CN107838319B - Automatic forming integrated machine for easy-to-open bottle cap - Google Patents

Abstract

The invention relates to an automatic forming integrated machine for a pop-top bottle cap, which comprises a cap forming mechanism, a cap material strip rolling mechanism, a pull ring material strip rolling mechanism, a first stepping conveying mechanism and a second stepping conveying mechanism, wherein a cap material strip sent by the cap material strip rolling mechanism is input from one side surface of the cap forming mechanism, a pull ring material strip sent by the pull ring material strip rolling mechanism is punched by the pull ring forming mechanism to form a pull ring and then is input from the other side surface of the cap forming mechanism, the cap material strip and the pull ring material strip are arranged vertically in a crossing manner, and the cap forming mechanism further comprises a bottle cap discharging device; and a material belt buffer mechanism is arranged between the cover material belt unreeling mechanism and the cover forming mechanism and between the pull ring material belt unreeling mechanism and the pull ring forming mechanism. The invention has the characteristics of high quality, low production cost and the like of the easy-to-open bottle cap formed by stamping.

Description

Automatic forming integrated machine for easy-to-open bottle cap

Technical Field

The invention relates to the field of production of easy-to-open bottle caps, in particular to an automatic forming integrated machine for easy-to-open bottle caps.

Background

The easy-to-open bottle cap comprises a bottle cap and a pull ring, wherein the pull ring is riveted at the top of the bottle cap through a rivet. On the production line for producing the easy-to-use bottle cap, two material belts which move in a crisscross manner are arranged, one material belt is used for stamping to form the bottle cap, the other material belt is used for stamping to form a pull ring, and the pull ring and the bottle cap are riveted at the junction of the two material belts. The existing easy-to-open bottle cap forming machine has the following defects: 1. the easy-to-open bottle cap needs to be collected after the stamping forming is finished, the bottle cap falls into the collecting groove by blowing, the blowing method can cause deviation in the bottle cap processing process, and the bottle cap needs to be provided with a blowing device, so that the defects of energy consumption, high production cost and the like exist. 2. The material belt is intermittently driven forwards and enters the stamping die, and if the buffer device is not added in the conveying process of the material belt, the material belt is tightened to deform, so that the impact on the stamping forming of the bottle cap is caused.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an automatic forming integrated machine for an easy-to-open bottle cap, which has high product quality and low production cost.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the automatic forming integrated machine for the easy-to-open bottle caps comprises a cover body forming mechanism, a cover body material belt rolling mechanism, a pull ring material belt rolling mechanism, a first stepping conveying mechanism and a second stepping conveying mechanism, wherein the cover body material belt sent by the cover body material belt rolling mechanism is input from one side surface of the cover body forming mechanism, the pull ring material belt sent by the pull ring material belt rolling mechanism is stamped by the pull ring forming mechanism to form a pull ring and then is input from the other side surface of the cover body forming mechanism, the cover body material belt and the pull ring material belt are arranged vertically in a cross manner and are converged at a riveting station of the cover body forming mechanism, the first stepping conveying mechanism drives the cover body material belt to intermittently move forwards, the second stepping conveying mechanism drives the pull ring material belt to intermittently move forwards, and the first stepping conveying mechanism and the second stepping conveying mechanism synchronously move; the cover body forming mechanism further comprises a bottle cover discharging device, the bottle cover discharging device comprises a material guide clamping plate, the material guide clamping plate is arranged on one side of the output end of the lower die of the cover body forming mechanism, a guide cavity for a cover body material belt to pass through is formed in the material guide clamping plate, and a discharging hole is formed in a bottom plate of the input end of the material guide clamping plate; and a material belt buffer mechanism is arranged between the cover material belt unreeling mechanism and the cover forming mechanism and between the pull ring material belt unreeling mechanism and the pull ring forming mechanism.

The material belt buffering mechanism sequentially comprises a buffering supporting table and a feeding conveying table, wherein an S-shaped buffering section on a cover material belt or a pull ring material belt is supported on a supporting surface of the buffering supporting table, and an included angle between the supporting surface of the buffering supporting table and a conveying surface of the feeding conveying table is 160-200 degrees.

The buffer supporting table and the feeding conveying table are provided with clamping dampers, each clamping damper comprises an upper clamping plate and a lower clamping plate which are mutually hinged, flannelettes are respectively arranged on the opposite surfaces of the upper clamping plate and the lower clamping plate, and a cover material belt or a pull ring material belt passes through the space between the two flannelettes.

The upper edge of the buffer supporting table is provided with an upper row of limit rods and a lower row of limit rods which are arranged at intervals, and the cover body material belt or the pull ring material belt passes through the space between the upper row of limit rods and the lower row of limit rods to form an S-shaped buffer section; two guide wheels are arranged at one side of the input ends of the upper and lower rows of limiting rods at intervals, and two side edges of the cover material belt or the pull ring material belt are respectively limited on the guide wheels at the corresponding sides.

The buffer supporting table consists of a row of supporting rods which are arranged at intervals.

A first cutter for cutting up the cover material belt conveyed by the material guide clamping plate is arranged above one side of the output end of the material guide clamping plate, and the first cutter moves up and down repeatedly along with an upper die holder of the cover forming mechanism.

The lower extreme of discharge gate is connected with first guide rail, the one side below of guide clamp plate output is equipped with the second guide rail.

The forming integrated machine further comprises a shredding mechanism for shredding the pull ring material belt output from the cover body forming mechanism, the shredding mechanism comprises a frame, a bearing table is arranged in the middle of the frame, a cutting seat is arranged on the upper end face of the bearing table, an eccentric shaft driven by a motor to rotate is rotationally connected to the upper part of the frame, a rocker is fixedly connected to the middle of the eccentric shaft, a cutter holder is hinged to the bottom of the rocker, guide sleeves are respectively arranged on two sides of the bottom surface of the cutter holder, and the guide sleeves are in sliding sleeving connection with guide rods correspondingly arranged on the bearing table; the bottom surface of blade holder corresponds to and cuts the seat and be equipped with the second cutter, and the second cutter descends and cooperates and cuts the seat and cut up the pull ring material area.

And a blanking port is formed on the bearing table corresponding to the second cutter, and a blanking groove is connected to the periphery of the blanking port.

And a spring sleeved on the guide rod is arranged between the guide sleeve and the bearing table.

The invention adopts the technical scheme and has the following beneficial effects:

1. the formed easy-to-open bottle cap is conveyed forward along with the material belt in the punching correspondingly formed on the material belt of the cap body so as to be sent out from the cap body forming mechanism, then the separation of the easy-to-open bottle cap and the material belt is realized by utilizing the action of gravity, and finally the automatic discharging of the easy-to-open bottle cap is realized. According to the method, an air blowing device is not needed, so that the production cost is greatly reduced, and the stamping quality of the bottle cap is not affected.

2. The material belt (the cover material belt or the pull ring material belt) forms an S-shaped buffer section and then is supported on the buffer supporting table, the buffer section can effectively eliminate the tightening force generated in the conveying process of the material belt, the material belt is prevented from deforming in the conveying process, in addition, the included angle between the material belt connected into the feeding conveying table and the conveying surface of the feeding conveying table is 160-200 degrees, the influence of the dead weight of the material belt can be reduced through the design, the pulling force for intermittently conveying the material belt can be reduced, the impact on the material belt is reduced, the conveying process of the material belt is more stable, and the stamping quality of the easy-to-pull bottle cap is improved.

Drawings

The invention is described in further detail below with reference to the attached drawings and detailed description:

FIG. 1 is a top view of an automatic forming all-in-one machine for a pop-top bottle cap of the present invention;

FIG. 2 is a schematic view of one side of the output end of the cover tape of the cover forming mechanism;

FIG. 3 is a schematic view of one side of the tab web output end of the lid forming mechanism;

FIG. 4 is a schematic view of the cap material strip carrying the easy-open closure forward;

FIG. 5 is a schematic view of a web buffering mechanism;

fig. 6 is a schematic view of a clamp damper.

Detailed Description

As shown in one of fig. 1 to 6, the automatic forming integrated machine for the easy-to-open bottle cap comprises a cap forming mechanism 1, a cap material strip rolling mechanism 2, a pull ring material strip rolling mechanism 3, a first step conveying mechanism 4 and a second step conveying mechanism 5, wherein a cap material strip 9 sent by the cap material strip rolling mechanism 2 is input from one side surface of the cap forming mechanism 1, a pull ring material strip 10 sent by the pull ring material strip rolling mechanism 3 is punched by a pull ring forming mechanism 11 to form a pull ring and then is input from the other side surface of the cap forming mechanism 1, the cap material strip 9 and the pull ring material strip 10 are arranged in a cross and vertically and are converged at a riveting station of the cap forming mechanism 1, the first step conveying mechanism 4 drives the cap material strip 9 to intermittently move forwards, the second step conveying mechanism 5 drives the pull ring material strip 10 to intermittently move forwards, and the first step conveying mechanism 4 and the second step conveying mechanism 5 synchronously move; the cover body forming mechanism 1 further comprises a bottle cover discharging device 6, the bottle cover discharging device 6 comprises a material guide clamping plate 61, the material guide clamping plate 61 is arranged on one side of the output end of the lower die 11 of the cover body forming mechanism 1, a guide cavity for the cover body material belt 9 to pass through is formed in the material guide clamping plate 61, and a discharging hole 611 is formed in the bottom plate of the input end of the material guide clamping plate 61.

A first cutter 7 for cutting the cover material belt 9 conveyed by the material guide clamping plate 61 is arranged above one side of the output end of the material guide clamping plate 61, and the first cutter 7 moves up and down repeatedly along with the upper die holder 12 of the cover forming mechanism 1.

The lower end of the discharge hole 611 is connected with a first guide rail 62, and a second guide rail 14 is arranged below one side of the output end of the guide clamping plate 61.

After the cover material belt 9 and the pull ring material belt 10 are riveted at the riveting station of the cover forming mechanism 1, the cover material belt 9 continues to move forward and is stamped in the cover stamping forming station to manufacture the easy-to-open bottle cap 13, the formed easy-to-open bottle cap 13 continues to move forward along with the cover material belt 9 to be transmitted out of the cover forming mechanism 1 in the punching formed correspondingly on the cover material belt 9, when the cover material belt 9 drives the easy-to-open bottle cap 13 to reach the discharge hole 611, the easy-to-open bottle cap 13 falls down from the discharge hole 611 to be separated from the cover material belt 9 under the action of the self weight of the easy-to-open bottle cap 1, so that the automatic discharge of the easy-to-open bottle cap 13 is realized. While the cover tape 9 continues to be conveyed forward and finally out of the guide nip 61.

The cover material belt 9 is separated from the easy-to-open bottle cap 13 and then is penetrated out by the material guide clamping plate 61, and the part of the cover material belt 9 extending out of the material guide clamping plate 61 is cut up in the process that the first cutter 7 moves up and down repeatedly along with the upper die holder 12 of the cover forming mechanism 1. The structure uses the upper die holder 12 of the cover body forming mechanism 1 as a power source for driving the first cutter 7 to move up and down, and no additional power source is needed, so that the equipment space is compact, the energy consumption is saved, and the cost of the equipment is reduced.

The material belt buffer mechanism 7 is arranged between the cover material belt unreeling mechanism 2 and the cover forming mechanism 1 and between the pull ring material belt unreeling mechanism 3 and the pull ring forming mechanism 11. The material belt buffer mechanism 7 sequentially comprises a buffer supporting table 71 and a feeding and conveying table 72, wherein the buffer section which is S-shaped on the cover material belt 9 or the pull ring material belt 10 is supported on the supporting surface of the buffer supporting table 71, and the included angle between the supporting surface of the buffer supporting table 71 and the conveying surface of the feeding and conveying table 72 is 160-200 degrees.

A clamping damper 73 is arranged between the buffer supporting table 71 and the feeding conveying table 72, the clamping damper 73 comprises an upper clamping plate 731 and a lower clamping plate 732 which are mutually hinged, flannelettes 733 are respectively arranged on opposite surfaces of the upper clamping plate 731 and the lower clamping plate 732, and the cover material belt 9 or the pull ring material belt 10 passes through the space between the two flannelettes 733. The material belt (the cover material belt 9 or the pull ring material belt 10) passes through the clamping damper 73, and the clamping damper 73 is used for damping the upper surface and the lower surface of the material belt, so that the material belt can be prevented from shaking in the conveying process, and the material belt is ensured to stably advance.

The upper edge of the buffer supporting table 71 is provided with an upper row and a lower row of limiting rods 74 which are arranged at intervals, and the cover material belt 9 or the pull ring material belt 10 passes through the space between the upper row and the lower row of limiting rods 74 to form an S-shaped buffer section; two guide wheels 75 are arranged at intervals on one side of the input ends of the upper and lower rows of limiting rods 74, and two side edges of the cover material belt 9 or the pull ring material belt 10 are respectively limited on the guide wheels 75 on the corresponding sides. The two guide wheels 75 limit the position of the web (cover web 9 or tab web 10) to prevent the web from running off during the run.

The buffer support 71 is composed of a row of support bars arranged at intervals.

The working principle of the material belt buffer mechanism 7 is as follows: the material belt (the cover material belt 9 or the pull ring material belt 10) forms an S-shaped buffer section and then is supported on the buffer supporting table 71, the buffer section can effectively eliminate the tightening force generated in the conveying process of the material belt, the material belt is prevented from deforming in the conveying process, in addition, the included angle between the material belt connected into the feeding conveying table 72 and the conveying surface of the feeding conveying table 72 is 160-200 degrees, the influence of the dead weight of the material belt can be reduced through the design, the pulling force for intermittently conveying the material belt can be reduced, the impact on the material belt is reduced, the material belt conveying process is more stable, and the stamping quality of the easy-to-pull bottle cap 13 is improved.

The forming integrated machine further comprises a shredding mechanism 8 for shredding the pull ring material belt 10 output from the cover forming mechanism 1, the shredding mechanism 8 comprises a frame 81, a bearing table 82 is arranged in the middle of the frame 81, a cutting seat 83 is arranged on the upper end surface of the bearing table 82, an eccentric shaft 84 driven by a motor to rotate is rotatably connected to the upper part of the frame 81, a rocker 85 is fixedly connected to the middle of the eccentric shaft 84, a cutter seat 86 is hinged to the bottom of the rocker 85, guide sleeves 87 are respectively arranged on two sides of the bottom surface of the cutter seat 86, and the guide sleeves 87 are in sliding sleeve connection with guide rods 88 correspondingly arranged on the bearing table 82; the bottom surface of the cutter seat 86 is provided with a second cutter 89 corresponding to the cutting seat 83, and the second cutter 89 is matched with the cutting seat 83 in a descending manner to cut the tab material tape 10.

A blanking port is formed in the carrier 82 corresponding to the second cutter 89, and a blanking groove 811 is connected to the periphery of the blanking port.

A spring 810 sleeved on the guide rod 88 is arranged between the guide sleeve 87 and the bearing table 82.

The second step-by-step conveying mechanism 5 drives the pull ring material belt 10 to intermittently and forwards convey, meanwhile, the eccentric shaft 84 drives the tool apron 86 to repeatedly move up and down in the rotating process, and when the pull ring material belt 10 is in a stop state, the eccentric shaft 84 drives the tool apron 86 to move downwards, so that the second cutter 89 is driven to move downwards to cut the pull ring material belt 10 extending out of the cutting seat 83; when the eccentric shaft 84 drives the tool holder 86 to move upwards, the second step-by-step conveying mechanism 5 drives the waste belt to convey forwards for a preset step distance. The above process is repeated to continuously shear the tab web 10.

Claims (6)

1. The automatic forming integrated machine for the easy-to-open bottle caps comprises a cover body forming mechanism, a cover body material belt rolling mechanism, a pull ring material belt rolling mechanism, a first stepping conveying mechanism and a second stepping conveying mechanism, wherein the cover body material belt sent by the cover body material belt rolling mechanism is input from one side surface of the cover body forming mechanism, the pull ring material belt sent by the pull ring material belt rolling mechanism is stamped by the pull ring forming mechanism to form a pull ring and then is input from the other side surface of the cover body forming mechanism, the cover body material belt and the pull ring material belt are vertically arranged in a cross manner and are converged at a riveting station of the cover body forming mechanism, the first stepping conveying mechanism drives the cover body material belt to intermittently move forwards, the second stepping conveying mechanism drives the pull ring material belt to intermittently move forwards, and the first stepping conveying mechanism and the second stepping conveying mechanism synchronously move; the method is characterized in that: the cover body forming mechanism further comprises a bottle cover discharging device, the bottle cover discharging device comprises a material guide clamping plate, the material guide clamping plate is arranged on one side of the output end of the lower die of the cover body forming mechanism, a guide cavity for a cover body material belt to pass through is formed in the material guide clamping plate, and a discharging hole is formed in a bottom plate of the input end of the material guide clamping plate; a material belt buffer mechanism is arranged between the cover material belt unreeling mechanism and the cover forming mechanism and between the pull ring material belt unreeling mechanism and the pull ring forming mechanism;

the material belt buffering mechanism sequentially comprises a buffering supporting table and a feeding conveying table, wherein an S-shaped buffering section on a cover material belt or a pull ring material belt is supported on a supporting surface of the buffering supporting table, and an included angle between the supporting surface of the buffering supporting table and a conveying surface of the feeding conveying table is 160-200 degrees;

a clamping damper is arranged between the buffer supporting table and the feeding conveying table, the clamping damper comprises an upper clamping plate and a lower clamping plate which are mutually hinged, flannelettes are respectively arranged on the opposite surfaces of the upper clamping plate and the lower clamping plate, and a cover material belt or a pull ring material belt passes through the gap between the two flannelettes;

a first cutter for cutting up the cover material belt conveyed by the material guide clamping plate is arranged above one side of the output end of the material guide clamping plate, and the first cutter moves up and down repeatedly along with an upper die holder of the cover forming mechanism;

the forming integrated machine further comprises a shredding mechanism for shredding the pull ring material belt output from the cover body forming mechanism, the shredding mechanism comprises a frame, a bearing table is arranged in the middle of the frame, a cutting seat is arranged on the upper end face of the bearing table, an eccentric shaft driven by a motor to rotate is rotationally connected to the upper part of the frame, a rocker is fixedly connected to the middle of the eccentric shaft, a cutter holder is hinged to the bottom of the rocker, guide sleeves are respectively arranged on two sides of the bottom surface of the cutter holder, and the guide sleeves are in sliding sleeving connection with guide rods correspondingly arranged on the bearing table; the bottom surface of blade holder corresponds to and cuts the seat and be equipped with the second cutter, and the second cutter descends and cooperates and cuts the seat and cut up the pull ring material area.

2. The automatic forming all-in-one machine for easy-open bottle caps according to claim 1, wherein: the upper edge of the buffer supporting table is provided with an upper row of limit rods and a lower row of limit rods which are arranged at intervals, and the cover body material belt or the pull ring material belt passes through the space between the upper row of limit rods and the lower row of limit rods to form an S-shaped buffer section; two guide wheels are arranged at one side of the input ends of the upper and lower rows of limiting rods at intervals, and two side edges of the cover material belt or the pull ring material belt are respectively limited on the guide wheels at the corresponding sides.

3. The automatic forming all-in-one machine for easy-open bottle caps according to claim 1, wherein: the buffer supporting table consists of a row of supporting rods which are arranged at intervals.

4. The automatic forming all-in-one machine for easy-open bottle caps according to claim 1, wherein: the lower extreme of discharge gate is connected with first guide rail, the one side below of guide clamp plate output is equipped with the second guide rail.

5. The automatic forming all-in-one machine for easy-open bottle caps according to claim 1, wherein: and a blanking port is formed on the bearing table corresponding to the second cutter, and a blanking groove is connected to the periphery of the blanking port.

6. The automatic forming all-in-one machine for easy-open bottle caps according to claim 1, wherein: and a spring sleeved on the guide rod is arranged between the guide sleeve and the bearing table.