CN215849892U - Corrugated board conveying and steering mechanism - Google Patents

Abstract

The utility model discloses a corrugated board conveying and steering mechanism, which belongs to the technical field of packaging product production equipment and comprises a first linear conveying device and a second linear conveying device, wherein the input end of the second linear conveying device is positioned on the side of the first linear conveying device; the conveying steering device comprises a lifting cylinder, the lifting cylinder is provided with a lifting supporting plate, the lifting supporting plate is provided with a plurality of transverse conveying units, gaps between the transverse conveying units and the first conveying rollers are in one-to-one correspondence, the lifting supporting plate is provided with a plurality of receiving conveying units, the conveying direction of the receiving conveying units is the same as that of the second linear conveying device, and the gaps between the receiving conveying units and the second conveying rollers are in correspondence; the lifting supporting plate is provided with a driving motor for driving the transverse conveying unit and the bearing conveying unit to work. The mechanism has small action amplitude and quick execution action, can realize the automation of the change of the conveying direction of the corrugated board, and improves the production efficiency.

Description

Corrugated board conveying and steering mechanism

Technical Field

The utility model belongs to the technical field of packaging carton production equipment, and particularly relates to a corrugated board conveying and steering mechanism.

Background

Corrugated container board is the plate body that constitutes the carton, and the carton is as the main packaging goods of commodity, and along with the continuous development of online shopping and commodity circulation, its demand is bigger and bigger. The production and processing efficiency of corrugated boards becomes a main factor for determining the competitiveness of packaging product enterprises.

At present, the production of corrugated boards is basically fully automated. The conveying of corrugated board depends on the linear roller conveyer, which includes frame, the frame is usually rigid frame extending along one direction, rollers are installed on the base board via bearings, the rollers are arranged at intervals along the conveying direction of the linear roller conveyer, and the corrugated board moves along the conveying direction of the linear roller conveyer under the support of the rollers. The roll shaft of the roller is connected with a power part of the linear roller conveying device through a transmission chain. The corrugated board is transferred from the linear roller conveying device to another linear roller conveying device vertical to the linear roller conveying device, and the corrugated board is transferred manually. This not only has restricted corrugated board's production line whole degree of automation, and extravagant manpower, inefficiency.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides a corrugated board conveying and steering mechanism which solves the problems of low degree of automation and low efficiency of the conventional corrugated board right-angle steering.

The utility model is realized in such a way that a corrugated board conveying and steering mechanism comprises a first linear conveying device and a second linear conveying device vertical to the conveying direction of the first linear conveying device, wherein the input end of the second linear conveying device is positioned at the side of the first linear conveying device, the first linear conveying device comprises a plurality of first conveying rollers arranged at intervals along the conveying direction, the second linear conveying device comprises a plurality of second conveying rollers arranged at intervals along the conveying direction, and the corrugated board conveying and steering mechanism is characterized in that: the conveying steering device is positioned below the first linear conveying device and corresponds to the input end of the second linear conveying device; the conveying steering device comprises a lifting cylinder, the lifting cylinder is provided with a lifting support plate capable of moving vertically, a plurality of transverse conveying units are arranged on the lifting support plate, the conveying direction of the transverse conveying units is perpendicular to the conveying direction of the first linear conveying device, gaps between the transverse conveying units and the first conveying rollers are in one-to-one correspondence, a plurality of receiving conveying units are arranged on the lifting support plate, the conveying direction of the receiving conveying units is the same as the conveying direction of the second linear conveying device, and the gaps between the receiving conveying units and the second conveying rollers are in correspondence; the lifting supporting plate is provided with a driving motor for driving the transverse conveying unit and the bearing conveying unit to work.

The corrugated board conveying device comprises a conveying steering device, wherein the conveying steering device is provided with a transverse conveying unit and a receiving conveying unit which can move vertically, the transverse conveying unit can be ejected out from a gap between first conveying rollers, the receiving conveying unit can be ejected out from a gap between second conveying rollers, the corrugated board on the first linear conveying device is supported by the ejecting action, the supported corrugated board is transferred to a second linear conveying device perpendicular to the conveying direction from the first linear conveying device, and the right-angle conveying steering automation of the corrugated board is realized. Compared with the traditional mainstream manual operation, the production efficiency of the product is greatly improved. Compared with some automatic mechanisms which finish steering through a transversely movable pushing component, the mechanism has the advantages of small action amplitude, high execution speed and high efficiency.

In the above technical solution, preferably, the transverse conveying unit includes a transverse conveying frame, and a driving pulley and a driven pulley mounted on the transverse conveying frame, and the driving pulley and the driven pulley are equipped with a transverse conveying belt.

In the above technical solution, preferably, the receiving and conveying unit includes a receiving and conveying frame, and the receiving and conveying roller is mounted on the receiving and conveying frame.

In the above technical scheme, preferably, a main shaft and a transmission shaft are mounted on the lifting supporting plate through a shaft seat, the main shaft is connected with the transmission shaft through a transmission chain, the main shaft is driven by a driving motor, the main shaft is connected with the transverse conveying unit through a transmission belt, and the transmission shaft is connected with the bearing unit through a transmission belt.

In the above technical solution, preferably, a base plate is arranged below the lifting support plate, the lifting cylinder is fixed on the base plate, the base plate has a guide hole located around the lifting cylinder, a guide rod is assembled in the guide hole, and the upper end of the guide rod is connected with the upper end of the lifting support plate.

Drawings

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

FIG. 2 is a top view of the transport turning device of the present invention;

fig. 3 is a side view of the conveying direction-changing device of the present invention.

In the figure, 1, a first linear conveying device; 1-1, a first conveying roller; 2. a second linear conveyor; 2-1, a second conveying roller; 3. a conveying steering device; 3-1, a lifting cylinder; 3-2, lifting a supporting plate; 3-3, a substrate; 3-4, a guide rod; 3-5, a transverse conveying frame; 3-6, a driving belt wheel; 3-7, a driven belt wheel; 3-8, transverse conveying belt; 3-9, carrying and conveying frames; 3-10, carrying and conveying rollers; 3-11, driving a motor; 3-12, a main shaft; 3-13 and a transmission shaft.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

In order to solve the problems of low degree of automation and low efficiency of right-angle steering of the existing corrugated board, the utility model particularly provides a corrugated board conveying steering mechanism which is small in action amplitude and quick in execution action, can realize automation of change of the conveying direction of the corrugated board and improves the production efficiency. To further illustrate the structure of the present invention, the following detailed description is made with reference to the accompanying drawings:

referring to fig. 1-3, a corrugated cardboard conveying and turning mechanism includes a first linear conveyor 1 and a second linear conveyor 2 perpendicular to the conveying direction of the first linear conveyor 1, wherein an input end of the second linear conveyor 2 is located at a side of the first linear conveyor 1.

In this embodiment, first linear conveyor 1 and second linear conveyor 2's structure is the same, for sharp roller conveyor, including the support body of the extension that C shape steel constitutes, the conveying roller that can wind body axis pivoted that a plurality of levels set up is installed on the support body, and the conveying roller can rotate and the interval sets up around self axis, is linear conveyor's direction of delivery with the axis vertical direction of conveying roller. The linear conveying device also comprises a conveying motor for driving the conveying rollers to rotate, and the conveying motor drives the rollers to transmit through the conveying chain. The corrugated board is supported on a supporting surface of a conveying roller and moves along the conveying direction of a linear conveying device, and the structure of the linear conveying device is a structure which is conventionally known in the field. The conveying direction of the second linear conveying device 2 is perpendicular to the conveying direction of the first linear conveying device 1, and the input end of the second linear conveying device 2 is located on the side of the first linear conveying device 1.

In this embodiment, the first linear transporter 1 is equipped with a first transport roller 1-1, and the second linear transporter 2 is equipped with a second transport roller 2-1.

The conveying and turning device is positioned below the first linear conveying device 1 and corresponds to the input end of the second linear conveying device 2. The term "corresponding" here means that the conveying direction changing device 3 is located below a conveying section of the first linear conveyor 1 and below an input end of the second linear conveyor 2 corresponding to the conveying section.

Specifically, the conveying steering device 3 comprises a lifting cylinder 3-1, and a lifting supporting plate 3-2 capable of moving vertically is mounted on the lifting cylinder 3-1. In this embodiment, a base plate 3-3 is disposed below the lifting pallet 3-2, and the base plate 3-3 is fixed to the base frames of the first linear conveyor 1 and the second linear conveyor 2. The base plate 3-3 and the lifting supporting plate 3-2 are both horizontal plate bodies. The lifting cylinder 3-1 is fixed on the base plate 3-3, namely the lower part of the lifting cylinder 3-1 is fixed at the central position of the base plate 3-3 through a screw, the cylinder rod of the lifting cylinder 3-1 can vertically extend upwards, and the upper end of the cylinder rod of the lifting cylinder 3-1 is fixed with the lifting support plate 3-2 through a screw. The lifting cylinder 3-1 can drive the lifting support plate 3-2 to move up and down. The base plate 3-3 is provided with a guide hole positioned around the lifting cylinder 3-1, the guide hole is a round hole, a guide sleeve is arranged in the guide hole, and a guide rod 3-4 is assembled in the guide hole, namely the guide rod 3-4 is inserted in the guide sleeve and can vertically move up and down along the axis of the guide rod. The upper end of the guide rod 3-4 is connected with the upper end of the lifting supporting plate 3-2. The guide rod 3-4 is used for ensuring the lifting supporting plate 3-2 to stably and vertically move.

A plurality of transverse conveying units are arranged on the lifting support plate 3-2, and in the embodiment, four transverse conveying units are arranged on the lifting support plate 3-2. The conveying direction of the transverse conveying unit is perpendicular to the conveying direction of the first linear conveying device 1, and gaps between the transverse conveying unit and the first conveying rollers 1-1 correspond one to one. The lifting supporting plate 3-2 moves upwards movably, and the transverse conveying unit can protrude out of the conveying surface of the first linear conveying device 1 from a gap between the two first conveying rollers 1-1. In this embodiment, the transverse conveying unit comprises a transverse conveying frame 3-5, a driving pulley 3-6 and a driven pulley 3-7 which are arranged on the transverse conveying frame 3-5, and a transverse conveying belt 3-8 is arranged on the driving pulley 3-6 and the driven pulley 3-7. The transverse conveying frame 3-5 is two shaft frames fixed on the lifting support plate 3-2 by screws, a driving belt wheel 3-6 and a driven belt wheel 3-7 are respectively arranged on the transverse conveying frame 3-5 through bearings, the driving belt wheel 3-6 and the driven belt wheel 3-7 can rotate around the axes of the driving belt wheel 3-6 and the driven belt wheel 3-7, a transverse conveying belt 3-8 is assembled on the driving belt wheel 3-6 and the driven belt wheel 3-7, and the transverse conveying belt 3-8 rotates when the driving belt wheel 3-6 rotates, and the structure is a conventionally known structure in the mechanical field.

A plurality of receiving and conveying units are arranged on the lifting supporting plate 3-2, the conveying direction of the receiving and conveying units is the same as that of the second linear conveying device 2, and gaps between the receiving and conveying units and the second conveying rollers 2-1 correspond to each other. In this embodiment, the receiving and conveying unit comprises a receiving and conveying frame 3-9, the receiving and conveying frame 3-9 is a shaft frame fixed on the lifting support plate 3-2, the receiving and conveying roller 3-10 is mounted on the receiving and conveying frame 3-9 through a bearing, the axis of the receiving and conveying roller 3-10 is parallel to the axis of the second conveying roller 3-1, and the receiving and conveying roller 3-10 can rotate around the axis of the receiving and conveying roller. The lifting supporting plate 3-2 moves upwards movably, and the receiving conveying rollers 3-10 can protrude out of the conveying surface of the second linear conveying device 2 from a gap between the two second conveying rollers 2-1. The upper conveying surface of the receiving conveying roller 3-10 is coplanar with the upper conveying surface of the transverse conveying belt 3-8 of the transverse conveying unit. In this embodiment, two receiving conveyor rollers 3-10 are symmetrically arranged in the left-right direction of the gap between the second conveyor rollers 2-1, and two sets of receiving conveyor rollers 3-10 are arranged in the conveying direction of the second linear conveyor 2.

The lifting supporting plate 3-2 is provided with a driving motor 3-11 for driving the transverse conveying unit and the receiving conveying unit to work. Specifically, a main shaft 3-12 and a transmission shaft 3-13, specifically a main shaft and two transmission shafts, are mounted on the lifting supporting plate 3-2 through a shaft seat, the axes of the main shaft 3-12 and the transmission shaft 3-13 are parallel to the conveying direction of the first linear conveying device 1, the main shaft 3-12 is arranged close to a driving belt pulley 3-6, and the two transmission shafts 3-13 are respectively close to two groups of carrying conveying rollers 3-10. The main shaft 3-12 is in transmission connection with a driving belt wheel 3-6 of the transverse conveying unit through a belt wheel, and the transmission shaft 3-13 is in transmission connection with the adjacent receiving conveying roller 3-10 through a belt wheel. The main shafts 3-12 are connected with the transmission shafts 3-13 through transmission chains, the main shafts 3-12 are driven by driving motors 3-11, in the embodiment, the driving motors 3-11 are fixed on the shaft seats, and output shafts of the driving motors 3-11 are connected with shaft ends of the main shafts 3-12 through shaft couplings.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The utility model provides a corrugated board carries steering mechanism, includes first straight line conveyor (1) and with the direction of delivery perpendicular second straight line conveyor (2) of first straight line conveyor (1), the input of second straight line conveyor (2) is located the side of first straight line conveyor (1), first straight line conveyor (1) includes a plurality of first conveying rollers (1-1) that set up along its direction of delivery interval, second straight line conveyor (2) includes a plurality of second conveying rollers (2-1) that set up along its direction of delivery interval, its characterized in that: the conveying and steering device (3) is positioned below the first linear conveying device (1) and corresponds to the input end of the second linear conveying device (2);

the conveying steering device (3) comprises a lifting cylinder (3-1), the lifting cylinder (3-1) is provided with a lifting support plate (3-2) capable of moving vertically, the lifting support plate (3-2) is provided with a plurality of transverse conveying units, the conveying direction of the transverse conveying units is perpendicular to the conveying direction of the first linear conveying device (1), the transverse conveying units correspond to gaps between the first conveying rollers (1-1) one by one, the lifting support plate (3-2) is provided with a plurality of receiving conveying units, the conveying direction of the receiving conveying units is the same as that of the second linear conveying device (2), and the receiving conveying units correspond to the gaps between the second conveying rollers (2-1);

and the lifting supporting plate (3-2) is provided with a driving motor (3-11) for driving the transverse conveying unit and the bearing conveying unit to work.

2. A corrugated board conveying turning mechanism according to claim 1, characterized in that: the transverse conveying unit comprises a transverse conveying frame (3-5), and a driving belt wheel (3-6) and a driven belt wheel (3-7) which are arranged on the transverse conveying frame (3-5), wherein the driving belt wheel (3-6) and the driven belt wheel (3-7) are provided with a transverse conveying belt (3-8).

3. A corrugated board conveying turning mechanism according to claim 2, characterized in that: the receiving and conveying unit comprises a receiving and conveying frame (3-9), and receiving and conveying rollers (3-10) are mounted on the receiving and conveying frame (3-9).

4. A corrugated board conveying turning mechanism according to claim 3, characterized in that: the lifting support plate (3-2) is provided with a main shaft (3-12) and a transmission shaft (3-13) through a shaft seat, the main shaft (3-12) is connected with the transmission shaft (3-13) through a transmission chain, the main shaft (3-12) is driven by a driving motor (3-11), the main shaft (3-12) is connected with the transverse conveying unit through a transmission belt, and the transmission shaft (3-13) is connected with the bearing unit through the transmission belt.

5. A corrugated board conveying turning mechanism according to claim 1, characterized in that: a base plate (3-3) is arranged below the lifting supporting plate (3-2), the lifting cylinder (3-1) is fixed on the base plate (3-3), the base plate (3-3) is provided with a guide hole positioned around the lifting cylinder (3-1), a guide rod (3-4) is assembled in the guide hole, and the upper end of the guide rod (3-4) is connected with the upper end of the lifting supporting plate (3-2).

Images