CN210914259U - Auxiliary connection variable-speed bottle conveying device - Google Patents

Abstract

The utility model provides a bottle device is sent in auxiliary connection variable speed, its assembly is at the side of two transfer chain tip, and it includes two vertical driving rollers, the winding has auxiliary belt on the driving roller, the equipartition has the push rod that the level stretches out on auxiliary belt's the surface, the push rod gos deep into the upper portion of transfer chain, the bottle has been placed on the transfer chain, the bottle is located between two push rods around, and two transfer chains pass through the cab apron and connect, the both sides of transfer chain are equipped with the safe edge, the push rod promotes the bottle and follows pass through on the cab apron, the both sides design of crossing the cab apron has the safe edge. This device provides thrust through the push rod to the bottle for the bottle can be smooth to be passed through the cab apron can effectually prevent like this that the bottle from empting on crossing the cab apron, makes the transportation of bottle more smooth and easy.

Description

Auxiliary connection variable-speed bottle conveying device

Technical Field

The utility model relates to a filling equipment technical field, concretely relates to bottle device is sent in auxiliary connection variable speed.

Background

The filling machine is one of packaging equipment and is used for filling liquid raw materials, and the existing filling machine is generally of an all-in-one machine structure, and a cleaning and sealing structure is directly designed in the all-in-one machine. The structure of the filling machine is different according to different filling raw materials and different filling processes. The method can be divided into a normal pressure filling machine and a pressure filling machine according to different pressures; according to different filling material properties, the filling material can be divided into a liquid filling machine, an oil filling machine, a paste filling machine, a sauce filling machine, a particle slurry filling machine and the like; the filling machine can be divided into a normal-temperature filling machine and a hot filling machine according to different temperatures of the filling machine. After filling, the bottles are often transported to a next process step by separate transport lines, and the end of a conventional transport line is usually designed as a circular transfer wheel, and the transport belts are wrapped on the surface of the transfer wheel, so that when two different transport belts are connected at the end, the positions of the two transport belts on the tangent point of the transfer wheel are far, and the bottles are difficult to transport from one transport line to another transport line. When the two traditional conveying lines are connected, the two traditional conveying lines are usually directly connected through a connecting plate, the connecting plate and the upper surfaces of the two traditional conveying lines are on the same plane, and the bottle body slides on one conveying line and enters the other conveying line through the connecting plate. Thus, when the bottle body is conveyed to the connecting plate, the bottle body is easy to fall by the resistance of the lower end. In addition, when the bottles are transported on the conveyor lines, the conveyor lines at both ends often have a speed that does not pass through, which further exacerbates the problem of toppling of the bottles as they pass through the transition locations.

Disclosure of Invention

To solve the problems, the utility model provides a bottle conveying device with auxiliary connection and variable speed, which can ensure the bottle to pass through smoothly on two sections of conveying lines during the bottle conveying process.

The utility model provides a technical scheme that its technical problem adopted is: this bottle device assembly is sent in auxiliary connection variable speed is at the side of two transfer chain tip, and it includes two vertical driving rollers, the winding has auxiliary belt on the driving roller, the equipartition has the push rod that the level stretches out on auxiliary belt's the surface, the push rod deepens to the upper portion of transfer chain, the bottle has been placed on the transfer chain, the bottle is located between two push rods around, and two transfer chains pass through the cab apron and connect, the both sides of transfer chain are equipped with the safe edge, the push rod promotes the bottle and follows pass through on the cab apron, the both sides design of crossing the cab apron has the safe edge.

Preferably, the push rods are used in pairs, and each pair of push rods is connected to the auxiliary belt in parallel up and down. And in the process that the push rod runs along with the auxiliary belt, the protective edge is positioned between the push rods used in pairs.

Preferably, the two conveying lines are vertically arranged relatively, the transition plate is designed into an arc shape, arc-shaped protective edges are designed on the inner side and the outer side of the arc-shaped transition plate, and the arc-shaped transition plate and the protective edges are coaxial with one driving roller on the auxiliary-connection variable-speed bottle conveying device.

The beneficial effects of the utility model reside in that: this bottle device is sent in auxiliary connection variable speed uses the transition position at filling equipment transfer chain, supplementary area is along with the rotation of driving roller and follows the motion, can drive like this the push rod transports in step, like this the push rod deepens to transfer chain upper portion position and follows transfer chain synchronous motion, and the bottle is located between two push rods, and when the bottle arrived on the cab apron, the push rod provides thrust to the bottle for the bottle can be smooth to pass through the cab apron, can effectually prevent like this that the bottle from empting on crossing the cab apron, makes the transportation of bottle more smooth and easy.

Drawings

FIG. 1 is a schematic front view of a first embodiment of a variable speed bottle feeding device with auxiliary connection.

FIG. 2 is a schematic top view of the auxiliary-connection variable-speed bottle feeding device of FIG. 1.

FIG. 3 is a schematic front view of a second embodiment of a variable speed bottle feeding device.

Detailed Description

The invention will be further illustrated with reference to the following examples:

as shown in the first embodiment of fig. 1 and 2, the auxiliary connecting variable speed bottle feeding device is assembled at the side edge of the end parts of two conveying lines 1 and comprises two vertical driving rollers 2, and an auxiliary belt 3 is wound on the driving rollers 2. In this embodiment, the two conveyor lines 1 are aligned, the ends of the two conveyor lines are opposite, the upper surfaces of the two conveyor lines are flush, and the front and rear surfaces of the auxiliary belt 3 wound on the driving roller 2 are parallel to the conveyor lines 1. The auxiliary belt 3 is made of flexible materials, push rods 31 extending horizontally are evenly distributed on the outer surface of the auxiliary belt 3, the push rods 31 penetrate into the upper portion of the conveying line 1, a bottle body 4 is placed on the conveying line 1, the bottle body 4 is located between the front push rod 31 and the rear push rod 31, the two conveying lines 1 are connected through transition plates 5, the transition plates 5 are square plates in the embodiment, and the upper surfaces of the transition plates 5 are flush with the upper portions of the two conveying lines. The two sides of the conveying line 1 are provided with protective edges 11, the push rod 31 pushes the bottle bodies 4 to pass through the transition plate 5, and the protective edges 11 are designed on the two sides of the transition plate 5. The protective edge 11 on the conveying line and the protective edge 11 on the transition plate 5 are connected into a whole, so that the bottle body cannot slide out of the track in the advancing process.

This bottle device is sent in auxiliary connection variable speed uses the transition position at filling equipment transfer chain 1, auxiliary belt 3 follows the motion along with the rotation of driving roller 2, can drive like this push rod 31 transports in step, like this push rod 31 deepens and follows transfer chain 1 synchronous motion to 1 upper portion position of transfer chain, and bottle 4 is located between two push rods 31, and when bottle 4 reachs on cab apron 5, push rod 31 provides thrust to bottle 4 for bottle 4 can be smooth to pass through cab apron 5, can effectually prevent like this that the bottle from empting on cab apron 5, makes the transportation of bottle 4 more smooth and easy.

In a specific design, as shown in fig. 2, the push rods 31 are used in pairs, and each pair of push rods 31 is connected to the auxiliary belt 3 in parallel up and down. During the operation of the push rods 31 following the auxiliary belt 3, the protective edge 11 is located between the push rods 31 used in pairs. Thus, the push rods 31 used in pairs can push the screen body 4 forward more stably. When the speed of two transfer chains is different, can with the functioning speed of supplementary area 3 designs for 1 functioning speed of transfer chain at rear portion the same, through like this the push rod 31 is right the variable speed is accomplished in the operation of bottle 4 for the bottle can be smooth fall into on the transfer chain at rear portion, prevent that bottle 4 from tumbleing.

In a second embodiment, as shown in fig. 3, two conveyor lines 1 are placed vertically, the transition plate 5 is designed to be arc-shaped, and arc-shaped protective edges 11a are designed inside and outside the arc-shaped transition plate 5a, and in this embodiment, the linear protective edges on the conveyor lines 1 are integrally processed with the arc-shaped protective edges 11 a. The arc-shaped transition plate 5a and the protective edge 11a are coaxial with one driving roller 2 on the auxiliary connection variable-speed bottle conveying device. Thus, the push rod 31 at the position of the right-segment driving roller 2 can push the bottle bodies 4 to complete the movement on the arc-shaped transition plate 5a, so that the bottle bodies 4 can smoothly complete the steering movement with an angle. Making the placement and arrangement of the conveyor line 1 more free.

Claims (3)

1. The utility model provides an auxiliary connection variable speed bottle conveying device, its assembly is at the side of two transfer line tip, and it includes two vertical driving rollers, its characterized in that: the winding has the auxiliary belt on the driving roller, the equipartition has the push rod that the level stretches out on the surface of auxiliary belt, the push rod gos deep into the upper portion of transfer chain, the bottle has been placed on the transfer chain, the bottle is located between two push rods around, and two transfer chains pass through the cab apron to be connected, the both sides of transfer chain are equipped with the safe edge, the push rod promotes the bottle and follows pass through on the cab apron, the design of the both sides of crossing the cab apron has the safe edge.

2. The auxiliary connecting variable speed bottle conveying apparatus as claimed in claim 1, wherein: the push rods are used in pairs, and each pair of push rods is connected to the auxiliary belt in parallel up and down; and in the process that the push rod runs along with the auxiliary belt, the protective edge is positioned between the push rods used in pairs.

3. The auxiliary connecting variable speed bottle conveying apparatus as claimed in claim 1, wherein: the two conveying lines are vertically arranged relatively, the transition plate is designed into an arc shape, arc-shaped protective edges are designed on the inner side and the outer side of the arc-shaped transition plate, and the arc-shaped transition plate and the protective edges are coaxial with one driving roller on the auxiliary connection variable-speed bottle conveying device.

Images