CN112830596B - Device for removing iron and manganese in water body by membrane combination process - Google Patents

Abstract

The invention discloses a device for removing iron and manganese in water by a membrane combination process, which comprises a coagulation tank, a water collecting tank, bottom feet, a water inlet pipe, an overflow plate, a side plate, a foot stand, a handrail, a ladder frame, a control panel, a control key, a power line, an ultrafiltration membrane column, a drain pipe and a precipitation removing mechanism.

Description

Device for removing iron and manganese in water body by membrane combination process

Technical Field

The invention relates to the field related to water treatment, in particular to a device for removing iron and manganese in a water body by a membrane combination process.

Background

Water is an indispensable resource in people's production and the life, ferro-manganese is the aquatic and depends on some kind of material, also be the human indispensable microelement, human required ferro-manganese mainly derives from food and drinking water, however, if the aquatic iron content is too much, also can cause harm, still make indisputable bacterium breed simultaneously and block up the pipeline, drinking water ferro-manganese is too much, can arouse that the health is uncomfortable, need expose the oxidation through earlier to water when getting rid of ferro-manganese, and filter it through the milipore filter post, thereby can reduce the ferro-manganese element of aquatic, make the water up to standard.

In the process of removing ferromanganese, when exposure oxidation treatment is usually carried out in a coagulation tank, a coagulant is required to be added into the coagulation tank, so that the coagulation tank can carry out relative chemical reaction with ferromanganese in water, and relative precipitation is generated, then, after the precipitation is precipitated, water body overflows, after the reaction, the generated precipitation is accumulated at the bottom of the coagulation tank for a long time, the precipitation is easy to be retained in the tank body and difficult to be discharged along with the water body when the coagulation tank is subjected to drainage treatment, and workers are required to carry out repeated washing and brushing operation on the coagulation tank by means of water spraying and brushing equipment, so that the precipitate in the coagulation tank can be discharged, the precipitation is difficult to be removed and discharged in the operation flow, subsequent cleaning work is required to be carried out, and time and labor force are consumed.

Disclosure of Invention

Therefore, in order to solve the above-mentioned defects that the sediment is difficult to clear and discharge in the operation process, the subsequent cleaning work needs to be carried out, the time consumption is caused, and the labor force is increased, the invention provides the device for removing the ferro-manganese in the water body by the membrane combination process.

The invention is realized in such a way, a device for removing iron and manganese in a water body by a membrane combination process is constructed, the device comprises a coagulation tank and a precipitation removing mechanism, the front end of the coagulation tank is welded and jointed with a water collecting tank, four corners of the bottom surface of the coagulation tank and the water collecting tank are welded with feet, a water inlet pipe is integrally cast at the top end of the left side of the coagulation tank, the top end of the right side of the coagulation tank is fixed with the precipitation removing mechanism through bolts, the precipitation removing mechanism consists of a motor, a force guide mechanism, a round rod, transmission teeth, a guide mechanism, an abutment, a stirring mechanism, a bump, a support frame, a receiving mechanism and a guide frame, the left end of the motor is fixed with the force guide mechanism through bolts, the bottom end of the left side of the force guide mechanism is in sliding contact with the round rod, the left end and the right end of the outer side of the round rod are welded with the transmission teeth at intervals, the rear ends of the transmission teeth are mutually meshed with the guide mechanism, the bottom end of the guide mechanism is rotatably installed on the abutment, and the front end of the abutment is welded with the stirring mechanism, the left end of the outer wall of the stirring mechanism is rotatably installed on the bump, the front end of the bump is welded and attached to the support frame, the bottom end of the bearing mechanism is rotatably connected with the stirring mechanism, the left end of the round rod is rotatably matched with the guide frame, the bottom end of the motor is fixed with the concrete tank bolt, the right end of the force guide mechanism, the front end of the support frame and the rear end of the bearing mechanism are arranged in the concrete tank bolt, and the outer end of the force guide mechanism is fixed with the concrete tank bolt.

Preferably, the guide mechanism comprises guard shield, nose girder, bull stick, first awl tooth, second taper tooth and third taper tooth, guard shield inner wall left end is provided with the nose girder that the equidistance was arranged through integrative casting mode, the bull stick outer wall rotates and installs on the nose girder, both ends are through first taper tooth respectively with second taper tooth and third taper tooth intermeshing about the bull stick, second taper tooth right-hand member and motor bolt fastening, third taper tooth left side middle part and round bar bolt fastening, guard shield right-hand member bolt mounting is in the concrete chute to guard shield left side bottom is rotated with the round bar and is connected.

Preferably, guiding mechanism changes tooth, carrying frame, cradle and flitch by frame plate, first commentaries on classics tooth, second and constitutes, the frame plate left side rotates in the past to the back in proper order and installs first commentaries on classics tooth and second commentaries on classics tooth, the second changes tooth front side middle part and carries a welding laminating, it rotates to carry the frame bottom and installs on the cradle, the perpendicular welding of frame plate rear side has the flitch of longitudinal symmetry, first commentaries on classics tooth front end and driving tooth intermeshing, the cradle bottom is rotated and is installed on the tie rod, flitch right-hand member and concrete chute bolt fastening.

Preferably, rabbling mechanism comprises arm brace, horizontal pole, stirring board, sleeve, landing leg, revolving rack, U-shaped frame and gag lever post, arm brace inner wall and horizontal pole normal running fit, horizontal pole rear end integrated into one piece is stirring on the board, the embedding of sleeve right-hand member is fixed in on the horizontal pole, the sleeve left end is fixed with the landing leg through integrative casting mode, the landing leg left end is rotated and is installed the revolving rack, the revolving rack right-hand member rotates and sets up on the U-shaped frame, both ends welding has outstanding gag lever post about the U-shaped frame front side, arm brace outer wall right-hand member rotates and installs on the lug, stir board rear end and supporting mechanism and weld.

Preferably, the supporting mechanism comprises first rocking arm, column block, second rocking arm, mounting panel and contact foot, first rocking arm bottom and column block normal running fit, first rocking arm, top are rotated the embedding on the second rocking arm, second rocking arm top is rotated with the mounting panel and is connected, the symmetrical welding of mounting panel left and right sides has contact foot, the column block front end welds with stirring mechanism, contact foot rear end and concrete tank bolt fastening.

Preferably, the concrete tank front side middle part is fixed through integrated into one piece mode and overflow plate, the water catch bowl rear portion top is fixed through curb plate and concrete tank welding, the welding of concrete tank right side bottom has the foot platform, foot platform top surface right side welds with the handrail to foot platform ground front end and ladder frame bolt fastening, control panel is installed to concrete tank front side right-hand member bolt, control panel front end and bottom respectively with control key and power cord embedding cooperation, ultrafiltration membrane post is installed in the central department embedding of water catch bowl bottom, concrete tank and water catch bowl bottom surface middle part integrative casting have the drain pipe, the motor passes through the control key and is connected with the power cord electricity.

Preferably, the upper end and the lower end of the rotating rod are perpendicularly welded with the first bevel gear, the second bevel gear and the third bevel gear are consistent in size and specification, the size and specification are not limited actually, and production can be carried out according to actual installation and use requirements.

Preferably, the U-shaped frame right-hand member is fixed through integrative casting mode and brace, stir the inclined plane structure that board right side bottom was upwards inclined from left to right gradually, and the angle on inclined plane can set up according to the mounting height who stirs the board.

Preferably, the material of the guard shield is aluminum alloy.

Preferably, the transmission gear, the first rotating gear and the second rotating gear are made of stainless steel.

Preferably, the material of stirring board is carbon fiber.

The invention has the following advantages: the invention provides a device for removing iron and manganese in water body by a membrane combined process through improvement, compared with the same type of equipment, the device has the following improvement:

the method has the advantages that: according to the device for removing iron and manganese in water body by using the membrane combination process, the precipitation removing mechanism is arranged on the coagulating tank, so that the round rod is driven to rotate by the force guide mechanism after the motor is powered on, the round rod drives the guide mechanism by the transmission gear, the lapping rod is forced to rotate along with the round rod, the stirring mechanism is driven to stir precipitates in the water body, and the stirring mechanism is connected and fixed by the connection mechanism, so that the advantages of conveniently and effectively stirring and discharging the precipitates, saving labor time and reducing labor waste are achieved.

The method has the advantages that: according to the device for removing iron and manganese in the water body by the membrane combination process, the motor is provided with the force guide mechanism, the rotating rod is driven to rotate on the guide beam by the first bevel gear and the second bevel gear, and the rotating rod transmits the transmission force to the round rod through the first bevel gear and the second bevel gear to drive the round rod to rotate, so that the advantages of conveniently guiding and conveying the rotary force on the motor and improving the use convenience are achieved.

The advantages are that (3): according to the device for removing iron and manganese in water body by using the membrane combination process, the transmission teeth are provided with the guide mechanisms, and after the first rotating teeth are stressed on the transmission teeth, the first rotating teeth drive the second rotating teeth to rotate on the frame plate, the lifting frame rotates along with the first rotating teeth, the rocking frame is rotated to apply force, the rocking frame can apply force to the connecting rod, the purpose of stably applying force to the connecting rod in an up-and-down rotating mode is achieved, and the advantages of stability and convenience in transmission are achieved.

The advantages are that: according to the device for removing iron and manganese in water body by using the membrane combination process, the stirring mechanism is arranged on the lapping rod, the supporting arm rotates on the lug, the stirring plate and the cross rod are driven to rotate up and down, the supporting leg pushes the rotating frame to guide the stirring plate to rotate, and the advantages that the stirring plate can be conveniently stirred in the water body, precipitates can be mixed with the water body, and the discharge is facilitated are achieved.

The advantages are that: according to the device for removing iron and manganese in water body by using the membrane combination process, the supporting mechanism is arranged on the stirring plate, and the stirring plate is driven by the column block to rotate on the first rotating arm, so that the first rotating arm is stressed and then synchronously rotates on the second rotating arm, and the second rotating arm is stably installed through the installation plate and the contact pin, so that the advantages of conveniently, stably and synchronously supporting the rotation of the stirring plate and improving the stable effect of stirring operation are achieved.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the sump according to the present invention;

FIG. 3 is a schematic view of the structure of the starch removing mechanism of the present invention;

FIG. 4 is a schematic view of a force directing mechanism of the present invention;

FIG. 5 is a schematic view of the guide mechanism of the present invention;

FIG. 6 is a schematic view of the agitation mechanism of the present invention;

FIG. 7 is a schematic view of the receiving mechanism of the present invention.

Wherein: a coagulation tank-1, a water collecting tank-2, a footing-3, a water inlet pipe-4, an overflow plate-5, a side plate-6, a footstool-7, a handrail-8, a ladder-9, a control panel-10, a control key-11, a power cord-12, an ultrafiltration membrane column-13, a water outlet pipe-14, a precipitation removing mechanism-15, a motor-1501, a force guide mechanism-1502, a round rod-1503, a transmission tooth-1504, a guide mechanism-1505, a butt-1506, a stirring mechanism-1507, a bump-1508, a strut-1509, a bearing mechanism-1510, a guide frame-1511, a shield-15021, a guide beam-15022, a rotating rod-15023, a first taper tooth-15024, a second taper tooth-15025, a third taper tooth-15026, a frame plate-15051, a water inlet pipe-4, a water outlet plate-15, a handrail-8, a ladder-9, a ladder rack-9, a control panel-10, a control key-1504, a control key-1508, a control mechanism, a control mechanism, a, The device comprises a first rotating tooth-15052, a second rotating tooth-15053, a lifting frame-15054, a cradle-15055, a pasting plate-15056, a supporting arm-15071, a cross bar-15072, a stirring plate-15073, a sleeve-15074, a supporting leg-15075, a rotating frame-15076, a U-shaped frame-15077, a limiting rod-15078, a first rotating arm-15101, a column block-15102, a second rotating arm-15103, a mounting plate-15104 and a contact foot-15105.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 7, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a device for removing iron and manganese in a water body by a membrane combination process through improvement, which comprises a coagulation tank 1 and a precipitation removing mechanism 15, wherein the front end of the coagulation tank 1 is welded and attached to a water collecting tank 2, four corners of the bottom surfaces of the coagulation tank 1 and the water collecting tank 2 are welded with bottom feet 3, a water inlet pipe 4 is integrally cast at the top end of the left side of the coagulation tank 1, the top end of the right side of the coagulation tank 1 is fixed with the precipitation removing mechanism 15 through a bolt, the precipitation removing mechanism 15 consists of a motor 1501, a force guide mechanism 1502, a round rod 1503, transmission teeth 1504, a guide mechanism 1505, an abutment 1506, a stirring mechanism 1507, a bump 1508, a strut 1509, a bearing mechanism 1510 and a guide frame 1511, the left end of the motor 1501 is fixed with the force guide mechanism 1502, the bottom end of the left side of the force guide mechanism 1502 is in sliding contact with the round rod 1503, two transmission teeth are welded at intervals at the left end and the right end of the outer side of the round rod 1503, the rear end of the transmission teeth 1504 is meshed with the guide mechanism 1505, the bottom end of the guide mechanism 1506 is rotatably installed on the abutment 1506, the front end of the connecting rod 1506 is welded with the stirring mechanism 1507, the left end of the outer wall of the stirring mechanism 1507 is rotatably installed on the bump 1508, the front end of the bump 1508 is welded and attached to the support frame 1509, the bottom end of the bearing mechanism 1510 is rotatably connected with the stirring mechanism 1507, the left end of the round rod 1503 is rotatably matched with the guide frame 1511, the bottom end of the motor 1501 is fixed with the concrete tank 1 through bolts, the right end of the guide mechanism 1502, the front end of the support frame 1509 and the rear end of the bearing mechanism 1510 are mounted in the concrete tank 1 through bolts, and the outer end of the guide mechanism 1505 is fixed with the concrete tank 1 through bolts.

Further, the guide mechanism 1502 comprises guard shield 15021, nose girder 15022, bull stick 15023, first awl tooth 15024, second awl tooth 15025 and third awl tooth 15026, guard shield 15021 inner wall left end is provided with the nose girder 15022 that the equidistance was arranged through integrative casting mode, bull stick 15023 outer wall is rotated and is installed on nose girder 15022, both ends are through first awl tooth 15024 respectively with second awl tooth 15025 and third awl tooth 15026 intermeshing about bull stick 15023, second awl tooth 15025 right-hand member is with motor 1501 bolt fastening, third awl tooth 15026 left side middle part and bull stick 1503 bolt fastening, guard shield 15021 right-hand member bolt is installed in concrete tank 1 to guard shield 15021 left side bottom rotates with bull stick 1503 to be connected, does benefit to guide the transmission power of motor 1501, improves the convenience of use.

Further, the guide mechanism 1505 is composed of a frame plate 15051, a first rotating tooth 15052, a second rotating tooth 15053, a lifting frame 15054, a rocking frame 15055 and a pasting plate 15056, the left side of the frame plate 15051 is sequentially and rotatably provided with the first rotating tooth 15052 and the second rotating tooth 15053 from the front to the back, the middle part of the front side of the second rotating tooth 15053 is welded and jointed with the lifting frame 15054, the bottom end of the lifting frame 15054 is rotatably arranged on the rocking frame 15055, the pasting plate 15056 which is symmetrical up and down is vertically welded on the rear side of the frame plate 15051, the front end of the first rotating tooth 15052 is meshed with the transmission tooth 1504, the bottom end of the rocking frame 15055 is rotatably arranged on the bridging rod 1506, the right end of the pasting plate 15056 is fixed with the coagulating groove 1 through a bolt, the transmission is effective, and the transmission is improved in conveying stability.

Further, the stirring mechanism 1507 is composed of a supporting arm 15071, a cross bar 15072, a stirring plate 15073, a sleeve 15074, a supporting leg 15075, a rotating frame 15076, a U-shaped frame 15077 and a limiting rod 15078, the inner wall of the supporting arm 15071 is matched with the cross bar 15072 in a rotating way, the rear end of the cross bar 15072 is integrally formed on the stirring plate 15073, the right end of the sleeve 15074 is embedded and fixed on the cross bar 15072, the left end of the sleeve 15074 is fixed with the supporting leg 15075 in an integral casting way, the left end of the supporting leg 15075 is rotatably provided with the rotating frame 15076, the right end of the rotating frame 15076 is rotatably arranged on the U-shaped frame 15077, the upper and lower ends of the front side of the U-shaped frame 15077 are welded with the protruding limiting rods 15078, the right end of the outer wall of the supporting arm 15071 is rotatably arranged on a bump 1508, the rear end of the stirring plate 15073 is welded with a bearing mechanism 1510, and the stirring operation is effectively carried out on the water body, so that the precipitate can be mixed with the water body and discharged.

Further, supporting mechanism 1510 comprises first rocking arm 15101, column 15102, second rocking arm 15103, mounting panel 15104 and feeler foot 15105, first rocking arm 15101 bottom and column 15102 normal running fit, first rocking arm 15101, top are rotated and are imbedded on second rocking arm 15103, second rocking arm 15103 top is rotated with mounting panel 15104 and is connected, mounting panel 15104 left and right sides symmetry welding has feeler foot 15105, the column 15102 front end is welded with rabbling mechanism 1507, feeler foot 15105 rear end and coagulation tank 1 bolt fastening carry out effectual rotation to stirring mechanism 1507 and accept, do benefit to the stable effect of installation use.

Further, 1 front side middle part of coagulation tank is fixed through integrated into one piece mode and overflow plate 5, 2 rear portion tops of water catch bowl are through curb plate 6 and 1 welded fastening of coagulation tank, 1 right side bottom welding of coagulation tank has foot platform 7, 7 top surfaces of foot platform right side and handrail 8 weld to foot platform 7 ground front end and ladder 9 bolt fastening, control panel 10 is installed to 1 front side right-hand member bolt of coagulation tank, control panel 10 front end and bottom respectively with control key 11 and power cord 12 embedding cooperation, ultrafiltration membrane post 13 is installed in 2 bottom center departments of water catch bowl embedding, coagulation tank 1 and 2 bottom surface middle part of water catch bowl are cast integrally and have drain pipe 14, motor 1501 is connected through control key 11 and power cord 12 electricity, makes motor 1501 can switch on and move.

Further, both ends and first awl tooth 15024 vertical welding about bull stick 15023, first awl tooth 15024, second awl tooth 15025 and third awl tooth 15026's size and specification are unanimous, do benefit to production and install.

Further, U-shaped frame 15077 right-hand member is fixed through integrative casting mode and brace 15071, stir the inclined plane structure that board 15073 right side bottom was for from left to right ascending gradually, do benefit to and carry out effectual stirring and reduce the resistance when stirring to the surface of water.

Further, the shroud 15021 is made of an aluminum alloy, and has high hardness and light weight.

Furthermore, the transmission gear 1504, the first rotating gear 15052 and the second rotating gear 15053 are made of stainless steel, have high hardness and are not easy to rust.

Further, stir board 15073's material is carbon fiber, and the hardness is high, and the quality is little and corrosion-resistant.

The invention provides a device for removing iron and manganese in water body by improving a membrane combination process, which operates as follows;

firstly, the device is placed at a proper position, then, a power line 12 is connected with a power supply, an external conveying pipeline and a drainage pipeline are respectively connected and fixed with a water inlet pipe 4 and a drainage pipe 14, when an external water body is placed in a coagulation tank 1 through the water inlet pipe 4, a reagent required by exposure oxidation can be poured into the water body in the coagulation tank 1, so that the water body reacts with the reagent and precipitates are generated, the water body overflows, the overflowing water body flows into a water collecting tank 2 along an overflow plate 5 to be intensively placed, then, the external conveying pipeline conveys and discharges the water body in the water collecting tank 2 through the drainage pipe 14, the overflowing water body is filtered through an ultrafiltration membrane column 13 and then is discharged, and the operation of removing iron and manganese is completed;

secondly, when the water and the sediment in the coagulation tank 1 need to be discharged, at this time, the control key 11 can be pressed to electrify the motor 1501, and then the motor is enabled to drive the first bevel gear 15024 to drive the rotating rod 15023 to rotate on the guide beam 15022 through the second bevel gear 15025, and the bottom end of the rotating rod 15023 is enabled to drive the round rod 1503 to rotate through the first bevel gear 15024 and the third bevel gear 15026;

thirdly, after the round rod 1503 rotates, the transmission tooth 1504 drives the first rotating tooth 15052 and the second rotating tooth 15053 to synchronously rotate on the frame plate 15051, and the second rotating tooth 15053 rotates to drive the lifting frame 15054 to rotate, so that the outer end of the lifting frame 15054 applies relative lifting force to the cradle 15055 after rotating, and the cradle 15055 keeps swinging up and down;

fourthly, when the cradle 15055 swings, the lever 1506 is forced to move up and down, and the lever 1506 is forced to rotate up and down behind the arm 15071, so that the arm 15071 rotates on the protrusion 1508, and the supporting arm 15071 applies a vertical thrust to the stirring plate 15073 through the cross bar 15072, so that the stirring plate 15073 is vertically stirred in the water body, and the cross bar 15072 is forced on the supporting arm 15071 to rotate relatively, the supporting legs 15075 are driven to rotate up and down through the sleeves 15074, the rotating frame 15076 rotates up and down on the U-shaped frame 15077 along with the supporting legs 15075, the limiting rods 15078 synchronously limit and rotate the supporting legs 15075 and the rotating frame 15076 on the U-shaped frame 15077, the stirring plate 15073 can stir in the left and right directions in the water body, the stirring effect of sediments in the water body is improved, and the sediments in the water body are fully mixed with the water body;

fifthly, when the stirring plate 15073 rotates, the stirring plate 15073 drives the first rotating arm 15101 and the second rotating arm 15103 to rotate relatively and synchronously through the column block 15102, the stirring plate 15073 is rotatably supported, and the second rotating arm 15103 is fixed in the coagulation tank 1 through the mounting plate 15104 and the antenna 15105, so that the stirring plate 15073 can stir stably;

sixthly, the stirring plate 15073 mixes the water and the sediment sufficiently to float the accumulated sediment in the water, and then the water in the coagulation tank 1 is conveyed and discharged through an external conveying device to complete the drainage operation.

The invention provides a device for removing iron and manganese in a water body by improving a membrane combination process, and the device has the advantages that the precipitation removing mechanism 15 is arranged on the coagulation tank 1, so that a motor 1501 is electrified to drive a round rod 1503 to rotate through a force guide mechanism 1502, the round rod 1503 drives a guide mechanism 1505 through a transmission tooth 1504, a pull rod 1506 is stressed to rotate along with the round rod, a stirring mechanism 1507 is driven to stir precipitates in the water body, the stirring mechanism 1507 is connected and fixed through a connection mechanism 1510, the precipitates are conveniently and effectively stirred and discharged, the labor time is saved, and the labor waste is reduced; the motor 1501 is provided with the force guide mechanism 1502, the rotating rod 15023 is driven to rotate on the guide beam 15022 through the first bevel gear 15024 and the second bevel gear 15025, the rotating rod 15023 transmits the transmission force to the round rod 1503 through the first bevel gear 15024 and the second bevel gear 15025 to drive the round rod 1503 to rotate, so that the rotating force on the motor 1501 can be conveniently guided and conveyed, and the advantage of convenience in use is improved; the guide mechanism 1505 is arranged on the transmission tooth 1504, and after the first rotating tooth 15052 bears force on the transmission tooth 1504, the first rotating tooth 15052 drives the second rotating tooth 15053 to rotate on the frame plate 15051, the lifting frame 15054 rotates along with the frame, the cradle 15055 is rotated to apply force, the cradle 15055 can apply force to the connecting rod 1506, the stable up-and-down rotating force application to the connecting rod 1506 is achieved, and the advantages of stable and convenient transmission are facilitated; the stirring mechanism 1507 is arranged on the connecting rod 1506, the supporting arm 15071 rotates on the lug 1508, the stirring plate 15073 and the cross rod 15072 are driven to rotate up and down, the supporting leg 15075 pushes the rotating frame 15076, and the stirring plate 15073 is guided to rotate, so that the stirring plate 15073 can be conveniently stirred in the water body, the sediment is mixed with the water body, and the water body is beneficial to discharge; by arranging the bearing mechanism 1510 on the stirring plate 15073 and driving the stirring plate 15073 to rotate on the first rotating arm 15101 through the column block 15102, the first rotating arm 15101 is stressed and then synchronously rotates on the second rotating arm 15103, and the second rotating arm 15103 is stably installed through the installation plate 15104 and the contact foot 15105, so that the advantages of conveniently, stably and synchronously bearing the rotation of the stirring plate 15073 and improving the stable effect of stirring operation are achieved.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A device for removing iron and manganese in a water body by a membrane combination process comprises a coagulation tank (1), wherein the front end of the coagulation tank (1) is welded and attached to a water collecting tank (2), four corners of the bottom surface of the coagulation tank (1) and the water collecting tank (2) are welded with bottom feet (3), and a water inlet pipe (4) is integrally cast at the top end of the left side of the coagulation tank (1);

the method is characterized in that: the coagulating basin is characterized by further comprising a sediment removing mechanism (15), wherein the top end of the right side of the coagulating basin (1) is fixed with the sediment removing mechanism (15) through a bolt, the sediment removing mechanism (15) consists of a motor (1501), a force guide mechanism (1502), a round rod (1503), transmission teeth (1504), a guide mechanism (1505), a butt rod (1506), a stirring mechanism (1507), a bump (1508), a support frame (1509), a bearing mechanism (1510) and a guide frame (1511), the left end of the motor (1501) is fixed with the force guide mechanism (1502) through a bolt, the bottom end of the left side of the force guide mechanism (1502) is in sliding contact with the round rod (1503), the transmission teeth (1504) are welded at intervals at the left end and the right end of the outer side of the round rod (1503), the rear end of the transmission teeth (1504) is meshed with the guide mechanism (1502), the bottom end of the guide mechanism (1504) is rotatably installed on the butt rod (1505), the front end of the butt rod (1506) is welded with the stirring mechanism (1507), stirring mechanism (1507) outer wall left end is rotated and is installed on lug (1508), lug (1508) front end and strut (1509) welding laminating, supporting mechanism (1510) bottom is rotated with stirring mechanism (1507) and is connected, round bar (1503) left end and guide frame (1511) normal running fit, motor (1501) bottom and concrete groove (1) bolt fastening, guide mechanism (1502) right-hand member, strut (1509) front end and supporting mechanism (1510) rear end bolt fastening are in concrete groove (1), guide mechanism (1505) outer end and concrete groove (1) bolt fastening.

2. The device for removing iron and manganese in water body by using membrane combination process according to claim 1, characterized in that: guide mechanism (1502) comprises guard shield (15021), nose girder (15022), bull stick (15023), first awl tooth (15024), second awl tooth (15025) and third awl tooth (15026), guard shield (15021) inner wall left end is provided with nose girder (15022) that the equidistance was arranged through integrative casting mode, bull stick (15023) outer wall is rotated and is installed on nose girder (15022), both ends are through first awl tooth (15024) respectively with second awl tooth (15025) and third awl tooth (15026) intermeshing about bull stick (15023), second awl tooth (15025) right-hand member and motor (1501) bolt fastening, third awl tooth (15026) left side middle part and round pole (1503) bolt fastening, guard shield (15021) right-hand member bolt mounting is in coagulating basin (1) to guard shield (15021) left side bottom rotates with round pole (1503) and is connected.

3. The device for removing iron and manganese in water body by using membrane combination process according to claim 1, characterized in that: guiding mechanism (1505) by frame plate (15051), first commentaries on classics tooth (15052), second commentaries on classics tooth (15053), carry frame (15054), cradle (15055) and flitch (15056) to constitute, frame plate (15051) left side is from the past to the back in proper order to rotate and is installed first commentaries on classics tooth (15052) and second commentaries on classics tooth (15053), second commentaries on classics tooth (15053) front side middle part and carries frame (15054) welding laminating, it installs on cradle (15055) to carry frame (15054) bottom rotation, frame plate (15051) rear side vertical welding has flitch (15056) of longitudinal symmetry, first commentaries on classics tooth (15052) front end and driving tooth (1504) intermeshing, cradle (15055) bottom rotation is installed on take lever (1506), flitch (15056) right-hand member and coagulating basin (1) bolt fastening.

4. The device for removing iron and manganese in water body by using membrane combination process according to claim 1, characterized in that: the stirring mechanism (1507) consists of a supporting arm (15071), a cross bar (15072), a stirring plate (15073), a sleeve (15074), a supporting leg (15075), a rotating frame (15076), a U-shaped frame (15077) and a limiting rod (15078), the inner wall of the supporting arm (15071) is matched with a cross bar (15072) in a rotating way, the rear end of the cross bar (15072) is integrally formed on a stirring plate (15073), the right end of the sleeve (15074) is embedded and fixed on the cross bar (15072), the left end of the sleeve (15074) is fixed with the supporting leg (15075) in an integral casting mode, the left end of the supporting leg (15075) is rotatably provided with a rotating frame (15076), the right end of the rotating frame (15076) is rotatably arranged on a U-shaped frame (15077), the upper end and the lower end of the front side of the U-shaped frame (15077) are welded with protruding limit rods (15078), the right end of the outer wall of the supporting arm (15071) is rotatably arranged on the lug (1508), and the rear end of the stirring plate (15073) is welded with the bearing mechanism (1510).

5. The device for removing iron and manganese in water body by using membrane combination process according to claim 1, characterized in that: accepting mechanism (1510) comprises first rocking arm (15101), column block (15102), second rocking arm (15103), mounting panel (15104) and feeler (15105), first rocking arm (15101) bottom and column block (15102) normal running fit, first rocking arm (15101), top are rotated and are imbedded on second rocking arm (15103), second rocking arm (15103) top is rotated with mounting panel (15104) and is connected, mounting panel (15104) left and right sides symmetry welding has feeler (15105), column block (15102) front end welds with stirring mechanism (1507), feeler (15105) rear end and coagulation groove (1) bolt fastening.

6. The device for removing iron and manganese in water body by using membrane combination process according to claim 1, characterized in that: the middle part of the front side of the coagulation tank (1) is fixed with the overflow plate (5) in an integral forming way, the top end of the rear part of the water collecting tank (2) is welded and fixed with the concrete tank (1) through a side plate (6), the bottom of the right side of the concrete tank (1) is welded with a foot platform (7), the right side of the top surface of the foot platform (7) is welded with a handrail (8), the front end of the ground of the footstool (7) is fixed with a ladder frame (9) through bolts, a control panel (10) is installed at the right end of the front side of the concrete groove (1) through bolts, the front end and the bottom end of the control panel (10) are respectively embedded and matched with the control key (11) and the power line (12), an ultrafiltration membrane column (13) is embedded in the center of the bottom end of the water collecting tank (2), a drain pipe (14) is integrally cast in the middle of the bottom surface of the coagulation tank (1) and the water collection tank (2), the motor (1501) is electrically connected with a power line (12) through a control key (11).

7. The device for removing iron and manganese in water body by using membrane combination process according to claim 2, characterized in that: the upper end and the lower end of the rotating rod (15023) are perpendicularly welded with the first bevel gear (15024), and the first bevel gear (15024), the second bevel gear (15025) and the third bevel gear (15026) are consistent in size and specification.

8. The device for removing iron and manganese in water body by using membrane combination process according to claim 4, characterized in that: u-shaped frame (15077) right-hand member is fixed through integrative casting mode and brace (15071), stir board (15073) right side bottom for from left to right inclined plane structure of ascending gradually.

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