CN112225412A - HTRC engineering bacteria solidified particle feeding device and method for river sediment treatment - Google Patents

Abstract

The invention discloses a throwing device and a throwing method for HTRC engineering bacteria solidified particles for river sediment treatment, and relates to the technical field of river sediment treatment, the throwing device comprises a throwing box, wherein the inner part of the throwing box is rotatably connected with a first spiral conveying roller, the bottom of the throwing box is provided with a plurality of lower throwing holes, the top of the throwing box is provided with a storage box, and the lower part of the storage box is provided with a discharging hole, the throwing device has the beneficial effects that: this a device and method are put in to HTRC engineering fungus solidification granule for river sediment is administered, through using the rotatory HTRC engineering fungus solidification granule that drives the incasement portion of puting in of first spiral conveying roller to remove, and make it drop into aquatic from lower throwing hole department, thereby can be more even put in HTRC engineering fungus solidification granule and shed in aqueous, and owing to abandoned artifical mode of shedding, can effectual reduction manpower resources's input, thereby labour intensity of personnel's has been reduced, it is more convenient to use to compare in the mode of shedding of present use.

Description

HTRC engineering bacteria solidified particle feeding device and method for river sediment treatment

Technical Field

The invention relates to the technical field of river regulation, in particular to a device and a method for throwing HTRC engineering bacteria solidified particles for river sediment regulation.

Background

At present, after a large amount of garbage generated in daily production and life is discharged into a river channel or a lake or a pond for a long time, a large amount of pollutants are suspended in a water body and deposited at the bottom of the water, and because aerobic microorganisms need a large amount of dissolved oxygen when decomposing the excessive pollutants, the dissolved oxygen speed of the water body is far lower than the oxygen consumption speed of the aerobic microorganisms, the polluted water body and bottom mud thereof are in an extremely anoxic state for a long time, and anaerobic microorganisms become a main body for decomposing the pollutants in the extremely anoxic state, so that the black and odorous water body is generated due to the generation of a vulcanization reaction.

The EPSB engineering bacteria solidified particles can strongly inhibit anaerobic reaction in the sediment, eliminate black odor, rapidly reduce organic pollutants in the sediment, degrade or mineralize heavy metals and inorganic pollutants in the sediment, reduce the water content of the sediment, increase the density of the sediment, desertify the sediment, prevent deep sediment from being polluted and released into a water body, oxidize the sediment, and improve the dissolved oxygen content in the water body and the sediment, thereby strongly inhibiting pathogenic microorganisms such as faecal coliform and the like, creating a suitable benthic ecological environment for benthonic animals, and providing suitable bottom sediment soil conditions for aquatic plants. At present, the device and the method are widely applied to water body sediment treatment, but in the adding process, in order to enable EPSB engineering bacteria solidified particles to be uniformly dispersed in a water body, the EPSB engineering bacteria solidified particles are generally manually sprayed into the water body and are not directly poured into the water body, even if the EPSB engineering bacteria solidified particles are uniformly fed in a manual spraying mode, the feeding efficiency is too low, the labor intensity is high, time and labor are wasted, and therefore, the device and the method for feeding the HTRC engineering bacteria solidified particles for river sediment treatment are provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a device and a method for throwing HTRC engineering bacteria solidified particles for river sediment treatment, which solve the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: an HTRC engineering bacteria solidified particle throwing device for river sediment treatment comprises a throwing box, wherein the inside of the throwing box is rotatably connected with a first spiral conveying roller, the bottom of the throwing box is provided with a plurality of lower throwing holes, the top of the throwing box is provided with a storage box, a blanking hole is formed below the storage box, the inside of the storage box is rotatably connected with an upper stirring rotating rod, the outer side of the upper stirring rotating rod is provided with a plurality of rotating stirring blades, one side of the throwing box is provided with a force transmission connecting mechanism, one side of the force transmission connecting mechanism, which is far away from the throwing box, is rotatably connected with a rotating water wheel, one side of the throwing box, which is far away from the force transmission connecting mechanism, is provided with a feed back mechanism, one side of the throwing box, which is close to the feed back mechanism, is provided with a discharge groove, the top of the storage box, which is close to one side of the, the ship body mounting frame is mounted on one side, far away from the throwing box, of the mounting mechanism, and mounting holes are formed in the ship body mounting frame.

Further, power transmission coupling mechanism includes the transmission case, the inside of transmission case is rotated and is connected with first rotary disk, first rotary disk and last stirring dwang fixed connection, the inside of transmission case and the below that is located first rotary disk are rotated and are connected with first rotating gear, first rotating gear and first spiral conveying roller fixed connection, the second rolling disc is installed to one side of first rotating gear, driving belt has been cup jointed in the outside of second rolling disc, the second rolling disc passes through driving belt and is connected with first rotary disk transmission, the inside of transmission case and the below that is located first rotating gear are rotated and are connected with second rotating gear, second rotating gear and first rotating gear meshing, second rotating gear and rotation water wheels fixed connection.

Further, feed back mechanism includes the feed back case, the internal rotation of feed back case is connected with second spiral conveying roller, the install bin is installed at the top of feed back case, the inside of installing bin is provided with first servo motor, first servo motor's output penetrate the inside of feed back case and with second spiral conveying roller fixed connection.

Further, installation mechanism is including back of the body installation piece, the inner chute has been seted up to one side of back of the body installation piece, the inside rotation of inner chute is connected with the rotation lead screw, the inside sliding connection of inner chute has the rotation slider, the rotation lead screw run through rotate the slider and with rotate slider threaded connection, the second install bin is installed at the top of back of the body installation piece, the internally mounted of second install bin has second servo motor, the output of second servo motor penetrate the inside of inner chute and with rotate lead screw fixed connection, the reinforcement installing frame is installed to one side of second servo motor, reinforcement installing frame and hull installing frame fixed connection.

Furthermore, the top of the storage box is provided with an upper through groove, and the top of the storage box is positioned above the upper through groove and provided with a discharge hopper.

Furthermore, an observation window is arranged on one side of the storage box, and toughened glass is embedded in the observation window.

Further, a control panel is installed at the top of the storage box, and the first servo motor and the second servo motor are both electrically connected with the control panel.

Furthermore, two reinforcing plates are arranged inside the reinforcing and installing frame.

A method for throwing HTRC engineering bacteria solidified particles for river sediment treatment comprises the following steps:

s1, preparing granules: raw materials to be used are prepared into granular solids.

S2, adding particles: and placing the HTRC engineering bacteria solidified particles after the configuration into the feeding device by using a feeding hopper of the feeding device.

S3, starting water energy: install it and utilize the rotation water wheels rotation in the removal drive outside of hull after on the hull to the stirring dwang rotates on driving, stirs the material that is located the blowing fill inside.

S4, conveying particles: utilize hydroenergy to drive first spiral conveying roller and rotate, can make the HTRC engineering fungus solidification granule that falls down from the feed opening can utilize first spiral conveying roller to move forward to drop into in the water through throwing the hole down.

S5, excess material recovery: the HTRC engineering bacteria solidified particles moving to one end inside the feeding box fall into the feed back box through the discharge chute, and the height of the HTRC engineering bacteria solidified particles is lifted by the aid of the second spiral conveying rollers, so that the HTRC engineering bacteria solidified particles enter the storage box from the feed chute.

Further, when the ship body is rotated in S3, the first spiral conveying roller and the upper stirring rotating rod can be simultaneously rotated.

The invention provides a device and a method for throwing HTRC engineering bacteria solidified particles for river sediment treatment, which have the following beneficial effects:

1. this a device and method are put in to HTRC engineering fungus solidification granule for river sediment is administered, through using the rotatory HTRC engineering fungus solidification granule that drives the incasement portion of puting in of first spiral conveying roller to remove, and make it drop into aquatic from lower throwing hole department, thereby can be more even put in HTRC engineering fungus solidification granule and shed in aqueous, and owing to abandoned artifical mode of shedding, can effectual reduction manpower resources's input, thereby labour intensity of personnel's has been reduced, it is more convenient to use to compare in the mode of shedding of present use.

2. This a HTRC engineering fungus solidification granule input device and method for river sediment is administered, can install the afterbody at the hull with input device through using installation mechanism to can adjust input device's mounting height according to the height of hull and the height of the surface of water, make input device can be suitable for under the occasion that does not, and convenient installation on the hull of co-altitude, it is more convenient to install, and the use scene is more extensive.

Drawings

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

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is a side cross-sectional view of the present invention;

FIG. 4 is an enlarged view taken at A of FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the invention at B in FIG. 2;

FIG. 6 is an enlarged view of the invention at C of FIG. 3;

FIG. 7 is a schematic flow chart of the present invention.

In the figure: 1. a throwing box; 2. a first spiral conveying roller; 3. a lower throwing hole; 4. a material storage box; 5. an upper stirring rotating rod; 6. rotating the stirring blade; 7. a force transmission connection mechanism; 71. a transmission case; 72. a first rotating disk; 73. a first rotating gear; 74. a second rotating disk; 75. a drive belt; 76. a second rotating gear; 8. rotating the water wheel; 9. an upper through groove; 10. a discharge hopper; 11. a material returning mechanism; 111. returning the material tank; 112. a second spiral conveying roller; 113. a top mounting box; 114. a first servo motor; 12. a discharge chute; 13. a feed chute; 14. mounting mechanism 141, back mounting block; 142. an inner chute; 143. rotating the screw rod; 144. rotating the slide block; 145. a second installation box; 146. a second servo motor; 147. reinforcing the mounting frame; 15. a hull mounting frame; 16. mounting holes; 17. a reinforcing plate; 18. an observation window; 19. a control panel; 20. and (7) discharging holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 6, the present invention provides a technical solution: an HTRC engineering bacteria solidified particle throwing device for river sediment treatment comprises a throwing box 1, wherein the interior of the throwing box 1 is rotatably connected with a first spiral conveying roller 2, the bottom of the throwing box 1 is provided with a plurality of lower throwing holes 3, the top of the throwing box 1 is provided with a material storage box 4, the lower part of the material storage box 4 is provided with a material discharging hole 20, the interior of the material storage box 4 is rotatably connected with an upper stirring rotating rod 5, the outer side of the upper stirring rotating rod 5 is provided with a plurality of rotating stirring blades 6, one side of the throwing box 1 is provided with a force transmission connecting mechanism 7, one side of the force transmission connecting mechanism 7, which is far away from the throwing box 1, is rotatably connected with a rotating water wheel 8, one side of the throwing box 1, which is far away from the force transmission connecting mechanism 7, is provided with a material returning mechanism 11, one side of the throwing box 1, which is close to the material returning mechanism 11, an installation mechanism 14 is installed on one side of the throwing box 1, a ship body installation frame 15 is installed on one side, far away from the throwing box 1, of the installation mechanism 14, and an installation hole 16 is formed in the ship body installation frame 15.

Wherein, force transmission coupling mechanism 7 includes transmission case 71, the internal rotation of transmission case 71 is connected with first rotation dish 72, first rotation dish 72 and last stirring dwang 5 fixed connection, the inside of transmission case 71 just is located the below of first rotation dish 72 and rotates and is connected with first rotation gear 73, first rotation gear 73 and first spiral conveying roller 2 fixed connection, second rotation dish 74 is installed to one side of first rotation gear 73, driving belt 75 has been cup jointed in the outside of second rotation dish 74, second rotation dish 74 passes through driving belt 75 and is connected with first rotation dish 72 transmission, the inside of transmission case 71 just is located the below of first rotation gear 73 and rotates and is connected with second rotation gear 76, second rotation gear 76 meshes with first rotation gear 73, second rotation gear 76 and rotation water wheels 8 fixed connection, can utilize force transmission coupling mechanism 7 to transmit the power that rotation water wheels 8 rotate and produce to first spiral conveying roller 2 and last stirring dwang 5 and drive on first spiral conveying roller 2 and the stirring dwang 5 and the drive water wheels 5 The rotation of the motor is moved, and the energy is effectively saved.

The feed back mechanism 11 comprises a feed back box 111, a second spiral conveying roller 112 is rotatably connected inside the feed back box 111, a top mounting box 113 is mounted at the top of the feed back box 111, a first servo motor 114 is arranged inside the top mounting box 113, the output end of the first servo motor 114 penetrates into the feed back box 111 and is fixedly connected with the second spiral conveying roller 112, redundant HTRC engineering bacteria solidified particles can be transferred back to the storage box 4 by the feed back mechanism 11, and the next throwing and scattering are convenient.

Wherein, installation mechanism 14 includes back installation piece 141, interior spout 142 has been seted up to one side of back installation piece 141, the internal rotation of interior spout 142 is connected with rotates lead screw 143, the internal sliding connection of interior spout 142 has rotates slider 144, it runs through and rotates slider 144 and with rotate slider 144 threaded connection to rotate lead screw 143, second install bin 145 is installed at the top of back installation piece 141, the internally mounted of second install bin 145 has second servo motor 146, the output of second servo motor 146 penetrates the inside of interior spout 142 and with rotate lead screw 143 fixed connection, reinforcement installing frame 147 is installed to one side of second servo motor 146, reinforcement installing frame 147 and hull installing frame 15 fixed connection, conveniently adjust the height of input device when installing the input device at the hull afterbody, make the input device can be suitable for on the unnecessary waters.

Wherein, logical groove 9 has been seted up on the top of storage box 4, and storage box 4's top and be located the top of leading to groove 9 and install blowing fill 10, the inside of storage box 4 is put into HTRC engineering fungus solidification granule that can be more convenient.

An observation window 18 is formed in one side of the storage box 4, toughened glass is inlaid in the observation window 18, and the quantity of the HTRC engineering bacteria solidified particles remained in the storage box 4 can be observed from the outside.

Wherein, control panel 19 is installed at the top of stock box 4, and first servo motor 114 and second servo motor 146 all with control panel 19 electric connection, can directly put in the device through control panel 19 control, use simpler, it is more convenient to operate.

Two reinforcing plates 17 are arranged inside the reinforcing installation frame 147, so that the overall structural strength of the reinforcing installation frame 147 is increased, and the supporting force of the reinforcing installation frame 147 is improved.

A method for throwing HTRC engineering bacteria solidified particles for river sediment treatment comprises the following steps:

s1, preparing granules: raw materials to be used are prepared into granular solids.

S2, adding particles: and placing the HTRC engineering bacteria solidified particles after the configuration into the feeding device by using a discharging hopper 10 of the feeding device.

S3, starting water energy: install it and utilize the removal of hull to drive the rotation water wheels 8 rotation in the outside on the hull to the stirring dwang 5 rotates on the drive, stirs the material that is located the inside of blowing fill 10.

S4, conveying particles: the first spiral conveying roller 2 is driven to rotate by water energy, so that the HTRC engineering bacteria solidified particles falling from the blanking hole 20 can move forwards by the first spiral conveying roller 2 and fall into water through the lower feeding hole 3.

S5, excess material recovery: the solidified HTRC engineering bacteria particles moving to one end inside the throwing box 1 fall into the return box 111 through the discharge chute 12, and the height of the solidified HTRC engineering bacteria particles is lifted by the second spiral conveying roller 112, so that the solidified HTRC engineering bacteria particles enter the storage box 4 from the feed chute 13.

Wherein, can drive first spiral conveying roller 2 simultaneously and go up the rotation of stirring dwang 5 when the hull drives 8 rotations among the S3, directly utilize the water to supply energy as power to the input device, reduced the consumption of the energy.

In summary, when the HTRC engineering bacteria solidified particle throwing device and method for treating bottom sediment of river channel are used, firstly, the throwing device can be installed on the hull by using the hull installation frame 15 and the installation hole 16, when the ship is started and moves, the rotating water wheel 8 contacts the water surface and continuously rotates, the rotating water wheel 8 drives the second rotating gear 76 to rotate while rotating, the second rotating gear 76 drives the first rotating gear 73 to rotate, meanwhile, the first spiral conveying roller 2 continuously rotates under the drive of the first rotating gear 73, meanwhile, the second rotating disk 74 and the transmission belt 75 drive the first rotating disk 72 to simultaneously rotate, so that the upper stirring rotating rod 5 and the rotating stirring blade 6 rotate in the storage box 4 at a constant speed, after the throwing device is completely started, the HTRC engineering bacteria solidified particles are put into the storage box 4 by using the throwing hopper 10, meanwhile, the HTRC engineering bacteria solidified particles in the storage box 4 can be fully stirred by the upper stirring rotating rod 5 and the rotating stirring blade 6, and in the stirring process, the HTRC engineering bacteria solidified particles can fall into the throwing box 1 through the discharging hole 20, and can move in the throwing box 1 by the rotation of the first spiral conveying roller 2 and uniformly fall on the water surface from the lower throwing hole 3, when the HTRC engineering bacteria solidified particles move to one end close to the return box 111 from one end close to the discharging hole 20, the HTRC engineering bacteria solidified particles can fall into the return box 111 through the discharging groove 12, and simultaneously, the first servo motor 114 is used for driving the second spiral conveying roller 112 to rotate, so that the HTRC engineering bacteria solidified particles falling into the return box 111 rise, and can fall into the storage box 4 through the feeding groove 13 after rising to the same height of the feeding groove 13, the blanking and the spraying of the second time are convenient to carry out.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a device is put in to HTRC engineering fungus solidification granule that river sediment was administered, is including putting in case (1), its characterized in that: the automatic feeding device is characterized in that a first spiral conveying roller (2) is connected to the interior of the feeding box (1) in a rotating mode, a plurality of lower feeding holes (3) are formed in the bottom of the feeding box (1), a material storage box (4) is installed at the top of the feeding box (1), a discharging hole (20) is formed in the lower portion of the material storage box (4), an upper stirring rotating rod (5) is connected to the interior of the material storage box (4) in a rotating mode, a plurality of rotating stirring blades (6) are installed on the outer side of the upper stirring rotating rod (5), a force transmission connecting mechanism (7) is installed on one side of the feeding box (1), a rotating water wheel (8) is connected to one side, away from the force transmission connecting mechanism (7), of the feeding box (1) is provided with a returning mechanism (11), a discharging groove (12) is formed in one side, close to the returning mechanism (11), of the feeding box (1), feed chute (13) have been seted up at the top that stock box (4) are close to feed back mechanism (11) one side, installation mechanism (14) are installed to one side of putting in case (1), hull installing frame (15) are installed to one side of keeping away from of installation mechanism (14) putting in case (1), mounting hole (16) have been seted up on hull installing frame (15).

2. The device for throwing the solidified HTRC engineering bacteria for treating the bottom sediment of the river channel according to claim 1, wherein: force transmission coupling mechanism (7) includes transmission case (71), the internal rotation of transmission case (71) is connected with first rotation wheel (72), first rotation wheel (72) and last stirring dwang (5) fixed connection, the inside of transmission case (71) and the below that is located first rotation wheel (72) rotate and be connected with first rotation gear (73), first rotation gear (73) and first spiral conveying roller (2) fixed connection, second rotation disc (74) are installed to one side of first rotation gear (73), driving belt (75) have been cup jointed in the outside of second rotation disc (74), second rotation disc (74) are connected with first rotation wheel (72) transmission through driving belt (75), the inside of transmission case (71) and the below that is located first rotation gear (73) rotate and be connected with second rotation gear (76), the second rotating gear (76) is meshed with the first rotating gear (73), and the second rotating gear (76) is fixedly connected with the rotating water wheel (8).

3. The device for throwing the solidified HTRC engineering bacteria for treating the bottom sediment of the river channel according to claim 1, wherein: feed back mechanism (11) are including feed back box (111), the inside rotation of feed back box (111) is connected with second spiral conveying roller (112), install a install bin (113) at the top of feed back box (111), the inside of top install bin (113) is provided with first servo motor (114), the output of first servo motor (114) penetrate the inside of feed back box (111) and with second spiral conveying roller (112) fixed connection.

4. The device for throwing the solidified HTRC engineering bacteria for treating the bottom sediment of the river channel according to claim 1, wherein: the mounting mechanism (14) comprises a back mounting block (141), one side of the back mounting block (141) is provided with an inner sliding groove (142), a rotating screw rod (143) is rotatably connected inside the inner chute (142), a rotating slide block (144) is slidably connected inside the inner chute (142), the rotating screw rod (143) penetrates through the rotating slide block (144) and is in threaded connection with the rotating slide block (144), a second mounting box (145) is mounted at the top of the back mounting block (141), a second servo motor (146) is mounted in the second mounting box (145), the output end of the second servo motor (146) penetrates into the inner chute (142) and is fixedly connected with the rotary screw rod (143), a reinforcing installation frame (147) is arranged on one side of the second servo motor (146), the reinforcing installation frame (147) is fixedly connected with the ship body installation frame (15).

5. The device for throwing the solidified HTRC engineering bacteria for treating the bottom sediment of the river channel according to claim 1, wherein: an upper through groove (9) is formed in the top of the storage box (4), and a material placing hopper (10) is arranged on the top of the storage box (4) and above the upper through groove (9).

6. The device for throwing the solidified HTRC engineering bacteria for treating the bottom sediment of the river channel according to claim 1, wherein: an observation window (18) is formed in one side of the storage box (4), and tempered glass is inlaid in the observation window (18).

7. The device for throwing the solidified HTRC engineering bacteria for treating the bottom sediment of the river channel according to claim 1, wherein: control panel (19) are installed at the top of material storage box (4), first servo motor (114) and second servo motor (146) all with control panel (19) electric connection.

8. The device for throwing the HTRC engineering bacteria curing particles for treating the bottom sediment of the river according to claim 4, wherein the device comprises: two reinforcing plates (17) are arranged inside the reinforcing installation frame (147).

9. A method for putting HTRC engineering bacteria curing particles for river sediment treatment is characterized by comprising the following steps: the method comprises the following steps:

s1, preparing granules: raw materials to be used are prepared into granular solids.

S2, adding particles: and placing the HTRC engineering bacteria solidified particles after the configuration into the feeding device by using a discharging hopper (10) of the feeding device.

S3, starting water energy: after the material discharging device is installed on a ship body, the rotation water wheel (8) on the outer side is driven to rotate by the movement of the ship body, so that the upper stirring rotating rod (5) is driven to rotate, and the material inside the material discharging hopper (10) is stirred.

S4, conveying particles: the first spiral conveying roller (2) is driven to rotate by water energy, so that the HTRC engineering bacteria solidified particles falling from the blanking hole (20) can move forwards by the first spiral conveying roller (2) and fall into water through the lower feeding hole (3).

S5, excess material recovery: the solidified HTRC engineering bacteria particles moving to one end inside the throwing box (1) fall into the material return box (111) through the discharging groove (12), and the height of the solidified HTRC engineering bacteria particles is lifted by the second spiral conveying roller (112), so that the solidified HTRC engineering bacteria particles enter the material storage box (4) from the feeding groove (13).

10. The method for throwing the solidified HTRC engineering bacteria for treating the bottom sediment of the river channel according to claim 9, wherein the method comprises the following steps: and when the ship body is driven (8) to rotate in the S3, the first spiral conveying roller (2) and the upper stirring rotating rod (5) can be driven to rotate at the same time.

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