CN109051704A - A kind of bagged material conveying device of high efficiency low power consuming self-commutation - Google Patents

Abstract

The invention discloses a kind of bagged material conveying devices of high efficiency low power consuming self-commutation, it include: the first pipeline, the second pipeline, reversing mechanism and steering mechanism, wherein: the first pipeline has the first Transfer pipe, and the first Transfer pipe includes multiple shunting Transfer pipes being arranged in juxtaposition；Second pipeline is used to convey material to the first pipeline direction, and the second pipeline has the second Transfer pipe；Reversing mechanism is between the second pipeline and the first pipeline for controlling each shunting Transfer pipe alternate communication in the second Transfer pipe and the first Transfer pipe；Steering mechanism includes baffle and driving unit, and baffle is equipped with multiple, and each baffle is sequentially sequentially arranged in each side for shunting Transfer pipe, and one end of each baffle is equipped with bending part；Driving unit is for driving direction of transfer synchronous hunting of each baffle along the first Transfer pipe.The present invention can effectively improve the outflow speed of material, and can substantially reduce energy consumption.

Description

A kind of bagged material conveying device of high efficiency low power consuming self-commutation

Technical field

The present invention relates to automatic transportation technical field more particularly to a kind of bagged materials of high efficiency low power consuming self-commutation Conveying device.

Background technique

With the development of economy, production level is continuously improved, and completes in packed finished product materials such as production cement, flour Afterwards, it needs that material is delivered to predetermined position using conveying equipment, to carry out entrucking or stacking work.However existing conveying is set The standby place that still has some deficits, it would be highly desirable to improve.

Summary of the invention

Technology based on the above background, the present invention propose a kind of the packed of high efficiency low power consuming self-commutation Device for transporting objects.

The invention proposes a kind of bagged material conveying devices of high efficiency low power consuming self-commutation, comprising: the first pipeline, Second pipeline, reversing mechanism and steering mechanism, in which:

First pipeline has the first Transfer pipe, and first Transfer pipe includes multiple shunting transmission being arranged in juxtaposition Channel；

Second pipeline is located at the input terminal of the first pipeline so that for conveying material to the first pipeline direction, second is defeated Line sending has the second Transfer pipe, and the transmission speed of the second pipeline is greater than the transmission conveying of the first pipeline；

Reversing mechanism is between the second pipeline and the first pipeline to pass for controlling the second Transfer pipe and first Send each shunting Transfer pipe alternate communication in channel；

Steering mechanism includes baffle and driving unit, and the baffle is equipped with multiple, and each baffle is sequentially sequentially arranged in each point Flow Transfer pipe side, and each baffle close to one end of the secondth pipeline respectively with it is corresponding shunt Transfer pipe side Rotation connection, each baffle are all provided with the oriented corresponding bending for shunting the bending of Transfer pipe direction far from one end of the second pipeline Portion；Driving unit is connect respectively with each baffle by interlocking bar and passes through the movement of driving interlocking bar to drive each baffle to pass along first Send the direction of transfer synchronous hunting in channel.

Preferably, reversing mechanism includes transfer station, roof beam structure, movable plate and power unit；Transfer station is located at the first pipeline It is docked between the second pipeline and respectively with the second pipeline and the first pipeline, transfer station is equipped with the first backplate and second Backplate, the first backplate and the second backplate are positioned opposite and be reserved with spacing between to form material passing passage, and the punishment in advance The both ends in channel are connected to the first Transfer pipe and the second Transfer pipe respectively；Roof beam structure is located at the top of material passing passage and fixation； Movable plate is located inside material passing passage and arranges along the extending direction of material passing passage, and movable plate is close to the one of the first Transfer pipe End is flexibly connected with portal frame；Power unit is fixedly mounted on roof beam structure, and power unit is connect for driving work with movable plate Movable plate is swung along the extending direction of material passing passage.

Preferably, movable plate is equipped with multiple, and each movable plate is respectively connected with an independent power unit.

Preferably, transfer station include several from the second pipeline to the transfer roller of the first pipeline direction arranged, For driving the power mechanism of each transfer roller rotation, positioned at each transfer roller lower section for being supported frame to each transfer roller；The One backplate and the second backplate are fixedly connected with roof beam structure respectively.

Preferably, baffle includes overhead gage and lower baffle plate, and overhead gage is arranged up and down with lower baffle plate and reserved between There is spacing.

Preferably, push plate is equipped in the spacing between overhead gage and lower baffle plate, the push plate is close to one end of the second pipeline It is connect with flapper；Steering mechanism includes driving auxiliary unit, and the driving auxiliary unit is connect for driving with push plate Push plate plate is swung along the direction of transfer of the first Transfer pipe.

Preferably, it is equipped with vertical arrangement between the bending part of overhead gage and the bending part of lower baffle plate and is rotatablely connected with the two Directive wheel, and the directive wheel is located at the outside of bending part end close to the side of bending part end；Overhead gage is equipped with driving Mechanism, driving mechanism are connect for driving the directive wheel to rotate and making the rotation direction of directive wheel and the first conveying with directive wheel The conveying direction of line is opposite.

Preferably, the inside of directive wheel is equipped with abdominal cavity, and the side wall of directive wheel is equipped with several through-holes being respectively connected to abdominal cavity； It further include the dust sucting pipeline being connected to abdominal cavity.

In the present invention, by the way that the first Transfer pipe in the first pipeline is arranged to multiple shunting Transfer pipes arranged side by side Structure, and reversing mechanism is set between the first pipeline and the second pipeline, with utilization so that second in the second pipeline Each shunting Transfer pipe alternate communication in Transfer pipe and the first pipeline in the first Transfer pipe, so that the first pipeline The material conveyed can respectively enter in each shunting Transfer pipe, to realize automatic shunt, accelerate transmission speed and ensure Shunt the purpose that spacing is automatically formed between each material in Transfer pipe.Meanwhile by by each gear in steering mechanism Plate be sequentially arranged in it is each shunt Transfer pipe side, and make each baffle close to one end of the second pipeline respectively with corresponding point The side rotation connection of Transfer pipe is flowed, it is logical that the one end of each baffle far from the first pipeline is respectively equipped with corresponding shunting transmission The bending part of road direction bending makes between each baffle by can be with synchronous hunting, so that each gear under the driving of driving unit The end of bending part in plate can be protruded into simultaneously in the corresponding transmission trajectory line for shunting Transfer pipe, in the course of work, when The end of bending part in each baffle is protruded into the corresponding transmission trajectory line for shunting Transfer pipe, each to shunt in Transfer pipe bag Dress material along its transmit trajectory line forward movement along, when obstruction of the bag angle by bending part in bagged material When, the interrupted one side stop motion of the bagged material, but its another side continues to move under the action of the second pipeline, thus So that the bagged material generates unilateral rotation, so that the bagged material can produce 90 ° of go to actions.Therefore, which fills It sets and conveys material into each split channel simultaneously using a strip transmission line and to draw automatically between the material in each split channel Distance is opened, can effectively improve the outflow speed of material；It can be controlled simultaneously using driving unit and each baffle fit simultaneously more The synchronous steering of material in a split channel, can substantially reduce energy consumption, and improve working efficiency.

Detailed description of the invention

Fig. 1 is a kind of structural representation of the bagged material conveying device of high efficiency low power consuming self-commutation proposed by the present invention Figure；

Fig. 2 is turning machine described in a kind of bagged material conveying device of high efficiency low power consuming self-commutation proposed by the present invention The structural schematic diagram of structure.

Specific embodiment

In the following, technical solution of the present invention is described in detail by specific embodiment.

As shown in Figs. 1-2, Fig. 1 is a kind of bagged material conveying device of high efficiency low power consuming self-commutation proposed by the present invention Structural schematic diagram；Fig. 2 is described in a kind of bagged material conveying device of high efficiency low power consuming self-commutation proposed by the present invention The structural schematic diagram of steering mechanism.

Referring to Fig.1-2, a kind of bagged material conveying device for high efficiency low power consuming self-commutation that the embodiment of the present invention proposes, It include: the first pipeline 1, the second pipeline 2, reversing mechanism and steering mechanism, in which:

First pipeline 1 has the first Transfer pipe, and first Transfer pipe includes that multiple shuntings being arranged in juxtaposition pass Send channel；Second pipeline 2 be located at the input terminal of the first pipeline 1 with for 1 direction of the first pipeline convey material, second Pipeline 2 has the second Transfer pipe, and the transmission speed of the second pipeline 2 is greater than the transmission conveying of the first pipeline 1.Commutation Mechanism is between the second pipeline 2 and the first pipeline 1 for controlling in the second Transfer pipe and the first Transfer pipe It is each to shunt Transfer pipe alternate communication.Steering mechanism includes baffle 3 and driving unit, and the baffle 3 is equipped with multiple, each baffle 3 Sequentially be sequentially arranged in it is each shunt Transfer pipe side, and each baffle 3 close to one end of the secondth pipeline 2 respectively with it is corresponding Shunting Transfer pipe side rotation connection, each baffle 3 is all provided with oriented corresponding shuntings biography far from one end of the second pipeline 2 Send the bending part of channel direction bending；Driving unit is connect respectively with each baffle 3 by interlocking bar and is moved by driving interlocking bar Make to drive each baffle 3 along the direction of transfer synchronous hunting of the first Transfer pipe.

The present invention operates in such a way: multiple arranged side by side by the way that the first Transfer pipe in the first pipeline 1 to be arranged to Transfer pipe structure is shunted, and reversing mechanism is set between the first pipeline 1 and the second pipeline 2, to utilize so that second Each shunting Transfer pipe alternate communication in the second Transfer pipe and the first pipeline 1 in pipeline 2 in first Transfer pipe, So that the material that the first pipeline 1 is conveyed can respectively enter in each shunting Transfer pipe, to realize automatic shunt, add Fast transmission speed simultaneously ensures to shunt the purpose that spacing is automatically formed between each material in Transfer pipe.Meanwhile pass through by Each baffle 3 in steering mechanism is sequentially arranged in each side for shunting Transfer pipe, and makes each baffle 3 close to the second pipeline 2 One end be rotatablely connected respectively with the corresponding side for shunting Transfer pipe, each baffle 3 divides equally far from one end of the first pipeline 1 Not She You it is corresponding shunt the bending of Transfer pipe direction bending part, make between each baffle 3 by under the driving of driving unit It can be with synchronous hunting, so that the end of the bending part in each baffle 3 can protrude into the corresponding biography for shunting Transfer pipe simultaneously It send in trajectory line, in the course of work, when the corresponding transmission rail for shunting Transfer pipe is protruded into the end of the bending part in each baffle 3 On trace, each dress material shunted in Transfer pipe bag transmits in trajectory line forward movement along it, when in bagged material When obstruction of one bag angle by bending part, the interrupted one side stop motion of the bagged material, but its another side is defeated second Continue to move under the action of line sending 2, so that the bagged material generates unilateral rotation, so that the bagged material can produce 90 ° of go to actions.

From the foregoing, it will be observed that a kind of device for transporting objects of efficiency low power consuming self-commutation proposed by the invention is by utilizing one Pipeline conveys material into each split channel simultaneously and to space out automatically between material in each split channel, can be with Effectively improve the outflow speed of material；Meanwhile by the way that multiple shuntings can be controlled simultaneously using driving unit and the cooperation of each baffle 3 The synchronous steering of material in channel, can substantially reduce energy consumption, and improve working efficiency.

In addition, reversing mechanism includes transfer station 4, roof beam structure 5, movable plate 6 and power unit in the present embodiment；Transfer station 4 It is docked between the first pipeline 1 and the second pipeline 2 and respectively with the second pipeline 2 and the first pipeline 1, in transfer station 4 Equipped with the first backplate 7 and the second backplate 8, the first backplate 7 and the second backplate 8 it is positioned opposite and be reserved between spacing with Material passing passage is formed, and the both ends of the material passing passage are connected to the first Transfer pipe and the second Transfer pipe respectively；Roof beam structure 5 is located at The top of material passing passage and fixation；Movable plate 6 is located inside material passing passage and arranges along the extending direction of material passing passage, and activity Plate 6 is flexibly connected close to one end of the first Transfer pipe with portal frame；Power unit is fixedly mounted on roof beam structure 5, power unit It is connect with movable plate 6 for driving movable plate 6 to swing along the extending direction of material passing passage.In the course of work, pass through power list Member driving movable plate 6 swing so that the second Transfer pipe respectively with each shuntings Transfer pipe alternate communication so that first convey The material of conveying described in line 1 can respectively enter in each shunting Transfer pipe.

In the present embodiment, movable plate 6 is equipped with multiple, and each movable plate 6 is respectively connected with an independent power unit.

In the present embodiment, transfer station 4 includes several from the second pipeline 2 to 1 direction arranged of the first pipeline Transfer roller, the power mechanism for driving the rotation of each transfer roller, below each transfer roller for propping up each transfer roller Support；First backplate 7 and the second backplate 8 are fixedly connected with roof beam structure 5 respectively.In order to which part material is smoothly sent to corresponding point It flows in Transfer pipe.

Referring to Fig. 2, baffle 3 includes overhead gage 31 and lower baffle plate 32, and overhead gage 31 and about 32 lower baffle plate are arranged and two Spacing is reserved between person, to improve backgauge effect.

Referring to Fig. 2, push plate 9 is equipped in the spacing between overhead gage 31 and lower baffle plate 32, the push plate 9 is close to the second pipeline 2 one end and baffle 3 are rotatablely connected；Steering mechanism include driving auxiliary unit, the driving auxiliary unit connect with push plate 9 with For driving 9 plate of push plate to swing along the direction of transfer of the first Transfer pipe.In the course of work, when bagged material is in the resistance of bending part It is logical to transmission is shunted between overhead gage 31 and lower baffle plate 32 using driving auxiliary unit driving push plate 9 when lower generation being hindered to rotate Road direction is released, regular to assist reversible deflector 3 to realize 90 ° of steerings of cement packet and carry out to the Bag Material material, while making this The limitation that bagged material is detached from bending part, which retransfers, trajectory line and to be continued to forward.

Be equipped in the present embodiment, between the bending part of overhead gage 31 and the bending part of lower baffle plate 32 vertical arrangement and with the two The directive wheel of rotation connection, and the directive wheel is located at the outside of bending part end close to the side of bending part end；Overhead gage 31 It is equipped with driving mechanism 10, driving mechanism 10 is connect for driving the directive wheel to rotate and making the rotation of directive wheel with directive wheel Direction is opposite with the conveying direction of the first pipeline 1.When the setting of the structure is so that Bag Material and bending part contact, the guiding of rotation Take turns and apply the thrust opposite with 1 conveying direction of the first pipeline to the side of the Bag Material so that the both ends of the Bag Material respectively by To the conveying capacity of the first pipeline 1 and the motive force of directive wheel, and the force direction of the two to further increase on the contrary, turn To effect.

In the present embodiment, the inside of directive wheel is equipped with abdominal cavity, and the side wall of directive wheel, which is equipped with, several to be respectively connected to abdominal cavity Through-hole；It further include the dust sucting pipeline being connected to abdominal cavity, so that the dust that generates when colliding directive wheel of Bag Material can quick quilt Suck intraperitoneal, to generate when hitting directive wheel to avoid Bag Material dust loss everywhere.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (8)

1. a kind of bagged material conveying device of high efficiency low power consuming self-commutation characterized by comprising the first pipeline (1), Second pipeline (2), reversing mechanism and steering mechanism, in which:

First pipeline (1) has the first Transfer pipe, and first Transfer pipe includes multiple shunting transmission being arranged in juxtaposition Channel；

Second pipeline (2) be located at the input terminal of the first pipeline (1) with for the first pipeline (1) direction convey material, Second pipeline (2) has the second Transfer pipe, and the transmission speed of the second pipeline (2) is greater than the biography of the first pipeline (1) Send conveying；

Reversing mechanism is between the second pipeline (2) and the first pipeline (1) for controlling the second Transfer pipe and first Each shunting Transfer pipe alternate communication in Transfer pipe；

Steering mechanism includes baffle (3) and driving unit, and the baffle (3) is equipped with multiple, and each baffle (3) is sequentially sequentially arranged in Each side for shunting Transfer pipe, and each baffle (3) is transmitted with corresponding shunting respectively close to one end of the secondth pipeline (2) The side in channel is rotatablely connected, and each baffle (3) is all provided with oriented corresponding shunting Transfer pipe far from the one end of the second pipeline (2) The bending part of direction bending；Driving unit by interlocking bar connect respectively with each baffle (3) and by driving interlocking bar act with Drive each baffle (3) along the direction of transfer synchronous hunting of the first Transfer pipe.

2. the bagged material conveying device of high efficiency low power consuming self-commutation according to claim 1, which is characterized in that commutation Mechanism includes transfer station (4), roof beam structure (5), movable plate (6) and power unit；Transfer station (4) is located at the first pipeline (1) and the It is docked between two pipelines (2) and respectively with the second pipeline (2) and the first pipeline (1), transfer station (4) is equipped with the first shield Plate (7) and the second backplate (8), the first backplate (7) and the second backplate (8) are positioned opposite and be reserved with spacing between with shape At material passing passage, and the both ends of the material passing passage are connected to the first Transfer pipe and the second Transfer pipe respectively；Roof beam structure (5) is located at The top of material passing passage and fixation；Movable plate (6) is located inside material passing passage and arranges along the extending direction of material passing passage, and living Movable plate (6) is flexibly connected close to one end of the first Transfer pipe with portal frame；Power unit is fixedly mounted on roof beam structure (5), is moved Power unit is connect for driving movable plate (6) to swing along the extending direction of material passing passage with movable plate (6).

3. the bagged material conveying device of high efficiency low power consuming self-commutation according to claim 2, which is characterized in that activity Plate (6) is equipped with multiple, and each movable plate (6) is respectively connected with an independent power unit.

4. the bagged material conveying device of high efficiency low power consuming self-commutation according to claim 2, which is characterized in that transmission Platform (4) includes several from the second pipeline (2) to the transfer roller of the first pipeline (1) direction arranged, each for driving The power mechanism of transfer roller rotation, below each transfer roller for being supported frame to each transfer roller；First backplate (7) and Second backplate (8) is fixedly connected with roof beam structure (5) respectively.

5. the bagged material conveying device of high efficiency low power consuming self-commutation according to claim 1, which is characterized in that baffle It (3) include overhead gage (31) and lower baffle plate (32), overhead gage (31) is arranged up and down with lower baffle plate (32) and reserved between There is spacing.

6. the bagged material conveying device of high efficiency low power consuming self-commutation according to claim 5, which is characterized in that upper gear Be equipped with push plate (9) in spacing between plate (31) and lower baffle plate (32), the push plate (9) close to the second pipeline (2) one end with Baffle (3) rotation connection；Steering mechanism includes driving auxiliary unit, and the driving auxiliary unit is connect with push plate (9) to be used for Push plate (9) plate is driven to swing along the direction of transfer of the first Transfer pipe.

7. the bagged material conveying device of high efficiency low power consuming self-commutation according to claim 5, which is characterized in that upper gear Vertical arrangement and the directive wheel with the two rotation connection are equipped between the bending part of plate (31) and the bending part of lower baffle plate (32), and The directive wheel is located at the outside of bending part end close to the side of bending part end；Overhead gage (31) is equipped with driving mechanism (10), driving mechanism (10) is connect for driving the directive wheel to rotate and making the rotation direction and first of directive wheel with directive wheel The conveying direction of pipeline (1) is opposite.

8. the bagged material conveying device of high efficiency low power consuming self-commutation according to claim 7, which is characterized in that guiding The inside of wheel is equipped with abdominal cavity, and the side wall of directive wheel is equipped with several through-holes being respectively connected to abdominal cavity；It further include being connected to abdominal cavity Dust sucting pipeline.