CN109133250B

CN109133250B - Intelligent production auxiliary equipment for powdered activated carbon

Info

Publication number: CN109133250B
Application number: CN201811139254.6A
Authority: CN
Inventors: 彭婷
Original assignee: Nanjing Liuhe Technology Venture Capital Development Co ltd
Current assignee: Nanjing Liuhe Technology Venture Capital Development Co.,Ltd.
Priority date: 2018-09-28
Filing date: 2018-09-28
Publication date: 2021-09-21
Anticipated expiration: 2038-09-28
Also published as: CN109133250A

Abstract

The invention relates to intelligent production auxiliary equipment for powdered activated carbon, which comprises an adjusting underframe, a storage device and an output device, wherein the storage device is installed at the front end of the adjusting underframe, and the output device is installed at the lower end of the storage device. The invention can solve the problems that the existing powdered activated carbon can generate dust raising phenomenon when being poured into a water tank in a manual mode, the generated dust can not be cleaned in time, the personnel inhale too much to cause discomfort, thereby causing potential safety hazards, the activated carbon can not be poured uniformly, the center of the water tank can not be poured into when being poured manually, the residual powdered activated carbon still can be conveyed out after the pouring is finished, thereby causing waste, the working efficiency is low, the consumed time is long, and the like, and can realize the functions of absorbing the dust generated when the powdered activated carbon is uniformly poured into the water tank and is adjusted in multiple directions.

Description

Intelligent production auxiliary equipment for powdered activated carbon

Technical Field

The invention relates to the technical field of powdered activated carbon processing, in particular to intelligent powdered activated carbon production auxiliary equipment.

Background

The powdered activated carbon is made up by using high-quality wood dust, coconut shell and coal as raw material through a series of processes. Powdered activated carbon has that filter speed is fast, adsorption performance is good, the decoloration removes advantages such as flavor ability reinforce, economy and durability, the product is often applied to the sewage treatment field, need carry powdered activated carbon into the basin during water treatment, raise dust phenomenon can appear in the pond is emptyd through artificial mode to current powdered activated carbon, the dust of appearance can not in time be cleared up, thereby personnel inhale too much and arouse the discomfort and cause the potential safety hazard, activated carbon can not evenly be emptyd, when the manual work is emptyd, pond central authorities can not be emptyd and get into, after empting and finishing, remaining powdered activated carbon still carries out to cause the waste, work efficiency is slow, the time spent is long.

Disclosure of Invention

In order to solve the problems, the invention provides intelligent auxiliary equipment for producing powdered activated carbon, which can solve the problems that the existing powdered activated carbon can raise dust when being poured into a water tank manually, the generated dust can not be cleaned in time, discomfort is caused by excessive suction of personnel, potential safety hazards are caused, the activated carbon can not be poured uniformly, the center of the water tank can not be poured into the water tank during manual pouring, residual powdered activated carbon still is conveyed out after pouring is finished to cause waste, the working efficiency is low, the consumed time is long and the like, can realize the functions of absorbing and adjusting the dust generated during pouring of the powdered activated carbon when being poured into the water tank uniformly, the powdered activated carbon is poured on a water surface, the generated dust is absorbed for multiple times, the mistaken suction of the dust floating in the air by personnel is avoided, the safety of the personnel is ensured, and the powdered activated carbon is poured uniformly at any position of the water tank, the powder active carbon left after dumping is collected, so that the waste is avoided, the work efficiency is increased quickly, the consumption is short, and the like.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a powdered activated carbon intelligence production auxiliary assembly, is including adjusting chassis, storage device and output device, the front end of adjusting the chassis install storage device, output device is installed to storage device's lower extreme.

The adjusting underframe comprises a base, a main cylinder, a telescopic bracket, a U-shaped frame, a rotating motor, a rotating plate, a rotating chute, a rotating rod, a clamping cylinder, a clamping block and a collecting mechanism, wherein the collecting mechanism is installed at the front end of the base, the main cylinder is installed at the upper end of the base, the top end of the main cylinder is installed at the rear end of the telescopic bracket through a flange, the front end of the telescopic bracket is installed on the U-shaped frame, the rotating motor is installed at the upper end of the U-shaped frame, the rotating plate is installed on an output shaft of the rotating motor, the rotating chute is installed at the upper end of the rotating plate and is connected with the rotating rod through a sliding fit mode, the rotating rod is installed on the U-shaped frame, the clamping cylinder is installed at the lower end of the U-shaped frame, the top end of the clamping cylinder is installed on the clamping block through a flange, when the adjusting underframe works specifically, the adjusting underframe drives the storage device to be adjusted to a proper position through multi-directional adjustment, when the storage device rotates to a proper angle, the card cylinder drives the fixture block card and goes into the gear groove, collects the mechanism and collects the remaining powder active carbon after carrying output device, adjusts the chassis and drives storage device through diversified regulation and adjust the operating position, ensures that output device can empty any position in the pond, collects the mechanism and collects the powder active carbon that leaves after empting, avoids causing the waste, and easy operation consumes the weak point.

The collection mechanism include the pivot, link the piece, link the rack, link the gear, link the motor, telescopic cylinder, collect frame and screening board, the lower extreme of pivot passes through the bearing and installs on the base, the mid-mounting of pivot has even the rack, it has even the gear to mesh on the rack even, it installs on the output shaft of linking the motor even to link the gear, link the motor and pass through pedestal mounting on the base, the upper end of pivot is installed on linking the piece, telescopic cylinder is installed to the front end of linking the piece, telescopic cylinder's top is installed on collecting the frame, install the screening board in the collection frame, concrete during operation, link the motor and drive even gear revolve, it rotates to link the gear drive collection frame, collect the frame and collect the powder active carbon, the screening board is collected the great active carbon of granule, collect the powder active carbon that the mechanism left after empting, avoid causing the waste.

The output device comprises an output frame, a partition plate, a fixing plate, a sliding block, a leakage plate, a connecting cylinder, an auxiliary sliding groove, a foam frame, a cover frame and two air pumps, wherein the upper end of the fixing plate is installed on the storage frame, the lower end of the fixing plate is installed on the cover frame, the middle part of the cover frame is provided with a hollow groove, the lower end of the cover frame is provided with the foam frame, the output frame is installed in the hollow groove, the partition plate is evenly installed in the output frame, the sliding block is symmetrically installed at the left end and the right end of the output frame, the sliding block is connected with the auxiliary sliding groove in a sliding fit mode, the auxiliary sliding groove is installed on the leakage plate, the connecting cylinder is installed between the leakage plate and the output frame, the two air pumps are installed at the front end and the rear end of the cover frame through bases, when the storage device works, the powdered activated carbon is evenly conveyed into the output frame by the storage device, the connecting cylinder drives the leakage plate to sequentially convey the powdered activated carbon between the output frame and the partition plate into water, during transportation, the foam frame is tightly attached to the water surface, the two air pumps are used for absorbing dust generated when the activated carbon enters water, the output device is tightly attached to the water surface when the powdered activated carbon is toppled over, a large amount of dust is guaranteed to be left in the cover frame to wait for absorption, the dust is prevented from floating in the air and being mistakenly absorbed by personnel, the personnel safety is guaranteed, the operation is simple, the consumption is short, and the working efficiency is improved.

As a preferred technical scheme of the invention, the storage device comprises a storage frame, an input frame, a sealing plate, a push cylinder, two operating motors, two stirring frames, two filter screens, a switch plate, a switch cylinder, a transverse plate, two connecting frames, a connecting pipe, a concentration frame, two opposite frames, a vertical plate and an adjusting cylinder, wherein the input frame is arranged at the upper end of the storage frame, the push cylinder is arranged at the upper end of the storage frame, the top end of the push cylinder is arranged on the sealing plate, the sealing plate is positioned right above the input frame, the two operating motors are arranged on the side wall of the front end of the storage frame through a base, the output shaft of the operating motor is connected with the front end of the stirring frame, the rear end of the stirring frame is arranged on the side wall of the storage frame through a bearing, the two filter screens are arranged at the left end and the right end of the storage frame, the two connecting frames are arranged at the left end and the right end of the storage frame, and each filter screen corresponds to one connecting frame, the inner wall of the storage frame is provided with a transverse plate, the lower end of the storage frame is provided with a switch plate through a pin shaft, a switch cylinder is arranged between the switch plate and the transverse plate through a pin shaft, the outer wall of the storage frame is provided with two opposite frames, a concentration frame is arranged between the two opposite frames through a pin shaft, a connecting pipe is connected between the concentration frame and the storage frame, the lower side of the front end of the storage frame is provided with a vertical plate, an adjusting cylinder is arranged between the vertical plate and the concentration frame through a pin shaft, when the powder activated carbon is in specific work, the powder activated carbon is conveyed into the storage frame from an input frame, the input frame is closed by a closing plate, the two stirring frames are driven by two operating motors to turn the powder activated carbon, the two connecting frames are connected with an external air pump, the external air pump is used for absorbing the dust generated by the powder activated carbon after turning for the first time, the adjusting cylinder drives the concentration frame to adjust the reciprocating angle, and the switch cylinder drives the switch plate to open, in the cavity between output frame and the baffle is evenly carried to powdered activated carbon from concentrating the frame, storage device saved powdered activated carbon, and storage device stirs powdered activated carbon, and it absorbs for the first time to produce the dust after stirring, and storage device drives in the even output device of carrying of powdered activated carbon of storage, and easy operation consumes the weak point, has improved work efficiency.

As a preferred technical solution of the present invention, the connection pipe is of a telescopic structure and is made of plastic, the connection pipe connects the centralized frame and the storage frame, and the connection pipe is connected to the centralized frame to avoid the connection pipe from being broken when the angle of the centralized frame is adjusted.

As a preferable technical scheme of the invention, the stirring frame is uniformly provided with the stirring paddles along the circumferential direction, so that the stirring area is increased.

As a preferable technical scheme of the invention, the concentration frame is of a structure which is gradually reduced from top to bottom, so that the powdered activated carbon is ensured to be intensively conveyed to the lower part.

As a preferred technical scheme of the invention, the upper end of the output frame is of an arc structure, the lower part of the concentration frame is provided with an arc track when the angle of the concentration frame is adjusted, and the upper end of the output frame is of the arc structure to avoid collision with the concentration frame.

As a preferable technical scheme of the invention, the middle part of the leaking plate is provided with an open slot, so that the powdered activated carbon can be conveyed downwards from a cavity between the output frame and the partition plate.

As a preferred technical scheme of the invention, the lower end of the rotating plate is provided with a gear groove, and the clamping block is clamped into the gear groove to limit the rotating plate.

As a preferred technical scheme of the present invention, the fixture block is a gear-shaped structure, and the fixture block corresponds to the gear groove, and the fixture block is clamped into the gear groove to limit the rotating plate.

As a preferred technical scheme of the invention, the screening plate is uniformly provided with screening holes and screens and collects residual powdered activated carbon.

When the dust collector works, firstly, the adjusting bottom frame starts to work, the adjusting bottom frame drives the storage device to be adjusted to a proper position through multi-direction adjustment, when the storage device rotates to a proper angle, the clamping cylinder drives the clamping block to be clamped into the gear groove, the collecting mechanism collects residual powdered activated carbon conveyed by the output device, then the collecting mechanism starts to work, the connecting motor drives the connecting gear to rotate, the connecting gear drives the collecting frame to rotate, the collecting frame collects the powdered activated carbon, the screening plate collects the activated carbon with larger particles, secondly, the storage device starts to work, the powdered activated carbon is conveyed into the storage frame from the input frame, the sealing plate seals the input frame, the two operation motors drive the two stirring frames to stir the powdered activated carbon, the two connecting frames are connected with the external air pump, the external air pump carries out primary absorption on dust generated by the powdered activated carbon stirred after the air pump, the adjust cylinder drives the frame of concentrating and carries out angle modulation that reciprocates, switch cylinder drives the switch board and opens, powder active carbon is from concentrating in the even cavity of carrying between output frame and the baffle of frame, the third step, output device begins work, storage device evenly carries the output frame with powder active carbon in, it drives the hourglass board and carries in proper order the aquatic to the powder active carbon between output frame and the baffle to connect the cylinder, during the transport, the foam frame is hugged closely at the surface of water, the dust that produces when two air pump works get into water to the active carbon is absorbed, can realize evenly empting the powder active carbon in the pond, produce the dust when empting and absorb and diversified function of adjusting.

The invention has the beneficial effects that:

1. the invention can solve the problems that the existing powdered activated carbon can raise dust when poured into a water tank manually, the generated dust can not be cleaned in time, the personnel inhale too much to cause discomfort, thereby causing potential safety hazards, the activated carbon can not be poured uniformly, the water tank can not be poured into the center of the water tank during manual pouring, the residual powdered activated carbon still can be conveyed out after pouring is finished to cause waste, the working efficiency is slow, the consumed time is long, and the like, can realize the functions of absorbing and multi-direction adjusting the dust generated when the powdered activated carbon is poured into the water tank uniformly, pouring the powdered activated carbon on the water surface, absorbing the generated dust for multiple times, avoiding the error absorption of the dust by the personnel in the air, ensuring the safety of the personnel, pouring the powdered activated carbon uniformly at any position of the water tank, collecting the remaining powdered activated carbon after pouring, and avoiding the waste, the working efficiency is increased quickly, the consumption is short, and the like;

2. the adjustable bottom frame is arranged, the adjustable bottom frame drives the storage device to be adjusted to a working position through multi-direction adjustment, the output device can be ensured to be dumped at any position of the water pool, the collection mechanism collects the residual powdered activated carbon after dumping, waste is avoided, the operation is simple, and the consumption is short;

3. the powder activated carbon storage device is arranged, the powder activated carbon is stored by the storage device, the storage device is used for stirring the powder activated carbon, dust generated after stirring is absorbed for the first time, the storage device drives the stored powder activated carbon to be uniformly conveyed into the output device, the operation is simple, the consumption is short, and the working efficiency is improved;

4. the invention is provided with the output device, the output device is tightly attached to the water surface when the powdered activated carbon is toppled over, a large amount of dust is ensured to be reserved in the cover frame for waiting to be absorbed, the dust is prevented from being mistakenly absorbed by personnel floating in the air, the personnel safety is ensured, the operation is simple, the consumption is short, and the working efficiency is improved.

Drawings

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

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

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

FIG. 3 is a schematic structural diagram of a storage device according to the present invention;

FIG. 4 is a schematic view of a first configuration of the output device of the present invention;

fig. 5 is a schematic diagram of a second structure of the output device of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 5, an intelligent auxiliary device for producing powdered activated carbon comprises an adjusting chassis 1, a storage device 3 and an output device 5, wherein the storage device 3 is installed at the front end of the adjusting chassis 1, and the output device 5 is installed at the lower end of the storage device 3.

The adjusting underframe 1 comprises a base 11, a main cylinder 13, a telescopic bracket 14, a U-shaped frame 15, a rotating motor 16, a rotating plate 17, a rotating chute 18, a rotating rod 19, a clamping cylinder 20, a clamping block 21 and a collecting mechanism 22, wherein the collecting mechanism 22 is installed at the front end of the base 11, the main cylinder 13 is installed at the upper end of the base 11, the top end of the main cylinder 13 is installed at the rear end of the telescopic bracket 14 through a flange, the front end of the telescopic bracket 14 is installed on the U-shaped frame 15, the rotating motor 16 is installed at the upper end of the U-shaped frame 15, the rotating plate 17 is installed on an output shaft of the rotating motor 16, the rotating chute 18 is installed at the upper end of the rotating plate 17, the rotating chute 18 is connected with the rotating rod 19 in a sliding fit manner, the rotating rod 19 is installed on the U-shaped frame 15, the clamping cylinder 20 is installed at the lower end of the U-shaped frame 15, the top end of the clamping cylinder 20 is installed on the clamping block 21 through a flange, and during specific work, the adjusting underframe 1 drives the storage device 3 to be adjusted to a proper position through multi-direction adjustment, when storage device 3 rotated suitable angle, card cylinder 20 drove fixture block 21 card and goes into the gear groove, collect mechanism 22 and collect the remaining powder active carbon after 5 transport output device, adjust chassis 1 and drive storage device 3 through diversified regulation and adjust to operating position, ensure that output device 5 can empty any position in the pond, collect mechanism 22 and collect the powder active carbon that leaves after empting, avoid causing the waste, and easy operation consumes the weak point.

The collecting mechanism 22 comprises a rotating shaft 221, a connecting block 222, a connecting rack 223, a connecting gear 224, a connecting motor 225, a telescopic cylinder 226, a collecting frame 227 and a screening plate 228, the lower end of the rotating shaft 221 is mounted on the base 11 through a bearing, the connecting rack 223 is mounted in the middle of the rotating shaft 221, the connecting gear 224 is meshed with the connecting rack 223, the connecting gear 224 is mounted on an output shaft of the connecting motor 225, the connecting motor 225 is mounted on the base 11 through a base, the upper end of the rotating shaft 221 is mounted on the connecting block 222, the telescopic cylinder 226 is mounted at the front end of the connecting block 222, the top end of the telescopic cylinder 226 is mounted on the collecting frame 227, the screening plate 228 is mounted in the collecting frame 227, during specific work, the connecting motor 225 drives the connecting gear 224 to rotate, the connecting gear 224 drives the collecting frame 227 to rotate, the collecting frame 227 collects powdered activated carbon, the screening plate 228 collects activated carbon with large particles, the collecting mechanism 22 collects the powdered activated carbon left after dumping, avoiding waste.

The output device 5 comprises an output frame 51, a partition plate 52, a fixed plate 53, a slide block 54, a leakage plate 55, a connecting cylinder 56, an auxiliary sliding groove 57, a foam frame 60, a cover frame 58 and two air pumps 59, wherein the upper end of the fixed plate 53 is installed on the storage frame 31, the lower end of the fixed plate 53 is installed on the cover frame 58, the middle part of the cover frame 58 is provided with a hollow groove, the lower end of the cover frame 58 is provided with the foam frame 60, the output frame 51 is installed in the hollow groove, the partition plate 52 is uniformly installed in the output frame 51, the slide block 54 is symmetrically installed at the left end and the right end of the output frame 51, the slide block 54 is connected with the auxiliary sliding groove 57 in a sliding fit manner, the auxiliary sliding groove 57 is installed on the leakage plate 55, the connecting cylinder 56 is installed between the leakage plate 55 and the output frame 51, the front end and the rear end of the cover frame 58 are provided with the two air pumps 59 through a base, when the storage device 3 works specifically, connect cylinder 56 to drive hourglass play board 55 and carry the aquatic in proper order to the powder active carbon between output frame 51 and baffle 52, during the transport, foam frame 60 hugs closely at the surface of water, the dust that produces when two air pumps 59 work got into water to the active carbon is absorbed, output device 5 hugs closely at the surface of water when empting the powder active carbon, ensure that a large amount of dust is stayed and waits to absorb in lid frame 58, personnel's mistake in the air has been avoided the dust to float is inhaled, personnel's safety has been ensured, and is easy to operate, consume for a short time, and work efficiency is improved.

The storage device 3 comprises a storage frame 31, an input frame 32, a closing plate 33, a push cylinder 34, two operation motors 35, two stirring frames 36, two filter screens 37, a switch plate 44, a switch cylinder 45, a transverse plate 46, two connecting frames 38, a connecting pipe 39, a centralized frame 40, two opposite frames 41, a vertical plate 42 and an adjusting cylinder 43, wherein the input frame 32 is installed at the upper end of the storage frame 31, the push cylinder 34 is installed at the upper end of the storage frame 31, the top end of the push cylinder 34 is installed on the closing plate 33, the closing plate 33 is positioned right above the input frame 32, the two operation motors 35 are installed on the side wall of the front end of the storage frame 31 through a base, the output shafts of the operation motors 35 are connected with the front end of the stirring frames 36, the rear end of the stirring frame 36 is installed on the side wall of the storage frame 31 through bearings, the two filter screens 37 are installed at the left end and the right end of the storage frame 31, the two connecting frames 38 are installed at the left end and the right end of the storage frame 31, each filter screen 37 corresponds to one connecting frame 38, the inner wall of the storage frame 31 is provided with a transverse plate 46, the lower end of the storage frame 31 is provided with a switch plate 44 through a pin shaft, a switch cylinder 45 is arranged between the switch plate 44 and the transverse plate 46 through a pin shaft, the outer wall of the storage frame 31 is provided with two opposite frames 41, a concentration frame 40 is arranged between the two opposite frames 41 through a pin shaft, a connecting pipe 39 is connected between the concentration frame 40 and the storage frame 31, the lower side of the front end of the storage frame 31 is provided with a vertical plate 42, an adjusting cylinder 43 is arranged between the vertical plate 42 and the concentration frame 40 through a pin shaft, when the dust collector works in detail, powdered activated carbon is conveyed into the storage frame 31 from the input frame 32, the sealing plate 33 seals the input frame 32, two operation motors 35 drive two stirring frames 36 to turn the powdered activated carbon, the two connecting frames 38 are connected with an external air pump, the external air pump is used, adjusting cylinder 43 drives centralized frame 40 and carries out angle regulation reciprocal, switch cylinder 45 drives switch board 44 and opens, the powder active carbon is evenly carried in the cavity between output frame 51 and the baffle 52 from centralized frame 40, storage device 3 saves the powder active carbon, and storage device 3 stirs the powder active carbon, it absorbs for the first time to produce the dust after stirring, storage device 3 drives the even output device 5 of carrying of the powder active carbon of storage, and easy operation consumes for a short time, and the work efficiency is improved.

Connecting pipe 39 be extending structure, and connecting pipe 39 comprises the plastics material, connecting pipe 39 to concentrated frame 40 with store the frame 31 and be connected, and connecting pipe 39 is connected with concentrated frame 40 and avoids the condition that connecting pipe 39 appears the rupture when concentrated frame 40 angle modulation.

Stirring paddle is evenly arranged on the stirring frame 36 along the circumferential direction of the stirring frame, so that the stirring area is increased.

The concentration frame 40 is of a gradually-reduced structure from top to bottom, so that the powdered activated carbon is ensured to be conveyed to the lower part in a concentrated manner.

The upper end of output frame 51 be the arc structure, the below of frame 40 is the arc track when concentrating frame 40 angle modulation, the upper end of output frame 51 avoids colliding with frame 40 for the arc structure.

The middle part of the leaking plate 55 is provided with an open slot to ensure that the powdered activated carbon can be conveyed downwards from the cavity between the output frame 51 and the partition plate 52.

The lower end of the rotating plate 17 is provided with a gear groove, and the clamping block 21 is clamped into the gear groove to limit the rotating plate 17.

The fixture block 21 is in a gear-shaped structure, the fixture block 21 corresponds to the gear groove, and the fixture block 21 is clamped into the gear groove to limit the rotating plate 17.

The screening plate 228 is uniformly provided with screening holes, and the screening plate 228 screens and collects the residual powdered activated carbon.

When the powder activated carbon automatic feeding device works, firstly, the adjusting bottom frame 1 starts to work, the adjusting bottom frame 1 drives the storage device 3 to be adjusted to a proper position through multi-direction adjustment, when the storage device 3 rotates to a proper angle, the clamping cylinder 20 drives the clamping block 21 to be clamped into the gear groove, the collecting mechanism 22 collects the residual powder activated carbon conveyed by the output device 5, then the collecting mechanism 22 starts to work, the connecting motor 225 drives the connecting gear 224 to rotate, the connecting gear 224 drives the collecting frame 227 to rotate, the collecting frame 227 collects the powder activated carbon, the screening plate 228 collects the activated carbon with larger particles, secondly, the storage device 3 starts to work, the powder activated carbon is conveyed into the storage frame 31 from the input frame 32, the sealing plate 33 seals the input frame 32, the two operation motors 35 drive the two stirring frames 36 to turn the powder activated carbon, the two connecting frames 38 are connected with an external air pump, the external air pump absorbs dust generated by the powder activated carbon after turning for the first time, the adjusting cylinder 43 drives the concentration frame 40 to adjust the reciprocating angle, the switch cylinder 45 drives the switch board 44 to be opened, the powder activated carbon is uniformly conveyed into the cavity between the output frame 51 and the partition board 52 from the concentration frame 40, in the third step, the output device 5 starts to work, the storage device 3 uniformly conveys the powder activated carbon into the output frame 51, the connecting cylinder 56 drives the leakage board 55 to sequentially convey the powder activated carbon between the output frame 51 and the partition board 52 into water, the foam frame 60 is tightly attached to the water surface during conveying, the two air pumps 59 work to absorb the dust generated when the activated carbon enters the water, the functions of uniformly dumping the powder activated carbon into the water tank, absorbing the dust generated during dumping and adjusting the dust in multiple directions are realized, and the problem that the existing powder activated carbon can generate dust when being dumped into the water tank in a manual mode is solved, the dust that appears can not in time be cleared up, thereby personnel inhale too much and arouse discomfort and cause the potential safety hazard, and the active carbon can not evenly be emptyd, and when the manual work is emptyd, the pond central authorities can not be emptyd and get into, and after empting and finishing, still remain the powder active carbon and carry out and cause the waste, work efficiency is slow, and difficult problems such as time spent have reached the purpose.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a powdered activated carbon intelligence production auxiliary assembly, is including adjusting chassis (1), storage device (3) and output device (5), its characterized in that: the front end of the adjusting underframe (1) is provided with a storage device (3), and the lower end of the storage device (3) is provided with an output device (5);

the adjusting underframe (1) comprises a base (11), a main cylinder (13), a telescopic bracket (14), a U-shaped frame (15), a rotating motor (16), a rotating plate (17), a rotating chute (18), a rotating rod (19), a clamping cylinder (20), a clamping block (21) and a collecting mechanism (22), wherein the collecting mechanism (22) is installed at the front end of the base (11), the main cylinder (13) is installed at the upper end of the base (11), the top end of the main cylinder (13) is installed at the rear end of the telescopic bracket (14) through a flange, the front end of the telescopic bracket (14) is installed on the U-shaped frame (15), the rotating motor (16) is installed at the upper end of the U-shaped frame (15), the rotating plate (17) is installed on an output shaft of the rotating motor (16), the rotating chute (18) is installed at the upper end of the rotating plate (17), the rotating chute (18) is connected with the rotating rod (19) in a sliding fit manner, the rotating rod (19) is installed on the U-shaped frame (15), the lower end of the U-shaped frame (15) is provided with a clamping cylinder (20), and the top end of the clamping cylinder (20) is arranged on a clamping block (21) through a flange;

the collecting mechanism (22) comprises a rotating shaft (221), a connecting block (222), a connecting rack (223), a connecting gear (224), a connecting motor (225), a telescopic cylinder (226), a collecting frame (227) and a screening plate (228), wherein the lower end of the rotating shaft (221) is installed on the base (11) through a bearing, the connecting rack (223) is installed in the middle of the rotating shaft (221), the connecting gear (224) is meshed with the connecting rack (223), the connecting gear (224) is installed on an output shaft of the connecting motor (225), the connecting motor (225) is installed on the base (11) through a base, the upper end of the rotating shaft (221) is installed on the connecting block (222), the telescopic cylinder (226) is installed at the front end of the connecting block (222), the top end of the telescopic cylinder (226) is installed on the collecting frame (227), and the screening plate (228) is installed in the collecting frame (227);

the output device (5) comprises an output frame (51), a partition plate (52), a fixed plate (53), a sliding block (54), a leakage plate (55), a connecting cylinder (56), an auxiliary sliding groove (57), a foam frame (60), a cover frame (58) and two air pumps (59), wherein the upper end of the fixed plate (53) is installed on the storage frame (31), the lower end of the fixed plate (53) is installed on the cover frame (58), a hollow groove is formed in the middle of the cover frame (58), the foam frame (60) is installed at the lower end of the cover frame (58), the output frame (51) is installed in the hollow groove, the partition plate (52) is uniformly installed in the output frame (51), the sliding blocks (54) are symmetrically installed at the left end and the right end of the output frame (51), the sliding blocks (54) are connected with the auxiliary sliding groove (57) in a sliding fit manner, the auxiliary sliding groove (57) is installed on the leakage plate (55), the connecting cylinder (56) is installed between the leakage plate (55) and the output frame (51), two air pumps (59) are arranged at the front end and the rear end of the cover frame (58) through the base;

the storage device (3) comprises a storage frame (31), an input frame (32), a closing plate (33), a pushing cylinder (34), two operating motors (35), two stirring frames (36), two filter screens (37), a switch plate (44), a switch cylinder (45), a transverse plate (46), two connecting frames (38), a connecting pipe (39), a concentration frame (40), two opposite frames (41), a vertical plate (42) and an adjusting cylinder (43), wherein the input frame (32) is installed at the upper end of the storage frame (31), the pushing cylinder (34) is installed at the upper end of the storage frame (31), the top end of the pushing cylinder (34) is installed on the closing plate (33), the closing plate (33) is positioned right above the input frame (32), the two operating motors (35) are installed on the side wall of the front end of the storage frame (31) through a base, and the output shafts of the operating motors (35) are connected with the front end of the stirring frames (36), the rear end of the stirring frame (36) is arranged on the side wall of the storage frame (31) through a bearing, two filter screens (37) are arranged at the left end and the right end of the storage frame (31), two connecting frames (38) are arranged at the left end and the right end of the storage frame (31), each filter screen (37) corresponds to one connecting frame (38), a transverse plate (46) is installed on the inner wall of each storage frame (31), a switch plate (44) is installed at the lower end of each storage frame (31) through a pin shaft, a switch cylinder (45) is installed between each switch plate (44) and each transverse plate (46) through a pin shaft, two opposite frames (41) are installed on the outer wall of each storage frame (31), a concentration frame (40) is installed between each two opposite frames (41) through a pin shaft, a connecting pipe (39) is connected between each concentration frame (40) and each storage frame (31), a vertical plate (42) is installed on the lower side of the front end of each storage frame (31), and an adjusting cylinder (43) is installed between each vertical plate (42) and each concentration frame (40) through a pin shaft;

the connecting pipe (39) is of a telescopic structure, and the connecting pipe (39) is made of plastic materials;

stirring paddles are uniformly arranged on the stirring frame (36) along the circumferential direction of the stirring frame.

2. The intelligent production auxiliary equipment for powdered activated carbon as claimed in claim 1, wherein: the concentration frame (40) is of a gradually-reduced structure from top to bottom.

3. The intelligent production auxiliary equipment for powdered activated carbon as claimed in claim 1, wherein: the upper end of the output frame (51) is of an arc structure;

an open slot is arranged in the middle of the leaking plate (55).

4. The intelligent production auxiliary equipment for powdered activated carbon as claimed in claim 1, wherein: the lower end of the rotating plate (17) is provided with a gear groove;

the clamping block (21) is of a gear-shaped structure, and the clamping block (21) corresponds to the gear groove.

5. The intelligent production auxiliary equipment for powdered activated carbon as claimed in claim 1, wherein: screening holes are uniformly formed in the screening plate (228).