CN111301739A - Aluminum foil sealing device and method - Google Patents

Abstract

The invention discloses an aluminum foil sealing device and a method, the device comprises an aluminum foil feeding mechanism, an aluminum foil conveying mechanism, an aluminum foil cutting and correcting mechanism and an aluminum foil clamping and sealing mechanism, wherein the aluminum foil feeding mechanism supplies strip-shaped aluminum foils, the aluminum foil conveying mechanism clamps the strip-shaped aluminum foils and conveys the strip-shaped aluminum foils to the aluminum foil cutting and correcting mechanism, the aluminum foil cutting and correcting mechanism cuts the strip-shaped aluminum foils to obtain block-shaped aluminum foils, the block-shaped aluminum foils are further corrected, and the aluminum foil clamping and sealing mechanism clamps the block-shaped aluminum foils and thermally seals the block-shaped aluminum foils on products to be sealed. The automatic aluminum foil cutting machine can realize automatic conveying and automatic cutting of aluminum foils and automatic sealing treatment of products to be sealed, does not need manual participation, improves production efficiency and saves production cost.

Description

Aluminum foil sealing device and method

Technical Field

The invention relates to the technical field of automation equipment, in particular to an aluminum foil sealing device and method.

Background

Ink tubes are commonly used to store ink and are becoming more and more popular with consumers due to their high portability. The ink tube needs to be sealed after being assembled with ink, so that the ink is prevented from leaking in the ink tube during transportation. In the existing ink tube production process, an aluminum foil is usually adopted for sealing the ink tube during sealing. On will the aluminium foil heat-seal usually through the manual work in the china ink pipe, the manual work can't last long-time work on the one hand for production efficiency reduces, and on the other hand needs to use a large amount of manpowers, increases the cost of labor. Therefore, there is a need for an aluminum foil sealing device that can replace the manual operation.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the aluminum foil sealing device which improves the production efficiency and saves the production cost.

In order to achieve the purpose, the invention provides the following technical scheme: an aluminum foil sealing device comprises

The aluminum foil feeding mechanism is used for feeding a strip-shaped aluminum foil;

the aluminum foil conveying mechanism is arranged at the downstream of the aluminum foil feeding mechanism and used for clamping a banded aluminum foil and conveying the banded aluminum foil to the aluminum foil cutting and correcting mechanism;

the aluminum foil cutting and correcting mechanism is arranged at the downstream of the aluminum foil conveying mechanism and is used for cutting a strip-shaped aluminum foil to obtain a block-shaped aluminum foil and further correcting the block-shaped aluminum foil;

the aluminum foil clamping and sealing mechanism is arranged at the downstream of the aluminum foil conveying mechanism and used for clamping blocky aluminum foils and thermally sealing the blocky aluminum foils on products to be sealed.

Preferably, the aluminum foil feeding mechanism comprises a feeding disc, at least one guide roller and an aluminum foil supporting block, wherein the aluminum foil on the feeding disc is wound on the guide roller, and passes through the aluminum foil supporting block after the path of the aluminum foil is changed by the guide roller.

Preferably, aluminum foil conveying mechanism includes relative first clamp splice and the second clamp splice that sets up, is used for the drive first clamp splice and second clamp splice press from both sides the clamp splice actuating mechanism of getting the aluminum foil, and be arranged in the aluminium foil that will press from both sides through drive clamp splice actuating mechanism and remove the pay-off actuating mechanism who gets to the aluminum foil and cut among the correctional agency, first clamp splice and second clamp splice all with clamp splice actuating mechanism links to each other, clamp splice actuating mechanism with pay-off actuating mechanism links to each other.

Preferably, the aluminium foil cuts correctional agency including bearing the weight of the base, cutting sword, nip rolls, and drive cut sword reciprocating motion's the actuating mechanism that cuts, be equipped with the aluminium foil runner on the bearing the weight of the base, cut the sword and locate bear the weight of the base top, and with the power supply links to each other to stretch into under the power supply effect cut the aluminium foil in the aluminium foil runner, nip rolls locates cut on the sword, and follow cut the sword synchronous movement extremely support the pressure to the aluminium foil in the aluminium foil runner.

Preferably, a sliding rod is arranged on the cutting knife, a sliding groove for guiding the sliding rod to slide is formed in the bearing base, and the sliding rod is arranged in the sliding groove.

Preferably, the aluminium foil cuts aligning gear still includes presses the material subassembly, press the material subassembly including stretching into carry out the briquetting that supports the aluminium foil in the aluminium foil runner, and the elastic component, the briquetting passes through the elastic component is located cut on the sword.

Preferably, the aluminium foil clamp is got and is sealed the mechanism and is included the drive plate, be used for pressing from both sides the clamping jaw assembly who gets blocky aluminium foil, be used for with blocky aluminium foil heat-seal in the heat-seal subassembly of waiting to seal the product, and be used for passing through drive plate drive clamping jaw assembly and the drive mechanism that seals that heat-seal subassembly removed, clamping jaw assembly and heat-seal subassembly are all located on the drive plate, just the drive plate with it links to each other to seal actuating mechanism.

Preferably, the clamping jaw assembly comprises a clamping jaw and a clamping jaw driving mechanism used for driving the clamping jaw to clamp the blocky aluminum foil, and the clamping jaw driving mechanism is arranged on the driving plate and connected with the clamping jaw.

Preferably, the heat-sealing assembly comprises a heat-sealing head and a heat-sealing head driving mechanism for driving the heat-sealing head to heat-seal the aluminum foil block on the product to be sealed, and the heat-sealing head driving mechanism is arranged on the driving plate and connected with the heat-sealing head.

The invention also discloses an aluminum foil sealing method of the aluminum foil sealing device, which comprises the following steps:

the aluminum foil feeding mechanism supplies strip-shaped aluminum foils;

the aluminum foil conveying mechanism clamps a banded aluminum foil and conveys the aluminum foil to the aluminum foil cutting and correcting mechanism;

the aluminum foil cutting and correcting mechanism cuts a strip-shaped aluminum foil to obtain a block-shaped aluminum foil, and further corrects the block-shaped aluminum foil;

the aluminum foil clamping and sealing mechanism clamps the blocky aluminum foil and thermally seals the blocky aluminum foil on a product to be sealed.

The invention has the beneficial effects that:

the automatic aluminum foil cutting machine can realize automatic conveying and automatic cutting of aluminum foils and automatic sealing treatment of products to be sealed, does not need manual participation, improves production efficiency and saves production cost.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an exploded view of the aluminum foil trimming correction mechanism of FIG. 1;

reference numerals: 10. the aluminum foil cutting and sealing device comprises an aluminum foil feeding mechanism, 11, a feeding disc, 12, a material guide roller, 13, an aluminum foil supporting block, 20, an aluminum foil conveying mechanism, 21, a first clamping block, 22, a second clamping block, 23, a clamping block driving mechanism, 24, a first sliding block, 25, a first guide rail, 26, a first power source, 30, an aluminum foil cutting and correcting mechanism, 31, a bearing base, 311, an aluminum foil flow channel, 312, a sliding chute, 32, a cutting knife, 321, a sliding rod, 33, a pressing roller, 34, a second sliding block, 35, a second power source, 36, a pressing component, 361, a pressing block, 362, an elastic component, 40, an aluminum foil clamping and sealing mechanism, 41, a driving plate, 42, a clamping jaw component, 421, a clamping jaw, 422, a clamping jaw driving mechanism, 43, a heat sealing component, 431, a heat sealing head, 432, a heat sealing head driving mechanism, 44.

Detailed Description

The technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention.

The aluminum foil sealing device disclosed by the invention can realize automatic conveying and automatic cutting of the aluminum foil and automatic sealing treatment of products to be sealed, does not need manual participation, improves the production efficiency and saves the production cost.

As shown in fig. 1, the aluminum foil sealing apparatus of the present invention comprises an aluminum foil feeding mechanism 10, an aluminum foil conveying mechanism 20, an aluminum foil cutting and correcting mechanism 30, and an aluminum foil clamping and sealing mechanism 40, all mounted on a worktable. Wherein, the aluminum foil feeding mechanism 10 is used for feeding a strip-shaped aluminum foil; the aluminum foil conveying mechanism 20 is arranged between the aluminum foil feeding mechanism 10 and the aluminum foil cutting and correcting mechanism 30, namely the aluminum foil conveying mechanism 20 is arranged at the downstream of the aluminum foil feeding mechanism 10 and used for clamping a strip-shaped aluminum foil and conveying the aluminum foil to the aluminum foil cutting and correcting mechanism 30; the aluminum foil cutting and correcting mechanism 30 is arranged between the aluminum foil conveying mechanism 20 and the aluminum foil clamping and sealing mechanism 40, namely the aluminum foil cutting and correcting mechanism 30 is arranged at the downstream of the aluminum foil conveying mechanism 20 and is used for cutting a strip-shaped aluminum foil to obtain a block-shaped aluminum foil and further horizontally correcting the block-shaped aluminum foil; the aluminum foil clamping and sealing mechanism 40 is disposed downstream of the aluminum foil conveying mechanism 20 and is used for clamping the block aluminum foil and thermally sealing the block aluminum foil on a product to be sealed (such as an ink tube).

Specifically, the aluminum foil feeding mechanism 10 includes a feeding disk 11, at least one guide roller 12, and an aluminum foil support block 13, wherein the feeding disk 11 is used for storing a strip-shaped aluminum foil, and the strip-shaped aluminum foil can be wound on the feeding disk 11 manually or mechanically; the material guide rollers 12 are used for changing the conveying path of the aluminum foil, and in the embodiment, two material guide rollers 12 are arranged; the aluminum foil supporting block 13 is used for supporting the aluminum foil to keep the aluminum foil horizontal or approximately horizontal, so that the aluminum foil conveying mechanism 20 can clamp the aluminum foil conveniently. In practice, the aluminum foil in the supply tray 11 passes through the aluminum foil support block 13 after changing the path through the two guide rollers 12, and waits to be picked up by the aluminum foil conveying mechanism 20.

As shown in fig. 1, the aluminum foil conveying mechanism 20 includes a first clamping block 21, a second clamping block 22, a clamping block driving mechanism 23 and a feeding driving mechanism, wherein the first clamping block 21 and the second clamping block 22 are oppositely disposed and are both connected to the clamping block driving mechanism 23, and are folded or unfolded under the action of the clamping block driving mechanism 23, so that the strip-shaped aluminum foil is clamped when being folded; the feeding driving mechanism is connected with the clamping block driving mechanism 23, and the clamping block driving mechanism 23 is driven to drive the first clamping block 21 and the second clamping block 22 to convey the clamped strip-shaped aluminum foil to the aluminum foil cutting correcting mechanism 30.

In this embodiment, the clamp block driving mechanism 23 is preferably a clamp cylinder. The feeding drive mechanism includes a first slider 24, a first guide rail 25 for moving the first slider 24 in a predetermined direction (in this embodiment, a horizontal direction), and a first power source 26 for driving the first slider 24 to move. The first slider 24 is slidably disposed on the first guide rail 25, and is connected to the first power source 26, and the clamping block driving mechanism 23 is disposed on the first slider 24, in an implementation, the first power source 26 drives the first slider 24 to drive the clamping block driving mechanism 23 to move, and further drives the first clamping block 21 and the second clamping block 22 to move. The first power source 26 is preferably a cylinder.

As shown in fig. 1 and fig. 2, the aluminum foil cutting and correcting mechanism 30 includes a bearing base 31, a cutting knife 32, a nip roll 33, and a cutting driving mechanism for driving the cutting knife 32 to move up and down in a reciprocating manner, wherein an aluminum foil flow channel 311 is disposed on the bearing base 31, and the aluminum foil flow channel 311 facilitates movement of a strip-shaped aluminum foil and positions the strip-shaped aluminum foil; the cutting knife 32 is arranged above the bearing base 31, connected with the cutting driving mechanism, and extends into the aluminum foil flow channel 311 under the action of the cutting driving mechanism to cut the strip-shaped aluminum foil to obtain a block-shaped aluminum foil; the nip roll 33 is disposed on the cutting knife 32, and moves with the cutting knife 32 into the aluminum foil flow channel 311 to press the block-shaped aluminum foil, and in the process that the aluminum foil clamping and sealing mechanism 40 clamps the block-shaped aluminum foil and pulls out the block-shaped aluminum foil from the aluminum foil flow channel 311, the block-shaped aluminum foil is horizontally corrected by the pressing force.

The cutting driving mechanism includes a second slider 34, a second guide rail (not shown) for moving the second slider 34 in a predetermined direction (vertical direction in the present embodiment), and a second power source 35 for driving the second slider 34 to move. The second slider 34 is slidably disposed on the second guide rail and connected to the second power source 35, and the cutting blade 32 is disposed on the second slider 34, in which, when the cutting is performed, the second power source 35 drives the second slider 34 to drive the cutting blade 32 to reciprocate up and down. The second power source 35 is preferably a cylinder.

Further, in order to ensure that the cutting knife 32 can accurately extend into the aluminum foil flow channel 311, a sliding rod 321 is disposed on the cutting knife 32, a sliding slot 312 for guiding the sliding rod 321 to slide is disposed on the bearing base 31, and the sliding rod 321 is disposed in the sliding slot 312.

Further, the aluminum foil cutting correction mechanism 30 further includes a pressing component 36 disposed on the cutting knife 32 for pressing the strip-shaped aluminum foil to facilitate the cutting of the cutting knife 32. The pressing component 36 includes a pressing block 361 and an elastic component 362, the pressing block 361 is installed on the cutting knife 32 through the elastic component 362, when the cutting device is implemented, the cutting driving mechanism drives the cutting knife 32 to move downwards, and the pressing block 361 extends into the aluminum foil flow channel 311 to press the strip-shaped aluminum foil in the process that the cutting knife 32 extends into the aluminum foil flow channel 311, so as to prevent the pressing block 361 from moving during cutting. In this embodiment, the elastic member 362 is preferably a spring.

As shown in fig. 1, the aluminum foil clamping and sealing mechanism 40 includes a driving plate 41, a clamping jaw assembly 42, a heat sealing assembly 43, and a sealing driving mechanism 44, wherein the clamping jaw assembly 42 is disposed on the driving plate 41 and is used for clamping the corrected block-shaped aluminum foil; the heat sealing assembly 43 is also arranged on the driving plate 41 and is used for heat sealing the aluminum foil clamped by the clamping jaw assembly 42 on a product to be sealed; the drive plate 41 is connected to a seal drive mechanism 44, and reciprocates up and down by the seal drive mechanism 44. When the sealing device is used, the sealing driving mechanism 44 drives the clamping jaw assembly 42 and the heat-sealing assembly 43 to move downwards to the product to be sealed through the driving plate 41, at this time, the clamping jaw assembly 42 clamps the massive aluminum foil, and moves the massive aluminum foil to the lower side of the heat-sealing assembly 43, and the heat-sealing assembly 43 further heat-seals the massive aluminum foil on the product to be sealed.

In the present embodiment, the seal driving mechanism 44 is preferably an air cylinder.

Further, the clamping jaw assembly 42 includes a clamping jaw 421, and a clamping jaw driving mechanism 422, wherein the clamping jaw 421 is connected to the clamping jaw driving mechanism 422, and under the action of the clamping jaw driving mechanism 422, the clamping jaw 421 grips the block-shaped aluminum foil. In this embodiment, the jaw drive mechanism 422 is preferably a jaw cylinder.

Further, the heat sealing assembly 43 comprises a heat sealing head 431 and a heat sealing head driving mechanism 432, wherein the heat sealing head 431 is connected with the heat sealing head 431 jaw driving mechanism 422, and under the action of the heat sealing head driving mechanism 432, the heat sealing head 431 is contacted with the block-shaped aluminum foil, and the aluminum foil is heat sealed on the product to be sealed in a heating mode. In this embodiment, the heat-sealing-head driving mechanism 432 is preferably an air cylinder.

The working principle of the aluminum foil sealing device is as follows:

firstly, a strip-shaped aluminum foil in a supply disc 11 passes through an aluminum foil supporting block 13 after changing the path through a guide roller 12;

secondly, the clamping block driving mechanism 23 drives the first clamping block 21 and the second clamping block 22 to clamp the strip-shaped aluminum foil, and the feeding driving mechanism further drives the first clamping block 21 and the second clamping block 22 through the driving clamping block driving mechanism 23 to convey the clamped strip-shaped aluminum foil into the aluminum foil flow channel 311 of the bearing base 31;

thirdly, the cutting driving mechanism drives the cutting knife 32 to extend into the aluminum foil flow channel 311, the pressing block 361 firstly extends into the aluminum foil flow channel 311 to press the strip-shaped aluminum foil in the process that the cutting knife 32 extends into the aluminum foil flow channel 311, the cutting driving mechanism further drives the cutting knife 32 to extend into the aluminum foil flow channel 311 to cut the strip-shaped aluminum foil to obtain block-shaped aluminum foil, and meanwhile, the pressing roll 33 moves into the aluminum foil flow channel 311 along with the cutting knife 32 to press the block-shaped aluminum foil;

finally, the sealing driving mechanism 44 drives the clamping jaw assembly 42 and the heat sealing assembly 43 to move downwards to the product to be sealed through the driving plate 41, the clamping jaw driving mechanism 422 drives the clamping jaw 421 to move to the aluminum foil cutting and correcting mechanism 30 and clamp and take out the block aluminum foil from the aluminum foil flow channel 311, the heat sealing head driving mechanism 432 drives the heat sealing head 431 to contact with the block aluminum foil, and the heat sealing head 431 heat-seals the aluminum foil on the product to be sealed in a heating mode.

Therefore, the scope of the present invention should not be limited to the disclosure of the embodiments, but includes various alternatives and modifications without departing from the scope of the present invention, which is defined by the claims of the present patent application.

Claims (10)

1. An aluminum foil sealing device is characterized by comprising

The aluminum foil feeding mechanism is used for feeding a strip-shaped aluminum foil;

the aluminum foil conveying mechanism is arranged at the downstream of the aluminum foil feeding mechanism and used for clamping a banded aluminum foil and conveying the banded aluminum foil to the aluminum foil cutting and correcting mechanism;

the aluminum foil cutting and correcting mechanism is arranged at the downstream of the aluminum foil conveying mechanism and is used for cutting a strip-shaped aluminum foil to obtain a block-shaped aluminum foil and further correcting the block-shaped aluminum foil;

the aluminum foil clamping and sealing mechanism is arranged at the downstream of the aluminum foil conveying mechanism and used for clamping blocky aluminum foils and thermally sealing the blocky aluminum foils on products to be sealed.

2. The aluminum foil sealing apparatus as claimed in claim 1, wherein the aluminum foil supply mechanism comprises a supply tray, at least one guide roller, and an aluminum foil support block, wherein the aluminum foil on the supply tray is wound around the guide roller and passes through the guide roller after changing its path and then passes out of the aluminum foil support block.

3. The aluminum foil sealing device as claimed in claim 1, wherein the aluminum foil conveying mechanism comprises a first clamping block and a second clamping block which are arranged oppositely, a clamping block driving mechanism for driving the first clamping block and the second clamping block to clamp the aluminum foil, and a feeding driving mechanism for driving the clamping block driving mechanism to move the clamped aluminum foil to the aluminum foil cutting correcting mechanism, the first clamping block and the second clamping block are both connected with the clamping block driving mechanism, and the clamping block driving mechanism is connected with the feeding driving mechanism.

4. The aluminum foil sealing device according to claim 1, wherein the aluminum foil cutting and correcting mechanism comprises a bearing base, a cutting knife, a nip roll, and a cutting driving mechanism for driving the cutting knife to move back and forth, an aluminum foil flow channel is arranged on the bearing base, the cutting knife is arranged above the bearing base and connected with the power source, and extends into the aluminum foil flow channel to cut the aluminum foil under the action of the power source, the nip roll is arranged on the cutting knife and follows the synchronous movement of the cutting knife to press the aluminum foil in the aluminum foil flow channel.

5. The aluminum foil sealing device as claimed in claim 4, wherein the cutting knife has a sliding bar, the supporting base has a sliding groove for guiding the sliding bar, and the sliding bar is disposed in the sliding groove.

6. The aluminum foil sealing device of claim 4, wherein the aluminum foil cutting and correcting mechanism further comprises a pressing component, the pressing component comprises a pressing block extending into the aluminum foil flow channel and pressing the aluminum foil, and an elastic member, and the pressing block is arranged on the cutting knife through the elastic member.

7. The aluminum foil sealing device of claim 1, wherein the aluminum foil clamp-type sealing mechanism comprises a driving plate, a clamping jaw assembly for clamping a block-shaped aluminum foil, a heat-sealing assembly for heat-sealing the block-shaped aluminum foil on a product to be sealed, and a sealing driving mechanism for driving the clamping jaw assembly and the heat-sealing assembly to move through the driving plate, wherein the clamping jaw assembly and the heat-sealing assembly are both arranged on the driving plate, and the driving plate is connected with the sealing driving mechanism.

8. The aluminum foil sealing apparatus as recited in claim 7, wherein the clamping jaw assembly includes clamping jaws and a clamping jaw driving mechanism for driving the clamping jaws to clamp the aluminum foil block, the clamping jaw driving mechanism being disposed on the driving plate and connected to the clamping jaws.

9. The aluminum foil sealing device as recited in claim 7, wherein the heat-sealing assembly includes a heat-sealing head, and a heat-sealing head driving mechanism for driving the heat-sealing head to heat-seal the aluminum foil blocks onto the product to be sealed, the heat-sealing head driving mechanism being disposed on the driving plate and connected to the heat-sealing head.

10. An aluminum foil sealing method based on the aluminum foil sealing apparatus of claim 1, comprising the steps of:

the aluminum foil feeding mechanism supplies strip-shaped aluminum foils;

the aluminum foil conveying mechanism clamps a banded aluminum foil and conveys the aluminum foil to the aluminum foil cutting and correcting mechanism;

the aluminum foil cutting and correcting mechanism cuts a strip-shaped aluminum foil to obtain a block-shaped aluminum foil, and further corrects the block-shaped aluminum foil;

the aluminum foil clamping and sealing mechanism clamps the blocky aluminum foil and thermally seals the blocky aluminum foil on a product to be sealed.

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