CN104607561A

CN104607561A - Automatic expanding feeder for radiating tube

Info

Publication number: CN104607561A
Application number: CN201510047778.2A
Authority: CN
Inventors: 王荣; 董明智; 倪泉斌; 毛国平
Original assignee: NINGBO RONGZHI AUTOMATION TECHNOLOGY CO LTD
Current assignee: NINGBO RONGZHI AUTOMATION TECHNOLOGY CO LTD
Priority date: 2015-01-30
Filing date: 2015-01-30
Publication date: 2015-05-13
Anticipated expiration: 2035-01-30
Also published as: CN104607561B

Abstract

The invention relates to an automatic expanding feeder for a radiating tube. The automatic expanding feeder is characterized by comprising a rack, a stacking part, a feeding part and an expanding part, wherein the stacking part comprises a stacking frame, the stacking frame is provided with an upper stacking groove and a lower stacking groove, a feeding port is arranged at the lowest end of the front of the upper stacking groove, and a discharging port is arranged at the lowest end of the front of the lower stacking groove; the feeding part comprises a feeding push plate driven by a feeding air cylinder and a discharging push plate driven by a discharging air cylinder; the expanding part comprises a left expanding air cylinder and a right expanding air cylinder, the left expanding air cylinder and the right expanding air cylinder are arranged on the left and the right of the stacking frame respectively, an air cylinder rod of the left expanding air cylinder and an air cylinder rod of the right expanding air cylinder are each fixedly provided with an expanding punch, and the expanding punches penetrate through the left sidewall and the right sidewall of the stacking frame respectively and correspond to openings in the two ends of the radiating tube located at the lowest end of the upper stacking groove. The feeder can automatically complete the expanding process for the radiating tube and convey the radiating tube to the next station after the radiating tube is expanded.

Description

The automatic enlarging feeder of a kind of radiating tube

Technical field

The present invention relates to a kind of process equipment of radiating tube of plate-fin, particularly relate to a kind of automatic enlarging feeder of radiating tube realizing the enlarging of automatic heat radiation pipe.

Background technology

Plate-fin heat exchanger is the heat exchanger of all kinds of gas separation equipment, be widely used in the fields such as automobile, petrochemical industry and Aero-Space, plate-fin heat exchanger has compact conformation, lightweight, the advantage of heat exchange efficiency, especially heat exchange efficiency is higher than other heat exchangers by 30%, and radiating tube is the important spare part of radiator.

In production technology in the production technology of automotive heat exchanger, a technique is had to be penetrate in radiating tube by fin, in order to make fin can penetrate radiating tube swimmingly, need to carry out enlarging to thermovent, existing flaring is the artificial enlarging drift that adopts and carries out enlarging to radiating tube.As the patent No. Chinese utility model patent " radiating tube is swollen mouth frock " that is ZL201420371804.8 (notification number is CN204018566U) discloses a kind of enlarging drift of radiating tube.

Because the multinomial fin of our company is shaping and automatic severing patented technology makes fin speed of production greatly improve, the speed in the past adopting manual type to carry out radiating tube enlarging technique has not caught up with fin speed of production, and cost is high.Therefore it is faster to be badly in need of a kind of speed of exploitation, the radiating tube that efficiency is higher automatic enlarging feeder equipment carrys out supporting whole production line.

Summary of the invention

Technical problem to be solved by this invention provides one automatically can complete radiating tube enlarging technique for above-mentioned prior art present situation, and after enlarging, radiating tube can be transported to the automatic enlarging feeder of radiating tube of next station.

The present invention solves the problems of the technologies described above adopted technical scheme: the automatic enlarging feeder of a kind of radiating tube, is characterized in that: comprise frame, and is located at windrow part, feed section and the flared part on the mounting platform of frame; Windrow part comprises rickstand, rickstand has vertical setting in order to stack the upper heap hopper treating the radiating tube of enlarging, and the lower heap hopper vertically arranged in order to stack the radiating tube after enlarging, described lower windrow slot is in the front lower place of upper heap hopper, the front portion of upper heap hopper has the feeding port passing heap hopper for radiating tube bottom, and the front portion of lower heap hopper has the blanking port passing lower heap hopper for radiating tube bottom; Described feed section comprises the feeding push pedal driven by feeding cylinder, and by the blanking push pedal of blanking air cylinder driven, feeding push pedal is in order to release feeding port by being positioned at upper heap hopper radiating tube bottom and pushing lower heap hopper, and blanking push pedal is in order to release blanking port by being positioned at lower heap hopper radiating tube bottom; Described flared part comprises left enlarging cylinder and right enlarging cylinder, they are separately positioned on the left and right sides of rickstand, the cylinder rod of left enlarging cylinder and right enlarging cylinder is all fixed with enlarging drift, and enlarging drift is each passed through the left and right sidewall of rickstand to carry out enlarging to being positioned at upper heap hopper radiating tube both ends open bottom.

Because the kind of radiating tube is more, variable lengths, the radiating tube placing different length can be adapted to for making upper and lower heap hopper, above-mentioned rickstand comprises left supported plate, right supported plate, wherein, described right supported plate is fixedly mounted on the mounting platform of frame by screw, and left supported plate is arranged in the T-slot of mounting platform by screw and T-shaped key, and described left supported plate and right supported plate form the left and right sidewall of heap hopper and lower heap hopper.By regulating the right position of right supported plate, realize the adjustment to upper and lower windrow slot length, with the radiating tube of applicable different length.

Because the kind of radiating tube is more, width is different, the radiating tube placing different in width can be adapted to for making upper and lower heap hopper, the inside back of above-mentioned left supported plate and right supported plate is all fixed with the vertical back seat plate arranged, the interior front of left supported plate and right supported plate is equipped with the vertical fore beam arranged, slippage before and after the relative back seat plate of fore beam energy, and between back seat plate and fore beam by adjustment structure be connected so that slippage before and after fore beam can be driven, described fore beam and between left supported plate and the antetheca of right supported plate time interval arrange and form described lower heap hopper; The top of the back seat plate and fore beam that are positioned at homonymy is shelved with upper base plate, upper base plate can with slippage before and after fore beam, described upper base plate has the upper upright wall upwards extended, the inside upper part of described left supported plate and right supported plate is fixed with baffle plate, and baffle plate and upper upright wall time interval arrange and form described upper heap hopper.Because fore beam can move forward and backward, fore beam also can drive upper base plate to move forward and backward, and realizes the adjustment to upper and lower windrow well width, with the radiating tube of applicable different in width.

Above-mentioned adjustment structure comprises guide post and adjusting screw(rod), and guide post one is fixed on fore beam, and one penetrates in the hole of back seat plate; One of adjusting screw(rod) is assemblied on fore beam by ball bearing and back-up ring, and other end is threaded with back seat plate, and the outer end of adjusting screw(rod) has also been threaded locking nut.During adjustment, rotate adjusting screw(rod), according to screw-driven principle, fore beam can move forward and backward by back seat plate relatively, and guide post then plays guide effect to the movable of fore beam, guarantees the stationarity of fore beam movement, after adjustment completes, use locking nut locking adjusting screw(rod).Aforementioned adjustment structure has simple and reasonable, regulates stable advantage.

One of above-mentioned guide post is threaded with fore beam, be threaded and conveniently guide post and fore beam fixed, the other end of guide post is by sleeve supporting in the hole of back seat plate, and the setting of axle sleeve also ensures the relative back seat plate smooth slippage of guide post, and it is more accurate that guide post is led.

Be provided with two described guide posts and a described adjusting screw(rod) between the fore beam of every side and back seat plate, and adjusting screw(rod) is between upper and lower two guide posts.

Above-mentioned left supported plate is provided with left shroud, right supported plate is provided with right shroud, the installation portion of left shroud and right shroud all has long gain, after having screw to pass long gain, left shroud and right shroud are separately fixed on left supported plate and right supported plate, are formed between left shroud and right shroud and will treat that the radiating tube of enlarging imports the importing slideway in upper heap hopper.Effect radiating tube steadily being imported upper heap hopper is played in the setting of left and right shroud, and the front and back position of left and right shroud also can regulate, to use the width adjusting of upper heap hopper.

Derive for convenience of by the radiating tube after process, the correspondence blanking port position, front side of above-mentioned frame is provided with the derivation slideway in order to be derived by radiating tube.

Above-mentioned feeding cylinder and blanking cylinder are arranged on air cylinder support, air cylinder support is then arranged on the mounting platform of frame, air cylinder support comprises upper and lower spaced feeding cylinder installing plate and blanking cylinder mounting plate, strut support is passed through between feeding cylinder installing plate and blanking cylinder mounting plate, described feeding cylinder is fixed on feeding cylinder installing plate, and blanking cylinder is fixed on blanking cylinder mounting plate.

Above-mentioned mounting platform is fixed with the L-type guide groove that two time intervals are arranged, described blanking cylinder mounting plate to insert in draw-in groove that two inverted L shape guide grooves are formed and can move left and right along draw-in groove, and blanking cylinder mounting plate is fixed on mounting platform by four tightening screw of handle.Blanking cylinder mounting plate inserts in the draw-in groove of two inverted L shape guide grooves formation, can move left and right along draw-in groove, makes it to be suitable for the radiating tube with different length, by four tightening screw of handle fixed positions after putting in place.

Compared with prior art, the invention has the advantages that: this feeder arranges two heap hoppers, radiating tube is divided into upper and lower two heap formation two stations, when radiating tube is positioned at upper heap hopper, drive the action of enlarging drift to complete enlarging technique by enlarging cylinder, by feeding cylinder and feeding push pedal action after enlarging technique completes, radiating tube after enlarging is pushed in lower heap hopper, this feeder can be put in lower windrow slot and set up fin tube body, promotion again via blanking cylinder and blanking push pedal after this position completes fin poling technique, radiating tube is released, if do not add poling technique, can direct action be released by radiating tube.This feeder layout designs is reasonable, automatically can complete enlarging, and the radiating tube after enlarging is sent automatically, realize automatically completing of radiating tube enlarging, and convenient with fin tube body with the use of, for the automation process realizing radiating tube enlarging technique and wear fin technique provides possibility.

Accompanying drawing explanation

Fig. 1 is the perspective view of the embodiment of the present invention;

Fig. 2 is the perspective view of windrow and flared part in the embodiment of the present invention;

Fig. 3 is the sectional view of windrow part in the embodiment of the present invention;

Fig. 4 is the perspective view of feed section in the embodiment of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the present invention is described in further detail.

As shown in figures 1-4, be a preferred embodiment of the present invention.

The automatic enlarging feeder of a kind of radiating tube, comprise frame 1, the top of frame 1 has mounting platform 11, and the bottom of frame is provided with roller, and the mounting platform 11 of frame 1 is provided with windrow part, feed section and flared part.

As shown in Figure 2,3, windrow part comprises rickstand 3, rickstand 3 has vertical setting in order to stack the upper heap hopper 2a treating the radiating tube 4 of enlarging, and the lower heap hopper 2b vertically arranged in order to stack the radiating tube after enlarging 4, lower heap hopper 2b is positioned at the front lower place of heap hopper 2a, the top of lower heap hopper 2b is provided with position sensor, the front portion of upper heap hopper 2a has the feeding port 21 passing heap hopper 2a for radiating tube 4 bottom, and the front portion of lower heap hopper 2b has the blanking port 22 that radiating tube 4 passes lower heap hopper 2b bottom.

Rickstand 3 comprises left supported plate 31, right supported plate 32, wherein, right supported plate 32 is fixedly mounted on the mounting platform 11 of frame by screw 33, left supported plate 31 is arranged in the T-slot 12 of mounting platform 11 by screw 33 and T-shaped key 34, left supported plate 31 and right supported plate 32 form the left and right sidewall of upper heap hopper 2a and lower heap hopper 2b, can adjust flexibly according to the radiating tube of different length.

The inside back of left supported plate 31 and right supported plate 32 is all fixed with the vertical back seat plate 35 arranged, back seat plate 35 and corresponding support plate are integrated part, the interior front of left supported plate 31 and right supported plate 32 is equipped with the vertical fore beam 36 arranged, slippage before and after the relative back seat plate 35 of fore beam 36 energy, and be connected by adjustment structure so that slippage before and after fore beam 36 can be driven between back seat plate 35 and fore beam 36, can adjust according to the radiating tube of different in width, between the antetheca of fore beam 36 and left supported plate 31 and right supported plate 32, time interval arranges and is formed to descend to pile hopper 2b.

The top of the back seat plate 35 and fore beam 36 that are positioned at homonymy is shelved with upper base plate 37, upper base plate 37 can with slippage before and after fore beam 36, described upper base plate 37 has the upper upright wall 371 upwards extended, the inside upper part of left supported plate 31 and right supported plate 32 is fixed with baffle plate 38, and baffle plate 38 and upper upright wall 371 time interval arrange and form described upper heap hopper 2a.

Adjustment structure comprises guide post 39 and adjusting screw(rod) 310, be provided with two described guide posts 39 and a described adjusting screw(rod) 310, and adjusting screw(rod) 310 is between upper and lower two guide posts 39 between the fore beam 36 of homonymy and back seat plate 35.One head thread of guide post 39 is connected on fore beam 36, and one penetrates in the hole of back seat plate 35, is provided with axle sleeve 314 between the hole of guide post 39 and back seat plate 35; One of adjusting screw(rod) 310 is assemblied on fore beam 36 by ball bearing 311 and back-up ring 312, and other end is threaded with back seat plate 35, and the outer end of adjusting screw(rod) 310 has also been threaded locking nut 313.

Left supported plate 31 is provided with left shroud 315, right supported plate 32 is provided with right shroud 316, the installation portion of left shroud 315 and right shroud 316 all has long gain 317, there is screw 33 to be separately fixed on left supported plate 31 and right supported plate 32 through after long gain 317 by left shroud 315 and right shroud 316, formed between left shroud 315 and right shroud 316 and will treat that the radiating tube 4 of enlarging imports the importing slideway 318 in upper heap hopper 3a.

As shown in Figure 4, feed section comprises the feeding push pedal 51 driven by feeding cylinder 5, and the blanking push pedal 61 to be driven by blanking cylinder 6, feeding push pedal 61 is in order to release feeding port 21 by being positioned at upper heap hopper 2a radiating tube 4 bottom and radiating tube 4 being pushed lower heap hopper 2b, and blanking push pedal 61 is in order to release blanking port 22 by being positioned at lower heap hopper 2b radiating tube 4 bottom; Corresponding blanking port 22 position, front side of frame 1 is provided with the derivation slideway 13 in order to be derived by the radiating tube 4 after enlarging.

Feeding cylinder 5 and blanking cylinder 6 are arranged on air cylinder support 8, air cylinder support 8 is then arranged on the mounting platform 11 of frame, air cylinder support 8 comprises upper and lower spaced feeding cylinder installing plate 81 and blanking cylinder mounting plate 82, supported by pole 83 between feeding cylinder installing plate 81 and blanking cylinder mounting plate 82, feeding cylinder 5 is fixed on feeding cylinder installing plate 81, and blanking cylinder 6 is fixed on blanking cylinder mounting plate 82.

Mounting platform 11 is fixed with the L-type guide groove 9 that two time intervals are arranged, blanking cylinder mounting plate 82 to insert in draw-in groove 91 that two L-type guide grooves 9 are formed and can move left and right along draw-in groove 91, and blanking cylinder mounting plate 82 is fixed on mounting platform 11 by four tightening screw of handle 10.

Flared part comprises left enlarging cylinder 7a and right enlarging cylinder 7b, they are separately positioned on the left and right sides of rickstand 3, namely be fixed on left supported plate 31 and right supported plate 32 respectively by enlarging air cylinder support 73, the cylinder rod of left enlarging cylinder 7a and right enlarging cylinder 7b is all fixed with enlarging drift 71 by installing plate 72, enlarging drift 71 is each passed through the left and right sidewall of rickstand 3 to carry out enlarging in alignment with upper heap hopper 2a radiating tube 4 both ends open bottom, and the bottom of the left and right sidewall of upper heap hopper 2a has the hole passed for enlarging drift 71.

Operation principle and the process of this enlarging feeder are as follows:

The radiating tube 4 of non-enlarging is slipped into upper heap hopper 2a along importing slideway 318, and left enlarging cylinder 7a and right enlarging cylinder 7b action simultaneously simultaneously, carries out enlarging to being positioned at upper heap hopper 2a radiating tube 4 both ends open bottom.

Then feeding cylinder 5 action, makes feeding push pedal 51 be released via feeding port 21 by the radiating tube 4 after enlarging, and finally pushes lower heap hopper 2b, and be positioned at lower heap hopper 2b when the radiating tube 4 after enlarging piles with, position sensor sends signal feeding cylinder 5 and stops action.

As the frame of enlarging feeder is also provided with fin tube body, then fin penetrates in the radiating tube after enlarging by the action of fin tube body, finally, blanking cylinder 6 action, drive blanking push pedal 61 by the radiating tube 4 after enlarging or be equipped with the radiating tube after fin 4 and release via blanking port 22, and deriving via derivation slideway 13.

This feeder layout designs is reasonable, automatically can complete enlarging, and the radiating tube after enlarging is sent automatically, realize automatically completing of radiating tube enlarging, and convenient with fin tube body with the use of, for the automation process realizing radiating tube enlarging technique and wear fin technique provides possibility.

Although more than describe in detail the preferred embodiments of the present invention, should be expressly understood that, for a person skilled in the art, the present invention can have various modifications and variations.All any amendments done within the spirit and principles in the present invention, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. the automatic enlarging feeder of radiating tube, is characterized in that: comprise frame (1), and is located at windrow part, feed section and the flared part on the mounting platform (11) of frame (1);

Described windrow part comprises rickstand (3), rickstand (3) has vertical setting in order to stack the upper heap hopper (2a) for the treatment of the radiating tube (4) of enlarging, and the lower heap hopper (2b) vertically arranged in order to stack the radiating tube after enlarging (4), described lower heap hopper (2b) is positioned at the front lower place of heap hopper (2a), the front portion of upper heap hopper (2a) has the feeding port (21) passed for radiating tube (4) bottom, the front portion of lower heap hopper (2b) has the blanking port (22) passed for radiating tube (4) bottom,

Described feed section comprises the feeding push pedal (51) driven by feeding cylinder (5), and the blanking push pedal (61) to be driven by blanking cylinder (6), feeding push pedal (61) is in order to release feeding port (21) by being positioned at upper heap hopper (2a) radiating tube bottom (4) and pushing lower heap hopper (2b), and blanking push pedal (61) releases blanking port (22) in order to will be positioned at lower heap hopper (2b) radiating tube bottom (4);

Described flared part comprises left enlarging cylinder (7a) and right enlarging cylinder (7b), they are separately positioned on the left and right sides of rickstand (3), the cylinder rod of left enlarging cylinder (7a) and right enlarging cylinder (7b) is all fixed with enlarging drift (71), and enlarging drift (71) is each passed through the left and right sidewall of rickstand (3) to carry out enlarging to being positioned at upper heap hopper (2a) radiating tube bottom (4) both ends open.

2. the automatic enlarging feeder of radiating tube according to claim 1, it is characterized in that: described rickstand (3) comprises left supported plate (31), right supported plate (32), wherein, described right supported plate (32) is fixedly mounted on the mounting platform (11) of frame by screw (33), left supported plate (31) is arranged in the T-slot (12) of mounting platform (11) by screw (33) and T-shaped key (34), described left supported plate (31) and right supported plate (32) formation are piled the left and right sidewall of hopper (2a) and lower heap hopper (2b).

3. the automatic enlarging feeder of radiating tube according to claim 2, it is characterized in that: the inside back of described left supported plate (31) and right supported plate (32) is all fixed with the vertical back seat plate (35) arranged, the interior front of left supported plate (31) and right supported plate (32) is equipped with the vertical fore beam (36) arranged, back seat plate (35) the front and back slippage relatively of fore beam (36) energy, and be connected to drive slippage before and after fore beam (36) by adjustment structure between back seat plate (35) and fore beam (36), between the antetheca of described fore beam (36) and left supported plate (31) and right supported plate (32), time interval arranges and forms described lower heap hopper (2b),

The top of the back seat plate (35) and fore beam (36) that are positioned at homonymy is shelved with upper base plate (37), upper base plate (37) can with slippage before and after fore beam (36), described upper base plate (37) has the upper upright wall (371) upwards extended, the inside upper part of described left supported plate (31) and right supported plate (32) is fixed with baffle plate (38), and baffle plate (38) and upper upright wall (371) time interval arrange and form described upper heap hopper (2a).

4. the automatic enlarging feeder of radiating tube according to claim 3, it is characterized in that: described adjustment structure comprises guide post (39) and adjusting screw(rod) (310), guide post (39) one is fixed on fore beam (36), and one penetrates in the hole of back seat plate (35); One of adjusting screw(rod) (310) is assemblied on fore beam (36) by ball bearing (311) and back-up ring (312), other end is threaded with back seat plate (35), and the outer end of adjusting screw(rod) (310) has also been threaded locking nut (313).

5. the automatic enlarging feeder of radiating tube according to claim 4, it is characterized in that: one of described guide post (39) is threaded with fore beam (36), the other end of guide post (39) is bearing in the hole of back seat plate (35) by axle sleeve (314).

6. the automatic enlarging feeder of radiating tube according to claim 5, it is characterized in that: between the fore beam (36) of homonymy and back seat plate (35), be provided with two described guide posts (39) and a described adjusting screw(rod) (310), and adjusting screw(rod) (310) is positioned between upper and lower two guide posts (39).

7. the automatic enlarging feeder of radiating tube according to claim 3, it is characterized in that: described left supported plate (31) is provided with left shroud (315), right supported plate (32) is provided with right shroud (316), the installation portion of left shroud (315) and right shroud (316) all has long gain (317), screw (33) is had to be separately fixed on left supported plate (31) and right supported plate (32) through after long gain (317) by left shroud (315) and right shroud (316), the importing slideway (318) that will the radiating tube treating enlarging (4) importing be piled in hopper (3a) is formed between left shroud (315) and right shroud (316).

8. the automatic enlarging feeder of radiating tube according to claim 1, is characterized in that: corresponding blanking port (22) position, front side of described frame (1) is provided with the derivation slideway (13) in order to be derived by radiating tube (4).

9. the automatic enlarging feeder of radiating tube according to claim 1, it is characterized in that: described feeding cylinder (5) and blanking cylinder (6) are arranged on air cylinder support (8), air cylinder support (8) is then arranged on the mounting platform (11) of frame, air cylinder support (8) comprises upper and lower spaced feeding cylinder installing plate (81) and blanking cylinder mounting plate (82), supported by pole (83) between feeding cylinder installing plate (81) and blanking cylinder mounting plate (82), described feeding cylinder (5) is fixed on feeding cylinder installing plate (81), blanking cylinder (6) is fixed on blanking cylinder mounting plate (82).

10. the automatic enlarging feeder of radiating tube according to claim 1, it is characterized in that: described mounting platform (11) is fixed with the L-type guide groove (9) that two time intervals are arranged, also can move left and right along draw-in groove (91) in the draw-in groove (91) that described blanking cylinder mounting plate (82) insertion two L-type guide grooves (9) are formed, and blanking cylinder mounting plate (82) is fixed on mounting platform (11) by four tightening screw of handle (10).