CN112642867A - Processing device for high-performance stainless steel seamless steel pipe - Google Patents

Abstract

The invention discloses a processing device of a high-performance stainless steel seamless steel tube, which comprises a steel tube cold-drawing processing device body, wherein the steel tube cold-drawing processing device body comprises a power device, a pulling device, a die device and a material preparing rack which are sequentially arranged from left to right, the pulling device comprises a chain and a track, a trolley is arranged on the chain, the trolley comprises a trolley body, a drag hook is arranged on the trolley body, and an inner tube pulling assembly is also arranged on the trolley body. The processing device clamps the end of the seamless steel pipe by designing the inner pipe pulling assembly to replace a clamp, and the inner pipe pulling assembly can pass through the die device, so that the inner pipe pulling assembly does not need to reduce the end of the seamless steel pipe in advance when pulling the seamless steel pipe, the original shape of the seamless steel pipe can be maintained, the integrity of the whole shape of the seamless steel pipe is kept, waste materials are not generated, and the processing device is very favorable for production.

Description

Processing device for high-performance stainless steel seamless steel pipe

Technical Field

The invention belongs to the technical field of steel processing equipment, and particularly relates to a processing device of a high-performance stainless steel seamless steel pipe.

Background

The stainless steel seamless steel pipe is divided into a hot rolled pipe and a cold rolled pipe. The hot rolling and cold rolling processes of the seamless steel pipe are different, and the properties of the produced steel pipe are also different. In some places with higher precision requirements, such as boiler pipes or aircraft oil pipes commonly used in nuclear power stations, cold rolled pipes are mostly adopted. The subdivision of cold rolled tubes can be further divided into cold rolling and cold drawing processes. The method specifically comprises the following steps: the cold rolling is to cold roll a thick-wall pipe with a large pipe diameter into a thin-wall pipe with a small pipe diameter on a cold rolling mill, namely the length of the cold-rolled steel pipe is prolonged, the thickness of the cold-rolled steel pipe is reduced, and the cold-rolled steel pipe is mainly extruded by a roller during processing; in the cold drawing process, the steel pipe is drawn through a reducing grinding tool (naturally, the steel pipe needs to be subjected to heat treatment to reach a proper processing state before cold drawing), and the diameter of the steel pipe is reduced in a cold drawing and extruding mode to meet the processing requirement.

When a steel pipe cold-drawing processing device commonly used at present is used for processing and drawing a seamless steel pipe, a cold-drawing trolley needs to fix the end part of the seamless steel pipe on the outer wall of the seamless steel pipe by using a clamp and then drive the seamless steel pipe by using a chain. The fixing method is that the clamped end part of the steel pipe is easy to be separated from the clamp because of excessive deformation, and more importantly: the clamp clamps the outer wall of the seamless steel pipe, so that the clamp cannot pass through the necking of the die. Therefore, when a seamless steel pipe is processed, the clamped end portion of the seamless steel pipe is certainly used as scrap, as shown in fig. 1. For mass production, the amount of waste material increases with increasing production scale, which is very disadvantageous for cost control. Therefore, there is a need for improvement in this situation.

Disclosure of Invention

The invention provides a processing device of a high-performance stainless steel seamless steel pipe, which aims to solve the problems in the background technology.

The technical scheme of the invention is as follows: the processing device of the high-performance stainless steel seamless steel tube comprises a steel tube cold-drawing processing device body, wherein the steel tube cold-drawing processing device body comprises a power device, a pulling device, a die device and a material preparing rack which are sequentially arranged from left to right; the chain is provided with a trolley, the seamless steel pipe is pulled by the trolley to pass through the die device to perform diameter reduction processing on the seamless steel pipe, and the track is used for guiding the advancing of the trolley; the material preparing frame is used for storing seamless steel pipes to be processed; the method is characterized in that: the trolley comprises a trolley body, wherein a draw hook is arranged on the trolley body, the trolley body can be connected with a chain through the draw hook and can drive the trolley body to slide along a track through the chain; the inner pipe pulling assembly comprises a connecting seat arranged on the vehicle body, a horizontal threaded rod is fixedly arranged on the connecting seat, and the axial direction of the threaded rod is consistent with the drawing direction of the seamless steel pipe; the adjusting nut is in threaded connection with the threaded rod, the sleeve is in sliding fit with the threaded rod, and the conical head is fixedly connected with the threaded rod; the metal tensioning ring is provided with a plurality of compression springs, one ends of the compression springs are connected with the metal tensioning ring, and the other ends of the compression springs are connected with the right end of the conical head.

Further: the vehicle body is also provided with an outer tube pulling assembly, the outer tube pulling assembly comprises a pressure plate, a pull rod, a hollow pressing sleeve and a metal tensioning sleeve which are sequentially arranged from left to right, the pressure plate is coaxially and threadedly connected to the screw rod, the metal tensioning sleeve is coaxially and slidably matched in an inner cavity of the hollow pressing sleeve, and the inner wall of the hollow pressing sleeve is coaxially and wedge-shaped matched with the outer wall of the metal tensioning sleeve; the pull rod horizontally penetrates through the hollow pressing sleeve and the pressing plate, the pull rod is in sliding fit with the pressing plate and the hollow pressing sleeve, a pressing nut is connected to the end, close to the pressing plate, of the pull rod in a threaded mode, and an anti-falling part is formed in the end, far away from the pressing plate, of the pull rod; the pressure plate is provided with a horizontal limiting column, when the gland nut is screwed, the pull rod pulls the hollow pressing sleeve towards the pressure plate through the anti-falling part, and after the limiting column is tightly propped against the metal tensioning sleeve, the hollow pressing sleeve continuously pulled by the pull rod applies pressure to the metal tensioning sleeve along the radial direction, so that the metal tensioning sleeve is forced to lock tightly the seamless steel pipe.

Further: the threaded rod is in threaded connection with the conical head.

Further: the sleeve is sleeved with a positioning ring, the positioning ring is in threaded connection with the sleeve, an infrared displacement sensor is installed on the positioning ring, and the distance between the positioning ring and the end face, close to the positioning ring, of the seamless steel pipe is measured by the infrared displacement sensor.

Further: the drawing direction of following seamless steel pipe on the automobile body is equipped with the slide rail, connecting seat and this slide rail sliding connection.

Has the advantages that: the scheme provides a processing device of a high-performance stainless steel seamless steel pipe, which is an improvement on the existing seamless steel pipe drawing processing device and mainly aims at improving a trolley for drawing the seamless steel pipe.

Firstly, the end of the seamless steel pipe is clamped by designing an inner pipe pulling assembly to replace a clamp, and the inner pipe pulling assembly can pass through a die device, so that the end of the seamless steel pipe does not need to be subjected to reduction processing in advance when the seamless steel pipe is pulled by the inner pipe pulling assembly; and the inner tube pulling assembly is used for pulling the seamless steel tube, so that the original shape of the seamless steel tube can be maintained, particularly, the inner tube pulling assembly does not interfere with the die device, when the seamless steel tube is pulled to pass through the die assembly through the inner tube pulling assembly, the whole seamless steel tube can be subjected to reducing processing, the integrity of the whole shape of the seamless steel tube is kept, the whole seamless steel tube can meet the process requirements after being processed, waste materials cannot be generated, and the seamless steel tube drawing device is very favorable for production.

The scheme also discloses an outer tube pulling assembly, wherein the outer tube pulling assembly can be used for independently pulling the seamless steel tube after the end of the seamless steel tube passes through a die device; meanwhile, the outer tube pulling assembly and the inner tube pulling assembly are matched together, so that the stress of the clamped end part of the seamless steel tube is balanced, the pressure applied to the inner side and the outer side of the tube wall is moderate, and the damage of the clamped part of the seamless steel tube or the deformation of the seamless steel tube due to drawing transition is avoided. The outer tube pulling assembly and the inner tube pulling assembly when used in combination are therefore highly advantageous in maintaining the overall integrity of the seamless steel tube after processing.

Drawings

FIG. 1 is a schematic view of the overall structure of a steel pipe cold-drawing processing device body according to the present invention;

FIG. 2 is a schematic view of the mounting structure of the inner tube pulling assembly of the present invention;

FIG. 3 is a schematic view of the mounting arrangement of the outer tube pulling assembly of the present invention;

FIG. 4 is an enlarged view of the inner and outer tube pulling assemblies of the present invention;

fig. 5 is a schematic structural view of the metal tension ring of the present invention.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in fig. 1, 2, 3, 4 and 5, the invention discloses a processing device of a high-performance stainless steel seamless steel pipe, which comprises a steel pipe cold-drawing processing device body. As shown in fig. 1: the steel pipe cold-drawing processing device body comprises a power device 1, a pulling device 2, a die device 5 and a material preparing rack 7 which are sequentially arranged from left to right, wherein the pulling device 2 comprises a horizontal base, a chain 4 and a track are arranged on the base along the length direction, and the chain 4 is driven by the power device 1; the chain 4 is provided with a trolley 3, the seamless steel pipe 6 is pulled by the trolley 3 to pass through a die device 5 so as to carry out diameter reduction processing on the seamless steel pipe 6, and the advancing of the trolley 3 is guided by a track; the material preparing frame 7 is used for storing the seamless steel pipe 6 to be processed.

It should be noted that: the power device 1, the pulling device 2, the die device 5, the material preparing rack 7 and the like all belong to the prior art, and the improvement point of the scheme is that the trolley 3 is a clamp used for clamping the seamless steel pipe 6 on the trolley 3. When the clamp in the prior art fixes the seamless steel tube 6, the clamp directly clamps the outer wall of the seamless steel tube 6, and in order to enable the clamp to stably clamp the seamless steel tube 6, the end of the seamless steel tube 6 needs to be upset, flattened and the like, so that the clamped position of the end of the seamless steel tube 6 cannot be reused as waste. This is costly for precision steel pipes.

As shown in fig. 1 and 2, the improvement point of the present solution is: the trolley 3 comprises a trolley body 32, the trolley body 32 is in sliding fit with the track, the track is used for limiting the moving direction of the trolley body 32, and the trolley body 32 is ensured to have inconvenient moving direction in the process of pulling the seamless steel tube 6, and the moving direction of the trolley body 32 is horizontal left and right as shown in fig. 1. The vehicle body 32 is provided with a draw hook 31, and the vehicle body 32 can be connected with the chain 4 through the draw hook 31 and drives the vehicle body 32 to slide along the track through the chain 4.

As shown in fig. 2 and 4: the vehicle body 32 is further provided with an inner tube pulling assembly 8, the inner tube pulling assembly 8 comprises a connecting seat 34 arranged on the vehicle body 32, a horizontal threaded rod 81 is fixedly arranged on the connecting seat 34, and the axial direction of the threaded rod 81 is consistent with the drawing direction of the seamless steel tube 6; an adjusting nut 82, a sleeve 83 and a conical head 85 which is small at the left and large at the right are coaxially arranged on the threaded rod 81 from left to right in sequence, the adjusting nut 82 is in threaded connection with the threaded rod 81, the sleeve 83 is in sliding fit with the threaded rod 81, and the conical head 85 is fixedly connected with the threaded rod 81; a pressure spring 86 and a metal tension ring 84 provided with a notch are sleeved on the conical head 85, a plurality of metal tension rings 84 are arranged, one end of the pressure spring 86 is connected with the metal tension ring 84, and the other end of the pressure spring 86 is connected with the right end of the conical head 85.

In order to further ensure that the vehicle body 32 can better clamp the seamless steel tube 6, particularly a thin-walled tube, and prevent the thin-walled tube from slipping or deforming at the end in the drawing process, the outer tube drawing assembly 9 is additionally arranged in the scheme. As shown in fig. 3 and 4: the outer tube pulling assembly 9 comprises a pressure plate 91, a pull rod 93, a hollow pressing sleeve 96 and a metal tensioning sleeve 95, wherein the pressure plate 91, the hollow pressing sleeve 96 and the metal tensioning sleeve 95 are coaxially arranged. The pressure plate 91 is coaxially and threadedly connected to the screw, the metal tensioning sleeve 95 is coaxially and slidably matched in an inner cavity of the hollow pressing sleeve 96, and the inner wall of the hollow pressing sleeve 96 is coaxially and wedge-shaped matched with the outer wall of the metal tensioning sleeve 95; the pull rod 93 horizontally penetrates through the hollow pressing sleeve 96 and the pressing plate 91, the pull rod 93 is in sliding fit with the pressing plate 91 and the hollow pressing sleeve 96, a pressing nut 92 is connected to the end, close to the pressing plate 91, of the pull rod 93 in a threaded mode, and an anti-falling part is formed in the end, far away from the pressing plate 91, of the pull rod 93; the pressure plate 91 is provided with a horizontal limiting column, when the compression nut 92 is screwed, the pull rod 93 pulls the hollow compression sleeve 96 towards the pressure plate 91 through the anti-falling part, and after the limiting column is tightly propped against the metal tensioning sleeve 95, the hollow compression sleeve 96 continuously pulled by the pull rod 93 applies pressure to the metal tensioning sleeve 95 along the radial direction, so that the metal tensioning sleeve 95 is forced to clamp the seamless steel pipe 6.

Of course, the threaded rod 81 and the conical head 85 are detachably connected by screw threads for later maintenance. And in order to facilitate the operation of workers when clamping the seamless steel tube 6: the vehicle body 32 is provided with a slide rail 33 along the drawing direction of the seamless steel tube 6, and the connecting seat 34 is connected with the slide rail 33 in a sliding manner. The working principle of the processing device in this case is described below in a specific embodiment:

as shown in fig. 2, the carriage body 32 of the carriage 3 is first moved close to the die device 5, then the inner tube pulling assembly 8 is driven by the threaded rod 81 to penetrate the die device 5 as a whole, and the inner tube pulling assembly 8 is extended into the interior of the seamless steel pipe 6 to be drawn. By rotating the adjustment nut 82, the adjustment nut 82 is forced to the right and the assembly tightens the sleeve 83 against the metal tensioner ring 84. The metal tensioner ring 84 has an opening as shown in fig. 4. When the sleeve 83 gradually abuts against the metal tensioning ring 84, the metal tensioning ring 84 slides rightwards along the conical head 85, and as the diameter of the conical head 85 is continuously increased rightwards, the metal tensioning ring 84 is continuously expanded in the process of sliding rightwards until the outer annular surface of the metal tensioning ring 84 abuts against the inner wall of the seamless steel tube 6, so that the connection between the inner tube pulling assembly 8 and the seamless steel tube 6 is completed. As shown in fig. 2 and 3, the whole inner tube pulling assembly 8 has no interference with the outer wall of the seamless steel tube 6, so that the seamless steel tube 6 can pass through the die device 5 as a whole, i.e. the seamless steel tube 6 including its end can obtain the reducing extrusion effect of the die device 5.

In the whole drawing process of the seamless steel tube 6, the seamless steel tube 6 and the inner tube drawing assembly 8 integrally pass through the die assembly, so that the problem that the end of the seamless steel tube 6 becomes waste after drawing is finished does not exist, and the outer diameter of the whole seamless steel tube 6 meets the processing requirement. It should be noted that: the inner tube pulling assembly 8 should be manufactured and used in a customized set according to one specification, and a non-set inner tube pulling assembly 8 can adapt to the processing of seamless steel tubes 6 with multiple specifications. The number of spare sets of the inner tube pulling assembly 8 is increased, but the seamless steel tube 6 is not wasted during the drawing process.

For the outer tube pulling assembly 9, the outer tube pulling assembly 9 is used in cooperation with the inner tube pulling assembly 8 in the present scheme. As shown particularly in fig. 3, the outer tube pulling assembly 9 can only be used after the seamless steel tube 6 has been drawn through the die apparatus 5 by the inner tube pulling assembly 8. The outer tube pulling assembly 9 is clamped on the seamless steel tube 6 according to the figure 3, and the outer tube pulling assembly 9 is mainly used for clamping the outer wall of the seamless steel tube 6. When the outer tube pulling assembly 9 is used, firstly, the seamless steel tube 6 can be pulled along the axial direction, secondly, the compression sleeve of the outer tube pulling assembly 9 applies pressure to the seamless steel tube from outside to inside, and the metal tension ring 84 applies pressure to the seamless steel tube 6 from inside to outside. The pressure is symmetrically applied to the seamless steel tube 6, so that the stress of the clamped end of the seamless steel tube 6 is balanced, and further the deformation is prevented. Of course, the wall compression coefficient of the conventional seamless steel pipe 6 is high, and therefore there is no fear that the wall of the seamless steel pipe 6 is crushed. If the pipe wall of the clamped end of the seamless steel pipe 6 is locally indented, the indentation belongs to a normal range, and the seamless steel pipe can be processed by polishing in a later period.

It should also be noted that: the scheme adopts that the compressing sleeve and the metal tension ring 84 apply radial pressure on the seamless steel tube 6, the inner wall of the compressing sleeve is close to integrally contact with the circumferential outer wall of the seamless steel tube 6, and the outer wall of the metal tension ring 84 is close to integrally contact with the circumferential inner wall of the seamless steel tube 6, so that the compressing sleeve and the metal tension ring 84 are balanced aiming at the pressure action surface of the seamless steel tube 6, and the damage to the local tube wall of the seamless steel tube 6 due to over-large pressure is prevented.

In this embodiment, the stability of the connection between the inner tube pulling assembly 8 and the seamless steel tube 6 is very important. Therefore, monitoring of the joint between the metal tension ring 84 and the seamless steel pipe 6 is required. As shown in fig. 4: the sleeve 83 is sleeved with a positioning ring, the positioning ring is in threaded connection with the sleeve 83, an infrared displacement sensor is installed on the positioning ring, and the distance between the positioning ring and the end face of the seamless steel pipe 6 is measured by the infrared displacement sensor.

In specific implementation, it is first determined that the inner tube pulling assembly 8 can pull the seamless steel tube 6 and finish the drawing through the die device 5. Then the positioning ring is screwed to promote the infrared displacement sensor 94 to sense the pipe wall end face of the seamless steel pipe 6. The value of the infrared displacement sensor 94 is now zeroed (or is a certain initial value). If the connection between the metal tension ring 84 and the seamless steel tube 6 is loosened, the distance between the positioning ring and the inner wall end surface of the seamless steel tube 6 in the bracket is increased, and at this time, it is indicated that the friction force between the metal tension ring 84 and the inner wall bracket of the seamless steel tube 6 needs to be adjusted again through the adjusting nut 82. Of course, a variation range detected by an infrared displacement sensor 94 may be set, such as a variation within 1mm-3mm without alarming. That is, in the present case, through add infrared ray displacement sensor 94 and then play the effect of reporting to the police, make things convenient for the operation workman to carry out the production situation and judge and confirm, in time solve the problem, improve the product percent of pass.

The above description is only exemplary of the present invention and should not be taken as limiting, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The processing device of the high-performance stainless steel seamless steel tube comprises a steel tube cold-drawing processing device body, wherein the steel tube cold-drawing processing device body comprises a power device (1), a pulling device (2), a die device (5) and a material preparing rack (7) which are sequentially arranged from left to right, the pulling device (2) comprises a horizontal base, a chain (4) and a track are arranged on the base along the long direction, and the chain (4) is driven by the power device (1); the chain (4) is provided with a trolley (3), the seamless steel pipe (6) is pulled by the trolley (3) to pass through the die device (5) so as to reduce the diameter of the seamless steel pipe (6), and the trolley (3) is guided by a track; the material preparing frame (7) is used for storing a seamless steel pipe (6) to be processed; the method is characterized in that: the trolley (3) comprises a trolley body (32), a draw hook (31) is arranged on the trolley body (32), the trolley body (32) can be connected with the chain (4) through the draw hook (31) and can drive the trolley body (32) to slide along a track through the chain (4); the inner pipe pulling assembly (8) is further arranged on the vehicle body (32), the inner pipe pulling assembly (8) comprises a connecting seat (34) arranged on the vehicle body (32), a horizontal threaded rod (81) is fixedly arranged on the connecting seat (34), and the axial direction of the threaded rod (81) is consistent with the drawing direction of the seamless steel pipe (6); an adjusting nut (82), a sleeve (83) and a conical head (85) which is small at the left and large at the right are coaxially arranged on the threaded rod (81) from left to right in sequence, the adjusting nut (82) is in threaded connection with the threaded rod (81), the sleeve (83) is in sliding fit with the threaded rod (81), and the conical head (85) is fixedly connected with the threaded rod (81); the conical head (85) is sleeved with a pressure spring (86) and a metal tension ring (84) provided with a notch, a plurality of metal tension rings (84) are arranged, one end of the pressure spring (86) is connected with the metal tension ring (84), and the other end of the pressure spring (86) is connected with the right end of the conical head (85).

2. The processing apparatus of the high-performance stainless steel seamless steel pipe according to claim 1, characterized in that: the vehicle body (32) is further provided with an outer tube pulling assembly (9), the outer tube pulling assembly (9) comprises a pressure plate (91), a pull rod (93), a hollow pressing sleeve (96) and a metal tensioning sleeve (95) which are sequentially arranged from left to right, the pressure plate (91) is coaxially and threadedly connected to the screw rod, the metal tensioning sleeve (95) is coaxially and slidably matched in an inner cavity of the hollow pressing sleeve (96), and the inner wall of the hollow pressing sleeve (96) is coaxially and wedge-shaped matched with the outer wall of the metal tensioning sleeve (95); the pull rod (93) horizontally penetrates through the hollow pressing sleeve (96) and the pressing plate (91), the pull rod (93) is in sliding fit with the pressing plate (91) and the hollow pressing sleeve (96), a pressing nut (92) is connected to the end, close to the pressing plate (91), of the pull rod (93) in a threaded mode, and an anti-falling part is formed in the end, far away from the pressing plate (91), of the pull rod (93); the horizontal limiting column is arranged on the pressure plate (91), when the compression nut (92) is screwed, the pull rod (93) pulls the hollow compression sleeve (96) towards the pressure plate (91) through the anti-falling part, and after the limiting column is tightly propped against the metal tensioning sleeve (95), the hollow compression sleeve (96) which is continuously pulled by the pull rod (93) exerts pressure on the metal tensioning sleeve (95) along the radial direction, so that the metal tensioning sleeve (95) is forced to be locked and tightly locked to lock the seamless steel pipe (6).

3. The processing apparatus of the high-performance stainless steel seamless steel pipe according to claim 1, characterized in that: the threaded rod (81) is in threaded connection with the conical head (85).

4. The processing apparatus of the high-performance stainless steel seamless steel pipe according to claim 1, characterized in that: the cover is equipped with the holding ring on sleeve (83), the holding ring with sleeve (83) threaded connection, install infrared displacement sensor (94) on the holding ring, utilize infrared displacement sensor (94) survey holding ring and seamless steel pipe (6) to be close to the distance between the terminal surface of holding ring.

5. The processing apparatus of the high-performance stainless steel seamless steel pipe according to claim 1, characterized in that: the drawing direction of following seamless steel pipe (6) is equipped with slide rail (33) on automobile body (32), connecting seat (34) and this slide rail (33) sliding connection.

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