CN219028719U - Be applied to aluminium foil cutlery box raw and other materials material loading and cut positioner - Google Patents

Abstract

The utility model discloses a feeding and cutting positioning device applied to aluminum foil cutlery box raw materials, which comprises a roller wire frame and a portal frame arranged on the roller wire frame, wherein the roller wire frame comprises long feeding rollers arranged on two sides and short feeding rollers arranged in the middle, an inner frame for arranging the short feeding rollers is arranged in the roller wire frame, the inner frame forms empty slots for the movable lifting and descending of a lifting plate, the arrangement of a feeding control mechanism realizes orderly feeding and discharging of aluminum foil plate raw materials and then is fed into a cutting mechanism, the cutting mechanism is utilized to realize simultaneous cutting of different edges of the aluminum foil plate raw materials, the cutting time is greatly shortened, the material position detection of the aluminum foil plate raw materials is improved by adopting lifting plates and material detection gratings, the cutting position of the aluminum foil plate raw materials is polished by an edging mechanism in a high-efficiency and accurate matching manner, cutting and cutting are avoided, and the safety is improved.

Description

Be applied to aluminium foil cutlery box raw and other materials material loading and cut positioner

Technical Field

The utility model belongs to the field of aluminum foil finished product production equipment, and particularly relates to a feeding, cutting and positioning device applied to aluminum foil cutlery box raw materials.

Background

The aluminum foil cutlery box is a tableware widely used, the thickness of the aluminum foil cutlery box is generally between 0.03mm and 0.20mm, the aluminum foil cutlery box can be divided into a wrinkled aluminum foil cutlery box and a non-wrinkled aluminum foil cutlery box, the aluminum foil cutlery box can also be divided into a disposable aluminum foil cutlery box and a reusable aluminum foil cutlery box, and the aluminum foil cutlery box is usually called a tin foil cutlery box in China, and is an aluminum ingot master batch which is 3 series or 8 series in fact and is formed by cold rolling or hot rolling of aluminum ingot raw materials, and the aluminum foil cutlery box is uniform in thickness, smooth in surface, free of pinholes and dust particles and free of peculiar smell.

For the production of some aluminium foil cutlery boxes, need send into stamping forming after cutting unnecessary rim charge, ordinary equipment can adopt the unilateral mode that cuts in proper order to realize the size correction, probably because of cutting the precision location problem and cause dimensional error, among the prior art, publication number CN217123394U discloses a raw materials guillootine is used in aluminium foil cutlery box production, can carry out the repeated cutting to one side of aluminium foil voluntarily, efficiency and the degree of accuracy that cut have been improved well, but both sides limit of aluminium foil paper raw materials all probably have the condition that needs to cut, sometimes still have the possibility of cutting aluminium foil board raw materials, therefore above-mentioned equipment can not satisfy corresponding needs well.

Disclosure of Invention

Aiming at the technical defects in the background technology, the utility model provides the feeding, cutting and positioning device applied to the raw materials of the aluminum foil cutlery box, which solves the technical problems and meets the actual requirements, and the specific technical scheme is as follows:

be applied to aluminium foil cutlery box raw and other materials material loading and cut positioner, including the cylinder line frame with install in the portal frame in the cylinder line frame, the cylinder line frame including the long feed roll that is located both sides and the short feed roll that is located the middle part, the cylinder line frame in install and supply the inside casing of short feed roll installation, the inside casing form the empty slot that supplies the activity of lifting plate to rise and descend, the portal frame on install hang in the cutting mechanism directly over the lifting plate, cutting mechanism both sides all install the detection seat, detection seat electric connection have the material detection grating, portal frame left and right sides install material loading control mechanism and edging mechanism perpendicularly respectively.

As a further technical scheme of the utility model, the cutting mechanism comprises a first driving cylinder connected with the portal frame, a rod body in driving connection with the first driving cylinder, a first mounting plate and a second mounting plate which are used for the tail end of the rod body to pass through and be connected, a cutting positioning seat positioned below the second mounting plate, a second driving cylinder arranged on four sides of the cutting positioning seat, a pushing block in driving connection with the second driving cylinder, and a cutter blade in driving connection with the pushing block.

As a further technical scheme of the utility model, the cutting positioning seat, the first mounting plate and the second mounting plate are all connected and locked through locking bolts, and guide convex grooves for the matched mounting of the cutter blades are vertically formed on four sides of the cutting positioning seat.

As a further technical scheme of the utility model, the feeding control mechanism comprises a first suspension rod vertically arranged with the portal frame, a first oblique pull rod used for connecting the portal frame and the first suspension rod, a telescopic cylinder welded on one side of the first suspension rod close to the cutting mechanism, and a telescopic touch bar in driving connection with the telescopic cylinder.

As a further technical scheme of the utility model, the edging mechanism comprises a second suspension rod vertically arranged with the portal frame, a second oblique pull rod used for connecting the portal frame and the second suspension rod, a rotating rod arranged on one side of the second suspension rod close to the roller wire frame at equal intervals, and edging rubber wheels sleeved on the rotating rod, wherein the rotating rod is respectively and drivingly sleeved with a first transmission chain, the first transmission chain is in driving connection with a first driving motor through a transmission gear, and the first driving motor is welded on one side of the portal frame through a bracket.

As a further technical scheme of the utility model, the bottom of the lifting plate is connected with a lifting rod body, the lifting rod body is connected with a lifting driving cylinder, and the lifting driving cylinder is positioned in the empty groove and welded and fixed with the side of the inner frame.

As a further technical scheme of the utility model, the two ends of the long feeding roller and the short feeding roller positioned in the middle are respectively sleeved with a second transmission chain, the long feeding roller at one side of the extreme point is sleeved with a third transmission chain, and the second transmission chain is in driving connection with a second driving motor through a transmission gear.

The utility model has the beneficial effects that: the aluminum foil plate raw materials are orderly fed and fed into the cutting mechanism after being discharged through the setting of the feeding control mechanism, the cutting mechanism is utilized to realize simultaneous cutting of two sides of the aluminum foil plate raw materials, four sides can be cut when necessary, therefore, cutting time is greatly shortened, the lifting plate and the material detection grating are adopted to detect the material position of the aluminum foil plate raw materials, automatic discharging, discharging and cutting are effectively and accurately matched, and finally the cutting position of the aluminum foil plate raw materials is polished through the edging mechanism, so that burrs are prevented from being cut to workers, and safety is improved.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a use state diagram of the present utility model.

Fig. 3 is a schematic view of a cutting positioning seat according to the present utility model.

Fig. 4 is a top view of the roller wire frame of the present utility model.

Wherein: the device comprises a roller wire frame 1, a long feeding roller 2, a second driving motor 3, a third driving chain 5, a second driving chain 6, a lifting driving cylinder 10, a lifting rod body 11, a lifting plate 12, a first hanging rod 13, a first oblique pull rod 14, a telescopic cylinder 15, a telescopic touch bar 16, a portal frame 17, a detection seat 18, a material detection grating 19, a second hanging rod 20, a second oblique pull rod 21, a rotating rod 22, an edging rubber wheel 23, a first driving chain 24, a first driving motor 25, a first driving cylinder 26, a rod body 27, a limiting ring 28, a cutting positioning seat 29, a first mounting plate 30, a second mounting plate 31, a locking bolt 32, a second driving cylinder 33, a pushing block 35, a cutter blade 36, a guide convex groove 37, an inner frame 38, a hollow groove 39 and a short feeding roller 40.

Description of the embodiments

Embodiments of the present utility model will be described below with reference to the accompanying drawings and examples, but the embodiments of the present utility model are not limited to the following examples, and the present utility model relates to the relevant essential parts in the art, and should be regarded as known and understood by those skilled in the art.

Referring to fig. 1 to 4, a positioning device for cutting raw materials of aluminum foil cutlery box comprises a roller wire frame 1 and a portal frame 17 arranged on the roller wire frame 1, wherein the roller wire frame 1 comprises long feeding rollers 2 positioned on two sides and short feeding rollers 40 positioned in the middle, an inner frame 38 for arranging the short feeding rollers 40 is arranged in the roller wire frame 1, the inner frame 38 forms an empty slot 39 for movably lifting and descending a lifting plate 12, a cutting mechanism suspended above the lifting plate 12 is arranged on the portal frame 17, detection seats 18 are arranged on two sides of the cutting mechanism, the detection seats 18 are electrically connected with material detection gratings 19, and a feeding control mechanism and an edging mechanism are respectively and vertically arranged on the left side and the right side of the portal frame 17.

The cutting mechanism comprises a first driving cylinder 26 connected with the portal frame 17, a rod body 27 connected with the first driving cylinder 26 in a driving way, a first mounting plate 30 and a second mounting plate 31 which are used for being connected with the tail end of the rod body 27 in a penetrating way, a cutting positioning seat 29 positioned below the second mounting plate 31, a second driving cylinder 33 arranged on four sides of the cutting positioning seat 29, a pushing block 35 connected with the second driving cylinder 33 in a driving way, and a cutter blade 36 connected with the pushing block 35 in a driving way, wherein the cutting positioning seat 29, the first mounting plate 30 and the second mounting plate 31 are connected with each other in a penetrating way through a locking bolt 32 in a locking way, guide convex grooves 37 used for being matched with the cutter blade 36 are vertically arranged on four sides of the cutting positioning seat 29, a lifting rod body 11 is connected with the lifting driving cylinder 10 at the bottom of the lifting plate 12, and the lifting driving cylinder 10 is positioned in the groove 39 and is fixedly welded with the side edges of the inner frame 38.

In the cutting process of the two sides of the aluminum foil raw material, the feeding control mechanism is arranged, so that the contact sensor for sensing whether an object is contacted or not can be arranged on the telescopic contact strip 16 of the stop mechanism through contact with the aluminum foil raw material, the contact sensor is matched with the material detection grating 19, the feeding process is accurately judged from two angles, and the process of orderly feeding and discharging the aluminum foil raw material 7 and then feeding the aluminum foil raw material into the cutting mechanism is realized. By utilizing the cutting mechanism, an operator can cut both sides of the aluminum foil plate raw material 7 simultaneously by driving the second driving cylinders 33 on the left side and the right side through the control device, so that both sides of the aluminum foil can be trimmed simultaneously conveniently and rapidly, and the aluminum foil raw material with a fixed width is obtained.

If the operator needs to cut further aluminum foil sheets with the same size for the production of aluminum foil cutlery boxes with special requirements when necessary, the processing object is changed from the aluminum foil parent roll into the aluminum foil plate raw material 7 into slices at the moment, and the aluminum foil can be integrally cut by driving the cutter blades 36 of all the second driving cylinders 33 to cooperate with the lifting plate 12, so that the aluminum foil paperboard with the fixed size is obtained.

In addition, in the utilization of the utility model, an operator can also realize the unilateral cutting of the aluminum foil by selectively starting the unilateral air cylinder, and further, the relative position of the cutter blade 36 corresponding to the second driving air cylinder 33 at the side can be changed by changing the offset degree of the aluminum foil raw material parent roll in the feeding width direction on the material roller, so that the cutting correction size of the aluminum foil plate with different widths can be obtained, the whole operation is very flexible, and the cutting device can adapt to the cutting requirements of various aluminum foil raw materials.

In the operation, the edging mechanism can be selectively arranged on one side and two sides of the long feeding roller 2 in a detachable manner according to the requirement, and the position of the edging mechanism relative to the long feeding roller 2 is changed to adapt to edging and polishing of aluminum foil raw materials with different widths.

Especially, if an operator needs to obtain an aluminum foil paperboard with a fixed size, the utility model can adopt the lifting plate 12 and the material detection grating 19 to improve the material position detection of the aluminum foil board raw material 7, and the automatic blanking, blanking and cutting are matched efficiently and accurately, and finally the cutting position of the aluminum foil board raw material 7 is polished through the edging mechanism, so that burrs generated by cutting are avoided.

The utility model further describes that four sides are cut simultaneously, when the aluminum foil plate feeding device specifically works, an operator sends an aluminum foil plate raw material 7 into a roller wire frame 1 from one side of a feeding control mechanism, the aluminum foil plate raw material is conveyed to one side of a telescopic cylinder 15 through a long feeding roller 2, whether materials exist on a lifting plate 12 or not is detected through a material detection grating 19, if the materials do not exist, the materials are conveyed to the telescopic cylinder 15 through a signal, a telescopic touch bar 16 is started to be driven to lift, the materials are stopped to be contacted with the aluminum foil plate raw material 7, a sensor feeds back the signal to a feeding mechanism, the aluminum foil plate raw material 7 obtains feeding permission, and the materials pass through and enter the lifting plate 12.

It should be noted that, when the stop mechanism cuts four edges, the aluminum foil plate raw material 7 may be an aluminum foil raw material already cut into a plate shape, or may be a strip aluminum foil paper raw material conveyed by a feeding roller, wherein, if the aluminum foil paper raw material is strip aluminum foil paper raw material, the lifting plate 12 may not work during feeding, and the cutting mechanism above the lifting plate is only lowered to cut, so that unnecessary deformation and excessive feeding amount generated by lifting the lifting plate 12 are avoided.

When the equipment detects that the lifting plate 12 is provided with a material through the material detection grating 19, if the plate-shaped aluminum foil plate raw material 7 is cut, a signal is transmitted to the lifting driving cylinder 10, and the lifting rod body 11 is started to drive the lifting plate 12 to move to one side of the cutting mechanism, so that four-side cutting is completed; if a band-shaped aluminum foil paper raw material, that is, an aluminum foil parent roll is cut, the lifting cylinder 10 is not driven, and the lifting plate 12 is not lifted up, but is lifted down by the cutting mechanism to cut. When the cutting mechanism is started, the first driving cylinder 26 is started, the cutting positioning seat 29 is driven by the rod body 27 to press against one side of the aluminum foil plate raw material 7, after the cutting positioning seat is contacted with the aluminum foil plate raw material 7, the second driving cylinder 33 on four sides is started, the pushing block 35 is driven to move towards one side of the aluminum foil plate raw material 7, and the cutter blade 36 cuts off redundant positions of the aluminum foil plate raw material 7, so that synchronous cutting is realized.

In particular, when the aluminum foil raw material is the aluminum foil plate raw material 7, the raw material comprises a cutlery box raw material plate area 8 and trimming areas 9 positioned at two sides of the cutlery box raw material plate area 8, and the trimming areas 9 are the portions of the cutting blades 36; after finishing cutting, the lifting plate 12 and the cutting mechanism are reset, the cut aluminum foil plate raw material 7 is conveyed to the edging mechanism under the action of the long feeding roller 2 and the short feeding roller 40, the first driving motor 25 is started to drive the rotating rod 22 to rotate through the first transmission chain 24, the edging rubber wheel 23 rotates, and the edging rubber wheel is polished and deburred with the trimming position of the cut aluminum foil plate raw material 7.

The first driving cylinder 26 is provided with a limiting ring 28 sleeved with the rod body 27, the rod body 27 is prevented from exceeding the stroke through the setting of the limiting ring 28, the equipment is limited, and the use safety is guaranteed.

Further, the feeding control mechanism comprises a first suspension rod 13 vertically installed with the portal frame 17, a first oblique pull rod 14 used for connecting the portal frame 17 and the first suspension rod 13, a telescopic cylinder 15 welded on one side of the first suspension rod 13 close to the cutting mechanism, and a telescopic touch bar 16 in driving connection with the telescopic cylinder 15, when the material detection grating 19 detects that no material exists on the lifting plate 12, and meanwhile, the telescopic touch bar 16 is started to drive the telescopic touch bar 16 to lift under the condition that the material is sensed on a material line, and when the sensors at 2 positions release signals capable of feeding, the aluminum foil plate raw material 7 or the strip aluminum foil paper raw material can be allowed to pass through and enter the position where the lifting plate 12 is located, so that feeding accuracy is ensured.

Further, the edging mechanism comprises a second suspension rod 20 vertically installed with the portal frame 17, a second inclined pull rod 21 used for connecting the portal frame 17 and the second suspension rod 20, a rotating rod 22 installed on one side of the second suspension rod 20 close to the roller wire frame 1 at equal intervals, and edging rubber wheels 23 sleeved on the rotating rod 22, wherein the rotating rod 22 is in driving connection with a first transmission chain 24, the first transmission chain 24 is in driving connection with a first driving motor 25 through a transmission gear, the first driving motor 25 is welded on one side of the portal frame 17 through a bracket, and the first driving motor 25 is started to drive the first transmission chain 24 to rotate, so that the rotating rod 22 drives the edging rubber wheels 23 to rotate to polish the edging positions of the aluminum foil plate raw materials 7 to be polished.

Preferably, the long feed roller 2 and the short feed roller 40 at the middle part are both sleeved with a second transmission chain 6, the long feed roller 2 at one side of the extreme point is sleeved with a third transmission chain 5, the second transmission chain 6 is in driving connection with the second driving motor 3 through a transmission gear, the second driving motor 3 is welded and fixed with the roller wire frame 1 through a bracket, and the long feed roller 2 and the short feed roller 40 are driven to run through the second driving motor 3.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (7)

1. Be applied to aluminium foil cutlery box raw and other materials material loading and cut positioner, including cylinder line frame (1) with install in cylinder line frame (1) on portal frame (17), its characterized in that, cylinder line frame (1) including be located long feed roll (2) of both sides and be located short feed roll (40) in middle part, cylinder line frame (1) in install confession short feed roll (40) installation inside casing (38), inside casing (38) form empty slot (39) that supplies rising flitch (12) activity to rise and descend, portal frame (17) on install hang in the cutting mechanism directly over rising flitch (12), cutting mechanism both sides all install detection seat (18), detection seat (18) electric connection have material detection grating (19), portal frame (17) left and right sides install material loading control mechanism and edging mechanism perpendicularly respectively.

2. The cutting and positioning device for the raw material feeding of the aluminum foil cutlery box according to claim 1, wherein the cutting mechanism comprises a first driving cylinder (26) connected with the portal frame (17), a rod body (27) in driving connection with the first driving cylinder (26), a first mounting plate (30) and a second mounting plate (31) for the tail end of the rod body (27) to penetrate through, a cutting and positioning seat (29) arranged below the second mounting plate (31), a second driving cylinder (33) arranged on four sides of the cutting and positioning seat (29), a pushing block (35) in driving connection with the second driving cylinder (33) and a cutter blade (36) in driving connection with the pushing block (35).

3. The cutting and positioning device for the raw material loading of the aluminum foil cutlery box according to claim 2, wherein the cutting and positioning seat (29), the first mounting plate (30) and the second mounting plate (31) are all connected and locked through locking bolts (32), and guide convex grooves (37) for the matched installation of the cutting blades (36) are vertically arranged on four sides of the cutting and positioning seat (29).

4. The feeding, cutting and positioning device for the aluminum foil cutlery box raw materials according to claim 1, wherein the feeding control mechanism comprises a first hanging rod (13) vertically installed on the portal frame (17), a first oblique pull rod (14) used for connecting the portal frame (17) and the first hanging rod (13), a telescopic cylinder (15) welded on one side of the first hanging rod (13) close to the cutting mechanism, and a telescopic touch bar (16) in driving connection with the telescopic cylinder (15).

5. The cutting and positioning device for the raw material feeding of the aluminum foil cutlery box according to claim 1, wherein the edging mechanism comprises a second suspension rod (20) vertically installed with the portal frame (17), a second inclined pull rod (21) used for connecting the portal frame (17) and the second suspension rod (20), a rotating rod (22) installed on one side of the second suspension rod (20) close to the roller wire frame (1) at equal intervals and edging rubber wheels (23) sleeved on the rotating rod (22), the rotating rod (22) is in driving connection with a first transmission chain (24), the first transmission chain (24) is in driving connection with a first driving motor (25) through a transmission gear, and the first driving motor (25) is welded on one side of the portal frame (17) through a bracket.

6. The cutting and positioning device for the raw material loading of the aluminum foil cutlery box according to claim 1, wherein the bottom of the lifting plate (12) is connected with a lifting rod body (11), the lifting rod body (11) is connected with a lifting driving cylinder (10), and the lifting driving cylinder (10) is positioned in the empty groove (39) and welded and fixed with the side of the inner frame (38).

7. The cutting and positioning device for the raw material feeding of the aluminum foil cutlery box according to claim 1, wherein the two ends of the long feeding roller (2) and the short feeding roller (40) positioned in the middle are sleeved with a second transmission chain (6), the long feeding roller (2) at one side of the extreme point is sleeved with a third transmission chain (5), and the second transmission chain (6) is in driving connection with a second driving motor (3) through a transmission gear.

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