CN117466362A - Intelligent integrated pump station for sewage pretreatment - Google Patents

Abstract

The invention discloses an intelligent integrated pump station for sewage pretreatment, which comprises a pump body, wherein one side of the pump body is provided with a water inlet, the other side of the pump body is provided with a water outlet and a sludge outlet, a stirring and filtering assembly is arranged in the pump body, the stirring and filtering assembly is controlled to lift by a lifting mechanism, the lifting mechanism is arranged on the pump body, and the heights of the water inlet and the sludge outlet of the pump body are not higher than the lowest position of the stirring and filtering assembly. The sewage enters and exits from the upper part of the tank body in a water inlet way, the stirring filter assembly is matched with the up-and-down movement of the stirring filter assembly, so that the sedimentation efficiency of solid impurities is accelerated, the water gap is arranged below the stirring filter assembly, the sludge is prevented from accumulating on the water gap, the problem that the filtering efficiency is reduced due to the fact that the filtering pipe is blocked by the sludge is solved, meanwhile, the solid impurities in the sewage are separated before the dosing treatment, the stirring blade is prevented from being damaged during stirring after the dosing treatment, and after the dosing treatment is completed, the impurities in the sewage are overturned below the stirring filter assembly through the stirring filter assembly, so that the trouble caused by twice filtering is avoided.

Description

Intelligent integrated pump station for sewage pretreatment

Technical Field

The invention relates to the field of sewage treatment, in particular to an intelligent integrated pump station for sewage pretreatment.

Background

Sewage refers to effluent from life and production that is contaminated to some extent. The water which loses the original use function is simply called sewage, mainly the water after being used in life contains more organic matters, the treatment is easier, the consumption of water resources increases year by year along with the acceleration of the urban process, the fresh water resources on the earth are very limited, and only a very small part of the water resources can be directly used by human beings, so that the water resources can not be met by the requirement of social development only by relying on water conservation, the water resources are recycled, and the sewage treatment is the key point of the water resource recycling.

Most of the existing pump stations are used for water inflow from the top and then are purified by means of filtration, deposition, dosing and the like, solid impurities are accumulated on a filter screen in such a way that the filter screen is blocked, the cleaning efficiency is reduced, and although some pump stations are provided with an adaptive filter screen cleaning device, the impurities are necessarily accumulated towards the bottom under the action of gravity, so that the filtering efficiency of the filter screen is still difficult to ensure; the sewage treatment is usually carried out after filtration and then is carried out with chemicals, and some substances in the water react with the chemicals to form new sediment, and secondary filtration is needed at this time, so that the sewage treatment efficiency is reduced.

Disclosure of Invention

The invention aims to provide an intelligent integrated pump station for sewage pretreatment, which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an intelligent integration pump station for sewage pretreatment, includes the pump body, and pump body one side is provided with the water inlet, and the opposite side is provided with outlet and silt export, advances water drainage and desilting through pumping or other modes, be provided with stirring filter component in the pump body, stirring filter component goes up and down through elevating system control, and elevating system sets up on the pump body, and the water inlet of the pump body and the high minimum position that is not higher than stirring filter component of silt export.

Preferably, the stirring filter assembly comprises a bottom plate support, a filter part and a stirring part, wherein the filter part is positioned below the stirring part, the filter part and the stirring part are both arranged on the bottom plate support, the bottom plate support is slidably arranged in the pump body through a switching mechanism for switching control, and the bottom plate support is consistent with the horizontal cross section of the pump body in size.

Preferably, the filtering part comprises a plurality of filtering plates, each filtering plate is provided with a plurality of filtering pipes, two sides of each filtering plate are respectively connected with one telescopic plate in a sliding mode, the two telescopic plates are arranged in a central symmetry mode, and the telescopic plates of the two adjacent filtering plates can be spliced together.

Preferably, the telescopic plate is fixedly connected with one ends of a plurality of telescopic legs, the other ends of the telescopic legs are fixedly connected with telescopic baffle plates, the telescopic baffle plates are fixedly connected with one ends of telescopic springs, the other ends of the telescopic springs are fixed in the filter plates, the telescopic baffle plates are in contact with connecting cams, the cams are fixedly connected with one ends of fixed shafts, and the other ends of the fixed shafts penetrate through the filter plates and are fixedly connected with the bottom plate support.

Preferably, the filter sprocket of fixed connection respectively in filter both ends, the centre of a circle and the fixed axle coincidence of filter sprocket, filter sprocket sliding connection fixed axle, the same section of filter sprocket on a plurality of filter passes through same root chain synchronous rotation, and filter sprocket rotates to be connected in the bottom plate support.

Preferably, the stirring part comprises two stirring shafts, a plurality of blades are arranged on the stirring shafts, each stirring shaft is fixedly connected with a stirring gear, the two stirring gears are meshed, and the stirring gears are rotationally connected in the bottom plate support.

Preferably, the switching mechanism comprises a filtering bevel gear, a stirring bevel gear and a driving bevel gear, wherein the stirring bevel gear is fixedly connected with one of the two stirring gears, the filtering bevel gear is fixedly connected with two groups of conversion chain wheel groups through a shaft, each group of conversion chain wheel groups comprises two conversion chain wheels and chains meshed with the two conversion chain wheels, one of the two conversion chain wheels is fixedly connected with the filtering bevel gear through a shaft, the other conversion chain wheel is fixedly connected with the filtering chain wheel which is fixedly connected with the filtering plate, the driving bevel gear is fixedly connected with the output end of a driving motor, the driving bevel gear can be meshed with the filtering bevel gear or the stirring bevel gear, the supporting seat of the driving motor is fixedly connected with the output end of a push rod, the push rod is fixedly connected in a bottom plate support, the driving motor is slidably connected in the bottom plate support, and the conversion chain wheels, the filtering bevel gear, the stirring bevel gear and the driving bevel gear are rotationally connected in the bottom plate support.

Preferably, the lifting mechanism comprises a lifting screw and a lifting nut, one end of the lifting screw is in threaded connection with the lifting nut, the other end of the lifting screw is fixedly connected with a lifting upper plate, the lifting upper plate is fixedly connected with the upper ends of a plurality of connecting rods, the lower ends of the connecting rods are fixed on a bottom plate support, the lifting nut is rotationally connected on a lifting frame, teeth are arranged outside the lifting nut and meshed with a lifting gear, the lifting gear is fixedly connected with the output end of a motor, and the motor is fixed on the lifting frame.

Compared with the prior art, the invention has the beneficial effects that: the sewage enters and exits from the upper part of the tank body in a water inlet way, the stirring filter assembly is matched with the up-and-down movement of the stirring filter assembly, so that the sedimentation efficiency of solid impurities is accelerated, the water gap is arranged below the stirring filter assembly, the sludge is prevented from accumulating on the water gap, the problem that the filtering efficiency is reduced due to the fact that the filtering pipe is blocked by the sludge is solved, meanwhile, the solid impurities in the sewage are separated before the dosing treatment, the stirring blade is prevented from being damaged during stirring after the dosing treatment, and after the dosing treatment is completed, the impurities in the sewage are overturned below the stirring filter assembly through the stirring filter assembly, so that the trouble caused by twice filtering is avoided.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present invention;

FIG. 2 is a schematic diagram of a splicing state of a filter plate according to the present invention;

FIG. 3 is a schematic view showing the internal structure of the filter plate of the present invention;

FIG. 4 is a schematic view of the cam of the present invention;

FIG. 5 is a schematic diagram of a switching mechanism according to the present invention;

FIG. 6 is a schematic view of another view of the switching mechanism according to the present invention;

fig. 7 is a schematic structural view of the lifting mechanism of the present invention.

In the figure: 1. pump body, 101, water inlet, 102, silt outlet, 103, water outlet, 2, stirring filter assembly, 201, bottom plate support, 202, filter plate, 203, stirring shaft, 204, expansion plate, 205, expansion leg, 206, expansion spring, 207, expansion baffle, 208, cam, 209, fixed shaft, 210, filter sprocket, 211, filter tube, 212, conversion sprocket, 213, filter umbrella tooth, 214, stirring umbrella tooth, 215, driving umbrella tooth, 216, driving motor, 217, push rod, 218, stirring gear, 3, elevating mechanism, 301, elevating screw, 302, elevating nut, 303, elevating gear, 304, elevating frame, 305, elevating upper plate, 306, connecting rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

1-7, in order to solve the problem that solid impurities of the existing pump station are accumulated on a filter screen; the problem that dosing still needs secondary filtration reaches dirty water and advances upward and goes out, the sedimentation efficiency of solid impurity is accelerated in the reciprocating of cooperation stirring filter unit, it is deposited above that to have avoided silt to locate under the stirring filter unit through setting up the mouth of a river, thereby avoided silt to stop up the filter tube and cause the problem that filtration efficiency reduces, the solid impurity separation in the sewage before dosing simultaneously, avoid damaging stirring vane when stirring after dosing, after dosing is handled, overturn the impurity wherein to under the stirring filter unit through stirring filter unit and avoid the trouble that twice filtration brought, the invention provides a technical scheme: the utility model provides an intelligent integration pump station for sewage pretreatment, including pump body 1, pump body 1 one side is provided with water inlet 101, and the opposite side is provided with outlet 103 and silt export 102, advances water drainage and desilting through pumping or other modes, can set up the medical kit on the pump body 1 as required, is provided with stirring filter assembly 2 in the pump body 1, and stirring filter assembly 2 goes up and down through elevating system 3 control, and elevating system 3 sets up on pump body 1, and the height of water inlet 101 and silt export 102 of pump body 1 is not higher than the lowest position of stirring filter assembly 2. In this application, electrical components such as motor cylinder push rod all adopt prior art. In practical use, continuous sewage treatment can be realized by arranging a plurality of pumping stations or arranging a water reservoir in front of the pumping stations. The water inlet 101 is arranged below the stirring filter assembly 2, so that the problem that the filtering efficiency is reduced due to the fact that the filtering pipe 211 is blocked by the sludge is avoided, and meanwhile, solid impurities in the sewage are separated before dosing treatment, and stirring blades are prevented from being damaged during stirring after dosing. When sewage treatment is needed, the stirring and filtering assembly 2 is lifted to the highest point, so that the pressure on two sides of the stirring and filtering assembly 2 is prevented from being unequal, larger water pressure is generated, then sewage to be treated is added through the water inlet 101, the water outlet 103 and the sludge outlet 102 are closed, the filter plates 202 are horizontally placed at the moment, and the sewage gradually overflows the stirring and filtering assembly 2 in a filtering state; when the water adding is completed, the water inlet 101 is closed, the lifting mechanism 3 is started at the moment, the lifting mechanism 3 drives the stirring filter assembly 2 to slowly descend, the primary filtration is carried out through the filter pipe 211 on the stirring filter assembly 2, the solid impurities in the sewage are filtered, the sedimentation efficiency of the solid impurities is actually accelerated by the stirring filter assembly 2, the sewage mixed with the solid impurities is arranged below the stirring filter assembly 2, and the solid impurities are not arranged above the stirring filter assembly 2; at this time, adding a medicament into the pump body 1, starting a stirring part of the stirring filter assembly 2 to enable the medicament to fully react with chemical substances in sewage, simultaneously enabling solids below the stirring filter assembly 2 not to be disturbed by the stirring part, settling the solids, opening a sludge outlet 102 after settling the solids below the stirring filter assembly 2, discharging solid impurities such as sludge by pumping or other modes, closing the sludge outlet 102, enabling impurities generated by sewage subjected to chemical adding treatment above the stirring filter assembly 2 to be settled on a filter plate 202, rotating the filter plate 202 at this time to enable the impurities to turn over more than 90 degrees, enabling newly generated solid sediment to enter below the stirring filter assembly 2, then enabling the rotating filter plate 202 to restore to a horizontal position, at this time enabling the treated sewage above the stirring filter assembly 2 to be discharged by opening a water outlet 103, and repeating settling and sewage discharging operations below the stirring filter assembly 2, thus completing one sewage treatment; when the filter plate 202 is blocked by impurities, the filter plate can be controlled to rotate to throw off the impurities clamped on the filter plate by centrifugal force.

For realizing sewage treatment's purpose, stirring filter assembly 2 includes bottom plate support 201, filtering part and stirring portion, and filtering part is located the stirring below, and both install on bottom plate support 201, switches control through the shifter, and bottom plate support 201 slides and sets up in pump body 1, and bottom plate support 201 is unanimous with the horizontal cross section size of pump body 1. The switching mechanism controls the filtering part or the stirring part to move, so that the filtering part is opened when the stirring part is prevented from stirring, stirring disturbance of impurities is prevented, and the sediment is prevented from being affected.

The filtering portion includes a plurality of filter plates 202, is provided with a plurality of filter tubes 211 on every filter plate 202, and filter tube 211 both sides are the filter screen, and middle part packing filters usefulness material, such as rubble gravel or cobble etc., and filter material is not limited to above several, and a expansion plate 204 of sliding connection respectively is gone up to filter plate 202 both sides, and two expansion plates 204 are the central symmetry setting, and the expansion plate 204 of two adjacent filter plates 202 can splice together. One end of a plurality of flexible feet 205 of fixed connection is gone up to the expansion plate 204, and the other end fixed connection flexible baffle 207 of flexible foot 205, the one end of flexible baffle 207 fixed connection telescopic spring 206, the other end of telescopic spring 206 is fixed in filter 202, and flexible baffle 207 contact connection cam 208, the one end of cam 208 fixed connection fixed axle 209, the other end of fixed axle 209 passes filter 202 fixed connection on bottom plate support 201. The two ends of the filter plates 202 are respectively and fixedly connected with a filter chain wheel 210, the circle center of the filter chain wheel 210 coincides with the fixed shaft 209, the filter chain wheels 210 are in sliding connection with the fixed shaft 209, the filter chain wheels 210 on the same section of the filter plates 202 synchronously rotate through the same chain, and the filter chain wheels 210 are rotationally connected in the bottom plate bracket 201. As can be seen in fig. 3, the length of the expansion plates 204 is smaller than the filter plates 202, and thus, the bottom plate holder 201 is provided with protrusions corresponding to the positions of the expansion plates 204 to fill up gaps, avoiding solid impurities from shuttling between the filter plates 202 therethrough. When the filter plates 202 are in a horizontal state, the expansion plates 204 are in an extending state, the expansion plates 204 of two adjacent filter plates 202 are overlapped, gaps are not reserved between the filter plates 202 and the expansion plates 204 and between the filter plates 202 and the bottom plate support 201, filtering can be carried out at the moment, when the filter plates 202 need to be turned over, the filter chain wheels 210 drive the filter plates 202 to rotate, the filter plates 202 drive the expansion plates 204 drive the expansion legs 205 to move, the expansion legs 205 drive the expansion baffles 207 to move away from the protruding positions of the cams 208, the expansion plates 204 retract under the action of the expansion springs 206, the filter plates 202 can rotate one round to the other round, the rotation angle of the filter plates 202 is increased, and meanwhile, the two expansion plates 204 are overlapped, so that a large gap between the two filter plates 202 can be avoided.

The stirring part comprises two stirring shafts 203, a plurality of blades are arranged on the stirring shafts 203, each stirring shaft 203 is fixedly connected with a stirring gear 218, the two stirring gears 218 are meshed, and the stirring gears 218 are rotatably connected in the bottom plate support 201. During stirring, the two stirring shafts 203 are rotated synchronously by the two stirring gears 218, and of course, the stirring shafts 203 and the stirring gears 218 may be increased or decreased as needed.

The switching mechanism comprises a filtering bevel gear 213, a stirring bevel gear 214 and a driving bevel gear 215, wherein the stirring bevel gear 214 is fixedly connected with one of two stirring gears 218, the filtering bevel gear 213 is fixedly connected with two groups of conversion chain wheel groups through a shaft, each group of conversion chain wheel groups comprises two conversion chain wheels 212 and chains meshed with the two conversion chain wheels, one of the two conversion chain wheels 212 is fixedly connected with the filtering bevel gear 213 through a shaft, the other one of the two conversion chain wheels 212 is fixedly connected with a filtering chain wheel 210, the filtering chain wheel 210 is fixedly connected with the filtering chain wheel 210 on the filtering plate 202 through a chain, the driving bevel gear 215 is fixedly connected with the output end of a driving motor 216, the driving bevel gear 215 can be meshed with the filtering bevel gear 213 or the stirring bevel gear 214, a support of the driving motor 216 is fixedly connected with the output end of a push rod 217, the push rod 217 is fixedly connected with the bottom plate support 201, the driving motor 216 is slidingly connected with the bottom plate support 201, and the conversion chain wheel 212, the filtering bevel gear 213, the stirring bevel gear 214 and the driving bevel gear 215 are rotationally connected with the bottom plate support 201. The accessories such as the driving motor 216, the push rod 217 and the like are subjected to waterproof treatment according to the requirement. The push rod 217 can be started to control the driving umbrella teeth 215 to be meshed with the filtering umbrella teeth 213 or the stirring umbrella teeth 214, so that the filter plate 202 is not opened during stirring; when the driving bevel gear 215 is meshed with the filtering bevel gear 213, the driving bevel gear 215 drives the filtering bevel gear 213 to rotate, the filtering bevel gear 213 drives the conversion chain wheel 212 to rotate, and the conversion chain wheel 212 drives the filtering chain wheel 210 to rotate, so that the filtering plate 202 is driven to rotate; when the driving bevel gear 215 is meshed with the stirring bevel gear 214, the driving bevel gear 215 drives the stirring bevel gear 214 to rotate, and the stirring bevel gear 214 drives the stirring shaft 203 to rotate.

The lifting mechanism 3 comprises a lifting screw 301 and a lifting nut 302, one end of the lifting screw 301 is in threaded connection with the lifting nut 302, the other end of the lifting screw is fixedly connected with a lifting upper plate 305, the lifting upper plate 305 is fixedly connected with the upper ends of a plurality of connecting rods 306, the lower ends of the connecting rods 306 are fixed on the bottom plate support 201, the lifting nut 302 is rotatably connected on a lifting frame 304, teeth are arranged outside the lifting nut 302 and meshed with a lifting gear 303, the lifting gear 303 is fixedly connected with the output end of a motor, and the motor is fixed on the lifting frame 304. Several guide posts for preventing the lifting screw 301 from rotating can be added on the lifting upper plate 305 according to the requirement, and the guide posts can be not added when the pump body 1 is square. When lifting is needed, the motor is started, the motor drives the lifting gear 303 to rotate, the lifting gear 303 drives the lifting nut 302 to rotate, the lifting nut 302 rotates to enable the lifting screw 301 to ascend or descend, the lifting screw 301 drives the lifting upper plate 305 to move, the lifting upper plate 305 drives the connecting rod 306 to move, the connecting rod 306 drives the stirring filter assembly 2 to move, the lifting upper plate 305 is always higher than the water surface, and corrosion damage caused by the fact that the lifting screw 301 enters into the water is avoided.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An intelligent integrated pump station for sewage pretreatment, includes pump body (1), and pump body (1) one side is provided with water inlet (101), and the opposite side is provided with outlet (103) and silt export (102), advances water drainage and desilting through pumping or other modes, its characterized in that: be provided with stirring filter component (2) in the pump body (1), stirring filter component (2) goes up and down through elevating system (3) control, elevating system (3) set up on the pump body (1), the water inlet (101) of pump body (1) and the high minimum position that is not higher than stirring filter component (2) of silt export (102).

2. An intelligent integrated pump station for sewage pretreatment according to claim 1, wherein: stirring filter component (2) are including bottom plate support (201), filtration portion and stirring portion, filtration portion is located the stirring below, and both install on bottom plate support (201), switch control through switching mechanism, and bottom plate support (201) slip sets up in pump body (1), and bottom plate support (201) are unanimous with the horizontal cross section size of pump body (1).

3. An intelligent integrated pump station for sewage pretreatment according to claim 2, characterized in that: the filter part comprises a plurality of filter plates (202), a plurality of filter pipes (211) are arranged on each filter plate (202), two sides of each filter plate (202) are respectively connected with one expansion plate (204) in a sliding mode, the two expansion plates (204) are arranged in a central symmetry mode, and the expansion plates (204) of the two adjacent filter plates (202) can be spliced together.

4. An intelligent integrated pump station for sewage pretreatment according to claim 3, wherein: one end of a plurality of flexible feet (205) of fixed connection on expansion plate (204), the other end fixed connection expansion plate (207) of flexible foot (205), the one end of expansion plate (207) fixed connection expansion spring (206), the other end of expansion spring (206) is fixed in filter board (202), expansion plate (207) contact connection cam (208), the one end of cam (208) fixed connection fixed axle (209), the other end of fixed axle (209) is worn out filter board (202) fixed connection on bottom plate support (201).

5. An intelligent integrated pump station for sewage pretreatment according to claim 4, wherein: the two ends of the filter plates (202) are fixedly connected with a filter chain wheel (210) respectively, the circle center of the filter chain wheel (210) coincides with the fixed shaft (209), the filter chain wheel (210) is connected with the fixed shaft (209) in a sliding manner, the filter chain wheels (210) on the same section of the filter plates (202) synchronously rotate through the same chain, and the filter chain wheels (210) are rotationally connected in the bottom plate support (201).

6. An intelligent integrated pump station for sewage pretreatment according to claim 5, wherein: the stirring part comprises two stirring shafts (203), a plurality of blades are arranged on the stirring shafts (203), each stirring shaft (203) is fixedly connected with a stirring gear (218), the two stirring gears (218) are meshed, and the stirring gears (218) are rotationally connected in the bottom plate support (201).

7. An intelligent integrated pump station for sewage pretreatment according to claim 6, wherein: the switching mechanism comprises a filtering bevel gear (213), a stirring bevel gear (214) and a driving bevel gear (215), wherein the stirring bevel gear (214) is fixedly connected with one of the two stirring gears (218), the filtering bevel gear (213) is fixedly connected with two groups of conversion chain wheel groups through a shaft, each group of conversion chain wheel groups comprises two conversion chain wheels (212) and a chain meshed with the two conversion chain wheels (212), one of the two conversion chain wheels (212) is fixedly connected with the filtering bevel gear (213) through a shaft, the other one of the two conversion chain wheels is fixedly connected with the filtering bevel gear (210), the filtering bevel gear (210) is meshed with the filtering chain wheel (210) fixedly connected to the filtering plate (202) through a chain, the driving bevel gear (215) is fixedly connected with the output end of the driving motor (216), the driving bevel gear (215) can be meshed with the filtering bevel gear (213) or the stirring bevel gear (214), a support of the driving motor (216) is fixedly connected with the output end of a push rod (217), the push rod (217) is fixedly connected in a bottom plate support (201), the driving motor (216) is slidingly connected in the bottom plate support (201), the filtering bevel gear (212) is meshed with the filtering bevel gear (215) through a chain.

8. An intelligent integrated pump station for sewage pretreatment according to claim 7, wherein: elevating system (3) are including lift screw (301), lift nut (302), lift screw (301) one end threaded connection lift nut (302), other end fixed connection lift upper plate (305), the upper end of lift upper plate (305) many connecting rods (306) of fixed connection, the lower extreme of connecting rod (306) is fixed on bottom plate support (201), lift nut (302) rotate to be connected on crane (304), are provided with tooth and lifting gear (303) meshing outward lift nut (302), and lifting gear (303) fixed connection is at the output of motor, and the motor is fixed on crane (304).