CN117505711B - Radiator fin stamping forming machine - Google Patents

Abstract

The utility model discloses a radiator fin stamping forming machine, which relates to the technical field of stamping forming and comprises a base, an aluminum plate and a finished product plate, wherein a middle bottom post is fixedly arranged on the base, a supporting frame is fixedly arranged on the middle bottom post, an upper die shaft is rotatably arranged at one end of the supporting frame far away from the base, a middle post is fixedly arranged on the upper die shaft, a plurality of fixing posts are fixedly arranged on the middle post, the fixing posts are uniformly distributed on the middle post, a fixing plate is fixedly arranged at one end of the fixing post far away from the middle post, a die connecting plate is slidably arranged on the fixing plate, and an upper die is arranged at one end of the die connecting plate far away from the fixing plate.

Description

Radiator fin stamping forming machine

Technical Field

The utility model belongs to the technical field of stamping forming, and particularly relates to stamping forming of a radiator fin.

Background

The radiator is composed of three parts, namely a radiating fin, a radiating tube and a radiating fan, wherein the radiating fin is also called a fin, the radiating fin is generally arranged on the surface of the radiating tube and used for improving the radiating efficiency of the radiating tube, the existing fin is generally in a strip plate shape, a plurality of through holes connected with the radiating tube are generally formed in the fin, and the radiating fin is generally made of a thin metal plate.

The utility model of China patent publication No. CN218656301U discloses a stamping forming device of a fin forming machine, wherein a positioning unit is used as a part for limiting a clamping block in a mounting seat, and each positioning unit synchronously moves through a sliding plate, so that a clamping plate can be quickly disassembled/assembled, and meanwhile, the sliding plate can be used as an aid through an extrusion unit when the positioning unit is driven to exit from a positioning node, and the clamping plate can be more conveniently and rapidly mounted.

In the punching process, the aluminum plate is extruded by the die, so that tiny displacement is often generated, the fins cannot be tightly matched with the radiating pipes after the punching is finished, troubles are brought to subsequent assembly, and meanwhile, when fins with different sizes are processed, the dies cannot be quickly replaced due to the limitation of the punching machine, so that the production efficiency is low.

Disclosure of Invention

Aiming at the technical problems, the utility model provides the following technical scheme:

the utility model provides a radiator fin stamping forming machine, includes base, aluminum plate, finished product board, fixed mounting has the middle sill post on the base, fixed mounting has the support frame on the middle sill post, the one end that the base was kept away from to the support frame rotates and installs the mould axle, go up the epaxial fixed mounting of mould and have the intermediate post, fixed mounting has a plurality of fixed posts on the intermediate post, evenly distributed on the intermediate post of fixed post, the one end fixed mounting that the intermediate post was kept away from to the fixed post has the fixed plate, slidable mounting has the mould to link the board on the fixed plate, fixed mounting has a plurality of stamping springs on the mould to link the board, the other end fixed mounting that stamping spring was kept away from to the mould links the board is provided with the mould, be provided with a plurality of cam grooves on the mould even board, fixed screw thread passes through the screw thread and is connected with the mould, the both sides slidable mounting of last mould axle has the mould, rotatable mounting has the switch handle on the mould, the worm wheel motor sliding connection with the one end of worm wheel, the side of being connected with the fixed mounting of worm wheel motor, the side is kept away from the fixed mounting of the fixed shaft on the mould, the side is kept away from the fixed mounting by the fixed shaft of the fixed shaft.

Further, the one end rotation of going up the mould axle is kept away from to the support frame is installed the lower mould axle, fixed mounting has a plurality of lower support columns on the lower mould axle, fixed mounting has a plurality of lower mould frames on the lower support column, evenly distributed on the lower support column is put up to the lower mould, be provided with the bed die on the lower mould frame, every bed die all has an upper mould that corresponds with it to make up and uses, be provided with the hourglass silo between the lower support column, the one end of lower mould axle still is provided with the mould belt, the other end setting of mould belt is on last mould axle.

Further, the main motor is fixedly installed on the middle bottom post, the first belt is further arranged on the output shaft of the main motor, the cam support is fixedly installed on the middle bottom post, the gearbox is fixedly installed on the cam support, the second belt is arranged on the input shaft of the gearbox, the other end of the second belt is arranged on the output shaft of the main motor, the first gear is fixedly installed on the output shaft of the gearbox, and the first gear is rotationally connected with the cam support.

Further, the left cam is fixedly installed on the first gear and can be matched with a cam groove on the upper die, the second gear is installed on the first gear in a meshed mode, the second gear is rotationally connected with the cam support, the third gear is installed on the second gear in a meshed mode, the third gear is rotationally connected with the cam support, the right cam is fixedly installed on the third gear, and the right cam can be matched with another cam groove on the upper die.

Further, a front support is fixedly installed on the base, a lower rolling plate is fixedly installed at one end, far away from the base, of the front support, a plurality of main rolling wheel frames are fixedly installed on the front support, the main rolling wheel frames are arranged on two sides of the front support, lower rolling wheels are rotatably installed on the main rolling wheel frames, auxiliary rolling wheel frames are further slidably installed on the main rolling wheel frames, rolling wheel springs are fixedly installed on the auxiliary rolling wheel frames, the other ends of the rolling wheel springs are fixedly installed on the main rolling wheel frames, an upper pressing plate is fixedly installed on the auxiliary rolling wheel frames, and upper rolling wheels are rotatably installed on the auxiliary rolling wheel frames.

Further, a plurality of detection rods are further slidably mounted on the main roller frame, a measurement rack is arranged on the detection rods, the driven gear is meshed with the measurement rack on the detection rods, an arc plate is arranged at one end of each detection rod and is in contact with the aluminum plate, a detection spring is fixedly mounted on the arc plate, the other end of the detection spring is fixedly mounted on the main roller frame, and a main roller is further rotatably mounted on the main roller frame.

Further, the detection rod is fixedly provided with a sliding frame, the sliding frame is in sliding connection with the middle bottom column, the sliding frame is fixedly provided with a middle sliding rod, the middle sliding rod is provided with an auxiliary block in a sliding manner, the auxiliary block is fixedly provided with a pressing spring, the other end of the pressing spring is fixedly provided with a middle sliding rod, the middle sliding rod is fixedly provided with an auxiliary plate, the auxiliary plate is rotatably provided with a rotating ring, the rotating ring is in sliding connection with the main roller, and the rotating ring is in contact with the aluminum plate.

Further, a receiving box is fixedly arranged on the base and used for storing the finished product plates, a plurality of lifting plates are slidably arranged on the receiving box and fixedly connected with the sliding frame, and the lifting plates can be in contact with the aluminum plates.

Compared with the prior art, the utility model has the beneficial effects that: (1) In the process that the aluminum plate is stamped by the upper die, the auxiliary block is arranged for auxiliary positioning, so that the aluminum plate is prevented from displacement in the stamping process, and the reject ratio of the finished product plate is reduced; (2) The device can automatically adjust the rotating ring, the auxiliary block and the lifting plate by arranging the detecting rod to detect the width of the aluminum plate, and simultaneously can produce different finished plates along with the width change of the aluminum plate by arranging a plurality of upper dies and lower dies so as to achieve the rapid production process of a plurality of special-shaped fin groups; (3) The device can replace different upper dies and lower dies through synchronous rotation of the upper die shaft and the lower die shaft without stopping operation, so that small batch production efficiency is improved, and meanwhile, the waste materials punched down can be collected through the middle material leakage groove of the lower support column, so that the recycling effect is achieved.

Drawings

Fig. 1 is a schematic diagram of the whole structure of the device.

Fig. 2 is a schematic diagram of the structure of the device after the material receiving box, the upper rolling wheel, the upper pressing plate, the lower rolling wheel and the lower rolling plate are cut.

Fig. 3 is a partial enlarged view of fig. 2 at a.

Fig. 4 is a schematic view of the structure of the lower support column of the device.

Fig. 5 is a schematic diagram of the structure of the upper die of the device.

Fig. 6 is a schematic view of the switching handle structure of the device.

Fig. 7 is a schematic diagram of the structure of the detecting rod of the device.

Fig. 8 is a schematic view of the right cam structure of the device.

Reference numerals: 100-front pillars; 101-a base; 102-a rear pillar; 103-a coil motor; 104-a coil bar; 105-aluminum plate; 106, material receiving box; 108-a finished board; 201-upper die; 202-connecting a die with a plate; 203-fixing threads; 204-a fixed plate; 205-punching a spring; 206-fixing the column; 207-middle column; 208-upper die shaft; 209-supporting frame; 210-a mold belt; 301-lower die shaft; 302-lower support columns; 303-lower mold frame; 304-a lower die; 401-middle bottom pillar; 402-a main motor; 403-main roller; 404-a first belt; 405-main roller frame; 406-a secondary roller frame; 407-upper rolling wheel; 408-upper platen; 409-a second belt; 410-a gearbox; 411-first gear; 412-a second gear; 413-a third gear; 414-cam bracket; 415-left cam; 416-roller spring; 417-lower rolling wheel; 418-lower rolling the plate; 419-right cam; 501-a detection rod; 502-detecting a spring; 503-sliding shelves; 504-middle slide bar; 505-pressing a spring; 506-an auxiliary block; 507-lifting plate; 508-an auxiliary plate; 509-a rotating ring; 510-a driven gear; 511-adjusting the shaft; 512-switching the motor; 513-a mold worm gear; 514-switch handle; 515-mold worm; 516-side brackets.

Detailed Description

As shown in fig. 1 to 3, 7 and 8, the radiator fin press forming machine comprises a base 101, an aluminum plate 105 and a finished plate 108, wherein a front pillar 100 is fixedly installed on the base 101, a lower rolling plate 418 is fixedly installed at one end of the front pillar 100 far away from the base 101, a plurality of main rolling frames 405 are fixedly installed on the front pillar 100, the main rolling frames 405 are arranged at two sides of the front pillar 100, a lower rolling wheel 417 is rotatably installed on the main rolling frames 405, a secondary rolling frame 406 is also slidably installed on the main rolling frames 405, a rolling wheel spring 416 is fixedly installed on the secondary rolling frames 406, the other end of the rolling wheel spring 416 is fixedly installed on the main rolling frames 405, an upper pressing plate 408 is fixedly installed on the secondary rolling frames 406, an upper rolling wheel 407 is rotatably installed on the secondary rolling frames 406, the upper rolling wheels 407 and the upper pressing plate 408 form a clamping movable device, the main roller frame 405, the lower roller 417 and the lower roller 418 form a clamping and fixing device, the aluminum plate 105 passes through the clamping and fixing device, the upper pressing plate 408 and the lower roller 418 prevent sundries on the aluminum plate 105, the upper roller 407 and the lower roller 417 drive the aluminum plate 105 to move, the upper roller 407, the upper pressing plate 408, the lower roller 417 and the lower roller 418 are all in contact with the aluminum plate 105, the base 101 is fixedly provided with the rear support post 102, the rear support post 102 is fixedly provided with the coil motor 103, the output shaft of the coil motor 103 is fixedly provided with the coil rod 104, the coil rod 104 is provided with a clamping device capable of fixing the aluminum plate 105, when the device is in operation, the coil motor 103 is started to enable the coil rod 104 to rotate, the coil rod 104 winds the aluminum plate 105 for collecting the waste after punching on the aluminum plate 105.

As shown in fig. 1 and fig. 6 to fig. 8, the main roller frame 405 is further slidably provided with a plurality of detection rods 501, the detection rods 501 are provided with measurement racks, one ends of the detection rods 501 are provided with arc plates to be in contact with the aluminum plate 105, the arc plates are fixedly provided with detection springs 502, the other ends of the detection springs 502 are fixedly provided with the main roller frame 405, the main roller frame 405 is further rotatably provided with main rollers 403, the detection rods 501 are fixedly provided with sliding frames 503, the sliding frames 503 are slidably provided with middle bottom columns 401, the middle bottom columns 401 are fixedly connected with the base 101, the middle bottom columns 401 are fixedly connected with the main roller frame 405, the sliding frames 503 are fixedly provided with middle sliding rods 504, the middle sliding rods 504 are slidably provided with auxiliary blocks 506, the auxiliary blocks 506 are fixedly provided with pressing springs 505, the other ends of the pressing springs 505 are fixedly provided with middle sliding rods 504, the auxiliary plates 508 are fixedly provided with auxiliary plates 508, the rotating rings 509 are rotatably provided with the main rollers 403, the rotating rings 509 are slidably connected with the main rollers 403, and the rotating rings 509 are in contact with the aluminum plate 105.

As shown in fig. 2 and 7, the base 101 is fixedly provided with a receiving box 106, the receiving box 106 is used for storing the product boards 108, the receiving box 106 is provided with a plurality of lifting boards 507 in a sliding manner, the lifting boards 507 are fixedly connected with the sliding frame 503, the lifting boards 507 can be in contact with the aluminum plate 105, the lifting boards 507 are devices for placing the product boards 108 into the receiving box 106, and when the width of the two lifting boards 507 is larger than that of the product boards 108, the product boards 108 can enter the receiving box 106.

As shown in fig. 1, fig. 2 and fig. 4 to fig. 6, a supporting frame 209 is fixedly installed on the middle bottom post 401, one end, far away from the base 101, of the supporting frame 209 is rotatably installed with an upper die shaft 208, a middle post 207 is fixedly installed on the upper die shaft 208, a plurality of fixing posts 206 are fixedly installed on the middle post 207, the fixing posts 206 are uniformly distributed on the middle post 207, one end, far away from the middle post 207, of the fixing posts 206 is fixedly installed with a fixing plate 204, a die connecting plate 202 is slidably installed on the fixing plate 204, a plurality of stamping springs 205 are fixedly installed on the die connecting plate 202, the other end of the stamping springs 205 is fixedly installed on the fixing plate 204, one end, far away from the fixing plate 204, of the die connecting plate 202 is provided with an upper die 201, a plurality of cam grooves are formed in the upper die 201, fixing threads 203 are further formed in the die connecting plate 202, and the fixing threads 203 are connected with the upper die 201 through threads.

As shown in fig. 5 and 6, the two sides of the upper mold shaft 208 are slidably provided with a mold worm wheel 513, the mold worm wheel 513 is rotatably provided with a switching handle 514, the switching handle 514 is slidably connected with the supporting frame 209, the middle bottom post 401 is fixedly provided with a side bracket 516, the side bracket 516 is fixedly provided with a switching motor 512, an output shaft of the switching motor 512 is fixedly connected with the upper mold shaft 208, the mold worm wheel 513 is engaged and provided with a mold worm 515, the mold worm 515 is fixedly provided with an adjusting shaft 511, the adjusting shaft 511 is rotatably connected with a side bracket 516, one end of the adjusting shaft 511, which is far away from the switching handle 514, is fixedly provided with a driven gear 510, the driven gear 510 is meshed with a measuring rack on the detecting rod 501, after the detecting rod 501 moves, the detecting rod 501 drives the mold 513 to rotate through the measuring rack with the driven gear 510, the rotation of the mold 513 can enable the upper mold shaft 208 to rotate, thereby replacing the upper mold 201, simultaneously, the mode of the upper mold 201 can be canceled, the mode of manually driving the mold handle 514 can be adapted, the manual driving of the worm wheel 514 can be enabled to move the worm wheel 514, the direction of the lower mold 207 can be separated from the upper mold 201, and the mode of being changed by the mode of being switched by the upper mold 201, and the mode of being changed, and the mode of being meshed with the mode of the lower mold 201 can be changed by the mode of being changed.

As shown in fig. 2 and 4, one end of the supporting frame 209 away from the upper mold shaft 208 is rotatably provided with a lower mold shaft 301, a plurality of lower support columns 302 are fixedly mounted on the lower mold shaft 301, a plurality of lower mold frames 303 are fixedly mounted on the lower support columns 302, the lower mold frames 303 are uniformly distributed on the lower support columns 302, lower molds 304 are arranged on the lower mold frames 303, each lower mold 304 is provided with an upper mold 201 corresponding to the lower mold frames, a leakage groove is arranged between the lower support columns 302, punched waste materials are collected from the leakage groove, one end of the lower mold shaft 301 is also provided with a mold belt 210, and the other end of the mold belt 210 is arranged on the upper mold shaft 208, so that the rotation of the upper mold shaft 208 and the lower mold shaft 301 is synchronized through the mold belt 210.

As shown in fig. 2 and fig. 6 to 8, the middle bottom post 401 is fixedly provided with a main motor 402, an output shaft of the main motor 402 is fixedly connected with a main roller 403, the output shaft of the main motor 402 is also provided with a first belt 404, the other end of the first belt 404 is arranged on a lower roller 417, the middle bottom post 401 is also fixedly provided with a cam bracket 414, the cam bracket 414 is fixedly provided with a gearbox 410, an input shaft of the gearbox 410 is provided with a second belt 409, the other end of the second belt 409 is arranged on the output shaft of the main motor 402, the output shaft of the gearbox 410 is fixedly provided with a first gear 411, the first gear 411 is rotationally connected with the cam bracket 414, the first gear 411 is also fixedly provided with a left cam 415, the left cam 415 can be matched with a cam groove on the upper die 201, the first gear 411 is further provided with a second gear 412 in a meshed mode, the second gear 412 is rotatably connected with the cam support 414, the second gear 412 is provided with a third gear 413 in a meshed mode, the third gear 413 is rotatably connected with the cam support 414, the third gear 413 is fixedly provided with a right cam 419, the right cam 419 can be matched with another cam groove on the upper die 201, after the main motor 402 is started, power is input into the gearbox 410 through the second belt 409, the gearbox 410 outputs power to the first gear 411 after the rotating speed of the gearbox is changed, and the left cam 415 and the right cam 419 synchronously rotate to drive the upper die 201 to perform stamping operation.

Working principle: when the device is used, the aluminum plate 105 needs to pass through the space between the lower rolling wheel 417 and the upper rolling wheel 407, the upper pressing plate 408 and the lower rolling plate 418, and meanwhile, the aluminum plate 105 passes through the upper die 201 and the lower die 304, if the plasticity of the aluminum plate 105 is large, the aluminum plate 105 can be adhered to the coil rod 104 for conveniently collecting waste materials, meanwhile, the device also needs to install the upper die 201 on a plurality of die connecting plates 202 according to the die size sequence or the assembly sequence, the upper die 201 is fixed on the die connecting plates 202 through the fixed threads 203, and meanwhile, the lower die 304 is also installed in sequence according to the upper die 201.

The device can then perform stamping operation by starting the main motor 402, the main motor 402 rotates with the lower roller 417 via the first belt 404, so that the lower roller 417 drives the aluminum plate 105 to move, the main motor 402 inputs power into the gearbox 410 via the second belt 409, the gearbox 410 changes the rotation speed and outputs the power to the first gear 411, the left cam 415 and the right cam 419 synchronously rotate to drive the upper die 201 to move up and down in fig. 2, the upper die 201 cooperates with the lower die 304 to stamp out the required fins on the aluminum plate 105, and the waste material passes through the material leakage groove, so that the finished product plate 108 blanked from the aluminum plate 105 moves together with the aluminum plate 105 until falling into the material receiving groove 106.

When the device is used for manufacturing fins with different widths, only the aluminum plate 105 with the adaptive width needs to be replaced, the production can be continued without synchronously replacing the dies, the working mode is that the detection rod 501 is driven to move by the detection spring 502 when the width of the aluminum plate 105 is lengthened or reduced, the detection rod 501 is enabled to be in continuous contact with the aluminum plate 105, the driven gear 510 can be driven to rotate when the detection rod 501 moves, the driven gear 510 drives the upper die shaft 208 to rotate through the adjusting shaft 511, the die worm 515 and the die worm wheel 513, and the upper die shaft 208 rotates and then the lower die shaft 301 rotates together through the die belt 210, so that different lower dies 304 and the upper die 201 are synchronously changed to perform subsequent punching.

When the fin group of some special-shaped pieces is to be punched, the main purpose of the device is to drive the upper die shaft 208 and the lower die shaft 301 on the same aluminum plate 105 by using the switching motor 512 so as to switch different dies for punching, and before the function of the device is started, the switching handle 514 needs to be manually driven to bring the die worm wheel 513 away from the engagement of the die worm 515, so that the upper die shaft 208 is separated from the self-locking state, and the switching motor 512 can drive the upper die shaft 208 to rotate.

Claims (2)

1. The utility model provides a radiator fin stamping forming machine, includes base (101), aluminum plate (105), finished product board (108), its characterized in that: the utility model discloses a worm wheel, including base (101) and handle (513), fixed mounting has middle sill (401) on base (101), fixed mounting has support frame (209) on middle sill (401), one end that base (101) was kept away from to support frame (209) rotates and installs upper die axle (208), fixed mounting has middle post (207) on upper die axle (208), fixed mounting has a plurality of fixed posts (206) on middle post (207), fixed post (206) evenly distributed on middle post (207), one end that middle post (207) was kept away from to fixed post (206) is fixed mounting has fixed plate (204), slidable mounting has mould link plate (202) on fixed plate (204), fixed mounting has a plurality of stamping springs (205) on mould link plate (202), the other fixed mounting of stamping springs (205) is on fixed plate (204), one end that fixed plate (204) was kept away from to mould link plate (202) is provided with upper die (201), be provided with a plurality of cam grooves on upper die (201), worm wheel link plate (202) is provided with fixed mounting (203) on worm wheel (203), threaded connection is equipped with screw thread (513) on both sides of mould (203) through switching screw thread (514), the switching handle (514) is in sliding connection with the supporting frame (209), a side bracket (516) is fixedly arranged on the middle bottom post (401), a switching motor (512) is fixedly arranged on the side bracket (516), an output shaft of the switching motor (512) is fixedly connected with the upper die shaft (208), a die worm (515) is meshed and arranged on the die worm (513), an adjusting shaft (511) is fixedly arranged on the die worm (515), the adjusting shaft (511) is rotationally connected with the side bracket (516), and a driven gear (510) is fixedly arranged at one end, far away from the switching handle (514), of the adjusting shaft (511);

one end of the supporting frame (209) far away from the upper die shaft (208) is rotatably provided with a lower die shaft (301), a plurality of lower supporting columns (302) are fixedly arranged on the lower die shaft (301), a plurality of lower die frames (303) are fixedly arranged on the lower supporting columns (302), the lower die frames (303) are uniformly distributed on the lower supporting columns (302), a lower die (304) is arranged on the lower die frames (303), each lower die (304) is provided with an upper die (201) corresponding to the lower die frames for combined use, a leakage groove is arranged between the lower supporting columns (302), one end of each lower die shaft (301) is also provided with a die belt (210), and the other end of each die belt (210) is arranged on the upper die shaft (208);

the middle bottom post (401) is fixedly provided with a main motor (402), the output shaft of the main motor (402) is also provided with a first belt (404), the middle bottom post (401) is also fixedly provided with a cam support (414), the cam support (414) is fixedly provided with a gearbox (410), the input shaft of the gearbox (410) is provided with a second belt (409), the other end of the second belt (409) is arranged on the output shaft of the main motor (402), the output shaft of the gearbox (410) is fixedly provided with a first gear (411), and the first gear (411) is rotationally connected with the cam support (414);

the first gear (411) is fixedly provided with a left cam (415), the left cam (415) can be matched with a cam groove on the upper die (201), the first gear (411) is further provided with a second gear (412) in a meshed mode, the second gear (412) is rotationally connected with a cam support (414), the second gear (412) is provided with a third gear (413) in a meshed mode, the third gear (413) is rotationally connected with the cam support (414), the third gear (413) is fixedly provided with a right cam (419), and the right cam (419) can be matched with another cam groove on the upper die (201);

front support columns (100) are fixedly arranged on the base (101), lower rolling plates (418) are fixedly arranged at one ends, far away from the base (101), of the front support columns (100), a plurality of main rolling frames (405) are fixedly arranged on the front support columns (100), the main rolling frames (405) are arranged on two sides of the front support columns (100), lower rolling wheels (417) are rotatably arranged on the main rolling frames (405), auxiliary rolling frames (406) are also slidably arranged on the main rolling frames (405), rolling wheel springs (416) are fixedly arranged on the auxiliary rolling frames (406), upper pressing plates (408) are fixedly arranged on the auxiliary rolling frames (406), and upper rolling wheels (407) are rotatably arranged on the auxiliary rolling frames (406).

A plurality of detection rods (501) are further slidably mounted on the main roller frame (405), a measurement rack is arranged on the detection rods (501), the driven gear (510) is meshed with the measurement rack on the detection rods (501), one end of each detection rod (501) is provided with an arc-shaped plate which is in contact with the aluminum plate (105), a detection spring (502) is fixedly mounted on each arc-shaped plate, the other end of each detection spring (502) is fixedly mounted on the main roller frame (405), and a main roller (403) is further rotatably mounted on the main roller frame (405);

the detection device is characterized in that a sliding frame (503) is fixedly arranged on the detection rod (501), the sliding frame (503) is in sliding connection with the middle bottom post (401), a middle sliding rod (504) is fixedly arranged on the sliding frame (503), an auxiliary block (506) is arranged on the middle sliding rod (504) in a sliding mode, a pressing spring (505) is fixedly arranged on the auxiliary block (506), an auxiliary plate (508) is fixedly arranged on the other end of the pressing spring (505), a rotating ring (509) is rotatably arranged on the auxiliary plate (508), and the rotating ring (509) is in sliding connection with the main roller (403) and is in contact with the aluminum plate (105).

2. A radiator fin press molding machine as defined in claim 1, wherein: the base (101) is fixedly provided with a receiving box (106), the receiving box (106) is used for storing a finished product plate (108), the receiving box (106) is provided with a plurality of lifting plates (507) in a sliding mode, the lifting plates (507) are fixedly connected with the sliding frame (503), and the lifting plates (507) can be in contact with the aluminum plate (105).