CN118273987B - Impurity separation type suspension sewage pump and working method thereof - Google Patents

Abstract

The invention belongs to the technical field of sewage pumps, and particularly relates to an impurity separation type suspension sewage pump and a working method thereof. The sewage pump comprises a suspension assembly, a throwing assembly and a sewage pump assembly; the bottom of the suspension assembly is provided with a metal filter screen which is in a conical structure, the bottom of the metal filter screen is provided with a positioning supporting block, the movable clamp of the throwing assembly is connected to the top of the suspension assembly, and the suspension assembly is communicated with the throwing assembly; the sewage pump assembly is in a suspended state by attaching the suspension assembly to the upper surface of sewage, impurities near the sewage are prevented from entering the sewage pump assembly by utilizing the metal filter screen, and the sewage after the impurities are removed in the metal filter screen is subjected to secondary purification treatment by utilizing the throwing assembly, so that the damage of harmful substances in the sewage to the sewage pump assembly is reduced, the separation efficiency of the impurities in the sewage is improved, and the continuous working stability of the sewage pump is maintained.

Description

Impurity separation type suspension sewage pump and working method thereof

Technical Field

The invention belongs to the technical field of sewage pumps, and particularly relates to an impurity separation type suspension sewage pump and a working method thereof.

Background

The pump is a pump product which is connected with a motor and works under the submerged liquid, and because the pump and the motor are coaxial, the shaft is short, the weight of a rotating part is light, the load (radial direction) born on a bearing is relatively small, and the service life of the pump is longer than that of a common pump.

Through searching, in the prior art, china patent publication No. CN211924487U, the date of the grant notice: 2020-11-13 discloses a suspension type submersible sewage pump, which comprises a housing, the front embedding of shell has the access panel, the outer wall welding of shell has the bracing piece, the shell passes through bracing piece fixedly connected with flotation pontoon, the top fixedly connected with air duct of flotation pontoon, one side of flotation pontoon runs through there is the aqueduct, one side fixedly connected with solenoid valve of aqueduct, the top fixedly provided with top cap of shell, the top fixedly connected with latch closure of top cap, electric wire and gas pitcher, the top fixedly connected with rope of latch closure, the inside of top cap has air compressor through bolt fixed mounting, one side fixedly connected with exhaust tube of air compressor, the inside embedding of shell has the diffusion room, the inside of shell has waterproof motor through bolt fixed mounting, waterproof motor's bottom fixedly connected with pivot, the outer wall welding of pivot has the impeller, this application has solved the problem that this sewage pump can not be controlled in the position of face under water through flotation pontoon, gas pitcher and solenoid valve.

The device still has the following drawbacks: although the problem that the position of the sewage pump under water can not be controlled can be solved, the separation mode of impurities in sewage is not ideal enough, and the filter screen is easy to be blocked around in the use process due to the impurities, so that the work of the sewage pump under the continuous state and the damage of the impurities to the sewage pump are influenced.

Disclosure of Invention

The invention provides an impurity separation type suspension sewage pump, which comprises a suspension assembly, a throwing assembly and a sewage pump assembly; the bottom of the suspension assembly is provided with a metal filter screen, the metal filter screen is in a conical structure, the bottom of the metal filter screen is provided with a positioning supporting block, the throwing assembly is movably clamped at the top of the suspension assembly, the suspension assembly is communicated with the throwing assembly, and the sewage pump assembly is fixed and communicated at the top of the throwing assembly;

The suspension assembly is attached to the upper surface of the sewage, so that the sewage pump assembly is in a suspended state, impurities near the sewage are prevented from entering the sewage pump assembly by utilizing the metal filter screen, the sewage after the impurities are removed in the metal filter screen is subjected to secondary purification treatment by utilizing the throwing assembly, and harmful substances in the sewage are reduced to damage the sewage pump assembly;

The suspension assembly comprises an inflatable ring;

the throwing component comprises an isolation cover; an annular storage shell is arranged at the top end of the inner wall of the isolation cover, a plurality of groups of leakage holes are formed in the bottom end of the annular storage shell, a plurality of groups of springs are arranged between the annular storage shell and the top end of the inner wall of the isolation cover, and a plurality of groups of vibration motors are fixedly connected to the outer wall of the annular storage shell;

The inner wall top of cage has seted up first mounting hole, just the axis of first mounting hole coincides with the axis of cage, a plurality of groups of second mounting hole have still been seted up on the inner wall top of cage, and a plurality of groups the second mounting hole is annular array setting with the axis of cage as the center.

Further, the inside of charging collar is provided with first electric putter, just the axis of first electric putter and charging collar's axis coincidence, first electric putter's output transmission is connected with first filter mechanism, just first filter mechanism extends to in the metal filter screen, second filter mechanism has been cup jointed in first electric putter's outer wall activity, just second filter mechanism cladding is around first electric putter's outer wall.

Further, the inner wall fixedly connected with of charging collar a plurality of groups stiffener, and a plurality of groups the other end of stiffener all is provided with actuating mechanism, second filtering mechanism is open structure, and a plurality of groups actuating mechanism all activity conflict is connected in second filtering mechanism's outer wall opening part, a plurality of groups all imbeds on the stiffener and install first motor, just the output transmission of first motor is connected with the second electric putter, the output transmission of second electric putter is connected with stirring vane, just stirring vane extends to in the metal filter screen.

Further, the department is provided with a plurality of groups of water pumps around the top of first electric putter, a plurality of groups the water pump is annular array setting as the center with first electric putter's axis, a plurality of groups the bottom of water pump all is provided with into water hose, a plurality of groups into water hose all runs through second filter mechanism and extends to first filter mechanism's top and communicate each other, a plurality of groups the top of water pump all is provided with out the water hard tube, and a plurality of groups go out the water hard tube all communicates each other with the blowdown pump assembly.

Further, the first filter mechanism comprises a first filter cartridge; the one end of first cartridge filter is the blind end, blind end inner wall fixedly connected with isolation tube, the PH sensor is installed in the sidewall embedding of isolation tube, a plurality of first through-holes of group have been seted up to the lateral wall of first cartridge filter, the other end of first cartridge filter is the open end, the open end is provided with the isolation lid, just a plurality of second through-holes of group have been seted up to the surface of isolation lid, a plurality of groups the inner wall of second through-hole all is fixed and is linked together with the tip of hose that intakes.

Further, the second filter mechanism includes a second filter cartridge; a plurality of hollow smooth chambeies of group have been seted up to a side wall of second cartridge filter, a plurality of groups hollow smooth chamber is annular array setting with the axis of second cartridge filter as the center, embedded chamber has been seted up to the inner wall one end of second cartridge filter, a plurality of groups fourth through-hole and a plurality of groups third through-hole have been seted up to the surface in embedded chamber, and a plurality of groups the fourth through-hole is located one side of keeping away from hollow smooth chamber.

Further, the trapper assembly includes a trapper body; the sewage pump is characterized in that the bottom of the sewage pump body is provided with a water inlet valve, the water inlet valve is in threaded fastening connection with the top end of the isolation cover, the outer wall of the water inlet valve is provided with a plurality of groups of drainage holes, the plurality of groups of drainage holes are communicated with the water outlet hard pipe, and one side wall of the sewage pump body is provided with a water outlet valve.

The working method of the impurity separation type suspension sewage pump comprises the following steps:

The sewage pump assembly is in a suspended state by being attached to the upper surface of sewage through the suspension assembly;

impurities near sewage are prevented from entering the sewage pump assembly through the metal filter screen;

and carrying out secondary purification treatment on the sewage after the impurities are removed in the metal filter screen through the throwing component.

The beneficial effects of the invention are as follows:

1. The sewage pump assembly is in a suspended state by attaching the suspension assembly to the upper surface of sewage, impurities near the sewage are prevented from entering the sewage pump assembly by utilizing the metal filter screen, secondary purification treatment is carried out on the sewage after the impurities are removed in the metal filter screen by utilizing the throwing assembly, the damage of harmful substances in the impurities of the sewage to the sewage pump assembly is reduced, the separation efficiency of the impurities in the sewage is improved, and the stability of the sewage pump in a continuous working state is maintained.

2. The first filter cylinder is driven to move through the first electric push rod, when the first filter cylinder moves to the second through hole, the second filter screens on the surfaces of the second through holes of the plurality of groups are used for carrying out double filtration on impurities, when the first filter cylinder moves to the third through hole, the third filter screens on the surfaces of the third through holes of the plurality of groups are used for carrying out further double filtration on the impurities, so that the impurities in sewage are filtered to different degrees, the impurities are prevented from entering the sewage pump assembly, and the service life of the sewage pump assembly is prolonged.

3. The annular storage shell is used for storing activated carbon particles, and a plurality of groups of vibrating motors are arranged on the outer wall of the annular storage shell, so that in the working process of the vibrating motors, springs between the annular storage shell and the isolation cover are compressed, the vibration frequency of the annular storage shell is increased, the activated carbon particles in the annular storage shell drop downwards from the leak holes, the activated carbon particles are uniformly scattered into the metal filter screen, the adsorption effect of impurities is carried out on sewage in the metal filter screen, and the adsorption effect of the impurities in the sewage is improved.

4. The stirring blade is driven by the second electric push rod to lift and adjust, so that the adjusted stirring blade extends into sewage, and the stirring blade extending into the sewage is rotated at a high speed under the driving action of the first motor, so that the mixing efficiency of the throwing component to the sewage is accelerated, and the active carbon particles are prevented from blocking the through holes.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a schematic diagram of a suspended sewage pump with separated impurities according to an embodiment of the present invention;

FIG. 2 shows a schematic structural view of a levitation assembly according to an embodiment of the present invention;

FIG. 3 is a schematic view showing the structure of a first filter mechanism according to an embodiment of the present invention;

FIG. 4 shows a schematic diagram of a second filter mechanism according to an embodiment of the present invention;

FIG. 5 shows a schematic structural view of a launch assembly according to an embodiment of the present invention;

fig. 6 shows a schematic structural view of a sewage pump assembly according to an embodiment of the present invention.

In the figure: 1. a levitation assembly; 11. an air charging ring; 12. a first electric push rod; 13. a first filtering mechanism; 131. a first filter cartridge; 132. an isolation tube; 133. a first through hole; 134. an isolation cover; 135. a second through hole; 14. a second filtering mechanism; 141. a second filter cartridge; 142. a hollow sliding cavity; 143. an embedded cavity; 144. a fourth through hole; 145. a third through hole; 15. a driving mechanism; 16. a reinforcing rod; 17. a first motor; 18. a second electric push rod; 19. stirring blades; 110. a water pump; 111. a water inlet hose; 112. a water outlet hard pipe; 2. a metal filter screen; 3. a launch assembly; 31. an isolation cover; 32. an annular housing case; 33. a leak hole; 34. a first mounting hole; 35. a second mounting hole; 4. positioning support blocks; 5. a sewage pump assembly; 51. a sewage pump body; 52. a water inlet valve; 53. drainage holes; 54. and a water outlet valve.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. 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.

The embodiment of the invention provides an impurity separation type suspension sewage pump which comprises a suspension assembly 1, a throwing assembly 3 and a sewage pump assembly 5; as illustrated by way of example in fig. 1.

The bottom of suspension subassembly 1 is provided with metal filter screen 2, just metal filter screen 2 is the toper structure setting, metal filter screen 2's bottom is provided with location riding block 4, put in the activity joint of subassembly 3 at the top of suspension subassembly 1, just suspension subassembly 1 communicates each other with putting in subassembly 3, dredge pump assembly 5 is fixed and communicates at the top of putting in subassembly 3.

Specifically, the suspension assembly 1 is used for being attached to the upper surface of sewage, so that the sewage pump assembly 5 is in a suspended state, impurities near the sewage are prevented from entering the sewage pump assembly 5 by the metal filter screen 2, the sewage after the impurities are removed in the metal filter screen 2 is subjected to secondary purification treatment by the throwing assembly 3, and harmful substances in the sewage are reduced to damage the sewage pump assembly 5.

The suspension assembly 1 comprises an inflatable ring 11; as illustrated by way of example in fig. 2.

The inside of charging collar 11 is provided with first electric putter 12, just the axis of first electric putter 12 coincides with the axis of charging collar 11, the output transmission of first electric putter 12 is connected with first filter mechanism 13, just first filter mechanism 13 extends to in the metal filter screen 2, the outer wall activity of first electric putter 12 has cup jointed second filter mechanism 14, just second filter mechanism 14 cladding is around the outer wall of first electric putter 12, the inner wall fixedly connected with of charging collar 11a plurality of groups reinforcing rod 16, and a plurality of groups the other end of reinforcing rod 16 all is provided with actuating mechanism 15, second filter mechanism 14 is open structure, and a plurality of groups actuating mechanism 15 all activity conflict connection is in the outer wall opening part of second filter mechanism 14, a plurality of groups on the reinforcing rod 16 all imbeds and installs first motor 17, just the output transmission of first motor 17 is connected with second electric putter 18, the output transmission of second electric putter 18 is connected with stirring vane 19, just stirring vane 19 extends to in the outer wall circumference of first electric putter 12, a plurality of groups of electric putter 16 are the water pump 110 and a plurality of sets of water pump 110 are all set of water pump 110, a plurality of groups are mutually connected with each other, a plurality of water pump 110 are connected with each other, a plurality of groups of water pump 110 are connected with each other, a plurality of groups are provided with each other, a plurality of water pump 110 are connected with each other, and each other.

Specifically, the inflatable ring 11 is configured to float on the upper surface of the sewage, and is further configured to bear a reinforcing rod 16, so that the reinforcing rod 16 with a fixed end fixes a driving mechanism 15, and the second filtering mechanism 14 is reciprocally moved on the outer wall of the first electric push rod 12 under the driving action of the driving mechanism 15, so as to dredge impurities attached to the surface of the second filtering mechanism 14 in the reciprocal vibration process, and enable the second filtering mechanism 14 to perform a self-cleaning function;

The first electric push rod 12 is used for pushing the first filtering mechanism 13, so that the first filtering mechanism 13 moves to different depths of sewage, the quality of the sewage absorbed by the first filtering mechanism 13 is adjusted, the water inlet hose 111 at one end of the water pump 110 is utilized to adaptively adjust the distance that the water inlet hose 111 moves along with the first filtering mechanism 13, the adjusted first filtering mechanism 13 is freely stored or separated from the second filtering mechanism 14, and the sucked sewage is transferred into the sewage pump assembly 5 by utilizing the water outlet hard pipe 112 at the other end of the water pump 110, so as to provide a water source for the sewage pump assembly 5;

The first motor 17 and the second electric push rod 18 on each group of reinforcing rods 16 can drive the stirring blades 19 to lift and adjust by utilizing the second electric push rod 18, so that the adjusted stirring blades 19 extend into sewage, and the stirring blades 19 extending into the sewage are rotated at a high speed under the driving action of the first motor 17, so that the mixing efficiency of the throwing component 3 on the sewage is accelerated.

The first filter mechanism 13 includes a first filter cartridge 131; as illustrated by way of example in fig. 3.

The one end of first cartridge filter 131 is the blind end, blind end inner wall fixedly connected with isolation tube 132, PH sensor is installed to the sidewall embedding of isolation tube 132, a plurality of first through-holes 133 of group have been seted up to the lateral wall of first cartridge filter 131, the other end of first cartridge filter 131 is the open end, the open end is provided with keeps apart the lid 134, just a plurality of second through-holes 135 of group have been seted up to the surface of keeping apart the lid 134, a plurality of groups the inner wall of second through-holes 135 all is fixed and is linked together with the tip of intake hose 111.

Further, the surfaces of the plurality of groups of the first through holes 133 are all provided with first filter screens, and the mesh number of the first filter screens is 18 mesh.

Further, the top of the isolation cover 134 is in transmission connection with the output end of the first electric push rod 12.

Specifically, when the water pump 110 continuously works, negative pressure is generated in the first filter cartridge 131 and sewage around the first through holes 133 is absorbed, impurities outside 10 meshes on the surfaces of the first through holes 133 are filtered by the first filter screen, and when the filtered sewage enters the first filter cartridge 131, the filtered sewage is firstly contacted with the PH sensor for detecting the PH value in the sewage.

The second filter mechanism 14 includes a second filter cartridge 141; as illustrated by way of example in fig. 4.

A plurality of groups of hollow sliding cavities 142 are formed in one side wall of the second filter cartridge 141, a plurality of groups of hollow sliding cavities 142 are arranged in an annular array by taking the central axis of the second filter cartridge 141 as the center, an embedded cavity 143 is formed in one end of the inner wall of the second filter cartridge 141, a plurality of groups of fourth through holes 144 and a plurality of groups of third through holes 145 are formed in the surface of the embedded cavity 143, and a plurality of groups of fourth through holes 144 are located on one side far away from the hollow sliding cavities 142.

Further, the second filter cartridge 141 is movably sleeved on the outer wall of the first electric push rod 12, and the second filter cartridge 141 is slidably attached to the first electric push rod 12.

Further, the embedded cavity 143 is movably sleeved on the outer wall of the first filter cartridge 131, and a gap is provided between the embedded cavity 143 and the first filter cartridge 131.

Further, the surfaces of the fourth holes 144 are provided with second filter screens, and the mesh number of the second filter screens is 10 mesh.

Further, the surfaces of the groups of third through holes 145 are all provided with third filter screens, and the mesh number of the third filter screens is 14 mesh.

Further, through holes for the water inlet hose 111 to penetrate are distributed above the plurality of groups of third through holes 145.

Specifically, the embedded cavity 143 is used for extending to the position of the output end of the first electric putter 12, the first electric putter 12 is utilized to drive the first filter cartridge 131 to move, when the first filter cartridge 131 moves to the fourth through hole 144, the second filter screen on the surfaces of the fourth through holes 144 of a plurality of groups is used for double filtering impurities, when the first filter cartridge 131 moves to the third through hole 145, the third filter screen on the surfaces of the third through holes 145 of a plurality of groups is used for further double filtering impurities, so that impurities in sewage are filtered to different extents, the impurities are prevented from entering the sewage pump assembly 5, and the service life of the sewage pump assembly 5 is prolonged.

The driving mechanism 15 comprises a positioning block; the locating piece fixed connection is at the other end of stiffener 16, just the equal movable joint of outer wall both sides of locating piece is connected at the inner wall of hollow smooth chamber 142, the top embedding of locating piece is installed the third electric putter, just the bottom embedding of locating piece is installed the fourth electric putter, the output activity of third electric putter is contradicted and is connected on the inner wall top of hollow smooth chamber 142, the output activity of fourth electric putter is contradicted and is connected in the inner wall bottom of hollow smooth chamber 142 (not shown on the figure).

Specifically, the positioning block is configured to guide a movement track of the second filter cartridge 141, and utilize the output end of the third electric putter and the output end of the fourth electric putter to movably abut against the end portion of the inner wall of the hollow sliding cavity 142, so that when the output end of the third electric putter extends and the output end of the fourth electric putter is retracted, the second filter cartridge 141 slides to one side, and when the output end of the third electric putter is retracted and the output end of the fourth electric putter extends, the second filter cartridge 141 slides to the other side, so that the second filter cartridge 141 reciprocates on the outer wall of the first electric putter 12, and impurities attached to the surfaces of the fourth through hole 144 and the third through hole 145 are automatically cleaned.

The launch assembly 3 comprises a cage 31; as illustrated by way of example in fig. 5.

The inner wall top of cage 31 is provided with annular storage shell 32, just a plurality of groups of weeping holes 33 have been seted up to the bottom of annular storage shell 32, be provided with a plurality of groups of springs between the inner wall top of annular storage shell 32 and cage 31, just the outer wall of annular storage shell 32 still fixedly connected with a plurality of groups of vibrating motor, first mounting hole 34 has been seted up on the inner wall top of cage 31, just the axis of first mounting hole 34 coincides with the axis of cage 31, a plurality of groups of second mounting hole 35 have still been seted up on the inner wall top of cage 31, a plurality of groups of second mounting hole 35 are the annular array setting of taking the axis of cage 31 as the center.

Further, the first mounting hole 34 is fixedly sleeved on the outer wall of the first electric push rod 12.

Further, the second mounting holes 35 are fixedly sleeved on the outer wall of the water pump 110.

Specifically, the annular storage shell 32 is used for storing activated carbon particles, and a plurality of groups of vibration motors are arranged on the outer wall of the annular storage shell 32, so that springs between the annular storage shell 32 and the isolation cover 31 are compressed in the working process of the plurality of groups of vibration motors, the vibration frequency of the annular storage shell 32 is increased, the activated carbon particles in the annular storage shell 32 drop downwards from the leakage holes 33, the activated carbon particles are uniformly scattered into the metal filter screen 2, and the impurity adsorption effect is carried out on sewage in the metal filter screen 2.

The dredge pump assembly 5 comprises a dredge pump body 51; as illustrated by way of example in fig. 6.

The bottom of the dredge pump body 51 is provided with a water inlet valve 52, the water inlet valve 52 is in threaded fastening connection with the top end of the isolation cover 31, the outer wall of the water inlet valve 52 is provided with a plurality of groups of drainage holes 53, the plurality of groups of drainage holes 53 are communicated with the water outlet hard pipe 112, and one side wall of the dredge pump body 51 is provided with a water outlet valve 54.

Specifically, the water inlet valve 52 is communicated with the plurality of water outlet hard pipes 112 by using the drainage hole 53, when the plurality of water pumps 110 continuously work, the sucked sewage is transferred into the water inlet valve 52 from the water outlet hard pipes 112, and the sucked sewage is used for providing a water source for the sewage pump body 51, so that the sewage pump body 51 has the effect of improving the sewage discharge amount.

The impurity separation type suspension sewage pump provided by the embodiment of the invention has the following working principle:

the first electric push rod 12 is used for pushing the first filter cartridge 131 to enable the first filter cartridge 131 to move to different depths of sewage through the inflation ring 11 and is used for adjusting the quality of the sewage adsorbed by the first filter cartridge 131;

The first filter cylinder 131 is driven to move through the first electric push rod 12, when the first filter cylinder 131 moves to the fourth through hole 144, the second filter screens on the surfaces of the plurality of groups of fourth through holes 144 are used for double-filtering impurities, and when the first filter cylinder 131 moves to the third through hole 145, the third filter screens on the surfaces of the plurality of groups of third through holes 145 are used for further double-filtering impurities, so that impurities in sewage are filtered to different degrees, the impurities are prevented from entering the sewage pump assembly 5, and the service life of the sewage pump assembly 5 is prolonged;

The water pump 110 is communicated with the water inlet hose 111 through a plurality of groups of second through holes 135, when the water pump 110 continuously works, negative pressure is generated in the first filter cartridge 131, sewage around the plurality of groups of first through holes 133 is absorbed, impurities outside 10 meshes on the surfaces of the plurality of groups of first through holes 133 are filtered by utilizing a first filter screen, and when the filtered sewage enters the first filter cartridge 131, the filtered sewage is firstly contacted with a PH sensor for detecting the PH value in the sewage;

The annular storage shell 32 is used for storing activated carbon particles, and a plurality of groups of vibration motors are arranged on the outer wall of the annular storage shell 32, so that springs between the annular storage shell 32 and the isolation cover 31 are compressed in the working process of the plurality of groups of vibration motors, the vibration frequency of the annular storage shell 32 is increased, the activated carbon particles in the annular storage shell 32 fall downwards from the leakage holes 33 and are used for uniformly scattering the activated carbon particles into the metal filter screen 2, and the adsorption of impurities is carried out on sewage in the metal filter screen 2;

The stirring blade 19 is driven by the second electric push rod 18 to lift and adjust, so that the adjusted stirring blade 19 extends into the sewage, and the stirring blade 19 extending into the sewage rotates at a high speed under the driving action of the first motor 17, so as to accelerate the mixing efficiency of the throwing component 3 on the sewage;

The water inlet valve 52 is communicated with the plurality of groups of water outlet hard pipes 112 by utilizing the drainage holes 53, when the plurality of groups of water pumps 110 continuously work, the sucked sewage is transferred into the water inlet valve 52 from the water outlet hard pipes 112, and the sucked sewage is used for providing a water source for the sewage pump body 51, so that the sewage pump body 51 has the effect of improving the sewage discharge capacity.

On the basis of the impurity separation type suspension sewage pump, the embodiment of the invention also provides a working method of the impurity separation type suspension sewage pump, which comprises the following steps:

The sewage pump assembly is in a suspended state by being attached to the upper surface of sewage through the suspension assembly;

impurities near sewage are prevented from entering the sewage pump assembly through the metal filter screen;

and carrying out secondary purification treatment on the sewage after the impurities are removed in the metal filter screen through the throwing component.

Although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. An impurity separation type suspension sewage pump which is characterized in that: comprises a suspension component (1), a throwing component (3) and a sewage pump component (5); the bottom of the suspension assembly (1) is provided with a metal filter screen (2), the metal filter screen (2) is arranged in a conical structure, the bottom of the metal filter screen (2) is provided with a positioning supporting block (4), the throwing assembly (3) is movably clamped at the top of the suspension assembly (1), the suspension assembly (1) is communicated with the throwing assembly (3), and the sewage pump assembly (5) is fixed and communicated at the top of the throwing assembly (3);

the suspension assembly (1) is attached to the upper surface of sewage, so that the sewage pump assembly (5) is in a suspended state, impurities near the sewage are prevented from entering the sewage pump assembly (5) by the aid of the metal filter screen (2), the sewage after the impurities are removed in the metal filter screen (2) is subjected to secondary purification treatment by the aid of the throwing assembly (3), and damage to the sewage pump assembly (5) by harmful substances in the sewage is reduced;

the suspension assembly (1) comprises an inflatable ring (11);

The novel air charging device is characterized in that a first electric push rod (12) is arranged in the air charging ring (11), the central axis of the first electric push rod (12) coincides with the central axis of the air charging ring (11), the output end of the first electric push rod (12) is in transmission connection with a first filtering mechanism (13), the first filtering mechanism (13) extends into the metal filter screen (2), a second filtering mechanism (14) is movably sleeved on the outer wall of the first electric push rod (12), and the second filtering mechanism (14) is wrapped around the outer wall of the first electric push rod (12);

The inner wall of the charging collar (11) is fixedly connected with a plurality of groups of reinforcing rods (16), the other ends of the reinforcing rods (16) are provided with driving mechanisms (15), the second filtering mechanisms (14) are of an open structure, the driving mechanisms (15) are movably and contradicted and connected to the opening of the outer wall of the second filtering mechanisms (14), the reinforcing rods (16) are embedded and provided with first motors (17), the output ends of the first motors (17) are in transmission connection with second electric pushing rods (18), the output ends of the second electric pushing rods (18) are in transmission connection with stirring blades (19), and the stirring blades (19) extend into the metal filter screen (2);

The delivery assembly (3) comprises an isolation cover (31); an annular storage shell (32) is arranged at the top end of the inner wall of the isolation cover (31), a plurality of groups of leakage holes (33) are formed in the bottom end of the annular storage shell (32), a plurality of groups of springs are arranged between the annular storage shell (32) and the top end of the inner wall of the isolation cover (31), and a plurality of groups of vibration motors are fixedly connected to the outer wall of the annular storage shell (32);

the inner wall top of cage (31) has seted up first mounting hole (34), just the axis of first mounting hole (34) coincides with the axis of cage (31), a plurality of second mounting hole (35) of group have still been seted up on the inner wall top of cage (31), a plurality of groups second mounting hole (35) are the annular array setting of taking the axis of cage (31) as the center.

2. The impurity separating type floating sewage pump according to claim 1, wherein: the top department of first electric putter (12) is provided with a plurality of groups water pump (110) around, a plurality of groups water pump (110) are the annular array setting as the center with the axis of first electric putter (12), a plurality of groups the bottom of water pump (110) all is provided with into water hose (111), a plurality of groups into water hose (111) all run through second filter mechanism (14) and extend to the top of first filter mechanism (13) and communicate each other, a plurality of groups the top of water pump (110) all is provided with out water hard tube (112), and a plurality of groups go out water hard tube (112) all communicates each other with sewage pump assembly (5).

3. The impurity separating type floating sewage pump according to claim 1, wherein: the one end of first cartridge filter (131) is the blind end, blind end inner wall fixedly connected with isolation tube (132), the other end of first cartridge filter (131) is the open end, the open end is provided with isolation lid (134), a plurality of first through-holes (133) of group have been seted up to the outer wall of first cartridge filter (131), PH sensor is installed in the lateral wall embedding of isolation tube (132), a plurality of second through-holes (135) of group have been seted up to the surface of isolation lid (134), a plurality of groups the inner wall of second through-holes (135) all with the tip fixed and the intercommunication of hose (111) that intakes.

4. The impurity separating type floating sewage pump according to claim 1, wherein: the second filter mechanism (14) comprises a second filter cartridge (141); a plurality of hollow smooth chambeies (142) of group have been seted up to a side wall of second cartridge filter (141), a plurality of groups hollow smooth chambeies (142) are the annular array setting as the center with the axis of second cartridge filter (141), embedded chamber (143) have been seted up to inner wall one end of second cartridge filter (141), a plurality of fourth through-holes (144) of group and a plurality of third through-holes (145) of group have been seted up on the surface of embedded chamber (143), and a plurality of groups fourth through-holes (144) are located the one side of keeping away from hollow smooth chambeies (142).

5. The impurity separating type floating sewage pump according to claim 1, wherein: the sewage pump assembly (5) comprises a sewage pump body (51); the sewage pump is characterized in that a water inlet valve (52) is arranged at the bottom of the sewage pump body (51), the water inlet valve (52) is in threaded fastening connection with the top end of the isolation cover (31), a plurality of drainage holes (53) are formed in the outer wall of the water inlet valve (52), the drainage holes (53) are communicated with a hard water outlet pipe (112), and a water outlet valve (54) is arranged on one side wall of the sewage pump body (51).

6. A method of operating a contaminant separation type floating blow down pump according to any of claims 1 to 5, characterized in that: the working method comprises the following steps:

The sewage pump assembly is in a suspended state by being attached to the upper surface of sewage through the suspension assembly;

impurities near sewage are prevented from entering the sewage pump assembly through the metal filter screen;

and carrying out secondary purification treatment on the sewage after the impurities are removed in the metal filter screen through the throwing component.