CN220702456U - Automatic material distributor for columnar bottles - Google Patents

Abstract

The utility model relates to the field of a material distributor, in particular to an automatic cylindrical bottle material distributor. The material distributing machine comprises a material carrying container, a bottle lifting feeder, a bottle horizontal conveyor, a dislocation carrier, a carrier disc rotating mechanism and a bottle pushing mechanism, wherein the material carrying container is arranged on one side of the bottle lifting feeder, which is used for conveying bottles to the bottle horizontal conveyor, the top of the bottle lifting feeder is positioned on one side of the bottle horizontal conveyor, the dislocation carrier is arranged at the discharge end of the bottle horizontal conveyor, the carrier disc is arranged on one side of the dislocation carrier, and the carrier disc is connected to an output shaft of the carrier disc rotating mechanism. According to the utility model, the bottles are lifted from the material carrying container to the bottle horizontal conveyor by the bottle lifting feeder, and the bottle horizontal conveyor sequentially and horizontally conveys the bottles forwards. The bottle body is pushed into the rotatable carrying disc from the dislocation carrier through the bottle body pushing mechanism, and the carrying disc is matched with the sensor to enable the bottle bodies to drop down to a preset station one by one in a consistent direction. The application improves the working efficiency and saves the cost.

Description

Automatic material distributor for columnar bottles

Technical Field

The utility model relates to the field of a material distributor, in particular to an automatic cylindrical bottle material distributor.

Background

After the bottles are produced and formed, a stack of disordered bottles is placed one by one at a preset processing position according to the upward posture of the bottle heads. The existing operations of separating and adjusting the orientation of the bottles are completed by manual operation, and the operation mode has lower working efficiency and needs to consume much manpower.

Disclosure of Invention

The utility model aims to solve the technical problems that: in order to solve the technical problems described in the background art, the utility model provides an automatic cylindrical bottle distributing machine. The bottles are lifted from the material carrying container to the bottle horizontal conveyor by the bottle lifting feeder, and the bottle horizontal conveyor sequentially and horizontally conveys the bottles forwards. The bottle body is pushed into the rotatable carrying disc from the dislocation carrier through the bottle body pushing mechanism, and the carrying disc is matched with the sensor to enable the bottle bodies to drop down to a preset station one by one in a consistent direction. The application improves the working efficiency and saves the cost.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides an automatic feed divider of columnar bottle, including carrying the material container, bottle promotes the feeder, bottle horizontal conveyor, dislocation carrier, the carrier disc, carrier disc rotary mechanism, bottle push mechanism, a bottle promotes feeder one side and is equipped with the material container with the bottle on the bottle horizontal conveyor, bottle promotes feeder top and is located bottle horizontal conveyor one side, bottle horizontal conveyor's discharge end department is equipped with the dislocation carrier, dislocation carrier one side is equipped with the carrier disc, the carrier disc is connected on carrier disc rotary mechanism's output shaft, be equipped with the perforation that is used for passing through the bottle in the carrier disc, bottle horizontal conveyor one side is equipped with and is used for pushing the bottle from the dislocation carrier in the carrier disc bottle push mechanism, be equipped with the sensor one that is used for detecting the bottle orientation between dislocation carrier and the carrier disc.

Specifically, dislocation carrier comprises carrier, slip table cylinder, is fixed with the carrier on the slide of slip table cylinder, is equipped with two bottle standing grooves in the carrier, is equipped with the sensor second that is used for detecting whether the bottle removes in place in the bottle standing groove.

Specifically, bottle pushing mechanisms are arranged on the left side and the right side of the bottle horizontal conveyor, each bottle pushing mechanism comprises a single-rod air cylinder and a pushing block, and the pushing blocks are fixed on the piston rod ends of the single-rod air cylinders.

Specifically, the bottle horizontal conveyor is a belt conveyor.

Specifically, the carrier disc rotating mechanism is a servo motor.

Specifically, bottle promotes feeder comprises frame, motor, connecting rod, cascaded moving part, cascaded mounting, and cascaded mounting is fixed in the frame, and cascaded moving part is connected in the frame in a sliding way, is fixed with the disc on the output shaft of motor, is equipped with the eccentric shaft on the disc, is fixed with the connecting plate on the eccentric shaft, and the connecting plate rotates to be connected in connecting rod one end, and the connecting rod other end rotates to be connected on cascaded moving part, and cascaded moving part and cascaded mounting are by the plate body of several mutual parallel and be the echelonment range, and the several plate body of cascaded moving part is in the same place with the several plate body of cascaded mounting is crisscross.

The beneficial effects of the utility model are as follows: the utility model provides an automatic cylindrical bottle distributor. The bottles are lifted from the material carrying container to the bottle horizontal conveyor by the bottle lifting feeder, and the bottle horizontal conveyor sequentially and horizontally conveys the bottles forwards. The bottle body is pushed into the rotatable carrying disc from the dislocation carrier through the bottle body pushing mechanism, and the carrying disc is matched with the sensor to enable the bottle bodies to drop down to a preset station one by one in a consistent direction. The application improves the working efficiency and saves the cost.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the dislocation carrier, carrier tray, bottle pushing mechanism of the present utility model;

FIG. 3 is a schematic view of the bottle lifting feeder of the present utility model;

in the figure, 1, a material carrying container, 2, a bottle lifting feeder, 3, a bottle horizontal conveyor, 4, a dislocation carrier,

5. the bottle body pushing device comprises a carrying disc, a carrying disc rotating mechanism, a bottle body pushing mechanism, a sensor I, a perforation hole 9 and a perforation hole 21.

The device comprises a frame, a motor, a connecting rod, a step moving part, a step fixing part, a carrying platform and a sliding table cylinder.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

FIG. 1 is a schematic diagram of the structure of the present utility model; FIG. 2 shows a dislocation carrier, a carrier tray and a bottle body according to the present utility model

A structural schematic diagram of the pushing mechanism; fig. 3 is a schematic structural view of the bottle lifting feeder of the present utility model.

As shown in fig. 1. The utility model provides an automatic feed divider of columnar bottle, including carrying material container 1, bottle promotes feeder 2, bottle horizontal conveyor 3, dislocation carrier 4, carrying tray 5, carrier disc rotation mechanism 6, bottle push mechanism 7, a bottle promotes feeder 2 side for with the bottle on the bottle horizontal conveyor 3 and is equipped with carries material container 1, bottle promotes feeder 2 top and is located bottle horizontal conveyor 3 one side, bottle horizontal conveyor 3's discharge end department is equipped with dislocation carrier 4, dislocation carrier 4 one side is equipped with carrying tray 5, carrying tray 5 connects on carrying tray rotary mechanism 6's output shaft, be equipped with in the carrying tray 5 and be used for passing through the perforation 9 of bottle, bottle horizontal conveyor 3 one side is equipped with and is used for pushing the bottle in carrying tray 5 from dislocation carrier 4 in bottle push mechanism 7, be equipped with between dislocation carrier 4 and the carrying tray 5 and be used for detecting the sensor of bottle orientation one 8.

As shown in fig. 2, the dislocation carrier 4 is composed of a carrier 41 and a sliding table cylinder 42, the carrier 41 is fixed on the sliding seat of the sliding table cylinder 42, two bottle placing grooves are arranged in the carrier 41, and a second sensor for detecting whether the bottle moves in place is arranged in the bottle placing groove. When the bottle moves into place in the bottle placement groove, the second sensor senses the bottle and transmits a signal to the PLC, and the PLC judges that the bottle has moved into place in the carrier 41.

A bottle placement groove of the carrier 41 is engaged with a discharge port of the bottle horizontal conveyor 3, so that the bottle horizontal conveyor 3 feeds a bottle into the bottle placement groove. Then, the sliding table cylinder 42 drives the carrying table 41 to move horizontally, so that the other bottle placing groove of the carrying table 41 is connected with the discharge port of the bottle horizontal conveyor 3, and a second bottle conveyed on the bottle horizontal conveyor 3 is received.

The dislocation carrier 4 works in such a manner that, when a bottle is to be sent out, one bottle on the carrier 41 moves between a set of bottle pushing mechanisms 7 and the carrier tray 5, and the bottle pushing mechanisms 7 push the bottle from the bottle placement groove into the perforation 9 of the carrier tray 5. Then, the sliding table cylinder 42 drives the carrier 41 to move, the other bottle on the carrier 41 is moved between the other group of bottle pushing mechanism 7 and the carrier disc 5, and then the other bottle is pushed into the perforation 9 of the other carrier disc 5.

The left and right sides of bottle horizontal conveyor 3 all are equipped with bottle push mechanism 7, and bottle push mechanism 7 comprises single pole cylinder and ejector pad, and the piston rod end of single pole cylinder is fixed with the ejector pad. The piston rod of the single-rod air cylinder stretches and contracts to drive the pushing block to move, and the pushing block can push the bottle body to move horizontally.

The bottle horizontal conveyor 3 is a belt conveyor.

The carrier disc rotation mechanism 6 is a servo motor.

As shown in fig. 3, the bottle lifting feeder 2 is composed of a frame 21, a motor 22, a connecting rod 23, a stepped moving member 24 and a stepped fixing member 25, wherein the stepped fixing member 25 is fixed on the frame 21, the stepped moving member 24 is connected to the frame 21 in a sliding fit manner, a disc is fixed on an output shaft of the motor 22, an eccentric shaft is arranged on the disc, a connecting plate is fixed on the eccentric shaft, the connecting plate is rotatably connected to one end of the connecting rod 23, the other end of the connecting rod 23 is rotatably connected to the stepped moving member 24, the stepped moving member 24 and the stepped fixing member 25 are composed of a plurality of mutually parallel plates which are arranged in a stepped manner, and a plurality of plates of the stepped moving member 24 and a plurality of plates of the stepped fixing member 25 are arranged together in a staggered manner.

The bottle lifting feeder 2 works in such a way that the bottle lifting feeder 2 is a stepped washboard feeder, an output shaft of a motor 22 drives a disc to rotate, and an eccentric shaft on the disc drives a stepped moving part 24 to linearly move back and forth through a connecting plate and a connecting rod 23. As the bottom plate of the material carrying container 1 is inclined towards the bottle lifting feeder 2. Thus, after a stack of bottles is poured into the loading container 1, the bottles are moved in the direction of the bottle lifting feeder 2. First, the step moving member 24 is lowered to the lowest position, at this time, the bottle body will slide along the bottom plate of the material carrying container 1 to the top of the lowest plate body of the step moving member 24, at this time, the step moving member 24 moves up until the lowest plate body of the step moving member 24 pushes up the bottle body at the top to the top of the lower plate body of the step fixing member 25. Then the step-type moving member 24 moves down and then moves up, at this time, the bottle body at the top of the plate below the step-type fixing member 25 is pushed up by the plate body located in the middle of the step-type moving member 24, so that the bottle body is pushed up to the top of the plate body located above the step-type fixing member 25. Finally, the step-type moving member 24 moves down and then moves up, so that the uppermost plate body of the step-type moving member 24 can continuously push up the bottle body positioned at the top of the plate body above the step-type fixing member 25 onto the bottle body horizontal conveyor 3.

The working mode of the bottle lifting and feeding device comprises the following steps that firstly, a bottle lifting and feeding machine 2 lifts a material carrying container 1 to a bottle horizontal conveyor 3, and the bottle horizontal conveyor 3 sequentially moves the bottle forward horizontally into a dislocation carrier 4. The first sensor 8 can judge whether the bottle body is forward in bottle mouth or forward in bottle bottom. If the bottle bottom is toward the first sensor 8, the first sensor 8 blocks the light of the first sensor 8, and the light of the first sensor 8 passes through the bottle opening. The first sensor 8 transmits a signal to the PLC, and the PLC judges the orientation of the bottle body.

After the bottles are conveyed into the dislocation carrier 4, the bottle pushing mechanism 7 pushes the bottles in the dislocation carrier 4 into the through holes 9 of the carrier plate 5. If the bottle mouth of the bottle body firstly enters the perforation 9, the carrying disc rotating mechanism 6 drives the carrying disc 5 to rotate, and the bottle body in the carrying disc 5 rotates downwards to the lowest position, so that the bottle body can vertically drop downwards to the processing station below in a downward bottle bottom and upward bottle mouth posture. If the bottle bottom of the bottle body firstly enters the perforation 9, the carrier disc rotating mechanism 6 drives the carrier disc 5 to rotate, and the bottle body in the carrier disc 5 rotates upwards to the highest position, so that the bottle body can vertically drop downwards to the processing station below through the pore canal of the whole perforation 9 in a downward bottle bottom and upward bottle mouth posture.

With the above-described preferred embodiments according to the present utility model as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (6)

1. The utility model provides an automatic feed divider of columnar bottle, a serial communication port, including carrying material container (1), bottle promotes feeder (2), bottle horizontal conveyor (3), dislocation carrier (4), carrying dish (5), carrying dish rotary mechanism (6), bottle push mechanism (7), a bottle promotes feeder (2) one side and is equipped with carrying material container (1) on being used for carrying the bottle to bottle horizontal conveyor (3), bottle promotes feeder (2) top and is located bottle horizontal conveyor (3) one side, the discharge end department of bottle horizontal conveyor (3) is equipped with dislocation carrier (4), dislocation carrier (4) one side is equipped with carrying dish (5), carrying dish (5) are connected on the output shaft of carrying dish rotary mechanism (6), be equipped with in carrying dish (5) and be used for through perforation (9) of bottle, bottle horizontal conveyor (3) one side are equipped with be used for carrying bottle push into bottle push mechanism (7) in carrying dish (5) from dislocation carrier (4), dislocation carrier (4) and carrier (5) are equipped with between the discharge end department and are equipped with sensor (8) that are used for detecting a body orientation.

2. The automatic column bottle dispenser of claim 1, wherein: the dislocation carrier (4) comprises a carrier (41) and a sliding table cylinder (42), the carrier (41) is fixed on a sliding seat of the sliding table cylinder (42), two bottle placing grooves are formed in the carrier (41), and a second sensor for detecting whether the bottle moves in place or not is arranged in the bottle placing grooves.

3. The automatic column bottle dispenser of claim 1, wherein: bottle pushing mechanisms (7) are arranged on the left side and the right side of the bottle horizontal conveyor (3), the bottle pushing mechanisms (7) are composed of a single-rod air cylinder and a pushing block, and the pushing block is fixed at the piston rod end of the single-rod air cylinder.

4. The automatic column bottle dispenser of claim 1, wherein: the bottle horizontal conveyor (3) is a belt conveyor.

5. The automatic column bottle dispenser of claim 1, wherein: the carrier disc rotating mechanism (6) is a servo motor.

6. The automatic column bottle dispenser of claim 1, wherein: the bottle lifting feeder (2) consists of a frame (21), a motor (22), a connecting rod (23), a step-type moving part (24) and a step-type fixing part (25), wherein the step-type fixing part (25) is fixed on the frame (21), the step-type moving part (24) is connected to the frame (21) in a sliding fit mode, a disc is fixed on an output shaft of the motor (22), an eccentric shaft is arranged on the disc, a connecting plate is fixed on the eccentric shaft, the connecting plate is rotationally connected to one end of the connecting rod (23), the other end of the connecting rod (23) is rotationally connected to the step-type moving part (24), the step-type moving part (24) and the step-type fixing part (25) are formed by a plurality of mutually parallel plates which are arranged in a step-type mode, and a plurality of plates of the step-type moving part (24) and a plurality of plates of the step-type fixing part (25) are arranged together in a staggered mode.