CN113277334A - Automatic processing equipment of corrosion-resistant super austenitic seamless steel tube for seawater desalination - Google Patents

Abstract

The invention discloses an automatic processing device of a corrosion-resistant super austenitic seamless steel tube for seawater desalination, which comprises a transportation device and a placing box arranged at the bottom of the transportation device, wherein the inner side of the transportation device is provided with a transmission plate, and the transmission plate is connected with a guide module, the bottom of the guide module is provided with a damping module, the equipment for automatically processing the corrosion-resistant super austenitic seamless steel tube for seawater desalination, the steel pipes falling from the transportation device can be guided by the transmission plate and the guide module when in use, so that the steel pipes are orderly arranged in the placing box, thus avoiding the need of workers to neatly arrange the steel pipes in the steel pipe storage box, improving the warehousing efficiency of the steel pipes, reducing the workload of the workers, the shock absorption module can be used for absorbing shock of the placing box, and the steel pipe is prevented from falling to the force for placing the box, so that the placing box is prevented from being damaged.

Description

Automatic processing equipment of corrosion-resistant super austenitic seamless steel tube for seawater desalination

Technical Field

The invention relates to the technical field of automatic processing, in particular to automatic processing equipment of a corrosion-resistant super austenitic seamless steel tube for seawater desalination.

Background

The super austenitic seamless steel pipe has strong pitting corrosion resistance, crevice corrosion resistance, chloride ion stress corrosion resistance and intergranular corrosion resistance, particularly has good corrosion resistance to sulfate ions, chloride ions and other acid radical ions, and can be used in extremely severe working environment, so that the super austenitic stainless steel pipe in the prior art is more and more widely applied, and the manufacturing process of the super austenitic seamless steel pipe mainly comprises the following steps: preparing and inspecting a tube blank, heating the tube blank, perforating, rolling the tube, reheating a pierced billet, fixing (reducing) the diameter, carrying out heat treatment, straightening a finished tube, finishing, inspecting (nondestructive, physicochemical and bench inspection), and warehousing.

However, in the existing process, the refined steel pipes are stored through the transmission device when being checked and put in storage, but the steel pipes on the transmission device are quantitatively unloaded to the interior of the placing box for tidying, and finally the placing box and the steel pipes are placed in the factory storage. Therefore, an automatic processing device of the corrosion-resistant super austenitic seamless steel tube for seawater desalination is provided.

Disclosure of Invention

The invention aims to provide automatic processing equipment of a corrosion-resistant super austenitic seamless steel tube for seawater desalination, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an automatic processing equipment of corrosion-resistant super austenite seamless steel pipe for desalination of sea water, includes conveyer and the case of placing of setting in the conveyer bottom, the conveyer inboard sets up the transmission board, and is connected with the guide module on the transmission board, guide module bottom is equipped with shock-absorbing module, and when steel pipe preparation completion need be transmitted to placing incasement portion through conveyer and place, will place the case and place at shock-absorbing module top, then opening guide module can drive the transmission board under guide module's effect and stretch out and draw back, thereby can transmit the steel pipe that makes to placing incasement portion by transmission module under guide module and transmission board's the effect and place, simultaneously guide module and transmission board can make the steel pipe place incasement portion neatly place to the storage of cooperation to the steel pipe is placed.

Preferably, the transmission board includes first transmission shell, second transmission shell, constant head tank, third transmission shell and locating piece, the constant head tank sets up inside the second transmission shell, when the steel pipe is transmitted the transmission board and is expanded under guide module's effect to the needs, guide module drives according to the different positions of the just pipe arrangement of placing incasement portion the second transmission shell slides in first transmission shell is inside, the third transmission shell moves in second transmission shell is inside, simultaneously the locating piece slides in the constant head tank is inside to first transmission shell, second transmission shell and third transmission shell can extend, simultaneously guide module can also drive first transmission shell, second transmission shell and third transmission shell and rotate to the cooperation is placed the just light and is placed the different positions of placing incasement portion.

Preferably, the guide module includes dwang, driving motor, drive gear, connecting piece and locating part, the dwang is connected with first transmission shell, the connecting piece both ends are connected with first transmission shell and third transmission shell respectively, arrange the steel pipe of difference when placing incasement portion and placing as required, open driving motor, driving motor drives the dwang and drives gear and rotates, thereby dwang and drive gear can drive first transmission shell and connecting piece respectively and remove to second transmission shell and third transmission shell all take place the slope under the effect of first transmission shell, and simultaneously under the effect of connecting piece, the second transmission shell takes place the slip respectively with third transmission shell to the transmission of cooperation to the steel pipe.

Preferably, the connecting piece includes multisection telescopic link, pinion rack and connecting plate, the both ends of multisection telescopic link are connected with the bottom of first transmission shell and third transmission shell respectively, work as when drive gear takes place the pivoted, drive gear drives the gear and slides, the pinion rack slides and drives multisection telescopic link and stretch out and draw back, thereby multisection telescopic link drives second transmission shell and third transmission shell and slides to the transmission of cooperation to the steel pipe.

Preferably, the locating part includes standing groove, double-threaded rod, rotating electrical machines, a plurality of movable plate and shifting chute, the shifting chute sets up in third transmission shell one end, the standing groove sets up on first transmission shell, when needs place the steel pipe of different length, rotating electrical machines drives the double-threaded rod and rotates, the double-threaded rod drives a plurality of movable plate and moves in the standing groove is inside in opposite directions, realizes carrying out the centre gripping to the steel pipe of different length to the cooperation is transmitted the steel pipe of different length.

Preferably, the movable plate includes first removal shell, second removal shell, fixed slot, third removal shell and fixed block, third removal shell one end and the inside sliding connection of shifting chute, when needs arrange the steel pipe of difference, the double-threaded pole drives the first removal shell of a plurality of and removes in opposite directions, thereby first removal shell drives second removal shell and third removal shell and moves in opposite directions, and the third transmission shell drives third removal shell and second removal shell simultaneously and slides to the transmission of cooperation to the steel pipe.

Preferably, the damping module comprises a vacuum chuck, a first placing plate, a damping spring, a second placing plate, a telescopic cylinder and a sorting piece, the placing box is pushed to the top of the vacuum chuck before the steel pipe is placed in the placing box, then the telescopic cylinder is opened, the telescopic cylinder drives the second placing plate, the damping spring, the first placing plate and the vacuum chuck to move so as to jack up the bottom of the placing box, then the vacuum chuck is used for fixing the placing box, and meanwhile, the sorting piece can realize pushing and sorting of one end of the arranged steel pipe so as to cooperate with the placing of the steel pipe.

Preferably, the arrangement piece includes catch plate and multisection electric telescopic handle, when needs put the interior just light of case in order, opens multisection electric telescopic handle, electric telescopic handle drives the catch plate and removes, the catch plate can push away a plurality of just light and align in order to cooperate the placing of steel pipe.

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

1. when the device is used, the steel pipes falling from the conveying device can be guided by the transmission plate and the guide module, so that the steel pipes are orderly arranged in the placing box, the condition that workers need to arrange the steel pipes in the placing box in order is avoided, the warehousing efficiency of the steel pipes is improved, and the workload of the workers is reduced.

2. When the device is used, the placing box can be damped through the damping module, and the damage to the placing box caused by the force of the steel pipe falling to the placing box is avoided.

Drawings

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

FIG. 2 is a schematic view of a rear dead part of the structure of the present invention;

FIG. 3 is a schematic top view of a structural transmission plate and guide module of the present invention;

FIG. 4 is a bottom schematic view of the structure of FIG. 3 according to the present invention;

FIG. 5 is an expanded view of the structural transmission plate of the present invention;

FIG. 6 is a schematic top cross-sectional view of a portion of a transmission plate of the present invention;

FIG. 7 is a schematic top view of a structural connector of the present invention;

FIG. 8 is a schematic front view of a structural limiter according to the present invention;

FIG. 9 is an expanded view of the structural moving plate of the present invention;

FIG. 10 is a schematic top cross-sectional view of a structural moving plate of the present invention;

FIG. 11 is a schematic top view of a structural restraint module of the present invention;

figure 12 is an expanded view of the structural cushion module of the present invention.

In the figure: 1-a transportation device; 2-placing the box; 3-a transmission plate; 4-a boot module; 5-a damping module; 31-a first transport shell; 32-a second transport shell; 33-positioning grooves; 34-a third transport shell; 35-a positioning block; 41-rotating rod; 42-a drive motor; 43-a drive gear; 44-a connector; 45-a stop; 441-a multi-section telescopic rod; 442-toothed plate; 443-a connecting plate; 451-a placement groove; 452-double threaded rod; 453-rotating electrical machine; 454-a moving plate; 455-a mobile slot; 4541-first mobile shell; 4542-second mobile shell; 4543-fixed slot; 4544 — third mobile shell; 4545-fixed block; 51-vacuum chuck; 52-first resting plate; 53-damping springs; 54-a second resting plate; 55-telescopic cylinder; 56-finishing; 561-pushing plate; 562-a multi-section electric telescopic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-12, the present invention provides a technical solution: an automatic processing device of corrosion-resistant super austenitic seamless steel tubes for seawater desalination comprises a transportation device 1 and a placing box 2 arranged at the bottom of the transportation device 1, moving wheels are arranged at the bottom of the placing box 2, a transmission plate 3 is arranged at the inner side of the transportation device 1, a guide module 4 is connected onto the transmission plate 3, a damping module 5 is arranged at the bottom of the guide module 4, when the steel tubes are manufactured and need to be transmitted to the placing box 2 through the transportation device for placing, the placing box 2 is placed at the top of the damping module 5, then the guide module 4 is opened, the transmission plate 3 can be driven to stretch under the action of the guide module 4, so that the manufactured steel tubes can be transmitted to the placing box 2 through the transmission module under the action of the guide module 4 and the transmission plate 3 for placing, and meanwhile, the guide module 4 and the transmission plate 3 can enable the steel tubes to be placed in the placing box 2 in order, so as to be matched with the storage and the placement of the steel pipes.

As can be seen from fig. 5-6, the transmission plate 3 includes a first transmission shell 31, a second transmission shell 32, a positioning slot 33, a third transmission shell 34 and a positioning block 35, the positioning slot 33 is disposed inside the second transmission shell 32, the first transmission shell 31 is disposed inside the transportation device 1, the second transmission shell 32 is slidably connected inside the first transmission shell 31, the third transmission shell 34 is slidably connected inside the second transmission shell 32, the positioning block 35 is fixed outside the third transmission shell 34, when the transmission plate 3 needs to be unfolded under the action of the guiding module 4 for the steel pipes, the guiding module 4 drives the second transmission shell 32 to slide inside the first transmission shell 31 according to different positions of the arrangement of the steel pipes inside the placing box 2, the third transmission shell 34 moves inside the second transmission shell 32, and the positioning block 35 slides inside the positioning slot 33, so that the first transmission shell 31, the second transmission shell 32 and the third transmission shell 34 can extend, meanwhile, the guide module 4 can also drive the first transmission shell 31, the second transmission shell 32 and the third transmission shell 34 to rotate so as to cooperate to place the steel beam at different positions inside the placing box 2.

As shown in fig. 3-4, the guiding module 4 includes a rotating rod 41, a driving motor 42, two driving gears 43, a connecting member 44 and a limiting member 45, the rotating rod 41 is fixedly connected to the first transmission shell 31, two ends of the connecting member 44 are respectively connected to the first transmission shell 31 and the third transmission shell 34, the driving motor 42 is fixed outside the transportation device 1 through a motor frame, the driving motor 42 is fixed to one end of the rotating rod 41, the two driving gears 43 are respectively fixed to two ends of the rotating rod 41, the connecting member 44 is provided with two connecting members 44, the two connecting members 44 are respectively connected to the two driving gears 43 in a meshing manner, when different steel pipes are required to be placed inside the placing box 2, the driving motor 42 is turned on, the driving motor 42 drives the rotating rod 41 and the driving gears 43 to rotate, so that the rotating rod 41 and the driving gears 43 can respectively drive the first transmission shell 31 and the connecting member 44 to move, so that both the second transmission case 32 and the third transmission case 34 are inclined by the first transmission case 31, and simultaneously, the second transmission case 32 and the third transmission case 34 are respectively slid by the connection member 44 to cooperate with the transmission of the steel pipes.

As can be seen from fig. 7, the connecting member 44 includes a multi-section telescopic rod 441, a toothed plate 442 and a connecting plate 443, two ends of the multi-section telescopic rod 441 are respectively and fixedly connected to the bottoms of the first transmission shell 31 and the third transmission shell 34, the outer side of the toothed plate 442 is engaged with the outer side of the driving gear 43, one end of the toothed plate 442 is fixedly connected to one end of the multi-section telescopic rod 441 through the connecting plate 443, when the driving gear 43 rotates, the driving gear 43 drives the gear to slide, the toothed plate 442 slides to drive the multi-section telescopic rod 441 to extend and retract, so that the multi-section telescopic rod 441 drives the second transmission shell 32 and the third transmission shell 34 to slide, so as to cooperate with the transmission of the steel pipe.

As can be seen from fig. 8-10, the limiting member 45 includes a placement groove 451, a double-threaded rod 452, a rotating motor 453, two moving plates 454 and a moving groove 455, the moving groove 455 is disposed at one end of the third transmission case 34, the placement groove 451 is disposed on the first transmission case 31, two ends of the double-threaded rod 452 are rotatably connected with the inside of the placement groove 451 through bearings, one end of the double-threaded rod 452 is fixedly connected with the rotating motor 453, the rotating motor 453 is fixed outside the transportation device 1 through a motor frame, when steel pipes with different lengths need to be placed, the rotating motor 453 drives the double-threaded rod 452 to rotate, the double-threaded rod 452 drives the moving plates 454 to move in the interior of the placement groove 451 in an opposite direction, so as to clamp the steel pipes with different lengths and cooperate to transmit the steel pipes with different lengths.

As can be seen from fig. 9-10, the moving plate 454 includes a first moving shell 4541, a second moving shell 4542, a fixed groove 4543, a third moving shell 4544 and a fixed block 4545, one end of the third moving shell 4544 is slidably connected with the inside of the moving groove 455, the fixed groove 4543 is disposed inside the second moving shell 4542, the fixed block 4545 is fixedly connected with the outside of the third moving shell 4544, one end of the first moving shell 4541 is slidably connected with the rotating rod 41, when different steel pipes need to be aligned, the double-threaded rod 452 moves a plurality of first moving shells 4541 towards each other, so that the first moving shell 4541 moves the second moving shell 4542 and the third moving shell 4544 towards each other, and the third transmitting shell 34 moves the third moving shell 4544 and the second moving shell 4542 towards each other to match the transmission of the steel pipes.

As shown in fig. 11-12, the damping module 5 includes a vacuum chuck 51, a first placing plate 52, a damping spring 53, a second placing plate 54, a telescopic cylinder 55 and a sorting member 56, the top of the telescopic cylinder 55 is fixed at the bottom of the second placing plate 54, a plurality of damping springs 53 are fixed at the top of the second placing plate 54, the tops of the plurality of damping springs 53 are fixedly connected with the bottom of the first placing plate 52, the top of the first placing plate 52 is fixedly connected with the plurality of vacuum chucks 51, and the plurality of vacuum chucks 51 are connected with a vacuum pump, which is a prior art, the present solution is not shown, before the steel pipe is placed in the placing box 2, the placing box 2 is pushed to the top of the vacuum chuck 51, and then the telescopic cylinder 55 is opened to drive the second placing plate 54, the damping spring 53, the first placing plate 52 and the vacuum chuck 51 to move to jack up the bottom of the placing box 2, the placing box 2 is then fixed by the vacuum chuck 51, and the arranging piece 56 can realize pushing and arranging of one end of the arranged steel pipes to match the placing of the steel pipes when in use.

As can be seen from fig. 11, the arranging member 56 includes a pushing plate 561 and a plurality of sections of electric telescopic rods 562, the pushing plate 561 is fixedly connected to the output end of the plurality of sections of electric telescopic rods 562, the plurality of sections of electric telescopic rods 562 are fixed to the outer side of the second placing plate 54, when the rigid light in the placing box 2 needs to be arranged, the plurality of sections of electric telescopic rods 562 are opened, the electric telescopic rods drive the pushing plate 561 to move, and the pushing plate 561 can push a plurality of rigid light to align to match the placing of the steel pipes.

In the scheme, the type Y80M1-2 is preferably selected as the driving motor 43, the type Y80M2-2 is preferably selected as the rotating motor 453, the circuit runs as the conventional circuit, the related circuits and control in the invention are the prior art, and redundant description is not repeated herein.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (8)

1. The utility model provides a sea water desalination is with automatic processing equipment of corrosion-resistant super austenite seamless steel pipe, includes conveyer (1) and sets up placing case (2) in conveyer (1) bottom, its characterized in that: conveyer (1) inboard sets up transmission board (3), and is connected with guide module (4) on transmission board (3), guide module (4) bottom is equipped with shock attenuation module (5), when the steel pipe preparation completion need transmit through conveyer to place the inside time of placing case (2), will place case (2) and place at shock attenuation module (5) top, then opening guide module (4) can drive transmission board (3) flexible under the effect of guide module (4), thereby can transmit the steel pipe of making to placing case (2) inside by transmission module under the effect of guide module (4) and transmission board (3) and place, simultaneously guide module (4) and transmission board (3) can make the steel pipe place case (2) inside orderly placing to the storage of cooperation to the steel pipe is placed.

2. The automatic processing equipment of the corrosion-resistant super austenitic seamless steel tube for seawater desalination according to claim 1, characterized in that: the transmission plate (3) comprises a first transmission shell (31), a second transmission shell (32), a positioning groove (33), a third transmission shell (34) and a positioning block (35), wherein the positioning groove (33) is formed in the second transmission shell (32), when the steel pipe is required to be transmitted and the transmission plate (3) is unfolded under the action of the guide module (4), the guide module (4) drives the second transmission shell (32) to slide in the first transmission shell (31) according to different positions of the arrangement of the steel pipe in the placement box (2), the third transmission shell (34) moves in the second transmission shell (32), and meanwhile, the positioning block (35) slides in the positioning groove (33), so that the first transmission shell (31), the second transmission shell (32) and the third transmission shell (34) can extend and extend, and meanwhile, the guide module (4) can drive the first transmission shell (31) and the third transmission shell (34), The second transmission housing (32) and the third transmission housing (34) are rotated to cooperate to place the rigid light at different positions inside the placing box (2).

3. The automatic processing equipment of the corrosion-resistant super austenitic seamless steel tube for seawater desalination according to claim 2, characterized in that: the guide module (4) comprises a rotating rod (41), a driving motor (42), a driving gear (43), a connecting piece (44) and a limiting piece (45), the rotating rod (41) is connected with the first transmission shell (31), two ends of the connecting piece (44) are respectively connected with the first transmission shell (31) and the third transmission shell (34), when different steel pipes are required to be arranged in the placing box (2), the driving motor (42) is opened, the driving motor (42) drives the rotating rod (41) and the driving gear (43) to rotate, so that the rotating rod (41) and the driving gear (43) can respectively drive the first transmission shell (31) and the connecting piece (44) to move, and the second transmission shell (32) and the third transmission shell (34) are both inclined under the action of the first transmission shell (31) and are simultaneously under the action of the connecting piece (44), the second transmission shell (32) and the third transmission shell (34) respectively slide to match the transmission of the steel pipe.

4. The automatic processing equipment of the corrosion-resistant super austenitic seamless steel tube for seawater desalination according to claim 3, characterized in that: the connecting piece (44) comprises a plurality of sections of telescopic rods (441), a toothed plate (442) and a connecting plate (443), wherein two ends of each section of telescopic rod (441) are respectively connected with the bottoms of the first transmission shell (31) and the third transmission shell (34), when the driving gear (43) rotates, the driving gear (43) drives the gear to slide, the toothed plate (442) slides to drive the plurality of sections of telescopic rods (441) to stretch, and therefore the plurality of sections of telescopic rods (441) drive the second transmission shell (32) and the third transmission shell (34) to slide so as to cooperate with transmission of the steel pipe.

5. The automatic processing equipment of the corrosion-resistant super austenitic seamless steel tube for seawater desalination according to claim 3, characterized in that: the limiting part (45) comprises a placing groove (451), a double-threaded rod (452), a rotating motor (453), a plurality of moving plates (454) and a moving groove (455), the moving groove (455) is formed in one end of a third transmission shell (34), the placing groove (451) is formed in a first transmission shell (31), when steel pipes with different lengths need to be placed, the rotating motor (453) drives the double-threaded rod (452) to rotate, the double-threaded rod (452) drives the plurality of moving plates (454) to move in the placing groove (451) in an opposite direction, steel pipes with different lengths are clamped, and the steel pipes with different lengths are transmitted in a matched mode.

6. The automatic processing equipment of the corrosion-resistant super austenitic seamless steel tube for seawater desalination according to claim 5, characterized in that: the moving plate (454) comprises a first moving shell (4541), a second moving shell (4542), a fixing groove (4543), a third moving shell (4544) and a fixing block (4545), one end of the third moving shell (4544) is in sliding connection with the inside of the moving groove (455), when different steel pipes need to be arranged, the double-threaded rod (452) drives the first moving shells (4541) to move oppositely, so that the first moving shell (4541) drives the second moving shell (4542) and the third moving shell (4544) to move oppositely, and meanwhile, the third transmission shell (34) drives the third moving shell (4544) and the second moving shell (4542) to slide so as to match with the transmission of the steel pipes.

7. The automatic processing equipment of the corrosion-resistant super austenitic seamless steel tube for seawater desalination according to claim 1, characterized in that: the damping module (5) comprises a vacuum chuck (51), a first placing plate (52), a damping spring (53), a second placing plate (54), a telescopic cylinder (55) and a sorting piece (56), wherein before the steel pipe is placed on the placing box (2), the placing box (2) is pushed to the top of the vacuum chuck (51), then the telescopic cylinder (55) is opened, the telescopic cylinder (55) drives the second placing plate (54), the damping spring (53), the first placing plate (52) and the vacuum chuck (51) to move so as to jack up the bottom of the placing box (2), then the vacuum chuck (51) is used for fixing the placing box (2), and meanwhile, the sorting piece (56) can push and sort one ends of the arranged steel pipes so as to match with the placing of the steel pipe.

8. The automatic processing equipment of the corrosion-resistant super austenitic seamless steel tube for seawater desalination according to claim 7, characterized in that: the arrangement piece (56) comprises a pushing plate (561) and a plurality of sections of electric telescopic rods (562), when the steel light in the placing box (2) needs to be arranged, the plurality of sections of electric telescopic rods (562) are opened, the electric telescopic rods drive the pushing plate (561) to move, and the pushing plate (561) can push a plurality of steel light to be aligned to match the placing of the steel pipes.

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