CN219380827U - A indulge shearing mechanism for aluminium foil processing - Google Patents

Abstract

The utility model discloses a longitudinal shearing device for aluminum foil processing, which comprises a frame, wherein a cutter bar is rotatably matched on the frame, a plurality of cutters are arranged on the cutter bar, one side of the frame is provided with a mounting plate, an oil reservoir is fixed on the mounting plate, one side of the mounting plate is fixedly provided with an oil adder, the oil adder is communicated with the oil reservoir through a pipeline, a cutter lubricating component for oiling the cutters is arranged at the position, which is close to the side of the frame, of the mounting plate, the oil reservoir continuously provides lubricating oil for the cutter lubricating component, and the oil is timely supplemented by an oil delivery control mechanism through the change of the matching state of the oiling component and the cutters, so that the cutter oil can be timely supplemented, the service life of the cutters is prolonged, intermittent oil supply is performed at the same time, and the use amount of the oil is saved to a certain extent.

Description

A indulge shearing mechanism for aluminium foil processing

Technical Field

The utility model belongs to the technical field of aluminum foil slitting devices, and particularly relates to a longitudinal shearing device for aluminum foil processing.

Background

The aluminum foil production is that aluminum ingots are repeatedly hot-rolled to form aluminum foils with specified thickness, the aluminum foils are rolled to be of a certain width, the aluminum foils still need to be cut according to the requirements of customers before being sold, when the aluminum foils are cut, no matter a straight knife or a hob is adopted, the problem of blade abrasion exists, when the blade is worn, burrs and poor wave-shaped edge cutting can be generated on the cut aluminum foil edge cutting, and therefore the product quality is influenced, and therefore, the protection of a cutter is very necessary when the aluminum foils are cut;

for example, the grant bulletin number is: CN217648491U, chinese patent, disclose the aluminium foil cutter uses the cutter device of the cutter, involve the aluminium material production facility technical field, including setting up the knife roll on the frame of the cutter and a plurality of cutters that are installed on the knife roll and set up coaxially with knife roll, there is a lubricating box below the knife roll, there is a sponge in the lubricating box, the upper end of sponge stretches out of the lubricating box and its up end is in butt joint with lower peripheral surface of cutter; the utility model provides a lubricating oil box, the limiting plate is fixed in the frame below to be equipped with, be fixed with a plurality of rectangular arrays and the tension spring of vertical setting between limiting plate up end and the lower terminal surface of lubricating oil box, this patent is although can make the cavernosum contact with the cutter all the time, for the cutter clean lubricating oil, but when using, the contact point wearing and tearing of cutter and cavernosum are very fast, self suction ability reduces after the cavernosum is impaired, then can lead to the oiling effect of cavernosum and cutter contact point to weaken gradually, thereby need change the cavernosum, and little whole change cavernosum in impaired position of sponge can lead to the waste of cavernosum, also can cause the waste of the lubricating oil that soaks the cavernosum simultaneously, when using this method to wipe the cutter in addition, when the cavernosum is not impaired, can appear excessive lubricating liquid and wipe on the cutter, there is the hidden danger of pollution product.

Disclosure of Invention

The utility model aims to provide a longitudinal shearing device for aluminum foil processing, which solves the technical problem that the oil wiping amount can not be effectively controlled when a cutter is wiped in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a indulge shearing mechanism for aluminium foil processing, includes the frame, and the normal running fit has the cutter arbor on the frame, is equipped with a plurality of cutters on the cutter arbor, and one side of frame is equipped with the mounting panel, is fixed with the oil reservoir on the mounting panel, and one side of mounting panel is fixed with the oil filler, and the oil filler passes through the pipeline and communicates with the oil reservoir, and the cutter lubrication subassembly that is used for the cutter to scribble is installed to the position that one side of mounting panel is close to the frame corresponds the cutter, and the oil reservoir is continuous to provide lubricating oil for cutter lubrication subassembly;

the cutter lubrication assembly comprises an oiling positioning mechanism used for supporting and positioning, one end of the oiling positioning mechanism is symmetrically provided with an oiling assembly, the oiling assembly is matched with the cutting edge of the cutter, the other end of the oiling positioning mechanism is fixedly provided with a rotating connecting assembly, the other end of the rotating connecting assembly is rotationally matched with an installation clamping groove, the installation clamping groove is fixedly installed on an installation plate, the oiling positioning mechanism and the rotating connecting assembly are internally provided with an oiling assembly, one end of the oiling assembly, which penetrates through the rotating connecting assembly, is connected with an oil transportation control mechanism, and the oil transportation control mechanism is fixed on the installation clamping groove.

Further: the rotary connecting assembly comprises a rotary seat fixed on one end face of the mounting clamping groove, a fixing shaft is rotationally matched with the rotary seat, a connecting plate is fixed on the outer wall of the fixing shaft, a notch is formed in the middle of the connecting end of the connecting plate and the fixing shaft, a torsion spring is sleeved on the middle outer wall of the fixing shaft, and the torsion spring is fixedly connected with the connecting plate and the mounting clamping groove respectively.

Further: the oiling positioning mechanism comprises fixed forks fixedly welded at the other end of the connecting plate, mounting grooves are formed in two front forks of each fixed fork, round holes penetrating through the mounting grooves are formed in the fixed forks, the rotary shafts are rotationally matched with the round holes, threaded holes penetrating through the mounting grooves are formed in one ends, close to the cutters, of the fixed forks, and fixing bolts are arranged in the threaded holes.

Further: the oiling component comprises a supporting shaft with one end in rotary fit with the outer wall of the rotating shaft, a rolling rotor is in rotary fit with the other end of the supporting shaft, and an oiling sponge body is fixed on the rolling rotor.

Further: the fixed fork and the inside of the connecting plate are provided with oil holes communicated with each other.

Further: the oil guide assembly comprises a fixed guide pipe fixedly welded at the position of an oil delivery hole of a fixed fork, an oiling ball is fixed at the front end of the fixed guide pipe, the oiling ball is matched with an oiling sponge body symmetrically arranged, an oil guide pipe is arranged in the oiling ball and the fixed guide pipe and in the oil delivery hole formed by the fixed fork and a connecting plate, one end of the oil guide pipe extending out of the connecting plate is fixed with a horn interface, a fixed ring is fixed at the center of the bottom of the horn interface, and the fixed ring is matched with an oil delivery control mechanism.

Further: the oil transportation control mechanism comprises a fixed rod with one end fixed on the mounting clamping groove, the other end of the fixed rod is fixedly provided with an oil control valve, one end of the oil control valve is matched with the fixed ring, and the other end of the oil control valve is communicated with the oil reservoir.

Further: the oil control valve comprises a valve body fixed on a fixed rod, an opening end of the valve body is matched with a horn interface, an oil filling cavity is arranged in the fixed rod, one end of the oil filling cavity, far away from the horn interface, is connected with an oil conveying pipe, the oil conveying pipe is communicated with an oil storage device, a trigger rod is arranged at an oil outlet of the oil filling cavity in a clearance fit mode, one end of the trigger rod is fixed with a fixed ring, a stop disc is arranged on the outer wall of the other end of the trigger rod, one end of the stop disc is an arc surface, the other end of the stop disc is a plane, a stop ring is arranged between the arc surface end of the stop disc and the inner wall of one end of the oil filling cavity, and a compression spring is arranged between the plane end of the stop disc and the inner wall of the other end of the oil filling cavity.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the cutter lubricating assembly, the oil delivery control mechanism is controlled to timely supplement oil through the change of the matching state of the oil coating assembly and the cutter, so that the oil of the cutter can be timely supplemented, the service life of the cutter is prolonged, meanwhile, intermittent oil supply is carried out, and the oil consumption is saved to a certain extent.

2. According to the oil guide assembly, the oil released by the oil conveying control mechanism flows to the oiling ball under the action of gravity through the oil guide assembly which is obliquely arranged, the oiling ball is used for temporary storage, and the oil is transferred in a contact adsorption mode by the oiling sponge during oil supply, so that dripping caused by excessive oil can be effectively avoided, and equipment and products are prevented from being polluted by the oil.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic view showing the structure of a longitudinal shearing apparatus for aluminum foil processing according to the present utility model;

FIG. 2 is a schematic view of the working state of the tool lubrication assembly of the present utility model;

FIG. 3 is a top view of the cutter lubrication assembly of the present utility model;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is an enlarged view of region B of FIG. 4;

in the reference numerals: 1. a frame; 2. a cutter bar; 3. a cutter; 4. a cutter lubrication assembly; 5. an oil reservoir; 6. an oil adding device; 7. a mounting plate; 41. oiling and positioning mechanism; 42. an oiling assembly; 43. an oil guide assembly; 44. rotating the connecting assembly; 45. installing a clamping groove; 46. an oil delivery control mechanism; 411. a fixed fork; 412. a mounting groove; 413. a rotating shaft; 414. a fixing bolt; 421. a support shaft; 422. a rolling rotor; 423. oiling sponge; 431. oiling the ball; 432. fixing the catheter; 433. an oil guide pipe; 434. a horn interface; 435. a fixing ring; 441. a connecting plate; 442. a fixed shaft; 443. a torsion spring; 444. a rotating seat; 461. a fixed rod; 462. an oil delivery pipe; 463. a valve body; 464. an oil filled chamber; 465. a trigger lever; 466. a blocking ring; 467. compressing the spring.

Detailed Description

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1-5, a longitudinal shearing device for aluminum foil processing comprises a frame 1, wherein a cutter bar 2 is rotatably matched on the frame 1, a plurality of cutters 3 are arranged on the cutter bar 2, a mounting plate 7 is arranged on one side of the frame 1, an oil reservoir 5 is fixed on the mounting plate 7, an oil filler 6 is fixed on one side of the mounting plate 7, the oil filler 6 is communicated with the oil reservoir 5 through a pipeline, a cutter lubricating assembly 4 for cutter oiling is arranged on one side of the mounting plate 7 close to the frame 1 and corresponding to the cutter 3, and the oil reservoir 5 continuously supplies lubricating oil for the cutter lubricating assembly 4;

the cutter lubricating assembly 4 comprises an oiling positioning mechanism 41 used for supporting and positioning, wherein one end of the oiling positioning mechanism 41 is symmetrically provided with an oiling assembly 42, the oiling assembly 42 is matched with the cutting edge of the cutter 3, the oiling assembly 42 is matched with the cutting edge side of the cutter 3, lubricating oil is smeared on the cutter when the cutter rotates, the other end of the oiling positioning mechanism 41 is fixedly provided with a rotating connecting assembly 44, the other end of the rotating connecting assembly 44 is rotatably matched with a mounting clamping groove 45, the mounting clamping groove 45 is fixedly arranged on a mounting plate 7, the height of the mounting plate 7 corresponds to the height of the cutter 3, the mounting clamping groove 45 is detachably fixed on the mounting plate 7, when the position of the cutter changes, the oiling assembly 42 arranged at the front end of the oiling positioning mechanism 41 is enabled to be symmetrical with respect to the cutting edge, so that oiling assemblies 42 arranged on two sides of the cutting edge are oiled at the same time, the oiling positioning mechanism 41 and the rotating connecting assembly 44 are internally provided with an oiling assembly 43, one end of the oiling assembly 43 penetrates through the rotating connecting assembly 44 to be connected with an oiling control mechanism 46, the other end of the rotating connecting assembly 44 is fixedly arranged on the mounting clamping groove 45, one end of the oiling assembly 43 is matched with the oiling assembly 42, the oiling assembly 42 is detachably fixed on the mounting clamping groove 45, the oiling assembly 42 is detachably fixed on the oiling assembly 42 with the oiling assembly 42, and the oiling assembly 42 is continuously delivered to the oiling assembly 42 through the oiling mechanism control mechanism through the oiling assembly 46, and the oiling assembly 42.

As an embodiment of the present utility model, as shown in fig. 3-4, the rotary connection assembly 44 includes a rotary seat 444 fixedly welded on an end surface of the mounting slot 45, a fixed shaft 442 is rotatably fitted in the rotary seat 444, a connection plate 441 is fixed on an outer wall of the fixed shaft 442, a slot is provided between the connection plate 441 and a connection end of the fixed shaft 442, a torsion spring 443 is sleeved on an intermediate outer wall of the fixed shaft 442, the torsion spring 443 is fixedly connected with the connection plate 441 and the mounting slot 45, and the connection plate 441 is rotatably fitted with the mounting slot 45 through the fixed shaft 442 and the rotary seat 444, so that an included angle between the connection plate 441 and the mounting slot 45 is kept unchanged under the support of the torsion spring 443.

As an embodiment of the present utility model, as shown in fig. 2, the oiling positioning mechanism 41 includes a fixed fork 411 fixedly welded at the other end of the connecting plate 441, mounting slots 412 are formed on two front forks of the fixed fork 411, the two front forks of the fixed fork 411 are located at two sides of the cutter 3 and symmetrically arranged about the cutting edge, a round hole penetrating through the mounting slots 412 is formed on the fixed fork 411, a rotating shaft 413 is rotatably matched with the round hole, a threaded hole penetrating through the mounting slots 412 is formed at one end of the fixed fork 411 near the cutter 3, a fixing bolt 414 is arranged in the threaded hole, the oiling component 42 is rotatably matched with the rotating shaft 413, the position of the oiling component 42 is adjustable, and the oiling component 42 is fixed by locking the fixing bolt 414 after the adjustment is completed.

As an embodiment of the present utility model, as shown in fig. 2-3, the oiling assembly 42 includes a support shaft 421 having one end rotatably coupled to an outer wall of the rotation shaft 413, a rolling rotor 422 having the other end rotatably coupled thereto, and a oiling sponge 423 fixed to the rolling rotor 422, wherein the contact depth and contact area between the oiling sponge 423 and the cutter 3 are adjusted by adjusting the angle of the support shaft 421, and after the oiling position is adjusted to a proper oiling position, the support shaft 421 is fixed, and when the cutter 3 rotates to cut, the side wall of the cutter 3 rubs against the oiling sponge 423, and when the cutter is sufficiently supplied with oil, sliding friction occurs between the cutter 3 and the oiling sponge 423, and the reaction force exerted by the oiling sponge 423 is reduced, and when the cutter oil is insufficient, the static friction occurs between the cutter 3 and the oiling sponge 423 to drive the oiling sponge 423 to rotate, and the reaction force exerted by the oiling sponge 423 is increased.

As shown in fig. 3-4, as an embodiment of the present utility model, the fixed fork 411 and the connecting plate 441 are internally provided with oil delivery holes, the oil guide assembly 43 includes a fixed conduit 432 fixedly welded at the oil delivery hole of the fixed fork 411, the fixed conduit 432 is concentric with the oil delivery hole, the front end of the fixed conduit 432 is fixed with an oil coating ball 431, the oil coating ball 431 is in extrusion fit with a symmetrically arranged oil coating sponge 423, when the oil coating sponge 423 rotates to coat oil, the oil coating ball 431 continuously supplements oil for the oil coating sponge 423, when the oil coating sponge 423 stops rotating, the oil coating ball 431 prevents oil input at the rear end from dripping, and plays a role of blocking, the oil coating ball 431, the fixed conduit 432, the fixed fork 411 and the oil delivery hole provided by the connecting plate 441 are provided with oil guide pipes 433, one end of the oil guide pipes 433 extending out of the connecting plate 441 is fixed with a horn interface 434, a fixed ring 435 is fixed at the bottom center of the horn interface 434, a transverse plate is transversely fixed at the bottom of the horn interface 434, the fixed ring 435 is fixed at the center of the transverse plate, when the oil coating sponge 423 rotates to coat oil, the oil coating sponge 423 continuously supplements oil, and when the oil coating sponge 423 stops rotating, the oil coating ball 431 stops rotating, and the oil is prevented from dripping from entering at the rear end, and oil is used as a trigger mechanism 46.

As an embodiment of the present utility model, as shown in fig. 4 to 5, the oil transportation control mechanism 46 includes a fixing rod 461 having one end fixed to the mounting groove 45, an oil control valve is fixedly installed at the other end of the fixing rod 461, one end of the oil control valve is engaged with the fixing ring 435, and the other end is communicated with the oil reservoir 5.

As an embodiment of the present utility model, as shown in fig. 3-5, the oil control valve comprises a valve body 463 fixed on a fixed rod 461, the opening end of the valve body 463 is matched with a horn interface 434, oil flowing out of the valve body 463 enters an oil guide pipe 433 along the horn interface, an oil filling chamber 464 is arranged in the fixed rod 461, one end of the oil filling chamber 464 far away from the horn interface 434 is connected with an oil conveying pipe 462, the oil conveying pipe 462 is communicated with an oil reservoir 5, a trigger rod 465 is in clearance fit with the oil outlet of the oil filling chamber 464, one end of the trigger rod 465 is fixed with the fixed ring 435, a stop disc is arranged on the outer wall of the other end of the trigger rod 465, one end of the stop disc is a cambered surface, the other end of the stop disc is a plane, a stop ring 466 is arranged between the cambered surface end of the stop disc and the inner wall of one end of the oil filling chamber 464, a compression spring 467 is arranged between the plane end of the stop disc and the inner wall of the other end of the oil filling chamber 464, the compression spring 467 supports the trigger lever 465 to make the cambered surface of the front end of the stop disc arranged on the trigger lever 465 and the stop ring 466 adhere to each other, so that the oil filling chamber 464 is closed, oil cannot flow out, when the cutter 3 lacks oil, the cutter 3 and the oiling sponge 423 generate static friction, the cutter 3 works on the whole cutter lubricating assembly 4, the cutter lubricating assembly 4 has a downward deflection trend, at this time, the stable state between the connecting plate 441 and the mounting clamping groove 45 is broken, the connecting plate 441 deflects downwards, the horn interface 434 and the fixed ring 435 mounted in the connecting plate 441 are driven to deflect downwards around the rotating seat 444, the fixed ring 435 drives the trigger lever 465 to move during deflection, so that a gap is generated between the stop disc arranged on the trigger lever 465 and the stop ring 466, oil is made to flow out, the oil guiding assembly 43 and the oiling assembly 42 are supplied, the oiling assembly 42 then the oil is smeared on the cutter 3 until the oil is sufficient, so, can carry out intermittent type oil feed, make the required fluid of cutter 3 in time obtain the replenishment, avoid the extravagant of fluid simultaneously.

The working principle and the using flow of the utility model are as follows: the cutter lubricating assembly 4 is installed according to the cutter position, the connecting plate 441 is in running fit with the installation clamping groove 45 through the fixed shaft 442 and the rotating seat 444, and the included angle between the connecting plate 441 and the installation clamping groove 45 is kept stable under the support of the torsion spring 443;

the oil filling device 6 fills oil into the oil storage device 5 through the built-in pump, the oil storage device 5 inputs oil into the oil filling cavity 464 through a plurality of oil delivery pipes 462, the compression spring 467 supports the trigger rod 465 to enable the cambered surface at the front end of the stop disc arranged on the trigger rod 465 to be attached to the stop ring 466, so that the oil filling cavity 464 is closed, oil cannot flow out, when the cutter 3 lacks oil, static friction occurs between the cutter 3 and the oiling sponge 423, the cutter 3 works on the whole cutter lubricating assembly 4, the cutter lubricating assembly 4 has a downward deflection trend, at the moment, the stable state between the connecting plate 441 and the mounting clamping groove 45 is broken, the connecting plate 441 deflects downwards, the horn interface 434 and the fixed ring 435 installed in the connecting plate 441 are driven to deflect downwards around the rotating seat 444, the fixed ring 435 is driven to move during deflection, and accordingly a gap is formed between the stop disc arranged on the trigger rod 465 and the stop ring 466, so that the oil flows out, the oil is used for the oil guiding assembly 43 and the oiling assembly 42, and the oil is smeared on the cutter 3 until the original state is recovered after the oiling assembly 42 is full.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (8)

1. A indulge shearing mechanism for aluminium foil processing, includes frame (1), and normal running fit has cutter arbor (2) on frame (1), is equipped with a plurality of cutters (3) on cutter arbor (2), and one side of frame (1) is equipped with mounting panel (7), is fixed with oil reservoir (5) on mounting panel (7), and one side of mounting panel (7) is fixed with oil filler (6), and oil filler (6) are through pipeline and oil reservoir (5) intercommunication, its characterized in that: a cutter lubricating assembly (4) for oiling the cutter is arranged on one side of the mounting plate (7) close to the frame (1) and corresponding to the cutter (3), and the oil reservoir (5) continuously supplies lubricating oil for the cutter lubricating assembly (4);

cutter lubrication subassembly (4) are including being used for supporting the oiling positioning mechanism (41) of location, the one end symmetry of oiling positioning mechanism (41) is equipped with oiling subassembly (42), and oiling subassembly (42) are installed with the blade cooperation of cutter (3), the other end of oiling positioning mechanism (41) is fixed with rotation coupling assembling (44), the other end normal running fit of rotation coupling assembling (44) has installation draw-in groove (45), and installation draw-in groove (45) fixed mounting is on mounting panel (7), oiling positioning mechanism (41) and rotation coupling assembling (44) are inside to be equipped with oil guide subassembly (43), oil guide subassembly (43) pass the one end of rotation coupling assembling (44) and are connected with defeated oil control mechanism (46), and defeated oil control mechanism (46) are fixed on installation draw-in groove (45).

2. A longitudinal shearing apparatus for aluminum foil processing as recited in claim 1, wherein: the rotary connecting assembly (44) comprises a rotary seat (444) fixed on one end face of the mounting clamping groove (45), a fixing shaft (442) is rotationally matched with the rotary seat (444), a connecting plate (441) is fixed on the outer wall of the fixing shaft (442), a notch is formed in the middle of the connecting end of the connecting plate (441) and the connecting end of the fixing shaft (442), a torsion spring (443) is sleeved on the middle outer wall of the fixing shaft (442), and the torsion spring (443) is fixedly connected with the connecting plate (441) and the mounting clamping groove (45) respectively.

3. A longitudinal shearing apparatus for aluminum foil processing as recited in claim 2, wherein: the oiling positioning mechanism (41) comprises fixed forks (411) fixedly welded at the other ends of the connecting plates (441), mounting grooves (412) are formed in two front forks of the fixed forks (411), round holes penetrating through the mounting grooves (412) are formed in the fixed forks (411), rotating shafts (413) are rotationally matched with the round holes, threaded holes penetrating through the mounting grooves (412) are formed in one ends, close to the cutters (3), of the fixed forks (411), and fixing bolts (414) are arranged in the threaded holes.

4. A longitudinal shearing apparatus for aluminum foil processing as recited in claim 3, wherein: the oiling component (42) comprises a supporting shaft (421) with one end in rotary fit on the outer wall of the rotating shaft (413), a rolling rotor (422) is in rotary fit with the other end of the supporting shaft (421), and an oiling sponge body (423) is fixed on the rolling rotor (422).

5. A longitudinal shearing apparatus for aluminum foil processing as recited in claim 4, wherein: the fixed fork (411) and the connecting plate (441) are internally provided with oil holes communicated with each other.

6. A longitudinal shearing apparatus for aluminum foil processing as recited in claim 5, wherein: the oil guide assembly (43) comprises a fixed guide pipe (432) fixedly welded at the oil hole of the fixed fork (411), an oiling ball (431) is fixed at the front end of the fixed guide pipe (432), the oiling ball (431) is matched with an oiling sponge body (423) symmetrically arranged, an oil guide pipe (433) is arranged in the oiling ball (431), the fixed guide pipe (432) and the oil hole formed by the fixed fork (411) and the connecting plate (441), one end of the oil guide pipe (433) extending out of the connecting plate (441) is fixedly provided with a horn interface (434), a fixed ring (435) is fixed at the bottom center position of the horn interface (434), and the fixed ring (435) is matched with the oil conveying control mechanism (46).

7. A longitudinal shearing apparatus for aluminum foil processing as recited in claim 6, wherein: the oil transportation control mechanism (46) comprises a fixed rod (461) with one end fixed on the mounting clamping groove (45), an oil control valve is arranged at the other end of the fixed rod (461), one end of the oil control valve is matched with the fixed ring (435), and the other end of the oil control valve is communicated with the oil reservoir (5).

8. A longitudinal shearing apparatus for aluminum foil processing as recited in claim 7, wherein: the oil control valve comprises a valve body (463) fixed on a fixed rod (461), the opening end of the valve body (463) is matched with a horn connector (434), an oil filling cavity (464) is arranged in the fixed rod (461), one end of the oil filling cavity (464), which is far away from the horn connector (434), is connected with an oil conveying pipe (462), the oil conveying pipe (462) is communicated with an oil storage device (5), a trigger rod (465) is in clearance fit with an oil outlet of the oil filling cavity (464), one end of the trigger rod (465) is fixed with a fixed ring (435), a retaining disc is arranged on the outer wall of the other end of the trigger rod (465), one end of the retaining disc is an arc surface, the other end of the retaining disc is a plane, a retaining ring (466) is arranged between the arc surface end of the retaining disc and the inner wall of one end of the oil filling cavity (464), and a compression spring (467) is arranged between the plane end of the retaining disc and the inner wall of the other end of the oil filling cavity (464).