Aluminum pipe surface resin coating system
阅读说明:本技术 一种铝管表面树脂涂覆系统 (Aluminum pipe surface resin coating system ) 是由 方林 于 2019-12-06 设计创作,主要内容包括:本发明涉及一种铝管表面树脂涂覆系统,按照铝管行进方向依次设置放料单元、清洗单元、干燥单元、涂胶单元、加热单元、树脂涂覆单元、冷却单元、牵引单元以及收集单元,在放料单元与清洗单元之间设置管径校正单元,放料单元根据管径校正单元处铝管的位置调整其放出铝管的位置以及速度,保证放料单元放出的铝管与管径校正单元处的铝管同轴且速度相同。通过对放料单元的移动,使其在放料过程中保证铝管的中心轴与生产线上铝管的中心轴同轴,减少折弯的风险,同时对铝管的放料速度进行控制,使得放料过程中铝管的速度与生产线上铝管的速度保持一致,能够减少铝管被拉伸的风险,提高铝管的生产质量,降低不合格产品的出现。(The invention relates to a resin coating system for the surface of an aluminum pipe, which is characterized in that a discharging unit, a cleaning unit, a drying unit, a gluing unit, a heating unit, a resin coating unit, a cooling unit, a traction unit and a collecting unit are sequentially arranged according to the advancing direction of the aluminum pipe, a pipe diameter correcting unit is arranged between the discharging unit and the cleaning unit, the discharging unit adjusts the position and the speed of the aluminum pipe discharged by the discharging unit according to the position of the aluminum pipe at the pipe diameter correcting unit, and the aluminum pipe discharged by the discharging unit is ensured to be coaxial with the aluminum pipe at the pipe diameter correcting unit and to. Through the movement of the discharging unit, the central axis of the aluminum pipe is ensured to be coaxial with the central axis of the aluminum pipe on the production line in the discharging process, the bending risk is reduced, and meanwhile, the discharging speed of the aluminum pipe is controlled, so that the speed of the aluminum pipe in the discharging process is consistent with the speed of the aluminum pipe on the production line, the risk that the aluminum pipe is stretched can be reduced, the production quality of the aluminum pipe is improved, and the occurrence of unqualified products is reduced.)
1. A resin coating system for the surface of an aluminum pipe is characterized in that a discharging unit (1) for outputting the aluminum pipe (600), a cleaning unit (3) for cleaning the surface of the aluminum pipe (600), a drying unit (4) for drying the surface of the aluminum pipe (600), a gluing unit (5) for coating glue on the surface of the aluminum pipe (600), a heating unit (6) for heating the aluminum pipe (600), a resin coating unit (8) for coating resin on the surface of the aluminum pipe (600), a cooling unit (9) for cooling the aluminum pipe (600), a traction unit (10) for applying power to the aluminum pipe (600) and a collecting unit for collecting the aluminum pipe (600) are sequentially arranged according to the advancing direction of the aluminum pipe (600), a pipe diameter correcting unit (2) for shaping the surface of the aluminum pipe (600) is arranged between the discharging unit (1) and the cleaning unit (3), the discharging unit (1) adjusts the position and the speed of the aluminum pipe (600) discharged by the discharging unit according to the position of the aluminum pipe (600) at the pipe diameter correcting unit (2), and the aluminum pipe (600) discharged by the discharging unit (1) is coaxial with the aluminum pipe (600) at the pipe diameter correcting unit (2) and has the same speed.
2. The aluminum pipe surface resin coating system as recited in claim 1, wherein the discharging unit (1) comprises a fixed base (11), a discharging bracket (12) arranged on the fixed base (11), and a feeding tray assembly (13) which is arranged on the discharging bracket (12) and can rotate, a horizontal moving component (14) is arranged between the fixed base (11) and the discharging bracket (12), a lifting component (15) is arranged on the discharging bracket (12), the feeding disc component (13) is arranged on the lifting component (15), the feeding disc component (13) comprises a feeding rotating shaft (131), a feeding disc (132) arranged on the feeding rotating shaft (131) and a speed regulating component for driving the feeding rotating shaft (131) to rotate, a discharging controller is arranged beside the fixed base (11), and a tension sensor for detecting the tension of the aluminum pipe (600) is arranged on the discharging bracket (12); the feeding tray assembly (13) the place ahead set up the encoder that is used for detecting the axiality, tension sensor, encoder all be connected with the blowing controller, the blowing controller drive horizontal migration subassembly (14), lifting unit (15) and speed governing subassembly motion realize coaxial and with fast the transport.
3. The aluminum pipe surface resin coating system as recited in claim 2, wherein the horizontal moving assembly (14) comprises a first screw rod (141) arranged on the fixed base (11), a first screw rod nut (143) arranged on the first screw rod (141) and a first motor (142) driving the first screw rod (141) to rotate, a first slide rail (144) is arranged on the fixed base (11), a first sliding plate (145) is arranged on the first slide rail (144), the first screw rod nut (143) is fixed on the first sliding plate (145), and the first sliding plate (145) is fixed on the discharge bracket (12).
4. The aluminum pipe surface resin coating system as recited in claim 2, wherein the lifting assembly (15) comprises a lifting frame (151) arranged at the top of the discharging support (12), a lifting plate (152) arranged in the lifting frame (151), and a driving device for driving the lifting plate (152) to move up and down, the driving device comprises a second screw rod (153) arranged on the lifting frame (151), a second screw rod nut (154) arranged on the second screw rod (153) and a second motor (155) driving the second screw rod (153) to rotate, a second sliding rail (156) is arranged on the lifting frame (151), a second sliding plate (157) is arranged on the second sliding rail (156), the second lead screw nut (154) is fixed on a second sliding plate (157), and the second sliding plate (157) is fixed on the lifting plate (152).
5. The aluminum pipe surface resin coating system according to claim 1, wherein said pipe diameter correcting unit (2) comprises a correcting oil tank (21), a correcting die assembly (22) disposed inside the correcting oil tank (21), said correcting die assembly (22) comprising two correcting positioning plates (221) fixed between two side walls of the correcting oil tank (21), and correcting dies (222) disposed on the two correcting positioning plates (221), wherein both of the two correcting positioning plates (221) are provided with correcting positioning holes (223), said correcting dies (222) are inserted into the correcting positioning holes (223) for positioning, and said correcting positioning holes (223) restrict the movement of the correcting dies (222) in the radial direction of the correcting positioning holes (223).
6. The aluminum pipe surface resin coating system as recited in claim 5, wherein the two correcting positioning plates (221) are a first correcting positioning plate (2211) and a second correcting positioning plate (2212), respectively, the correcting positioning hole (223) of the first correcting positioning plate (2211) is a cylindrical through hole, the correcting positioning hole (223) of the second correcting positioning plate (2212) is a stepped through hole, the correcting die (222) is cylindrical, the correcting die (222) passes through the cylindrical through hole and then is inserted into the stepped through hole for positioning, and the correcting die (222) is clamped on the step of the stepped through hole.
7. The aluminum pipe surface resin coating system as recited in claim 1, wherein the washing unit (3) comprises a washing bath (31), a washing unit (32) disposed in the washing bath (31), and a washing motor (33), the cleaning component (32) comprises a cleaning bracket (321), a brush group (322) arranged on the cleaning bracket (321), a gear group (323) for driving the brush group (322) to rotate and a spray head group (324) for spraying water, the cleaning motor (33) is arranged outside the cleaning tank (31), the cleaning motor (33) drives a gear set (323) arranged in the cleaning tank (31) to rotate through a belt (34), the brush group (322) comprises three brushes which are arranged in a triangular shape, and the aluminum pipe (600) is in contact with the three brushes through the middle of the three brushes.
8. An aluminum pipe surface resin coating system as recited in claim 1, wherein said glue applying unit (5) comprises a glue applying frame (51), a glue applying groove (52) provided in said glue applying frame (51), and a glue recovering groove (53), said glue applying groove (52) being located in the middle of said glue recovering groove (53), a glue inlet (56) being provided in said glue applying groove (52), a glue being provided in said glue applying groove (52), and said aluminum pipe (600) being completely immersed in the glue.
9. The aluminum pipe surface resin coating system as recited in claim 1, wherein a positioning guide unit (7) is arranged between the heating unit (6) and the resin coating unit (8), the positioning guide unit (7) comprises a positioning guide frame (71), a plurality of guide roller sets arranged at the top of the positioning guide frame (71), the plurality of guide roller sets comprise a plurality of vertical guide roller sets (73) and a plurality of transverse guide roller sets (74), and the aluminum pipe (600) passes through the vertical guide roller sets (73) and the transverse guide roller sets (74) to realize the positioning of the vertical plane of the aluminum pipe (600).
10. The aluminum pipe surface resin coating system as recited in claim 1, wherein the drying unit (4) dries the surface of the aluminum pipe (600) by air drying in a direction opposite to a traveling direction of the aluminum pipe (600).
11. The aluminum pipe surface resin coating system as recited in claim 1, wherein said heating unit (6) comprises a fan heating device (61) and a high frequency heating device (62), said fan heating device (6) being air-dried, and the direction of the air being the same as the direction of travel of the aluminum pipe (600).
12. The aluminum pipe surface resin coating system as recited in claim 1, wherein the drawing unit (10) comprises a drawing frame (101), a transverse drawing device (102) arranged on the drawing frame (101), and a vertical drawing device (103) and is arranged in turn, and the aluminum pipe (600) passes through the vertical drawing device (103) and the transverse drawing device (102) in turn.
13. The aluminum pipe surface resin coating system as recited in claim 1, wherein an eddy current flaw detector (100) is provided between said drawing unit (10) and said collecting unit.
14. The aluminum pipe surface resin coating system as recited in claim 1, wherein the collecting unit is a take-up device (300) that receives the aluminum pipe (600) and collects it by crimping.
15. The aluminum pipe surface resin coating system as recited in claim 1, wherein the collecting unit is a pipe ring cutter (200) for cutting and sectioning the aluminum pipe (600).
Technical Field
The invention relates to a technology for replacing a copper pipe with an aluminum pipe in the production and manufacturing industry of a condenser pipe, in particular to a resin coating system for the surface of the aluminum pipe.
Background
In daily life and industrial production, air conditioners have become indispensable electrical appliances, copper pipes are widely used in condensers of air conditioners because of good heat conduction performance, and the copper pipes are relatively expensive metal materials, and in order to save cost, the replacement of the copper pipes by aluminum pipes is increasingly emphasized in the technical field of air conditioners.
In the production line for coating the resin on the surface of the aluminum pipe, the coating process usually comprises the steps of feeding, cleaning, drying, gluing, heating, resin coating, cooling, drawing, recovering and the like, the feeding machine is used for feeding in the feeding process, the existing feeding machine is generally fixed on the ground and cannot move, the material roll on the feeding machine is large and has a certain thickness, the feeding machine usually adopts a passive feeding mode to feed, because the drawing at the front has a certain drawing effect on the aluminum pipe and can generate deformation, the next procedure in the feeding process needs to shape the aluminum pipe, in the shaping process, the aluminum pipe moves back and forth on the material tray, so that the central shaft of the aluminum pipe and the central shaft of the aluminum pipe at the shaping position deviate back and forth, the whole line equipment shakes, the feeding is not smooth, and the stable quality and the mass production of the resin coating equipment cannot be guaranteed.
Disclosure of Invention
The technical problem to be solved by the invention is to provide a resin coating system for the surface of an aluminum pipe, which realizes the reduction of the drawing effect of traction in the feeding process, ensures the alignment of a central shaft and improves the stabilizer volume production of the system.
The technical scheme adopted by the invention for solving the technical problems is as follows: a discharging unit for outputting an aluminum pipe, a cleaning unit for cleaning the surface of the aluminum pipe, a drying unit for drying the surface of the aluminum pipe, a gluing unit for coating glue on the surface of the aluminum pipe, a heating unit for heating the aluminum pipe, a resin coating unit for coating resin on the surface of the aluminum pipe, a cooling unit for cooling the aluminum pipe, a traction unit for applying power to the aluminum pipe and a collecting unit for collecting the aluminum pipe are sequentially arranged according to the advancing direction of the aluminum pipe, a pipe diameter correcting unit for shaping the surface of the aluminum pipe is arranged between the discharging unit and the cleaning unit, the discharging unit adjusts the position and the speed of the aluminum pipe discharged by the discharging unit according to the position of the aluminum pipe at the pipe diameter correcting unit, and the aluminum pipe discharged by the discharging unit is coaxial with the aluminum pipe at the pipe diameter correcting unit and has the same speed.
Further specifically, the discharging unit comprises a fixed base, a discharging support arranged on the fixed base and a feeding disc assembly which is arranged on the discharging support and can rotate, a horizontal moving assembly is arranged between the fixed base and the discharging support, a lifting assembly is arranged on the discharging support, the feeding disc assembly is arranged on the lifting assembly and comprises a feeding rotating shaft, a feeding disc arranged on the feeding rotating shaft and a speed regulating assembly for driving the feeding rotating shaft to rotate, a discharging controller is arranged beside the fixed base, and a tension sensor for detecting the tension of the aluminum tubes is arranged on the discharging support; the feeding plate component is characterized in that an encoder used for detecting coaxiality is arranged in front of the feeding plate component, the tension sensor and the encoder are connected with a discharging controller, and the discharging controller drives the horizontal moving component, the lifting component and the speed regulating component to move to realize coaxial and same-speed conveying.
Further specifically, the horizontal movement assembly comprises a first screw rod arranged on the fixed base, a first screw rod nut arranged on the first screw rod and a first motor driving the first screw rod to rotate, a first slide rail is arranged on the fixed base, a first slide plate is arranged on the first slide rail, the first screw rod nut is fixed on the first slide plate, and the first slide plate is fixed on the material placing support.
Further specifically, the lifting assembly including set up in the crane at blowing support top, set up lifter plate in the crane, drive in the drive arrangement that the lifter plate reciprocated, drive arrangement including set up second lead screw on the crane, set up second screw-nut on the second lead screw and drive second lead screw pivoted second motor the crane on be equipped with the second slide rail on set up the second slide plate, second screw-nut be fixed in on the second slide plate, the second slide plate be fixed in on the lifter plate.
Further specifically, the pipe diameter correction unit comprises a correction oil tank and a correction die assembly arranged in the correction oil tank, the correction die assembly comprises two correction positioning plates fixed between two side walls of the correction oil tank and correction dies arranged on the two correction positioning plates, correction positioning holes are formed in the two correction positioning plates, the correction dies are inserted into the correction positioning holes for positioning, and the correction positioning holes limit the correction dies to move in the radial direction of the correction positioning holes.
More specifically, the two correction positioning plates are respectively a first correction positioning plate and a second correction positioning plate, the correction positioning hole in the first correction positioning plate is a cylindrical through hole, the correction positioning hole in the second correction positioning plate is a step through hole, the correction mold is cylindrical, the correction mold penetrates through the cylindrical through hole and then is inserted into the step through hole for positioning, and the correction mold is clamped on the step of the step through hole.
Further specifically, the cleaning unit include the washing tank, set up washing subassembly and cleaning motor in the washing tank, the washing subassembly including wash the support, set up brush group, drive brush group pivoted gear train on wasing the support and carry out the shower nozzle group that sprays water, the washing motor setting outside the washing tank, the washing motor set up the gear train rotation in the washing tank through belt drive, brush group including three brushes that are article font and arrange, the aluminum pipe through in the middle of three brushes and all with three brush contacts.
Further specifically, the gluing unit comprises a gluing rack, a glue coating groove and a glue recycling groove, the glue coating groove and the glue recycling groove are formed in the gluing rack, the glue coating groove is located in the middle of the glue recycling groove, a glue inlet is formed in the glue coating groove, glue is arranged in the glue coating groove, and the aluminum pipe is completely immersed in the glue.
The aluminum pipe is arranged between the heating unit and the resin coating unit, the positioning guide unit comprises a positioning guide frame and a plurality of guide roller sets arranged at the top of the positioning guide frame, the plurality of guide roller sets comprise a plurality of vertical guide roller sets and a plurality of transverse guide roller sets, and the aluminum pipe penetrates through the vertical guide roller sets and the transverse guide roller sets to position the vertical plane of the aluminum pipe.
More specifically, the drying unit dries the surface of the aluminum pipe in an air drying mode, and the direction of air is opposite to the advancing direction of the aluminum pipe.
Further specifically, the heating unit comprises a fan heating device and a high-frequency heating device, the fan heating device adopts an air drying mode, and the direction of wind is the same as the advancing direction of the aluminum pipe.
Further specifically, the traction unit comprises a traction frame, a transverse traction device and a vertical traction device which are arranged on the traction frame and are sequentially arranged, and the aluminum pipe sequentially penetrates through the vertical traction device and the transverse traction device.
More specifically, an eddy current flaw detector is arranged between the traction unit and the collection unit.
More specifically, the recovery unit is a material receiving device for receiving the aluminum pipe and collecting the aluminum pipe in a curling manner.
More specifically, the recovery unit is a pipeline ring cutting machine for cutting and segmenting the aluminum pipe.
The invention has the beneficial effects that: after the system is used, the discharging unit is moved to ensure that the central axis of the aluminum pipe is coaxial with the central axis of the aluminum pipe on the production line in the discharging process, so that the bending risk is reduced, and meanwhile, the discharging speed of the aluminum pipe is controlled, so that the speed of the aluminum pipe in the discharging process is consistent with the speed of the aluminum pipe on the production line, the risk that the aluminum pipe is stretched can be reduced, the production quality of the aluminum pipe is improved, and the occurrence of unqualified products is reduced.
Drawings
FIG. 1 is a schematic view of a resin coating system for the surface of an aluminum pipe according to the present invention;
FIG. 2 is a schematic structural view of a discharging unit of the present invention;
FIG. 3 is a schematic structural view of the emptying unit in front view;
FIG. 4 is a left side view schematically illustrating the structure of the discharging unit of the present invention;
FIG. 5 is a schematic structural diagram of a pipe diameter correction unit according to the present invention;
FIG. 6 is a schematic top view of the tube diameter calibration unit of the present invention;
FIG. 7 is a schematic cross-sectional view of the pipe diameter correction unit of the present invention;
FIG. 8 is a schematic view of the structure of the cleaning unit of the present invention;
FIG. 9 is an exploded view of the cleaning assembly and cleaning motor of the cleaning unit of the present invention (excluding the head set);
FIG. 10 is a schematic cross-sectional view of a cleaning unit of the present invention;
FIG. 11 is a schematic top view of the cleaning unit of the present invention;
FIG. 12 is a schematic view of the structure of a drying unit according to the present invention;
FIG. 13 is a schematic view of the construction of the gluing unit of the invention;
FIG. 14 is a schematic top view of the gluing unit of the present invention;
FIG. 15 is a schematic perspective view of the gluing unit of the present invention;
FIG. 16 is a schematic perspective view of a positioning guide unit according to the present invention;
FIG. 17 is a schematic top view of the positioning guide unit of the present invention;
FIG. 18 is a schematic perspective view of a traction unit of the present invention;
fig. 19 is a front view schematically showing the construction of the traction unit of the present invention.
In the figure: 1. a discharging unit; 2. a pipe diameter correction unit; 3. a cleaning unit; 4. a drying unit; 5. a gluing unit; 6. a heating unit; 7. a positioning guide unit; 8. a resin coating unit; 9. a cooling unit; 10. a traction unit; 100. an eddy current flaw detector; 200. a pipeline ring cutting machine; 300. a material receiving device; 400. a traction speed measurement sensor; 500. a temperature regulation speed measurement sensor; 600. an aluminum tube.
Detailed Description
The present invention will be described in detail below with reference to the accompanying drawings.
As shown in fig. 1, an aluminum pipe surface resin coating system is provided with a discharging unit 1 for discharging an
Based on the above structure, a positioning guide unit 7 for supporting, positioning, and guiding the
The technical process of the structure comprises the steps that firstly, a coiled aluminum pipe 600 is uncoiled to a pipe diameter correction unit 2 through an uncoiling unit 1, and a traction machine can be arranged between the uncoiling unit 1 and the pipe diameter correction unit 2 to improve traction force; the aluminum pipe 600 enters the pipe diameter correction unit 2 to trim and shape the diameter of the pipe, and the shaped aluminum pipe 600 enters the cleaning unit 3 to clean the surface of the aluminum pipe 600; after cleaning, the aluminum pipe 600 enters a drying unit 4, the drying unit dries the surface of the aluminum pipe 600 in an air drying mode, the direction of air is opposite to the advancing direction of the aluminum pipe 600, and the purpose is that glue in the next gluing process is better attached to the surface of the aluminum pipe 600 and is not easy to fall off; then, the aluminum pipe 600 is uniformly coated with a layer of glue on the surface by a glue coating unit 5; then the aluminum pipe enters a heating unit 6, the heating unit 6 comprises a fan heating device 61 and a high-frequency heating device 62, the fan heating device 61 and the drying unit 4 are identical in structure, the installation direction of the fan heating device 61 is opposite to that of the drying unit 4 when the aluminum pipe is used, the fan heating device 61 adopts an air drying mode, the direction of air is the same as the advancing direction of the aluminum pipe 600, the fan heating device 61 preheats the adhesive layer to enable the aluminum pipe 600 to be preheated to about 100 ℃, then the high-frequency heating device carries out secondary heating to enable the aluminum pipe 600 to be heated to 190-250 ℃, and the purpose is to enable the adhesive layer to be in a liquid phase to facilitate resin coating; then, the position of the aluminum pipe 600 is adjusted through the positioning guide unit 7, so that the aluminum pipe can not deviate from the position and enter the resin coating unit 8, the resin coating unit 8 consists of an extruder and a coating device at the head of the extruder, the coating device is a common film laminating machine, and after the coating is finished, a resin layer is formed on the surface of the aluminum pipe 600 and enters the cooling unit 9; the cooling unit 9 is directly cooled by water, and the water temperature in the cooling unit 9 is ensured not to be too high by matching with circulating water, and the moving direction of the circulating water can be opposite to the advancing direction of the aluminum pipe 600; then, the aluminum pipe 600 enters a traction unit 10, and the traction unit 10 is formed by sequentially arranging a transverse traction device 102 and a vertical traction device 103, so that the traction strength is increased, and the qualified appearance of the aluminum pipe 600 can be ensured; and then the aluminum pipe enters the eddy current flaw detector 100, the damage inside the aluminum pipe 600 is detected on line, if the large-area damage inside the aluminum pipe 600 is found, the aluminum pipe is stopped, adjusted and overhauled, and finally the aluminum pipe enters a material receiving unit.
In the process, speed needs to be controlled in some areas, and the discharging unit 1 is detected by a built-in tension sensor and controlled by a built-in feeding control unit; a traction
As shown in fig. 2, 3 and 4, the discharging unit 1 includes a fixed base 11, a discharging bracket 12 disposed on the fixed base 11, and a feeding tray assembly 13 disposed on the discharging bracket 12 and capable of rotating, because the discharging unit 1 mainly functions to keep the aluminum tube 600 in the subsequent process and the feeding process coaxial, the position of the feeding tray assembly 13 needs to be adjusted at any time during feeding, a horizontal moving assembly 14 is disposed between the fixed base 11 and the discharging bracket 12 for position adjustment in the horizontal direction, a lifting assembly 15 is disposed on the discharging bracket 12 for position adjustment in the vertical direction, the feeding tray assembly 13 is disposed on the lifting assembly 15 and lifted along with the movement of the lifting assembly 15, a feeding control unit is disposed beside the fixed base 11, an encoder for detecting the coaxiality is disposed in front of the feeding tray assembly 13, the encoder is connected with the feeding control unit, and when the encoder detects that the central axis of the aluminum pipe 600 deviates from the central axis of the aluminum pipe 600 at the pipe diameter correction unit 2 in the feeding process, the feeding controller drives the horizontal moving assembly 14 and the lifting assembly 15 to move so as to realize coaxial conveying.
The moving
The lifting assembly 15 comprises a lifting frame 151 arranged at the top of the discharging support 12, a lifting plate 152 arranged in the lifting frame 151 and a driving device for driving the lifting plate 152 to move up and down, the driving device comprises a second screw rod 153 arranged on the lifting frame 151, a second screw rod nut 154 arranged on the second screw rod 153 and a second motor 155 for driving the second screw rod 153 to rotate, the second screw rod 153 is vertically arranged, and the second motor 155 is a servo motor and is arranged at the top end of the lifting frame 151; the lifting frame 151 comprises 4 lifting guide posts 1511 fixed on the discharging support 12 and a lifting fixing plate 1512 positioned at the tops of the 4 lifting guide posts 1511, the four lifting guide posts 1511 are respectively arranged at four corners of the lifting fixing plate 1512, the second motor 155 is arranged on the lifting fixing plate 1512, a rotating shaft of the second motor 155 penetrates through the lifting fixing plate 1512 to be connected with the second lead screw 153, the lifting plate 152 is arranged between the 4 lifting guide posts 1511 and can slide on the 4 lifting guide posts 1511, and guide sleeves are arranged at four corners of the lifting plate 152 to be matched with the lifting guide posts 1511; the lifting frame 151 is provided with a second slide rail 156, two of the second slide rails 156 are respectively arranged on two sides of the second screw rod 153 and fixed on the lifting guide post 1511, the second slide rail 156 is provided with a second slide plate 157, two sides of the second slide plate 157 span between the two second slide rails 156, the second screw nut 154 is fixed on the second slide plate 157, the second slide plate 157 is fixed on the lifting plate 152, the second slide plate 157 moves up and down along with the movement of the lifting assembly 15 and drives the lifting plate 152 to move up and down, and the feeding tray assembly 13 is arranged on the lifting plate 152.
The feeding disc assembly 13 comprises a feeding rotating shaft 131, a feeding disc 132 arranged on the feeding rotating shaft 131 and a speed regulating assembly for driving the feeding rotating shaft 131 to rotate, the feeding rotating shaft 131 can normally work only by locking a feeding disc, and the function can be realized through an inflatable shaft; a tension sensor for detecting the tension of the aluminum tube 600 is arranged on the discharging support 12, the tension sensor is connected to a discharging controller, the discharging controller controls a speed regulating component to regulate the speed of the feeding rotating shaft 131, the speed regulating component comprises a third motor 133 and a reduction gearbox 134, and the third motor 133 is a servo motor; the output end of the reduction gearbox 134 is connected with the feeding rotating shaft 131, the servo motor drives the feeding tray 132 to rotate in the feeding process, so that the linear velocity of the aluminum pipe 600 on the feeding tray 132 is consistent with the linear velocity on a production line, active feeding is achieved, the aluminum pipe 600 cannot be pulled and deformed, the linear velocity of the aluminum pipe 600 can be reduced along with the use of the aluminum pipe 600, the diameter of the specific aluminum pipe coiled material can be input to the discharging controller according to the feeding amount of the aluminum pipe 600, the rotating speed of the servo motor is automatically generated through operation by the discharging controller, the consistent linear velocity is achieved, and the linear velocity of the aluminum pipe 600 can be adjusted in real time through the discharging controller according to the tension detected by the.
The above results are based on a
Furthermore, two sides of the lifting
As shown in fig. 5, 6 and 7, the pipe diameter correcting unit 2 comprises a correcting oil tank 21, a correcting die assembly 22 arranged in the correcting oil tank 21, pipe passing holes 24 are arranged at two ends of the correcting oil tank 21, the diameter of the pipe passing hole 24 is larger than that of the aluminum pipe 600, the aluminum pipe 600 passes through the pipe passing hole 24 and the correcting die assembly 22, at this time, the correcting die assembly 22 carries out shaping correction on the aluminum pipe 600, a sealing member is arranged at the pipe passing hole 24, lubricating oil 23 is arranged in the correcting oil tank 21, the sealing member prevents the lubricating oil 23 from flowing out from the correcting oil tank 21 and can prevent the lubricating oil 23 from flowing out along with the movement of the aluminum pipe 600, the correcting die assembly 22 comprises two correcting positioning plates 221 fixed between two side walls of the correcting oil tank 21, correcting dies 222 arranged on the two correcting positioning plates 221, a correction positioning hole 223 is provided on each of the two correction positioning plates 221, and the correction die 222 is inserted into and positioned in the correction positioning hole 223, and the correction positioning hole 223 restricts movement of the correction die 222 in the radial direction of the correction positioning hole 223.
Based on the above structure, the correction mold assembly 22 is further optimized, the two correction positioning plates 221 are divided into a first correction positioning plate 2211 and a second correction positioning plate 2212, the correction positioning hole 223 on the first correction positioning plate 2211 is a cylindrical through hole, the correction positioning hole 223 on the second correction positioning plate 2212 is a step through hole, the correction mold 222 includes a mold body 2221 and a correction hole 2222 formed in the middle of the mold body 2221, the mold body 2221 is a cylinder, the mold body 2221 can be inserted into the cylindrical through hole to the step through hole, the step of the step through hole has a limiting function, and the mold body 2221 is limited from being inserted continuously; the die body 2221 is in clearance fit with the cylindrical through hole and the step through hole, so that the die is convenient to mount and dismount; the installation direction of the die body 2221 is the same as the movement direction of the aluminum pipe 600, meanwhile, in the using process, it needs to be ensured that the first correction positioning plate 2211 is positioned in front of the second correction positioning plate 2212, that is, the aluminum pipe 600 passes through the first correction positioning plate 2211 and then passes through the second correction positioning plate 2212, the large hole of the step through hole faces to the position of the first correction positioning plate 2211, and in order to ensure the positioning and fixing of the die body 2221, the die body 2221 can be fixed after one side of the step through hole passes through the step of the step through hole through a screw; when the aluminum pipe 600 moves, since the die body 2221 is in clearance fit with the cylindrical through hole and the stepped through hole, the movement of the aluminum pipe 600 causes the die body 2221 to move along with the aluminum pipe, and since the stepped through hole restricts the movement of the die body 2221 in the advancing direction of the aluminum pipe 600 and the cylindrical through hole and the stepped through hole restrict the movement of the die body 2221 in the radial direction thereof, the correction die 222 does not move up and down, and the quality of correction is ensured.
Further, the correcting die assemblies 22 may be arranged into one or more groups as required, in this embodiment, three groups are arranged and arranged in sequence, the guaranteed distances between adjacent correcting die assemblies 22 are equal, and since the aluminum pipe 600 may be inclined when entering the correcting hole 2222 of the correcting die 222, a guide round angle 2223 is provided at the entrance of the correcting hole 2222; the connecting groove 224 is arranged on the calibration positioning plate 221, one end of the connecting groove 224 is communicated with the calibration positioning hole 223, the other end of the connecting groove 224 is communicated with the outside of the calibration positioning plate 221, namely, an opening is arranged above the calibration positioning hole 223, when the aluminum pipe 600 inclines, an inclined force is applied to the die body 2221 to cause the die body 2221 to move slightly upwards, if the opening does not exist, the aluminum pipe 600 is bent, the inside is damaged, the quality is affected, and the arranged opening has certain elasticity, can accommodate the slight movement at the position, and can return to the original position through elastic resilience; since the inclination is likely to occur just when the aluminum pipe 600 enters the mechanism, the three sets of correcting die assemblies 22 are provided, enabling a better correcting effect to be achieved.
The sealing member includes a first sealing
The calibration oil tank 21 comprises a
As shown in fig. 8, 9, 10 and 11, the cleaning unit 3 includes a cleaning tank 31, a cleaning assembly 32 disposed in the cleaning tank 31, and a cleaning motor 33, the cleaning assembly 32 includes a cleaning bracket 321, a brush set 322 disposed on the cleaning bracket 321, a gear set 323 for driving the brush set 322 to rotate, and a nozzle set 324 for spraying water, the cleaning motor 33 is disposed outside the cleaning tank 31, the cleaning motor 33 drives the gear set 323 disposed in the cleaning tank 31 to rotate through a belt 34, the brush set 322 includes three brushes arranged in a delta shape, and the aluminum pipe 600 passes through the middle of the three brushes and is in contact with the three brushes; the cleaning assemblies 32 and the cleaning motors 33 are arranged in two groups and are sequentially arranged, the cleaning assemblies 32 are oppositely arranged, a first cleaning assembly and a second cleaning assembly are respectively arranged according to the movement direction of the aluminum pipe 600, the gear group 323 of the first cleaning assembly is close to the input end of the aluminum pipe 600, the gear group 323 of the second cleaning assembly is close to the output end of the aluminum pipe 600, when the aluminum pipe 600 passes through the cleaning tank 31, the spray head group 324 of the first cleaning assembly sprays to the input end of the aluminum pipe 600, then the aluminum pipe is cleaned through the three brushes of the first cleaning assembly, then the aluminum pipe 600 enters the brush group 322 of the second cleaning assembly for cleaning again, finally the spray head group 324 of the second cleaning assembly sprays to the output end of the aluminum pipe 600, the aluminum pipe 600 is cleaned, and the cleanliness of the aluminum pipe 600 is improved.
The cleaning motor 33 drives the gear group 323 to move, and the structure of the cleaning motor is that the gear group 323 comprises a driven pulley 3231, a main gear 3232 arranged on the driven pulley 3231 and three pinions 3233 arranged beside the main gear 3232, wherein the three pinions 3233 are respectively connected with the rotating shafts of the three brushes in a one-to-one correspondence manner; aluminum tubes are arranged at the central part of the main gear 3232 and the central part of the driven pulley 3231 to pass through the holes, a driving pulley 3234 is arranged on the cleaning motor 33, a belt 34 is arranged between the driving pulley 3234 and the driven pulley 3231, the cleaning motor 33 drives the driving pulley 3234 to rotate, and the belt 34, the driven pulley 3231, the main gear 3232 and the three pinions 3233 are sequentially driven to rotate, so that the three brushes are driven to synchronously rotate, and the rotating and cleaning effects are improved; correspondingly, since the cleaning motor 33 is disposed outside the cleaning tank 31 and the gear set 323 is disposed inside the cleaning tank 31, a through hole is required to be formed in the cleaning tank 31 for the belt 34 to pass through to transmit force; the through hole can be arranged into one, and the through hole is rectangular at the moment, and the height of the through hole is consistent with the diameter of the driving belt pulley; the through holes can also be arranged in an upper and a lower two mode, and a single through hole can only pass through a single-layer belt.
Further in order to prevent the cleaned water from splashing to the gear set 323, a
The
The purpose of this scheme setting
Further, in order to prevent the cleaned water from moving out along with the
As shown in fig. 12, the drying unit 4 includes a drying rack 41, an aluminum pipe passage pipe 42 disposed on the drying rack 41, the aluminum pipe 600 passes through the center of the aluminum pipe passage pipe 42, the aluminum pipe 600 moves by a tractor, a blowing pipe 43 is disposed on the aluminum pipe passage pipe 42, the blowing pipe 43 can be disposed at any position around the aluminum pipe passage pipe 42, namely, above, below, in front of, and behind the aluminum pipe passage pipe 42, an end of the blowing pipe 43 is connected with a blower 44, the blower 44 is turned on to introduce air into the aluminum pipe passage pipe 42 along the blowing pipe 43, the blowing pipe 43 is disposed in an inclined shape, the aluminum pipe passage pipe 42 is horizontal, and an included angle between the blowing pipe 43 and the aluminum pipe passage pipe 42 is 15 ° to 45 °, in this embodiment, a preferred angle is 30 °, the blowing pipe 43 is at this angle, and can better contact with the aluminum pipe 600, but also can quickly discharge the wind and improve the drying effect; further, the spiral air deflector is arranged on the inner wall of the aluminum pipe passing pipeline 42, the spiral air deflector is arranged to ensure that the aluminum pipe 600 in the middle part can pass through smoothly, wind can contact the aluminum pipe 600 for many times through the spiral air deflector, the direction of the blown wind is opposite to the movement direction of the aluminum pipe 600, the wind can be fully utilized for drying, and the utilization rate of the wind is improved.
Based on above-mentioned structure, in order to further improve drying effect, be provided with
Since the
Since the movement speed of the
The control method of the drying comprises the following steps: firstly, the movement speed of the
The dried
As shown in fig. 13, 14 and 15, the gluing unit 5 comprises a gluing frame 51, a glue application assembly arranged on the gluing frame 51, the glue application assembly comprises a glue application groove 52 for applying glue on the aluminum pipe 600 and a glue recovery groove 53 for recovering the glue, the glue application groove 52 is positioned in the middle of the glue recovery groove 53, the glue application groove 52 is provided with application through holes 54 at both sides of the glue application groove 52, the glue recovery groove 53 is provided with recovery through holes 55 at both sides, the aluminum pipe 600 passes through the first recovery through hole, the first application through hole, the second application through hole and the second recovery through hole in sequence, a glue inlet 56 is arranged on the glue application groove 52, the glue is arranged in the glue application groove 52, the glue is injected into the glue application groove 52 from the glue inlet 56 until the aluminum pipe 600 is filled and is ensured to be completely immersed in the glue, the glue overflows from the top of the glue application groove 52 into the glue recovery groove 53, a plurality of overflow holes can be arranged on the glue coating groove 52, and the positions of the overflow holes are ensured to be higher than the position of the aluminum pipe 600, so that the aluminum pipe 600 can be conveniently and completely immersed in the glue; the third sealing cover 58 is arranged on the coating through hole 54, a hole for the aluminum pipe 600 to pass through is also arranged on the third sealing cover 58, the third sealing cover 58 has a sealing effect, so that glue cannot flow out from the coating through hole 54, a sponge is arranged in the third sealing cover 58, the aluminum pipe 600 passes through the middle of the sponge, and the sponge can play a role in coating and blocking the glue.
In order to realize automatic glue adding, a glue supply groove 59 is arranged on the gluing machine frame 51, a glue inlet pipe 510 is arranged on the glue inlet 56, the glue inlet pipe 510 is inserted below the glue liquid level in the glue supply groove 59, a vacuum pump 511 is arranged on the glue inlet pipe 510, meanwhile, a manual valve 514 is arranged on the glue inlet pipe 510, the manual valve 514 and the vacuum pump 511 are opened, so that glue can be input into the glue coating groove 52 through the glue supply groove 59, the glue supply groove 59 can be arranged at any position of the gluing machine frame 51 according to requirements, and when the position of the glue supply groove 59 is higher than the glue coating groove 52, the vacuum pump 511 is not used, and the manual valve 514 is directly opened, so that the glue enters the glue coating groove 52 due to gravity; in the scheme, the glue supply groove 59 is arranged below the glue coating groove 52, when the glue coating is stopped, the manual valve 514 is opened, the vacuum pump 511 is closed, the redundant glue can flow back to the glue supply groove 59 along the glue inlet pipe 510, and further, in order to ensure that the glue inlet effect and the glue return effect are better, the glue inlet 56 is arranged on the bottom surface of the glue coating groove 52, meanwhile, the bottom surface of the glue coating groove 52 can be arranged in an inclined shape, and the glue inlet 56 is arranged at the lowest point of the bottom surface of the glue coating groove 52.
As excessive glue enters the
In the glue coating process, in order to prevent dust from falling into the glue, a transparent third cover body can be arranged on the
The glue supply can be controlled automatically, a liquid level sensor is required to be arranged in the
As shown in fig. 16 and 17, the positioning and guiding unit 7 includes a positioning and guiding frame 71, a positioning and guiding fixing plate 72 disposed on the top of the positioning and guiding frame 71, a plurality of guiding roller sets disposed on the positioning and guiding fixing plate 72, a plurality of guiding roller sets sequentially arranged, the plurality of guiding roller sets are composed of a plurality of vertical guiding roller sets 73 and a plurality of transverse guiding roller sets 74, the number of the vertical guiding roller sets 73 and the number of the transverse guiding roller sets 74 can be set according to the transmission distance, the vertical guiding roller sets 73 and the transverse guiding roller sets 74 can be arranged at intervals, that is, the vertical guiding roller sets 73 and the transverse guiding roller sets 74 are sequentially arranged, one transverse guiding roller set 74 is disposed behind one vertical guiding roller set 73, or the aluminum tubes 600 can be arranged in regions, that is, only one transverse guiding roller set 74 or one vertical guiding roller set 73, the aluminum tubes 600 pass through the vertical, in the scheme, two transverse guide roller sets 74 and one vertical guide roller set 73 are combined, the vertical guide roller set 73 is located between the two transverse guide roller sets 74, the vertical guide roller set 73 is used for limiting the movement of the aluminum pipe 600 in the horizontal direction, and the transverse guide roller set 74 is used for limiting the movement of the aluminum pipe 600 in the vertical direction.
The guide roller group consists of two guide rollers arranged side by side, the transverse
The above distance adjusting assembly has different adjusting structures according to the positions where the horizontal guide roller set 74 and the vertical guide roller set 73 are installed.
When the distance adjusting assembly is installed at the bottom of the vertical
Based on the distance adjusting assembly for the
When the distance adjusting assembly is installed at the bottom of the transverse guide roller set 74, the distance adjusting assembly comprises a second supporting
As shown in fig. 18 and 19, the traction unit 10 includes a traction frame 101 and traction devices disposed on the traction frame 101, the traction devices include a plurality of horizontal traction devices 102 and vertical traction devices 103, which are sequentially arranged, but the horizontal traction devices 102 and the vertical traction devices 103 may be disposed in pairs and arranged at intervals, and in this scheme, only one horizontal traction device 102 and one vertical traction device 103 need to be employed; the transverse traction device 102 comprises a transverse traction support, a transverse traction pair arranged on the transverse traction support and a transverse traction driving assembly for driving the transverse traction pair to rotate, the transverse traction pair of the transverse traction device 102 is transversely arranged, so that the generated clamping force is in the vertical direction, the vertical clamping force is increased if the friction is increased, the aluminum pipe 600 is deformed vertically, and the deformed aluminum pipe 600 needs to be shaped in order to ensure the quality of the aluminum pipe 600, so that the vertical traction device 103 is added; vertical draw gear 103 includes vertical traction support, set up vertical traction on vertical traction support to and drive vertical traction to the vertical drive assembly that pulls of pivoted, vertical traction of vertical draw gear 103 is vertical to placing for the clamping-force that produces is the fore-and-aft direction, and the aluminum pipe 600 after the deformation enters into vertical traction to between, and vertical clamping-force carries out the plastic to the aluminum pipe 600 after the deformation.
The transverse traction driving assembly and the vertical traction driving assembly in the structure have two arrangement modes, the first mode is that the transverse traction driving assembly and the vertical traction driving assembly adopt two sets of traction driving assemblies, the two sets of traction driving assemblies have the same structure and comprise traction motors and gear sets driven by the traction motors, the two sets of traction driving assemblies are respectively driven corresponding to respective traction devices, the traction mode has stronger power, but the two sets of traction driving assemblies are controlled by two different traction motors, and the synchronism between the transverse traction pair and the vertical traction pair is poor; and secondly, the transverse traction driving assembly and the vertical traction driving assembly adopt the same set of traction driving assembly, the rotation of the same traction motor is output to the transverse traction device and the vertical traction device through a gear structure, the synchronous rotation of the transverse traction pair and the vertical traction pair is realized, and the synchronism is better.
In order to adapt to traction of different pipe diameters, a transverse traction pair and a vertical traction pair are required to be set in an adjustable mode, the
The transverse adjusting assembly comprises a
The vertical adjusting assembly comprises a second guide pillar arranged on the vertical traction support and a vertical motor for driving the vertical traction pair to move, and the two second guide pillars are arranged to enable the movement to be more stable; the vertical traction pair comprises a vertical fixed
In conclusion, the material discharging unit 1 can adjust the coaxiality and the synchronism of the
It is to be emphasized that: the above embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any way, and all simple modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.
- 上一篇:一种医用注射器针头装配设备
- 下一篇:一种家具防腐蚀方法