CN211389007U - Discharge mechanism and aluminum foil machine - Google Patents

Abstract

The utility model discloses a discharging mechanism and an aluminum foil machine, wherein the discharging mechanism comprises a feeding table, a crease clamp wheel and a stop piece, the feeding table is arranged at one side of the discharging end for receiving an aluminum foil pipe; the crease clamp wheel is arranged on the feeding table and positioned in the discharging direction of the discharging end, and the crease clamp wheel is used for being abutted against the aluminum foil pipe so as to enable the outer wall of the aluminum foil pipe to form a crease groove; the stop piece and the crease clamp wheel are arranged at intervals in the discharging direction, the stop piece is arranged on the feeding table and is positioned on one side, away from the discharging end, of the crease clamp wheel, and the stop piece is provided with a protrusion capable of being contained in the crease groove. The utility model discloses technical scheme aims at improving the production stability and the production efficiency of aluminium foil pipe, guarantees the productivity of aluminium foil pipe.

Description

Discharge mechanism and aluminum foil machine

Technical Field

The utility model relates to a material processing technology field, in particular to ejection of compact mechanism and applied this ejection of compact mechanism's aluminium foil machine.

Background

The aluminum foil pipe is a pipe formed by winding aluminum foil, has the characteristics of oil resistance and aging resistance, can be freely bent and stretched and compressed, and is widely applied to the fields of central air-conditioning exhaust pipes, smoke exhaust ventilator air pipes, automobile oil pipe protective sleeves and the like. When the aluminium foil pipe production preparation, the discharge end by the aluminium foil machine lasts the ejection of compact, and when the great longer term of aluminium foil pipe of production, the tip of aluminium foil pipe compresses after easy and wall body butt, and the aluminium foil pipe that can the fashioned position department of crease receives the power of compression when compressing to the certain degree and leads to the dysmorphism, and then cause the aluminium foil pipe to damage, and when the great longer term of aluminium foil pipe of production, whole equipment occupation space is great, the manpower that needs is also more, the intensity of labour of compression is great.

The above is only for the purpose of assisting understanding of the technical solutions of the present application, and does not represent an admission that the above is prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a discharge mechanism aims at improving the production stability and the production efficiency of aluminium foil pipe, guarantees the productivity of aluminium foil pipe.

In order to achieve the above object, the utility model provides a discharge mechanism is applied to the aluminium foil machine, discharge mechanism includes:

the feeding table is used for receiving the aluminum foil pipe;

the crease clamp wheel is arranged on the feeding table and positioned in the discharging direction of the aluminum foil pipe, and the crease clamp wheel is used for being abutted against the aluminum foil pipe so as to enable the outer wall of the aluminum foil pipe to form a crease groove; and

the stop piece and the crease clamp wheel are arranged at intervals in the discharging direction, the stop piece is arranged on the feeding table and provided with a bulge capable of being contained in the crease groove, and the aluminum foil pipe sequentially passes through the crease clamp wheel and the stop piece along the discharging direction.

In an embodiment of this application, the stop member includes connecting block and spacing card wheel, the connecting block connect in the pay-off platform, the arch is located spacing card wheel, spacing card wheel rotate connect in the connecting block, the rotation direction of spacing card wheel with the rotation direction of aluminum foil pipe is the same.

In an embodiment of this application, protruding quantity is a plurality of, and is a plurality of protruding in the surface of spacing calorie of wheel is followed discharge direction interval sets up.

In an embodiment of the present application, the feeding table comprises:

the folding line clamping wheel is connected with the fixed frame;

the two ends of each feeding guide rail are rotatably connected to the fixing frame, and a feeding groove for bearing the aluminum foil pipe is formed between the two feeding guide rails; and

the driving assembly is connected to the fixing frame and the stop piece and drives the stop piece to move relative to the fixing frame.

In an embodiment of the present application, the driving assembly includes:

the translation driving piece is fixedly connected to the fixed frame;

the transmission belt is arranged on the fixed frame and is connected with the driving end of the translation driving piece; and

a connecting plate connected with the driving belt and the stopper, respectively;

the translation driving piece drives the transmission belt to transmit so as to drive the connecting plate and the stop piece to move in the discharging direction.

In an embodiment of the application, the driving assembly further includes a guide tube, a length extending direction of the guide tube is the same as the discharging direction, the connecting plate is provided with a connecting hole, the guide tube passes through the connecting hole and is connected with the fixing frame, and when the translational driving member drives the connecting plate to move, the connecting plate moves on the guide tube.

In an embodiment of the application, the driving assembly further includes a lifting driving member, the lifting driving member is connected to the connecting plate, and a driving end of the lifting driving member is connected to the stopping member, so that the stopping member can move up and down relative to the fixing frame.

In an embodiment of this application, the pay-off platform still includes guide rail rotation driving spare, guide rail rotation driving spare is located the mount, guide rail rotation driving spare's drive end and wherein two the pay-off guide rail is connected to drive wherein two the pay-off guide rail rotates for the mount.

The utility model also provides an aluminium foil machine, including discharge mechanism, discharge mechanism includes:

the feeding table is used for receiving the aluminum foil pipe;

the crease clamp wheel is arranged on the feeding table and positioned in the discharging direction of the aluminum foil pipe, and the crease clamp wheel is used for being abutted against the aluminum foil pipe so as to enable the outer wall of the aluminum foil pipe to form a crease groove; and

the stop piece and the crease clamp wheel are arranged at intervals in the discharging direction, the stop piece is arranged on the feeding table and provided with a bulge capable of being contained in the crease groove, and the aluminum foil pipe sequentially passes through the crease clamp wheel and the stop piece along the discharging direction.

The utility model discloses technical scheme's discharge mechanism is applied to the aluminium foil machine, accepts the aluminium foil pipe through discharge mechanism's pay-off platform to provide the holding power for the transportation of aluminium foil pipe. Secondly still be equipped with the crease card wheel in the pay-off platform and lie in the discharge direction of discharge end, this crease card wheel is used for with aluminium foil pipe butt to make aluminium foil pipe's outer wall form the crease groove, so come to aluminium foil pipe machine-shaping crease groove through the crease card wheel, so that aluminium foil pipe has the function that can be folded the compression. Simultaneously discharge mechanism is including locating the stop member of pay-off platform, and this stop member sets up with crease card wheel interval in ejection of compact direction, and the stop member is equipped with the arch that can hold in the crease groove, and the aluminium foil pipe passes through crease card wheel and stop member along ejection of compact direction in proper order. Therefore, when the aluminum foil pipe passing through the crease clamp wheel moves along the discharging direction by arranging the stop piece with the bulge, the bulge can be accommodated in the crease groove. Thereby when external force makes the aluminium foil pipe compress on the pay-off bench, this arch can play the spacing effect of backstop to make the aluminium foil pipe can not receive external force and folding compression in crease truckle department, thereby shaping ejection of compact that can be stable, the in-process of avoiding the aluminium foil pipe ejection of compact leads to the dysmorphism. Meanwhile, the formed aluminum foil pipe can be pre-folded on the feeding table through the stop part, so that the occupation of a large space is avoided, manual moving is facilitated, the production stability and the production efficiency of the aluminum foil pipe are improved, and the yield of the aluminum foil pipe is also ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of an aluminum foil machine of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic structural view of another view angle of the aluminum foil machine of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at B;

FIG. 5 is an enlarged view of a portion of FIG. 3 at C;

fig. 6 is a schematic structural view of another viewing angle of the aluminum foil machine of the present invention;

fig. 7 is a schematic structural view of another view angle of the aluminum foil machine of the present invention;

FIG. 8 is an enlarged view of a portion of FIG. 7 at D;

fig. 9 is a schematic view of a partial structure of the aluminum foil pipe of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				1000	Aluminum foil machine	16	Guide rail rotation driving piece
100	Discharging mechanism	17	Connecting rod
				10	Feeding table	20	Folding line clamp wheel
11	Fixing frame	30	Stop piece
				12	Feeding guide rail	31	Connecting block
13	Drive assembly	32	Limiting clamping wheel
				131	Translational driving piece	321	Projection
132	Transmission belt	40	Rotating member
				133	Connecting plate	41	Rotating shaft
1331	Connecting hole	411	Connecting part
				134	Guide tube	412	First rotating part
135	Lifting driving piece	413	Second rotating part
				14	Tail plate	200	Discharge end
141	Let a mouthful	2000	Aluminum foil pipe
				15	Moving assembly	2001	Creasing groove
151	Driving cylinder

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B," including either the A or B arrangement, or both A and B satisfied arrangement. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a discharge mechanism 100 is applied to aluminium foil machine 1000.

In the embodiment of the present invention, referring to fig. 1, fig. 2, fig. 5 and fig. 6, the discharging mechanism 100 includes a feeding table 10, a crease clamp wheel 20 and a stop member 30, wherein the feeding table 10 is used for receiving the aluminum foil pipe 2000; the crease clamp wheel 20 is arranged on the feeding table 10 and positioned in the discharging direction of the aluminum foil pipe 2000, and the crease clamp wheel 20 is used for being abutted against the aluminum foil pipe 2000 so as to enable the outer wall of the aluminum foil pipe 2000 to form a crease groove 2001; the stop member 30 and the crease clamp wheel 20 are arranged at intervals in the discharging direction, the stop member 30 is arranged on the feeding table 10, the stop member 30 is provided with a protrusion 321 which can be contained in the crease groove 2001, and the aluminum foil pipe 2000 sequentially passes through the crease clamp wheel 20 and the stop member 30 along the discharging direction.

It should be noted that the aluminum foil machine 1000 has a discharge end 200, and the discharge end 200 is used for rotating to form the aluminum foil pipe 2000 and outputting the aluminum foil pipe 2000. This discharge end 200 both can be for the direct transmission pay-off of conveyer belt and rotate aluminium foil pipe 2000 through rotary mechanism, perhaps this discharge end 200 also can be for rotatory formation aluminium foil pipe 2000 and output aluminium foil pipe 2000 of a rotatory section of thick bamboo, be about to unprocessed aluminium foil with the direction of certain angle of slope attach in the outside of a rotatory section of thick bamboo, make the aluminium foil shaping for aluminium foil pipe 2000 and carry towards ejection of compact direction through the rotation of a rotatory section of thick bamboo to reach the effect of the rotatory ejection of compact of aluminium foil pipe 2000. The forming manner of the crease groove 2001 may be selected by a person skilled in the art, that is, the aluminum foil pipe 2000 may be rotated to discharge the material, and the crease clamp wheel 20 may be arranged to be stationary, so that the outer wall of the aluminum foil pipe 2000 during the rotation discharge may be abutted to the crease clamp wheel 20 to form the crease groove 2001, or the crease clamp wheel 20 may be moved around the aluminum foil pipe 2000 to form the crease groove 2001.

The crease clamp wheel 20 can be rotatably arranged on the feeding table 10, so that the friction force between the crease clamp wheel 20 and the outer wall of the aluminum foil pipe 2000 can be reduced, and the crease clamp wheel 20 is prevented from forming a crease groove 2001 in the aluminum foil pipe 2000 to damage the aluminum foil pipe 2000. The size of the crease groove 2001 can be adjusted by adjusting the position of the crease clamp wheel 20 on the feeding table 10, or the size of the crease groove 2001 can be adjusted by providing a plurality of crease clamp wheels 20, which can be specifically selected by those skilled in the art.

The utility model discloses technical scheme's discharge mechanism 100 is applied to aluminium foil machine 1000, and this aluminium foil machine 1000 has discharge end 200, and discharge end 200 forms aluminium foil pipe 2000 and exports this aluminium foil pipe 2000 through the rotation, accepts aluminium foil pipe 2000 through feeding table 10 of discharge mechanism 100 to provide the holding power for aluminium foil pipe 2000's transportation. And a crease clamp wheel 20 is further arranged on the feeding table 10 and located in the discharging direction of the discharging end 200, the crease clamp wheel 20 is used for abutting against the aluminum foil pipe 2000, so that a crease groove 2001 is formed on the outer wall of the aluminum foil pipe 2000, and thus the crease groove 2001 is formed on the aluminum foil pipe 2000 through the crease clamp wheel 20, so that the aluminum foil pipe 2000 has a function of being folded and compressed. Meanwhile, the discharging mechanism 100 comprises a stop member 30 arranged on the feeding table 10, the stop member 30 and the crease clamp wheel 20 are arranged at intervals in the discharging direction, the stop member 30 is provided with a protrusion 321 capable of being contained in the crease groove 2001, and the aluminum foil pipe 2000 sequentially passes through the crease clamp wheel 20 and the stop member 30 along the discharging direction. When the aluminum foil pipe 2000 passing through the crease clamp wheel 20 moves in the discharging direction by providing the stopper 30 with the protrusion 321, the protrusion 321 can be accommodated in the crease groove 2001. Thereby when external force makes aluminium foil pipe 2000 compress on pay-off platform 10, this arch 321 can play the spacing effect of backstop to make aluminium foil pipe 2000 can not receive external force and folding compression in crease card wheel 20 department, thereby shaping ejection of compact that can be stable, avoid the in-process of the 2000 ejection of compact of aluminium foil pipe to lead to the dysmorphism. Meanwhile, the formed aluminum foil pipe 2000 can be pre-folded on the feeding table 10 through the stop member 30, so that a large space is avoided, manual moving is facilitated, the production stability and the production efficiency of the aluminum foil pipe 2000 are improved, and the yield of the aluminum foil pipe 2000 is ensured.

In an embodiment of the present application, referring to fig. 1 to 5, the stop member 30 includes a connection block 31 and a limit clamp wheel 32, the connection block 31 is connected to the feeding table 10, the protrusion 321 is disposed on the limit clamp wheel 32, the limit clamp wheel 32 is rotatably connected to the connection block 31, and a rotation direction of the limit clamp wheel 32 is the same as a rotation direction of the aluminum foil pipe 2000. Specifically, this connecting block 31 has seted up the pivot hole, this spacing calorie of wheel 32 is equipped with the pivot, cooperation through pivot and pivot hole so that spacing calorie of wheel 32 is connected with connecting block 31 rotation, thereby make the rotation direction of spacing calorie of wheel 32 the same with the rotation direction of aluminum foil pipe 2000, and then protruding 321 also can rotate with spacing calorie of wheel 32 synchronization, so when contacting with the crease groove 2001 of aluminum foil pipe 2000, because the rotation of spacing calorie of wheel 32 is in order to reduce the frictional force of protruding 321 and aluminum foil pipe 2000 outer wall, avoid spacing calorie of wheel 32 to cause the damage to aluminum foil pipe 2000. Wherein, in order to reduce the possibility that the limit clamp wheel 32 damages the aluminum foil pipe 2000 when in contact. The limiting clamping wheel 32 can be made of plastic or other materials, or can be made of elastic materials such as silica gel or rubber, and the like, so that the rigid contact between the limiting clamping wheel 32 and the aluminum foil pipe 2000 is further reduced, the aluminum foil pipe 2000 is prevented from being damaged due to overlarge stress when the protrusion 321 of the limiting clamping wheel 32 is in contact with the aluminum foil pipe 2000, and the yield of the aluminum foil pipe 2000 is further ensured.

Further, the number of the protrusions 321 is multiple, and the multiple protrusions 321 are arranged on the outer surface of the limiting clamp wheel 32 at intervals along the discharging direction. Specifically, this arch 321 can be a plurality of to can increase the area of contact with crease groove 2001, and then further improve protruding 321 to the spacing effect of the folding of aluminium foil pipe 2000, with the protection of improving fashioned aluminium foil pipe 2000 of crease card wheel 20 department, avoid it to receive external force compression deformation, with the stability of further guaranteeing aluminium foil pipe 2000 product output. It should be noted that, in order to save the production cost and facilitate the production, the number of the protrusions 321 may also be single, which may play a role of stopping and limiting the aluminum foil pipe, so that the folding and compressing effects of the aluminum foil pipe 2000 at the position of the crease clamping wheel 20 may not be affected by external force, and may be specifically selected by those skilled in the art.

In an embodiment of the present application, referring to fig. 1 to 5, the feeding table 10 includes a fixed frame 11, at least two feeding rails 12 and a driving assembly 13, and the fold clamping wheel 20 is connected to the fixed frame 11; two ends of each feeding guide rail 12 are rotatably connected to the fixed frame 11, and a feeding groove for bearing the aluminum foil pipe 2000 is formed between the two feeding guide rails 12; the driving assembly 13 is connected to the fixing frame 11 and the stopper 30, and the driving assembly 13 drives the stopper 30 to move relative to the fixing frame 11. Specifically, the fixing frame 11 may be formed by splicing metal sections, so as to ensure the overall bearing capacity of the fixing frame 11 and ensure the stability of the support. And the feeding guide rail 12 and the driving assembly 13 can be fixed on the fixed frame 11 in a detachable mode such as clamping or screw connection, so that maintenance and replacement of each mechanism at a later stage are facilitated. Secondly, form the chute feeder by setting up two at least pay-off guide rails 12, this chute feeder can be used for bearing aluminium foil pipe 2000, rotate pay-off guide rail 12 and connect in mount 11 simultaneously, and when aluminium foil pipe discharged through the rotation, pay-off guide rail 12 can follow the rotation with aluminium foil pipe 2000 in step when aluminium foil pipe 2000 transports to reduce pay-off guide rail 12 and aluminium foil pipe 2000's contact friction, improve the protection to aluminium foil pipe 2000. In this embodiment, the two feeding guide rails 12 are provided, so that the aluminum foil pipe 2000 can be stably supported, and meanwhile, the equipment cost is relatively saved and the installation difficulty is reduced. Of course, the number of the feeding rails 12 may also be three, four, etc., so as to further improve the stability of the aluminum foil bearing pipe 2000, which can be selected by those skilled in the art. In addition, the driving assembly 13 is arranged to move the stop member 30 relative to the fixing frame 11, so that the position of the stop member 30 on the fixing frame 11 can be adjusted, and further the distance between the stop member 30 and the crease clamp wheel 20 is adjusted to ensure the safe distance between the two, so as to improve the protection of the aluminum foil pipe 2000 at the crease, and meanwhile, when the aluminum foil pipe 2000 is finally folded, namely after the aluminum foil pipe 2000 is cut from the position adjacent to the crease clamp wheel 20, the stop member 30 can be moved to the safe position, so that the final folding process of the aluminum foil pipe 2000 is not affected.

Further, the driving assembly 13 includes a translation driving member 131, a transmission belt 132 and a connecting plate 133, wherein the translation driving member 131 is fixedly connected to the fixed frame 11; the transmission belt 132 is arranged on the fixed frame 11 and connected with the driving end of the translational driving element 131; the connecting plate 133 is connected to the driving belt 132 and the stopper 30, respectively; the translation driving member 131 drives the transmission belt 132 to drive the connecting plate 133 and the stopper 30 to move in the discharging direction. The translational driving member 131 may be a motor or an air cylinder, and may provide a driving force for the driving belt 132. And the distance between the stop member 30 and the crease clamp wheel 20 can be adjusted by connecting the connecting plate 133 with the transmission belt 132, so that the translation driving member 131 can drive the transmission belt 132 to synchronously drive the connecting plate 133 and the stop member 30 to move in the discharging direction.

Furthermore, the driving assembly 13 further includes a guide tube 134, the length extending direction of the guide tube 134 is the same as the discharging direction, the connecting plate 133 is provided with a connecting hole 1331, the guide tube 134 passes through the connecting hole 1331 and is connected with the fixing frame 11, and when the translational driving element 131 drives the connecting plate 133 to move, the connecting plate 133 moves on the guide tube 134. Therefore, through the matching of the guide tube 134 and the connecting hole 1331 of the connecting plate 133, the moving precision of the connecting plate 133 on the fixed frame 11 along the discharging direction is improved, and the accuracy of the driving assembly 13 for driving the connecting plate 133 to move is further ensured.

Optionally, the driving assembly 13 further includes a lifting driving member 135, the lifting driving member 135 is connected to the connecting plate 133, and a driving end of the lifting driving member 135 is connected to the stopper 30, so that the stopper 30 can move up and down relative to the fixing frame 11. When the feeding rail 12 has the aluminum foil pipe 2000, in order to prevent the stopping member 30 from damaging the aluminum foil pipe 2000 during the position adjustment process, before the stopping member 30 moves, the lifting driving member 135 drives the stopping member 30 to ascend by a certain height, and then the translation driving member 131 drives the connecting plate 133 to drive the lifting driving member 135 and the stopping member 30 to move toward the crease clamp wheel 20, so that the aluminum foil pipe 2000 is prevented from being damaged during the movement of the stopping member 30, and the protection of the aluminum foil pipe 2000 is improved, wherein the lifting driving member 135 may be an air cylinder. It should be noted that the driving assembly 13 can also be separated from the discharging direction of the feeding rail 12 by rotating the connecting plate 133 and the stopping member 30 by a certain angle, so as to achieve the effect of preventing the stopping member 30 from damaging the aluminum foil tube 2000 during the position adjustment process, and the specific arrangement can be selected by those skilled in the art and will not be further described herein.

In an embodiment of the present application, referring to fig. 1 to 3, the feeding table 10 further includes a guide rail rotation driving member 16, the guide rail rotation driving member 16 is disposed on the fixing frame 11, and a driving end of the guide rail rotation driving member 16 is connected to two of the feeding guide rails 12 to drive the two of the feeding guide rails 12 to rotate relative to the fixing frame 11. Specifically, in order to further reduce friction on the aluminum foil pipe 2000, so that the aluminum foil pipe 2000 is relatively stable when being transported on the feeding guide rails 12, and therefore the two feeding guide rails 12 are driven to actively rotate by the guide rail rotation driving member 16, and further the crease clamp wheel 20 is still in the axial direction of the feeding guide rails 12, in the process that the aluminum foil pipe 2000 is discharged through rotation to form the crease mark groove 2001, the two feeding guide rails 12 can actively rotate simultaneously with the aluminum foil pipe 2000, so that the transportation stability of the aluminum foil pipe 2000 on the feeding guide rails 12 is effectively improved, and the formation of the crease mark groove 2001 is ensured, and the yield of the aluminum foil pipe 2000 is ensured. It should be noted that the guide rail rotation driving component 16 may include a motor and a chain, and the chain is respectively connected to the driving end of the motor and the two feeding guide rails 12, so as to drive the chain to drive the two feeding guide rails 12 to rotate through the motor, of course, the chain may be a driving belt, and the driving belt is respectively connected to the driving end of the motor and the two feeding guide rails 12, so as to also realize the active rotation of the feeding guide rails 12, which may be specifically selected by those skilled in the art.

In addition, this discharge mechanism 100 still includes rotation piece 40, rotation piece 40 rotates and locates pay-off platform 10 to with discharge end 200 sets up relatively, rotation piece 40 is located crease card wheel 20 deviates from one side of discharge end 200, rotation piece 40 be used for with aluminium foil pipe 2000 butt rotates. So through setting up rotation piece 40, so that the aluminium foil pipe 2000 through crease card wheel 20 when removing along ejection of compact direction and with rotate piece 40 butt, rotate piece 40 and can rotate with aluminium foil pipe 2000 is synchronous, and the circumstances that produces frictional force and lead to aluminium foil pipe 2000 because of the inhomogeneous damage of atress takes place after avoiding aluminium foil pipe 2000's tip because of wall body external force butt, thereby shaping ejection of compact that can be stable reduces aluminium foil pipe 2000's defective rate.

In an embodiment of this application, rotation piece 40 is pivot 41, pay-off platform 10 includes connecting rod 17, connecting rod 17 is located mount 11, crease card wheel 20 connect in mount 11, pivot 41 rotate connect in connecting rod 17, the axial direction of pivot 41 with aluminium foil pipe 2000's ejection of compact direction is perpendicular setting, so that the lateral wall of pivot 41 with aluminium foil pipe 2000's tip rotates the butt. Specifically, the fixing frame 11 may be formed by splicing metal sections, so as to ensure the overall bearing capacity of the fixing frame 11 and ensure the stability of the support. This mount 11 department is located in the rotation of pivot 41 to make when aluminium foil pipe 2000 last rotatory ejection of compact and with the lateral wall butt of pivot 41 along ejection of compact direction, thereby because aluminium foil pipe 2000's rotation can drive pivot 41 and rotate in step, aluminium foil pipe 2000 and pivot 41 both are the rolling butt promptly, and then receive the effect of external friction power when reaching reduction aluminium foil pipe 2000 butt. In order to enhance the abutting effect, the cross-sectional area of the rotating member 40 extending in the axial direction may be greater than or equal to the cross-sectional area of the aluminum foil tube 2000, and may be selected by those skilled in the art. Of course, the rotating member 40 may be a rotating disc directly, the cross-sectional area of the rotating disc is greater than or equal to the cross-sectional area of the aluminum foil pipe 2000, and the rotating direction of the rotating disc is the same as the rotating direction of the aluminum foil pipe 2000, so that the rolling contact effect can also be achieved.

Further, the rotating shaft 41 includes a connecting portion 411, a first rotating portion 412 and a second rotating portion 413, the connecting portion 411 is connected to the connecting rod 17; the first rotating portion 412 is connected to one end of the connecting rod 17 and is rotatable with respect to the connecting portion 411; the second rotating portion 413 is connected to an end of the connecting portion 411 away from the first rotating portion 412 and is rotatable with respect to the connecting portion 411; the first rotating portion 412 and the second rotating portion 413 respectively rotate against the aluminum foil pipe 2000. The connecting portion 411 is inserted through the first rotating portion 412 and the second rotating portion 413, and both the first rotating portion 412 and the second rotating portion 413 can independently rotate along the axis of the connecting portion 411. In order to improve the stability of the aluminum foil pipe 2000 when it is in contact with the aluminum foil pipe 2000, the first rotating portion 412 and the second rotating portion 413 may be formed to have the same size, and the first rotating portion 412, the connecting portion 411, and the second rotating portion 413 may be coaxially disposed, so that when the end surface of the aluminum foil pipe 2000 is in contact with the rotating shaft 41, the end surface is simultaneously in rolling contact with the side wall of the first rotating portion 412 and the side wall of the second rotating portion 413. Since the first rotating portion 412 and the second rotating portion 413 rotate independently with respect to the connecting portion 411, the rotating directions of the first rotating portion 412 and the second rotating portion 413 may be opposite. It can be understood that, during the rotary discharging process of the aluminum foil pipe 2000, the moving directions of the upper side and the lower side of the end of the aluminum foil pipe 2000 facing the rotating shaft 41 are opposite, that is, the upper side of the end of the aluminum foil pipe 2000 facing the rotating shaft 41 is in rolling contact with the first rotating part 412, and the lower side of the end of the aluminum foil pipe 2000 facing the rotating shaft 41 is in rolling contact with the second rotating part 413, so that the first rotating part 412 and the second rotating part 413 can respectively meet the rolling contact of the rotating direction of the aluminum foil pipe 2000, and the external friction force applied when the aluminum foil pipe 2000 is in contact can be further reduced.

In an embodiment of the present application, the feeding table 10 further includes a tail plate 14 and a moving assembly 15, the tail plate 14 is connected to one end of the fixing frame 11 away from the crease clamp wheel 20, the tail plate 14 is provided with a position-giving opening 141, and the position-giving opening 141 is used for the connecting rod 17 and the rotating shaft 41 to pass through; the moving component 15 is connected to the fixed frame 11, and the moving component 15 is movably connected with the connecting rod 17, so that the connecting rod 17 drives the rotating shaft 41 to move back and forth in the discharging direction. Specifically, the tail plate 14 may be fixed to the fixing frame 11 by a detachable connection manner such as a snap or a screw, so as to facilitate later maintenance and replacement. In order to avoid affecting the flatness of the section of the aluminum foil pipe 2000. So when needs compress tightly aluminium foil pipe 2000, accessible removes subassembly 15 with connecting rod 17 and pivot 41 orientation keep away from aluminium foil pipe 2000 direction removal and pass the mouth 141 of stepping down of tailboard 14, so that connecting rod 17 and pivot 41 are located the one side that tailboard 14 deviates from aluminium foil pipe 2000, so make aluminium foil pipe 2000 can directly press the laminating in tailboard 14, because tailboard 14 is the plane setting towards aluminium foil pipe 2000's surface, so guarantee that aluminium foil pipe 2000 is the parallel and level setting towards one side of tailboard 14, and then when cutting aluminium foil pipe 2000, can effectively guarantee the sectional roughness of aluminium foil pipe 2000, and when producing aluminium foil pipe 2000, accessible removes subassembly 15 with pivot 41 and connecting rod 17 and returns to original position, in order to play the effect of rolling butt. The moving assembly 15 can be a sliding block, a sliding rail and the like, and then the distance between the sliding block and the sliding rail can be adjusted and moved by operating personnel, so that the connecting rod 17 and the rotating shaft 41 can move along the discharging direction of the aluminum foil pipe 2000, and can be matched with a gear and a rack, and the selection can be specifically performed by the technical personnel in the field.

Further, the moving assembly 15 includes a driving cylinder 151, and a driving rod of the driving cylinder 151 is connected to the connecting rod 17, so that the driving cylinder 151 can drive the connecting rod 17 to move back and forth in the discharging direction. Specifically, in order to reduce the operation of the worker, the moving assembly 15 includes a driving cylinder 151, and a driving end of the driving cylinder 151 is connected to the connecting rod 17, so that the connecting rod 17 and the rotating shaft 41 are driven to move along the discharging direction by the driving cylinder 151, thereby realizing the automation of the discharging mechanism 100. Of course, the driving cylinder 151 may be replaced by a linear module, and the selection may be performed by those skilled in the art.

It can be understood that the discharging mechanism 100 is further provided with a control component, and the control component is electrically connected with the driving component 13, so that full-automatic control is realized, and errors of manual operation are reduced. The control assembly accessible can transmit signal's entity line and drive assembly 13 electric connection, also can realize the functional mode of transmission and receipt through wireless connection modes such as bluetooth, WIFI or infrared and be connected with outside computer, convenient operation.

The utility model discloses still provide an aluminium foil machine 1000, this aluminium foil machine 1000 includes discharge end 200 and discharge mechanism 100, and above-mentioned embodiment is referred to this discharge mechanism 100's concrete structure, because this aluminium foil machine 1000 has adopted the whole technical scheme of above-mentioned all embodiments, consequently has all beneficial effects that the technical scheme of above-mentioned embodiment brought at least, and the repeated description is no longer repeated here one by one.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (9)

1. The utility model provides a discharge mechanism is applied to the aluminium foil machine, its characterized in that, discharge mechanism includes:

the feeding table is used for receiving the aluminum foil pipe;

the crease clamp wheel is arranged on the feeding table and positioned in the discharging direction of the aluminum foil pipe, and the crease clamp wheel is used for being abutted against the aluminum foil pipe so as to enable the outer wall of the aluminum foil pipe to form a crease groove; and

the stop piece and the crease clamp wheel are arranged at intervals in the discharging direction, the stop piece is arranged on the feeding table and provided with a bulge capable of being contained in the crease groove, and the aluminum foil pipe sequentially passes through the crease clamp wheel and the stop piece along the discharging direction.

2. The discharging mechanism of claim 1, wherein the stop member comprises a connecting block and a limit catch wheel, the connecting block is connected to the feeding table, the protrusion is arranged on the limit catch wheel, the limit catch wheel is rotatably connected to the connecting block, and the rotation direction of the limit catch wheel is the same as the rotation direction of the aluminum foil pipe.

3. The discharging mechanism according to claim 2, wherein the number of the protrusions is plural, and the plural protrusions are arranged on the outer surface of the position-limiting clamping wheel at intervals along the discharging direction.

4. A discharge mechanism according to any one of claims 1 to 3, wherein the feed table comprises:

the folding line clamping wheel is connected with the fixed frame;

the two ends of each feeding guide rail are rotatably connected to the fixing frame, and a feeding groove for bearing the aluminum foil pipe is formed between the two feeding guide rails; and

the driving assembly is connected to the fixing frame and the stop piece and drives the stop piece to move relative to the fixing frame.

5. The outfeed mechanism of claim 4, wherein said drive assembly comprises:

the translation driving piece is fixedly connected to the fixed frame;

the transmission belt is arranged on the fixed frame and is connected with the driving end of the translation driving piece; and

a connecting plate connected with the driving belt and the stopper, respectively;

the translation driving piece drives the transmission belt to transmit so as to drive the connecting plate and the stop piece to move in the discharging direction.

6. The discharge mechanism of claim 5, wherein said drive assembly further comprises a guide tube, said guide tube extends along a length direction of said discharge mechanism, said connecting plate has a connecting hole, said guide tube passes through said connecting hole and is connected to said fixing frame, and said connecting plate moves on said guide tube when said translational drive member drives said connecting plate to move.

7. The discharge mechanism of claim 5, wherein the drive assembly further comprises a lift drive member coupled to the connecting plate, the drive end of the lift drive member coupled to the stop member such that the stop member is movable in a lift motion relative to the mounting bracket.

8. The discharge mechanism of claim 4, wherein the feeding table further comprises a rail rotation driving member, the rail rotation driving member is disposed on the fixing frame, and a driving end of the rail rotation driving member is connected to two of the feeding rails to drive the two of the feeding rails to rotate relative to the fixing frame.

9. An aluminum foil machine characterized by comprising the discharging mechanism of any one of claims 1 to 8.

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