shell on the base still rotates on the base and is connected with the propelling movement wheel, the outer change of polishing rotates to be connected on polishing second support, polishing second support fixed connection is on the base.

The wire drawing wheel rotates to be connected on the first end of telescopic link, the second end fixed connection of telescopic link is on removing the frame, it has the first slide bar of wire drawing to remove to put up sliding connection, the first slide bar sliding connection of wire drawing is on wire drawing second slide bar, wire drawing second slide bar fixed connection is on the base, still rotate the first end that is connected with the wire drawing dwang on removing the frame, the second end fixed connection of wire drawing dwang has the first end of wire drawing spring, the second end fixed connection of wire drawing spring is on the wire drawing main shaft, the wire drawing main shaft rotates to be connected on the motor.

Preferably, the base on still fixedly connected with polishing support, the last swivelling joint of polishing support has the polishing revolving rack, sliding connection has the polishing pole on the polishing revolving rack, the first end fixedly connected with polishing spring's of polishing pole first end, the second end fixed connection of polishing spring is on the polishing revolving rack, the second end fixedly connected with polishing push rod of polishing pole, polishing push rod sliding connection is in the recess on the polishing inner ring, the polishing inner ring rotates to be connected on the polishing revolving rack, still fixedly connected with polishing gear on the polishing revolving rack, it is connected with the polishing second gear to rotate on the support on the base, friction connection has the polishing connecting belt on the polishing second gear, polishing connecting belt still friction connection is in the polishing drive shaft, still fixedly connected with dust absorption fan on the polishing second gear.

Preferably, the base on fixedly connected with gearbox, the gearbox on rotate and be connected with the connection upper shaft and connect the drive shaft, the friction connection has the connection belt on the connection upper shaft, the connection belt is still friction connection epaxial in the connection lower shaft, connect epaxial fixedly connected with of lower shaft and connect the gear, connect lower shaft sliding connection and connect on connecting first baffle, connect first baffle fixed connection on the base, connect epaxial first end that still fixedly connected with connects reset spring down of lower shaft, the second end fixed connection who connects reset spring is on connecting the second baffle, connect second baffle fixed connection on the base, it pushes away the ring still to be equipped with the connection on the connection lower shaft, fixedly connected with connects bevel gear on the connection drive shaft.

Preferably, the base on rotate and be connected with the first pivot of separation, the first end fixed connection of the first pivot of separation is on the wire drawing carousel, the first end of the first pivot of separation still friction connection has wire drawing driving belt, wire drawing driving belt still friction connection is on the wire drawing main shaft, the second end fixed connection of the first pivot of separation is on the separation carousel, sliding connection has three separation connecting rod between two separation carousels, the first end of fixedly connected with separation pivot on the separation carousel, the second end of separation pivot is equipped with the screw thread, the second end friction connection of separation pivot has the first end of separation bull stick, the second end friction connection of separation bull stick has the first end of separation spring, the second end fixed connection of separation spring is on the first baffle of separation, the second end of separation bull stick still sliding connection is on the first baffle of separation, separation first baffle fixed connection is on the base, the second end of separation bull stick still rotates the first end that is connected with the separation connecting rod, the second end fixed connection of separation connecting rod has the separation push rod, separation push rod sliding connection is epaxial under the connection.

Preferably, the wire drawing carousel on rotate the first end that is connected with the wire drawing connecting rod, the second end of wire drawing connecting rod rotates and connects on the wire drawing ejector pad, wire drawing ejector pad sliding connection is on the wire drawing carriage, wire drawing carriage fixed connection is on the base, the vertical balladeur train of fixedly connected with wire drawing on the base, sliding connection has the vertical slide bar of wire drawing on the vertical balladeur train of wire drawing, it is connected with the rotation ejector pad to rotate on the vertical slide bar of wire drawing, it is connected with the first gear of wire drawing to rotate on the support on the base, fixedly connected with wire drawing second gear on the first gear of wire drawing, it is connected with the wire drawing third gear to rotate on the polishing support.

Preferably, the base on fixedly connected with support that resets, sliding connection has the connecting rod that resets on the support that resets, be equipped with the ejector pad that resets on the connecting rod that resets, install the sensor on the ejector pad that resets, the last first end of fixedly connected with rotary rod that resets of connecting rod, the second end rotation of rotary rod that resets is connected with the second connecting rod that resets, the rotary rod that resets still rotates to be connected on the support, sliding connection has the second push rod that resets on the second connecting rod that resets, fixedly connected with third push rod that resets on the second push rod that resets.

Preferably, the base on fixedly connected with propelling movement support, sliding connection has the propelling movement axis of rotation on the propelling movement support, the friction is connected with the propelling movement belt in the propelling movement axis of rotation, the propelling movement belt is still friction connection under the propelling movement on the bevel gear, it is connected with propelling movement second connecting rod still to go back fixedly connected with propelling movement connecting rod in the propelling movement axis of rotation, it is connected with the propelling movement connecting axle to rotate on the propelling movement second connecting rod, it is connected with propelling movement skew pole to rotate on the propelling movement connecting axle, be equipped with the rotation wheel on the propelling movement skew pole, fixedly connected with propelling movement wheel in the propelling movement axis of rotation, it is connected with bevel gear on the propelling movement support still to rotate.

Preferably, the base on fixedly connected with support frame, sliding connection has two sets of support slide bars on the support frame, fixedly connected with supporting spring's first end on the support slide bar, supporting spring's second end fixed connection is on supporting the middle dog, supports middle dog fixed connection on the support frame, supports slide bar fixed connection on supporting the wheel carrier, rotate on the supporting wheel carrier and be connected with the supporting wheel.

The invention provides a polishing and wire drawing device for a stainless steel pipe, which has the following beneficial effects: (1) The stainless steel polishing device is provided with the pushing wheel, and the power of the polishing driving shaft is transmitted to the pushing wheel through the lower shaft, so that the stainless steel tube can be polished and pushed; (2) The automatic polishing device is suitable for stainless steel pipes with different sizes, is adjusted through the spring, and ensures that the pushing wheel always has power during polishing through the pushing offset rod; (3) According to the invention, once wire drawing is performed, the stainless steel pipe is controlled to rotate once by the wire drawing push block, and the wire drawing is performed repeatedly by the wire drawing wheel and the wire drawing push block, so that the stainless steel pipe can be fully drawn; (4) The invention is provided with the separation mechanism, and the power transmission of the lower shaft is controlled by the separation rotating rod and the separation push rod, so that the stainless steel pipe cannot be moved by the push wheel during wire drawing.

Drawings

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

Fig. 2 is a bottom view of the present invention.

Fig. 3 is a front view of the present invention.

FIG. 4 is a schematic view of the structure of the wire drawing wheel of the present invention.

Fig. 5 is an enlarged view of a portion a of fig. 4.

Fig. 6 is an enlarged view of a portion B of fig. 4.

Fig. 7 is an enlarged view of a portion C of fig. 4.

Fig. 8 is a schematic view of the polished rod structure of the present invention.

Fig. 9 is an enlarged view of a portion of the structure at D in fig. 8.

FIG. 10 is a schematic view of a polished gear according to the present invention.

Fig. 11 is an enlarged view of a portion of fig. 10 at E.

Fig. 12 is an enlarged view of a portion of fig. 10 at F.

In the figure: 101-a base; 102-a support bar; 103-wire drawing wheel; 104-a dust-collecting housing; 105-a support wheel; 106-a push wheel; 201-telescopic rod; 202-a mobile frame; 203-drawing a first sliding bar; 204-drawing a second slide bar; 205-wire drawing rotating rod; 206-a wire drawing spring; 207-a wire drawing spindle; 301-drawing a transmission belt; 302-a drawing turntable; 303-a wire drawing connecting rod; 304-wire drawing push block; 305-wire drawing sliding frame; 306-drawing a vertical sliding rod; 307-wire drawing vertical carriage; 308-rotating the push block; 309-wire drawing a first gear; 310-wire drawing a second gear; 311-a third gear; 401 — disengaging the first rotating shaft; 402-a breakaway connection bar; 403-a separation carousel; 404-a separating spindle; 405-a disconnecting turn bar; 406-a separation spring; 407-separating the first baffle; 408-a breakaway linkage; 409-a separation push rod; 501-a reset bracket; 502-a reset link; 503-resetting the push block; 504-reset turn bar; 505-resetting the second link; 506-resetting the second push rod; 507-resetting the third push rod; 601-polishing the outer swivel ring; 602-polishing the inner ring; 603-polishing the spring; 604-a polished rod; 605-polishing the push rod; 606-polishing the gear; 607-polishing the stent; 608-polishing the second gear; 609-polishing the connecting belt; 610-polishing the drive shaft; 611-a dust suction fan; 612-polishing the second support; 613-polishing turret; 701-connecting gears; 702-connecting the lower shaft; 703-connecting a first baffle; 704-connecting a return spring; 705-connecting a second baffle; 706-connecting a push ring; 707-connecting a belt; 708-connecting an upper shaft; 709-a gearbox; 710-connecting the drive shaft; 711-connecting bevel gears; 801-pushing the upper bevel gear; 802-pushing the lower bevel gear; 803-push belt; 804-pushing the rotating shaft; 805-a push stent; 806-push connecting rod; 807-pushing the second connecting rod; 808-pushing the connecting shaft; 809-push offset bar; 810-a push baffle; 901-support wheel carrier; 902-supporting a sliding bar; 903-support the restraining bar; 904-support intermediate stop; 905-support spring; 906-support frame.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, the present invention provides a technical solution: a polishing and wire drawing device for stainless steel pipes comprises a base 101, a supporting rod 102, a wire drawing wheel 103 and a polishing outer rotating ring 601, wherein the supporting rod 102 is fixedly connected to the base 101, the base 101 is fixedly connected with a dust suction shell 104, the base 101 is also rotatably connected with a pushing wheel 106, the polishing outer rotating ring 601 is rotatably connected to a polishing second bracket 612, and the polishing second bracket 612 is fixedly connected to the base 101;

wire drawing wheel 103 rotates to be connected on the first end of telescopic link 201, the second end fixed connection of telescopic link 201 is on removing frame 202, sliding connection has the first slide bar of wire drawing 203 on removing frame 202, the first slide bar of wire drawing 203 sliding connection is on wire drawing second slide bar 204, wire drawing second slide bar 204 fixed connection is on base 101, still rotate the first end that is connected with wire drawing dwang 205 on removing frame 202, the second end fixed connection of wire drawing dwang 205 has the first end of wire drawing spring 206, the second end fixed connection of wire drawing spring 206 is on wire drawing main shaft 207, wire drawing main shaft 207 rotates to be connected on the motor.

The polishing device comprises a base 101, a polishing support 607, a polishing rotating frame 613, a polishing rod 604, a first end of the polishing rod 604, a second end of the polishing spring 603, a polishing push rod 605, a polishing inner ring 602, a polishing gear 606, a polishing second gear 608, a polishing connecting belt 609, a polishing driving shaft 610 and a dust suction fan 611, wherein the polishing support 607 is fixedly connected to the polishing support 607, the polishing rotating frame 613 is rotatably connected to the polishing rotating frame 613, the polishing rod 613 is slidably connected to the polishing rotating frame 613, the polishing push rod 605 is slidably connected to a groove of the polishing inner ring 602, the polishing inner ring 602 is rotatably connected to the polishing rotating frame 613, the polishing gear 606 is also fixedly connected to the polishing rotating frame 613, the polishing second gear 608 is rotatably connected to the support of the base 101, the polishing connecting belt 609 is also frictionally connected to the polishing driving shaft 610, and the dust suction fan 611 is also fixedly connected to the polishing second gear 608.

As shown in fig. 8 and 10, three sets of grooves are provided on the polishing inner ring 602 for sliding the polishing push rod 605, and the polishing spring 603, the polishing rod 604 and the polishing push rod 605 are also provided with three sets. When the polishing device is used, a motor drives a dust suction fan 611 to rotate, the dust suction fan 611 drives the polishing second gear 608 to rotate through a polishing connecting belt 609, the polishing second gear 608 drives the polishing gear 606 to rotate, the polishing gear 606 drives a polishing rotating frame 613 to rotate, the polishing rotating frame 613 drives the polishing rod 604 to rotate, a polishing push rod 605 on the polishing rod 604 pushes the polishing inner ring 602 to rotate, the polishing push rod 605 moves in a groove on the polishing inner ring 602, and the polishing rod 604 is driven to move towards a direction far away from a stainless steel pipe. The dust suction fan 611 is driven to rotate during polishing, and dust generated by polishing of the polished rod 604 is absorbed by the dust suction housing 104.

Fixedly connected with gearbox 709 on base 101, it connects upper shaft 708 and connection drive shaft 710 to rotate to be connected with on gearbox 709, it connects belt 707 to connect friction on the upper shaft 708, connect belt 707 is still friction connection on connecting lower shaft 702, connect fixedly connected with connecting gear 701 on the lower shaft 702, connect lower shaft 702 sliding connection on connecting first baffle 703, connect first baffle 703 fixed connection on base 101, connect the first end that still fixedly connected with connected reset spring 704 on the lower shaft 702, connect the second end fixed connection of reset spring 704 on connecting second baffle 705, connect second baffle 705 fixed connection on base 101, still be equipped with on the connection lower shaft 702 and connect and push ring 706, fixedly connected with connection bevel gear 711 on the connection drive shaft 710.

As shown in fig. 9, 10 and 12, a gear is disposed on the polishing driving shaft 610 to be engaged with the connecting gear 701, the polishing driving shaft 610 rotates to drive the connecting gear 701 to rotate, the connecting gear 701 drives the connecting lower shaft 702 to rotate, the connecting lower shaft 702 drives the connecting upper shaft 708 to rotate through the connecting belt 707, the connecting upper shaft 708 is speed-regulated through the gearbox 709, power is transmitted to the connecting driving shaft 710, and the connecting driving shaft 710 drives the connecting bevel gear 711 to rotate.

The base 101 is rotatably connected with a first separating rotating shaft 401, the first end of the first separating rotating shaft 401 is fixedly connected to the wire drawing rotating disc 302, the first end of the first separating rotating shaft 401 is also in friction connection with the wire drawing transmission belt 301, the wire drawing transmission belt 301 is also in friction connection with the wire drawing main shaft 207, the second end of the first separating rotating shaft 401 is fixedly connected to the separating rotating disc 403, three separating connecting rods 402 are slidably connected between the two separating rotating discs 403, the first end of the separating rotating shaft 404 is fixedly connected to the separating rotating disc 403, the second end of the separating rotating shaft 404 is provided with threads, the second end of the separating rotating shaft 404 is in friction connection with the first end of the separating rotating rod 405, the second end of the separating rotating rod 405 is in friction connection with the first end of the separating spring 406, the second end of the separating spring 406 is fixedly connected to the first separating baffle 407, the second end of the separating rotating rod 405 is also in sliding connection with the first separating baffle 407, the first separating baffle 407 is fixedly connected to the base 101, the second end of the separating rotating rod 405 is also rotatably connected with the first end of the separating connecting rod 408, the second end of the separating connecting rod 408 is fixedly connected to the separating push rod 409, and the separating push rod 702 is slidably connected to the lower shaft 702.

As shown in fig. 4 and fig. 6, when the drawing main shaft 207 rotates, the separation first rotating shaft 401 is driven to rotate by the drawing transmission belt 301, the separation first rotating shaft 401 transmits power to the separation rotating shaft 404 through the separation connecting rod 402 and the separation turntable 403, when the separation rotating shaft 404 rotates, the separation rotating rod 405 is pushed out through threads, the separation rotating rod 405 presses the separation spring 406 and pushes the separation connecting rod 408, the separation connecting rod 408 pushes the separation push rod 409 to move, the separation push rod 409 pushes the connection push ring 706 to push the connection lower shaft 702 to move, the connection lower shaft 702 presses the connection return spring 704, when the separation first rotating shaft 401 loses power, the separation rotating shaft 404 stops rotating, and under the action of the threads on the separation spring 406 and the separation rotating shaft 404, the separation rotating rod 405 returns.

The first end that is connected with wire drawing connecting rod 303 rotates on wire drawing carousel 302, the second end of wire drawing connecting rod 303 rotates and connects on wire drawing ejector pad 304, wire drawing ejector pad 304 sliding connection is on wire drawing carriage 305, wire drawing carriage 305 fixed connection is on base 101, the vertical balladeur train 307 of fixedly connected with wire drawing on the base 101, sliding connection has the vertical slide bar 306 of wire drawing on the vertical balladeur train 307 of wire drawing, rotating connection has rotation ejector pad 308 on the vertical slide bar 306 of wire drawing, rotating connection has the first gear 309 of wire drawing on the support on base 101, fixedly connected with wire drawing second gear 310 on the first gear 309 of wire drawing, rotating connection has wire drawing third gear 311 on the polishing support 607.

As shown in fig. 4, 5 and 6, when the wire drawing spindle 207 rotates, the wire drawing rotary table 302 is driven to rotate by the wire drawing transmission belt 301, the wire drawing rotary table 302 drives the wire drawing connecting rod 303 to rotate, the wire drawing connecting rod 303 pushes the wire drawing push block 304 to slide on the wire drawing sliding table 305, sliding blocks are arranged on two sides of the wire drawing push block 304, the wire drawing push block 304 is convenient to maintain the direction, one surface, close to the wire drawing vertical sliding rod 306, on the wire drawing push block 304 is an inclined surface, after the wire drawing push block 304 touches the wire drawing vertical sliding rod 306, the wire drawing push block 304 pushes the wire drawing vertical sliding rod 306 to move upwards, after the wire drawing push block 304 moves leftwards, the wire drawing vertical sliding rod 306 falls down, the rotating push block 308 on the wire drawing vertical sliding rod 306 pushes the wire drawing first gear 309 to rotate once, the wire drawing first gear 309 drives the wire drawing second gear 310 to rotate the wire drawing third gear 311, and the wire drawing third gear 311 rotates and polishes the teeth of the inner ring 602. Therefore, the polishing inner ring 602 rotates counterclockwise, and the polishing inner ring 602 pushes the polishing push rod 605, so that the polishing rod 604 clings to the stainless steel tube, thereby driving the stainless steel tube to rotate.

Fixedly connected with support 501 that resets on the base 101, sliding connection has link 502 that resets on support 501 that resets, be equipped with the ejector pad 503 that resets on the link 502 that resets, install the sensor on the ejector pad 503 that resets, the last first end of still fixedly connected with rotary rod 504 that resets of link 502 that resets, the second end rotation of rotary rod 504 that resets is connected with second link 505 that resets, rotary rod 504 that resets still rotates to be connected on the support, sliding connection has second push rod 506 that resets on the second link 505 that resets, fixedly connected with third push rod 507 that resets on the second push rod 506 that resets.

As shown in fig. 7, 8 and 9, a bump is disposed on the polishing outer rotating ring 601, when the polishing outer rotating ring 601 rotates one circle, the polishing outer rotating ring 601 pushes the reset push block 503 to move, the reset push block 503 drives the reset connecting rod 502 to slide on the reset bracket 501, the reset connecting rod 502 drives the reset rotating rod 504 to rotate, the reset rotating rod 504 drives the reset second connecting rod 505 to push the reset second push rod 506 to move, the reset second push rod 506 pushes the reset third push rod 507 to move, the reset third push rod 507 pushes the separation push rod 409 to move, so that the separation push rod 409 is no longer in contact with the connection push ring 706, and thus the polishing inner ring 602 is reset under the action of the connection reset spring 704.

Fixedly connected with propelling movement support 805 on base 101, sliding connection has propelling movement axis of rotation 804 on propelling movement support 805, the last friction connection of propelling movement axis of rotation 804 has propelling movement belt 803, propelling movement belt 803 still friction connection is on propelling movement bevel gear 802 down, still fixedly connected with propelling movement connecting rod 806 on propelling movement axis of rotation 804, it is connected with propelling movement second connecting rod 807 to rotate on propelling movement connecting rod 806, it is connected with propelling movement connecting axle 808 to rotate on propelling movement second connecting rod 807, it is connected with propelling movement skew pole 809 to rotate on propelling movement connecting axle 808, be equipped with the turning wheel on the propelling movement skew pole 809, fixedly connected with propelling movement wheel 106 on propelling movement axis of rotation 804, it is connected with propelling movement bevel gear 801 still to rotate on propelling movement support 805.

As shown in fig. 10 and 12, springs are disposed on the pushing rotating shaft 804 and the pushing support 805 near the pushing upper bevel gear 801, the springs are in a tensioned state, when facing stainless steel pipes of different sizes, the two pushing wheels 106 are controlled by the springs to approach each other, so as to drive the pushing rotating shaft 804 to move towards the middle, a pushing baffle 810 is disposed on the base 101, when the pushing rotating shaft 804 moves, the pushing connecting rod 806 pushes the pushing second connecting rod 807, the pushing second connecting rod 807 pushes the pushing offset rod 809, the pushing offset rod 809 is blocked by the pushing baffle 810, so that the pushing offset rod 809 pushes the pushing belt 803 to deflect outwards, so that the pushing belt 803 is always in close contact with the pushing rotating shaft 804 and the pushing lower bevel gear 802, so that the pushing lower bevel gear 802 can transmit power to the pushing rotating shaft 804 through the pushing belt 803, the pushing rotating shaft 804 drives the pushing wheel 106 on one side to rotate, and the pushing wheel 106 on the other side transmits power through the pushing upper bevel gear 801, thereby driving the stainless steel pipes to move.

The supporting frame 906 is fixedly connected to the base 101, two groups of supporting sliding rods 902 are slidably connected to the supporting frame 906, first ends of supporting springs 905 are fixedly connected to the supporting sliding rods 902, second ends of the supporting springs 905 are fixedly connected to the supporting middle stopper 904, the supporting middle stopper 904 is fixedly connected to the supporting frame 906, the supporting sliding rods 902 are fixedly connected to the supporting wheel frame 901, and the supporting wheel frame 901 is rotatably connected with the supporting wheels 105.

As shown in fig. 11, two support wheels 105 are provided, which are distributed up and down, and clamp and support the stainless steel pipe by support springs 905. The support limiting rod 903 is fixedly connected to the support wheel frame 901, and when the support wheel frame 901 moves towards the support intermediate block 904, the support limiting rod 903 limits the moving distance of the support wheel frame 901, so as to avoid collision between the upper and lower support wheel frames 901.

During polishing, the steel pipe is clamped and supported by the supporting wheel 105, the stainless steel pipe is controlled to move by the pushing wheel 106, the polishing gear 606 is controlled to rotate clockwise by the motor, namely the polishing push rod 605 is pushed when the polishing inner ring 602 rotates, so that the friction force between the polishing rod 604 and the stainless steel pipe is not so large, the stainless steel pipe cannot be driven to rotate, and the stainless steel pipe is polished. The rotational speed between the burnishing gear 606 and the pushing wheel 106 is controlled by a gearbox 709.

During wire drawing, as shown in fig. 4, the motor drives the wire drawing main shaft 207 to rotate, the wire drawing main shaft 207 drives the wire drawing rotating rod 205 to rotate, when the wire drawing rotating rod 205 rotates, the wire drawing spring 206 is firstly compressed, the moving frame 202 and the first wire drawing sliding rod 203 are driven to move leftwards, the stainless steel pipe is drawn, when the length of the wire drawing spring 206 returns to the original length after the stainless steel pipe reaches the left side, and one-time wire drawing is finished. The wire drawing rotating rod 205 continues to rotate, the wire drawing rotating rod 205 drives the moving frame 202 to slide on the first wire drawing sliding rod 203, so that the wire drawing wheel 103 leaves a stainless steel pipe, then the wire drawing wheel 103 rotates to the position shown in the drawing through rotation of the wire drawing main shaft 207, next wire drawing is carried out, after each time of wire drawing, the wire drawing push block 304 can be pushed to the right to be in contact with the vertical wire drawing sliding rod 306, so that the vertical wire drawing sliding rod 306 moves upwards, the rotating push block 308 on the vertical wire drawing sliding rod 306 pushes once, and then the polishing inner ring 602 is driven to rotate once, when the polishing inner ring 602 rotates, the polishing rod 604 is driven to be attached to the stainless steel pipe, friction force is increased, the polishing rod 604 can drive the stainless steel pipe to rotate, and wire drawing is completed after one circle of rotation.

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

Claims (2)

1. The utility model provides a polishing wire drawing device for stainless steel pipe, includes base (101), bracing piece (102), wire drawing wheel (103) and polishing outer swivel (601), its characterized in that: the polishing machine is characterized in that the supporting rod (102) is fixedly connected to the base (101), the dust suction shell (104) is fixedly connected to the base (101), the pushing wheel (106) is also rotatably connected to the base (101), the polishing outer rotating ring (601) is rotatably connected to the polishing second support (612), and the polishing second support (612) is fixedly connected to the base (101);

the wire drawing wheel (103) is rotatably connected to a first end of a telescopic rod (201), a second end of the telescopic rod (201) is fixedly connected to a moving frame (202), a first wire drawing slide bar (203) is slidably connected to the moving frame (202), the first wire drawing slide bar (203) is slidably connected to a second wire drawing slide bar (204), the second wire drawing slide bar (204) is fixedly connected to a base (101), a first end of a wire drawing rotating rod (205) is also rotatably connected to the moving frame (202), a second end of the wire drawing rotating rod (205) is fixedly connected to a first end of a wire drawing spring (206), a second end of the wire drawing spring (206) is fixedly connected to a wire drawing main shaft (207), and the wire drawing main shaft (207) is rotatably connected to a motor;

the polishing device is characterized in that a polishing support (607) is fixedly connected to the base (101), a polishing rotating frame (613) is connected to the polishing support (607) in a rotating mode, a polishing rod (604) is connected to the polishing rotating frame (613) in a sliding mode, a first end of the polishing rod (604) is fixedly connected to a first end of a polishing spring (603), a second end of the polishing spring (603) is fixedly connected to the polishing rotating frame (613), a second end of the polishing rod (604) is fixedly connected to a polishing push rod (605), the polishing push rod (605) is connected to a groove in the polishing inner ring (602) in a sliding mode, the polishing inner ring (602) is rotatably connected to the polishing rotating frame (613), a polishing gear (606) is fixedly connected to the polishing rotating frame (613), a polishing second gear (608) is rotatably connected to the support on the base (101), a polishing connecting belt (609) is connected to the polishing second gear (608) in a friction mode, the polishing belt connecting (609) is also connected to the polishing driving shaft (610) in a friction mode, and a dust suction fan (611) is also fixedly connected to the polishing second gear (608);

the connecting device is characterized in that a gearbox (709) is fixedly connected to the base (101), a connecting upper shaft (708) and a connecting driving shaft (710) are rotatably connected to the gearbox (709), a connecting belt (707) is connected to the connecting upper shaft (708) in a friction mode, the connecting belt (707) is also connected to the connecting lower shaft (702) in a friction mode, a connecting gear (701) is fixedly connected to the connecting lower shaft (702), the connecting lower shaft (702) is connected to the connecting first baffle (703) in a sliding mode, the connecting first baffle (703) is fixedly connected to the base (101), a first end of a connecting reset spring (704) is fixedly connected to the connecting lower shaft (702), a second end of the connecting reset spring (704) is fixedly connected to the connecting second baffle (705), the connecting second baffle (705) is fixedly connected to the base (101), a connecting push ring (706) is further arranged on the connecting lower shaft (702), and a connecting bevel gear (711) is fixedly connected to the connecting driving shaft (710);

the base (101) is connected with a separation first rotating shaft (401) in a rotating mode, the first end of the separation first rotating shaft (401) is fixedly connected to a wire drawing rotating disc (302), the first end of the separation first rotating shaft (401) is also connected with a wire drawing transmission belt (301) in a friction mode, the wire drawing transmission belt (301) is also connected to a wire drawing main shaft (207) in a friction mode, the second end of the separation first rotating shaft (401) is fixedly connected to a separation rotating disc (403), three separation connecting rods (402) are connected between the two separation rotating discs (403) in a sliding mode, the first end of the separation rotating shaft (404) is fixedly connected to the separation rotating disc (403), the second end of the separation rotating shaft (404) is provided with threads, the second end of the separation rotating shaft (404) is connected with the first end of a separation rotating rod (405) in a friction mode, the second end of the separation rotating rod (405) is connected with the first end of a separation spring (406) in a friction mode, the second end of the separation spring (406) is fixedly connected to a separation first baffle (407) which is connected to a separation connecting rod (409), the separation rotating rod (408) is connected to a separation first baffle (407), the separation connecting rod (405), the second end of the separation rotating rod (409) is connected to a separation baffle (409) which is connected to a separation connecting rod (408);

the wire drawing rotary table (302) is rotatably connected with a first end of a wire drawing connecting rod (303), a second end of the wire drawing connecting rod (303) is rotatably connected to a wire drawing push block (304), the wire drawing push block (304) is slidably connected to a wire drawing sliding frame (305), the wire drawing sliding frame (305) is fixedly connected to a base (101), the base (101) is fixedly connected with a wire drawing vertical sliding frame (307), a wire drawing vertical sliding rod (306) is slidably connected to the wire drawing vertical sliding frame (307), a rotating push block (308) is rotatably connected to the wire drawing vertical sliding rod (306), a wire drawing first gear (309) is rotatably connected to a support on the base (101), a wire drawing second gear (310) is fixedly connected to the wire drawing first gear (309), and a wire drawing third gear (311) is rotatably connected to a polishing support (607);

a reset support (501) is fixedly connected to the base (101), a reset connecting rod (502) is connected to the reset support (501) in a sliding mode, a reset push block (503) is arranged on the reset connecting rod (502), a sensor is installed on the reset push block (503), a first end of a reset rotating rod (504) is further fixedly connected to the reset connecting rod (502), a second end of the reset rotating rod (504) is rotatably connected with a reset second connecting rod (505), the reset rotating rod (504) is further rotatably connected to the support, a reset second push rod (506) is connected to the reset second connecting rod (505) in a sliding mode, and a reset third push rod (507) is fixedly connected to the reset second push rod (506);

base (101) on fixedly connected with propelling movement support (805), sliding connection has propelling movement axis of rotation (804) on propelling movement support (805), friction connection has propelling movement belt (803) on propelling movement axis of rotation (804), propelling movement belt (803) still friction connection is on propelling movement lower bevel gear (802), it has propelling movement connecting rod (806) still to go back fixedly connected with on propelling movement axis of rotation (804), it has propelling movement second connecting rod (807) to go up to rotate on propelling movement connecting rod (806), it is connected with propelling movement connecting axle (808) to rotate on propelling movement second connecting rod (807), it is connected with propelling movement skew pole (809) to rotate on propelling movement connecting axle (808), be equipped with the runner on propelling movement skew pole (809), fixedly connected with propelling movement wheel (106) on propelling movement axis of rotation (804), it is connected with propelling movement upper bevel gear (801) still to rotate on propelling movement support (805).

2. The polishing and wire drawing device for the stainless steel pipe according to claim 1, wherein: base (101) on fixedly connected with support frame (906), sliding connection has two sets of support slide bars (902) on support frame (906), the first end of fixedly connected with supporting spring (905) on support slide bar (902), the second end fixed connection of supporting spring (905) is on supporting middle dog (904), dog (904) fixed connection is on support frame (906) in the middle of supporting, support slide bar (902) fixed connection is on supporting wheel carrier (901), it is connected with supporting wheel (105) to rotate on supporting wheel carrier (901).

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