CN116275372A - Combustion chamber assembly forming equipment and use method thereof - Google Patents

Abstract

The invention relates to the technical field of flame tube welding, in particular to combustion chamber assembly forming equipment and a using method thereof, the combustion chamber assembly forming equipment comprises a bottom plate, wherein two sides of the top surface of the bottom plate are fixedly connected with upright rods, a clamping mechanism I is connected between the two upright rods in a sliding manner, a clamping mechanism II is arranged below the clamping mechanism I, a supporting mechanism is fixedly connected to the middle position of the top surface of the bottom plate, the clamping mechanism I comprises a ring piece I, and the top surface of the ring piece I is rotatably connected with a ring piece II.

Description

Combustion chamber assembly forming equipment and use method thereof

Technical Field

The invention relates to the technical field of flame tube welding, in particular to a combustion chamber component forming device and a using method thereof.

Background

The combustion chamber converts chemical energy of fuel into heat energy, high-pressure air pressed by the air compressor is heated to high temperature so as to achieve expansion work of the turbine, the combustion chamber comprises an internal flame tube, the flame tube is generally made of high-temperature resistant materials, but is difficult to directly bear high-temperature barbecue, in order to reduce the temperature of the flame tube, the flame tube is cooled by air when entering the flame tube (a small-hole air film cooling method), and the air entering the flame tube through an air inlet hole can have a certain cooling effect on the wall of the flame tube.

Flame tubes utilizing the small-hole air film cooling method are generally formed by sequentially welding a plurality of sections of annular tubes, and due to the fact that the thickness of the flame tubes is thinner, dislocation easily occurs during welding, the central axis angle of a single section of annular tube deviates, and therefore the flame tubes are bent and deformed after welding.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide the combustion chamber assembly forming equipment and the application method thereof, through the arrangement of the first clamping mechanism and the second clamping mechanism, the welded ring barrel assembly is clamped through the first clamping mechanism and the second clamping mechanism, and meanwhile, the welded ring barrel is driven to move downwards, and the supporting mechanism is used for carrying out internal bracing positioning on the newly placed ring barrel, so that the new ring barrel coincides with the central shaft of other ring barrels, the supporting mechanism moves downwards to enable the top ends of the new ring barrel and the ring barrel assembly to be sleeved and pressed, the alignment among the ring barrels is accurate, the welding forming efficiency of the flame barrel is improved, the continuous positioning of the multi-section ring barrel is facilitated, and the welding forming of the multi-section flame barrel is facilitated.

The aim of the invention can be achieved by the following technical scheme:

the combustion chamber assembly forming equipment comprises a bottom plate, wherein upright rods are fixedly connected to two sides of the top surface of the bottom plate, a clamping mechanism I is slidably connected between the upright rods, a clamping mechanism II is arranged below the clamping mechanism I, a supporting mechanism is fixedly connected to the middle position of the top surface of the bottom plate, the clamping mechanism I comprises a ring piece I, the ring piece II is rotatably connected to the top surface of the ring piece I, a plurality of straight grooves are formed in the annular equidistant of the top surface of the ring piece I, a plurality of arc grooves are formed in the annular equidistant of the top surface of the ring piece II, the arc grooves are in one-to-one correspondence with the straight grooves, a clamping seat assembly is slidably connected between the straight grooves and the corresponding arc grooves, a rotating module is fixedly connected to the outer side wall of the ring piece I and is used for driving the ring piece II to rotate, a lifting module is arranged between the clamping mechanism I and the clamping mechanism II, the supporting mechanism comprises a sleeve I, the inner wall of the sleeve I is fixedly sleeved with a supporting rod in a sliding manner, the top end of the supporting rod is fixedly sleeved with a fixing disc I, the bottom surface of the fixing disc I is annularly and fixedly connected with a plurality of supporting components, supporting arms are fixedly connected between the two sides of the outer side wall of the sleeve I and a bottom plate, the top surface of the bottom plate is fixedly connected with an electric push rod II, the output end of the electric push rod II is fixedly connected with the bottom end of the supporting rod, the welded ring barrel components are alternately clamped through a clamping mechanism I and a clamping mechanism II, the welded ring barrels are driven to move downwards, the supporting mechanism is used for carrying out internal supporting positioning on the newly placed ring barrels, so that the new ring barrels are overlapped with central shafts of other ring barrels, the top ends of the ring barrels are sleeved and pressed in a downward moving manner, the alignment between the ring barrels is accurate, the welding forming efficiency of the flame barrels is improved, and meanwhile continuous positioning on the multi-section ring barrels is facilitated, the welding forming of the multi-section flame tube is facilitated.

The method is further characterized in that: the clamping seat assembly comprises a sliding rod, the sliding rod is in sliding connection with the straight groove and the arc groove, fixing rods are fixedly connected to the two ends of the sliding rod, a straight rod is fixedly connected to one end of each fixing rod, a clamping head is fixedly connected to the top end of each straight rod, limiting plates are fixedly connected to the two sides of the annular inner side wall of the second ring piece, the sliding rod is extruded through the straight groove and the arc groove, and the clamping seat assembly is driven to move.

The method is further characterized in that: the rotating module comprises a fixed lug, one end of the fixed lug is fixedly connected with a first ring piece, the bottom surface of the other end of the fixed lug is fixedly connected with a motor, the output end of the motor is fixedly connected with a second gear, the outer side wall of the second ring piece is fixedly connected with an arc toothed plate, the second gear is meshed with the arc toothed plate, the motor drives the second ring piece to rotate through the second gear and the arc toothed plate, and the arc groove extrudes the sliding rod to enable the chuck to move inwards to clamp the outer side wall of the bottom end of the ring barrel.

The method is further characterized in that: the lifting module comprises a fixed ring, the fixed ring is fixedly sleeved with a vertical rod, two sides of the outer side wall of the fixed ring are fixedly connected with a fixed seat, a first gear is connected between one ends of the fixed seats in a rotating mode, two sides of the outer side wall of a ring piece are fixedly connected with a sleeve seat, the sleeve seat is in sliding sleeve connection with the vertical rod which is adjacent to the sleeve seat, one end of the sleeve seat is fixedly connected with a toothed plate I, the clamping mechanism I is identical to the clamping mechanism II in structure, a clamping seat component in the clamping mechanism II and a clamping seat component in the clamping mechanism I are staggered with each other, the first gear is meshed with two toothed plates which are adjacent to each other, the top surface of a bottom plate is fixedly connected with an electric push rod I, the output end of the electric push rod I is fixedly connected with the bottom surface of a ring piece in the clamping mechanism II, and the electric push rod I drives the clamping mechanism II to move upwards, and the clamping mechanism II drives the clamping mechanism II to move downwards through the first gear, so that the clamping mechanism I and the clamping mechanism II can move oppositely.

The method is further characterized in that: the supporting component comprises a fixing frame, one end top surface of the fixing frame is fixedly connected with a bottom surface of a fixing disc, a first pushing plate is slidingly connected to the upper side of an inner wall of one side of the fixing frame, a second pushing plate is slidingly connected to the bottom side of the inner wall of one side of the fixing frame, a third gear is rotationally connected to the inner wall of one side of the fixing frame, a toothed plate II is slidingly connected between the third gear and the second pushing plate, the second toothed plate is meshed with the third gear, a rotating piece is fixedly connected to one end of the third gear, the rotating piece is in transmission connection with the first pushing plate and the second pushing plate, one end of the first pushing plate is fixedly connected with an extrusion head, a lifting component for driving the second toothed plate to move outwards is fixedly connected to the outer side wall of the vertical rod, the third gear is driven to rotate anticlockwise, the third gear drives the rotating piece to rotate anticlockwise, the first curved rod drives the first pushing plate to move inwards through a lantern ring, and the first curved rod drives the second pushing plate to move outwards through a lantern ring.

The method is further characterized in that: the lifting assembly comprises a fixing disc II, the fixing disc II is fixedly sleeved with the outer side wall of the supporting rod, an electric push rod III is fixedly connected to the top surface of the fixing disc II, a sleeve II is slidably sleeved on the outer side wall of the supporting rod above the fixing disc II, the output end of the electric push rod III is fixedly connected with the outer side wall of the sleeve, a connecting rod is connected between one end of the toothed plate II and the outer side wall of the sleeve in a rotating mode, the sleeve II is pushed by the electric push rod in the three-way direction, the sleeve II is pushed by the connecting rod to slide outwards, and accordingly the gear III is driven to rotate anticlockwise, and the gear III drives the rotating piece to rotate anticlockwise.

The method is further characterized in that: the outer side wall of push pedal one rotates and is connected with the lantern ring one, the spout has been seted up to push pedal two's outer side wall one end, the inner wall activity of spout has cup jointed the lantern ring two, the rotation piece includes curved lever one and curved lever two, curved lever one, curved lever two's one end all link firmly with the rotation piece, curved lever one and lantern ring two slip cup joint, curved lever two and lantern ring one slip cup joint, and the rotation piece is through the removal of curved lever one drive push pedal two, drives push pedal one through curved lever two and slides.

The method is further characterized in that: the radian radius of one end of the second curved rod is increased from one end of the second curved rod to the middle position, and the radian radius of the other end of the second curved rod is kept unchanged, so that the first pushing plate moves outwards and stops, the second pushing plate moves inwards, and the second pushing plate withdraws after the extrusion head supports the annular cylinder.

The application method of the combustion chamber assembly forming equipment comprises the following specific steps:

step one: starting an electric push rod III, pushing a sleeve II upwards by the electric push rod III, pushing a toothed plate II to slide outwards by a connecting rod, driving a gear III to rotate anticlockwise, driving a rotating piece to rotate anticlockwise by the gear III, driving a push plate I to move inwards by a crank II through a lantern ring, driving a push plate II to move outwards by the crank I through the lantern ring, placing a ring barrel on the outer ends of a plurality of push plates II, and driving the sleeve II to move downwards by the electric push rod III, so that the rotating piece rotates clockwise, and the push plate I moves outwards, so that the inner wall of the ring barrel is supported by an extrusion head in an extrusion mode, and then driving the push plate II to move inwards by the crank I, so that the push plate II is separated from the ring barrel;

step two: the second electric push rod drives the support rod to move downwards, so that the bottom end of the annular cylinder is driven to move downwards to the height of the first clamping mechanism, the motor drives the second ring element to rotate through the second gear and the arc toothed plate, and the arc groove extrudes the slide rod to enable the chuck to move inwards to clamp the outer side wall of the bottom end of the annular cylinder;

step three: the second electric push rod drives the support rod to move upwards, and as the bottom end of the annular cylinder is converged inwards and the outer side of the bottom end of the annular cylinder is clamped by a plurality of chucks, the plurality of support assemblies are separated from one annular cylinder when moving upwards, and then a plurality of push plates move outwards;

step four: the second ring cylinder is placed on the second push plates, the inner wall of the bottom end of the second ring cylinder is supported and extruded by the extrusion heads, the second ring cylinder is driven to move downwards by the electric push rod, meanwhile, the first clamping mechanism is driven to move upwards by the electric push rod, the clamping mechanism is driven to move downwards by the gear, so that one ring cylinder moves downwards, the bottom end of the second ring cylinder is sleeved with the top end of one ring cylinder, the outer side wall of the bottom end of the second ring cylinder is clamped by the clamping mechanism, the bottom end of the second ring cylinder is tightly sleeved with the top end of the one ring cylinder, and the two ring cylinder contact positions are welded through welding equipment.

The invention has the beneficial effects that:

1. through the arrangement of the first clamping mechanism and the second clamping mechanism, the welded ring cylinder assembly is clamped through the first clamping mechanism and the second clamping mechanism, the welded ring cylinder is driven to move downwards, and the supporting mechanism is used for carrying out internal supporting positioning on the newly placed ring cylinder, so that the new ring cylinder coincides with the central shafts of other ring cylinders, the supporting mechanism moves downwards to enable the top ends of the new ring cylinder and the ring cylinder assembly to be sleeved and pressed, alignment between the ring cylinders is accurate, and flame cylinder welding forming efficiency is improved;

2. through the setting of fixture one and fixture two, fixture one and fixture two are the removal in opposite directions to the centre gripping is in turn carried out to the ring section of thick bamboo that the butt joint has been passed, thereby makes the ring section of thick bamboo that has been alleviated move down gradually, the butt joint of the new ring section of thick bamboo of being convenient for, thereby be convenient for carry out continuous location to the multistage ring section of thick bamboo, make things convenient for the welding shaping of multistage flame section of thick bamboo.

Drawings

The invention is further described below with reference to the accompanying drawings.

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

FIG. 2 is a schematic diagram of the overall top view of the present invention;

FIG. 3 is a schematic view of a clamping mechanism according to the present invention;

FIG. 4 is a schematic view of a second structure of the clamping mechanism according to the present invention;

FIG. 5 is a schematic view of a lifting module according to the present invention;

FIG. 6 is a schematic view of the structure of the supporting mechanism in the present invention;

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

FIG. 8 is a schematic view of a rotor structure according to the present invention;

FIG. 9 is a schematic view of a ring structure of a flame tube according to the present invention.

In the figure: 100. a bottom plate; 110. a vertical rod; 120. a lifting module; 121. an electric push rod I; 122. a fixing ring; 123. a fixing seat; 124. a first gear; 200. a clamping mechanism I; 210. a first ring member; 211. a straight groove; 212. a sleeve seat; 213. a toothed plate I; 220. a second ring member; 221. an arc groove; 230. a clamping seat assembly; 231. a fixed rod; 232. a slide bar; 233. a straight rod; 234. a chuck; 235. a limiting plate; 240. a rotating module; 241. a fixed ear; 242. a motor; 243. a second gear; 244. an arc toothed plate; 300. a clamping mechanism II; 400. a support mechanism; 410. a support arm; 420. a sleeve I; 430. an electric push rod II; 440. a support rod; 441. a first fixed disc; 450. a lifting assembly; 451. a second fixed disc; 452. an electric push rod III; 453. a second sleeve; 460. a support assembly; 461. a fixing frame; 462. a pushing plate I; 4621. a first lantern ring; 463. an extrusion head; 464. a pushing plate II; 4641. a chute; 4642. a second lantern ring; 465. a toothed plate II; 466. a connecting rod; 467. a third gear; 468. a rotating member; 4681. a first curved lever; 4682. and a second bent rod.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, a forming device for a combustion chamber assembly includes a base plate 100, two sides of a top surface of the base plate 100 are fixedly connected with upright rods 110, a first clamping mechanism 200 is slidably connected between the two upright rods 110, a second clamping mechanism 300 is disposed below the first clamping mechanism 200, a supporting mechanism 400 is fixedly connected in a middle position of the top surface of the base plate 100, the first clamping mechanism 200 includes a first ring member 210, a second ring member 220 is rotatably connected to the top surface of the first ring member 210, a plurality of straight grooves 211 are annularly and equidistantly arranged on the top surface of the first ring member 210, a plurality of arc grooves 221 are annularly and equidistantly arranged on the top surface of the second ring member 220, the plurality of arc grooves 221 are in one-to-one correspondence with the plurality of straight grooves 211, a clamping seat assembly 230 is slidably connected between the straight grooves 211 and the corresponding arc grooves 221, a rotating module 240 is fixedly connected to an outer side wall of the first ring member 210, the rotating module 240 is used for rotating the second ring member 220, the upright rods 110 are located between the first clamping mechanism 200 and the second clamping mechanism 300, a lifting module 120 is disposed, the supporting mechanism 400 comprises a first sleeve 420, a supporting rod 440 is sleeved on the inner wall of the first sleeve 420 in a sliding manner, a first fixing disk 441 is fixedly sleeved on the top end of the supporting rod 440, a plurality of supporting components 460 are fixedly connected on the bottom surface of the first fixing disk 441 in an annular equidistant manner, a supporting arm 410 is fixedly connected between the two sides of the outer side wall of the first sleeve 420 and the bottom plate 100, a second electric push rod 430 is fixedly connected on the top surface of the bottom plate 100, the output end of the second electric push rod 430 is fixedly connected with the bottom end of the supporting rod 440, the welded ring barrel components are alternately clamped through the first clamping mechanism 200 and the second clamping mechanism 300, meanwhile, the welded ring barrels are driven to move downwards, the supporting mechanism 400 is used for carrying out internal supporting positioning on the newly placed ring barrels, so that the new ring barrels are overlapped with other ring barrel central shafts, the top ends of the new ring barrels are sleeved and pressed tightly, the ring barrels are accurately aligned, the welding forming efficiency of the flame tube is improved, meanwhile, the multi-section annular tube is convenient to continuously position, and the welding forming of the multi-section flame tube is convenient.

The clamping seat assembly 230 comprises a slide bar 232, the slide bar 232 is in sliding connection with the straight groove 211 and the arc groove 221, both ends of the slide bar 232 are fixedly connected with fixing rods 231, one end of each fixing rod 231 is fixedly connected with a straight bar 233, the top end of each straight bar 233 is fixedly connected with a clamping head 234, the annular inner side wall of the second ring member 220 is positioned at both sides of the straight bar 233 and fixedly connected with limiting plates 235, the slide bar 232 is extruded by the straight groove 211 and the arc groove 221 to drive the clamping seat assembly 230 to move, the rotating module 240 comprises a fixing lug 241, one end of the fixing lug 241 is fixedly connected with the first ring member 210, the bottom surface of the other end of the fixing lug 241 is fixedly connected with a motor 242, the output end of the motor 242 is fixedly connected with a gear II 243, the outer side wall of the second ring member 220 is fixedly connected with an arc toothed plate 244, the gear II 243 is meshed with the arc toothed plate 244, the motor 242 drives the second ring member 220 to rotate through the gear II 243 and the arc toothed plate 244, the arc groove 221 extrudes the 232 to enable the clamping head 234 to move, the lifting module 120 clamps the outer side wall of the bottom end of the ring barrel, the lifting module 120 comprises a fixed ring 122, the fixed ring 122 is fixedly sleeved with a vertical rod 110, two sides of the outer side wall of the fixed ring 122 are fixedly connected with a fixed seat 123, one end of each fixed seat 123 is rotationally connected with a first gear 124, two sides of the outer side wall of a ring part 210 are fixedly connected with a sleeve seat 212, the sleeve seat 212 is slidingly sleeved with the vertical rod 110 in the close vicinity, one end of the sleeve seat 212 is fixedly connected with a toothed plate 213, the clamping mechanism I200 and the clamping mechanism II 300 have the same structure, the clamping seat component 230 in the clamping mechanism II 300 and the clamping seat component 230 in the clamping mechanism I200 are staggered, the first gear 124 is meshed with the two toothed plates I213 in the close vicinity, the top surface of the bottom plate 100 is fixedly connected with an electric push rod I121, the output end of the electric push rod 121 is fixedly connected with the bottom surface of the ring part 210 in the clamping mechanism II 300, the electric push rod I121 drives the clamping mechanism II 300 to move upwards, the second clamping mechanism 300 drives the first clamping mechanism 200 to move downwards through the first gear 124, so that the first clamping mechanism 200 and the second clamping mechanism 300 move oppositely.

The supporting component 460 comprises a fixed frame 461, one end top surface of the fixed frame 461 is fixedly connected with the bottom surface of a first fixed disk 441, the upper side of the inner wall of one side of the fixed frame 461 is slidingly connected with a first push plate 462, the lower side of the inner wall of one side of the fixed frame 461 is slidingly connected with a second push plate 464, the inner wall of one side of the fixed frame 461 is rotationally connected with a third gear 467, a second toothed plate 465 is slidingly connected between the third gear 467 and the second push plate 464, the second toothed plate 465 is meshed with the third gear 467, one end of the third gear 467 is fixedly connected with a rotating member 468, the rotating member 468 is in transmission connection with the first push plate 462 and the second push plate 464, one end of the first push plate 462 is fixedly connected with a pressing head 463, the outer side wall of the upright rod 110 is fixedly connected with a lifting component 450 for driving the second toothed plate 465 to slide outwards, thereby driving the third gear 467 to rotate anticlockwise, the gear III 467 drives the rotation piece 468 to rotate anticlockwise, the crank II 4682 drives the push plate II 462 to move inwards through the lantern ring I4621, the crank I4681 drives the push plate II 464 to move outwards through the lantern ring II 4642, the lifting assembly 450 comprises a fixed disc II 451, the fixed disc II 451 is fixedly sleeved with the outer side wall of the supporting rod 440, the top surface of the fixed disc II 451 is fixedly connected with the electric push rod III 452, the outer side wall of the supporting rod 440 is located above the fixed disc II 451 and is fixedly connected with the sleeve II 453 in a sliding mode, the output end of the electric push rod III 452 is fixedly connected with the outer side wall of the sleeve II 453, one end of the toothed plate II 465 is connected with the outer side wall of the sleeve II 453 in a rotating mode, the electric push rod III 452 pushes the sleeve II 453 upwards, the sleeve II 453 pushes the toothed plate II 465 to slide outwards through the connecting rod 466, and accordingly the gear III 467 is driven to rotate anticlockwise, and the gear III 467 drives the rotation piece 468 to rotate anticlockwise.

The outer side wall of the first push plate 462 is rotationally connected with a first sleeve ring 4621, one end of the outer side wall of the second push plate 464 is provided with a sliding groove 4641, the inner wall of the sliding groove 4641 is movably sleeved with a second sleeve ring 4642, the rotating member 468 comprises a first curved rod 4681 and a second curved rod 4682, one ends of the first curved rod 4681 and the second curved rod 4682 are fixedly connected with the rotating member 468, the first curved rod 4681 is in sliding sleeve connection with the second sleeve ring 4642, the second curved rod 4682 is in sliding sleeve connection with the first sleeve ring 4621, the rotating member 468 drives the second push plate 464 to move through the first curved rod 4681, the second curved rod 4682 drives the first push plate 462 to slide, the radian radius of one end of the second curved rod 4682 is increased from one end of the second curved rod 4682 to the middle position, and the radian radius of the other end of the second curved rod 4682 is kept unchanged, so that after the first push plate 462 moves outwards and stops, the second push plate 464 moves inwards, and the second push plate 463 is retracted after the second push plate 463 supports the ring drum.

The application method of the combustion chamber assembly forming equipment comprises the following specific steps:

step one: starting an electric push rod III 452, wherein the electric push rod III 452 pushes a sleeve II 453 upwards, the sleeve II 453 pushes a toothed plate II 465 to slide outwards through a connecting rod 466, so that a gear III 467 is driven to rotate anticlockwise, the gear III 467 drives a rotating member 468 to rotate anticlockwise, a curved rod II 4682 drives a push plate I462 to move inwards through a sleeve ring I4621, a curved rod I4681 drives a push plate II 464 to move outwards through a sleeve ring II 4642, a ring barrel is placed on the outer ends of a plurality of push plates II 464, the electric push rod III 452 drives the sleeve II 453 to move downwards, the rotating member 468 rotates clockwise, the push plate I462 moves outwards, the inner wall of the ring barrel is supported in a pressing mode through a pressing head 463, and then the curved rod I4681 drives the push plate II 464 to move inwards, and the push plate II 464 is separated from the ring barrel;

step two: the second electric push rod 430 drives the support rod 440 to move downwards, so that the bottom end of one ring barrel is driven to move downwards to the height of the first clamping mechanism 200, the motor 242 drives the second ring element 220 to rotate through the second gear 243 and the arc toothed plate 244, and the arc groove 221 extrudes the slide rod 232 to enable the clamping head 234 to move inwards to clamp the outer side wall of the bottom end of the ring barrel;

step three: the second electric push rod 430 drives the support rod 440 to move upwards, and the outer side of the bottom end of the ring barrel is clamped by the plurality of clamping heads 234 because the bottom end of the ring barrel is converged inwards, the plurality of support assemblies 460 are separated from one ring barrel when moving upwards, and then the plurality of second push plates 464 move outwards;

step four: the second ring barrel is placed on the plurality of pushing plates II 464, the plurality of extrusion heads 463 support and extrude the inner wall of the bottom end of the second ring barrel, the electric push rod II 430 drives the second ring barrel to move downwards, meanwhile, the electric push rod I121 drives the clamping mechanism II 300 to move upwards, the gear I124 drives the clamping mechanism I200 to move downwards, so that one ring barrel moves downwards, the bottom end of the second ring barrel is sleeved with the top end of the first ring barrel, the clamping mechanism II 300 clamps the outer side wall of the bottom end of the first ring barrel, so that the bottom end of the second ring barrel is tightly sleeved with the top end of the first ring barrel, and the two ring barrel contact positions are welded through welding equipment.

Working principle: when the clamp is used, the electric push rod III 452 is started, the electric push rod III 452 pushes the sleeve II 453 upwards, the sleeve II 453 pushes the toothed plate II 465 to slide outwards through the connecting rod 466, so that the gear III 467 is driven to rotate anticlockwise, the gear III 467 drives the rotating member 468 to rotate anticlockwise, the curved rod II 4682 drives the push plate I462 to move inwards through the first sleeve ring 4621, the curved rod I4681 drives the push plate II 464 to move outwards through the second sleeve ring 4642, the ring barrel is placed on the outer ends of the plurality of push plates II 464, the electric push rod III 452 drives the sleeve II 453 to move downwards, the rotating member 468 is enabled to rotate clockwise, the push plate I462 moves outwards, the inner wall of the ring barrel is extruded and supported through the extruding head 463, then the curved rod I4681 drives the push plate II 464 to move inwards, the push plate II 464 is separated from the ring barrel, the electric push rod II 430 drives the supporting rod 440 to move downwards, the ring barrel II moves downwards, the bottom end of the ring barrel to the clamping mechanism I200, the motor 242 drives the clamp 220 to rotate through the gear II 243 and the arc toothed plate 244, and the clamp piece II 220 is enabled to move inwards by the arc groove 221 to extrude the slide rod 234, and the bottom end of the ring barrel is clamped outside;

the second electric push rod 430 drives the support rod 440 to move upwards, the bottom end of the ring barrel is converged inwards, the outer side of the bottom end of the ring barrel is clamped by the clamping heads 234, the supporting components 460 are separated from the ring barrel when moving upwards, then the pushing plates 464 are moved outwards, the second ring barrel is placed on the pushing plates 464, the pushing heads 463 support the inner wall of the bottom end of the second ring barrel, the second electric push rod 430 drives the second ring barrel to move downwards, meanwhile, the first electric push rod 121 drives the clamping mechanisms 300 to move upwards, the first gear 124 drives the clamping mechanisms 200 to move downwards, so that one ring barrel moves downwards, the bottom end of the second ring barrel is sleeved with the top end of the ring barrel, the clamping mechanisms 300 are clamped on the outer side wall of the bottom end of the one ring barrel, the bottom end of the second ring barrel is tightly sleeved with the top end of the one ring barrel, the two ring barrel contact positions are welded through welding equipment, the welded ring barrel components are clamped alternately through the clamping mechanisms 200 and the clamping mechanisms 300, meanwhile, the supporting mechanisms 400 drive the welded ring barrel to move downwards, the new ring barrel is placed in the ring barrel, the new ring barrel is positioned, the ring barrel is positioned in the new ring barrel is positioned, the flame is positioned and the flame is positioned between the new ring barrel is positioned, the ring barrels are positioned, and the flame barrels are positioned continuously, and the flame can be formed continuously, the flame can be positioned and the flame can be formed continuously, and the flame can be positioned and the flame can be conveniently, and the flame can be formed.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the invention, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims (9)

1. The utility model provides a combustion chamber assembly forming equipment, includes bottom plate (100), its characterized in that, pole setting (110) have all been linked firmly to the top surface both sides of bottom plate (100), two sliding connection has fixture one (200) between pole setting (110), the below of fixture one (200) is provided with fixture two (300), the top surface intermediate position of bottom plate (100) has linked firmly supporting mechanism (400), fixture one (200) includes ring one (210), ring one (210) top surface rotates and is connected with ring two (220), a plurality of straight slots (211) have been seted up to ring one's (210) top surface annular equidistance, a plurality of arc grooves (221) have been seted up to ring two (220) top surface annular equidistance, and a plurality of arc grooves (221) correspond with a plurality of straight slots (211), sliding connection has clamping seat subassembly (230) between straight grooves (211) and the corresponding arc groove (221), ring one's (210) lateral wall has linked firmly rotation module (240), ring one (220) are used for ring two (220) to be located between clamping mechanism two (200) supporting mechanism (120), the inner wall of sleeve one (420) has slidingly been cup jointed bracing piece (440), fixed cup joint first (441) of fixed disk in top of bracing piece (440), a plurality of supporting component (460) have been linked firmly to the annular equidistance in bottom surface of first (441) of fixed disk, support arm (410) have been linked firmly between the lateral wall both sides of sleeve one (420) and bottom plate (100), electric putter two (430) have been linked firmly to the top surface of bottom plate (100), electric putter two (430)'s output links firmly with bracing piece (440) bottom.

2. The combustion chamber assembly forming device according to claim 1, wherein the clamping seat assembly (230) comprises a sliding rod (232), the sliding rod (232) is in sliding connection with the straight groove (211) and the arc groove (221), two ends of the sliding rod (232) are fixedly connected with fixing rods (231), one ends of the two fixing rods (231) are fixedly connected with a straight rod (233), the top end of the straight rod (233) is fixedly connected with a clamping head (234), and annular inner side walls of the two ring members (220) are located on two sides of the straight rod (233) and are fixedly connected with limiting plates (235).

3. The combustor assembly forming device according to claim 2, wherein the rotating module (240) comprises a fixing lug (241), one end of the fixing lug (241) is fixedly connected with the first ring member (210), a motor (242) is fixedly connected to the bottom surface of the other end of the fixing lug (241), a second gear (243) is fixedly connected to the output end of the motor (242), an arc toothed plate (244) is fixedly connected to the outer side wall of the second ring member (220), and the second gear (243) is meshed with the arc toothed plate (244).

4. The combustor assembly forming device according to claim 1, wherein the lifting module (120) comprises a fixing ring (122), the fixing ring (122) is fixedly sleeved with the upright rod (110), fixing seats (123) are fixedly connected to two sides of an outer side wall of the fixing ring (122), a first gear (124) is rotatably connected between one ends of the fixing seats (123), sleeve bases (212) are fixedly connected to two sides of an outer side wall of the first ring member (210), the sleeve bases (212) are in sliding sleeve connection with the upright rod (110) in the close vicinity, one end of each sleeve base (212) is fixedly connected with a toothed plate (213), the first clamping mechanism (200) is identical to the second clamping mechanism (300) in structure, the clamping seat assemblies (230) in the second clamping mechanism (300) are staggered with the clamping seat assemblies (230) in the first clamping mechanism (200), the first gear (124) is meshed with the two toothed plates (213) in the close vicinity, the top surface of the first electric push rod (100) is fixedly connected with the first push rod (121), and the second output end of the first push rod (121) is fixedly connected with the first push rod (121).

5. The combustor assembly forming device according to claim 1, wherein the supporting assembly (460) comprises a fixing frame (461), one end top surface of the fixing frame (461) is fixedly connected with the bottom surface of a first fixing plate (441), a first pushing plate (462) is slidingly connected to one side inner wall upper side of the fixing frame (461), a second pushing plate (464) is slidingly connected to one side inner wall bottom side of the fixing frame (461), a third gear (467) is rotatably connected to the inner wall of the fixing frame (461), a second toothed plate (465) is slidingly connected between the third gear (467) and the second pushing plate (464), the second toothed plate (465) is meshed with the third gear (467), one end of the third gear (467) is fixedly connected with a rotating member (468), the rotating member (468) is in transmission connection with the first pushing plate (462) and the second pushing plate (464), one end of the first pushing plate (462) is fixedly connected with the extrusion head (463), and an outer side wall of the upright (110) is fixedly connected with a lifting assembly (465) for driving the second toothed plate (465).

6. The combustion chamber assembly forming device according to claim 5, wherein the lifting assembly (450) comprises a second fixed disc (451), the second fixed disc (451) is fixedly sleeved with the outer side wall of the supporting rod (440), an electric push rod III (452) is fixedly connected to the top surface of the second fixed disc (451), a sleeve II (453) is slidingly sleeved on the outer side wall of the supporting rod (440) above the second fixed disc (451), the output end of the electric push rod III (452) is fixedly connected with the outer side wall of the sleeve II (453), and a connecting rod (466) is rotatably connected between one end of the toothed plate II (465) and the outer side wall of the sleeve II (453).

7. The combustion chamber assembly forming device according to claim 6, wherein the outer side wall of the first push plate (462) is rotatably connected with a first sleeve ring (4621), one end of the outer side wall of the second push plate (464) is provided with a sliding groove (4641), the inner wall of the sliding groove (4641) is movably sleeved with a second sleeve ring (4642), the rotating member (468) comprises a first curved rod (4681) and a second curved rod (4682), one ends of the first curved rod (4681) and the second curved rod (4682) are fixedly connected with the rotating member (468), the first curved rod (4681) is in sliding sleeve joint with the second sleeve ring (4642), and the second curved rod (4682) is in sliding sleeve joint with the first sleeve ring (4621).

8. The combustor assembly forming apparatus of claim 7, wherein the radius of curvature of one end of the second curved rod (4682) increases from one end of the second curved rod (4682) to an intermediate position, and the radius of curvature of the other end of the second curved rod (4682) remains constant.

9. The method of using a combustion chamber assembly forming apparatus according to claim 1, wherein the method of using the combustion chamber assembly forming apparatus comprises the steps of:

step one: starting an electric push rod III (452), pushing a sleeve II (453) upwards by the electric push rod III (452), pushing a toothed plate II (465) to slide outwards by the sleeve II (453) through a connecting rod (466), driving a gear III (467) to rotate anticlockwise, driving a rotating piece (468) to rotate anticlockwise by the gear III (467), driving a push plate I (462) to move inwards by a curved rod II (4682) through a lantern ring I (4621), driving the push plate II (464) to move outwards by a curved rod I (4681) through a lantern ring II (4642), placing a ring barrel on the outer ends of a plurality of push plates II (464), driving the sleeve II (453) to move downwards by the electric push rod III (452), enabling a rotating piece (468) to rotate clockwise, enabling the push plate I (462) to move outwards, enabling the inner wall of the ring barrel to be supported in a pressing mode through an extrusion head (463), and then driving the push plate II (464) to move inwards, so that the push plate II (464) is separated from the ring barrel;

step two: the second electric push rod (430) drives the support rod (440) to move downwards, so that the bottom end of one ring barrel is driven to move to the height of the first clamping mechanism (200), the motor (242) drives the second ring element (220) to rotate through the second gear (243) and the arc toothed plate (244), and the arc groove (221) extrudes the slide rod (232) to enable the clamping head (234) to move inwards to clamp the outer side wall of the bottom end of the ring barrel;

step three: the second electric push rod (430) drives the support rod (440) to move upwards, and as the bottom end of the annular cylinder is inwardly converged and the outer side of the bottom end of the annular cylinder is clamped by the plurality of chucks (234), the plurality of support assemblies (460) are separated from the annular cylinder when moving upwards, and then the second push plate (464) moves outwards;

step four: the second ring cylinder is placed on a plurality of pushing plates II (464), a plurality of extrusion heads (463) support and extrude the inner wall of the bottom end of the second ring cylinder, the electric push rod II (430) drives the second ring cylinder to move downwards, meanwhile, the electric push rod I (121) drives the clamping mechanism II (300) to move upwards, the gear I (124) drives the clamping mechanism I (200) to move downwards, so that one ring cylinder moves downwards, the bottom end of the second ring cylinder is sleeved with the top end of the ring cylinder, the clamping mechanism II (300) clamps the outer side wall of the bottom end of the ring cylinder, so that the bottom end of the second ring cylinder is tightly sleeved with the top end of the ring cylinder, and the two ring cylinder contact positions are welded through welding equipment.

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