CN216662299U - Film loading attachment and film laminating processing line of corrosion resistant plate - Google Patents

Abstract

A thin film feeding device for a stainless steel plate, comprising: the device comprises a base, a mounting seat and a hoisting assembly; the mounting seats are arranged on two sides of the base and provided with V-shaped grooves; the opening caliber of the V-shaped groove is gradually reduced from top to bottom; the hoisting device is used for driving the coil hanger to lift; the coil hanging device is provided with two adjusting arms with adjustable relative distance; the adjusting arm is provided with a hook part; the winding roller is used for winding and unwinding the film, and two ends of the winding roller are provided with concave parts; the hook part is clamped in the concave part, so that the winding roller is driven by the coil hanger to move; the lifting device is used for driving the coil hanging device to move, driving the winding roller to move to be close to the mounting seat, and the two ends of the winding roller are clamped in the V-shaped grooves. The film loading attachment of this scheme for stainless steel plate's surface provides the film, place the wind-up roll in V type groove through hoisting accessory, improved the connection stability and the installation stability of wind-up roll at the material loading in-process, solved among the prior art the problem that there is the potential safety hazard in the transfer process of wind-up roll.

Description

Film loading attachment and film laminating processing line of corrosion resistant plate

Technical Field

The utility model relates to the technical field of stainless steel plate processing devices, in particular to a stainless steel plate film feeding device and a film laminating processing line.

Background

In order to realize the reprocessing of the surface of the existing stainless steel plate, a layer of film is often required to be added, so that the scratching of the stainless steel plate can be avoided, and the stainless steel plate can be reprocessed; in the existing film feeding device for the stainless steel plate, due to the fact that mass production efficiency is high, film changing needs to be achieved through a crane, but due to the fact that the unreeling roller which is used for reeling the film is not effectively matched with the crane and a base for fixing the unreeling roller, potential safety hazards exist in high-altitude transfer of the film.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a film feeding device for a stainless steel plate, which is used for providing a film for the surface of the stainless steel plate, and a winding roller is placed in a V-shaped groove through a lifting device, so that the connection stability and the installation stability of the winding roller in the feeding process are improved.

The utility model also provides a film laminating processing line, which comprises: the device comprises an upper plate conveying device, a laminating device and the thin film feeding device for the stainless steel plate.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a thin film feeding device for a stainless steel plate, comprising: the device comprises a base, a mounting seat and a hoisting assembly;

the mounting seats are mounted on two sides of the base and provided with V-shaped grooves; the opening caliber of the V-shaped groove is gradually reduced from top to bottom;

the lifting assembly comprises: the winding device comprises a coil hanger, a winding roller and a hoisting device;

the hoisting device is used for driving the coil hanger to lift; the coil lifting device is provided with two adjusting arms with adjustable relative distances; the adjusting arm is provided with a hook part; the winding roller is used for winding and unwinding the film, and two ends of the winding roller are provided with concave parts; the hook part is clamped in the concave part, so that the winding roller is driven by the coil hanger to move; the lifting device is used for driving the coil hanging device to move so as to drive the winding roller to move to be close to the mounting seat, and two ends of the winding roller are clamped in the V-shaped groove.

Preferably, the hoist comprises: the fixed shell, the limiting piece and the adjusting arm;

the fixed shell is provided with an accommodating groove along the length direction; the adjusting arms are movably arranged at the left end and the right end of the accommodating groove respectively; the fixed shell and the adjusting arm are respectively provided with an adjusting hole; the limiting part detachably extends into the adjusting holes of the fixed shell and the adjusting arm, so that the relative positions of the fixed shell and the adjusting arm are fixed.

More preferably, the hoisting device comprises: the lifting frame, the lifting driver, the lifting wheel and the lifting rope;

the fixed end of the hoisting driver is arranged on the hoisting frame, and the output end of the hoisting driver is connected to the hoisting wheel and is used for driving the hoisting wheel to rotate; one end of the lifting rope is wound on the lifting wheel and is wound and unwound by the lifting wheel; the other end of the lifting rope is connected with the coil lifting device.

Further optimally, the hoisting device also comprises a hoisting rope limiting frame;

the lifting rope limiting frame is arranged on the lifting driver or the lifting frame, and is provided with a lifting rope limiting opening; the lifting rope passes through the lifting rope limiting opening.

Preferably, a lifting rope limiting groove is arranged between the two ends of the lifting wheel;

the lifting rope is limited in the lifting rope limiting groove.

Preferably, the method further comprises the following steps: a deviation preventing adjuster;

the deviation preventing adjuster includes: the anti-deviation connecting rod and the anti-deviation limiting plate; the deviation-preventing limiting plate is mounted on the deviation-preventing connecting rod;

mounting columns are arranged at two ends of the winding roller; the mounting column transversely passes through the V-shaped groove; the mounting post is provided with the concave part; the mounting seat is provided with an anti-deviation hole; one end of the anti-deviation connecting rod is arranged in the anti-deviation hole, and the anti-deviation limiting plate is clamped in the inner concave part to limit the mounting column on the mounting seat.

More preferably, the deviation preventing adjuster includes: an adjusting disk;

an external thread structure is arranged at one end of the deviation-preventing connecting rod, and the adjusting disc is fixed at the other end of the deviation-preventing connecting rod; the anti-deviation limiting plate is limited between two ends of the anti-deviation connecting rod;

one end of the deviation-preventing connecting rod is matched with the deviation-preventing hole through a threaded structure.

Further optimally, the deviation preventing regulator comprises: an anti-deviation adjusting seat;

the anti-deviation adjusting seat is arranged on the mounting seat; the anti-deviation connecting rod is horizontally arranged on the anti-deviation adjusting seat and is in rotating connection with the anti-deviation adjusting seat.

A film lamination line, comprising: the device comprises an upper plate conveying device, a laminating device and the stainless steel plate film feeding device;

the upper plate conveying device is used for conveying the stainless steel plate so that the stainless steel plate passes through the laminating device; the film feeding device is used for outputting a film to the laminating device, and the laminating device is used for laminating the film on the surface of the stainless steel.

The utility model has the beneficial effects that:

the film loading attachment of this scheme for stainless steel plate's surface provides the film, place the wind-up roll in V type groove through hoisting accessory, improved the connection stability and the installation stability of wind-up roll at the material loading in-process, solved among the prior art the problem that there is the potential safety hazard in the transfer process of wind-up roll.

Drawings

Fig. 1 is a schematic structural view of one embodiment of a film feeding device.

Figure 2 is a schematic diagram of the structure of one embodiment of the hoist.

FIG. 3 is a schematic diagram of one embodiment of a deviation preventing adjuster in a mounting base.

Wherein:

the device comprises a base 1, a mounting seat 2 and a hoisting assembly 3; an anti-deviation regulator 4;

a V-shaped groove 21 and an anti-deviation hole 22;

a winder 31, a wind-up roll 32, a lifting device 33;

an adjusting arm 311, a hook 312, a fixed shell 313, a limiting piece 314, an accommodating groove 315 and an adjusting hole 316; mounting posts 321, inner recesses 322;

a lifting frame 331, a lifting driver 332, a lifting wheel 333, a lifting rope 334, a lifting rope limiting frame 335 and a lifting rope limiting groove 336;

an anti-deviation connecting rod 41, an anti-deviation limit plate 42, an adjusting disc 43 and an anti-deviation adjusting seat 44.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

A thin film feeding device for a stainless steel plate, comprising: the device comprises a base 1, a mounting seat 2 and a hoisting assembly 3;

the mounting seats 2 are mounted on two sides of the base 1, and the mounting seats 2 are provided with V-shaped grooves 21; the opening diameter of the V-shaped groove 21 is gradually reduced from top to bottom;

the hoisting assembly 3 comprises: a winder 31, a wind-up roller 32 and a lifting device 33;

the hoisting device 33 is used for driving the coil hanger 31 to ascend and descend; the coil hanger 31 is provided with two adjusting arms 311 with adjustable relative distance; the adjusting arm 311 is provided with a hook part 312; the winding roller 32 is used for winding and unwinding a film, and two ends of the winding roller 32 are provided with concave parts 322; the hook part 312 is clamped in the concave part 322, so that the wind-up roll 32 is driven by the coil hanger 31 to move; the lifting device 33 is used for driving the coil hanger 31 to move so as to drive the winding roller 32 to move to be close to the mounting base 2, and two ends of the winding roller 32 are clamped in the V-shaped grooves 21.

The film loading attachment of this scheme for stainless steel plate's surface provides the film, place wind-up roll 32 in V type groove 21 through hoisting accessory 33, improved wind-up roll 32 connection stability and installation stability at the material loading in-process, solved among the prior art wind-up roll 32 and had the problem of potential safety hazard in the transfer process.

Specifically, as shown in fig. 1 to 3, the horizontal two ends of the coil hanger 31 are provided with adjusting arms 311 with adjustable horizontal distance, when the distance between the two adjusting arms 311 is adjustable, the length adaptability of the winding rollers 32 with different sizes can be adjusted, and the winding rollers 32 with different sizes can be connected; the adjusting arm 311 is provided with a hook part 312, the hook part 312 can be hooked in the concave parts 322 at two ends of the winding roller 32, the inner wall of the concave part 322 can limit the hook, the contact area between the hook and the concave part 322 is increased, and the connection stability of the adjusting arm 311 to the winding roller 32 is improved; the hoisting device 33 is a well-known mechanism with a hoisting function, and can transfer the coil hanger 31, drive the winding roller 32 on the coil hanger 31 to move, and place two ends of the winding roller 32 in the V-shaped groove 21; because the opening caliber of the V-shaped groove 21 is gradually reduced from top to bottom, the two ends of the wind-up roll 32 are more easily inserted into the V-shaped groove 21 at the upper end of the opening, and when the two ends of the wind-up roll 32 move downwards to the bottom of the V-shaped groove 21, the inner wall of the V-shaped groove 21 contacts the wind-up roll 32, so that the two ends of the wind-up roll 32 are more easily installed, and the two ends of the wind-up roll 32 are positioned in the V-shaped groove 21 and are not easily separated from the V-shaped groove 21, thereby improving the installation stability of the wind-up roll 32; from this, wind-up roll 32 receives spacing in the aspect of shifting and fixing, and it is difficult not hard up in the transfer process. After the wind-up roll 32 is installed in the mount pad 2, the wind-up roll 32 can be driven by a motor to rotate, and a film on the wind-up roll 32 is unreeled, so that a film raw material can be provided for stainless steel.

Preferably, the suspender 31 comprises: a fixed shell 313, a limiting member 314 and the adjusting arm 311;

the fixing shell 313 is provided with an accommodating groove 315 along the length direction thereof; the adjusting arms 311 are respectively movably mounted at the left and right ends of the accommodating groove 315; the fixed shell 313 and the adjusting arm 311 are respectively provided with an adjusting hole 316; the limiting member 314 is detachably inserted into the adjusting holes 316 of the fixing shell 313 and the adjusting arm 311, so that the relative positions of the fixing shell 313 and the adjusting arm 311 are fixed.

As shown in fig. 2, the two adjusting arms 311 are telescopically movable in the receiving slots 315 in the fixing housing 313, and the distance between the two adjusting arms 311 is adjusted by the adjusting arms 311 at different positions of the fixing housing 313, so as to adjust the position of the hook 312. After the position of the required adjusting arm 311 is determined according to the size of the wind-up roll 32, the position of the fixing shell 313 and the adjusting arm 311 can be limited by sequentially extending the limiting member 314 into the adjusting hole 316 of the fixing shell 313 and the adjusting hole 316 of the adjusting arm 311, so that the fixing shell 313 and the adjusting arm 311 are fixed.

More preferably, the hoisting device 33 comprises: a lifting frame 331, a lifting driver 332, a lifting wheel 333 and a lifting rope 334;

the fixed end of the hoisting driver 332 is mounted on the hoisting frame 331, and the output end of the hoisting driver 332 is connected to the hoisting wheel 333 and is used for driving the hoisting wheel 333 to rotate; one end of the lifting rope 334 is wound on the lifting wheel 333, and is driven by the lifting wheel 333 to wind and unwind; the other end of the lifting rope 334 is connected to the coiler 31.

The hoist driver 332 is a well-known mechanism having a driving rotation, such as a motor, or a combination of a motor and a reducer; the output end of the hoisting driver rotates to drive the hoisting wheel 333 to rotate, and further drive the hoisting rope 334 to wind and unwind; when the lifting rope 334 is wound, the position of the coiler 31 rises; when the lifting rope 334 is unwound, the position of the coiler 31 is lowered, and the coiler 31 is driven to ascend and descend.

Further optimally, the hoisting device 33 further comprises a hoisting rope limiting frame 335;

the lifting rope limiting frame 335 is mounted on the lifting driver 332 or the lifting frame 331, and the lifting rope limiting frame 335 is provided with a lifting rope limiting opening 337; the lifting rope 334 passes through the lifting rope limiting opening.

As shown in fig. 2, a lifting rope limiting opening in the lifting rope limiting frame 335 can limit the span of the lifting rope 334; generally, the lifting rope 334 is provided in a plurality to prevent the coiler 31 from easily rotating and to improve the transfer stability. Therefore, the lifting rope 334 is limited behind the lifting rope limiting opening and is not easy to break away from the lifting rope limiting opening, so that the problem that the tension distribution of the rope is uneven due to the fact that the span between the rope and the rope is too large can be avoided, and the uniform distribution of the tension is realized.

Preferably, a lifting rope limiting groove 336 is arranged between two ends of the lifting wheel 333;

the lifting rope 334 is limited in the lifting rope limiting groove 336.

As shown in fig. 2, the lifting rope limiting groove 336 can limit the lifting rope 334, so that the lifting ropes 334 are prevented from being separated from the roller surface of the lifting wheel 333 in the winding and unwinding processes, the lifting rope 334 is ensured to be limited at the roller surface all the time, and the uniform distribution of the tension of the lifting ropes 334 is realized.

Preferably, the method further comprises the following steps: an anti-deviation regulator 4;

the deviation preventing adjuster 4 includes: an anti-deviation connecting rod 41 and an anti-deviation limiting plate 42; the deviation-preventing limiting plate 42 is installed on the deviation-preventing connecting rod 41;

mounting posts 321 are arranged at two ends of the winding roller 32; the mounting post 321 transversely passes through the V-shaped groove 21; the mounting post 321 is provided with the concave portion 322; the mounting seat 2 is provided with an anti-deviation hole 22; one end of the deviation-preventing connecting rod 41 is mounted in the deviation-preventing hole 22, and the deviation-preventing limiting plate 42 is clamped in the concave portion 322, so that the mounting post 321 is limited in the mounting base 2.

As shown in fig. 1 and 3, two ends of the wind-up roll 32 are provided with mounting posts 321 for extending into the V-shaped groove 21; the deviation preventing adjuster 4 is mounted on the mounting base 2, and the deviation preventing connecting rod 41 thereof is mounted on the deviation preventing hole 22 by a known mechanism, such as fixture fixing, welding, thread fitting and the like; after the deviation-preventing connecting rod is arranged in the deviation-preventing hole 22, the position of the deviation-preventing limiting plate 42 is also fixed; the deviation-preventing limiting plate 42 can extend into the inner concave part 322 to limit the position of the mounting column 321 so as to limit the winding roller 32 to move along the length direction of the winding roller, so that the winding roller 32 is prevented from deviating along the directions of two sides of the machine base 1 in the winding process, and the unwinding position of the film is prevented from deviating from the original axis.

More preferably, the deviation-preventing regulator 4 comprises: an adjustment disk 43;

an external thread structure is arranged at one end of the deviation preventing connecting rod 41, and the adjusting disc 43 is fixed at the other end of the deviation preventing connecting rod 41; the deviation-preventing limit plate 42 is limited between two ends of the deviation-preventing connecting rod 41;

one end of the deviation preventing link 41 is engaged with the deviation preventing hole 22 by a screw structure.

As shown in fig. 3, the adjusting plate 43 is fixedly connected to the anti-deviation connecting rod 41, so that the anti-deviation connecting rod 41 can be driven to rotate by rotating the adjusting plate 43; one end of the deviation-proof connecting rod 41 is provided with an external thread structure and is matched with the deviation-proof hole 22 through the thread structure; according to this structure, prevent inclined to one side connecting rod 41 and can rotate through adjusting disk 43, drive the rotation of external screw thread structure to adjust the screw thread fit degree in preventing inclined to one side hole 22, and then make prevent inclined to one side connecting rod 41 along preventing the length direction activity of inclined to one side connecting rod 41, drive and prevent inclined to one side limiting plate 42 activity, and then can adjust the position of preventing inclined to one side limiting plate 42, can improve the adaptability to not unidimensional wind-up roll 32. Meanwhile, the inner wall of the concave portion 322 may be pressed by the deviation prevention limiting plate 42 by the position of the deviation prevention limiting plate 42.

Further optimally, the deviation preventing regulator 4 comprises: an anti-deviation adjustment seat 44;

the deviation-proof adjusting seat 44 is mounted on the mounting seat 2; the deviation-preventing connecting rod 41 is horizontally arranged on the deviation-preventing adjusting seat 44, and the deviation-preventing connecting rod and the deviation-preventing adjusting seat are in rotating connection.

In order to further improve the stability of the adjusting plate 43, an anti-deviation adjusting seat 44 may be disposed on the mounting seat 2, and the anti-deviation connecting rod 41 passes through the anti-deviation adjusting seat 44, so that the anti-deviation connecting rod 41 and the anti-deviation hole 22 are in the same horizontal line, thereby improving the smoothness of relative movement. The anti-yaw linkage 41 may be coupled to the anti-yaw adjustment mount 44 by conventional mechanisms, such as bearings.

A film lamination line, comprising: an upper plate conveying device, a laminating device and the stainless steel plate film feeding device of any embodiment;

the upper plate conveying device is used for conveying the stainless steel plate so that the stainless steel plate passes through the laminating device; the film feeding device is used for outputting a film to the laminating device, and the laminating device is used for laminating the film on the surface of the stainless steel.

The upper plate conveying device is a well-known mechanism with a plate body conveying function, such as a conveying belt, a conveying roller and the like; after the upper plate conveying device conveys the stainless steel plate to the laminating device, the film feeding device provides a film for the laminating device, and the film is laminated on the stainless steel plate by the laminating device. The bonding device is a mechanism having a bonding function, and for example, a thin film is bonded to a surface of stainless steel by rolling.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the utility model and should not be construed in any way as limiting the scope of the utility model. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (9)

1. A film loading attachment of corrosion resistant plate, characterized by, includes: the device comprises a base, a mounting seat and a hoisting assembly;

the mounting seats are mounted on two sides of the base and provided with V-shaped grooves; the opening caliber of the V-shaped groove is gradually reduced from top to bottom;

the lifting assembly comprises: the winding device comprises a coil hanger, a winding roller and a hoisting device;

the hoisting device is used for driving the coil hanger to lift; the coil lifting device is provided with two adjusting arms with adjustable relative distances; the adjusting arm is provided with a hook part; the winding roller is used for winding and unwinding the film, and two ends of the winding roller are provided with concave parts; the hook part is clamped in the concave part, so that the winding roller is driven by the coil hanger to move; the hoisting device is used for driving the coil lifting device to move so as to drive the winding roller to move to be close to the mounting seat, and two ends of the winding roller are clamped in the V-shaped groove.

2. The apparatus as claimed in claim 1, wherein the winder comprises: the fixed shell, the limiting piece and the adjusting arm;

the fixed shell is provided with an accommodating groove along the length direction; the adjusting arms are movably arranged at the left end and the right end of the accommodating groove respectively; the fixed shell and the adjusting arm are respectively provided with an adjusting hole; the limiting part detachably extends into the adjusting holes of the fixed shell and the adjusting arm, so that the relative positions of the fixed shell and the adjusting arm are fixed.

3. The thin film feeding device of a stainless steel plate according to claim 2, wherein the lifting device comprises: the lifting frame, the lifting driver, the lifting wheel and the lifting rope;

the fixed end of the hoisting driver is arranged on the hoisting frame, and the output end of the hoisting driver is connected to the hoisting wheel and is used for driving the hoisting wheel to rotate; one end of the lifting rope is wound on the lifting wheel and is wound and unwound by the lifting wheel; the other end of the lifting rope is connected with the coil lifting device.

4. The stainless steel plate film feeding device according to claim 3, wherein the lifting device further comprises a lifting rope limiting frame;

the lifting rope limiting frame is arranged on the lifting driver or the lifting frame, and is provided with a lifting rope limiting opening; the lifting rope passes through the lifting rope limiting opening.

5. The film feeding device of the stainless steel plate according to claim 4, wherein a lifting rope limiting groove is arranged between two ends of the lifting wheel;

the lifting rope is limited in the lifting rope limiting groove.

6. The apparatus for feeding a thin film of a stainless steel plate according to any one of claims 1 to 5, further comprising: a deviation preventing adjuster;

the deviation preventing adjuster includes: the anti-deviation connecting rod and the anti-deviation limiting plate; the deviation-preventing limiting plate is mounted on the deviation-preventing connecting rod;

mounting columns are arranged at two ends of the winding roller; the mounting column transversely passes through the V-shaped groove; the mounting post is provided with the concave part; the mounting seat is provided with an anti-deviation hole; one end of the anti-deviation connecting rod is arranged in the anti-deviation hole, and the anti-deviation limiting plate is clamped in the inner concave part to limit the mounting column on the mounting seat.

7. The apparatus for feeding a thin film of a stainless steel plate as set forth in claim 6, wherein the deviation preventing adjuster comprises: an adjusting disk;

an external thread structure is arranged at one end of the deviation-preventing connecting rod, and the adjusting disc is fixed at the other end of the deviation-preventing connecting rod; the anti-deviation limiting plate is limited between two ends of the anti-deviation connecting rod;

one end of the deviation-preventing connecting rod is matched with the deviation-preventing hole through a threaded structure.

8. The apparatus for feeding a thin film of a stainless steel plate as set forth in claim 7, wherein the deviation preventing adjuster comprises: an anti-deviation adjusting seat;

the anti-deviation adjusting seat is arranged on the mounting seat; the anti-deviation connecting rod is horizontally arranged on the anti-deviation adjusting seat and is in rotating connection with the anti-deviation adjusting seat.

9. A film laminating line, comprising: a top plate transfer device, a laminating device and a thin film feeding device of the stainless steel plate according to any one of claims 1 to 8;

the upper plate conveying device is used for conveying the stainless steel plate so that the stainless steel plate passes through the laminating device; the film feeding device is used for outputting a film to the laminating device, and the laminating device is used for laminating the film on the surface of the stainless steel.

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