CN214989047U

CN214989047U - Solvent-free composite aluminum foil high-position unwinding system

Info

Publication number: CN214989047U
Application number: CN202023108632.XU
Authority: CN
Inventors: 李军红; 蒋伟隆; 徐丽萍
Original assignee: SINOMECH CORP
Current assignee: SINOMECH CORP
Priority date: 2020-12-22
Filing date: 2020-12-22
Publication date: 2021-12-03
Anticipated expiration: 2030-12-22

Abstract

The utility model provides a solventless quality composite aluminum foil high-order system of unreeling, includes can rise the hoist mechanism that the material was rolled up to solventless quality composite apparatus top from ground, can for hoist mechanism carry the ground material loading dolly of material book, establish the unwinding mechanism at solventless quality composite apparatus top and can carry the material book of hoist mechanism to the high-order material loading dolly of unwinding mechanism. The utility model discloses can realize in equipment that the aluminium foil book unreels at the high-order, realize from unreeling to the design of compound shortest path, aluminium foil and the chance of roll surface contact before furthest reduces the complex, avoid the aluminium foil impaired.

Description

Solvent-free composite aluminum foil high-position unwinding system

Technical Field

The utility model belongs to the technical field of packaging machinery and specifically relates to a high-order system of unreeling of solvent-free composite aluminum foil.

Background

Aluminum-plastic composite is used as a solvent-free composite process form and is mainly used for sealed packaging for preventing water absorption and needing light and oxygen insulation storage, generally three layers are more, and the aluminum foil is mostly compounded twice on common equipment, and a three-in-one disposable compounding scheme is abandoned due to the characteristic that the aluminum foil is not suitable for being worn in a long path.

Disclosure of Invention

The utility model aims to solve the technical problem that a high-order system of unreeling of no solvent composite aluminum foil is provided, satisfy under the prerequisite that the aluminium foil short path unreeled, provide the possibility of trinity disposable composite scheme.

In order to solve the technical problem, the technical scheme of the utility model is that: a solvent-free composite aluminum foil high-position unwinding system comprises a lifting mechanism, a ground feeding trolley, an unwinding mechanism and a high-position feeding trolley, wherein the lifting mechanism can lift a material roll from the ground to the top of solvent-free composite equipment;

the lifting mechanism is arranged on one side of the solvent-free composite equipment and comprises an upright post, a rotary driving mechanism for driving the upright post to rotate, a lifting frame capable of sliding up and down along the upright post and a lifting driving mechanism for driving the lifting frame to move up and down; the lifting frame comprises a power support and two fork arms arranged on the power support;

the ground feeding trolley comprises a first trolley body and a first travelling mechanism, wherein two first grooves for accommodating fork arms are formed in the top of the first trolley body, a first supporting block is formed between the two first grooves, a first stop block is formed on the outer sides of the two first grooves, the height of the first stop block is higher than that of the first supporting block, and the top surface of the first supporting block is an arc-shaped surface;

the high-position feeding trolley comprises a trolley bottom plate, a trolley middle plate, a trolley upper plate, a second trolley body and a lifting mechanism, wherein the trolley bottom plate stretches across the top of the solvent-free compounding equipment; one end of the trolley bottom plate extends out of the solvent-free compound equipment, a material receiving area and a material loading area are formed on the trolley bottom plate, a first sliding mechanism for driving the trolley middle plate to move between the material receiving area and the material loading area is arranged between the trolley bottom plate and the trolley middle plate, and a second sliding mechanism for driving the trolley upper plate to be close to or far away from the unreeling mechanism is arranged between the trolley upper plate and the trolley middle plate; the top of the second vehicle body is provided with two second grooves for containing the fork arms, a second supporting block is formed between the two second grooves, second stop blocks are formed on the outer sides of the two second grooves, the height of each second stop block is higher than that of each second supporting block, and the top surfaces of the second supporting blocks are arc-shaped surfaces;

the unwinding mechanism comprises two opposite support plates and an unwinding shaft, wherein the unwinding shaft is a conical head arranged on the inner sides of the two support plates.

The utility model discloses can realize in equipment that the aluminium foil book unreels at the high-order, realize from unreeling to the design of compound shortest path, aluminium foil and the chance of roll surface contact before furthest reduces the complex, avoid the aluminium foil impaired. The whole material roll is smooth and continuous in the transportation, lifting and feeding processes, and full-automatic operation can be realized by matching with a proper software control system.

As an improvement, the upper end of the upright post is connected with the wallboard through an upper connecting frame, and the lower end of the upright post is connected with the wallboard through a lower connecting frame.

As an improvement, an upper bearing seat is arranged on the upper connecting frame, a lower bearing seat is arranged on the lower connecting frame, and two ends of the upright post are respectively pivoted on the upper bearing seat and the lower bearing seat.

As the improvement, the rotary driving mechanism comprises a connecting sleeve and a rotary cylinder, wherein the connecting sleeve and the rotary cylinder are sleeved on the stand column, the two ends of the connecting sleeve are connected through bolts, one end of the connecting sleeve extends to form an articulated seat, the cylinder body of the rotary cylinder is fixed on the upper connecting frame, and the telescopic rod of the rotary cylinder is articulated with the articulated seat.

As an improvement, one side of the upright is provided with a lifting slide rail arranged along the length direction of the upright, the power support comprises an installation plate and a coaming connected with the installation plate, the coaming and the installation plate are encircled to form a lifting channel for the upright to pass through, the inner side of the installation plate is provided with a lifting slide block matched with the lifting slide rail, and the fork arm is fixed on the outer side surface of the installation plate.

As the improvement, the lifting driving mechanism comprises a lifting motor, a driving belt pulley, a driven belt pulley and a transmission belt, the lifting motor drives the driving belt pulley, the driving belt pulley is linked with the driven belt pulley through the transmission belt, and the transmission belt is connected with the power support.

As an improvement, the first sliding mechanism comprises a first sliding rail arranged on the top surface of the bottom plate of the trolley, a first sliding block arranged on the bottom surface of the middle plate of the trolley and matched with the first sliding rail, and a first air cylinder connected with the middle plate of the trolley; the second sliding mechanism comprises a second sliding rail arranged on the top surface of the middle plate of the trolley, a second sliding block arranged on the bottom surface of the upper plate of the trolley and matched with the second sliding rail, and a second air cylinder connected with the upper plate of the trolley; the first slide rail is vertical to the second slide rail; the lifting mechanism comprises a scissor type lifting seat and a lifting cylinder.

As the improvement, the mounting panel is the set-square, and the mounting panel is fixed between the wallboard of both sides through two optical axes, is equipped with the cantilever on the wallboard of both sides, is equipped with the support horizontal pole between two cantilevers.

As an improvement, the device also comprises a core barrel unloading mechanism, wherein the core barrel unloading mechanism comprises a core barrel diversion groove fixed on one side of the second vehicle body of the high-position trolley and an unloading opening arranged on a bottom plate of the trolley, and the core barrel diversion groove comprises baffles on two sides and a diversion inclined plate positioned between the baffles on two sides.

The utility model discloses operating method, including following step:

(1) the ground feeding trolley automatically conveys the material roll to the lifting mechanism, the lifting frame of the lifting mechanism is located at the lowest position, and the ground feeding trolley moves towards the lifting frame, so that the fork arm can be inserted into the first groove from one end of the first vehicle body;

(2) the lifting mechanism drives the lifting frame to ascend, and the two fork arms support the material roll and leave the first vehicle body;

(3) when the lifting frame rises to the highest position and stops, the rotary driving mechanism drives the upright post to drive the lifting frame to rotate by 90 degrees so that the material roll is parallel to the unwinding shaft;

(4) the high-level feeding trolley is moved to the material receiving area and is positioned below the material roll;

(5) the lifting mechanism of the high-position feeding trolley drives the second vehicle body to vertically lift until the second vehicle body contacts the material roll and transfers the material roll to the second vehicle body from the fork arm;

(6) the high-position feeding trolley transversely moves to the front of the unwinding mechanism, and a conical head of the unwinding mechanism is opened;

(7) the high-position feeding trolley moves the material roll to the position right below the conical head:

(8) the lifting mechanism of the high-position feeding trolley drives the second vehicle body to vertically lift, so that the conical head and the center of the cylinder core of the material roll are at the same height and consistent front and back;

(9) conical heads of the bracket plates at two sides clamp the cylinder core;

(10) the high-level feeding trolley vertically descends and is separated from the material roll, and automatic feeding is completed.

Compared with the prior art, the utility model the beneficial effect who brings is:

1. the utility model can realize the high-position unreeling of the aluminum foil coil in the equipment, realize the design from the unreeling to the shortest composite path, reduce the contact chance of the aluminum foil and the roller surface before the compounding to the maximum extent, and avoid the damage of the aluminum foil;

2. the aluminum foil high-position unreeling system is provided with a material roll lifting mechanism, so that the aluminum foil material roll can be conveniently lifted from the ground to a high position;

3. the ground is provided with the storage rack and the ground feeding trolley, the ground feeding trolley can run according to a specified path for transportation, the ground feeding trolley and the lifting mechanism can be conveniently in up-and-down seamless butt joint of materials, and the possibility of automatic feeding is realized;

4. the core barrel is unloaded in multiple modes, so that the automation degree of the whole feeding and discharging process is improved;

5. the whole material roll is smooth and continuous in the transportation, lifting and feeding processes, and full-automatic operation can be realized by matching with a proper software control system.

Drawings

Fig. 1 is a perspective view I of the present invention combined with an equipment wall panel.

Fig. 2 is the utility model discloses a stereogram II with equipment wallboard combination.

Fig. 3 is a schematic structural diagram of the present invention.

Fig. 4 is a schematic view of a high-position feeding trolley.

Fig. 5 is a schematic front view of the ground feeding trolley.

Fig. 6 is a schematic view of a core barrel guide groove.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The utility model provides a high-order system of unreeling of no solvent composite aluminum foil, the utility model discloses can use in trinity disposable aluminium foil no solvent multiple unit.

As shown in fig. 1, the solvent-free composite aluminum foil high-level unwinding system comprises a storage rack for storing a material roll, a lifting mechanism 1 capable of lifting the material roll from the ground to the top of the solvent-free composite equipment, a ground feeding trolley 2 capable of conveying the material roll to the lifting mechanism 1, an unwinding mechanism 4 arranged at the top of the solvent-free composite equipment, a high-level feeding trolley 3 capable of conveying the material roll of the lifting mechanism 1 to the unwinding mechanism 4, and a core barrel discharging mechanism.

As shown in fig. 1 to 3, the lifting mechanism 1 is disposed at one side of the solvent-free compound device, and includes a vertical column 11, a rotation driving mechanism 15 for driving the vertical column 11 to rotate, a lifting frame 12 capable of sliding up and down along the vertical column 11, and a lifting driving mechanism for driving the lifting frame 12 to move up and down. The lifting frame 12 comprises a power support 121 and two fork arms 122 arranged on the power support 121 in parallel; one side of stand 11 is equipped with the lift slide rail 13 that sets up along stand 11 length direction, power support 121 includes mounting panel and the bounding wall of being connected with the mounting panel, and the bounding wall encloses into the lift passageway that supplies stand 11 to pass with the mounting panel, and the inboard of mounting panel is equipped with the lift slider with lift slide rail 13 complex, the lateral surface at the mounting panel is fixed to yoke 122, and crane 12 realizes stable elevating movement through the cooperation of lift slider with lift slide rail 13, and the bounding wall can surround stand 11 with the mounting panel, prevents that crane 12 from breaking away from stand 11. The upper end of the upright post 11 is connected with the wallboard 5 through an upper connecting frame 14, the lower end of the upright post 11 is connected with the wallboard 5 through a lower connecting frame 18, an upper bearing seat 16 is arranged on the upper connecting frame 14, a lower bearing seat 17 is arranged on the lower connecting frame 18, two ends of the upright post 11 are respectively pivoted on the upper bearing seat 16 and the lower bearing seat 17, and the upright post 11 can freely rotate; the lower connecting frame 18 is triangular and comprises two first support arms and a first connecting rod arranged between the two first support arms, one ends of the two first support arms are aggregated and connected to the lower bearing seat 17, the bottom of the lower bearing seat 17 is also provided with a support leg attached to the ground, and the other ends of the two first support arms are separated and fixed on the wall plate 5; the lower connecting frame 18 is triangular and comprises two second support arms, a second connecting rod and a diagonal draw bar, wherein the second connecting rod and the diagonal draw bar are arranged between the two second support arms, one ends of the two second support arms are aggregated and connected to the upper bearing seat 16, the other ends of the two second support arms are separated and fixed on the wallboard 5, one end of the diagonal draw bar is connected with the second connecting rod, and the other end of the diagonal draw bar is connected with the wallboard 5. Rotary driving mechanism 15 is including the adapter sleeve and the revolving cylinder of cover at stand 11 upper end, bolted connection is passed through at the both ends of adapter sleeve, and wherein one end of adapter sleeve extends and forms articulated seat, revolving cylinder's cylinder body is fixed on last link 14, and revolving cylinder's telescopic link is articulated with articulated seat, and the concertina movement through revolving cylinder telescopic link changes the rotary motion of stand 11 into, can set for stand 11 angle of rotation at every turn to be 90. The lifting driving mechanism comprises a lifting motor, a driving belt pulley, a driven belt pulley and a transmission belt; the lifting motor is installed on an upper fixing plate 111, the upper fixing plate 111 is arranged on the upper portion of the stand column 11, a driven belt pulley is installed on a lower fixing plate 112, the lower fixing plate 112 is arranged on the lower portion of the stand column 11, the lifting motor drives a driving belt pulley, the driving belt pulley is linked with the driven belt pulley through a transmission belt, the transmission belt is connected with a power support 121, and the lifting motion of the lifting frame 12 is realized through the positive and negative rotation of the lifting motor.

As shown in fig. 5, the ground feeding trolley 2 includes a first trolley body 21 and a first traveling mechanism 22, two first grooves 23 for accommodating the fork arms 122 are formed in the top of the first trolley body 21, a first supporting block 24 is formed between the two first grooves 23, the top surface of the first supporting block 24 is an arc-shaped surface, so that a material roll can be stably placed on the first supporting block 24, a first stop 25 is formed on the outer sides of the two first grooves 23, and the height of the first stop 25 is higher than that of the first supporting block 24, so as to prevent the material roll 6 from falling. The ground feeding trolley 2 can adopt an AGV trolley and is matched with the storage rack, the ground feeding trolley 2 can run according to an appointed path to be transported, the seamless butt joint of the ground feeding trolley 2 and the lifting mechanism 1 is facilitated, and the possibility of automatic feeding is realized.

As shown in fig. 1 to 4, the overhead charging trolley 3 includes a trolley bottom plate 34 spanning the top of the solventless compounding device, a trolley middle plate 33 provided on the trolley bottom plate 34, a trolley upper plate 32 provided on the trolley middle plate 33, a second vehicle body 31 provided on the trolley upper plate 32, and a lifting mechanism 37 provided on the trolley upper plate 32 and used for driving the second vehicle body 31 to lift. One end of the trolley bottom plate 34 extends out of the solvent-free compound equipment, a material receiving area and a material loading area are formed on the trolley bottom plate 34, a first sliding mechanism for driving the trolley middle plate 33 to move between the material receiving area and the material loading area is arranged between the trolley bottom plate 34 and the trolley middle plate 33, and the first sliding mechanism comprises a first sliding rail 35 arranged on the top surface of the trolley bottom plate 34, a first sliding block arranged on the bottom surface of the trolley middle plate 33 and matched with the first sliding rail, and a first air cylinder connected with the trolley middle plate 33. A second sliding mechanism for driving the trolley upper plate 32 to be close to or far from the unreeling mechanism 4 is arranged between the trolley upper plate 32 and the trolley middle plate 33, and the second sliding mechanism comprises a second slide rail 36 arranged on the top surface of the trolley middle plate 33, a second slide block arranged on the bottom surface of the trolley upper plate 32 and matched with the second slide rail, and a second air cylinder connected with the trolley upper plate 32. The lifting mechanism comprises a scissor type lifting seat and a lifting cylinder, the scissor type lifting seat is arranged in the second vehicle body 31, the lowest height of the second vehicle body 31 can be reduced, and even the bottom of the second vehicle body 31 can be close to the upper plate 32 of the trolley. The first slide rail is perpendicular to the second slide rail, and the first sliding mechanism, the second sliding mechanism and the lifting mechanism are mutually matched, so that the high-position feeding trolley 3 has the capability of moving in X, Y, Z three directions. The top of the second vehicle body 31 is provided with two second grooves for accommodating the fork arms 122, a second supporting block is formed between the two second grooves, second stoppers are formed on the outer sides of the two second grooves, the height of each second stopper is higher than that of each second supporting block, and the top surfaces of the second supporting blocks are arc-shaped surfaces.

As shown in fig. 3, the unwinding mechanism 4 includes two support plates 41 arranged oppositely and an unwinding shaft, where the unwinding shaft is a conical head 43 arranged inside the two support plates 41; the support plate 41 is a triangular plate, and the support plate 41 is fixed between the two side wall plates 5 through two optical axes 42; cantilevers 44 are arranged on the wall plates 5 on the two sides, and a supporting cross rod 45 is arranged between the two cantilevers 44. The aluminum foil high-position unreeling system is provided with an automatic detection device, so that the working state of residual reels can be conveniently identified, and the machine is stopped to change the reels timely; when the coil is fed or discharged, the diameter of the coil 6 can be detected by a sensor, and then the lifting height of the high-level feeding trolley 3 can be judged.

As shown in fig. 3 and 6, the core barrel discharging mechanism includes a core barrel guiding groove 71 fixed on one side of the second body 31 of the high-position trolley and a discharging opening 72 provided on the trolley bottom plate 34, and the core barrel guiding groove 71 includes baffles 711 on both sides and a flow guiding inclined plate 712 located between the baffles 711 on both sides. After the material of material book 6 is put, the core section of thick bamboo drops automatically in the core section of thick bamboo guiding gutter, through the water conservancy diversion swash plate of core section of thick bamboo guiding gutter, makes the core section of thick bamboo can the landing to the discharge opening, can conveniently dismantle the core section of thick bamboo of incomplete book and collect the assigned position. The core barrel can also be taken away by the high-level feeding trolley 3.

The utility model discloses operating method, including following step:

(1) the ground feeding trolley 2 automatically conveys the material roll 6 to the lifting mechanism 1, at the moment, the lifting frame 12 of the lifting mechanism 1 is located at the lowest position, and the ground feeding trolley 2 moves towards the lifting frame 12, so that the fork arm 122 can be inserted into the first groove 23 from one end of the first trolley body 21;

(2) the lifting mechanism 1 drives the lifting frame 12 to ascend, and the two fork arms 122 lift the material roll 6 and leave the first vehicle body 21;

(3) when the lifting frame 12 is lifted to the highest position and then stops, the rotary driving mechanism 15 drives the upright post 11 to drive the lifting frame 12 to rotate by 90 degrees so that the material roll 6 is parallel to the unwinding shaft;

(4) the high-level feeding trolley 3 is moved to a material receiving area and is positioned below the material roll 6;

(5) the lifting mechanism of the high-level feeding trolley 3 drives the second car body 31 to vertically lift until the second car body contacts the material roll 6 and transfers the material roll 6 from the fork arm 122 to the second car body 31;

(6) the high-position feeding trolley 3 transversely moves to the front of the unwinding mechanism 4, and the conical head 43 of the unwinding mechanism 4 is opened;

(7) the high-level feeding trolley 3 moves the material roll 6 to be just below the conical head 43:

(8) the lifting mechanism of the high-position feeding trolley 3 drives the second trolley body 31 to vertically lift, so that the conical head 43 and the center of the cylinder core of the material roll 6 are at the same height and the front and the back are consistent;

(9) the conical heads 43 of the bracket plates 41 at two sides clamp the cylinder core;

(10) the high-level feeding trolley 3 vertically descends and is separated from the material roll 6, and automatic feeding is completed;

(11) after the material of the material roll 6 is completely discharged, the elevating mechanism of the high-level feeding trolley 3 drives the second vehicle body 31 to vertically rise and contact with the core barrel, the support plate 41 drives the conical head 43 to retreat, and after the conical head 43 leaves the core barrel, the core barrel falls on the second vehicle body 31.

Claims

1. The utility model provides a solvent-free composite aluminum foil high-order system of unreeling which characterized in that: the device comprises a lifting mechanism capable of lifting a material roll from the ground to the top of the solvent-free compound equipment, a ground feeding trolley capable of conveying the material roll to the lifting mechanism, an unreeling mechanism arranged at the top of the solvent-free compound equipment and a high-level feeding trolley capable of conveying the material roll of the lifting mechanism to the unreeling mechanism;

2. The solvent-free composite aluminum foil high-position unwinding system as claimed in claim 1, wherein: the upper end of the upright post is connected with the wallboard through the upper connecting frame, and the lower end of the upright post is connected with the wallboard through the lower connecting frame.

3. The solvent-free composite aluminum foil high-position unwinding system as claimed in claim 2, wherein: the upper connecting frame is provided with an upper bearing seat, the lower connecting frame is provided with a lower bearing seat, and two ends of the upright post are respectively pivoted on the upper bearing seat and the lower bearing seat.

4. The solvent-free composite aluminum foil high-position unwinding system as claimed in claim 1, wherein: the rotary driving mechanism comprises a connecting sleeve and a rotary cylinder, wherein the connecting sleeve and the rotary cylinder are sleeved on the stand column, the two ends of the connecting sleeve are connected through bolts, one end of the connecting sleeve extends to form an articulated seat, a cylinder body of the rotary cylinder is fixed on the upper connecting frame, and a telescopic rod of the rotary cylinder is hinged to the articulated seat.

5. The solvent-free composite aluminum foil high-position unwinding system as claimed in claim 1, wherein: one side of stand is equipped with the lift slide rail that sets up along stand length direction, the power support includes mounting panel and the bounding wall of being connected with the mounting panel, and the bounding wall encloses the lift passageway that supplies the stand to pass with the mounting panel, and the inboard of mounting panel is equipped with and goes up and down slide rail complex lift slider, the lateral surface at the mounting panel is fixed to the yoke.

6. The solvent-free composite aluminum foil high-position unwinding system as claimed in claim 1, wherein: the lifting driving mechanism comprises a lifting motor, a driving belt pulley, a driven belt pulley and a transmission belt, the lifting motor drives the driving belt pulley, the driving belt pulley is linked with the driven belt pulley through the transmission belt, and the transmission belt is connected with the power support.

7. The solvent-free composite aluminum foil high-position unwinding system as claimed in claim 1, wherein: the first sliding mechanism comprises a first sliding rail arranged on the top surface of the bottom plate of the trolley, a first sliding block arranged on the bottom surface of the middle plate of the trolley and matched with the first sliding rail, and a first air cylinder connected with the middle plate of the trolley; the second sliding mechanism comprises a second sliding rail arranged on the top surface of the middle plate of the trolley, a second sliding block arranged on the bottom surface of the upper plate of the trolley and matched with the second sliding rail, and a second air cylinder connected with the upper plate of the trolley; the first slide rail is vertical to the second slide rail; the lifting mechanism comprises a scissor type lifting seat and a lifting cylinder.

8. The solvent-free composite aluminum foil high-position unwinding system as claimed in claim 1, wherein: the mounting panel is the set-square, and the mounting panel is fixed between the wallboard of both sides through two optical axes, is equipped with the cantilever on the wallboard of both sides, is equipped with the support horizontal pole between two cantilevers.

9. The solvent-free composite aluminum foil high-position unwinding system as claimed in claim 1, wherein: the core barrel unloading mechanism comprises a core barrel guide groove fixed on one side of the second vehicle body of the high-position trolley and an unloading opening arranged on a bottom plate of the trolley, and the core barrel guide groove comprises baffles on two sides and a guide sloping plate positioned between the baffles on the two sides.