CN114101828A - Brazing processing device for three-phase separator - Google Patents

Abstract

The invention discloses a brazing processing device for a three-phase separator, and particularly relates to the field of brazing processing, which comprises an adjusting component, wherein a polishing component is arranged on one side of the top end of the adjusting component, the polishing component comprises a concave seat, symmetrical first moving seats are clamped in threads inside the concave seat, a grinding wheel is arranged below the first moving seat, a feeding component is arranged in the middle of the top end of the adjusting component, the feeding component comprises symmetrical second moving seats, three groups of limiting wheels which are distributed in a fan shape are arranged below the second moving seats, a welding component is arranged on the other side of the top end of the adjusting component, the welding component comprises symmetrical offset rods, welding heads are arranged at the bottom ends of the offset rods, the surfaces of metal plates are polished by utilizing the rotation of the symmetrical grinding wheels, and oxide layers on the surfaces of the metal plates are polished and removed, and conveying the brazing filler metal by utilizing the rotation of the limiting wheel, and welding the welding position by utilizing a welding head.

Description

Brazing processing device for three-phase separator

Technical Field

The invention relates to the technical field of brazing, in particular to a brazing processing device for a three-phase separator.

Background

The device is used for separating three phases of oil, gas and water in formation fluid at the surface and accurately metering the yield of the formation fluid. It is divided into three forms of vertical type, horizontal type and spherical type. For the sake of convenience in handling, horizontal separators are often used for the production. The internal structure of a typical horizontal three-phase separator mainly comprises: inlet diverters, defoamers, coalescing plates, vortex eliminators, demisters, and the like.

Brazing, which is a welding method that after brazing filler metal lower than the melting point of a weldment and the weldment are heated to the melting temperature of the brazing filler metal at the same time, the liquid brazing filler metal is used for filling the gaps of solid workpieces to connect the metals. During brazing, an oxide film and oil stains on a contact surface of a base material are removed firstly, so that a capillary tube can play a role after the brazing filler metal is melted, and the wettability and the capillary fluidity of the brazing filler metal are improved. Brazing is divided into brazing and soldering according to the melting point of the brazing filler metal.

In the processing process of the three-phase separator, brazing processing treatment needs to be carried out among different plates, the existing processing mode is mostly that a manual handheld welding device is adopted for welding processing, the welding process is complicated, and the surface of a metal plate needs to be polished before brazing processing so as to remove an oxide layer on the surface of the metal plate;

the traditional mode is to adopt artifical handheld grinding device to polish its surface, causes the waste of a large amount of manpower resources, has increased manufacturing cost, for this reason we propose a processingequipment that brazes for three-phase separator to be used for solving above-mentioned problem.

Disclosure of Invention

The present invention is directed to a brazing apparatus for a three-phase separator, which solves the above problems of the related art.

In order to solve the technical problems, the invention adopts the following technical scheme: a brazing processing device for a three-phase separator comprises an adjusting assembly, wherein the adjusting assembly comprises a base, a bottom plate is installed above the base, a polishing assembly is installed on one side of the top end of the adjusting assembly and comprises a concave seat, a first screw rod is rotatably clamped in the concave seat, a symmetrical first moving seat is arranged on the first screw rod in a threaded clamping mode, a rotating cylinder is rotatably clamped in the first moving seat, a first rotating shaft is clamped in the symmetrical rotating cylinder, a side gear is installed on the outer side of one end of the rotating cylinder, the side gear is meshed with a first gear, a central shaft is installed in the center of the first gear, and a grinding wheel is installed at the bottom end of the central shaft;

the feeding assembly is arranged in the middle of the top end of the adjusting assembly and comprises symmetrical fixing seats, a second screw rod is rotatably clamped between the symmetrical fixing seats, a symmetrical second moving seat is clamped on the second screw rod in a threaded manner, a cylinder is arranged at the top end of the second moving seat, a connecting seat is arranged at the bottom end of the second moving seat, symmetrical baffles are arranged at the bottom end of the connecting seat, three groups of limiting wheels which are distributed in a fan shape are arranged between the symmetrical baffles, a second rotating shaft is arranged at the center of the limiting wheel in the middle of the adjusting assembly, a welding assembly is arranged on the other side of the top end of the adjusting assembly and comprises symmetrical fixing plates, and symmetrical limiting plates are arranged between the symmetrical fixing plates;

the inside slip card of limiting plate is equipped with the ring gear, the link is installed to ring gear one side, and the symmetry install the rectangle frame between the link, rectangle frame top center department installs the supporting seat, the second cylinder is all installed to the both sides of supporting seat symmetry, the skew pole is installed to the flexible end of second cylinder, the soldered connection is installed to skew pole bottom.

Preferably, the base top center department installs first cylinder, the flexible end of first cylinder and bottom plate bottom center department fixed connection, bottom plate bottom rectangle distributes has a plurality of gag lever post, inside the base can be located to the gag lever post slip card.

Preferably, the other end of the outer side of the rotating cylinder is provided with a first bearing in a clamping manner, the first bearing is installed inside the first moving seat, symmetrical sliding grooves are formed in the first rotating shaft, symmetrical sliding blocks are installed inside the rotating cylinder, and the sliding blocks are slidably clamped inside the sliding grooves.

Preferably, the center pin middle-end card is equipped with the second bearing, on the movable plate was installed to the second bearing, the symmetry first slide bar of symmetry is located to the card on the movable plate that slides, and the symmetry first slide bar both ends are all fixed mounting inside the concave seat.

Preferably, the first screw and the first rotating shaft are respectively provided with a symmetrical second bearing in a clamping manner, the second bearing is installed on a concave seat, one side of the concave seat is provided with a base, the base is provided with a motor, the output end of the motor is provided with a second gear, the second gear is meshed with a third gear, one end of the first rotating shaft is fixedly connected with the center of the third gear, the third gear is meshed with a fourth gear, the center of the fourth gear is provided with a third bearing, and the center of the third bearing is provided with a fixed shaft;

fixed axle one end and concave type seat one side fixed connection, the synchronizing wheel is all installed, two sets of in the third bearing one end outside and second axis of rotation one end the synchronizing wheel outside cover is equipped with the hold-in range.

Preferably, a second sliding rod is slidably clamped on one side of the second moving seat, two ends of the second sliding rod are fixedly connected with the symmetrical fixed seats, a plurality of fourth bearings are installed inside the cylinder, a honeycomb column is installed inside the plurality of fourth bearings, a rotating rod is installed at the center of the top end of the honeycomb column, and a plurality of material channels distributed annularly are formed in the honeycomb column;

all install the pipe on second removal seat and the connecting seat, the material passageway that the annular distributes on the honeycomb post can coincide with the pipe top, the top in the middle of two sets of spacing wheels of top layer is installed to the pipe bottom.

Preferably, the rotation post is installed at spacing round center department, the card is equipped with the fifth bearing of symmetry on the rotation post, the fifth bearing is installed on the baffle, rotate post one end and install the fifth gear, it is adjacent fifth gear intermeshing, the middle part the rotation post is installed in the second axis of rotation, the fifth bearing of symmetry is all blocked in second screw rod and the second axis of rotation, the fifth bearing is installed on the fixing base of symmetry.

Preferably, a turntable is mounted on the other side of the toothed ring, a plurality of cylinders are distributed on one side of the turntable in a sector shape, the cylinders distributed in the sector shape can be meshed with the toothed ring, symmetrical limiting holes are formed in the limiting plate, and symmetrical limiting blocks are mounted on the toothed ring;

and inside spacing downthehole portion was located to the stopper slip card, the symmetry carousel internally mounted has the third axis of rotation, the card is equipped with the second bearing of symmetry in the third axis of rotation, the second bearing is installed on the fixed plate.

Preferably, symmetrical first hinge seats are mounted at the top end of the supporting seat, second hinge seats are mounted at the bottom end and the telescopic end of the second cylinder, a first hinge seat is mounted at the top end of the offset rod, the first hinge seat at the top end of the supporting seat is hinged with the second hinge seat at the bottom end of the second cylinder, and the first hinge seat at the top end of the offset rod is hinged with the second hinge seat at the telescopic end of the second cylinder;

the ball is installed to skew pole lower extreme, the ball rotates the card and locates the rectangle frame bottom.

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

1. the grinding wheels below the first moving seat move oppositely by rotating the first screw, the distance between the grinding wheels can be suitable for the thickness of a vertically placed metal plate, the limiting wheels below the symmetrical second moving seat move to a position to be welded by rotating the second screw, the first hinging seat and the second hinging seat are hinged by telescopic matching of the second air cylinder, the offset rod can drive the spherical ball to deflect, and the welding head at the bottom end of the offset rod deflects to the welding position of the metal plate;

2. according to the invention, the surface of a metal plate is polished, an oxide layer on the surface of the metal plate is polished and removed, a rotating rod is rotated, so that strip-shaped brazing filler metal placed in a honeycomb column falls between two sets of limiting wheels on the top layer through a guide pipe, a motor drives a second rotating shaft to rotate, the second rotating shaft drives a fifth gear on the second rotating shaft to rotate, the fifth gear drives two sets of fifth gears meshed with the fifth gear to rotate, the limiting wheels rotate along with the fifth gear, and the brazing filler metal is conveyed to a welding position;

3. the third rotating shaft is rotated to enable the rotating disc to drive the gear ring to move, the gear ring moves to drive the welding head to move horizontally, the effect of adjusting the position of the welding head is achieved, and the welding head is moved to the position, needing to be welded, of the metal plate to be welded.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic cross-sectional view of an adjustment assembly according to the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

FIG. 6 is an enlarged view of the structure at C of FIG. 3 according to the present invention;

FIG. 7 is an enlarged view of the structure shown at D in FIG. 3 according to the present invention;

FIG. 8 is an enlarged view of the structure at E in FIG. 3 according to the present invention;

FIG. 9 is an enlarged view of the structure at F in FIG. 3 according to the present invention;

in the figure: 1. an adjustment assembly; 101. a base; 102. a first cylinder; 103. a base plate; 104. a limiting rod; 2. polishing the assembly; 201. a concave seat; 202. a first screw; 203. a first movable base; 204. a first bearing; 205. a rotating cylinder; 206. a first rotating shaft; 207. a side gear; 208. a first gear; 209. a central shaft; 210. a second bearing; 211. moving the plate; 212. a first slide bar; 213. a grinding wheel; 214. a machine base; 215. a motor; 216. a second gear; 217. a third gear; 218. a fourth gear; 219. a fixed shaft; 220. a third bearing; 221. a synchronizing wheel; 222. a synchronous belt; 3. a feeding assembly; 301. a fixed seat; 302. a second screw; 303. a second movable base; 304. a second slide bar; 305. a cylinder; 306. a fourth bearing; 307. a honeycomb column; 308. rotating the rod; 309. a connecting seat; 310. a conduit; 311. a baffle plate; 312. a fifth bearing; 313. rotating the column; 314. a limiting wheel; 315. a fifth gear; 316. a second rotating shaft; 4. welding the assembly; 401. a fixing plate; 402. a limiting plate; 403. a toothed ring; 404. a turntable; 405. a third rotating shaft; 406. a connecting frame; 407. a rectangular frame; 408. a supporting seat; 409. a first hinge mount; 410. a second hinge mount; 411. a second cylinder; 412. an offset lever; 413. a ball; 414. and (5) welding a head.

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.

Example (b): as shown in fig. 1 to 9, the invention provides a brazing processing device for a three-phase separator, which comprises an adjusting assembly 1, wherein the adjusting assembly 1 comprises a base 101, a bottom plate 103 is installed above the base 101, a first cylinder 102 is installed at the center of the top end of the base 101, the telescopic end of the first cylinder 102 is fixedly connected with the center of the bottom end of the bottom plate 103, a plurality of limiting rods 104 are distributed at the bottom end of the bottom plate 103 in a rectangular manner, the limiting rods 104 can be slidably clamped inside the base 101, and the distance between the bottom plate 103 and a symmetrical grinding wheel 213 is adjusted by the telescopic action of the first cylinder 102, so that the distance is adapted to the thickness of a metal plate.

Furthermore, a polishing component 2 is mounted on one side of the top end of the adjusting component 1, the polishing component 2 includes a concave seat 201, a first screw 202 is rotatably clamped inside the concave seat 201, symmetrical first moving seats 203 are threadedly clamped on the first screw 202, and by rotating the first screw 202, the first screw 202 rotates to drive the symmetrical first moving seats 203 to move in opposite directions, so that the first moving seats 203 can move in opposite directions along the direction of a first sliding rod 212, and the first moving seats 203 move in opposite directions to drive symmetrical grinding wheels 213 to move in opposite directions, so that the distance between the symmetrical grinding wheels 213 can be suitable for the thickness of a vertically placed metal plate;

the first movable seat 203 is rotatably clamped with a rotary cylinder 205, the other end of the outer side of the rotary cylinder 205 is clamped with a first bearing 204, the first bearing 204 is installed inside the first movable seat 203, the first rotary shaft 206 is provided with symmetrical sliding grooves, the rotary cylinder 205 is internally provided with symmetrical sliding blocks, the sliding blocks are slidably clamped inside the sliding grooves, the symmetrical rotary cylinder 205 is internally clamped with a first rotary shaft 206, the first movable seat 203 is utilized to move the rotary cylinder 205 on the first rotary shaft 206 along the sliding blocks to be slidably clamped in the sliding grooves, so that the rotary cylinder 205 can still rotate under the rotation of the first rotary shaft 206 after moving, a side gear 207 is installed on the outer side of one end of the rotary cylinder 205, the side gear 207 is engaged with a first gear 208, a central shaft 209 is installed at the center of the first gear 208, and a second bearing 210 is clamped at the middle end of the central shaft 209, the second bearing 210 is mounted on a moving plate 211;

the symmetrical moving plate 211 is slidably clamped on a symmetrical first sliding rod 212, two ends of the symmetrical first sliding rod 212 are fixedly installed inside the concave seat 201, the bottom end of the central shaft 209 is provided with a grinding wheel 213, the first screw 202 and the first rotating shaft 206 are respectively provided with a symmetrical second bearing 210 in a clamping manner, the second bearing 210 is installed on the concave seat 201, one side of the concave seat 201 is provided with a base 214, the base 214 is provided with a motor 215, the output end of the motor 215 is provided with a second gear 216, the second gear 216 is meshed with a third gear 217, and one end of the first rotating shaft 206 is fixedly connected with the center of the third gear 217;

third gear 217 meshes has fourth gear 218, third bearing 220 is installed at fourth gear 218 center department, fixed axle 219 is installed at third bearing 220 center department, fixed axle 219 one end and concave type seat 201 one side fixed connection, synchronizing wheel 221, two sets of are all installed to third bearing 220 one end outside and second axis of rotation 316 one end synchronizing wheel 221 outside cover is equipped with hold-in range 222, utilizes motor 215 to drive first axis of rotation 206 and second axis of rotation 316 and rotates.

The middle part of the top end of the adjusting component 1 is provided with a feeding component 3, the feeding component 3 comprises symmetrical fixed seats 301, a second screw 302 is rotatably clamped between the symmetrical fixed seats 301, a symmetrical second movable seat 303 is threadedly clamped on the second screw 302, a second sliding rod 304 is slidably clamped at one side of the second movable seat 303, two ends of the second sliding rod 304 are fixedly connected with the symmetrical fixed seats 301, a plurality of fourth bearings 306 are installed inside the cylinder 305, a plurality of honeycomb columns 307 are installed inside the fourth bearings 306, a rotating rod 308 is arranged at the center of the top end of the honeycomb column 307, a plurality of annularly distributed material channels are arranged on the honeycomb column 307, the second moving seat 303 and the connecting seat 309 are both provided with a guide pipe 310, and the material channels annularly distributed on the honeycomb column 307 can coincide with the top end of the guide pipe 310;

the bottom end of the guide pipe 310 is arranged above the middle of the two sets of limiting wheels 314 at the top layer, the top end of the second moving seat 303 is provided with a cylinder 305, the bottom end of the second moving seat 303 is provided with a connecting seat 309, the bottom end of the connecting seat 309 is provided with symmetrical baffles 311, three sets of limiting wheels 314 distributed in a sector shape are arranged between the symmetrical baffles 311, the centers of the limiting wheels 314 are provided with rotating columns 313, the rotating columns 313 are clamped with symmetrical fifth bearings 312, the fifth bearings 312 are arranged on the baffles 311, one ends of the rotating columns 313 are provided with fifth gears 315, and the adjacent fifth gears 315 are mutually meshed;

the rotating column 313 in the middle is installed on a second rotating shaft 316, symmetrical fifth bearings 312 are clamped on the second screw 302 and the second rotating shaft 316, the fifth bearings 312 are installed on the symmetrical fixing seats 301, and a second rotating shaft 316 is installed in the center of the limiting wheel 314 in the middle.

A welding component 4 is installed on the other side of the top end of the adjusting component 1, the welding component 4 comprises symmetrical fixing plates 401, symmetrical limiting plates 402 are installed between the symmetrical fixing plates 401, a toothed ring 403 is slidably clamped inside the limiting plates 402, a rotary disc 404 is installed on the other side of the toothed ring 403, a plurality of cylinders are distributed on one side of the rotary disc 404 in a fan-shaped mode, and the cylinders distributed in the fan-shaped mode can be meshed with the toothed ring 403;

symmetrical limiting holes are formed in the limiting plate 402, symmetrical limiting blocks are arranged on the toothed ring 403 and are slidably clamped in the limiting holes, a third rotating shaft 405 is arranged in the symmetrical turntable 404, the turntable 404 rotates along with the third rotating shaft 405, the turntable 404 rotates to drive a cylinder with sector distribution on one side to be clamped in the toothed ring 403, the toothed ring 403 can move, the toothed ring 403 moves to drive the connecting frame 406 and the rectangular frame 407 to move, the rectangular frame 407 moves to drive the welding head 414 to move, the welding head 414 can move horizontally, and the welding head 414 moves to a position where a metal plate needs to be welded;

symmetrical second bearings 210 are clamped on the third rotating shaft 405, the second bearings 210 are mounted on the fixing plate 401, connecting frames 406 are mounted on one side of the toothed ring 403, and rectangular frames 407 are mounted between the symmetrical connecting frames 406; the supporting seat 408 is installed at the center of the top end of the rectangular frame 407, second air cylinders 411 are installed on two symmetrical sides of the supporting seat 408, an offset rod 412 is installed at the telescopic end of each second air cylinder 411, symmetrical first hinge seats 409 are installed at the top end of the supporting seat 408, second hinge seats 410 are installed at the bottom end and the telescopic end of each second air cylinder 411, a first hinge seat 409 is installed at the top end of each offset rod 412, and the first hinge seat 409 at the top end of the supporting seat 408 is hinged and connected with the second hinge seat 410 at the bottom end of each second air cylinder 411;

the first hinged seat 409 at the top end of the offset rod 412 is hinged to the second hinged seat 410 at the telescopic end of the second air cylinder 411, the round ball 413 is mounted at the lower end of the offset rod 412, the round ball 413 is rotatably clamped at the bottom end of the rectangular frame 407, the welding head 414 is mounted at the bottom end of the offset rod 412, the first hinged seat 409 and the second hinged seat 410 are hinged to each other in a telescopic matching mode through the second air cylinder 411, so that the offset rod 412 can be offset, the round ball 413 at the lower end of the offset rod 412 deflects accordingly, and the welding head 414 at the bottom end of the offset rod 412 can weld metal plates.

The working principle is as follows: when the device is used, the strip-shaped brazing filler metal is annularly placed in a material channel of the honeycomb column 307, the distance between the bottom plate 103 and the symmetrical grinding wheel 213 is adjusted by utilizing the extension and contraction of the first air cylinder 102 to enable the distance to be suitable for the thickness of a metal plate, and then the first screw 202 is rotated to enable the first screw 202 to rotate to drive the symmetrical first moving seats 203 to move oppositely, so that the first moving seats 203 can move oppositely along the direction of the first sliding rod 212;

the first moving seats 203 move oppositely to drive the symmetrical grinding wheels 213 to move oppositely, so that the distance between the symmetrical grinding wheels 213 can be suitable for the thickness of a vertically placed metal plate, at the moment, the first moving seats 203 move to drive the rotating cylinder 205 to move on the first rotating shaft 206 along the direction of the sliding block sliding clamping in the sliding groove, so that the rotating cylinder 205 can still be driven to rotate under the rotation of the first rotating shaft 206 after moving, the symmetrical second moving seats 303 move oppositely by rotating the second screw 302, and the limiting wheels 314 below the second moving seats 303 move to the positions needing welding;

the metal plate to be welded is placed between the bottom plate 103 and the symmetrical grinding wheels 213 in a T shape, the motor 215 is started, the motor 215 drives the second gear 216 to rotate, the second gear 216 drives the third gear 217 to rotate, the third gear 217 rotates to drive the first rotating shaft 206 to rotate, the first rotating shaft 206 rotates to drive the rotating cylinder 205 to rotate, the rotating cylinder 205 rotates to drive the side gear 207 to rotate, the side gear 207 rotates to drive the first gear 208 to rotate, the first gear 208 rotates to drive the central shaft 209 to rotate, the central shaft 209 rotates to drive the grinding wheels 213 to rotate, the surface of the metal plate is ground, and an oxide layer on the surface of the metal plate is ground and removed, when the polished metal plate moves below the limiting wheel 314;

rotating the rotating rod 308 to make the honeycomb column 307 at the bottom end of the rotating rod 308 rotate therewith, the honeycomb column 307 rotates to drive the placed strip-shaped brazing filler metal to move to the guide pipe 310 in the second moving seat 303, the strip-shaped brazing filler metal falls between the two sets of limiting wheels 314 at the top layer through the guide pipe 310, at this time, the third gear 217 rotates to drive the fourth gear 218 to rotate, the fourth gear 218 rotates to drive the third bearing 220 to rotate, the synchronizing wheel 221 at the other end of the third bearing 220 rotates, and the synchronizing wheel 221 at one end of the second rotating shaft 316 is driven to rotate by the synchronous belt 222, so that the second rotating shaft 316 rotates, the second rotating shaft 316 rotates to drive the fifth gear 315 clamped thereon to rotate, the fifth gear 315 rotates to drive the two sets of fifth gears 315 meshed therewith to rotate, so that the rotating column 313 rotates therewith, the limiting wheels 314 on the rotating column 313 rotates therewith to convey the brazing filler metal to the welding position;

at this time, the third rotating shaft 405 is rotated to rotate the rotating disc 404, the rotating disc 404 rotates to drive the cylinders distributed in a sector shape on one side of the rotating disc to be clamped inside the toothed ring 403, so that the toothed ring 403 can move, the toothed ring 403 moves to drive the connecting frame 406 and the rectangular frame 407 to move, the rectangular frame 407 moves to drive the welding head 414 to move, the welding head 414 can move horizontally, and the welding head 414 moves to a position where a metal plate needs to be welded.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A brazing processing device for a three-phase separator, comprising an adjustment assembly (1), characterized in that: the adjusting component (1) comprises a base (101), a bottom plate (103) is arranged above the base (101), a polishing component (2) is arranged on one side of the top end of the adjusting component (1), the polishing component (2) comprises a concave seat (201), a first screw rod (202) is rotatably clamped in the concave seat (201), symmetrical first movable seats (203) are clamped on the first screw rod (202) in a threaded manner, a rotating cylinder (205) is rotatably clamped on the first movable seats (203), a first rotating shaft (206) is clamped in the symmetrical rotating cylinder (205), a side gear (207) is installed on the outer side of one end of the rotating cylinder (205), a first gear (208) is meshed with the side gear (207), a central shaft (209) is installed at the center of the first gear (208), and a grinding wheel (213) is installed at the bottom end of the central shaft (209);

the feeding assembly (3) is installed in the middle of the top end of the adjusting assembly (1), the feeding assembly (3) comprises symmetrical fixing seats (301), a second screw rod (302) is rotatably clamped between the symmetrical fixing seats (301), a symmetrical second moving seat (303) is arranged on the second screw rod (302) in a threaded clamping mode, a cylinder (305) is installed at the top end of the second moving seat (303), a connecting seat (309) is installed at the bottom end of the second moving seat (303), symmetrical baffle plates (311) are installed at the bottom end of the connecting seat (309), three groups of limiting wheels (314) which are distributed in a fan shape are installed between the symmetrical baffle plates (311), and a second rotating shaft (316) is installed in the center of the limiting wheels (314) in the middle;

adjusting part (1) top opposite side and installing welding subassembly (4), welding subassembly (4) is including fixed plate (401) of symmetry, the symmetry install limiting plate (402) of symmetry between fixed plate (401), limiting plate (402) inside slip card is equipped with ring gear (403), link (406) are installed to ring gear (403) one side, the symmetry install rectangle frame (407) between link (406), rectangle frame (407) top center department installs supporting seat (408), second cylinder (411) are all installed to the both sides of supporting seat (408) symmetry, skew pole (412) are installed to the flexible end of second cylinder (411), soldered connection (414) are installed to skew pole (412) bottom.

2. The brazing processing device for the three-phase separator according to claim 1, wherein a first cylinder (102) is installed at the center of the top end of the base (101), the telescopic end of the first cylinder (102) is fixedly connected with the center of the bottom end of the bottom plate (103), a plurality of limiting rods (104) are distributed at the bottom end of the bottom plate (103) in a rectangular mode, and the limiting rods (104) can be slidably clamped inside the base (101).

3. The brazing processing device for the three-phase separator according to claim 1, wherein a first bearing (204) is clamped at the other end of the outer side of the rotating cylinder (205), the first bearing (204) is installed inside the first moving seat (203), symmetrical sliding grooves are formed in the first rotating shaft (206), symmetrical sliding blocks are installed inside the rotating cylinder (205), and the sliding blocks are slidably clamped inside the sliding grooves.

4. The brazing processing device for the three-phase separator according to claim 1, wherein the central shaft (209) is provided with a second bearing (210) at the middle end thereof, the second bearing (210) is mounted on a moving plate (211), the symmetrical moving plate (211) is slidably clamped on a symmetrical first sliding rod (212), and both ends of the symmetrical first sliding rod (212) are fixedly mounted inside the concave base (201).

5. The brazing processing device for the three-phase separator according to claim 4, wherein symmetrical second bearings (210) are clamped on the first screw (202) and the first rotating shaft (206), the second bearings (210) are installed on a concave seat (201), a base (214) is installed on one side of the concave seat (201), a motor (215) is installed on the base (214), a second gear (216) is installed at the output end of the motor (215), a third gear (217) is meshed with the second gear (216), one end of the first rotating shaft (206) is fixedly connected with the center of the third gear (217), and a fourth gear (218) is meshed with the third gear (217);

fourth gear (218) center department installs third bearing (220), third bearing (220) center department installs fixed axle (219), fixed axle (219) one end and concave type seat (201) one side fixed connection, synchronizing wheel (221), two sets of are all installed to third bearing (220) one end outside and second axis of rotation (316) one end synchronizing wheel (221), synchronizing wheel (221) outside cover is equipped with hold-in range (222).

6. The brazing processing device for the three-phase separator according to claim 1, wherein a second sliding rod (304) is slidably clamped at one side of the second moving seat (303), two ends of the second sliding rod (304) are fixedly connected with symmetrical fixed seats (301), a plurality of fourth bearings (306) are installed inside the cylinder (305), a honeycomb column (307) is installed inside the plurality of fourth bearings (306), a rotating rod (308) is installed at the center of the top end of the honeycomb column (307), and a plurality of material channels distributed annularly are formed in the honeycomb column (307);

all install pipe (310) on second removal seat (303) and connecting seat (309), the material passageway that the annular distributes on honeycomb post (307) can coincide with pipe (310) top, the top in the middle of two sets of spacing wheels (314) of top layer is installed to pipe (310) bottom.

7. The brazing processing device for the three-phase separator according to claim 1, wherein a rotating column (313) is installed at the center of the limiting wheel (314), symmetrical fifth bearings (312) are clamped on the rotating column (313), the fifth bearings (312) are installed on the baffle (311), a fifth gear (315) is installed at one end of the rotating column (313), and the adjacent fifth gears (315) are meshed with each other;

the middle rotating column (313) is arranged on a second rotating shaft (316), symmetrical fifth bearings (312) are clamped on the second screw rod (302) and the second rotating shaft (316), and the fifth bearings (312) are arranged on symmetrical fixed seats (301).

8. The brazing processing device for the three-phase separator according to claim 4, wherein a turntable (404) is mounted on the other side of the toothed ring (403), a plurality of cylinders are distributed on one side of the turntable (404) in a sector shape, the cylinders distributed in the sector shape can be meshed with the toothed ring (403), symmetrical limiting holes are formed in the limiting plate (402), symmetrical limiting blocks are mounted on the toothed ring (403), and the limiting blocks are slidably clamped in the limiting holes;

the symmetry carousel (404) internally mounted has third axis of rotation (405), third axis of rotation (405) goes up the card and is equipped with symmetrical second bearing (210), second bearing (210) are installed on fixed plate (401).

9. The brazing processing device for the three-phase separator according to claim 1, wherein the top end of the supporting seat (408) is provided with a symmetrical first hinged seat (409), the bottom end and the telescopic end of the second cylinder (411) are provided with a second hinged seat (410), the top end of the offset rod (412) is provided with the first hinged seat (409), and the first hinged seat (409) at the top end of the supporting seat (408) is hinged with the second hinged seat (410) at the bottom end of the second cylinder (411);

first articulated seat (409) on skew pole (412) top and the articulated connection of second articulated seat (410) of the flexible end of second cylinder (411), ball (413) are installed to skew pole (412) lower extreme, rectangle frame (407) bottom is located in ball (413) rotation card.

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