CN213568297U - Conveying structure of three-in-one conveying belt - Google Patents

Abstract

The utility model provides a transport structure of trinity conveyer belt, its product integration with on three conveyer belts forms single product and arranges the output for detect high efficiency and can in time take out the flaw product, improved the detection accuracy degree, guaranteed the quality of product. It includes three first conveyer belts that arrange side by side and arrange, three the well back end position of first conveyer belt is provided with encloses the fender structure, enclose the fender structure and specifically including enclosing fender frame, front end backstop mechanism, rear end baffle, the front end that encloses the fender structure still is provided with the inductor, the inductor is used for responding to the quantity of the product that passes through, front end backstop mechanism specifically is the backstop cylinder that corresponds to the direction of delivery of every first conveyer belt, the transport of the first conveyer belt that corresponds under the piston rod stretching out state of backstop cylinder is by the backstop, the rear end baffle is connected with axial actuating mechanism, the upper portion of rear end baffle still is provided with perpendicularly and drives on the actuating cylinder.

Description

Conveying structure of three-in-one conveying belt

Technical Field

The utility model relates to a technical field of packaging tank body output specifically is a transport structure of trinity conveyer belt.

Background

In order to be able to make more packing products through the single operation, current jar body preparation line is provided with three mould conveyer belt structures of punch press, single punching press forms three product shape promptly, then carry to the rear through the conveyer belt of three arrangements, because three conveyer belts carry the product in step, make the light detection station at rear need set up three groups, at this in-process, need additionally dispose check out test set, make and detect with high costs, in the testing process, the product that has the flaw is difficult to be taken out, and then make the degree of accuracy that detects not high, can't ensure the quality of product.

Disclosure of Invention

To the above problem, the utility model provides a transport structure of trinity conveyer belt, its product integration on with three conveyer belts forms single row product and arranges the output for detect high efficiency and high efficiency, and can in time take out the flaw product, improved the detection accuracy, guaranteed the quality of product.

The utility model provides a transport structure of trinity conveyer belt which characterized in that: the conveying device comprises three first conveying belts arranged side by side, wherein a baffle structure is arranged at the middle and rear end positions of the three first conveying belts, the baffle structure specifically comprises a baffle frame, a front end stop mechanism and a rear end baffle, the front end of the baffle structure is also provided with an inductor, the inductor is used for sensing the number of passing products, the front end stop mechanism is specifically a stop cylinder corresponding to the conveying direction of each first conveying belt, the conveying of the corresponding first conveying belt is stopped when a piston rod of the stop cylinder is in an extending state, the rear end baffle is connected with an axial driving mechanism, the upper part of the rear end baffle is also provided with a vertical driving cylinder, the baffle structure is used for concentrating the products with a set number in a single row in the baffle structure and pushing the products into a temporary storage platform at the rear part through the rear end baffle of the baffle structure, and the temporary storage platform is arranged at the tail end of the three first conveying belts, the width of the temporary storage platform covers three the width face region of first conveyer belt, the high parallel and level of temporary storage platform in the transport face of first conveyer belt arranges, the end that the temporary storage platform upper surface corresponds to first conveyer belt is provided with corresponding upper portion guide material respectively and says, upper portion guide material says and connects through the upper portion horizontal pole and form whole material frame that pushes away, it has step drive device to push away one side rigid coupling of material frame, step drive device's direction of drive perpendicular to the direction of delivery of first conveyer belt arranges, keeping away from of temporary storage platform one side rigid coupling of step drive device has fast conveyor belt, fast conveyor belt's transfer rate is greater than the conveying speed of first conveyer belt.

It is further characterized in that: one side of the integral material pushing frame, which faces the stepping driving device, is connected with a power side plate through a connecting rod, the stepping driving device is specifically a stepping motor, the stepping motor is fixedly arranged on a motor mounting plate and then is connected with a corresponding nut structure of the power side plate through a lead screw, and the distance of the connecting rod ensures the arrangement of the lead screw;

an axial rail is arranged on one side of the enclosure frame, a vertical driving cylinder is fixedly arranged on a top transverse plate of a connecting support, the lower part of the vertical driving cylinder penetrates through the top transverse plate and then is connected with the top of the rear end baffle plate, a side vertical plate of the connecting support is embedded in the axial rail arrangement, the axial driving mechanism specifically comprises a second stepping motor and a second lead screw, the second stepping motor is fixedly arranged on a motor mounting seat of the enclosure frame, an output shaft of the second stepping motor is connected with the second lead screw, the second lead screw is arranged in parallel to the axial rail, the second lead screw is in threaded connection with a lead screw nut of the side vertical plate, and the second stepping motor drives the rear end baffle plate to axially advance and pushes a product to enter the temporary storage platform;

the three stopping cylinders are respectively arranged on two side edges of the starting end of the enclosure frame and at a cross beam position, and accurate stopping of each first conveying belt when the stopping cylinders act is guaranteed.

After the utility model is adopted, the middle and rear ends of the three first conveying belts are provided with the baffle structure, the baffle structure is used for concentrating the products with the set number in single row in the baffle structure and pushing the products into the temporary storage platform at the rear through the rear end baffle of the baffle structure, one side of the temporary storage platform is provided with the step driving device, the step driving device sequentially pushes each row of products into the quick conveying belt at the other side, the quick conveying belt quickly conveys the products to the detection position at the rear, the stepping amount of each step driving device in the feeding process is the width spacing distance between two adjacent rows of products, the step driving device starts the quick conveying belt to drive the corresponding products to quickly convey after the single row of products are conveyed in place, then the step driving device sends the adjacent single row of products into the product conveying belt in a stepping mode, the quick conveying belt starts the quick conveying belt again to drive the corresponding products to quickly convey, when the stepping driving device pushes the products to enter the rapid conveying belt in a stepping mode, the three first conveying belts synchronously convey a corresponding number of products into the enclosure mechanism, the stepping driving device pushes the products to finish pushing, and the products in the enclosure mechanism synchronously finish the corresponding number of sets, so that the conveying efficiency of the products is stable and efficient; the product on the three conveying belts is integrated to form a single-row product arrangement output, so that the detection is quick and efficient, defective products can be taken out in time, the detection accuracy is improved, and the product quality is guaranteed.

Drawings

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

FIG. 2 is a partially enlarged schematic view of FIG. 1;

the names corresponding to the sequence numbers in the figure are as follows:

the device comprises a first conveying belt 1, a baffle enclosing structure 2, a baffle enclosing frame 3, a front end stop mechanism 4, a rear end baffle 5, a motor mounting seat 6, an axial driving mechanism 7, a vertical driving cylinder 8, a temporary storage platform 9, an upper guide material channel 10, an upper cross rod 11, a product 12, an integral pushing frame 13, a stepping driving device 14, a rapid conveying belt 15, a power side plate 16, a motor mounting plate 17, a screw rod 18, a connecting rod 19, an axial rail 20, a connecting support 21, a top transverse plate 22, a side vertical plate 23, a second stepping motor 24 and a second screw rod 25.

Detailed Description

A conveying structure of a three-in-one conveying belt is shown in figures 1 and 2: the conveying device comprises three first conveying belts 1 arranged side by side, wherein enclosing structures 2 are arranged at the middle and rear end positions of the three first conveying belts 1, each enclosing structure 2 specifically comprises an enclosing frame 3, a front end stopping mechanism 4 and a rear end baffle 5, the front ends of the enclosing structures 2 are also provided with sensors (not shown in the figure), each sensor is used for sensing the number of passing products, each front end stopping mechanism 4 is specifically a stopping cylinder corresponding to the conveying direction of each first conveying belt 1, the conveying of the corresponding first conveying belt 1 is stopped when the piston rods of the stopping cylinders are in an extending state, each sensor senses that the number of the products is in place and extends out of the corresponding stopping cylinder of the corresponding first conveying belt 1, each rear end baffle 5 is connected with an axial driving mechanism 7, the upper portion of each rear end baffle 5 is also provided with a vertical driving cylinder 8, and each enclosing structure 2 is used for concentrating the products with a set number in a single row in the enclosing structure 2, The baffle plate 5 at the rear end of the baffle structure 2 is pushed into a temporary storage platform 9 at the rear end, the temporary storage platform 9 is arranged at the tail ends of the three first conveying belts 1, the width of the temporary storage platform 9 covers the width area of the three first conveying belts 1, the height of the temporary storage platform 9 is parallel and level to the conveying surface of the first conveying belts 1, corresponding upper guide material channels 10 are respectively arranged on the upper surface of the temporary storage platform 9 corresponding to the tail ends of the first conveying belts 1, the upper guide material channels 10 are connected through an upper cross rod 11 to form a whole material pushing frame 13, a stepping driving device 14 is fixedly connected to one side of the material pushing frame 13, the driving direction of the stepping driving device 14 is perpendicular to the conveying direction of the first conveying belts 1, a quick conveying belt 15 is fixedly connected to one side of the temporary storage platform 9, which is far away from the stepping driving device 14, and the conveying speed of the.

One side of the integral material pushing frame 13 facing the stepping driving device 14 is connected with a power side plate 16 through a connecting rod 19, the stepping driving device 14 is specifically a stepping motor, the stepping motor is fixedly arranged on a motor mounting plate 17 and then is connected with a corresponding nut structure of the power side plate 16 through a screw rod 18, and the distance of the connecting rod 19 ensures the arrangement of the screw rod 18;

an axial rail 20 is arranged on one side of the enclosure frame 3, a vertical driving cylinder 8 is fixedly arranged on a top transverse plate 22 of a connecting support 21, the lower part of the vertical driving cylinder 8 penetrates through the top transverse plate 22 and then is connected with the top of the rear end baffle 5, a side vertical plate 23 of the connecting support 21 is embedded in the axial rail 20 and is arranged, an axial driving mechanism 7 specifically comprises a second stepping motor 24 and a second lead screw 25, the second stepping motor 24 is fixedly arranged on a motor mounting seat 6 of the enclosure frame 3, an output shaft of the second stepping motor 24 is connected with the second lead screw 25, the second lead screw 25 is arranged in parallel to the axial rail 20, the second lead screw 25 is in threaded connection with a lead screw nut of the side vertical plate 23, and the second stepping motor 24 drives the rear end baffle 5 to axially advance and pushes a product 12 to enter the temporary;

the three stopping cylinders are respectively arranged at two side edges of the starting end of the enclosure frame 3 and a cross beam position, and the stopping cylinders can accurately stop each first conveying belt 1 when acting.

The working principle is as follows, the middle rear ends of the three first conveying belts are provided with a baffle structure, the baffle structure is used for concentrating a single row of products with a set quantity in the baffle structure and pushing the products into a temporary storage platform at the rear through a rear end baffle of the baffle structure, one side of the temporary storage platform is provided with a stepping driving device, the stepping driving device sequentially pushes each row of products into a rapid conveying belt at the other side, the rapid conveying belt rapidly conveys the products to a detection position at the rear, each stepping amount of the stepping driving device in the feeding process is the width spacing distance between two adjacent rows of products, the stepping driving device starts to drive the corresponding products to be rapidly conveyed after the single row of products are conveyed in place, then the stepping driving device steppingly conveys the adjacent single row of products into the product conveying belt, the rapid conveying belt starts to drive the corresponding products to be rapidly conveyed again, when the stepping driving device pushes the products to enter the rapid conveying belt in a stepping mode, the three first conveying belts synchronously convey a corresponding number of products into the enclosure mechanism, the stepping driving device pushes the products to finish pushing, and the products in the enclosure mechanism synchronously finish the corresponding number of sets, so that the conveying efficiency of the products is stable and efficient; the product on the three conveying belts is integrated to form a single-row product arrangement output, so that the detection is quick and efficient, defective products can be taken out in time, the detection accuracy is improved, and the product quality is guaranteed.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. The utility model provides a transport structure of trinity conveyer belt which characterized in that: the conveying device comprises three first conveying belts arranged side by side, wherein a baffle structure is arranged at the middle and rear end positions of the three first conveying belts, the baffle structure specifically comprises a baffle frame, a front end stop mechanism and a rear end baffle, the front end of the baffle structure is also provided with an inductor, the inductor is used for sensing the number of passing products, the front end stop mechanism is specifically a stop cylinder corresponding to the conveying direction of each first conveying belt, the conveying of the corresponding first conveying belt is stopped when a piston rod of the stop cylinder is in an extending state, the rear end baffle is connected with an axial driving mechanism, the upper part of the rear end baffle is also provided with a vertical driving cylinder, the baffle structure is used for concentrating the products with a set number in a single row in the baffle structure and pushing the products into a temporary storage platform at the rear part through the rear end baffle of the baffle structure, and the temporary storage platform is arranged at the tail end of the three first conveying belts, the width of the temporary storage platform covers three the width face region of first conveyer belt, the high parallel and level of temporary storage platform in the transport face of first conveyer belt arranges, the end that the temporary storage platform upper surface corresponds to first conveyer belt is provided with corresponding upper portion guide material respectively and says, upper portion guide material says and connects through the upper portion horizontal pole and form whole material frame that pushes away, it has step drive device to push away one side rigid coupling of material frame, step drive device's direction of drive perpendicular to the direction of delivery of first conveyer belt arranges, keeping away from of temporary storage platform one side rigid coupling of step drive device has fast conveyor belt, fast conveyor belt's transfer rate is greater than the conveying speed of first conveyer belt.

2. The conveying structure of a three-in-one conveyor belt as claimed in claim 1, wherein: one side of the integral material pushing frame, which faces the stepping driving device, is connected with a power side plate through a connecting rod, the stepping driving device is specifically a stepping motor, and the stepping motor is fixedly arranged on the motor mounting plate and then is connected with a corresponding nut structure of the power side plate through a screw rod.

3. The conveying structure of a three-in-one conveyor belt as claimed in claim 1, wherein: the axial driving mechanism comprises a second stepping motor and a second lead screw, the second stepping motor is fixedly arranged on a motor mounting seat of the enclosure frame, an output shaft of the second stepping motor is connected with the second lead screw, the second lead screw is arranged in parallel to the axial rail, the second lead screw is in threaded connection with a lead screw nut of the side vertical plate, and the second stepping motor drives the rear end baffle to axially advance and push a product to enter the temporary storage platform.

4. The conveying structure of a three-in-one conveyor belt as claimed in claim 1, wherein: the three stopping cylinders are respectively arranged on two side edges of the starting end of the enclosure frame and at a cross beam position.

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