CN117483842B

CN117483842B - Stainless steel tube boring device

Info

Publication number: CN117483842B
Application number: CN202311611068.9A
Authority: CN
Inventors: 郭松先
Original assignee: Jiangsu Yiwei Stainless Steel Pipe Co ltd
Current assignee: Jiangsu Yiwei Stainless Steel Pipe Co ltd
Priority date: 2023-11-29
Filing date: 2023-11-29
Publication date: 2024-04-19
Anticipated expiration: 2043-11-29
Also published as: CN117483842A

Abstract

The invention discloses a stainless steel tube boring processing device, which relates to the technical field of boring processing and comprises a water tank, wherein a conveying assembly is fixedly arranged in the water tank, the conveying assembly comprises a trough, a fixed ring support is arranged below the trough, two symmetrically arranged driving roller supports are fixedly arranged on the fixed ring support, and at least three driving rollers are rotatably arranged on each driving roller support. According to the invention, the loading and clamping of the stainless steel tube are realized, and the closed loop detection of the moving distance of the stainless steel tube is realized by arranging the detection wheel and the angle sensor, so that the processing accuracy is realized; the flow fan is adopted to drive the cooling liquid to flow so as to cool the cutter and the stainless steel pipe, so that the working temperature of the cutter can be reduced, and scrap iron generated in the boring process is cleaned; the processed stainless steel tube can be moved out of the water tank, so that the stainless steel tube can be further processed conveniently.

Description

Stainless steel tube boring device

Technical Field

The invention relates to the technical field of boring processing, in particular to a stainless steel tube boring processing device.

Background

Boring is a cutting process that uses a tool to expand a hole or other circular profile, typically ranging from semi-rough machining to finish machining, using a single-edge boring tool, and using a rotating single-edge boring tool to expand a preformed hole in a workpiece to a size that achieves the required precision and surface roughness. Therefore, the boring can be used for boring the end surfaces of the stainless steel pipes, so that stepped holes are formed, and sealing butt joint of the two stainless steel pipes is facilitated.

In the prior art, the utility model patent with the publication number of CN218696369U adopts a high-precision steel pipe boring device, and the technical scheme can clean scrap iron generated in the boring process, but cannot realize the functions of feeding and returning, and cannot carry out boring processing on the pipeline in batches.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides the following technical scheme: the stainless steel tube boring processing device comprises a water tank, wherein a conveying assembly is fixedly arranged in the water tank, the conveying assembly comprises a trough, a fixed ring bracket is arranged below the trough, two symmetrically arranged driving roller brackets are fixedly arranged on the fixed ring bracket, at least three driving rollers are rotatably arranged on each driving roller bracket, a fixed ring is fixedly arranged on the fixed ring bracket, three sliding grooves which are mutually 120-degree are formed in the fixed ring, clamping blocks are slidably arranged in each sliding groove, a rotary groove is further formed in the fixed ring, a toothed ring is rotatably matched in the rotary groove, and slope convex blocks which are in magnetic attraction sliding fit with the clamping blocks are arranged on the toothed ring; the boring device is characterized in that a boring assembly is fixedly installed in the water tank, the boring assembly comprises a boring ring, a flowing fan is fixedly installed on the boring ring through a flowing fan support, the flowing fan is rotatably installed on the inner wall of the water tank through a support, a balancing weight is arranged on the boring ring, a boring supporting plate is fixedly installed in the boring ring, a feeding block is slidably installed on the boring supporting plate through a sliding rod, a sliding groove is formed in the feeding block, a boring arm supporting block is slidably installed in the sliding groove, a boring arm is fixedly installed on the boring arm supporting block, and a cutter is arranged on the boring arm.

Preferably, the trough and the fixed ring support are both fixedly arranged on the inner wall of the pool, and the two driving rollers at two ends of each side are driven by a driving motor fixedly arranged on the driving roller support.

Preferably, each clamping block is fixedly provided with a detection wheel support, the detection wheel support is rotatably provided with a detection wheel, the detection wheel is in rolling fit with the stainless steel pipe, the detection wheel support is fixedly provided with an angle sensor for detecting the rotation angle of the detection wheel, the detection wheel support is used for recording and monitoring the moving distance of the stainless steel pipe, and the fixing ring is further provided with an avoidance groove for connecting the detection wheel support with the clamping block.

Preferably, the boring support plate is also fixedly provided with an adjusting motor, the output shaft of the adjusting motor is fixedly provided with a screw rod which is in threaded fit with the feeding block, the sliding rod is in sliding fit with the feeding block, and the feeding block is in sliding connection with the boring support plate.

Preferably, the feeding block is rotatably provided with a feeding worm wheel and a driving gear, the feeding worm wheel and the driving gear are fixed into a whole through a shaft, the boring arm supporting block is provided with a tooth form meshed with the driving gear, the feeding block is fixedly provided with a feeding motor, an output shaft of the feeding motor is fixedly provided with a feeding worm meshed with the feeding worm wheel in a threaded manner, and the feeding worm is rotatably arranged on the feeding block.

Preferably, the stainless steel pool comprises a water pool body, a water pool body and a stainless steel pipe, and is characterized by further comprising a discharging assembly, wherein the discharging assembly comprises a belt wheel support fixedly arranged on the water pool, belt wheels are rotatably arranged on the belt wheel support and the inner wall of the water pool, the two belt wheels are in transmission connection through a transmission belt which is obliquely arranged, and a separating hook is arranged on the transmission belt and used for driving the stainless steel pipe to move out of the water pool.

Preferably, a transmission motor for driving the belt wheels to rotate is fixedly arranged on the belt wheel support, a sliding plate is fixedly arranged on the bottom surface of the inner wall of the water tank, and the sliding plate and the horizontal surface form an included angle of 30 degrees and are used for sliding the stainless steel tube onto the separating hooks.

Preferably, the water tank is also fixedly provided with a boring main motor, an output shaft of the boring main motor is fixedly connected with the flowing fan, the fixed ring is also fixedly provided with a clamping motor, an output shaft of the clamping motor is fixedly provided with a clamping gear, and the clamping gear is meshed with the toothed ring.

Compared with the prior art, the invention has the following beneficial effects: (1) The conveying assembly provided by the invention realizes the loading and clamping of the stainless steel pipe, and realizes the closed-loop detection of the moving distance of the stainless steel pipe by arranging the detection wheel and the angle sensor, so that the machining accuracy is realized; (2) The invention adopts the flowing fan to drive the cooling liquid to flow so as to cool the cutter and the stainless steel pipe, thereby not only reducing the working temperature of the cutter, but also cleaning scrap iron generated in the boring process; (3) According to the invention, the stainless steel pipe which is processed can be moved out of the water tank by arranging the discharging assembly, so that the stainless steel pipe can be further processed conveniently.

Drawings

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

Fig. 2 is a schematic view of a discharging assembly according to the present invention.

FIG. 3 is a schematic diagram of a trough structure according to the present invention.

FIG. 4 is a schematic view of the structure of the fixing ring of the present invention.

FIG. 5 is a schematic view showing the internal structure of the fixing ring of the present invention.

FIG. 6 is a schematic view of a flow fan according to the present invention.

FIG. 7 is a schematic view of a boring assembly according to the present invention.

FIG. 8 is a schematic view of the structure of the boring arm support block according to the present invention.

FIG. 9 is a schematic view of the internal boring groove structure of the present invention.

In the figure: 101-a transmission belt; 102-a pulley bracket; 103-a drive motor; 104-a belt wheel; 105-separating hooks; 106-sliding plates; 201-a trough; 202-a fixed ring bracket; 203-a drive roller carriage; 204-a drive roller; 205-driving a motor; 206-fixing ring; 2061-a rotational groove; 2062-an avoidance groove; 207-toothed ring; 2071-ramp bump; 208-clamping blocks; 209-a detection wheel support; 210-a detection wheel; 211-an angle sensor; 212-clamping a gear; 213-clamping motor; 301-boring ring; 3011-balancing weight; 302-boring a supporting plate; 303-a slide bar; 304-a screw rod; 305-adjusting the motor; 306-a feed block; 307-feed worm gear; 308-feeding worm; 309-a feed motor; 310-boring arm support blocks; 311-boring a main motor; 312-a drive gear; 313-boring arm; 314-a cutter; 315-a flow fan support; 316-flow fan; 4-stainless steel tube; 41-boring a groove; 5-a pool.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1-9, the invention provides a stainless steel pipe boring processing device, which comprises a water tank 5, wherein a conveying assembly is fixedly installed in the water tank 5, the conveying assembly comprises a trough 201, a fixed ring support 202 is arranged below the trough 201, two symmetrically arranged driving roller supports 203 are fixedly installed on the fixed ring support 202, at least three driving rollers 204 are rotatably installed on each driving roller support 203, a fixed ring 206 is fixedly installed on the fixed ring support 202, three sliding grooves which are mutually 120 degrees are formed in the fixed ring 206, clamping blocks 208 are slidably installed in each sliding groove, a rotary groove 2061 is formed in the fixed ring 206, a toothed ring 207 is rotatably matched in the rotary groove 2061, a slope bump 2071 which is magnetically matched with the clamping blocks 208 is arranged on the toothed ring 207, the trough 201 and the fixed ring support 202 are fixedly installed on the inner wall of the water tank 5, two driving motors 205 which are fixedly installed on the driving roller supports 203 are all arranged at two ends of each side, a detection wheel support 209 is fixedly installed on each clamping block 208, a detection wheel support 210 is rotatably installed on the driving roller support 204, a detection wheel 210 is rotatably matched with the detection wheel 210, and a detection wheel 210 is also rotatably installed on the detection wheel support 209 for detecting the stainless steel pipe, and the detection wheel is fixedly connected with a stainless steel pipe 209, and the detection wheel is fixedly connected with a stainless steel pipe 4 by a detection wheel 209, and the detection device is fixedly used for detecting the distance of the angle.

The boring assembly is further fixedly arranged in the water tank 5 and comprises a boring ring 301, a flow fan 316 is fixedly arranged on the boring ring 301 through a flow fan bracket 315, the flow fan 316 is rotatably arranged on the inner wall of the water tank 5 through the bracket, a balancing weight 3011 is arranged on the boring ring 301, a boring support plate 302 is fixedly arranged in the boring ring 301, a feeding block 306 is slidably arranged on the boring support plate 302 through a sliding rod 303, a sliding groove is arranged on the feeding block 306, a boring arm support block 310 is slidably arranged in the sliding groove, a boring arm 313 is fixedly arranged on the boring arm support block 310, and a cutter 314 is arranged on the boring arm 313. An adjusting motor 305 is fixedly mounted on the boring support plate 302, a screw rod 304 in threaded fit with a feed block 306 is fixedly mounted on an output shaft of the adjusting motor 305, a slide rod 303 is in sliding fit with the feed block 306, and the feed block 306 is in sliding connection with the boring support plate 302. The feeding block 306 is rotatably provided with a feeding worm wheel 307 and a driving gear 312, the feeding worm wheel 307 and the driving gear 312 are fixed into a whole through a shaft, the boring arm supporting block 310 is provided with a tooth form meshed with the driving gear 312, the feeding block 306 is fixedly provided with a feeding motor 309, the output shaft of the feeding motor 309 is fixedly provided with a feeding worm 308 meshed with the feeding worm wheel 307 in a threaded manner, and the feeding worm 308 is rotatably arranged on the feeding block 306.

The discharging assembly comprises a belt wheel bracket 102 fixedly arranged on the water tank 5, belt wheels 104 are rotatably arranged on the belt wheel bracket 102 and the inner wall of the water tank 5, the two belt wheels 104 are in transmission connection through a transmission belt 101 which is obliquely arranged, and a separating hook 105 is arranged on the transmission belt 101 and used for driving the stainless steel pipe 4 to move out of the water tank 5. The pulley bracket 102 is fixedly provided with a transmission motor 103 for driving the pulley 104 to rotate, the bottom surface of the inner wall of the pool 5 is fixedly provided with a sliding plate 106, and the sliding plate 106 and the horizontal surface form an included angle of 30 degrees and are used for sliding the stainless steel tube 4 onto the separating hook 105. The boring main motor 311 is fixedly arranged on the water tank 5, an output shaft of the boring main motor 311 is fixedly connected with the flow fan 316, the clamping motor 213 is fixedly arranged on the fixed ring 206, the clamping gear 212 is fixedly arranged on the output shaft of the clamping motor 213, and the clamping gear 212 is meshed with the toothed ring 207.

The invention discloses a stainless steel tube boring device, which has the following working principle: the stack of stainless steel tubes 4 is first placed in the trough 201 (not too much, otherwise excessive pressure would be applied to the lowermost one of the stainless steel tubes 4) and the vertical pressure to the lowermost one of the stainless steel tubes 4 can be reduced by providing a ramp at the top of the trough 201. The stainless steel tube 4 falls on the driving roller 204, then the driving motor 205 is started, the driving motor 205 drives the driving roller 204 to rotate, the driving roller 204 drives the bottommost stainless steel tube 4 to move into the fixed ring 206, meanwhile, the clamping motor 213 is controlled, the output shaft of the clamping motor 213 drives the clamping gear 212 to rotate according to the outer diameter of the stainless steel tube 4, the clamping gear 212 drives the toothed ring 207 to rotate, the toothed ring 207 rotates to squeeze or attract the clamping block 208 to move along the radial direction of the fixed ring 206 through the slope convex block 2071, the clamping block 208 is in contact with the surface of the stainless steel tube 4 (but does not clamp first), at this time, the detecting wheel 210 is in contact with the stainless steel tube 4 first, so that the movement of the detecting wheel 210 drives the detecting wheel 210 to rotate, and the set angle sensor 211 monitors the rotation angle and the number of turns of the detecting wheel 210. Then, the adjusting motor 305 is started, the output shaft of the adjusting motor 305 drives the screw rod 304 to rotate, the screw rod 304 rotates to drive the feeding block 306 to move, the feeding block 306 moves to drive the boring arm 313 and the cutter 314 to approach the stainless steel tube 4 (to realize axial feeding of the cutter 314 to the stainless steel tube 4), meanwhile, the boring main motor 311 is started, the output shaft of the boring main motor 311 drives the flow fan 316 to rotate, the flow fan 316 drives the boring ring 301 to rotate through the flow fan bracket 315, the boring ring 301 rotates to drive the cutter 314, the counterweight 3011 is arranged to balance centrifugal force (jitter reduction) generated when the boring support plate 302 rotates, the output shaft of the feeding motor 309 drives the feeding worm 308 to rotate by controlling the feeding motor 309, the feeding worm 308 rotates to drive the feeding worm 307 to rotate, the driving gear 312 rotates to drive the boring arm support block 310 to slide on the feeding block 306, the boring arm support block 310 drives the cutter 314 to feed the other end of the stainless steel tube 4 through the boring arm 313 in the radial direction (as shown in fig. 9, the boring groove 41 is bored on the stainless steel tube 4, and the boring ring 41 is embedded in the groove 41 is embedded in the stainless steel tube 4). In order to prevent the tool 314 from overheating during the machining process, a cooling liquid needs to be added into the water tank 5 (an electric device in the water tank 5 is set to be in a waterproof state, enameled wires with thicker paint can be selected as motor windings, or insulating cooling liquid is selected), the rotating flow fan 316 can drive the cooling liquid to pass through the stainless steel pipe 4 being machined, so that heat on the tool 314 and the stainless steel pipe 4 is taken away, and meanwhile, the flowing cooling liquid can also take away the cut scrap iron and sink into the bottom of the water tank 5 under the action of gravity. When the process is completed, the grip motor 213 is controlled again to separate the stainless steel pipe 4 from the grip block 208, and then the driving motor 205 is controlled to drive the stainless steel pipe 4 to retreat by the driving roller 204, as shown in fig. 3, so that the lowermost one of the stainless steel pipes 4 moves leftward, so that the right end of the stainless steel pipe 4 is completely separated from the driving roller 204, and then the stainless steel pipe 4 falls on the slide plate 106, and there is a level difference between the stainless steel pipe 4 and the slide plate 106, so that the stainless steel pipe 4 rolls on the slide plate 106 to fall on the separation hook 105, and the upper stainless steel pipe 4 replaces the original stainless steel pipe 4, and then the new stainless steel pipe 4 is continuously fed into the fixing ring 206 by the driving motor 205. The stainless steel tube 4 falling onto the separating hook 105 is conveyed out of the water tank 5 through the driving belt 101 (through the driving motor 103, the output shaft of the driving motor 103 drives one of the pulleys 104 to rotate, the pulley 104 rotates to drive the driving belt 101 to rotate, and the driving belt 101 rotates to drive the separating hook 105 to move along, so that the stainless steel tube 4 moves to the top of the driving belt 101), and the water tank 5 is slid to a required position through a sliding rail or a slope with the same function as the sliding plate 106.

Claims

1. The utility model provides a stainless steel pipe boring processingequipment, includes pond (5), its characterized in that: the utility model discloses a water tank (5) is characterized in that a conveying component is fixedly arranged in the water tank (5), the conveying component comprises a trough (201), a fixed ring bracket (202) is arranged below the trough (201), two symmetrically arranged driving roller brackets (203) are fixedly arranged on the fixed ring bracket (202), at least three driving rollers (204) are rotatably arranged on each driving roller bracket (203), a fixed ring (206) is fixedly arranged on the fixed ring bracket (202), three sliding grooves which are 120 degrees are arranged in the fixed ring (206) are formed in each sliding groove, clamping blocks (208) are slidably arranged in each sliding groove, a rotary groove (2061) is further formed in the fixed ring (206), a toothed ring (207) is rotationally matched with the rotary groove (2061), a slope lug (2071) which is in magnetic attraction sliding fit with the clamping blocks (208) is arranged on the toothed ring bracket (207), the trough (201) and the fixed ring bracket (202) are fixedly arranged on the inner wall of the water tank (5), two driving rollers (204) at two ends of each side are fixedly arranged on a driving roller bracket (203) respectively, a driving roller (208) is fixedly arranged on a motor (205), a driving roller (210) is rotatably matched with a detecting wheel (209) on a detecting wheel (209), the detection wheel support (209) is fixedly provided with an angle sensor (211) for detecting the rotation angle of the detection wheel (210), the detection wheel support (209) is used for recording and monitoring the movement distance of the stainless steel tube (4), the fixed ring (206) is also provided with a avoidance groove (2062) for enabling the detection wheel support (209) to be connected with the clamping block (208), according to the outer diameter of the stainless steel tube (4), the clamping motor (213) is controlled, an output shaft of the clamping motor (213) drives the clamping gear (212) to rotate, the clamping gear (212) drives the toothed ring (207) to rotate, the toothed ring (207) rotates to squeeze or attract the clamping block (208) to move along the radial direction of the fixed ring (206) through a slope bump (2071), the clamping block (208) is enabled to be in contact with the surface of the stainless steel tube (4), but is not clamped at first, the detection wheel (210) is enabled to be in contact with the stainless steel tube (4), the movement of the detection wheel (210) is enabled to drive the detection wheel (210) to rotate, the angle sensor (211) is enabled to monitor the rotation angle of the detection wheel (210) and the motor (208) to rotate, and the clamping block (213) is controlled again;

The boring assembly is fixedly arranged in the water tank (5), the boring assembly comprises a boring ring (301), a flow fan (316) is fixedly arranged on the boring ring (301) through a flow fan bracket (315), the flow fan (316) is rotatably arranged on the inner wall of the water tank (5) through the bracket, a balancing weight (3011) is arranged on the boring ring (301), a boring support plate (302) is fixedly arranged in the boring ring (301), a feeding block (306) is slidably arranged on the boring support plate (302) through a sliding rod (303), a sliding groove is arranged on the feeding block (306), a boring arm support block (310) is slidably arranged on the sliding groove, a cutter (314) is arranged on the boring arm support block (310) in a fixed manner, an adjusting motor (305) is fixedly arranged on the boring support plate (302), a screw (304) in threaded fit with the feeding block (306) is fixedly arranged on an output shaft of the adjusting motor (305), the sliding rod (303) is slidably matched with the worm wheel (306), and the feeding block (307) is integrally connected with the feeding block (307) through a driving gear (312), the boring arm support block (310) is provided with a tooth form meshed with the driving gear (312), the feeding block (306) is fixedly provided with a feeding motor (309), an output shaft of the feeding motor (309) is fixedly provided with a feeding worm (308) meshed with the feeding worm wheel (307) in a threaded mode, the feeding worm (308) is rotatably arranged on the feeding block (306), the water tank (5) is fixedly provided with a boring main motor (311), an output shaft of the boring main motor (311) is fixedly connected with the flowing fan (316), the fixed ring (206) is fixedly provided with a clamping motor (213), an output shaft of the clamping motor (213) is fixedly provided with a clamping gear (212), the clamping gear (212) is meshed with the toothed ring (207), and electric devices in the water tank (5) are waterproof.

2. The stainless steel tube boring device according to claim 1, wherein: still include the row material subassembly, the row material subassembly includes band pulley support (102) of fixed mounting on pond (5), all rotates on band pulley support (102) and the inner wall in pond (5) and installs band pulley (104), and two band pulleys (104) are connected through the transmission of transmission band (101) of slope arrangement, have set separation hook (105) on transmission band (101) for drive stainless steel pipe (4) and remove out from pond (5).

3. The stainless steel tube boring device according to claim 2, wherein: the stainless steel pool is characterized in that a transmission motor (103) for driving the belt wheel (104) to rotate is fixedly arranged on the belt wheel support (102), a sliding plate (106) is fixedly arranged on the bottom surface of the inner wall of the pool (5), and the sliding plate (106) and the horizontal surface form an included angle of 30 degrees and are used for sliding the stainless steel tube (4) onto the separating hook (105).