CN111942628A

CN111942628A - Automatic loading and sagger grabbing system for sagger

Info

Publication number: CN111942628A
Application number: CN202010962672.6A
Authority: CN
Inventors: 谢广全; 李红正; 陈永平; 梅新军; 吴三清; 王选栋; 许秀娥; 薛东兴; 毋再飞; 侯小娜; 杨成娃
Original assignee: Hejin Zhuojing Nano Material Co Ltd
Current assignee: Hejin Zhuojing Nano Material Co Ltd
Priority date: 2020-09-14
Filing date: 2020-09-14
Publication date: 2020-11-17

Abstract

The invention belongs to the technical field of chemical production, and provides a sagger automatic loading and grabbing system, which realizes the full automation of loading and conveying, improves the production efficiency and reduces the labor cost; the technical scheme is as follows: the full-material sagger loading mechanism comprises a bin frame, a longitudinal rail, a transverse beam rail, a vertical positioning rail and a mechanical box grabbing hand; according to the automatic loading device, the reasonable structures of the loading mechanism, the empty box conveying mechanism, the loading conveying mechanism, the full-material sagger conveying mechanism and the sagger loading mechanism are connected and matched for use, so that automatic filler conveying and loading of empty saggers are realized.

Description

Automatic loading and sagger grabbing system for sagger

Technical Field

The invention discloses a sagger automatic loading and grabbing system, belongs to the technical field of chemical production, and particularly relates to a loading and conveying system for powder contained in a sagger before calcination.

Background

In chemical production, a process of calcining powder is often required, for example, a-alumina powder is calcined in ceramic production, when the powder is calcined, the powder needs to be filled in a sagger, stacked on a kiln car and pushed into a calcining kiln for calcining, and at present, the filler is basically monitored and carried to the kiln car manually, so that the working efficiency is slow, and a large amount of labor cost is wasted. Therefore, the automation of loading and carrying the saggars is needed to be realized, so that the overall production efficiency is improved, and the labor cost is saved.

Disclosure of Invention

The invention overcomes the defects of the prior art, and solves the technical problems that: the automatic loading and grabbing system for the saggars has the advantages that the full automation of loading and conveying is realized, the production efficiency is improved, and the labor cost is reduced.

In order to solve the technical problems, the invention adopts the technical scheme that: the automatic loading and grabbing system for the saggars comprises a loading mechanism, an empty box conveying mechanism, a loading conveying mechanism, a full-loading saggar conveying mechanism and a saggar loading mechanism;

the feeding mechanism comprises a bin, a screw feeder and a distributing hopper, the bin is fixed on the ground through a frame body, the screw feeder is mounted on an outlet at the bottom end of the bin, the distributing hopper is fixedly mounted on the ground below the bin through a support, an outlet of the screw feeder is correspondingly communicated with an inlet of the distributing hopper, and a uniform-speed feeder and a feeding electromagnetic valve are arranged at an outlet at the lower end of the distributing hopper;

the empty box conveying mechanism comprises a first belt conveyor, and a rack of the first belt conveyor is fixed on the ground through a plurality of vertical frames;

the loading and conveying mechanism comprises a roller conveyor and a filler tamping device, a rack of the roller conveyor is fixed on the ground below the material distribution hopper through a plurality of vertical frames, an outlet of the material distribution hopper corresponds to the middle part of the roller conveyor, a sagger in-place monitor is mounted on the rack of the roller conveyor and corresponds to the lower part of the outlet of the material distribution hopper, the filler tamping device is fixedly mounted in the middle part of the roller conveyor and is positioned right below the material distribution hopper, and an inlet end of the roller conveyor corresponds to an outlet end of the first belt conveyor;

the full-material sagger conveying mechanism comprises a second belt conveyor, a rack of the second belt conveyor is fixed on the ground through a plurality of vertical frames, the inlet end of the second belt conveyor corresponds to the outlet end of the roller conveyor, the outlet end of the second belt conveyor is provided with a barrier, and a monitor to be loaded in place is mounted on the barrier;

the sagger loading mechanism comprises a bin frame, longitudinal row rails, a cross beam rail, a vertical positioning rail and a mechanical claw box hand, wherein the bin frame comprises four upright posts and four connecting beams which are sequentially connected with the top ends of the upright posts, the bottom ends of the four upright posts of the bin frame are fixed on the ground on the outlet side of a second belt conveyor, the two parallel connecting beams are respectively provided with the longitudinal row rails, the two ends of the cross beam rail are respectively and movably arranged on the two longitudinal row rails, the cross beam rail is movably provided with a support and a vertical positioning rail fixedly arranged on the support, and the upper end of the mechanical claw box hand is movably arranged on the vertical positioning rail.

The packing tamping device comprises a bottom plate, a lifting cylinder, a middle plate, a vibrating spring, a top plate, a vibrating motor and a supporting plate, wherein the bottom plate is fixed below the roller conveyor, a cylinder body of the lifting cylinder is fixed on the bottom plate, the middle plate is vertically upwards fixed at the end of a piston rod of the lifting cylinder, the top plate is installed above the middle plate through a plurality of vibrating springs in a connected mode, the vibrating motor is installed on the bottom surface of the top plate, a plurality of supporting plates are vertically installed on the top surface of the top plate, and the upper ends of the supporting plates are inserted into adjacent roller gaps of the roller conveyor.

And a plurality of supporting springs are connected between the bottom plate and the middle plate.

The mechanical gripper comprises a mechanical arm, a gripper fixing frame, a telescopic cylinder, a connecting rod, a fixing disc, a lifting chassis, two rods, a gripper finger and a pull rod, wherein the upper end of the mechanical arm is movably arranged on a vertical positioning track, the gripper fixing frame is arranged on one side of the lower end of the mechanical arm, the telescopic cylinder is arranged on the gripper fixing frame, a piston rod of the telescopic cylinder penetrates through the lower part of the gripper fixing frame and is fixedly connected with the connecting rod at the end part, the fixing disc is fixed below the gripper fixing frame through a plurality of thin rods, a telescopic through hole is formed in the center of the fixing disc, the lower end of the connecting rod penetrates through the telescopic, the outer fringe of fixed disk articulates through two poles respectively has the grabbing of three at least L type to indicate, two pole upper ends of two poles all articulate in the fixed disk outer fringe and its lower extreme all articulates in grabbing and indicating the upper end, and a pole middle part that is close to the lift chassis in two poles is articulated mutually with the lift chassis outer fringe through the pull rod.

And a sucker plate is fixed on the inner side of the lower end of each grabbing finger, and a plurality of rubber suckers are installed on the sucker plate.

The outer edge of the fixed disc is respectively hinged with four L-shaped gripping fingers through double rods.

The first belt conveyor is a plate chain conveyor.

Second belt conveyor becomes the L type setting with roller conveyor, and one side that roller conveyor exit end kept away from second belt conveyor is equipped with and pushes away the casket cylinder, the cylinder body that pushes away the casket cylinder is fixed in the roller conveyor frame and its tailpiece of the piston rod portion installs the push pedal and directional second belt conveyor entry, push away casket cylinder one side and install the work piece monitor that turns to of monitoring casket-like bowl.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the automatic conveying and loading device, the reasonable structures of the feeding mechanism, the empty box conveying mechanism, the feeding conveying mechanism, the full material box conveying mechanism and the box loading mechanism are connected and matched for use, so that automatic conveying and loading of empty boxes are realized, the production efficiency is improved, and the labor cost is reduced;

2. according to the sagger, the filler tamping device is arranged below the feeding conveying mechanism, the sagger is jacked up and separated from the surface of the roller conveyor by controlling the lifting of the device through the lifting cylinder during feeding, and the vibration motor continuously vibrates to tamp powder in the sagger during feeding, so that the firing quality is prevented from being influenced by uneven distribution of the powder in the sagger;

3. the mechanical box grabbing hand of the sagger loading mechanism adopts a multi-finger combined internal grabbing structure, is suitable for grabbing a circular sagger, is more convenient to use, and is provided with the sucker plate with the rubber sucker inside the grabbing finger, so that the adsorption capacity of the mechanical box grabbing hand is stronger, and the sagger is prevented from falling off in the grabbing process.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings;

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

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

fig. 3 is a schematic structural diagram of the mechanical gripper in the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-3, the automatic loading and grabbing system for saggars of the invention comprises a loading mechanism, an empty box conveying mechanism, a loading conveying mechanism, a full-loading saggar conveying mechanism and a saggar loading mechanism;

the feeding mechanism comprises a bin 1, a screw feeder 2 and a distributing hopper 3, wherein the bin 1 is fixed on the ground through a frame body 4, the screw feeder 2 is installed on an outlet at the bottom end of the bin 1, the distributing hopper 3 is fixedly installed on the ground below the bin 1 through a support 5, an outlet of the screw feeder 2 is correspondingly communicated with an inlet of the distributing hopper 3, and a uniform-speed feeder and a feeding electromagnetic valve are arranged at an outlet at the lower end of the distributing hopper 3;

the empty box conveying mechanism comprises a first belt conveyor 7, and a frame of the first belt conveyor 7 is fixed on the ground through a plurality of vertical frames 6;

the charging and conveying mechanism comprises a roller conveyor 8 and a filler tamping device, a rack of the roller conveyor 8 is fixed on the ground below the material distribution hopper 3 through a plurality of vertical frames 6, an outlet of the material distribution hopper 3 corresponds to the middle of the roller conveyor 8, a sagger in-place monitor is mounted on the rack of the roller conveyor 8 and corresponds to the lower part of the outlet of the material distribution hopper 3, the filler tamping device is fixedly mounted in the middle of the roller conveyor 8 and is positioned right below the material distribution hopper 3, and an inlet end of the roller conveyor 8 corresponds to an outlet end of the first belt conveyor 7;

the full-material sagger conveying mechanism comprises a second belt conveyor 9, a frame of the second belt conveyor 9 is fixed on the ground through a plurality of vertical frames 6, the inlet end of the second belt conveyor 9 corresponds to the outlet end of the roller conveyor 8, the outlet end of the second belt conveyor 9 is provided with a barrier, and a monitor to be loaded in place is mounted on the barrier;

the sagger loading mechanism comprises a bin frame 10, longitudinal rows of rails 11, a cross beam rail 12, vertical positioning rails 13 and a mechanical box grabbing hand, wherein the bin frame 10 comprises four connecting beams which are sequentially connected with the top ends of four stand columns, the bottom ends of the four stand columns of the bin frame 10 are fixed on the ground on the outlet side of a second belt conveyor 9, the two parallel connecting beams are respectively provided with the longitudinal rows of rails 11, the two ends of the cross beam rail 12 are respectively and movably installed on the two longitudinal rows of rails 11, a support is movably installed on the cross beam rail 12, the vertical positioning rails 13 are fixedly installed on the support, and the upper end of the mechanical box grabbing hand is movably installed on the vertical positioning rails 13.

The packing tamping device comprises a bottom plate 14, a lifting cylinder 15, a middle plate 16, a vibration spring 17, a top plate 18, a vibration motor 19 and supporting plates 20, wherein the bottom plate 14 is fixed below the roller conveyor 8, a cylinder body of the lifting cylinder 15 is fixed on the bottom plate 14, a piston rod of the lifting cylinder 15 vertically faces upwards and is fixedly provided with the middle plate 16 at the end part, the top plate 18 is connected and installed above the middle plate 16 through a plurality of vibration springs 17, the vibration motor 19 is installed on the bottom surface of the top plate 18, the supporting plates 20 are vertically installed on the top surface of the top plate 18, and the upper ends of the supporting plates 20 are inserted into adjacent roller gaps of the roller conveyor 8.

A plurality of support springs 21 are connected between the bottom plate 14 and the middle plate 16.

The mechanical box grabbing hand comprises a mechanical arm 22, a hand grab fixing frame 23, a telescopic cylinder 24, a connecting rod 25, a fixed disc 26, a lifting chassis 27, a double-rod 28, grabbing fingers 29 and a pull rod 30, wherein the upper end of the mechanical arm 22 is movably mounted on a vertical positioning rail 13, the hand grab fixing frame 23 is mounted on one side of the lower end of the mechanical arm 22, the telescopic cylinder 24 is mounted on the hand grab fixing frame 23, a piston rod of the telescopic cylinder 24 penetrates below the hand grab fixing frame 23 and is fixedly connected with the connecting rod 25 at the end part, the fixed disc 26 is fixed below the hand grab fixing frame 23 through a plurality of thin rods, a telescopic through hole is formed in the center of the fixed disc 26, the lower end of the connecting rod 25 penetrates through the telescopic through hole to extend below the fixed disc 26 and is fixed with the lifting chassis 27 at the end part, the outer edge of the fixed disc 26 is hinged with at least three L-shaped, the middle part of one of the double rods 28 close to the lifting chassis 27 is hinged with the outer edge of the lifting chassis 27 through a pull rod 30.

A sucker plate 31 is fixed on the inner side of the lower end of the grabbing finger 29, and a plurality of rubber suckers 32 are installed on the sucker plate 31.

The outer edge of the fixed disk 26 is hinged with four L-shaped gripping fingers 29 through double rods 28.

The first belt conveyor 7 is a plate chain conveyor.

Second belt conveyor 9 and roller conveyor 8 become the setting of L type, and the 8 exit ends of roller conveyor one side of keeping away from second belt conveyor 9 is equipped with and pushes away a casket cylinder, the cylinder body that pushes away a casket cylinder is fixed in roller conveyor 8 frames and its piston rod tip installs the push pedal and directional second belt conveyor 9 entry, push away a work piece monitor that waits to turn to that casket cylinder one side installed the monitoring casket bowl.

The working process is as follows:

1. the empty saggars are placed on the first belt conveyor 7, the first belt conveyor 7 drives the empty saggars to be conveyed to the roller conveyor 8, the roller conveyor 8 conveys the empty saggars to the position right below the outlet of the material distribution hopper 3, the saggar in-place monitor monitors that the saggars are arranged below the material distribution hopper 3 and feeds the saggars back to the main controller, and the main controller commands the first belt conveyor 7 and the roller conveyor 8 to stop conveying;

2. the piston rod of the lifting cylinder 15 extends out, the whole filling tamping device rises, the support plate 20 jacks the saggar upwards from the gap of the roller, the vibration motor 19 is started to drive the top plate 18 and the support plate 20 on the top plate to vibrate, the saggar vibrates along with the top plate, meanwhile, the blanking electromagnetic valve of the distribution hopper 3 is opened and blanks are discharged into the saggar at a constant speed, the filling is tamped more uniformly by the vibration of the saggar, the blanking electromagnetic valve of the distribution hopper 3 is closed after blanking for a certain time, the saggar is filled with quantitative powder, the vibration motor 19 stops vibrating, the piston rod of the lifting cylinder 15 retracts at the same time, the saggar filled with the filling falls back to the upper surface of the roller conveyor 8, and the roller conveyor 8 and the first belt;

3. the sagger loaded with the materials is conveyed to the outlet end of the roller conveyor 8, as shown in fig. 1, the second belt conveyor 9 and the roller conveyor 8 are arranged in an L shape, when a workpiece monitor which turns to detects the sagger, a piston rod of a box pushing cylinder extends out, and the sagger is pushed to the second belt conveyor 9 through a push plate;

4. when the saggars are conveyed to the outlet of the second belt conveyor 9, the saggars are blocked and positioned by the blocking fence, the to-be-loaded vehicle in-place monitors mounted on the blocking fence monitor the saggars and feed the saggars back to the main controller, the main controller commands the second belt conveyor 9 to stop and the saggar loading mechanism to start, fixed-point positioning, grabbing and placing are achieved through movement of the mechanical box grabbing hand on the longitudinal-row rails 11, the cross-beam rails 12 and the vertical positioning rails 13, the specific placing method is achieved through software, specific description is not given, when the saggars are grabbed away, the to-be-loaded vehicle in-place monitors feed vacancy information back to the main controller, and the main controller sends commands to enable the second belt conveyor 9 to.

The mechanical box grabbing hand drives the connecting rod 25 to ascend through the telescopic cylinder 24, so that the lifting chassis 27 and the pull rod 30 at the lower end of the mechanical box grabbing hand pull the double rods 28 on the grabbing fingers 29, the grabbing fingers 29 are driven by the lower ends of the double rods to draw close inwards due to the fixed point hinge of the upper ends of the double rods 28, meanwhile, due to the special connecting structure of the double rods 28, the grabbing fingers 29 can grab central objects more reliably, and the sucking disc plates with rubber sucking heads on the inner sides of the grabbing fingers 29 have stronger adsorption capacity, so that a saggar is prevented from falling off in the grabbing process.

In fact, the present invention may also be used to put knitted gloves on the gripping fingers 29 to enhance the gripping friction.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. Automatic loading of sagger and grab sagger system, its characterized in that: the automatic loading device comprises a loading mechanism, an empty box conveying mechanism, a loading conveying mechanism, a full-material sagger conveying mechanism and a sagger loading mechanism;

the feeding mechanism comprises a storage bin (1), a screw feeder (2) and a distributing hopper (3), the storage bin (1) is fixed on the ground through a frame body (4), the screw feeder (2) is mounted on an outlet at the bottom end of the storage bin (1), the distributing hopper (3) is fixedly mounted on the ground below the storage bin (1) through a support (5), an outlet of the screw feeder (2) is correspondingly communicated with an inlet of the distributing hopper (3), and a uniform-speed feeder and a feeding electromagnetic valve are arranged at an outlet at the lower end of the distributing hopper (3);

the empty box conveying mechanism comprises a first belt conveyor (7), and a frame of the first belt conveyor (7) is fixed on the ground through a plurality of vertical frames (6);

the charging and conveying mechanism comprises a roller conveyor (8) and a filler tamping device, a rack of the roller conveyor (8) is fixed on the ground below the distributing hopper (3) through a plurality of vertical frames (6), an outlet of the distributing hopper (3) corresponds to the middle of the roller conveyor (8), a sagger in-place monitor is mounted on the rack of the roller conveyor (8) and corresponds to the lower part of the outlet of the distributing hopper (3), the filler tamping device is fixedly mounted in the middle of the roller conveyor (8) and is positioned right below the distributing hopper (3), and an inlet end of the roller conveyor (8) corresponds to an outlet end of the first belt conveyor (7);

the full-material sagger conveying mechanism comprises a second belt conveyor (9), a frame of the second belt conveyor (9) is fixed on the ground through a plurality of vertical frames (6), the inlet end of the second belt conveyor (9) corresponds to the outlet end of the roller conveyor (8), the outlet end of the second belt conveyor (9) is provided with a barrier, and a monitor to be loaded in place is mounted on the barrier;

sagger loading mechanism includes storehouse frame (10), indulge row track (11), crossbeam track (12), vertical positioning track (13) and mechanical claw casket hand, storehouse frame (10) include four even roof beams that four stands and stand top connected gradually, four stand bottom fixings of storehouse frame (10) are subaerial at second belt conveyor (9) outlet side, wherein install one on two parallel relative even roof beams respectively and indulge row track (11), the both ends of crossbeam track (12) are movable mounting respectively on two are indulged row track (11), movable mounting has vertical positioning track (13) on support and the support on crossbeam track (12), mechanical claw casket hand upper end movable mounting is on vertical positioning track (13).

2. A saggar automated loading and grasping saggar system according to claim 1, characterized in that: the packing tamping device comprises a bottom plate (14), a lifting cylinder (15), a middle plate (16), a vibration spring (17), a top plate (18), a vibration motor (19) and supporting plates (20), wherein the bottom plate (14) is fixed below the roller conveyor (8), a cylinder body of the lifting cylinder (15) is fixed on the bottom plate (14), a piston rod of the lifting cylinder (15) vertically upwards is fixed with the middle plate (16) at the end part, the top of the middle plate (16) is connected with and provided with the top plate (18) through a plurality of vibration springs (17), the vibration motor (19) is arranged on the bottom surface of the top plate (18), a plurality of supporting plates (20) are vertically arranged on the top surface of the top plate (18), and the upper ends of the supporting plates (20) are inserted into the adjacent roller gaps of the roller conveyor (8.

3. A saggar automated loading and grasping saggar system according to claim 2, characterized in that: a plurality of supporting springs (21) are connected between the bottom plate (14) and the middle plate (16).

4. A saggar automated loading and grasping saggar system according to claim 3, characterized in that: the mechanical gripper comprises a mechanical arm (22), a gripper fixing frame (23), a telescopic cylinder (24), a connecting rod (25), a fixed disc (26), a lifting chassis (27), two rods (28), a gripper finger (29) and a pull rod (30), wherein the upper end of the mechanical arm (22) is movably mounted on a vertical positioning rail (13), the gripper fixing frame (23) is mounted on one side of the lower end of the mechanical arm (22), the telescopic cylinder (24) is mounted on the gripper fixing frame (23), a piston rod of the telescopic cylinder (24) penetrates through the lower part of the gripper fixing frame (23) and is fixedly connected with the connecting rod (25) at the end part, the fixed disc (26) is fixed below the gripper fixing frame (23) through a plurality of thin rods, a telescopic through hole is formed in the center of the fixed disc (26), the lower end of the connecting rod (25) penetrates through the telescopic through hole to extend to, the outer fringe of fixed disk (26) articulates through two poles (28) respectively has the grabbing finger (29) of at least three L type, two pole upper ends of two poles (28) all articulate in fixed disk (26) outer fringe and its lower extreme all articulates in grabbing finger (29) upper end, and a pole middle part that is close to lift chassis (27) in two poles (28) is articulated mutually with lift chassis (27) outer fringe through pull rod (30).

5. An automated sagger charging and grappling sagger system according to claim 4, characterized in that: and a sucker plate (31) is fixed on the inner side of the lower end of the grabbing finger (29), and a plurality of rubber suckers (32) are installed on the sucker plate (31).

6. An automated sagger charging and grappling sagger system according to claim 5, characterized in that: the outer edge of the fixed disc (26) is hinged with four L-shaped gripping fingers (29) through double rods (28).

7. An automated sagger charging and grappling sagger system according to claim 6, characterized in that: the first belt conveyor (7) is a plate chain conveyor.

8. Automated sagger charging and gripping system according to any one of claims 1 to 7, characterized in that: second belt conveyor (9) and roller conveyor (8) become the L type setting, and roller conveyor (8) exit end one side of keeping away from second belt conveyor (9) is equipped with and pushes away a casket cylinder, the cylinder body that pushes away a casket cylinder is fixed in roller conveyor (8) frame and its tailpiece of the piston rod portion installs the push pedal and directional second belt conveyor (9) entry, push away a work piece monitor that waits to turn to that casket bowl is installed to casket cylinder one side.