CN210339613U - Quantitative conveying device for color steel plate paint powder components - Google Patents

Abstract

The utility model relates to a colored steel board lacquer powder component ration conveyor. The device comprises a bracket with a top plate, wherein a rotating shaft is connected on the top plate in a rotating manner, and a rotating driving assembly is connected on the bracket; the top of the rotating shaft is fixedly connected with a rotating disk, and the rotating disk is provided with a plurality of groups of storage barrels which are distributed at equal angles in the circumferential direction; each material storage barrel is provided with a feeding hole and a discharging hole, and a valve is arranged on the discharging hole; the storage barrel is connected with the rotating disc through a first weighing element; the bracket is connected with a receiving barrel through a second weighing element, and the receiving barrel is provided with a feeding hole and a discharging hole; a discharge port of the receiving barrel is connected with a discharge valve and a feeding device; the material receiving barrel is provided with a dust-raising prevention device; the dust raising prevention device comprises a flexible hose arranged on a feed inlet of the material receiving barrel, a lifting ring is fixedly connected to the top of the flexible hose, a guide rod is fixedly connected to the top of the material receiving barrel, and the lifting ring is in sliding connection with the guide rod; still include lift drive assembly. The utility model discloses title powder is accurate, efficient and operation process is clean.

Description

Quantitative conveying device for color steel plate paint powder components

Technical Field

The utility model belongs to the technical field of the coating production equipment, especially, relate to a colored steel board lacquer powder component quantitative conveyor.

Background

The color steel plate product is produced by a manufacturer on a continuous production line in a coiled manner, so the color steel plate product is also called a color coated steel plate coil. The color steel plate has the properties of high mechanical strength and easy forming of steel materials, and also has good decoration and corrosion resistance of coating materials. Color steel plates are a new material which is worried by the world at present. With the improvement of science and technology and the enhancement of environmental awareness and the improvement of the living standard of people, the color steel plate prefabricated house increasingly shows strong vitality and wide market prospect and is favored by buildings, household appliances, electromechanics, transportation, interior decoration, office appliances and other industries.

The heat insulation steel plate paint is generally prepared by mixing a plurality of raw materials. During manufacturing, different powdered raw materials are required to be mixed according to the proportion. Most of the batching processes adopt manual weighing, but the manual weighing has the defects of high labor intensity, low efficiency, large weighing error and the like. In addition, the actions of extracting and pouring powder and the like in the weighing process can generate floating dust, and the floating dust can not only hurt the health of operators, but also pollute the environment.

SUMMERY OF THE UTILITY MODEL

The utility model provides a quantitative conveying device for color steel plate paint powder components, which can accurately weigh powder, has high efficiency and clean operation process for solving the technical problems existing in the prior art

The utility model discloses a solve the technical scheme that technical problem that exists among the well-known technique took and be: a quantitative conveying device for paint powder components of a color steel plate comprises a support with a top plate, wherein a rotating shaft is rotatably connected to the top plate of the support through a rolling bearing, and a rotary driving assembly capable of driving the rotating shaft to rotate is connected to the support; the top of the rotating shaft is fixedly connected with a rotating disc which is transversely arranged, and the rotating disc is provided with a plurality of groups of storage barrels which penetrate through holes formed in the rotating disc and are circumferentially distributed at equal angles by taking the axis of the rotating shaft as a center; the top of each storage barrel is provided with a feeding hole, the bottom of each storage barrel is provided with a discharging hole, and the discharging hole of each storage barrel is connected with a valve; each storage barrel is connected with the rotating disc through a first weighing element; the bracket is connected with a receiving barrel through a second weighing element, the top of the receiving barrel is provided with a feeding hole, the bottom of the receiving barrel is provided with a discharging hole, and the feeding hole of the receiving barrel corresponds to the discharging hole of the storage barrel in position; a discharge port of the material receiving barrel is connected with a discharge valve and is connected with a feeding device through a corrugated pipe; the top of the material receiving barrel is connected with a dust-raising prevention device; the dust-raising prevention device comprises a flexible hose which is in butt joint connection with the feed inlet of the receiving barrel, the top of the flexible hose is fixedly connected with a lifting ring, the top of the receiving barrel is fixedly connected with at least two groups of guide rods which are longitudinally arranged and are positioned at the periphery of the feed inlet of the receiving barrel, and the lifting ring is in sliding connection with the guide rods through linear bearings; the top of the material receiving barrel is fixedly connected with a lifting driving component capable of driving the lifting ring to lift.

The utility model has the advantages that: the utility model provides a color plate paint powder component quantitative conveying device, compared with the prior art, the utility model discloses a set up rotary drive subassembly and rotation axis and make multiunit storage bucket can be circumferential motion around the rotation axis, and then make connect the material bucket to be located under the different storage buckets and connect the material, saved the process of artifical labour; by arranging the first weighing element and the second weighing element which are vertically distributed, the weighing numerical values of all kinds of powder can be compared, the weighing problem can be found in time, the powder weighing accuracy is improved, the problem of inaccurate weighing caused by unexpected working conditions is effectively solved, and the working efficiency is improved; through set up the dust-raising prevention device between the feed inlet of valve and material receiving barrel, can avoid the powder to produce the floating dust when falling to material receiving barrel under the action of gravity in, accord with environmental protection consciousness and protected that the staff is healthy.

Preferably: the lifting driving assembly comprises a lifting cylinder with an upward extending end fixedly connected to the top of the receiving barrel, and a screw longitudinally arranged is fixedly connected to the extending end of the lifting cylinder; a slotted mounting plate is fixedly connected to the edge of the lifting ring, a screw penetrates through a slot formed in the slotted mounting plate, a nut of the screw is positioned above the slotted mounting plate, and the diameter of the nut is larger than the width of the slot of the slotted mounting plate; the periphery wall of the screw is sleeved with a spring, and two ends of the spring are respectively tightly propped against the output ends of the grooved mounting plate and the lifting cylinder.

Preferably: the feeding device comprises a material conveying cylinder provided with a feeding port and a discharging port, a material conveying auger is arranged in the material conveying cylinder, and an auger driving motor capable of driving the material conveying auger to rotate is connected to the outer end part of the material conveying cylinder; the feed inlet of the feed delivery cylinder is connected with the discharge outlet of the receiving barrel.

Preferably: the rotary driving component comprises a rotary motor fixedly connected to the bracket, and a transmission pair is connected between an output shaft of the rotary motor and the rotary shaft in a transmission manner.

Preferably: the transmission pair comprises a driving chain wheel and a driven chain wheel, wherein the driving chain wheel is in key connection with an output shaft of the rotating motor, the driven chain wheel is in key connection with a rotating shaft, and a chain is in transmission connection between the driving chain wheel and the driven chain wheel.

Preferably: an in-place sensor is arranged on the top surface of the top plate of the bracket.

Preferably: the peripheral wall of the material storage barrel is connected with a vibrator.

Preferably: the peripheral wall of the material receiving barrel is connected with an air hammer.

Preferably: and a buckle cover is buckled on the feed inlet of each material storage barrel.

Drawings

Fig. 1 is a schematic view of the partial sectional structure of the front view of the present invention;

fig. 2 is a schematic top view of the present invention.

Fig. 3 is an enlarged schematic view of the dust guard of fig. 1.

In the figure: 1. a support; 2. a rotating electric machine; 3. a transmission pair; 4. a feeding device; 4-1, a material conveying cylinder; 4-2, a material conveying auger; 4-3, a packing auger driving motor; 5. an air hammer; 6. a receiving barrel; 7. a dust raising prevention device; 7-1, a lifting cylinder; 7-2, a spring; 7-3, screws; 7-4, mounting plate with groove; 7-5, a baffle; 7-6, a guide rod; 7-7, a flexible hose; 7-8, a lifting ring; 7-9, a guide rod fixing ring; 8. a rotating shaft; 9. rotating the disc; 10. a valve; 11. a first weighing element; 12. a vibrator; 13. a storage barrel; 13-1, buckling a cover; 14. an in-position sensor; 15. a second weighing element.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are described in detail:

referring to fig. 1 and 2, the quantitative conveying device for paint powder components of color steel plates of the present invention comprises a support 1 with a top plate, wherein a rotating shaft 8 is rotatably connected to the top plate of the support 1 through a rolling bearing, and a rotary driving assembly capable of driving the rotating shaft 8 to rotate is connected to the support 1; the rotary driving component comprises a rotary motor 2 fixedly connected to the bracket 1, and the rotary motor 2 is electrically connected with a control system owned by a color steel plate paint production workshop. A transmission pair 3 is connected between the output shaft of the rotating electric machine 2 and the rotating shaft 8 in a transmission manner. The transmission pair 3 includes a drive sprocket keyed to the output shaft of the rotating electrical machine 2 and a driven sprocket keyed to the rotating shaft 8, and a chain is drivingly connected between the drive sprocket and the driven sprocket.

The top of the rotating shaft 8 is fixedly connected with a rotating disc 9 which is transversely arranged, the rotating disc 9 is provided with a plurality of groups of storage buckets 13 which penetrate through holes formed in the rotating disc 9 and are circumferentially distributed at equal angles by taking the axis of the rotating shaft 8 as a center, the number of the storage buckets 13 is 6, and the storage buckets can be adaptively increased or decreased according to actual conditions. The top of each material storage barrel 13 is provided with a material inlet, and the bottom is provided with a material outlet. A buckle cover 13-1 is buckled on the feed inlet of each material storage barrel 13. A vibrator 12 is connected to the outer peripheral wall of the storage bucket 13. The arrangement can improve the structural compactness of the quantitative conveying device and reduce the floor area of the quantitative conveying device.

The powder raw materials of the color steel plate paint are stored in the storage barrel 13, generally, different storage barrels 13 store different raw materials, in an actual working state, different labels are marked on each storage barrel 13, and each label has a corresponding raw material. The weight of each raw material weighed is set in the control circuit.

A valve 10 is connected to the discharge hole of each storage barrel 13. Each storage bucket 13 is connected to the rotary disc 9 by a first weighing cell 11. The valve 10 and the first weighing element 11 are both electrically connected with a control system owned by a color steel plate paint production workshop. The first weighing element 11 can weigh the storage bucket 13 and the powder stored in the storage bucket 13 in real time, in which process the weighing value is gradually reduced. In the actual control process, the control system can control the opening size of the valve 10 according to the weighing value and the set weighing weight, and further control the falling weight of the powder in unit time; the smaller the difference between the powder weighing value and the set weighing weight, the smaller the opening of the valve 10, and the more precise the powder weighing.

The bracket 1 is connected with a receiving barrel 6 through a second weighing element 15, and the peripheral wall of the receiving barrel 6 is connected with an air hammer 5. The top of the receiving barrel 6 is provided with a feeding hole, the bottom of the receiving barrel 6 is provided with a discharging hole, and the feeding hole of the receiving barrel 6 corresponds to the discharging hole of the storage barrel 13. The second weighing element 15 is electrically connected with a control system owned by a color steel plate paint production workshop. The second weighing cell 15 can weigh the powder in the receiving vessel 6 in real time, and the difference between the actual weighing value and the initial weighing value of the second weighing cell 15 is the weight of the powder discharged from the storage vessel 13.

The discharge port of the material receiving barrel 6 is connected with a discharge valve and is connected with a feeding device 4 through a corrugated pipe, and the powder raw materials in the material receiving barrel 6 can be rapidly discharged under the action of gravity by operating the discharge valve.

The rotary driving assembly and the rotary shaft 8 can ensure that the material storage barrel 13 can stably move, and the material receiving barrel 6 can be positioned under different material storage barrels 13, namely, a feed port of the material receiving barrel 6 can be just opposite to discharge ports of valves 10 at the lower ends of different material storage barrels 13. The structure can also reduce the volume and the weight of the receiving barrel 6 and reduce the manufacturing cost.

By comparing the weighing values of the two weighing elements which are distributed up and down, the weighing problem can be found in time, the problem can be solved in time, the economic loss caused by inaccurate powder weighing is reduced, and the weighing accuracy is effectively improved.

An error value is set in the control system, which error value may be the absolute value of the difference between the weight-reduced value of the first weighing cell 11 and the weight-increased value of the second weighing cell 15, the absolute value of the difference being X grams.

An in-position sensor 14 is provided on the top surface of the top plate of the bracket 1. The in-position sensor 14 is electrically connected to the control system of the plant. The in-place sensor 14 is a radio frequency sensor and comprises a signal generating end arranged on the top surface of the top plate of the support 1 and a plurality of groups of signal receiving ends connected to the bottom surface of the rotating disc 9, the number of the signal receiving ends is consistent with that of the material storage barrels 13, and the signal receiving ends are circumferentially distributed at equal angles by taking the axis of the rotating shaft 8 as the center.

The feeding device 4 comprises a material conveying cylinder 4-1 provided with a feeding port and a discharging port, a material conveying auger 4-2 is arranged in the material conveying cylinder 4-1, and an auger driving motor 4-3 capable of driving the material conveying auger 4-2 to rotate is connected to the outer end part of the material conveying cylinder 4-1; the feed inlet of the feed delivery cylinder 4-1 is connected with the discharge outlet of the receiving barrel 6. The packing auger driving motor 4-3 is electrically connected with a control system of the workshop. The feeding device 4 can discharge the powder raw material mixture of the material receiving barrel 6 into the powder raw material uniformly mixing device.

The top of the material receiving barrel 6 is connected with a dust-raising prevention device 7, the dust-raising prevention device 7 comprises telescopic hoses 7-7 which are in butt joint with the feed inlet of the material receiving barrel 6, and the tops of the telescopic hoses 7-7 are fixedly connected with lifting rings 7-8. At least two groups of guide rods 7-6 which are longitudinally arranged and are positioned at the periphery of a feed inlet of the material receiving barrel 6 are fixedly connected with the top of the material receiving barrel 6, a guide rod fixing ring 7-9 is fixedly connected with the outer peripheral wall of the feed inlet of the material receiving barrel 6, and the guide rods 7-6 are arranged in through holes formed in the guide rod fixing ring 7-9 in a penetrating way and are in interference fit with the guide rod fixing ring 7-9. The lifting ring 7-8 is connected with the guide rod 7-6 in a sliding way through a linear bearing, and the top of the guide rod 7-6 is fixedly connected with a baffle 7-5 which is transversely arranged.

The top of the material receiving barrel 6 is fixedly connected with a lifting driving component which can drive the lifting rings 7-8 to lift. The lifting ring 7-8 can move longitudinally under the driving of the lifting driving component, the lifting ring 7-8 can move longitudinally to drive the flexible hose 7-7 to stretch and further change the distance between the feed port of the flexible hose 7-7 and the discharge port of the valve 10, and the situation that the distance between the discharge port and the feed port is too large, so that powder flies and the body health of workers is affected is avoided.

The lifting driving component comprises a lifting cylinder 7-1 which is fixedly connected with the top of the material receiving barrel 6 and has an upward extending end, and the lifting cylinder 7-1 is electrically connected with the control system. A longitudinally arranged screw 7-3 is fixedly connected with the extending end of the lifting cylinder 7-1; a slotted mounting plate 7-4 is fixedly connected to the edge of the lifting ring 7-8, a screw 7-3 is arranged in a slot formed in the slotted mounting plate 7-4 in a penetrating manner, a nut of the screw 7-3 is positioned above the slotted mounting plate 7-4, and the diameter of the nut is larger than the width of the slot of the slotted mounting plate 7-4; the outer peripheral wall of the screw 7-3 is sleeved with a spring 7-2, and two ends of the spring 7-2 are respectively tightly propped against the output ends of the grooved mounting plate 7-4 and the lifting cylinder 7-1.

The lifting cylinder 7-1 drives the lifting ring 7-8 to move upwards, when the piston rod of the lifting cylinder 7-1 continues to extend after the lifting ring 7-8 is contacted with the valve 10, the screw 7-3 continues to move upwards relative to the grooved mounting plate 7-4, the grooved mounting plate 7-4 is not moved, and meanwhile, the spring 7-2 is compressed to give upward elasticity to the grooved mounting plate 7-4, so that the lifting ring 7-8 is tightly pressed against the discharge hole of the valve 10, the arrangement can prevent dust from flying due to the fact that the distance between the discharge hole of the valve 10 and the feed inlet of the telescopic hose 7-7 is too large, meanwhile, the lifting ring 7-8 and the valve 10 are prevented from being damaged after being collided under the driving of the lifting cylinder 7-1, and the valve 10 is protected and avoided.

The working process is as follows:

(1) weighing: the control system controls the in-place sensor 14 to control the output shaft of the rotating motor 2 to rotate, so as to drive the rotating disc 9 to rotate, so that the storage barrel 13 storing the powder raw material A runs to the position right above the feeding hole of the receiving barrel 6, and the piston rod of the lifting cylinder 7-1 extends until the lifting ring 7-8 is tightly propped against the discharging hole of the valve 10; then, the control system controls the valve 10 on the powder storage barrel A13 to be opened, and the powder raw material A leaks into the material receiving barrel 6 from the valve 10 under the action of gravity; the first weighing element 11 weighs the storage bucket 13 and the weight of the powder stored in the storage bucket 13 in real time, and the weighing value is gradually reduced in the process; in the actual control process, the control circuit can control the opening size of the valve 10 according to the weighing value and the set weighing weight, and further control the falling weight of the powder in unit time; specifically, the smaller the difference between the powder weighing value and the set weighing weight, the smaller the opening of the valve 10, thereby improving the powder weighing accuracy. The difference between the actual weighing value and the initial weighing value of the second weighing element 15 is the weight of the powder discharged from the storage tank 13; the control circuit controls the valve 10 to close when the weight of the powder discharged from the storage bucket 13 is equal to the set weighing weight.

(2) And (4) checking: the control system compares the weight of the powder falling into the receiving barrel 6 with the weight of the powder discharged from the storage barrel 13, if the absolute value of the difference is more than or equal to X grams, the powder is determined to be inaccurate in weighing, and the control circuit sends out an alarm signal and stops running; if the absolute value of the difference is less than X grams, the powder is judged to be accurately weighed; the control system controls the retraction of a piston rod of the lifting cylinder 7-1 to enable the lifting ring 7-8 to be separated from the discharge hole of the valve 10, then the control system starts the rotating motor 2 to enable the rotating shaft 8 to rotate to drive the rotating disc 9 to rotate, the signal receiving end of the in-place sensor 14 also rotates along with the rotating disc 9 in the rotating process of the rotating disc 9, and after the next group of signal receiving ends of the in-place sensor 14 rotate to be right above the signal generating end of the in-place sensor 14 and receive signals, the control system controls the rotating motor 2 to stop rotating; the control system starts the lifting cylinder 7-1 to extend the piston rod thereof until the lifting ring 7-8 is tightly propped against the discharge hole of the valve 10, and then the weighing and correcting process is repeated for the next powder.

(3) Repeating the weighing and correcting process until all the powder is weighed, and temporarily storing all the powder in the receiving barrel 6; the discharge valve is controlled to be opened, the powder in the material receiving barrel 6 is discharged into the feeding device 4 under the action of gravity, and the discharge valve is controlled to be closed again after the powder is completely discharged.

Claims (9)

1. The utility model provides a various steel sheet lacquer powder component ration conveyor which characterized by: the device comprises a support (1) with a top plate, wherein a rotating shaft (8) is rotatably connected to the top plate of the support (1) through a rolling bearing, and a rotary driving assembly capable of driving the rotating shaft (8) to rotate is connected to the support (1); a rotary disc (9) which is transversely arranged is fixedly connected to the top of the rotary shaft (8), and a plurality of groups of storage barrels (13) which penetrate through holes formed in the rotary disc (9) and are circumferentially distributed at equal angles by taking the axis of the rotary shaft (8) as a center are arranged on the rotary disc (9); a feed inlet is formed in the top of each storage barrel (13), a discharge outlet is formed in the bottom of each storage barrel, and a valve (10) is connected to the discharge outlet of each storage barrel (13); each storage barrel (13) is connected with the rotating disc (9) through a first weighing element (11); a material receiving barrel (6) is connected to the support (1) through a second weighing element (15), a material inlet is formed in the top of the material receiving barrel (6), a material outlet is formed in the bottom of the material receiving barrel, and the material inlet of the material receiving barrel (6) corresponds to the material outlet of the material storage barrel (13); a discharge port of the material receiving barrel (6) is connected with a discharge valve and is connected with a feeding device (4) through a corrugated pipe; the top of the material receiving barrel (6) is connected with a dust-raising prevention device (7);

the dust-raising prevention device (7) comprises telescopic hoses (7-7) which are in butt joint with the feed inlet of the material receiving barrel (6), lifting rings (7-8) are fixedly connected to the tops of the telescopic hoses (7-7), at least two groups of guide rods (7-6) which are longitudinally arranged and positioned at the periphery of the feed inlet of the material receiving barrel (6) are fixedly connected to the top of the material receiving barrel (6), and the lifting rings (7-8) are in sliding connection with the guide rods (7-6) through linear bearings; the top of the material receiving barrel (6) is fixedly connected with a lifting driving component which can drive the lifting rings (7-8) to lift.

2. The color steel plate paint powder component quantitative conveying device according to claim 1, characterized in that: the lifting driving component comprises a lifting cylinder (7-1) which is fixedly connected with the top of the material receiving barrel (6) and has an upward extending end, and a screw (7-3) which is longitudinally arranged is fixedly connected with the extending end of the lifting cylinder (7-1); a slotted mounting plate (7-4) is fixedly connected to the edge of the lifting ring (7-8), a screw (7-3) is arranged in a slot formed in the slotted mounting plate (7-4) in a penetrating manner, a nut of the screw (7-3) is positioned above the slotted mounting plate (7-4), and the diameter of the nut is larger than the width of the slot of the slotted mounting plate (7-4); the outer peripheral wall of the screw (7-3) is sleeved with a spring (7-2), and two ends of the spring (7-2) are respectively tightly propped against the output ends of the grooved mounting plate (7-4) and the lifting cylinder (7-1).

3. The color steel plate paint powder component quantitative conveying device according to claim 1, characterized in that: the feeding device (4) comprises a material conveying cylinder (4-1) provided with a feeding port and a discharging port, a material conveying auger (4-2) is arranged in the material conveying cylinder (4-1), and an auger driving motor (4-3) capable of driving the material conveying auger (4-2) to rotate is connected to the outer end part of the material conveying cylinder (4-1); the feed inlet of the feed delivery cylinder (4-1) is connected with the discharge outlet of the receiving barrel (6).

4. The color steel plate paint powder component quantitative conveying device according to claim 1, characterized in that: the rotary driving component comprises a rotary motor (2) fixedly connected to the bracket (1), and a transmission pair (3) is connected between an output shaft of the rotary motor (2) and the rotating shaft (8) in a transmission manner.

5. The quantitative conveying device for paint powder components of a color steel plate as claimed in claim 4, wherein: the transmission pair (3) comprises a driving chain wheel which is connected with an output shaft of the rotating motor (2) in a key mode and a driven chain wheel which is connected with a rotating shaft (8) in a key mode, and a chain is connected between the driving chain wheel and the driven chain wheel in a transmission mode.

6. The color steel plate paint powder component quantitative conveying device according to claim 1, characterized in that: an in-place sensor (14) is arranged on the top surface of the top plate of the bracket (1).

7. The color steel plate paint powder component quantitative conveying device according to claim 1, characterized in that: a vibrator (12) is connected to the outer peripheral wall of the storage barrel (13).

8. The color steel plate paint powder component quantitative conveying device according to claim 1, characterized in that: the peripheral wall of the material receiving barrel (6) is connected with an air hammer (5).

9. The color steel plate paint powder component quantitative conveying device according to claim 1, characterized in that: a buckle cover (13-1) is buckled on the feed inlet of each material storage barrel (13).

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