CN110683099B

CN110683099B - A new type of cross feeding carrier packaging machine

Info

Publication number: CN110683099B
Application number: CN201911070013.5A
Authority: CN
Inventors: 于润泽; 李森杰
Original assignee: Suzhou Lingyu Electronic Technology Co Ltd
Current assignee: Suzhou Lingyu Electronic Technology Co Ltd
Priority date: 2019-11-05
Filing date: 2019-11-05
Publication date: 2024-12-10
Anticipated expiration: 2039-11-05
Also published as: CN110683099A

Abstract

The present invention discloses a new type of cross-feeding carrier packaging machine. The packaging machine includes a base, on which a lower material belt, a upper material belt and a carrier track are arranged. The lower material belt is located directly below the upper material belt and is parallel to the upper material belt, and the carrier track is located between the lower material belt and the upper material belt and is perpendicular to both the lower material belt and the upper material belt; wherein the lower material belt passes through a pulling mechanism and a die-cutting mold, the upper material belt passes through the die-cutting mold and a flipping mechanism, the carrier track passes through the flipping mechanism, and a discharge mechanism and a packaging mechanism are respectively arranged at both ends. The new type of cross-feeding carrier packaging machine in the present invention realizes the online production and automatic carrier packaging of special-shaped products by using cross-feeding belts and carriers to transfer products, which not only saves manpower and time, improves the efficiency and output of product processing and production, but also ensures the quality of the products.

Description

Novel crisscross pay-off carrier band packagine machine

Technical Field

The invention relates to the field of processing equipment, in particular to a novel crisscross feeding carrier tape packaging machine.

Background

In the production manufacturing process of small-size stamping products such as 3C parts, the process of carrier tape packaging is often experienced, but in the existing carrier tape packaging technology of small-size stamping products such as 3C parts, the carrier tape packaging technology generally can conveniently use related equipment to carry out connection production and automatic carrier tape packaging for products with regular shapes, and the existing equipment cannot be used for carrying out automatic carrier tape packaging for products with irregular shapes, so that workers can only carry out carrier tape packaging manually, connection production is difficult to carry out, a large amount of manpower and time resources are consumed, the efficiency and yield of product processing production are reduced, and the quality of products is also affected.

Disclosure of Invention

In order to solve the problems, the invention provides a novel crisscross feeding carrier tape packaging machine.

According to one aspect of the invention, a novel crisscross feeding carrier tape packaging machine is provided, and the novel crisscross feeding carrier tape packaging machine comprises a base table, wherein a blanking tape, a feeding tape and a carrier tape track are arranged on the base table, the blanking tape is located right below the feeding tape and is parallel to the feeding tape, the carrier tape track is located between the blanking tape and the feeding tape and is perpendicular to the blanking tape and the feeding tape, the blanking tape passes through a material pulling mechanism and a die cutting die, the feeding tape passes through the die cutting die and a turnover mechanism, the carrier tape track passes through the turnover mechanism, and two ends of the carrier tape track are respectively provided with a material discharging mechanism and a packaging mechanism.

The novel crisscross feeding carrier tape packaging machine disclosed by the invention transfers products by using the crisscross material tapes and the carrier tapes and automatically discharges the carrier tapes, so that the connection production and automatic carrier tape packaging of special-shaped products are realized, the manpower and time are saved, the processing and production efficiency and yield of the products are improved, and the quality of the products is ensured.

In some embodiments, two sides of the upper part of the base table are provided with a vertical baffle, and the discharging mechanism and the packaging mechanism are respectively arranged on the outer sides of the two baffles. Therefore, the mechanism on the base table can be protected to a certain extent through the baffle plate, and some mechanisms are more conveniently installed.

In some embodiments, the blanking belt and the loading belt are provided with a plurality of rows of installation positions. Thereby, specific structures of the blanking belt and the feeding belt are arranged.

In some embodiments, the number of mounting locations per row is 3-6. Thereby, a specific number of installations is set.

In some embodiments, the die-cutting die is provided with a breaking mechanism. Therefore, the product on the blanking belt can be cut off and propped against the feeding belt through the top end mechanism.

In some embodiments, the turnover mechanism comprises a horizontal material shaft and a material sucking mechanism, wherein a plurality of material grooves are formed in the upper surface of the material shaft, and the material sucking mechanism is arranged on a turnover device and is located above the material shaft. Thus, a structure of the turnover mechanism is provided, which can move the product from the feeding belt to the carrier belt.

In some embodiments, the shaft is mounted on a pad and is in driving connection with a motor. Thereby, a specific structure of the tilting mechanism is further provided.

In some embodiments, the carrier track passes through a heat seal assembly that is adjacent to the packaging mechanism. Thus, the heat-seal packaging work can be performed on the carrier tape carrying the product by the heat-seal assembly.

In some embodiments, the loading belt further passes through a guide mechanism. Therefore, the running direction of the feeding belt can be guided by the guide mechanism.

In some embodiments, a display mechanism is provided on the base table. Thus, the display means can display and control data for the operation of the packaging machine.

Drawings

FIG. 1 is a schematic structural diagram of a novel crisscross feeding carrier band packaging machine according to an embodiment of the present invention;

FIG. 2 is a schematic view of a portion of the novel crisscross feed carrier tape packaging machine of FIG. 1;

FIG. 3 is a schematic view of the die-cutting die shown in FIG. 1;

Fig. 4 is a schematic structural view of the tilting mechanism shown in fig. 1.

In the figure, a base table 1, a material pulling mechanism 2, a die cutting mold 3, a turnover mechanism 4, a material discharging mechanism 5, a packaging mechanism 6, a heat sealing assembly 7, a guide mechanism 8, a display mechanism 9,

Baffle 10, blanking belt 11, loading belt 12, carrier belt track 13, encoder 14

The device comprises a top breaking mechanism 31, a material shaft 41, a material sucking mechanism 42, a turnover device 43, a pad table 44 and a motor 45.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings.

Fig. 1 schematically shows the structure of a novel cross feed carrier tape packaging machine according to an embodiment of the present invention, fig. 2 shows a partial structure of the novel cross feed carrier tape packaging machine of fig. 1, fig. 3 shows the structure of a die cutting die of fig. 1, and fig. 4 shows the structure of a turnover mechanism of fig. 1. As shown in fig. 1-4, the packaging machine comprises a base table 1, the base table 1 being substantially square, with feet provided at each corner of the bottom thereof, and the main mechanisms of the packaging machine being provided on a table top above the base table 1.

The core working components of the packing machine are a blanking belt 11, a feeding belt 12 and a carrier belt track 13 which are paved on each mechanism, and the carrier belt can be paved on the carrier belt track 13. Wherein the blanking belt 11 is positioned right below the feeding belt 12, the blanking belt 11 is parallel to the feeding belt 12, the height of the carrier belt track 13 is positioned between the blanking belt 11 and the feeding belt 12, and the carrier belt track 13 is perpendicular to the blanking belt 11 and the feeding belt 12. In addition, a plurality of rows of mounting positions are uniformly distributed on the blanking belt 11 and the feeding belt 12, and the number of specific mounting positions in each row is 3-6.

Preferably, two sides of the upper part of the base table 1 are provided with a vertical baffle plate 10, and the baffle plate 10 is made of acrylic materials, so that not only can a mechanism on the base table 1 be protected to a certain extent, but also some mechanisms can be installed more conveniently.

One side of the base table 1 is provided with a material pulling mechanism 2, and if the side is the front side, a turnover mechanism 4 and a die-cutting die 3 are sequentially arranged from the material pulling mechanism 2 to the rear. Wherein the blanking belt 11 passes through the material pulling mechanism 2 and the die cutting die 3, and the feeding belt 12 passes through the die cutting die 3 and the turnover mechanism 4. In addition, considering the positional relationship between the mechanisms, a notch through which the blanking belt 11 passes may be provided in the turnover mechanism 4 to avoid obstruction to the operation of the blanking belt 11.

The lower end of the die-cutting die 3 can pass through the blanking belt 11, the upper end can pass through the feeding belt 12, and a jacking mechanism 31 controlled by an air cylinder is arranged at the upper part and the lower part of the die-cutting die 3, and the jacking mechanism 31 comprises jacking and cutting functions, can cut off products on the blanking belt 11 from the blanking belt 11 and jack up the feeding belt 12.

The turnover mechanism 4 mainly comprises a horizontal material shaft 41 and a material sucking mechanism 42 which are mutually independent, and the material sucking mechanism 42 is arranged right above the material shaft 41. The material shaft 41 is mounted on a pad 44 and is in transmission connection with a motor 45, and can rotate under the operation of the motor 45. And a plurality of material grooves are formed in the upper surface of the material shaft 41, and the material grooves can be used for placing products.

The suction mechanism 42 is mounted on the side of a flipping unit 43, and the flipping unit 43 is mounted on the base table 1. Wherein, a plurality of suction heads are arranged on both sides of the suction mechanism 42, and can be turned over under the action of the turning device 43, and the product is sucked from the trough of the material shaft 41 and transferred onto the carrier tape.

Preferably, a guiding mechanism 8 is further arranged at the rearmost side of the base table 1, and a discharging device can be arranged outside the rear side of the base table 1, and the feeding belt 12 is discharged onto the guiding mechanism 8 through the discharging device and passes through the die-cutting die 3 and the turnover mechanism 4 after being limited and guided by the guiding mechanism 8.

A discharging mechanism 5 and a packing mechanism 6 are respectively arranged at two ends of a carrier tape rail 13 on the base table 1, the discharging mechanism 5 is used for discharging carrier tape, and the packing mechanism 6 is used for packing the carrier tape carrying products. The carrier track 13 also passes through the turnover mechanism 4, specifically, below the suction mechanism 42. Preferably, the discharging mechanism and the packing mechanism 6 are mounted on the outer sides of the baffles 10 on both sides, respectively.

The carrier tape is also passed through a heat seal assembly 7 in the carrier tape track 13, and the heat seal assembly 7 is adjacent to the packaging mechanism 6, which can heat the carrier tape to facilitate the packaging operation. Wherein, be provided with the heating block on the heat-seal subassembly 7, the heating block department then is provided with the lid area, and the lid area is located the top of carrier tape.

A display mechanism 9 is also provided on the base 1, the display mechanism 9 comprising a display and control means capable of controlling and displaying the operation of the various mechanisms and components of the packaging machine.

Preferably, the carrier track 13 may also be provided with an encoder 14, and the running speed of the carrier tape may be controlled by the encoder 14 in combination with the display mechanism 9.

When the packaging machine is used, products subjected to stamping and other processing are mounted on each row of mounting positions of the blanking belt 11, the blanking belt 11 is pulled by the material pulling mechanism 2 to pass through the die cutting die 3, the products on the blanking belt 11 are sequentially lifted to each row of mounting positions of the loading belt 12 by the die cutting die 3, then the products are moved into a trough of a material shaft 41 of the turnover mechanism 4 by the movement of the loading belt 12, the material shaft 41 is turned over and sucked and operated by the material sucking mechanism 42, the products can be transferred to a carrier belt paved on the carrier belt track 13 and move along with the carrier belt to the direction of the packaging mechanism 6, then the cover belt is covered on the products by the heat sealing assembly 7 when the products on the carrier belt pass through the heat sealing assembly 7, the cover belt and the carrier belt are glued by the heating of the heating block, and finally the packaging mechanism 6 is packaged and rolled.

What has been described above is merely some embodiments of the present invention. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the invention.

Claims

1. A novel cross-feeding carrier packaging machine, characterized in that: it comprises a base (1), on which a lower material belt (11), an upper material belt (12) and a carrier track (13) are arranged, the lower material belt (11) is located directly below the upper material belt (12) and is parallel to the upper material belt (12), the lower material belt (11) and the upper material belt (12) are both provided with multiple rows of mounting positions, and the carrier track (13) is located between the lower material belt (11) and the upper material belt (12). The carrier track (13) is disposed between the carrier track (13) and the lower material belt (11) and is perpendicular to both the lower material belt (11) and the upper material belt (12); wherein the lower material belt (11) passes through a pulling mechanism (2) and a die-cutting die (3), the die-cutting die (3) is provided with a breaking mechanism (31), the upper material belt (12) passes through the die-cutting die (3) and a turning mechanism (4), and the carrier track (13) passes through the turning mechanism (4), and a discharging mechanism (5) and a packaging mechanism (6) are provided at both ends thereof;

The turning mechanism (4) comprises a horizontal material shaft (41) and a material suction mechanism (42). The upper surface of the material shaft (41) is provided with a plurality of material troughs. The material suction mechanism (42) is mounted on a turning device (43) and is located above the material shaft (41). The material shaft (41) is mounted on a support platform (44) and is transmission-connected to a motor (45).

2. A new type of cross-feeding carrier packaging machine according to claim 1, characterized in that: a vertical baffle (10) is provided on both sides of the upper part of the base (1), and the discharge mechanism (5) and the packaging mechanism (6) are respectively installed on the outer sides of the two baffles (10).

3. A new type of cross-feeding carrier packaging machine according to claim 1, characterized in that the number of the installation positions (14) in each row is 3-6.

4. A new cross-feeding carrier packaging machine according to claim 1, characterized in that: the carrier track (13) passes through a heat sealing component (7), and the heat sealing component (7) is close to the packaging mechanism (6).

5. A new type of cross-feeding carrier packaging machine according to claim 1, characterized in that the feeding belt (12) also passes through a guiding mechanism (8).

6. A new type of cross-feeding carrier packaging machine according to claim 1, characterized in that a display mechanism (9) is provided on the base platform (1).