CN114602989A - Production process and processing equipment of welded pipe for valve manufacturing - Google Patents

Abstract

The invention discloses a processing device for producing a welded pipe for manufacturing a valve, which comprises a machine base, wherein when a worker adjusts a conveying assembly, a first screw head can be screwed, so that a one-way screw rod is rotated, two first conveying rollers are enabled to move relatively or oppositely through a first moving base, and the first conveying rollers in the first conveying assembly are adjusted; when staff adjusts conveying assembly two, then can rotate twisting head two, make the connecting rod rotate like this, thereby make two bevel gear six drive bevel gear five synchronous rotations that correspond, make two one-way lead screws synchronous rotations, make two conveying roller two carry out relative or opposite movement through removing seat two like this, thereby two positioning of conveying roller in the conveying assembly two have been realized, avoid like this in the past staff when adjusting the conveying roller, then need special appurtenance to carry out the auxiliary operation adjustment, then need be fixed it through appurtenance after the adjustment.

Description

Production process and processing equipment of welded pipe for valve manufacturing

Technical Field

The invention relates to the technical field of welded pipe production, in particular to a production process and processing equipment of a welded pipe for manufacturing a valve.

Background

With the rapid development of high-quality strip steel continuous rolling production and the progress of welding and inspection technology, the quality of welding seams is continuously improved, the variety and the specification of welded steel pipes are increased day by day, and seamless steel pipes are replaced in more and more fields since the 30 s of the 20 th century. The welded steel pipe is divided into a straight welded pipe and a spiral welded pipe according to the form of a weld. The production method comprises the following steps: process classification-arc welded tube, resistance welded tube, gas welded tube, furnace welded tube.

When current welded pipe production, then need use special conveying equipment to bend to welded pipe panel and carry the processing, when carrying, earlier carry out the arc through horizontal conveying roller and bend, then bend through vertical conveying roller arc once more, thereby realized welded pipe panel and bent into the operation of pipe, but the staff is when adjusting the conveying roller, then need special appurtenance to carry out the auxiliary operation adjustment, then need fix it through appurtenance after the adjustment, it is comparatively inconvenient when making conveying equipment adjust like this. Therefore, a production process and processing equipment of the welded pipe for manufacturing the valve are provided.

Disclosure of Invention

The invention aims to provide processing equipment for producing a welded pipe for manufacturing a valve, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the machining equipment for producing the welded pipe for manufacturing the valve comprises a base, wherein a first conveying assembly which is used for transversely bending a welded pipe plate is arranged on the base, a second conveying assembly which is used for vertically bending the welded pipe plate and arranged on the base is arranged on the outer side of the first conveying assembly, and a driving assembly which drives the first conveying assembly and the second conveying assembly to rotate is connected between the first conveying assembly and the second conveying assembly and between the first conveying assembly and the base.

Preferably, the first conveying assembly comprises two first conveying rollers with the same size arranged on a base, a first moving seat is arranged on the outer side of each first conveying roller, a moving groove matched with the two first moving seats is formed in the base, one end of each first conveying roller extends to the outer side of the corresponding first moving seat, a first bevel gear is arranged on each first conveying roller, a transverse positioning assembly for adjusting the distance between the two first conveying rollers is arranged between the first conveying assembly and the base, a transverse transmission assembly for driving the two first conveying rollers to synchronously rotate is connected between the first conveying assembly and the driving assembly, the second conveying assembly comprises two second conveying rollers with the same size arranged on the base, second moving seats are arranged on two sides of the second conveying rollers, one end of each second conveying roller extends to the outer side of the second moving seat and is connected with the second bevel gear, and mounting frames are arranged on two sides of the second conveying rollers, the outer side of the mounting frame is provided with a fixing frame installed on the machine base, a vertical positioning component which is arranged between the two conveying rollers and is positioned at a distance is arranged on the second conveying component, and a vertical transmission component which drives the two conveying rollers to rotate synchronously is connected between the second conveying component and the driving component.

Preferably, the driving assembly comprises two symmetrical first fixing plates fixedly mounted on the base, the first fixing plates are rotatably connected with a first rotating rod, a motor is mounted on one first fixing plate, one end of the first rotating rod extends to the outer side of the first fixing plate and is connected with an output shaft of the motor, a third bevel gear is fixedly mounted on the first rotating rod, and a fourth bevel gear connected to the first rotating rod is arranged on the outer side of the third bevel gear.

Preferably, the vertical positioning component comprises two guide blocks fixedly mounted on two sides of a movable seat II, the mounting frame is provided with two guide grooves II matched with the guide blocks II, one of the two guide grooves II is fixedly provided with a second positioning rod, the two guide blocks II on the same side are movably connected to the corresponding second positioning rods, the other guide groove II is rotatably connected with a second one-way screw rod, the two guide blocks II on the other side are spirally connected to the corresponding second one-way screw rod, one end of the second one-way screw rod extends to the top of the mounting frame and is connected with a fifth bevel gear, the outer side of the fifth bevel gear is engaged and connected with a sixth bevel gear, mounting shaft holes in the two sixth bevel gears are connected with the same connecting rod, the top end of the mounting frame is fixedly provided with a connecting plate, and the connecting rod is rotatably connected to the two connecting plates, one end of the connecting rod extends to the outer side of the connecting plate, a second screwing head is installed, and a second hand-screwed nut which is in threaded connection with the connecting rod is arranged between the second screwing head and the connecting plate.

Preferably, the vertical transmission assembly comprises a bevel gear eleven meshed and connected with the four outer sides of the bevel gear, a spline shaft II is installed in an installation shaft hole of the bevel gear eleven, fixed plates IV are connected to the fixed frame and the installation frame respectively, the spline shaft II is rotatably connected to the fixed plate IV, two symmetrical spline housings II are movably connected to the outer sides of the spline shaft, an installation plate II is fixedly installed on the outer sides of the spline housings II, the installation plate II is connected to the movable base II, and bevel gears twelve rotatably connected to the spline housings II are arranged on the outer sides of the installation plate II.

As preferred, the horizontal positioning subassembly includes the guide block one that is removing a both sides fixed mounting, all set up on the frame with guide block one guide way one that cooperatees, one of them fixed mounting has the locating lever one in the guide way one, with two of one side guide block swing joint is on locating lever one, another one a guide way internal rotation is connected with one-way lead screw one, two of opposite side a guide block screwed connection is on one-way lead screw one, the one end of one-way lead screw one extends to the outside of frame to be connected with wrong first, it twists nut one to be provided with the hand of screwed connection on one-way lead screw between first and the frame to twist first.

Preferably, the transverse transmission assembly comprises a second fixing plate fixedly mounted on the base, a second rotating rod is rotatably connected to the second fixing plate, the top end of the rotating rod II is fixedly connected with a bevel gear seventh, the bevel gear seventh is engaged with the bevel gear in three phases, a bevel gear eight is fixedly arranged at the bottom end of the rotating rod two, a bevel gear nine is meshed and connected with the outer side of the bevel gear eight, a first spline shaft is fixedly arranged in a mounting shaft hole of the ninth bevel gear, two symmetrical third fixing plates are fixedly arranged at the bottom end of the machine base, one spline shaft is rotationally connected to the third fixing plate, the outer side of the first spline shaft is movably connected with two symmetrical spline sleeves I, the outer side of the first spline housing is provided with a first mounting plate fixed at the bottom end of the first movable seat, and the outer side of the first mounting plate is provided with a bevel gear ten which is rotatably connected to the first spline housing.

A production process for producing a welded pipe for manufacturing a valve comprises the following process flows of:

the method comprises the following steps: firstly, adjusting the distance of the first conveying assembly according to the size of a plate;

step two: adjusting the distance between the two conveying assemblies according to the size of the plate;

step three: then starting the driving component;

step four: and finally, conveying the raw material plates through the first conveying assembly and the second conveying assembly and then welding.

A production process for producing welded pipes for valve manufacturing comprises the following specific process flows:

the method comprises the following steps: when the conveying assembly is adjusted, the first screwing head can be screwed, so that the one-way screw rod rotates, the two conveying rollers move relatively or oppositely through the first moving seat, and the first conveying roller in the first conveying assembly is adjusted;

step two: when the second conveying assembly is adjusted, the second twisting head can be rotated, so that the connecting rod is rotated, the six bevel gears drive the corresponding five bevel gears to synchronously rotate, the two one-way screw rods synchronously rotate, and the two second conveying rollers relatively or oppositely move through the second moving seat, so that the second conveying rollers in the second conveying assembly are adjusted;

step three: when the driving assembly is started, the motor can be started, so that the first rotating rod rotates, the third bevel gear and the fourth bevel gear synchronously rotate, the seventh bevel gear and the eleventh bevel gear synchronously rotate, the first spline shaft and the second spline shaft synchronously rotate, the twelfth bevel gear and the tenth bevel gear synchronously rotate, and the first bevel gear and the second bevel gear synchronously rotate, so that the first two corresponding conveying rollers and the second two corresponding conveying rollers start to rotate relatively;

step four: after two conveying rollers and two conveying rollers begin to rotate relatively, then can carry panel through multiunit conveying roller one and conveying roller two, wherein carry panel through multiunit conveying roller one and conveying roller two to carry out extrusion to the panel of carrying effectively, export at last and weld on the welding equipment and wait the subsequent processing.

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

according to the invention, when a worker adjusts the conveying assembly, the first screwing head can be screwed, so that the first one-way screw rod rotates, the two first conveying rollers move relatively or oppositely through the first moving seat, and the first conveying roller in the first conveying assembly is adjusted; when staff adjusts conveying component two, then can rotate twisting head two, make the connecting rod rotate like this, thereby make two bevel gear six drive bevel gear five synchronous rotations that correspond, make two one-way lead screws synchronous rotations, make two conveying roller two carry out relative or opposite movement through removing seat two like this, thereby two positioning of conveying roller in the conveying component two have been realized, avoid like this in the past staff when adjusting the conveying roller, then need special appurtenance to carry out the auxiliary operation adjustment, then need fix it through appurtenance after the adjustment, make comparatively inconvenient phenomenon when conveying equipment adjusts like this, thereby portability when having improved this equipment adjustment effectively.

Drawings

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

FIG. 2 is a rear view of the structure of FIG. 1;

FIG. 3 is a schematic structural view of a first conveying assembly and a second conveying assembly of FIG. 1;

FIG. 4 is a rear view of the conveyor assembly of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic structural view of a second embodiment of the conveyor assembly of FIG. 3;

FIG. 6 is a schematic rear view partially expanded view of the delivery assembly of FIG. 5 in accordance with the present invention;

FIG. 7 is an enlarged view of the structure of the present invention at A;

FIG. 8 is an enlarged view of the structure of the present invention at B.

In the figure: 1-a machine base; 2-a first conveying assembly; 21-a first conveying roller; 22-moving seat one; 23-bevel gear one; 3-a second conveying assembly; 31-a second conveying roller; 32-moving seat two; 33-bevel gear two; 34-a mounting frame; 35-a fixed mount; 4-a drive assembly; 41-fixing the plate I; 42-rotating the first rod; 43-a motor; 44-bevel gear three; 45-bevel gear four; 5-a transverse positioning component; 51-a guide block one; 52-positioning the rod I; 53-one-way screw rod I; 54-screw head one; 55-screwing the first nut by hand; 6-vertical positioning component; 61-guide block two; 62-a second positioning rod; 63-a one-way screw rod II; 64-bevel gear five; 65-bevel gear six; 66-connecting rods; 67-connecting plate; 68-screwing the second nut by hand; 69-screw head II; 7-a transverse transmission assembly; 71-fixing plate II; 72-rotating the rod two; 73-bevel gear seven; 74-bevel gear eight; 75-bevel gear nine; 76-spline shaft one; 77-fixing plate III; 78-spline housing one; 79-mounting plate one; 710-bevel gear ten; 8-a vertical transmission assembly; 81-bevel eleven; 82-spline shaft two; 83-fixed plate four; 84-spline housing two; 85-mounting a second plate; 86-bevel gear twelve.

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. 1-8, the present invention provides a technical solution: the utility model provides a processing equipment of welded tube production for valve manufacturing, which comprises a base 1, be provided with the horizontal conveying assembly one 2 of bending of welded tube panel on the frame 1, the outside of conveying assembly one 2 is provided with the vertical conveying assembly two 3 of bending of welded tube panel of installing on frame 1, be connected with drive conveying assembly one 2 between conveying assembly one 2 and conveying assembly two 3 and the frame 1, conveying assembly two 3 pivoted drive assembly 4, wherein frame 1 is provided with multiunit conveying assembly one 2, conveying assembly two 3, thereby make welded tube panel can carry out vertical or horizontal bending into tubular product shape many times effectively, then the processing of welded tube production has been realized.

The first conveying assembly 2 comprises two first conveying rollers 21 with the same size arranged on the base 1, the outer sides of the first conveying rollers 21 are respectively provided with a first movable seat 22, the base 1 is provided with a movable groove matched with the two first movable seats 22, one end of each first conveying roller 21 extends to the outer side of the corresponding first movable seat 22, a first bevel gear 23 is arranged on each first conveying roller 21, a transverse positioning assembly 5 for adjusting the distance between the two first conveying rollers 21 is arranged between the first conveying assembly 2 and the base 1, a transverse transmission assembly 7 for driving the two first conveying rollers 21 to synchronously rotate is connected between the first conveying assembly 2 and the driving assembly 4, the second conveying assembly 3 comprises two second conveying rollers 31 with the same size arranged on the base 1, the two movable seats 32 are arranged on the two sides of the second conveying rollers 31, one ends of the second conveying rollers 31 extend to the outer sides of the second movable seats 32, and are connected with a second bevel gear 33, mounting frames 34 are arranged on two sides of the second conveying roller 31, a fixing frame 35 mounted on the machine base 1 is arranged on the outer side of the mounting frame 34, a vertical positioning assembly 6 which is positioned at a distance between the two second conveying rollers 31 is arranged on the second conveying assembly 3, a vertical transmission assembly 8 which drives the two second conveying rollers 31 to synchronously rotate is connected between the second conveying assembly 3 and the driving assembly 4, wherein the first conveying roller 21 is rotatably connected to the first moving seat 22 through a roller shaft, so that when the first bevel gear 23 rotates, the first conveying roller 21 can effectively rotate, and the first conveying roller 21 can be detached and replaced, so that adjustment can be performed on plates with different specifications, wherein the second conveying roller 31 is rotatably connected to the second moving seat 32 through the roller shaft, when the second bevel gear 33 rotates, the second conveying roller 31 can effectively rotate, and wherein the second conveying roller 31 is connected to the fixing frame 35 through the mounting frame 34, when the second conveying roller 31 is replaced, the fixing frame 35 can be detached and replaced, so that the operation of workers is facilitated.

The driving assembly 4 comprises two symmetrical first fixing plates 41 fixedly arranged on the machine base 1, a same rotating rod 42 is rotatably connected to the first fixing plates 41, one of the first fixing plates 41 is provided with a motor 43, one end of the rotating rod 42 extends to the outer side of the first fixing plate 41, and is connected with the output shaft of the motor 43, a bevel gear III 44 is fixedly arranged on the rotating rod I42, a bevel gear IV 45 connected with the rotating rod I42 is arranged outside the bevel gear III 44, wherein, the bevel gear III 44 and the bevel gear IV 45 synchronously rotate, so that the bevel gear seven 73 and the bevel gear eleven 81 synchronously rotate, the spline shaft I76 and the spline shaft II 82 synchronously rotate, so that the bevel gear twelve 86 and the bevel gear ten 710 rotate, so that the bevel gear one 23 and the bevel gear two 33 synchronously rotate, this realizes that the corresponding two first conveying rollers 21 and the corresponding two second conveying rollers 31 start to rotate relatively.

The vertical positioning component 6 comprises two guide blocks 61 fixedly arranged on two sides of a second movable seat 32, guide grooves two matched with the guide blocks two 61 are formed in the mounting frame 34, a positioning rod two 62 is fixedly arranged in one guide groove two, the two guide blocks two 61 on the same side are movably connected to the corresponding positioning rod two 62, a one-way screw rod two 63 is rotatably connected to the other guide groove two, the two guide blocks two 61 on the other side are spirally connected to the corresponding one-way screw rod two 63, one end of the one-way screw rod two 63 extends to the top of the mounting frame 34 and is connected with a fifth bevel gear 64, the outer side of the fifth bevel gear 64 is respectively connected with a sixth bevel gear 65 in a meshing manner, the mounting shaft holes in the two sixth bevel gear 65 are connected with the same connecting rod 66, connecting plates 67 are fixedly arranged on the top end of the mounting frame 34, and the connecting rods 66 are rotatably connected to the two connecting plates 67, one end of connecting rod 66 extends to the outside of connecting plate 67, and install and twist first two 69, it screws second nut 68 to be provided with the hand of screwed connection on connecting rod 66 between first two 69 of twisting and the connecting plate 67, wherein rotate through twisting first two 69, make connecting rod 66 rotate like this, thereby make two bevel gear six 65 drive the bevel gear five 64 synchronous rotation that corresponds, make two one-way lead screw 53 synchronous rotations, make two conveying roller 31 carry out relative or opposite movement through removing seat two 32 like this, thereby realized conveying roller two 31 of two 3 transfer positions, wherein through locating lever two 62, then avoid conveying roller two 31 to shift the dead phenomenon of card, thereby stability when having guaranteed this equipment uses.

Vertical drive assembly 8 includes bevel gear eleven 81 of meshing connection in the bevel gear four 45 outside, install spline shaft two 82 in bevel gear eleven 81's the installation shaft hole, all be connected with fixed plate four 83 on mount 35 and the mounting bracket 34, spline shaft two 82 rotates to be connected on fixed plate four 83, spline shaft two 82 outside swing joint has two symmetrical spline housing two 84, spline housing two 84's outside fixed mounting has mounting panel two 85, mounting panel two 85 is connected on moving seat two 32, mounting panel two 85's the outside all is provided with the bevel gear twelve 86 of rotating connection on spline housing two 84, wherein through spline shaft two 82, spline housing two 84, make can transmit effectively after the position adjustment of conveying roller two 31, thereby the normal operating of conveying roller two 31 after the transposition has been guaranteed.

The transverse positioning assembly 5 comprises guide blocks I51 fixedly installed on two sides of a moving seat I22, guide grooves I matched with the guide blocks I51 are formed in the machine base 1, a positioning rod I52 is fixedly installed in one guide groove I, the two guide blocks I51 on the same side are movably connected to the positioning rod I52, a one-way screw rod I53 is rotatably connected to the other guide groove I, the two guide blocks I51 on the other side are spirally connected to the one-way screw rod I53, one end of the one-way screw rod I53 extends to the outer side of the machine base 1 and is connected with a screwing head I54, a hand screwing nut I55 spirally connected to the one-way screw rod I53 is arranged between the screwing head I54 and the machine base 1, and the one-way screw rod I53 is screwed through the screwing head I54, so that the one-way screw rod I53 rotates, two conveying rollers I21 move relatively or oppositely through the moving seat I22, and the one 21 positioning of the conveying rollers in the conveying assembly I2 is realized, the first positioning rod 52 prevents the first conveying roller 21 from moving and deviating.

The transverse transmission assembly 7 comprises a fixed plate II 71 fixedly mounted on the machine base 1, a rotating rod II 72 is rotatably connected onto the fixed plate II 71, a bevel gear seven 73 is fixedly connected to the top end of the rotating rod II 72, the bevel gear seven 73 is meshed with a bevel gear III 44, a bevel gear eight 74 is fixedly mounted at the bottom end of the rotating rod II 72, a bevel gear nine 75 is meshed with the outer side of the bevel gear eight 74, a spline shaft I76 is fixedly mounted in a mounting shaft hole of the bevel gear nine 75, two symmetrical fixed plates III 77 are fixedly mounted at the bottom end of the machine base 1, the spline shaft I76 is rotatably connected onto the fixed plates III 77, two symmetrical spline housing I78 are movably connected to the outer side of the spline shaft I76, a mounting plate I79 fixed at the bottom end of the movable base I22 is arranged on the outer side of the spline housing I78, and bevel gears ten 710 rotatably connected onto the spline housing I78 are arranged on the outer side of the mounting plate I79, wherein, through spline housing one 78, spline shaft one 76, make behind the conveying roller one 21 adjustment position, can continue to rotate through drive assembly 4 transmission effectively to stability when having guaranteed this equipment use.

A production process for producing a welded pipe for manufacturing a valve comprises the following process flows of:

the method comprises the following steps: firstly, adjusting the distance of the first conveying assembly 2 according to the size of the plate;

step two: then adjusting the distance between the second conveying assembly 3 and the plate according to the size of the plate;

step three: then the driving assembly 4 is started;

step four: and finally, conveying the raw material plates through a plurality of groups of conveying assemblies I2 and conveying assemblies II 3 and then welding.

A production process for producing a welded pipe for manufacturing a valve comprises the following specific process flows:

the method comprises the following steps: when the conveying assembly one 2 is adjusted, the first screwing head 54 can be screwed, so that the one-way screw rod one 53 is rotated, the two conveying rollers one 21 are relatively or oppositely moved through the first moving seat 22, and the position adjustment of the conveying rollers one 21 in the conveying assembly one 2 is realized;

step two: when the second conveying assembly 3 is adjusted, the second screwing head 69 can be rotated, so that the connecting rod 66 is rotated, the two bevel gears six 65 drive the corresponding bevel gears five 64 to synchronously rotate, the two one-way screw rods one 53 are synchronously rotated, and the two second conveying rollers 31 are relatively or oppositely moved through the second moving seat 32, so that the position adjustment of the second conveying rollers 31 in the second conveying assembly 3 is realized;

step three: when the driving assembly 4 is started, the motor 43 may be started, so that the rotating rod one 42 is rotated, the bevel gear three 44 and the bevel gear four 45 are rotated synchronously, the bevel gear seven 73 and the bevel gear eleven 81 are rotated synchronously, the spline shaft one 76 and the spline shaft two 82 are rotated synchronously, the bevel gear twelve 86 and the bevel gear ten 710 are rotated synchronously, the bevel gear one 23 and the bevel gear two 33 are rotated synchronously, and thus the two corresponding conveying rollers one 21 and the two corresponding conveying rollers two 31 start to rotate relatively;

step four: when the two first conveying rollers 21 and the two second conveying rollers 31 start to rotate relatively, the plate can be conveyed through the plurality of groups of first conveying rollers 21 and the plurality of groups of second conveying rollers 31, wherein the plate is conveyed through the plurality of groups of first conveying rollers 21 and the plurality of groups of second conveying rollers 31, so that the conveyed plate can be effectively extruded and formed, and finally, the plate is output to welding equipment for subsequent treatment such as welding.

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 (9)

1. The utility model provides a processing equipment of welded tube production for valve manufacturing, includes frame (1), be provided with conveying assembly (2) that welded tube panel transversely bent on frame (1), the outside of conveying assembly (2) is provided with the vertical conveying assembly two (3) of bending of welded tube panel of installing on frame (1), its characterized in that: and a driving component (4) for driving the first conveying component (2) and the second conveying component (3) to rotate is connected between the first conveying component (2), the second conveying component (3) and the base (1).

2. The processing equipment for producing the welded pipe for manufacturing the valve according to claim 1, wherein the processing equipment comprises: the conveying assembly I (2) comprises two conveying rollers I (21) with the same size, which are arranged on a machine base (1), the outer sides of the conveying rollers I (21) are respectively provided with a moving seat I (22), the machine base (1) is provided with a moving groove matched with the two moving seats I (22), one end of each conveying roller I (21) extends to the outer side of the corresponding moving seat I (22) and is provided with a bevel gear I (23), a transverse positioning assembly (5) for adjusting the distance between the two conveying rollers I (21) is arranged between the conveying assembly I (2) and the machine base (1), a transverse transmission assembly (7) for driving the two conveying rollers I (21) to synchronously rotate is connected between the conveying assembly I (2) and a driving assembly (4), and the conveying assembly II (3) comprises two conveying rollers II (31) with the same size, which are arranged on the machine base (1), the two sides of the second conveying roller (31) are provided with a second moving seat (32), one end of the second conveying roller (31) extends to the outer side of the second moving seat (32) and is connected with a second bevel gear (33), both sides of the second conveying roller (31) are provided with mounting frames (34), the outer side of each mounting frame (34) is provided with a fixing frame (35) mounted on the machine base (1), the second conveying assembly (3) is provided with a vertical positioning adjusting assembly (6) which is used for adjusting the distance between the two second conveying rollers (31), and a vertical transmission assembly (8) which drives the two second conveying rollers (31) to rotate synchronously is connected between the second conveying assembly (3) and the driving assembly (4).

3. The processing equipment for producing the welded pipe for manufacturing the valve according to claim 1, wherein the processing equipment comprises: drive assembly (4) include two symmetrical fixed plate one (41) of fixed mounting on frame (1), rotate on fixed plate one (41) and be connected with same dwang one (42), one of them install motor (43) on fixed plate one (41), the one end of dwang one (42) extends to the outside of fixed plate one (41) to link to each other with the output shaft of motor (43), fixed mounting has bevel gear three (44) on dwang one (42), the outside of bevel gear three (44) is provided with bevel gear four (45) of connection on dwang one (42).

4. The processing equipment for producing the welded pipe for manufacturing the valve according to claim 2, wherein the processing equipment comprises: the vertical positioning component (6) comprises two guide blocks II (61) fixedly mounted on two sides of a movable seat II (32), guide grooves II matched with the guide blocks II (61) are formed in the mounting frame (34), a positioning rod II (62) is fixedly mounted in one guide groove II, the two guide blocks II (61) on the same side are movably connected to the corresponding positioning rod II (62), a one-way screw rod II (63) is rotatably connected to the other guide groove II, the two guide blocks II (61) on the other side are spirally connected to the corresponding one-way screw rod II (63), one end of the one-way screw rod II (63) extends to the top of the mounting frame (34) and is connected with a bevel gear fifth (64), the outer side of the bevel gear fifth (64) is connected with a bevel gear sixth (65) in a meshing manner, and mounting shaft holes in the two bevel gear sixth (65) are connected with a same connecting rod (66), the equal fixed mounting in top of mounting bracket (34) has connecting plate (67), connecting rod (66) rotate to be connected on two connecting plates (67), the one end of connecting rod (66) extends to the outside of connecting plate (67) to install and twist first two (69), it twists nut two (68) to be provided with the hand of screwed connection on connecting rod (66) between first two (69) and connecting plate (67).

5. The processing equipment for producing the welded pipe for manufacturing the valve according to claim 2, wherein the processing equipment comprises: vertical drive assembly (8) include bevel gear eleven (81) of meshing connection in the bevel gear four (45) outside, install integral key shaft two (82) in the mounting shaft hole of bevel gear eleven (81), all be connected with fixed plate four (83) on mount (35) and mounting bracket (34), integral key shaft two (82) rotate to be connected on fixed plate four (83), integral key shaft two (82) outside swing joint has two symmetrical spline housing two (84), the outside fixed mounting of spline housing two (84) has mounting panel two (85), and mounting panel two (85) are connected on removing seat two (32), the outside of mounting panel two (85) all is provided with rotates bevel gear twelve (86) of connecting on spline housing two (84).

6. The processing equipment for producing the welded pipe for manufacturing the valve according to claim 2, wherein the processing equipment comprises: horizontal positioning assembly (5) include removing seat one (22) both sides fixed mounting's guide block one (51), all seted up on frame (1) with guide block one (51) guide way one that cooperatees, one of them fixed mounting has locating lever one (52), two with one side guide block one (51) swing joint is on locating lever one (52), another one a guide way internal rotation is connected with one-way lead screw one (53), two of opposite side guide block one (51) screwed connection is on one-way lead screw one (53), the one end of one-way lead screw one (53) extends to the outside of frame (1) to be connected with and twist first (54), it twists first nut (55) to be provided with the hand of screwed connection on one-way lead screw one (53) between first (54) and frame (1).

7. The processing equipment for producing the welded pipe for manufacturing the valve according to claim 2, wherein the processing equipment comprises: the transverse transmission assembly (7) comprises a second fixing plate (71) fixedly mounted on the base (1), the second fixing plate (71) is rotatably connected with a second rotating rod (72), the top end of the second rotating rod (72) is fixedly connected with a seventh bevel gear (73), the seventh bevel gear (73) is meshed with a third bevel gear (44), the bottom end of the second rotating rod (72) is fixedly provided with an eighth bevel gear (74), the outer side of the eighth bevel gear (74) is meshed with a ninth bevel gear (75), a first spline shaft (76) is fixedly mounted in a mounting shaft hole of the ninth bevel gear (75), the bottom end of the base (1) is fixedly provided with two symmetrical third fixing plates (77), the first spline shaft (76) is rotatably connected to the third fixing plates (77), and the outer side of the first spline shaft (76) is movably connected with two symmetrical first spline sleeves (78), the outer sides of the spline sleeves I (78) are provided with mounting plates I (79) fixed at the bottom ends of the movable seats I (22), and the outer sides of the mounting plates I (79) are provided with bevel gears I (710) rotatably connected to the spline sleeves I (78).

8. The production process of the welded pipe for manufacturing the valve according to claim 1, which comprises the following process flows:

the method comprises the following steps: firstly, adjusting the distance of the first conveying assembly (2) according to the size of the plate;

step two: then adjusting the distance between the second conveying assembly (3) according to the size of the plate;

step three: then starting the driving component (4);

step four: and finally, conveying the raw material plates through a plurality of groups of conveying assemblies I (2) and conveying assemblies II (3) and then welding.

9. The production process of the welded pipe for manufacturing the valve according to claim 8, which comprises the following specific process flows:

the method comprises the following steps: when the conveying assembly I (2) is adjusted, the screw head I (54) can be screwed, so that the one-way screw rod I (53) rotates, the two conveying rollers I (21) move relatively or oppositely through the moving seat I (22), and the position adjustment of the conveying rollers I (21) in the conveying assembly I (2) is realized;

step two: when the second conveying assembly (3) is adjusted, the second screwing head (69) can be rotated, so that the connecting rod (66) is rotated, the two bevel gears six (65) drive the corresponding bevel gears five (64) to synchronously rotate, the two one-way screw rods one (53) are synchronously rotated, the two conveying rollers two (31) are enabled to relatively or oppositely move through the second moving seat (32), and the position adjustment of the conveying rollers two (31) in the second conveying assembly (3) is realized;

step three: when the driving assembly (4) is started, the motor (43) can be started, so that the rotating rod (42) rotates, the bevel gear three (44) and the bevel gear four (45) synchronously rotate, the bevel gear seven (73) and the bevel gear eleven (81) synchronously rotate, the spline shaft one (76) and the spline shaft two (82) synchronously rotate, the bevel gear twelve (86) and the bevel gear ten (710) rotate, the bevel gear one (23) and the bevel gear two (33) synchronously rotate, and the two corresponding conveying rollers one (21) and the two corresponding conveying rollers two (31) start to rotate relatively;

step four: after the two first conveying rollers (21) and the two second conveying rollers (31) start to rotate relatively, the plate can be conveyed through the plurality of groups of first conveying rollers (21) and the plurality of groups of second conveying rollers (31), wherein the plate is conveyed through the plurality of groups of first conveying rollers (21) and the plurality of groups of second conveying rollers (31), so that the conveyed plate is effectively extruded and formed, and finally, the plate is output to welding equipment for subsequent treatment such as welding.

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