CN109327793B

CN109327793B - Aluminum foil forming paper pasting machine

Info

Publication number: CN109327793B
Application number: CN201810943215.5A
Authority: CN
Inventors: 黄瑞; 程新宝; 刘继仕
Original assignee: Heyin Electronic Technology Dongguan Co ltd
Current assignee: Heyin Electronic Technology Dongguan Co ltd
Priority date: 2018-08-17
Filing date: 2018-08-17
Publication date: 2020-11-13
Anticipated expiration: 2038-08-17
Also published as: CN109327793A

Abstract

The invention relates to the technical field of voice coil framework manufacturing, in particular to an aluminum foil forming and paper pasting machine which comprises a forming mechanism, an aluminum foil feeding mechanism and a paper tape feeding mechanism, wherein the forming mechanism is used for forming an aluminum foil on a surface of a voice coil framework; forming mechanism includes the forming roll, is used for making the surface of forming roll form vacuum state's shaping evacuation ware, be used for ordering about the aluminium foil near the roller components of forming roll and be used for driving forming roll pivoted shaping driving piece, roller components with be formed with between the forming roll and hold the aluminium space, aluminium foil feeding mechanism is used for to holding aluminium space transport aluminium foil, paper tape feeding mechanism is used for carrying the paper tape to the forming roll. The aluminum foil is driven to be coated on the surface of the forming roller by the forming vacuumizing device and the roller assembly so that the aluminum foil is in a cylindrical shape, and the forming roller is rotated after coating so that the sticky paper tape is adhered to the periphery of the aluminum foil, so that the production automation of the voice coil framework is realized, and the production efficiency and the manufacturing precision of the voice coil framework are improved.

Description

Aluminum foil forming paper pasting machine

Technical Field

The invention relates to the technical field of voice coil framework manufacturing, in particular to an aluminum foil forming and paper pasting machine.

Background

The voice coil is a coil through which an audio current flows, and is an important component of an electrodynamic loudspeaker vibration system, and may be said to be the heart of the loudspeaker. The performance of the voice coil affects the sound pressure frequency characteristics of the speaker, and is also related to the power and life of the speaker. Therefore, the voice coil needs to be wound around the voice coil bobbin to prevent the voice coil from being deformed when in use. The manufacturing process of the voice coil framework mainly comprises two parts, namely, a sheet material (such as aluminum foil) which has certain hardness and can be shaped is bent into a cylindrical framework, and a paper tape is attached to the periphery of the cylindrical framework. At present, the voice coil framework is manufactured manually, but because the force applied by workers to each aluminum foil is different, the manually manufactured framework has shape errors and low precision. Meanwhile, manual manufacturing consumes a long time, and production efficiency is not improved easily.

Disclosure of Invention

The invention provides an aluminum foil forming and pasting machine which can improve the production efficiency of a voice coil framework and improve the manufacturing precision of the voice coil framework aiming at the problems in the prior art.

The invention adopts the following technical scheme: an aluminum foil forming and paper pasting machine comprises a forming mechanism, an aluminum foil feeding mechanism and a paper tape feeding mechanism; forming mechanism includes the forming roll, is used for making the surface of forming roll form vacuum state's shaping evacuation ware, be used for ordering about the aluminium foil near the roller components of forming roll and be used for driving forming roll pivoted shaping driving piece, roller components with be formed with between the forming roll and hold the aluminium space, aluminium foil feeding mechanism is used for to holding aluminium space transport aluminium foil, paper tape feeding mechanism is used for carrying the paper tape to the forming roll.

Preferably, the roller assembly comprises a roller seat, a roller driving part for driving the roller seat to ascend and descend, and a first roller and a second roller which are rotatably connected with the roller seat, and the forming roller is positioned above the space between the first roller and the second roller.

Preferably, the forming roll is provided with a plurality of vacuum holes for communicating the inside of the forming roll with the outside of the forming roll, and the output end of the forming vacuum extractor is communicated with the inside of the forming roll.

Preferably, the paper tape feeding mechanism comprises a first feeding frame, a second feeding frame connected with the first feeding frame in a sliding manner, a first driving piece used for driving the first feeding frame to move longitudinally, and a second driving piece used for driving the second feeding frame to move transversely on the first feeding frame, and the second driving piece is fixed on the first feeding frame; the paper tape feeding mechanism further comprises a paper tape storage wheel positioned above the forming roller and a rotary driving piece fixed on the second feeding frame, the paper tape storage wheel is rotatably connected with the second feeding frame, and the output end of the rotary driving piece is connected with the paper tape storage wheel; the paper tape feeding mechanism further comprises a blade for cutting off the paper tape, a third driving piece for driving the blade to lift and a fourth driving piece for driving the blade to move longitudinally.

Preferably, the paper tape feeding mechanism further comprises a fixed seat, a compression roller and a fifth driving piece, the compression roller is used for being in contact with the forming roller, the fifth driving piece is fixed on the fixed seat, the fifth driving piece is used for driving the compression roller to ascend and descend, the fixed seat is connected with the output end of the fourth driving piece, and the third driving piece is fixed on the fixed seat.

Preferably, the aluminum foil feeding mechanism comprises an aluminum foil storage wheel, a cutting assembly for cutting the aluminum foil, a bending assembly for bending the aluminum foil, a first conveying assembly for conveying the aluminum foil from the aluminum foil storage wheel to the cutting assembly, and a second conveying assembly for conveying the cut aluminum foil to the bending assembly; and the discharge end of the bending assembly is communicated with the feeding end of the aluminum containing space.

Preferably, the bending assembly comprises a fixed part, and a first shaping roller and a second shaping roller which are both rotationally connected with the fixed part; the bending component further comprises a molding driving piece used for driving the first molding roller to rotate, a molding channel is formed between the first molding roller and the second molding roller, the feeding end of the molding channel is communicated with the discharging end of the second conveying component, and the discharging end of the molding channel is communicated with the feeding end of the aluminum containing space.

Preferably, the bending assembly further comprises a conveyor belt and a conveying driving member for driving the conveyor belt to move, and the discharge end of the second conveying assembly is communicated with the feeding end of the shaping channel after passing through the conveyor belt.

Preferably, the second conveying assembly comprises a first suction cup arranged at the discharge end of the cutting assembly, a second suction cup used for sucking the top of the aluminum foil, a first suction driving piece used for driving the first suction cup to move, and a second suction driving piece used for driving the second suction cup to move, the second suction cup is used for conveying the aluminum foil on the first suction cup to the conveying belt, and the first suction cup is used for sucking the bottom of the aluminum foil.

Preferably, the first conveying assembly comprises a fixed frame, a clamp for clamping the aluminum foil discharged by the aluminum foil storage wheel and a first clamping driving piece for driving the clamp to enter the cutting assembly, the aluminum foil storage wheel is rotatably connected with the fixed frame, and the first clamping driving piece is fixed on the fixed frame;

the first conveying assembly further comprises a bearing roller which is rotatably connected with the fixing frame, and the aluminum foil discharged by the aluminum foil storage wheel passes through the bearing roller and then is clamped by a clamp;

anchor clamps include with mount sliding connection's holder, by the projecting traveller that forms of holder, setting are in the traveller is kept away from the first grip block of the one end of holder, with traveller sliding connection's second grip block and be used for driving the second grip block second centre gripping driving piece that removes, be formed with the aluminium foil passageway that supplies the aluminium foil to pass through between first grip block and the second grip block.

The invention has the beneficial effects that: the aluminum foil is driven to be coated on the surface of the forming roller by the forming vacuumizing device and the roller assembly so that the aluminum foil is in a cylindrical shape, and the forming roller is rotated after coating so that the sticky paper tape is adhered to the periphery of the aluminum foil, so that the production automation of the voice coil framework is realized, and the production efficiency and the manufacturing precision of the voice coil framework are improved.

Drawings

Fig. 1 is a perspective view of the present invention.

FIG. 2 is a perspective view of the present invention with the first transport assembly and the cutting assembly hidden.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a perspective view of the aluminum foil feeding mechanism of the present invention.

Fig. 5 is a perspective view of the jig of the present invention.

The reference signs are: 1-an aluminum foil feeding mechanism, 11-an aluminum foil storage wheel, 12-a cutting assembly, 13-a bending assembly, 131-a fixing member, 132-a first shaping roller, 133-a second shaping roller, 134-a shaping driving member, 135-a conveyor belt, 136-a conveying driving member, 14-a first conveying assembly, 141-a fixing frame, 142-a clamp, 1421-a clamping seat, 1422-a slide column, 1423-a first clamping block, 1424-a second clamping block, 1425-a second clamping driving member, 143-a first clamping driving member, 15-a second conveying assembly, 151-a first suction cup, 152-a second suction cup, 153-a first suction driving member, 154-a second suction driving member, 155-a bearing roller, 3-a forming mechanism, 31-a forming roller, 311-a vacuum hole, 32-a forming vacuumizer, 33-a roller assembly, 331-a roller seat, 332-a roller driving member, 333-a first roller, 334-a second roller, 34-molding driving part, 4-paper tape feeding mechanism, 41-first feeding frame, 42-second feeding frame, 43-first driving part, 44-second driving part, 45-paper tape storage wheel, 46-rotating driving part, 47-blade, 48-third driving part, 49-fourth driving part, 5-fixing seat, 51-compression roller and 52-fifth driving part.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention is described in detail below with reference to the attached drawings.

As shown in fig. 1 to 3, an aluminum foil forming and pasting machine comprises a forming mechanism 3, an aluminum foil feeding mechanism 1 and a paper tape feeding mechanism 4; forming mechanism 3 includes forming roll 31, is used for making forming roll 31's surface form vacuum state's shaping evacuation ware 32, is used for driving the aluminium foil near forming roll 31's roller assembly 33 and is used for driving forming roll 31 pivoted shaping driving piece 34, roller assembly 33 with be formed with between the forming roll 31 and hold the aluminium space, aluminium foil feeding mechanism 1 is used for holding the aluminium space and carries the aluminium foil, paper tape feeding mechanism 4 is used for carrying the paper tape to forming roll 31.

After aluminium foil feeding mechanism 1 transported the aluminium foil to holding the aluminium space, wheel components 33 removed, ordered about the aluminium foil and be close to into grooved roll 31, and shaping evacuation ware 32 makes into grooved roll 31's surface be vacuum state, and consequently there is the adsorption affinity to the aluminium foil on into grooved roll 31's surface for the aluminium foil cladding is in into grooved roll 31's periphery. The tape feed mechanism 4 then feeds the tape to the forming roller 31. The paper tape is wetted by alcohol before being conveyed, so that the paper tape has certain viscosity. The end of the paper tape is adhered to the aluminum foil coated on the periphery of the forming roller 31, the forming driving member 34 drives the forming roller 31 to rotate, and the aluminum foil is driven by the forming roller 31 to rotate, so that the paper tape is adhered to the periphery of the aluminum foil. According to the invention, the aluminum foil is driven to be coated on the surface of the forming roller 31 by using the forming vacuumizing device 32 and the roller assembly 33, so that the aluminum foil is in a cylindrical shape, and the forming roller 31 is rotated after coating, so that a sticky paper tape is adhered to the periphery of the aluminum foil, thereby realizing the automation of the production of the voice coil framework, and further improving the production efficiency and the manufacturing precision of the voice coil framework.

As shown in fig. 3, the roller assembly 33 includes a roller base 331, a roller driver 332 for driving the roller base 331 to ascend and descend, and a first roller 333 and a second roller 334 both rotatably connected to the roller base 331, and the forming roller 31 is located above the space between the first roller 333 and the second roller 334. The roller base 331 drives the first roller 333 and the second roller 334 to rise, so that the forming roller 31 presses between the first roller 333 and the second roller 334, thereby bending the aluminum foil above the first roller 333 and the second roller 334, and then the aluminum foil is further bent into a cylindrical shape under the adsorption force of the surface of the forming roller 31 and is wrapped on the periphery of the forming roller 31, thereby completing the forming of the aluminum foil. The aluminum foil is bent by the first and

second rollers

333 and 334 so that the forming roller 31 adsorbs both sides of the aluminum foil, thereby rapidly forming the aluminum foil.

As shown in fig. 3, the forming roll 31 is provided with a plurality of vacuum holes 311 for communicating the inside of the forming roll 31 with the outside of the forming roll 31, and the output end of the forming vacuum pump 32 communicates with the inside of the forming roll 31. The vacuum holes 311 are used to form a vacuum state on the surface of the forming roller 31, and the structure is simple and practical. While the user can change the suction force of the forming roll 31 at different positions by changing the number of vacuum holes 311 at different positions on the forming roll 31. If the aluminum foils on both sides of the forming roller 31 are farther apart from the forming roller 31 than the aluminum foils at the bottom of the forming roller 31 after the roller assembly 33 drives the aluminum foils to approach the forming roller 31, a larger suction force is required on both sides of the forming roller 31, and a user can arrange more vacuum holes 311 on both sides of the forming roller 31 to enhance the suction force on both sides of the forming roller 31.

As shown in fig. 2, the tape feeding mechanism 4 includes a first feeding rack 41, a second feeding rack 42 slidably connected to the first feeding rack 41, a first driving member 43 for driving the first feeding rack 41 to move longitudinally, and a second driving member 44 for driving the second feeding rack 42 to move laterally on the first feeding rack 41, wherein the second driving member 44 is fixed to the first feeding rack 41; the tape feeding mechanism 4 further comprises a tape storage wheel 45 positioned above the forming roller 31 and a rotary driving member 46 fixed to the second feeding frame 42, the tape storage wheel 45 is rotatably connected with the second feeding frame 42, and an output end of the rotary driving member 46 is connected with the tape storage wheel 45; the paper tape feeding mechanism 4 further comprises a blade 47 for cutting the paper tape, a third driving member 48 for driving the blade 47 to ascend and descend, and a fourth driving member 49 for driving the blade 47 to move longitudinally. The first driving member 43 and the second driving member 44 drive the paper tape storage wheel 45 to be close to the forming roller 31, after the paper tape storage wheel 45 reaches the side of the forming roller 31, the driving member 46 is rotated to drive the paper tape storage wheel 45 to unreel, the paper tape falling from the paper tape storage wheel 45 is in contact with the forming roller 31, and the end part of the paper tape is adhered to the aluminum foil coated on the periphery of the forming roller 31. The forming roller 31 then rotates the aluminum foil so that the paper tape is adhered to the outer periphery of the aluminum foil. After the pasting is completed, the second driving member 44 drives the tape storage wheel 45 to move transversely to give way to the blade 47, and at this time, the tape is tensioned by the tape storage wheel 45 and the forming roller 31, so that the surface has a certain tension. The fourth drive member 49 drives the blade 47 to move over the tape and the third drive member 48 drives the blade 47 down and cuts the tape, thereby separating the tape on the aluminum foil from the tape on the tape magazine roll.

As shown in fig. 2, the paper tape feeding mechanism 4 further includes a fixing seat 5, a pressing roller 51 for contacting with the forming roller 31, and a fifth driving member 52 fixed to the fixing seat 5, wherein the fifth driving member 52 is used for driving the pressing roller 51 to move up and down, the fixing seat 5 is connected to an output end of the fourth driving member 49, and the third driving member 48 is fixed to the fixing seat 5. After the paper tape is pasted on the periphery of the aluminum foil, the second driving piece 44 drives the paper tape storage wheel 45 to move transversely, the fourth driving piece 49 drives the fixed seat 5 to move transversely, and therefore the pressing roller 51 is located above the forming roller 31, and the blade 47 is located above the paper tape. The fifth drive 52 drives the platen roller 51 down so that the platen roller 51 presses against the form roller 31, and then the third drive 48 drives the blade 47 down and cuts the web. The paper tape is tightly pressed on the aluminum foil coated on the periphery of the forming roller 31 by using the compression roller 51, so that the blade 47 is prevented from driving the paper tape on the aluminum foil to be separated from the aluminum foil after cutting off the paper tape, and then the yield of finished products is ensured.

As shown in fig. 3 and 4, the aluminum foil feeding mechanism 1 includes an aluminum foil stock wheel 11, a cutting assembly 12 for cutting the aluminum foil, a bending assembly 13 for bending the aluminum foil, a first conveying assembly 14 for conveying the aluminum foil from the aluminum foil stock wheel 11 to the cutting assembly 12, and a second conveying assembly 15 for conveying the cut aluminum foil to the bending assembly 13; the discharge end of the bending assembly 13 is communicated with the feeding end of the aluminum containing space. The farther the aluminum foil is from the forming roller 31, the greater the suction force required for the forming roller 31 to suck the aluminum foil. After the roller assembly 33 drives the aluminum foil to press the forming roller 31, the middle part of the aluminum foil is bent, but the end part of the aluminum foil is still in a straight state, so that the end part of the aluminum foil is far away from the forming roller 31, and the required adsorption force is large. Utilize crooked subassembly 13 to bend the aluminium foil for the aluminium foil has certain radian before getting into and holds the aluminium space, thereby makes the aluminium foil receive wheel components 33 and forming roll 31's extrusion back, and the tip of aluminium foil is close apart from forming roll 31 distance, and the forming roll 31 of being convenient for adsorbs the aluminium foil.

As shown in fig. 3, the bending assembly 13 includes a fixed member 131, and a first shaping roller 132 and a second shaping roller 133 both rotatably connected to the fixed member 131; bending component 13 is still including being used for driving first moulding roller 132 pivoted moulding driving piece 134, be formed with moulding passageway between first moulding roller 132 and the second moulding roller 133, the pan feeding end of moulding passageway and the discharge end intercommunication of second conveying component 15, the discharge end of moulding passageway with hold the pan feeding end intercommunication in aluminium space. After the aluminum foil enters the shaping channel, the second shaping roller 133 presses the aluminum foil above the aluminum foil, the first shaping roller 132 drives the aluminum foil to move forward, and the part of the aluminum foil which is not pressed by the second shaping roller 133 can tilt relative to the pressed part, so that the aluminum foil has a radian after the whole aluminum foil passes through the shaping channel.

As shown in fig. 3 and 4, the bending assembly 13 further includes a conveyor belt 135 and a conveying driving member 136 for driving the conveyor belt 135 to move, and the discharging end of the second conveying assembly 15 is communicated with the feeding end of the shaping channel after passing through the conveyor belt 135. The aluminum foil is transferred by the transfer belt 135 to ensure that the aluminum foil smoothly enters the bending assembly 13 to prevent the asymmetry of the radians formed at both ends of the aluminum foil.

As shown in fig. 3 and 4, the second conveying assembly 15 includes a first suction cup 151 disposed at the discharging end of the cutting assembly 12, a second suction cup 152 for sucking the top of the aluminum foil, a first suction driving member 153 for driving the first suction cup 151 to move, and a second suction driving member 154 for driving the second suction cup 152 to move, wherein the second suction cup 152 is used for transporting the aluminum foil on the first suction cup 151 to the conveyor belt 135, and the first suction cup 151 is used for sucking the bottom of the aluminum foil. The aluminum foil cut by the cutting assembly 12 tends to fall due to gravity when discharged. Make first sucking disc 151 adsorb the aluminium foil bottom, can play the supporting effect to the aluminium foil when the aluminium foil whereabouts, prevent that first sucking disc 151 from leading to adsorbing the unstability to the unable gravity of overcoming of adsorption affinity of aluminium foil. To ensure that the aluminum foil can be stably transferred by the transfer belt 135, it is necessary to place the aluminum foil on the transfer belt 135 from top to bottom. The top of the aluminum foil is sucked and conveyed above the conveyor belt 135 by the second suction cups 152 so that the aluminum foil can fall from above the conveyor belt 135 to the conveyor belt 135.

As shown in fig. 4 and 5, the first conveying assembly 14 includes a fixing frame 141, a clamp 142 for clamping the aluminum foil discharged from the aluminum foil storage wheel 11, and a first clamping driving member 143 for driving the clamp 142 into the cutting assembly 12, the aluminum foil storage wheel 11 is rotatably connected to the fixing frame 141, and the first clamping driving member 143 is fixed to the fixing frame 141. The clamp 142 clamps the aluminum foil and transports the aluminum foil to the cutting assembly 12, and the aluminum foil moves to drive the aluminum foil storage wheel 11 to rotate, so that the aluminum foil storage wheel 11 is automatically unreeled. The clamping of the clamp 142 fixes the aluminum foil, which prevents the aluminum foil from shifting when the aluminum foil is cut by the cutting assembly 12. After the cutting assembly 12 has finished cutting, the clamp 142 releases the aluminum foil and moves back, and after moving to a certain position, clamps the aluminum foil again and drives it into the cutting assembly 12, and so on.

The first conveying assembly 14 further includes a supporting roller 155 rotatably connected to the fixing frame 141, and the aluminum foil discharged from the aluminum foil storage wheel 11 passes through the supporting roller 155 and is then clamped by the clamp 142. Gravity causes the aluminum foil between the clamp 142 and the aluminum foil stock wheel 11 to sag, resulting in the clamp 142 not being able to grip the aluminum foil. Utilize bearing roller 155 bearing aluminium foil can reduce the flagging degree of aluminium foil, guarantee that anchor clamps 142 can press from both sides tight aluminium foil. Meanwhile, the friction between the carrier roller 155 and the aluminum foil is rolling friction, and the friction force is small, so that the increase of the movement resistance of the clamp 142 caused by the friction force can be prevented.

The fixture 142 includes a clamping seat 1421 slidably connected to the fixing frame 141, a plunger 1422 formed by projecting the clamping seat 1421, a first clamping block 1423 disposed at an end of the plunger 1422 away from the clamping seat 1421, a second clamping block 1424 slidably connected to the plunger 1422, and a second clamping driving member 1425 for driving the second clamping block 1424 to move, wherein an aluminum foil channel for passing an aluminum foil is formed between the first clamping block 1423 and the second clamping block 1424. When the second clamping block 1424 is close to the first clamping block 1423, the aluminum foil is clamped, and when the second clamping block 1424 is far from the first clamping block 1423, the aluminum foil is not clamped. The slider 1422 is used to limit the moving track of the second clamping block 1424, thereby effectively preventing the second clamping block 1424 from being misaligned with the first clamping block 1423 and being unable to stably clamp the aluminum foil.

Although the present invention has been described with reference to the above preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. An aluminum foil forming sticker machine which characterized in that: comprises a forming mechanism (3), an aluminum foil feeding mechanism (1) and a paper tape feeding mechanism (4); the forming mechanism (3) comprises a forming roller (31), a forming vacuumizing device (32) for enabling the surface of the forming roller (31) to be in a vacuum state, a roller assembly (33) for driving the aluminum foil to be close to the forming roller (31) and a forming driving piece (34) for driving the forming roller (31) to rotate, an aluminum containing space is formed between the roller assembly (33) and the forming roller (31), the aluminum foil feeding mechanism (1) is used for conveying the aluminum foil to the aluminum containing space, and the paper tape feeding mechanism (4) is used for conveying a paper tape to the forming roller (31);

the roller assembly (33) comprises a roller seat (331), a roller driving piece (332) used for driving the roller seat (331) to ascend and descend, a first roller (333) and a second roller (334) which are rotatably connected with the roller seat (331), and the forming roller (31) is located above the space between the first roller (333) and the second roller (334).

2. The machine for forming and pasting aluminum foil according to claim 1, characterized in that: the forming roller (31) is provided with a plurality of vacuum holes (311) used for communicating the inside of the forming roller (31) with the outside of the forming roller (31), and the output end of the forming vacuumizer (32) is communicated with the inside of the forming roller (31).

3. The machine for forming and pasting aluminum foil according to claim 1, characterized in that: the paper tape feeding mechanism (4) comprises a first feeding frame (41), a second feeding frame (42) connected with the first feeding frame (41) in a sliding mode, a first driving piece (43) used for driving the first feeding frame (41) to move longitudinally, and a second driving piece (44) used for driving the second feeding frame (42) to move transversely on the first feeding frame (41), and the second driving piece (44) is fixed to the first feeding frame (41); the paper tape feeding mechanism (4) further comprises a paper tape storage wheel (45) positioned above the forming roller (31) and a rotary driving piece (46) fixed on the second feeding frame (42), the paper tape storage wheel (45) is rotatably connected with the second feeding frame (42), and the output end of the rotary driving piece (46) is connected with the paper tape storage wheel (45);

the paper tape feeding mechanism (4) further comprises a blade (47) for cutting the paper tape, a third driving piece (48) for driving the blade (47) to ascend and descend and a fourth driving piece (49) for driving the blade (47) to move longitudinally.

4. The machine for forming and pasting aluminum foil as claimed in claim 3, wherein: the paper tape feeding mechanism (4) further comprises a fixed seat (5), a pressing roller (51) and a fifth driving piece (52), wherein the pressing roller (51) is used for being in contact with the forming roller (31), the fifth driving piece (52) is fixed on the fixed seat (5) and used for driving the pressing roller (51) to ascend and descend, the fixed seat (5) is connected with an output end of the fourth driving piece (49), and the third driving piece (48) is fixed on the fixed seat (5).

5. The machine for forming and pasting aluminum foil according to claim 1, characterized in that: the aluminum foil feeding mechanism (1) comprises an aluminum foil storage wheel (11), a cutting assembly (12) for cutting the aluminum foil, a bending assembly (13) for bending the aluminum foil, a first conveying assembly (14) for conveying the aluminum foil from the aluminum foil storage wheel (11) to the cutting assembly (12), and a second conveying assembly (15) for conveying the cut aluminum foil to the bending assembly (13);

the discharge end of the bending component (13) is communicated with the feeding end of the aluminum containing space.

6. The machine for forming and pasting aluminum foil according to claim 5, characterized in that: the bending assembly (13) comprises a fixed piece (131) and a first shaping roller (132) and a second shaping roller (133) which are rotatably connected with the fixed piece (131); crooked subassembly (13) still including being used for driving first moulding roller (132) pivoted moulding driving piece (134), be formed with moulding passageway between first moulding roller (132) and the second moulding roller (133), the pan feeding end of moulding passageway and the discharge end intercommunication of second conveying component (15), the discharge end of moulding passageway with hold the pan feeding end intercommunication in aluminium space.

7. The machine for forming and pasting aluminum foil as claimed in claim 6, wherein: the bending component (13) further comprises a conveyor belt (135) and a conveying driving component (136) used for driving the conveyor belt (135) to move, and the discharging end of the second conveying component (15) is communicated with the feeding end of the shaping channel after passing through the conveyor belt (135).

8. The machine for forming and pasting aluminum foil as claimed in claim 7, wherein: the second conveying assembly (15) comprises a first sucking disc (151) arranged at the discharge end of the cutting assembly (12), a second sucking disc (152) used for adsorbing the top of the aluminum foil, a first adsorption driving piece (153) used for driving the first sucking disc (151) to move and a second adsorption driving piece (154) used for driving the second sucking disc (152) to move, the second sucking disc (152) is used for conveying the aluminum foil on the first sucking disc (151) to the conveying belt (135), and the first sucking disc (151) is used for adsorbing the bottom of the aluminum foil.

9. The machine for forming and pasting aluminum foil according to claim 5, characterized in that: the first conveying assembly (14) comprises a fixed frame (141), a clamp (142) used for clamping the aluminum foil discharged by the aluminum foil storage wheel (11) and a first clamping driving piece (143) used for driving the clamp (142) to enter the cutting assembly (12), the aluminum foil storage wheel (11) is rotatably connected with the fixed frame (141), and the first clamping driving piece (143) is fixed on the fixed frame (141);

the first conveying assembly (14) further comprises a bearing roller (155) rotatably connected with the fixing frame (141), and aluminum foil discharged by the aluminum foil storage wheel (11) passes through the bearing roller (155) and then is clamped by a clamp (142);

the clamp (142) comprises a clamping seat (1421) in sliding connection with the fixing frame (141), a sliding column (1422) formed by the protrusion of the clamping seat (1421), a first clamping block (1423) arranged at one end, far away from the clamping seat (1421), of the sliding column (1422), a second clamping block (1424) in sliding connection with the sliding column (1422) and a second clamping driving piece (1425) used for driving the second clamping block (1424) to move, wherein an aluminum foil channel for passing an aluminum foil is formed between the first clamping block (1423) and the second clamping block (1424).