CN115945605A

CN115945605A - Extrusion type high finned tube forming equipment

Info

Publication number: CN115945605A
Application number: CN202310237783.4A
Authority: CN
Inventors: 陆明华; 张春明; 时明华; 凌卫良; 朱晓军; 金莉雯
Original assignee: Jiangsu Cuilong Precision Copper Tube Corp
Current assignee: Jiangsu Cuilong Precision Copper Tube Corp
Priority date: 2023-03-14
Filing date: 2023-03-14
Publication date: 2023-04-11
Anticipated expiration: 2043-03-14
Also published as: CN115945605B

Abstract

The invention discloses extrusion type high finned tube forming equipment, which relates to the technical field of finned tube forming and comprises an extrusion assembly, wherein the extrusion assembly comprises a main bottom plate, an extrusion base is fixedly arranged on the main bottom plate, a sliding seat is fixedly arranged on the extrusion base, a lifting screw rod is slidably arranged on the extrusion base, a clamp seat is rotatably arranged on the lifting screw rod, extrusion rollers are rotatably arranged on the clamp seat, a main pipe is arranged among a plurality of extrusion rollers, an extrusion motor is fixedly arranged on the clamp seat, an output shaft of the extrusion motor is fixedly connected with the extrusion rollers, a fluted disc is rotatably arranged on the extrusion base, an adjusting gear is fixedly arranged on the lifting screw rod, the fluted disc and the adjusting gear form gear fit, and an adjusting electric cylinder is fixedly arranged on the sliding seat. The extrusion assembly can integrally form the main pipe in a combined extrusion mode, has better hardness and rigidity than the finned pipe formed by welding, can be adapted to high finned pipes with different diameters and different types, and can adjust the processing angle during processing.

Description

Extrusion type high finned tube forming equipment

Technical Field

The invention relates to the technical field of finned tube forming, in particular to extrusion type high finned tube forming equipment.

Background

The existing extrusion type finned tube forming equipment adopts a mode of directly connecting a power source with a drive, and is formed by extrusion through a front side extrusion module, a rear side extrusion module and a bottom extrusion module, so that the purpose of forming finned tubes at one time is to avoid dust accumulation; however, the existing extrusion type finned tube forming equipment only solves the problem that fins and metal tubes in the prior art need to be welded and cannot be integrally formed, the existing extrusion type finned tube forming equipment cannot adapt to finned tubes of different sizes and types, the equipment is long in length, large space is occupied for extrusion forming of the finned tubes, and the extruded finned tubes cannot be automatically collected.

The invention discloses a hot extrusion forming device for a fin heat exchange tube, which is disclosed by Chinese patent with publication number CN109351879A, and is characterized in that a metal tube is pushed to a front side extrusion module and a position between a rear side extrusion module and a bottom extrusion module in a forming module, and external fins of the fin heat exchange tube are formed through extrusion of the front side extrusion module, the rear side extrusion module and the bottom extrusion module. However, when the equipment extrudes the finned tube, the front side extrusion module, the rear side extrusion module and the lower extrusion module are respectively driven, the phenomenon of uneven stress can be caused, and the space utilization rate of a workshop can be reduced due to the fact that the feeding part is too long.

Disclosure of Invention

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: an extrusion type high finned tube forming device comprises an extrusion assembly.

The extrusion subassembly includes total bottom plate, fixed mounting has the extrusion base on the total bottom plate, fixed mounting has the sliding seat on the extrusion base, slidable mounting has the lifting screw on the extrusion base, the last anchor clamps seat of rotatably mounting of lifting screw, rotatably mounting has the squeeze roll on the anchor clamps seat, install female pipe between a plurality of squeeze rolls, fixed mounting has the extrusion motor on the anchor clamps seat, the output shaft and the squeeze roll fixed connection of extrusion motor, rotatably mounting has the fluted disc on the extrusion base, fixedly mounting has adjusting gear on the lifting screw, the fluted disc forms the gear cooperation with adjusting gear, fixed mounting has the regulation electric jar on the sliding seat, slidable mounting has the lift slide bar on the sliding seat, the flexible end fixed connection of lift slide bar and regulation electric jar, fixed mounting has the regulation spout on the anchor clamps seat, regulation spout and lift slide bar sliding connection.

Furthermore, a central belt wheel is fixedly mounted on the extrusion roller, a supporting wheel rod is slidably mounted on the extrusion base, supporting belt wheels are rotatably mounted on the supporting wheel rod, connecting belts are mounted on the three groups of central belt wheels and the supporting belt wheels, the central belt wheels, the supporting belt wheels and the connecting belts form belt connection, and supporting springs are mounted between the supporting wheel rod and the extrusion base.

Further, the high finned tube forming equipment further comprises an elastic feeding assembly, the elastic feeding assembly comprises a feeding base, a feeding hopper is fixedly mounted on the feeding base, a plurality of mother tubes are mounted in the feeding hopper, an opening sliding groove and a sealing sliding groove are fixedly mounted on the feeding base, a mother tube pushing block is slidably mounted on the sealing sliding groove, the mother tube pushing block can just accommodate one mother tube, the opening of the mother tube pushing block is aligned to the opening position of the mother tube, when the mother tube is placed on the mother tube pushing block, the mother tube and the mother tube pushing block are concentric, a pushing motor is fixedly mounted on the feeding base, a first connecting rod is fixedly mounted on an output shaft of the pushing motor, a second connecting rod is rotatably mounted on the first connecting rod, an active pushing block is slidably mounted on the opening sliding groove, the active pushing block is rotatably connected with the second connecting rod, a sliding groove pushing head is fixedly mounted on the active pushing block, a fixed sliding groove is fixedly mounted on the sealing sliding groove, the sliding groove of the fixed sliding groove is identical to the sliding groove in size, a sliding block is slidably mounted on the sliding block, the sliding groove is matched with the fixed sliding groove, and the sliding groove.

Further, install the carriage between elasticity material loading subassembly and the extrusion subassembly, carriage fixed mounting is on total bottom plate, rotates on the carriage to install the delivery wheel.

Further, high finned tube forming equipment still includes plug shrink subassembly, and plug shrink subassembly includes shrink outer seat, and shrink outer seat fixed mounting has the plug on the outer seat of shrink on total bottom plate, and female pipe when carrying out the extrusion, the front end of plug is deep into the inside of female pipe.

Furthermore, a contraction inner seat is slidably mounted on the contraction outer seat, the core rod is slidably mounted on the contraction inner seat, a core rod gear is rotatably mounted on the contraction inner seat, the core rod gear and the inner surface of the contraction outer seat form gear-rack fit, the core rod gear and the core rod form gear-rack fit, a contraction cylinder is fixedly mounted on the contraction outer seat, a connection push rod is fixedly mounted at the telescopic end of the contraction cylinder, and the connection push rod is fixedly connected with the contraction inner seat.

Further, the high finned tube forming equipment further comprises a finished product containing assembly, the finished product containing assembly comprises a containing shell, the containing shell is fixedly installed on the main bottom plate, a containing motor is fixedly installed on the containing shell, a bottom plate belt wheel is fixedly installed on an output shaft of the containing motor, a middle plate belt wheel is rotatably installed on the containing shell, an upper plate belt wheel is rotatably installed on the containing shell, a transmission belt is installed on the bottom plate belt wheel, the middle plate belt wheel and the upper plate belt wheel, the bottom plate belt wheel, the middle plate belt wheel, the upper plate belt wheel and the transmission belt form a belt connection, an upper containing plate is fixedly installed on the upper plate belt wheel, a middle containing plate is fixedly installed on the middle plate belt wheel, and a lower containing plate is fixedly installed on the bottom plate belt wheel.

Furthermore, the containing shell is rotatably provided with a transposition belt wheel, the transposition belt wheel is also in belt connection with the bottom plate belt wheel, the middle plate belt wheel, the upper plate belt wheel and the transmission belt, and the middle plate belt wheel is supported to be placed on the outer layer of the transmission belt through arrangement of the two transposition belt wheels, so that the rotation direction of the middle plate belt wheel is opposite to that of the bottom plate belt wheel and that of the upper plate belt wheel.

Compared with the prior art, the invention has the beneficial effects that: (1) The extrusion assembly can integrally form the main pipe in a combined extrusion mode, has better hardness and rigidity than the finned pipe formed by welding, can be adapted to high finned pipes with different diameters and different types, and can adjust the processing angle during processing;

(2) The elastic feeding assembly can automatically feed the main pipes one by one, so that the problem of blockage in the feeding process is prevented; (3) The mandrel contraction assembly can prolong the moving distance of the mandrel without increasing the occupied area of the device; (4) According to the finished product containing assembly, the processed finned tubes are arranged in layers, the phenomenon that the extruded discharging finned tubes are scattered and stacked is avoided, and the finished product containing assembly is convenient to take out and use directly in the follow-up process.

Drawings

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

FIG. 2 is a schematic view of a compression assembly of the present invention.

FIG. 3 is a schematic view of the interior of the compression assembly of the present invention.

FIG. 4 is a schematic view of the elastic loading assembly of the present invention.

FIG. 5 is a partial schematic view of the elastomeric loading assembly of the present invention.

FIG. 6 is a schematic view of the ramp block of the present invention.

FIG. 7 is a schematic view of a mandrel retraction assembly of the present invention.

FIG. 8 is an internal schematic view of the mandrel retraction assembly of the present invention.

Fig. 9 is a schematic view of a product receiving assembly of the present invention.

Fig. 10 is an internal view of the product storage assembly of the present invention.

Reference numerals: 1-total backplane; 2-extruding the base; 3-a sliding seat; 4-lifting screw; 5-a clamp seat; 6-extrusion roll; 7-a main pipe; 8-extruding the motor; 9-a central pulley; 10-a fluted disc; 11-an adjusting gear; 12-adjusting the electric cylinder; 13-lifting slide bar; 14-adjusting the chute; 15-supporting wheel rods; 16-a support spring; 17-a support pulley; 18-connecting a belt; 19-a feeding base; 20-feeding trough hopper; 21-a main pipe push block; 22-a carriage; 23-a delivery wheel; 24-a push motor; 25-a first link; 26-a second link; 27-an active push block; 28-chute pushing head; 29-fixed chute; 30-a bevel slider; 31-a push spring; 32-open chute; 33-sealing the chute; 34-contracting the outer seat; 35-contracting the inner seat; 36-a mandrel; 37-a mandrel gear; 38-a contracting cylinder; 39-connecting the push rod; 40-a storage housing; 41-accommodating the motor; 42-a floor pulley; 43-middle plate pulley; 44-upper plate pulley; 45-a drive belt; 46-a transposition pulley; 47-upper storage plate; 48-middle storage plate; 49-lower storage plate.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Example (b): 1-10, an extruded high finned tube forming apparatus includes an extrusion assembly.

The extrusion assembly comprises a main bottom plate 1, an extrusion base 2 is fixedly mounted on the main bottom plate 1, a sliding seat 3 is fixedly mounted on the extrusion base 2, a lifting screw 4 is slidably mounted on the extrusion base 2, a clamp seat 5 is rotatably mounted on the lifting screw 4, a squeezing roller 6 is rotatably mounted on the clamp seat 5, a mother pipe 7 is mounted between the squeezing rollers 6, an extrusion motor 8 is fixedly mounted on the clamp seat 5, an output shaft of the extrusion motor 8 is fixedly connected with the squeezing roller 6, a fluted disc 10 is rotatably mounted on the extrusion base 2, an adjusting gear 11 is fixedly mounted on the lifting screw 4, the fluted disc 10 forms gear fit with the adjusting gear 11, an adjusting electric cylinder 12 is fixedly mounted on the sliding seat 3, a lifting slide bar 13 is slidably mounted on the sliding seat 3, the lifting slide bar 13 is fixedly connected with the telescopic end of the adjusting electric cylinder 12, an adjusting slide groove 14 is fixedly mounted on the clamp seat 5, and the adjusting slide groove 14 is slidably connected with the lifting slide bar 13. The fluted disc 10 is rotated, the fluted disc 10 drives the adjusting gear 11 to rotate, the adjusting gear 11 rotates to drive the lifting screw rod 4 to slide on the extrusion base 2, the lifting screw rod 4 moves to drive the clamp seat 5 to move linearly, the clamp seat 5 moves linearly to drive the extrusion roller 6 to move radially, the central distance of the extrusion roller 6 is changed, and the adjustable extrusion device is suitable for mother pipes 7 with different diameters; the extrusion motor 8 is started to drive the extrusion roller 6 to rotate, the extrusion roller 6 rotates to extrude the mother pipe 7, the adjusting electric cylinder 12 is started to drive the lifting slide rod 13 to slide, the lifting slide rod 13 slides to drive the adjusting chute 14 to move, the adjusting chute 14 moves to drive the clamp seat 5 to rotate relative to the lifting screw rod 4, the angle of the extrusion roller 6 is changed, and the adaptability of the extrusion assembly is enhanced.

The extrusion roller 6 is fixedly provided with a central belt wheel 9, the extrusion base 2 is provided with a supporting wheel rod 15 in a sliding manner, the supporting wheel rod 15 is provided with a supporting belt wheel 17 in a rotating manner, the three groups of central belt wheels 9 and the supporting belt wheels 17 are provided with connecting belts 18, the central belt wheels 9, the supporting belt wheels 17 and the connecting belts 18 form belt connection, and a supporting spring 16 is arranged between the supporting wheel rod 15 and the extrusion base 2. The rotation of the central belt wheel 9 is transmitted to each squeezing roller 6 through the transmission of the connecting belt 18, and meanwhile, the supporting wheel rod 15 and the supporting spring 16 can control the central belt wheel 9 to be always attached to the connecting belt 18 when the squeezing rollers 6 change radially or angularly.

The high finned tube forming equipment further comprises an elastic feeding assembly, the elastic feeding assembly comprises a feeding base 19, a feeding hopper 20 is fixedly mounted on the feeding base 19, a plurality of mother tubes 7 are mounted in the feeding hopper 20, an opening sliding groove 32 and a sealing sliding groove 33 are fixedly mounted on the feeding base 19, a mother tube pushing block 21 is slidably mounted on the sealing sliding groove 33, the mother tube pushing block 21 just can contain one mother tube 7, the opening of the mother tube pushing block 21 is aligned with the opening position of the mother tube 7, when the mother tube 7 is placed on the mother tube pushing block 21, the mother tube 7 is concentric with the mother tube pushing block 21, a pushing motor 24 is fixedly mounted on the feeding base 19, a first connecting rod 25 is fixedly mounted on an output shaft of the pushing motor 24, a second connecting rod 26 is slidably mounted on the first connecting rod 25, an active pushing block 27 is slidably mounted on the opening sliding groove 32, the active pushing block 27 is rotatably connected with the second connecting rod 26, a sliding groove pushing head 28 is fixedly mounted on the active pushing block 27, a fixed sliding groove 29 is fixedly mounted on the sealing sliding groove 33, a sliding block 30 matched with the mother tube pushing block 21 and a sliding groove 30, and a sliding groove 31 is matched with the pushing block 21, and a sliding groove 30. The pushing motor 24 is started to drive the first connecting rod 25 to rotate, the first connecting rod 25 rotates to drive the second connecting rod 26 to rotate, the second connecting rod 26 rotates to drive the driving push block 27 to slide on the opening chute 32, the driving push block 27 drives the chute push head 28 to move, the chute push head 28 initially abuts against the inclined plane slide block 30, the inclined plane slide block 30 drives the female tube push block 21 to slide on the closed chute 33, the pushing spring 31 is extruded, after the inclined plane slide block 30 contacts the fixed chute 29, the inclined plane slide block 30 slides on the female tube push block 21, the inclined plane slide block 30 slides into the female tube push block 21, the chute push head 28 slides into the fixed chute 29, at the moment, the inclined plane slide block 30 is not limited by the chute push head 28 any more, the pushing spring 31 pushes the female tube push block 21 to slide, and drives the female tube 7 on the female tube push block 21 to move, the female tube 7 moves into the extruding assembly, and automatic pushing and feeding of the female tube 7 is completed.

A conveying frame 22 is arranged between the elastic feeding assembly and the extrusion assembly, the conveying frame 22 is fixedly arranged on the general bottom plate 1, and a conveying wheel 23 is rotatably arranged on the conveying frame 22. The delivery wheel 23 is used for transport of the parent pipe 7 between the modules.

The high finned tube forming equipment further comprises a mandrel contracting assembly, the mandrel contracting assembly comprises a contracting outer seat 34, the contracting outer seat 34 is fixedly installed on the main bottom plate 1, a mandrel 36 is installed on the contracting outer seat 34 in a sliding mode, and when the main tube 7 is extruded, the front end of the mandrel 36 penetrates into the main tube 7. The core rod 36 ensures that the quality of the inner surface of the parent pipe 7 is not impaired when the parent pipe 7 is machined.

The contraction outer seat 34 is provided with a contraction inner seat 35 in a sliding mode, the core rod 36 is arranged on the contraction inner seat 35 in a sliding mode, the contraction inner seat 35 is provided with a core rod gear 37 in a rotating mode, the core rod gear 37 is matched with the inner surface of the contraction outer seat 34 through a gear rack, the core rod gear 37 is matched with the core rod 36 through the gear rack, the contraction outer seat 34 is fixedly provided with a contraction air cylinder 38, the telescopic end of the contraction air cylinder 38 is fixedly provided with a connecting push rod 39, and the connecting push rod 39 is fixedly connected with the contraction inner seat 35. The contraction cylinder 38 is started to drive the contraction inner seat 35 to slide in the contraction outer seat 34, the core rod gear 37 slides on the rack of the contraction outer seat 34 during the sliding of the contraction inner seat 35 to drive the core rod gear 37 to rotate, the core rod gear 37 rotates to drive the core rod 36 to slide on the contraction inner seat 35, meanwhile, the sliding distance of the core rod 36 is far greater than that of the contraction inner seat 35 on the contraction outer seat 34, the moving distance of the core rod 36 is prolonged, and meanwhile, the occupied area of the device is not increased.

The high finned tube forming equipment further comprises a finished product storage assembly, the finished product storage assembly comprises a storage shell 40, the storage shell 40 is fixedly mounted on the general bottom plate 1, a storage motor 41 is fixedly mounted on the storage shell 40, a bottom plate belt wheel 42 is fixedly mounted on an output shaft of the storage motor 41, a middle plate belt wheel 43 is rotatably mounted on the storage shell 40, an upper plate belt wheel 44 is rotatably mounted on the storage shell 40, a transmission belt 45 is mounted on the bottom plate belt wheel 42, the middle plate belt wheel 43 and the upper plate belt wheel 44, the bottom plate belt wheel 42, the middle plate belt wheel 43, the upper plate belt wheel 44 and the transmission belt 45 form a belt connection, an upper storage plate 47 is fixedly mounted on the upper plate belt wheel 44, a middle storage plate 48 is fixedly mounted on the middle plate belt wheel 43, and a lower storage plate 49 is fixedly mounted on the bottom plate belt wheel 42. The containing motor 41 is started to drive the bottom plate belt wheel 42 to rotate, the bottom plate belt wheel 42 drives the middle plate belt wheel 43 and the upper plate belt wheel 44 to rotate through the transmission belt 45, the bottom plate belt wheel 42 drives the lower containing plate 49 to rotate, the middle plate belt wheel 43 drives the middle containing plate 48 to rotate, the upper plate belt wheel 44 drives the upper containing plate 47 to rotate, the rotating angles of the upper containing plate 47, the middle containing plate 48 and the lower containing plate 49 are the same, the movement of the mother pipe 7 in the containing shell 40 can be controlled by adjusting the rotating angles of the upper containing plate 47, the middle containing plate 48 and the lower containing plate 49, when the upper containing plate 47 slightly inclines, the mother pipe 7 on the upper containing plate 47 rolls to the edge of the upper containing plate 47, falls onto the middle containing plate 48 through an opening in the edge, and then falls onto the lower containing plate 49 through the middle containing plate 48, if the inclination angle of the upper containing plate 47 is increased, the gap between the upper containing plate 47 and the middle containing plate 48 is not enough for the upper containing plate 47 to roll onto the middle containing plate 48, and the mother pipe 7 is placed layer by layer when the lower containing plate is full.

The containing shell 40 is rotatably provided with a transposition belt wheel 46, the transposition belt wheel 46 is also in belt connection with the bottom plate belt wheel 42, the middle plate belt wheel 43, the upper plate belt wheel 44 and the transmission belt 45, and the middle plate belt wheel 43 is supported to be placed on the outer layer of the transmission belt 45 through arrangement of the two transposition belt wheels 46, so that the rotation direction of the middle plate belt wheel 43 is opposite to that of the bottom plate belt wheel 42 and the upper plate belt wheel 44. The storage plate 48 is turned upside down simultaneously with the upper storage plate 47 and the lower storage plate 49 by the reverse rotation control of the middle plate pulley 43.

Claims

1. The utility model provides a high finned tube former of extrusion formula, includes the extrusion subassembly, its characterized in that:

the extrusion assembly comprises a main bottom plate (1), an extrusion base (2) is fixedly mounted on the main bottom plate (1), a sliding seat (3) is fixedly mounted on the extrusion base (2), a lifting screw (4) is slidably mounted on the extrusion base (2), a clamp seat (5) is rotatably mounted on the lifting screw (4), extrusion rollers (6) are rotatably mounted on the clamp seat (5), a female pipe (7) is mounted between the extrusion rollers (6), an extrusion motor (8) is fixedly mounted on the clamp seat (5), an output shaft of the extrusion motor (8) is fixedly connected with the extrusion rollers (6), a fluted disc (10) is rotatably mounted on the extrusion base (2), an adjusting gear (11) is fixedly mounted on the lifting screw (4), the fluted disc (10) forms gear fit with the adjusting gear (11), an adjusting electric cylinder (12) is fixedly mounted on the sliding seat (3), a lifting slide rod (13) is slidably mounted on the sliding seat (3), the lifting slide rod (13) is fixedly connected with the adjusting electric cylinder (12), an adjusting slide groove (14) is fixedly mounted on the clamp seat (5), and the adjusting slide rod (13) is slidably connected with the lifting slide rod (13).

2. The extruded high finned tube forming apparatus of claim 1 wherein: fixed mounting has central band pulley (9) on squeeze roll (6), slidable mounting has supporting wheel pole (15) on extrusion base (2), it has supporting band pulley (17) to rotate on supporting wheel pole (15), install on three groups of central band pulleys (9) and supporting band pulley (17) and connect belt (18), central band pulley (9), supporting band pulley (17) and connecting belt (18) form the belt and connect, install supporting spring (16) between supporting wheel pole (15) and extrusion base (2).

3. The extruded high finned tube forming apparatus of claim 2 wherein: the high finned tube forming equipment further comprises an elastic feeding assembly, the elastic feeding assembly comprises a feeding base (19), a feeding hopper (20) is fixedly installed on the feeding base (19), a plurality of mother tubes (7) are installed in the feeding hopper (20), an opening sliding groove (32) and a sealing sliding groove (33) are fixedly installed on the feeding base (19), a mother tube pushing block (21) is installed on the sealing sliding groove (33) in a sliding manner, the mother tube pushing block (21) just can contain one mother tube (7), the opening of the mother tube pushing block (21) is aligned to the opening position of the mother tube (7), when the mother tube (7) is placed on the mother tube pushing block (21), the mother tube (7) is concentric with the mother tube pushing block (21), a pushing motor (24) is fixedly installed on the feeding base (19), a first connecting rod (25) is fixedly installed on an output shaft of the pushing motor (24), a second connecting rod (26) is installed on the first connecting rod (25) in a sliding manner, a sliding block (27) is installed on the opening sliding block (32) in a sliding manner, a sliding groove (28) is fixedly installed on an active sliding groove (29), a sliding groove (29) which is fixedly installed on the active sliding groove (29), and a sliding groove (29) which is connected with a sliding groove (29) of the active pushing head, a sliding groove (29), and a sliding groove (29) fixedly installed on the sliding groove (29), the inclined plane sliding block (30) is matched with the fixed sliding chute (29), and a pushing spring (31) is arranged between the main pipe pushing block (21) and the closed sliding chute (33).

4. The extruded high finned tube forming apparatus of claim 3 wherein: install carriage (22) between elasticity material loading subassembly and the extrusion subassembly, carriage (22) fixed mounting is on total bottom plate (1), rotates on carriage (22) and installs delivery wheel (23).

5. The extruded high finned tube forming apparatus of claim 4 wherein: the high finned tube forming equipment further comprises a core rod contraction assembly, the core rod contraction assembly comprises an outer contraction seat (34), the outer contraction seat (34) is fixedly installed on the main bottom plate (1), a core rod (36) is installed on the outer contraction seat (34) in a sliding mode, and when the main tube (7) is extruded, the front end of the core rod (36) penetrates into the interior of the main tube (7).

6. The extruded high finned tube forming apparatus of claim 5 wherein: seat (35) in the shrink is gone up slidable mounting in the shrink of shrink outer seat (34), plug (36) slidable mounting is on seat (35) in the shrink, rotate on seat (35) in the shrink and install plug gear (37), plug gear (37) and shrink outer seat (34) internal surface form the rack and pinion cooperation, plug gear (37) and plug (36) form the rack and pinion cooperation, fixed mounting has shrink cylinder (38) on shrink outer seat (34), the flexible end fixed mounting of shrink cylinder (38) has connecting push rod (39), connecting push rod (39) and shrink inner seat (35) fixed connection.

7. The extruded high finned tube forming apparatus of claim 6, wherein: the high finned tube forming equipment further comprises a finished product storage assembly, the finished product storage assembly comprises a storage shell (40), the storage shell (40) is fixedly mounted on the main bottom plate (1), a storage motor (41) is fixedly mounted on the storage shell (40), a bottom plate belt wheel (42) is fixedly mounted on an output shaft of the storage motor (41), a middle plate belt wheel (43) is rotatably mounted on the storage shell (40), an upper plate belt wheel (44) is rotatably mounted on the storage shell (40), the bottom plate belt wheel (42), the middle plate belt wheel (43), a transmission belt (45) is mounted on the upper plate belt wheel (44), the bottom plate belt wheel (42), the middle plate belt wheel (43), the upper plate belt wheel (44), the transmission belt (45) is in belt connection, an upper storage plate (47) is fixedly mounted on the upper plate belt wheel (44), a middle storage plate (48) is fixedly mounted on the middle plate belt wheel (43), and a lower storage plate (49) is fixedly mounted on the bottom plate belt wheel (42).

8. The extruded high finned tube forming apparatus of claim 7 wherein: the containing shell (40) is rotatably provided with a transposition belt wheel (46), the transposition belt wheel (46) is also in belt connection with the bottom plate belt wheel (42), the middle plate belt wheel (43), the upper plate belt wheel (44) and the transmission belt (45), and the middle plate belt wheel (43) is supported to be placed on the outer layer of the transmission belt (45) through arrangement of the two transposition belt wheels (46), so that the rotating direction of the middle plate belt wheel (43) is opposite to that of the bottom plate belt wheel (42) and the upper plate belt wheel (44).