CN114516548B - Automatic bagging machine - Google Patents

Abstract

The invention relates to an automatic bagging machine, comprising: a material channel is closed; the blanking mechanism is positioned above one side of the closed loop material channel; the discharging mechanism is positioned on the other side of the closed-loop material channel; when the box body is conveyed to the position below the discharging mechanism through the closed-loop material channel, the discharging mechanism loads materials into the box body, then the materials are continuously conveyed to one side of the discharging mechanism through the closed-loop material channel, the box body is dumped through the discharging mechanism, and the materials in the box body are loaded into a bag body in the discharging mechanism; the box transports to unloading mechanism below, packs the material into to the box in, transports to shedding mechanism one side afterwards, drives the box through shedding mechanism afterwards and emptys, pours the material in the box into the bag internal, realizes the automatic bagging-off of material.

Description

Automatic bagging machine

Technical Field

The invention relates to automation equipment, in particular to an automatic bagging machine.

Background

In the traditional material bagging process, materials are manually filled into a box body, then the box body is manually dumped, the materials in the box body are filled into a bag body, and bagging of the materials is realized, so that the working efficiency is low, and the labor intensity is high;

in conclusion, how to realize automatic bagging of materials becomes a problem which needs to be solved urgently by researchers in the field.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: how to realize the automatic bagging of materials;

the invention is an automatic bagging machine, comprising: a material channel is closed; the blanking mechanism is positioned above one side of the closed loop material channel; the discharging mechanism is positioned on the other side of the closed-loop material channel; when the box body is conveyed to the position below the discharging mechanism through the closed-loop material channel, the discharging mechanism loads materials into the box body, then the materials are continuously conveyed to one side of the discharging mechanism through the closed-loop material channel, the box body is dumped through the discharging mechanism, and the materials in the box body are loaded into a bag body in the discharging mechanism;

in the scheme, the closed-loop material channel is connected end to end, namely the box body can perform circular motion on the closed-loop material channel; the box transports to unloading mechanism below, packs the material into to the box in, transports to shedding mechanism one side afterwards, drives the box through shedding mechanism afterwards and emptys, pours the material in the box into the bag internal, realizes the automatic bagging-off of material.

In order to explain the concrete structure of the closed loop material channel, the invention adopts the closed loop material channel comprising: two first material channels which are arranged in parallel; the second material channel is positioned between the two first material channels and is positioned below the blanking mechanism; the third material channel is positioned between the two first material channels and is positioned on one side of the discharging mechanism; the first material pushing mechanism is fixed at the bottom of the first material channel and is suitable for conveying the box body to the second material channel or the third material channel; the second material pushing mechanism is fixed at the bottom of the second material channel and is suitable for conveying the box body to the first material channel; and the third material pushing mechanism is fixed at the bottom of the third material channel and clamps and positions the box body on the third material channel.

In the scheme, the closed-loop material channel is a closed-loop structure formed by connecting a first material channel, a second material channel, a first material channel and a third material channel end to end.

In order to explain the concrete structure of the first material channel, the invention adopts that the first material channel comprises: a first rack; the length direction of the first rotating rollers is perpendicular to the length direction of the first material rack and is rotatably arranged on the first material rack; the first motor is fixed on one side of the first material rack and drives the first rotating rollers to synchronously rotate through the chain wheel;

the first motor drives a plurality of first rotating rollers which are arranged in parallel and located between the two first material racks to rotate synchronously through the chain wheel.

In order to explain the concrete structure of the second material channel, the invention adopts the second material channel comprising: the second material racks are arranged perpendicular to the length direction of the first material racks, and two ends of each second material rack are connected with the two first materials respectively; the roller is rotatably arranged on the second material rack;

the second material channel is free of main power, the second material racks are arranged in a plurality of numbers, a plurality of rollers are arranged on each material rack in a rotating mode, the bottom of the box body is in contact with the rollers, and the box body moves in the second material channel.

In order to explain the concrete structure of the third material channel, the third material channel comprises: the third material rack is connected with the two first material channels; the third rotating roller is perpendicular to the length direction of the third material rack and is rotatably arranged on the third material rack;

in the scheme, the third material channel and the first material channel are consistent in structure.

How to realize the transition of the box body on the first material channel to the second material channel or the third material channel, the invention adopts the first material pushing mechanism fixed at the bottom of the first material rack; the first pushing mechanism includes: the first sliding rod is parallel to the length direction of the first rotating roller, and the end part of the first sliding rod is fixed at the bottom of the first material rack through a connecting seat; the first sliding block slides on the first sliding rod; the first push block is fixed at the top of the first sliding block and positioned between the two first rotating rollers, and the top of the first push block is higher than the top of the first rotating rollers;

in this scheme, when the box transported to first material way end, first pushing equipment work this moment, and a first ejector pad promotes a side of box under the drive of first slide bar, first slider, with the box promote in second material way or the third material way by first material way.

How to realize the movement of the box body on the second material channel, the bottom of the second material frame is fixed with a second material pushing mechanism; the second pushing mechanism includes: the second sliding rod is parallel to the length direction of the second material rack, and the end part of the second sliding rod is fixed at the bottom of the second material rack through a connecting seat; the second sliding block slides on the second sliding rod; the second pushing block is fixed at the top of the second sliding block and positioned between the two second material racks, and the top of the second pushing block is higher than the top of the second material racks;

the second pushing mechanism is consistent with the first pushing mechanism in structure and is suitable for pushing the box body to move on the second material channel or pushing the box body to the first material channel from the second material channel.

How to realize the positioning of the box body before dumping, a third material pushing mechanism is fixed at the bottom of a third material rack; the third pushing mechanism includes: the third sliding rod is parallel to the length direction of the third rotating roller, and the end part of the third sliding rod is fixed at the bottom of the third material rack through a connecting seat; the third sliding block slides on the third sliding rod; the third pushing block is fixed at the top of the third sliding block and positioned between the two third rotating rollers, and the top of the third pushing block is higher than the top of the third rotating rollers;

the structure of the third pushing mechanism is consistent with that of the first pushing mechanism, and the third pushing mechanism is suitable for pushing one side edge of the box body close to the third material channel, so that the box body can be conveniently positioned on the discharging structure.

In order to explain the concrete structure of the discharging mechanism, the discharging mechanism adopted by the invention comprises: the discharging machine frame is internally provided with a bag body; the vertical track is arranged on the inner side surface of the discharging rack; the first arc-shaped track is arranged on the inner side surface of the discharging rack and communicated with the top of the vertical track; the second arc-shaped track is arranged on the inner side surface of the discharging rack and communicated with the top of the first arc-shaped track; the connecting rod is horizontally arranged, two ends of the connecting rod are arranged in the vertical track, and a pressing block is horizontally arranged on the connecting rod; the two ends of the connecting frame are arranged in the vertical tracks, and clamping blocks are arranged on the connecting frame; the guide rod is vertically arranged, the top of the guide rod is fixedly connected with the connecting rod, and the connecting frame is connected with the guide rod in a sliding manner; the bottom of the guide rod is connected with a limiting block; the driving mechanism is suitable for driving the connecting frame to move upwards, and the clamping block is inserted into the flanging of the box body until the pressing block and the clamping block clamp the flanging of the box body; then, the connecting rod is driven to enter the tail end of the first arc-shaped track, the connecting frame enters the second arc-shaped track, and the box body is driven to turn over and topple over by taking the connecting rod as a rotating center;

actuating mechanism drives the fixture block card and establishes in the turn-ups of box, compresses tightly the turn-ups top by the briquetting afterwards and overturns, and the gyro wheel at connecting rod both ends at first gets into to interior first arc track by vertical track, and the both ends gyro wheel of link frame gets into to interior second arc track by vertical track afterwards, emptys the box, pours the material in the box into to the bag internal.

In order to explain the specific structure of the driving mechanism, the driving mechanism adopted by the invention comprises: one end of the swing arm is hinged with two sides of the rear end of the discharging rack, and the other end of the swing arm is hinged with the connecting frame through a connecting rod; one end of the air cylinder is hinged with the unloading rack, and the other end of the air cylinder is hinged with the middle part of the corresponding swing arm; the synchronous rod is connected with the two swing arms;

in the scheme, the air cylinder drives the swing arm to turn over, and then the connecting frame and the connecting rod are driven to move upwards through the connecting rod; the function of the synchronous rod is to enable the two swing arms to move synchronously.

The invention has the beneficial effects that: the invention relates to an automatic bagging machine, wherein a box body is conveyed to the lower part of a discharging mechanism, materials are loaded into the box body and then conveyed to one side of a discharging mechanism, then the box body is driven by the discharging mechanism to be poured, the materials in the box body are poured into a bag body, and the automatic bagging of the materials is realized.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a side view of the structure of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic structural view of a first material channel;

FIG. 4 is a schematic structural view of a second material channel;

FIG. 5 is a schematic structural view of a third material channel;

FIG. 6 is a schematic structural view of the first pushing mechanism or the second pushing mechanism or the third pushing mechanism;

FIG. 7 is a schematic view of the discharge mechanism;

FIG. 8 is a schematic structural view of a box body flange;

fig. 9 is a schematic structural diagram of the bottom of the closed-loop material channel.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-2, the present invention is an automatic bagging machine comprising: a closed loop material channel 1; the blanking mechanism 2 is positioned above one side of the closed-loop material channel 1; the discharging mechanism 3 is positioned on the other side of the closed-loop material channel 1; when the box body is conveyed to the position below the blanking mechanism 2 through the closed-loop material channel 1, the blanking mechanism 2 loads materials into the box body, then the box body is continuously conveyed to one side of the unloading mechanism 3 through the closed-loop material channel 1, the box body is dumped through the unloading mechanism 3, and the materials in the box body are loaded into a bag body in the unloading mechanism 3;

in the scheme, the closed-loop material channel is connected end to end, namely the box body can perform circular motion on the closed-loop material channel; the box transports to unloading mechanism below, packs the material into to the box in, transports to shedding mechanism one side afterwards, drives the box through shedding mechanism afterwards and emptys, pours the material in the box into the bag internal, realizes the automatic bagging-off of material.

As shown in fig. 2, in order to explain the specific structure of the closed-loop material channel, the present invention adopts the closed-loop material channel comprising: two first material channels 4 which are arranged in parallel; the second material channel 5 is positioned between the two first material channels 4 and is positioned below the blanking mechanism 2; the third material channel 6 is positioned between the two first material channels 4 and is positioned on one side of the discharging mechanism 3; a first pushing mechanism 100 fixed at the bottom of the first material channel 4 and adapted to convey the box body onto the second material channel 5 or the third material channel 6; a second pushing mechanism 200 fixed at the bottom of the second material channel 5 and adapted to convey the box body to the first material channel 4; and the third material pushing mechanism 300 is fixed at the bottom of the third material channel 6 and clamps and positions the box body on the third material channel 6.

In the scheme, the closed-loop material channel is a closed-loop structure formed by connecting a first material channel, a second material channel, a first material channel and a third material channel end to end.

As shown in fig. 3, in order to explain the specific structure of the first material channel, the first material channel 4 of the present invention includes: a first rack 7; the length direction of the first rotating rollers 8 is perpendicular to the length direction of the first material rack 7, and the first rotating rollers are rotatably arranged on the first material rack 7; the first motor 9 is fixed on one side of the first material rack 7 and drives the first rotating rollers 8 to rotate synchronously through a chain wheel;

the first motor drives a plurality of first rotating rollers which are arranged in parallel and located between the two first material racks to rotate synchronously through the chain wheel.

As shown in fig. 4, in order to explain the specific structure of the second material channel, the second material channel 5 of the present invention includes: the second material racks 10 are arranged perpendicular to the length direction of the first material racks 7, and two ends of each second material rack are respectively connected with the two first material channels 4; a roller 11 rotatably disposed on the second stack 10;

the second material channel is free of main power, the second material racks are arranged in a plurality of numbers, a plurality of rollers are arranged on each material rack in a rotating mode, the bottom of the box body is in contact with the rollers, and the box body moves in the second material channel.

As shown in fig. 5, in order to explain the specific structure of the third material channel, the third material channel 6 of the present invention includes: a third rack 12 connected with the two first material channels 4; the third rotating roller 13 is perpendicular to the length direction of the third rack 12 and is rotatably arranged on the third rack 12;

in the scheme, the third material channel and the first material channel are consistent in structure.

As shown in fig. 6 and 9, how to transition the box body on the first material channel to the second material channel or the third material channel is realized, the bottom of the first material frame 7 is fixed with a first material pushing mechanism 100; the first pushing mechanism includes: the first sliding rod 14 is parallel to the length direction of the first rotating roller 8, and the end part of the first sliding rod is fixed at the bottom of the first material rack 7 through a connecting seat 17; a first slider 15 sliding on the first slide bar 14; the first pushing block 16 is fixed at the top of the first sliding block 15 and positioned between the two first rotating rollers 8, and the top of the first pushing block 16 is higher than the top of the first rotating rollers 8;

in this scheme, when the box transported to first material way end, first pushing equipment work this moment, and a first ejector pad promotes a side of box under the drive of first slide bar, first slider, with the box promote in second material way or the third material way by first material way.

As shown in fig. 6 and 9, how to realize the movement of the box body on the second material path, the bottom of the second material frame 10 is fixed with a second material pushing mechanism 200; the second pushing mechanism includes: the second sliding rod is parallel to the length direction of the second material rack, and the end part of the second sliding rod is fixed at the bottom of the second material rack through a connecting seat; the second sliding block slides on the second sliding rod; the second pushing block is fixed at the top of the second sliding block and positioned between the two second material racks, and the top of the second pushing block is higher than the top of the second material racks;

the second pushing mechanism is consistent with the first pushing mechanism in structure and is suitable for pushing the box body to move on the second material channel or pushing the box body to the first material channel from the second material channel.

As shown in fig. 6 and 9, how to position the box before dumping, the bottom of the third material frame 12 is fixed with a third material pushing mechanism 300; the third pushing mechanism includes: the third sliding rod is parallel to the length direction of the third rotating roller, and the end part of the third sliding rod is fixed at the bottom of the third material rack through a connecting seat; the third sliding block slides on the third sliding rod; the third pushing block is fixed at the top of the third sliding block and positioned between the two third rotating rollers, and the top of the third pushing block is higher than the top of the third rotating rollers;

the structure of the third pushing mechanism is consistent with that of the first pushing mechanism, and the third pushing mechanism is suitable for pushing one side edge of the box body close to the third material channel, so that the box body can be conveniently positioned on the discharging structure.

As shown in fig. 7 and 8, in order to explain the specific structure of the discharging mechanism, the discharging mechanism adopted by the present invention includes: a discharge frame 18 in which a bag body is arranged; a vertical rail 19 which is arranged on the inner side surface of the discharging rack 18; the first arc-shaped track 20 is arranged on the inner side surface of the discharging rack 18 and communicated with the top of the vertical track 19; the second arc-shaped track 21 is arranged on the inner side surface of the discharging rack 18 and communicated with the top of the first arc-shaped track 20; the connecting rod 22 is horizontally arranged, two ends of the connecting rod are slidably arranged in the vertical track 19, and a pressing block 23 is horizontally arranged on the connecting rod; the two ends of the connecting frame 24 are slidably arranged in the vertical rails 19, and clamping blocks 25 are arranged on the connecting frame; the guide rod 26 is vertically arranged, the top of the guide rod 26 is fixedly connected with the connecting rod 22, and the connecting frame 24 is connected with the guide rod 26 in a sliding manner; the bottom of the guide rod 26 is connected with a limiting block 27; the driving mechanism is suitable for driving the connecting frame 24 to move upwards, and the fixture block 25 is inserted into the flanging 28 of the box body until the pressing block 23 and the fixture block 25 clamp the flanging 28 of the box body; then, the connecting rod 22 is driven to enter the tail end of the first arc-shaped track 20, the connecting frame 24 enters the second arc-shaped track 21, and the box body is driven to overturn and topple by taking the connecting rod 22 as a rotating center;

the driving mechanism drives the clamping block to be clamped in the flanging of the box body, then the pressing block presses the top of the flanging to turn over, firstly, the rollers at the two ends of the connecting rod enter the first inner arc-shaped rail from the vertical rail, then the rollers at the two ends of the connecting frame enter the second inner arc-shaped rail from the vertical rail, the box body is dumped, and materials in the box body are poured into the bag body;

the driving mechanism drives the connecting frame to ascend firstly, the clamping block is clamped in the flanging of the box body, the box body is driven by the clamping block to ascend synchronously with the connecting frame until the box body abuts against the pressing block, the pressing block and the clamping block act on the flanging of the box body together, and the box body is clamped and fixed; the fixture block is composed of a plate body which is obliquely arranged and a plurality of teeth which are arranged on the plate body, and the teeth can be clamped in the flanging of the box body.

As shown in fig. 7, in order to explain the specific structure of the driving mechanism, the present invention employs a driving mechanism including: one end of the swing arm 29 is hinged with two sides of the rear end of the discharging rack 18, and the other end is hinged with the connecting frame 24 through a connecting rod 30; one end of the air cylinder 31 is hinged with the discharging rack 18, and the other end of the air cylinder is hinged with the middle part of the corresponding swing arm 29; a synchronization lever 32 connecting the two swing arms 29;

in the scheme, the air cylinder drives the swing arm to turn over, and then the connecting frame and the connecting rod are driven to move upwards through the connecting rod; the function of the synchronous rod is to enable the two swing arms to move synchronously.

The invention relates to an automatic bagging machine, which is characterized in that when a box body is conveyed to the lower part of a discharging mechanism, materials are loaded into the box body and then conveyed to one side of a discharging mechanism, then the box body is driven by the discharging mechanism to be poured, and the materials in the box body are poured into a bag body, so that the automatic bagging of the materials is realized.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. An automatic bagging machine, comprising:

a material channel is closed;

the blanking mechanism is positioned above one side of the closed loop material channel;

the discharging mechanism is positioned on the other side of the closed-loop material channel;

when the box body is conveyed to the position below the discharging mechanism through the closed-loop material channel, the discharging mechanism loads materials into the box body, then the box body is continuously conveyed to one side of the discharging mechanism through the closed-loop material channel, the discharging mechanism is used for dumping the box body, and the materials in the box body are loaded into a bag body in the discharging mechanism;

the discharge mechanism comprises:

the discharging machine frame is internally provided with a bag body;

the vertical track is arranged on the inner side surface of the unloading rack;

the first arc-shaped track is arranged on the inner side surface of the discharging rack and communicated with the top of the vertical track;

the second arc-shaped track is arranged on the inner side surface of the discharging rack and communicated with the top of the first arc-shaped track;

the connecting rod is horizontally arranged, two ends of the connecting rod are arranged in the vertical track, and a pressing block is horizontally arranged on the connecting rod;

the two ends of the connecting frame are arranged in the vertical tracks, and clamping blocks are arranged on the connecting frame;

the guide rod is vertically arranged, the top of the guide rod is fixedly connected with the connecting rod, and the connecting frame is connected with the guide rod in a sliding manner;

the bottom of the guide rod is connected with a limiting block;

the driving mechanism is suitable for driving the connecting frame to move upwards, and the clamping block is inserted into the flanging of the box body until the pressing block and the clamping block clamp the flanging of the box body; then, the connecting rod is driven to enter the tail end of the first arc-shaped track, the connecting frame enters the second arc-shaped track, and the box body is driven to turn over and dump by taking the connecting rod as a rotating center.

2. An automatic bagging machine according to claim 1, wherein the closed loop material path comprises:

two first material channels which are arranged in parallel;

the second material channel is positioned between the two first material channels and is positioned below the blanking mechanism;

the third material channel is positioned between the two first material channels and positioned on one side of the discharging mechanism;

the first material pushing mechanism is fixed at the bottom of the first material channel and is suitable for conveying the box body to the second material channel or the third material channel;

the second material pushing mechanism is fixed at the bottom of the second material channel and is suitable for conveying the box body to the first material channel;

and the third material pushing mechanism is fixed at the bottom of the third material channel and clamps and positions the box body on the third material channel.

3. The automatic bagging machine of claim 2, wherein the first lane comprises:

a first material rack;

the length direction of the first rotating rollers is perpendicular to the length direction of the first material rack, and the first rotating rollers are rotatably arranged on the first material rack;

and the first motor is fixed on one side of the first material rack and drives the first rotating rollers to synchronously rotate through a chain wheel.

4. The automatic bagging machine of claim 2, wherein the second lane comprises:

the second material racks are perpendicular to the length direction of the first material channels, and two ends of each second material rack are respectively connected with the two first material channels;

and the roller is rotatably arranged on the second material rack.

5. The automatic bagging machine of claim 2, wherein the third lane comprises:

the third material rack is connected with the two first material channels;

and the third rotating roller is perpendicular to the length direction of the third material rack and is rotatably arranged on the third material rack.

6. The automatic bagging machine according to claim 3, wherein the first pushing mechanism is fixed at the bottom of the first rack;

the first pushing mechanism includes:

the first sliding rod is parallel to the length direction of the first rotating roller, and the end part of the first sliding rod is fixed at the bottom of the first material rack through a connecting seat;

a first slider sliding on the first slide bar;

and the first push block is fixed at the top of the first sliding block and positioned between the two first rotating rollers, and the top of the first push block is higher than the top of the first rotating rollers.

7. The automatic bagging machine according to claim 4, wherein the second pushing mechanism is fixed at the bottom of the second rack;

the second pushing mechanism includes:

the second sliding rod is parallel to the length direction of the second material rack, and the end part of the second sliding rod is fixed at the bottom of the second material rack through a connecting seat;

a second slider sliding on the second slide bar;

and the second pushing block is fixed at the top of the second sliding block and is positioned between the two second material racks, and the top of the second pushing block is higher than the top of the second material rack.

8. The automatic bagging machine of claim 5, wherein the third pushing mechanism is fixed at the bottom of the third rack;

the third pushing mechanism includes:

the third sliding rod is parallel to the length direction of the third rotating roller, and the end part of the third sliding rod is fixed at the bottom of the third material rack through a connecting seat;

a third slider sliding on the third slide bar;

and the third pushing block is fixed at the top of the third sliding block and positioned between the two third rotating rollers, and the top of the third pushing block is higher than the top of the third rotating roller.

9. An automatic bag loader as claimed in claim 1 wherein the drive mechanism comprises:

one end of the swing arm is hinged with two sides of the rear end of the discharging rack, and the other end of the swing arm is hinged with the connecting frame through a connecting rod;

one end of the air cylinder is hinged with the unloading rack, and the other end of the air cylinder is hinged with the middle part corresponding to the swing arm; and the synchronous rod is connected with the two swing arms.

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