CN114541518B - Intelligent booster pump station - Google Patents

Abstract

The invention discloses an intelligent booster pump station, wherein mounting bases are uniformly poured on the top end of a base of the booster pump station at equal intervals, a supporting bottom frame is spliced and mounted on the top surface of the base of the booster pump station corresponding to the outer side position of the mounting bases, liquid guide bottom grooves are formed in the bottom of the supporting bottom frame in a criss-cross manner, and clamping square grooves are uniformly formed in the top end of the supporting bottom frame, the invention prevents the feet of maintainers from directly contacting with the ground through a bottom guide supporting mechanism, thereby effectively preventing the maintainers from diffusing dirt in a pump room through soles carried by the soles in the walking process, further effectively improving the cleanliness in the pump room, collecting and intercepting the dirt falling from the supporting bottom frame by water-absorbing cotton blocks, and quickly taking out the water-absorbing cotton blocks through connecting magnetic blocks and a limiting frame when the ground of the pump room needs to be cleaned, thereby effectively improving the cleaning efficiency of the pump room ground.

Description

Intelligent booster pump station

Technical Field

The invention relates to the technical field of water supply equipment, in particular to an intelligent booster pump station.

Background

The booster pump station is a structure for increasing the water pressure of a local area in a water distribution system, and is also called as a booster station, the booster pump station also comprises a pump station for pumping water in a water delivery system in multiple stages into various transfer water in a broad sense, and the booster pump station is required to be used when water resource transportation is carried out in a city;

but at present booster pump station in use receives building structure's restriction to lead to the inside ground of booster pump station to lack corresponding support auxiliary structure, and partial ponding often can appear in the ground when booster pump station needs the maintenance, thereby reduced the frictional force on ground, thereby reduced maintainer's maintenance security, when maintainer walked around repeatedly on moist ground simultaneously, the dirt also can be through the continuous outward diffusion of maintainer's sole, reduced the cleanliness on ground, reduced booster pump station's use convenience.

Disclosure of Invention

The invention provides an intelligent booster pump station, which can effectively solve the problems that the booster pump station provided in the background technology is limited by a building structure when in use, so that the ground inside the booster pump station is lack of a corresponding supporting auxiliary structure, partial water is often accumulated on the ground when the booster pump station needs to be maintained, so that the friction force of the ground is reduced, the maintenance safety of maintainers is reduced, and meanwhile, when the maintainers repeatedly walk on a wet ground, dirt can be continuously diffused outwards through soles of the maintainers, so that the cleanliness of the ground is reduced, and the use convenience of the booster pump station is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent booster pump station comprises a booster pump station base, wherein a movable interlayer is fixedly connected to the middle of one side in the booster pump station base, mounting bases are uniformly poured on the top end of the booster pump station base at equal intervals, an infusion pump is fixedly mounted on the top end of the mounting bases, the input end of the infusion pump is electrically connected with the output end of an external power supply, and infusion tubes are mounted on two sides of the infusion pump;

the top of the base of the booster pump station is provided with a bottom guide support mechanism which is used for providing auxiliary support for the ground of the booster pump station and reducing the contact area between a maintainer and the ground inside the pump station, so that the maintainer is prevented from continuously polluting the ground of the pump station, and meanwhile, when shallow water submerges the bottom inside the pump station, guidance is provided for the traveling route of the maintainer;

the bottom guide support mechanism comprises a support bottom frame, a liquid guide bottom groove, a clamping square groove, a splicing clamping plate, a separating rectangular groove, a drainage groove hole, a support grid frame, a connecting magnetic block, a water absorption cotton block, a limiting frame, a narrow containing box, a guide thin groove, a swing sliding rod, a floating box and protective particles;

the top surface of the base of the booster pump station is spliced and installed at a position corresponding to the outer side of the installation base, a support bottom frame is arranged at the bottom of the support bottom frame in a criss-cross mode, liquid guide bottom grooves are formed in the bottom of the support bottom frame in a criss-cross mode, clamping square grooves are uniformly formed in the top end of the support bottom frame, splicing clamping boards are movably clamped inside the clamping square grooves, separating rectangular grooves are formed in the four corners of the top surface of each splicing clamping board, and drainage groove holes are formed in the middle of the bottom end of the inner side of each separating rectangular groove in a penetrating mode;

the supporting grid frame is clamped on the inner side of the separating rectangular groove, the connecting magnetic blocks are movably clamped in the middle of the supporting grid frame, absorbent cotton blocks are evenly clamped on the inner side edge of the supporting grid frame at equal intervals, and the absorbent cotton blocks and the connecting magnetic blocks are connected with each other through a limiting frame;

splice cardboard top both sides middle part embedding is installed and is accomodate narrow box, accomodate narrow box both sides and all run through and seted up the direction stria, it has the swing slide bar to accomodate the inboard sliding connection that corresponds the inboard position department of direction stria of narrow box, swing slide bar tip corresponds concatenation cardboard top middle part position department and is connected with unsteady box through the pivot rotation, concatenation cardboard top middle part evenly is provided with the protective particle.

Preferably, it is provided with the ladder to remove interlayer side equidistance, remove the equal fixed mounting in interlayer top surface limit portion and ladder limit portion and have the rail, it is provided with exit to remove interlayer tip wall, pumping station base limit portion has seted up water drainage tank.

Preferably, the support underframe is formed by the concatenation of multiunit frame construction, communicate each other between the drain kerve, and communicate each other between drain kerve and the inside water drainage tank of pump station.

Preferably, the outer side of the support grid frame is tightly attached to the inner side of the separation rectangular groove, the top surface of the water absorption cotton block is lower than the top surface of the limit square frame, and the floating box is made of a light hollow material.

Compared with the prior art, the invention has the following beneficial effects: the invention has scientific and reasonable structure and safe and convenient use:

1. the bottom guide supporting mechanism is arranged, through the mutual matching among the components in the bottom guide supporting mechanism, the additional isolation structure is additionally arranged on the ground of the pump station, the contact area between the sole of a maintenance person and the ground is effectively reduced, the phenomenon that the sole of the maintenance person slips in the advancing process is effectively avoided through a unique structural form, the safety of the maintenance process of the pump station is improved, meanwhile, the direct contact between the foot of the maintenance person and the ground is prevented, so that the diffusion of dirt carried by the maintenance person through the sole in the walking process is effectively avoided, the cleanliness in the pump room is effectively improved, the dirt rising and falling off the supporting bottom frame is collected and intercepted through the water absorption cotton blocks, and when the ground of the pump room needs to be cleaned, the water absorption cotton blocks are quickly taken out through the connecting magnetic blocks and the limiting frame, thereby effectively improving the cleaning efficiency of the pump room ground;

simultaneously through the design of the box that floats of light, the box that floats through the suspension provides the guide for the maintainer when making the pump station submerged, ensures that the maintainer can all step on at the concatenation cardboard top that corresponds at each step, through carrying out simple guide to the maintainer, the effectual efficiency that improves the pump station and overhauls, the design of concatenation formula mechanism of concatenation cardboard simultaneously, the ground that makes the pump station takes place to damage can directly maintain through the replacement, the effectual maintenance convenience that improves the pump station.

2. The protection isolation heat dissipation mechanism is arranged, the protection isolation heat dissipation mechanism protects the infusion pump in the use process of the infusion pump through mutual matching of all components in the protection isolation heat dissipation mechanism, an additional isolation belt is formed outside the infusion pump through the isolation rubber strip in the low-temperature operation of the infusion pump, so that the external moisture is effectively prevented from entering the infusion pump, when the infusion pump operates at high temperature, the external water vapor is prevented from entering the protection box due to the local high-temperature belt formed inside the protection box, the water vapor is further prevented from directly contacting the infusion pump to cause corrosion, the anti-corrosion capability of the infusion pump is effectively improved, and the water vapor is condensed outside the infusion pump, so that the isolation rubber strip and the heat conduction fin are driven by the infusion pump to be separated from each other, the heat dissipation efficiency of the infusion pump is improved, and the mechanism is subjected to form conversion by utilizing different temperature characteristics of the infusion pump in different states, the infusion pump can effectively prevent external moisture from invading the infusion pump in a low-temperature state of the infusion pump, improve the heat dissipation efficiency of the infusion pump in a high-temperature state, and effectively improve the running stability and safety of the infusion pump in a pump station;

meanwhile, the temperature range inside the protection box can be visually displayed through the heat absorption top box, the transparent guide pipe and the floating slide block, the inspection convenience of maintainers is effectively improved, external humidity and water level are detected through the humidity sensor, early warning is carried out through the alarm, the infusion pump is conveniently closed in time, the infusion pump is prevented from being broken down after being immersed in water and is continuously operated, and the use safety of the infusion pump is further improved.

3. The side sound-insulation drying mechanism is arranged, water in air in the pump station is actively collected in the transportation process of the pump station through mutual matching of all components in the side sound-insulation drying mechanism, and the collected water is guided and absorbed, so that the humidity in the pump station is effectively reduced, the water absorbed by the absorbent sliver is intensively transported to the inside of the treatment box through continuous circulating air flow, and the collected water is condensed in the treatment box again and then is discharged out of the pump station from the liquid drainage notch;

simultaneously through the loose porous structure that adsorbs the silver to and the inside air current that lasts the downflow of thin box of installation, absorb consumption and directional guide to the inboard sound wave of pump station wall of diffusion in the transfer pump operation process, thereby the effectual noise that prevents the pump station and produce spreads outward, and then the effectual noise pollution that has reduced the pump station to all ring edge borders has improved the feature of environmental protection of pump station.

In conclusion, through the mutual matching of the bottom guiding and supporting mechanism, the protecting and isolating heat dissipation mechanism and the side sound-insulating and drying mechanism, in the outward diffusion process of noise generated by the infusion pump, the noise is intercepted once through the protecting box and the isolating rubber strip, the noise diffused to the ground is collected and consumed through the porous structures of the supporting grid frame and the water absorption cotton block, and the noise diffused to the wall surface is absorbed through the installation of the thin box and the absorption cotton strip, so that the noise is effectively prevented from being reflected and diffused for many times in the pump room, and the working environment of the working personnel of the pump station is effectively improved;

simultaneously through the concatenation formula structural design of bottom direction supporting mechanism, protection isolation heat dissipation mechanism and side sound insulation drying mechanism, the effectual convenience that improves each mechanism's installation has reduced the installation degree of difficulty of each mechanism, makes the pump station build the back still can install according to the demand, and then has reduced the repacking cost of pump station, has improved the convenience of using widely.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of the protective case of the present invention;

FIG. 3 is a schematic view of the construction of the partitioned rectangular slot arrangement of the present invention;

FIG. 4 is a schematic view of the construction of the bottom guiding support mechanism of the present invention;

FIG. 5 is a schematic view of the construction of the swing slide mount of the present invention;

FIG. 6 is a schematic structural view of the installation of the connecting magnetic block of the present invention;

FIG. 7 is a schematic structural diagram of the protective, insulating and heat dissipating mechanism of the present invention;

FIG. 8 is a schematic view of the installation structure of the air permeable tail plate of the present invention;

FIG. 9 is a schematic view of the interior of the protective case of the present invention;

FIG. 10 is a schematic view of the side acoustic drying mechanism of the present invention;

FIG. 11 is a schematic view of the installation structure of the filter screen plate of the present invention;

reference numbers in the figures: 1. a booster pump station base; 2. moving the interlayer; 3. installing a base; 4. an infusion pump; 5. a transfusion tube;

6. a bottom guide support mechanism; 601. a support bottom frame; 602. a liquid guiding bottom groove; 603. clamping a square groove; 604. splicing the clamping plates; 605. separating the rectangular grooves; 606. a drainage slot; 607. supporting the lattice frame; 608. a connecting magnetic block; 609. a water absorbent cotton block; 610. a limit frame; 611. a narrow storage box; 612. a guide slot; 613. swinging the sliding rod; 614. a float box; 615. protective particles;

7. a protection isolation heat dissipation mechanism; 701. a protective box; 702. a heat conducting sleeve; 703. a heat-conducting fin; 704. a heat conducting tail plate; 705. a heat absorption round box; 706. an elastic ring sleeve; 707. driving the bent rod; 708. an isolation rubber strip; 709. a heat-dissipating top bar; 710. a heat dissipation pore plate; 711. a heat absorbing top box; 712. a transparent conduit; 713. a floating slider; 714. a breathable tail plate; 715. a humidity sensor; 716. an alarm;

8. a lateral sound insulation drying mechanism; 801. installing a thin box; 802. adsorbing cotton slivers; 803. connecting the narrow strips; 804. a condensation diagonal bar; 805. separating the mullions; 806. a guide transverse plate; 807. collecting a bottom box; 808. a treatment tank; 809. a liquid discharge sloping plate; 810. a drainage notch; 811. a circulating fan; 812. a gas-guide tube; 813. a long box is blown; 814. a filter screen plate.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it should be understood that they are presented herein only to illustrate and explain the present invention and not to limit the present invention.

Example (b): as shown in fig. 1-11, the invention provides a technical scheme, and an intelligent booster pump station comprises a booster pump station base 1, wherein a movable interlayer 2 is fixedly connected to the middle of one side in the booster pump station base 1, steps are arranged on the side surface of the movable interlayer 2 at equal intervals, fences are fixedly arranged on the top surface edge part and the step edge part of the movable interlayer 2, an inlet and an outlet are arranged on the wall surface at the end part of the movable interlayer 2, a drainage channel is arranged on the edge part of the booster pump station base 1, a mounting base 3 is uniformly poured on the top end of the booster pump station base 1 at equal intervals, an infusion pump 4 is fixedly arranged on the top end of the mounting base 3, the input end of the infusion pump 4 is electrically connected with the output end of an external power supply, and infusion tubes 5 are arranged on two sides of the infusion pump 4;

the top of the booster pump station base 1 is provided with a bottom guide support mechanism 6 which is used for providing auxiliary support for the ground of the booster pump station and reducing the contact area between the maintainers and the ground inside the pump station, thereby preventing the maintainers from continuously polluting the ground of the pump station and simultaneously providing guidance for the traveling route of the maintainers when shallow water submerges the bottom inside the pump station;

the bottom guide supporting mechanism 6 comprises a support bottom frame 601, a liquid guide bottom groove 602, a clamping square groove 603, a splicing clamping plate 604, a separating rectangular groove 605, a drainage groove hole 606, a support grid frame 607, a connecting magnetic block 608, a water absorption cotton block 609, a limit frame 610, a narrow containing box 611, a guide narrow groove 612, a swinging sliding rod 613, a floating box 614 and protective particles 615;

the top surface of a booster pump station base 1 is spliced and installed with a support bottom frame 601 corresponding to the outer side position of an installation base 3, the bottom of the support bottom frame 601 is provided with liquid guide bottom grooves 602 in a criss-cross mode, the top end of the support bottom frame 601 is uniformly provided with a clamping square groove 603, a splicing clamping plate 604 is movably clamped inside the clamping square groove 603, four corners of the top surface of the splicing clamping plate 604 are provided with separating rectangular grooves 605, the middle part of the bottom end inside the separating rectangular grooves 605 is provided with a drainage groove hole 606 in a penetrating mode, the support bottom frame 601 is formed by splicing a plurality of groups of frame structures, the liquid guide bottom grooves 602 are communicated with one another, and the liquid guide bottom grooves 602 are communicated with drainage grooves inside the pump station;

a supporting grid frame 607 is clamped on the inner side of the rectangular separating groove 605, a connecting magnetic block 608 is movably clamped in the middle of the supporting grid frame 607, absorbent cotton blocks 609 are uniformly clamped on the inner side edge of the supporting grid frame 607 at equal intervals, and the absorbent cotton blocks 609 and the connecting magnetic block 608 are connected with each other through a limiting frame 610;

the middle parts of two sides of the top end of the splicing clamping plate 604 are embedded with a narrow containing box 611, two sides of the narrow containing box 611 are respectively provided with a guide slot 612 in a penetrating way, the inner side of the narrow containing box 611 corresponding to the inner side of the guide slot 612 is connected with a swinging slide bar 613 in a sliding way, the end part of the swinging slide bar 613 corresponding to the middle part of the top end of the splicing clamping plate 604 is connected with a floating box 614 through a rotating shaft in a rotating way, the middle part of the top end of the splicing clamping plate 604 is uniformly provided with protective particles 615, the outer side of a supporting grid frame 607 is tightly attached to the inner side of a separating rectangular slot 605, the top surface of a water absorbing cotton block 609 is lower than the top surface of a limiting grid frame 610, the floating box 614 is made of a light hollow material, through the mutual matching of all components in the bottom guide supporting mechanism 6, through additionally arranging an additional isolating structure on the ground of a pump station, the contact area between the sole of maintenance personnel and the ground is effectively reduced, through a unique structural form, the phenomenon that the sole slips in the process of the maintenance personnel in the advancing process, the safety of the pump station maintenance process is improved, meanwhile, the direct contact between the feet of maintenance personnel and the ground is prevented, so that the situation that maintenance personnel carry dirt to diffuse in the pump room through soles in the walking process is effectively avoided, the cleanliness of the inside of the pump room is effectively improved, the dirt rising and falling from the supporting bottom frame 601 is collected and intercepted through the water absorption cotton block 609, when the ground of the pump room needs to be cleaned, the water absorption cotton block 609 is rapidly taken out through the connecting magnetic block 608 and the limiting frame 610, and the cleaning efficiency of the ground of the pump room is effectively improved;

meanwhile, through the design of the light floating box 614, when the pump station is submerged by water, guidance is provided for the maintainers through the floating box 614 which is suspended, the maintainers can step on the top of the corresponding splicing clamping plate 604 at each step, and the maintenance efficiency of the pump station is effectively improved through simple guidance of the maintainers;

the top of the installation base 3 is provided with a protection isolation and heat dissipation mechanism 7 corresponding to the outer side of the infusion pump 4 and used for isolating and protecting the motor of the infusion pump 4, so that external moisture is prevented from being in long-term contact with the motor, and meanwhile, a local high-temperature zone is formed on the outer side of the motor, so that the moisture adsorbed to the outer side of the motor is quickly volatilized, and the service life of the infusion pump 4 is prolonged;

the protective isolation heat dissipation mechanism 7 comprises a protective box 701, a heat conduction sleeve 702, heat conduction fins 703, a heat conduction tail plate 704, a heat absorption round box 705, an elastic ring sleeve 706, a driving bent rod 707, an isolation rubber strip 708, a heat dissipation top strip 709, a heat dissipation hole plate 710, a heat absorption top box 711, a transparent conduit 712, a floating slide block 713, a ventilation tail plate 714, a humidity sensor 715 and an alarm 716;

a protection box 701 is fixedly arranged at the top of the installation base 3 corresponding to the outer side of the infusion pump 4, a heat conduction sleeve 702 is wrapped at the outer side of the tail of the infusion pump 4, heat conduction fins 703 are evenly arranged at the outer side of the heat conduction sleeve 702 in an equal distance, a heat conduction tail plate 704 is fixedly connected at one end of the heat conduction sleeve 702 corresponding to the tail of the infusion pump 4, a heat absorption round box 705 is embedded and arranged at the middle part of the heat conduction tail plate 704 corresponding to the tail of the infusion pump 4, an elastic ring sleeve 706 is fixedly bonded at the middle part of the inner side of the heat absorption round box 705, a driving bent rod 707 is evenly and fixedly connected at the outer side of the elastic ring sleeve 706 along the circumferential direction, an isolation rubber strip 708 is fixedly connected at the end part of the driving bent rod 707 corresponding to the outer side of the heat conduction sleeve 702, the side surface of the heat absorption round box 705 is tightly bonded with the infusion pump 4, a small amount of volatile liquid is contained in the elastic ring sleeve 706, the volatile liquid is low-concentration alcohol, the driving bent rod 707 penetrates through the side wall of the heat absorption round box 705, the driving bent rod 707 is in sliding connection with the heat absorption round box 705;

the two sides of the top end of the protection box 701 are fixedly connected with heat dissipation top strips 709, the two ends of the top of the protection box 701 are embedded with heat dissipation pore plates 710, the middle of the top end of the protection box 701 is fixedly connected with a heat absorption top box 711, the middle of the top end of the heat absorption top box 711 is fixedly connected with a transparent conduit 712, the inner side of the transparent conduit 712 is slidably connected with a floating slide block 713, a small amount of volatile liquid is filled in the inner side of the heat absorption top box 711, the volatile liquid is low-concentration alcohol, and the side face of the floating slide block 713 is tightly attached to the inner wall of the transparent conduit 712;

the middle part of the tail end of the protection box 701 is embedded with a breathable tail plate 714, the middle part of the bottom end of the tail part of the infusion pump 4 is fixedly provided with a humidity sensor 715, the middle part of the bottom end of the tail part of the protection box 701 is fixedly provided with an alarm 716, the alarm is protected in the using process of the infusion pump 4 through the mutual matching of all components in the protection isolation and heat dissipation mechanism 7, an additional isolation strip is formed outside the infusion pump 4 through an isolation rubber strip 708 when the infusion pump 4 operates at low temperature, so that the external moisture is effectively prevented from invading into the infusion pump 4, when the infusion pump 4 operates at high temperature, the external water vapor can be effectively prevented from invading into the protection box 701 and being condensed outside the infusion pump 4 due to the local high-temperature strip formed inside the protection box 701, therefore, the isolation rubber strip 708 and the heat conduction fin 703 are driven by the infusion pump 4 to be separated from each other, and the heat dissipation efficiency of the infusion pump 4 is improved, the mechanism is subjected to form transformation by utilizing different temperature characteristics of the infusion pump 4 in different states, so that the infusion pump 4 is effectively prevented from being invaded by external moisture in the low-temperature state of the infusion pump 4, the heat dissipation efficiency of the infusion pump 4 in the high-temperature state is improved, and the operation stability and the safety of the infusion pump 4 in a pump station are effectively improved;

meanwhile, the temperature range inside the protection box 701 can be visually displayed through the heat absorption top box 711, the transparent conduit 712 and the floating slide block 713, the inspection convenience of maintainers is effectively improved, the external humidity and the water level are detected through the humidity sensor 715, and the alarm 716 performs early warning, so that the infusion pump 4 is closed in time, the continuous operation of the infusion pump 4 after being immersed in water is prevented from being failed, and the use safety of the infusion pump 4 is further improved;

two sides of the top of the pressurizing pump station base 1 are provided with side surface sound insulation drying mechanisms 8 which are used for isolating and protecting the side surfaces of the pump station, so that moisture in the air in the pumping station is collected, meanwhile, the collected moisture is discharged out of the pump station through continuous circulating airflow, and sound in the pump station is effectively prevented from diffusing outwards;

the side sound insulation drying mechanism 8 comprises a mounting thin box 801, an adsorption cotton sliver 802, a connecting narrow strip 803, a condensation inclined rod 804, a separation vertical frame 805, a guide transverse plate 806, a collection bottom box 807, a treatment box 808, a liquid drainage inclined plate 809, a liquid drainage notch 810, a circulating fan 811, an air duct 812, a blowing long box 813 and a filter screen 814;

the two sides of the top end of the pressurizing pump station base 1 are fixedly provided with installation thin boxes 801, adsorption cotton slivers 802 are embedded into the front surfaces of the installation thin boxes 801 at equal intervals, connecting narrow strips 803 are embedded into the front surfaces of the installation thin boxes 801 corresponding to the top parts of the adsorption cotton slivers 802, and condensation inclined rods 804 are uniformly and fixedly connected to the middle parts of one sides of the connecting narrow strips 803 at equal intervals;

the inner sides of the mounting thin boxes 801 are equidistantly provided with separating vertical frames 805, the inner sides of the separating vertical frames 805 are fixedly connected with guide transverse plates 806 in a staggered mode, the bottom ends of the inner sides of the mounting thin boxes 801 are fixedly connected with collecting bottom boxes 807, the end parts of the collecting bottom boxes 807 are provided with treatment boxes 808 corresponding to one corner of the booster pump station base 1, the bottom ends of the treatment boxes 808 are fixedly provided with drainage inclined plates 809, the bottom ends of the treatment boxes 808 are provided with drainage notches 810 corresponding to the edges of the drainage inclined plates 809 in a penetrating mode, the inner side surfaces of the connecting narrow strips 803 and the inner side surfaces of the adsorption cotton slivers 802 are both positioned in the mounting thin boxes 801, the end parts of the condensation inclined rods 804 are tilted upwards, and the outer sides of the separating vertical frames 805 are tightly attached to the inner walls of the mounting thin boxes 801;

one side of the top end of the processing box 808 is connected with a circulating fan 811 through a pipeline, the input end of the circulating fan 811 is electrically connected with the output end of an external power supply, the middle part of one end of the circulating fan 811 is fixedly connected with an air duct 812, one end of the air duct 812 is fixedly connected with an air blowing long box 813 corresponding to the top part of the inner side of the mounting thin box 801, the bottom end of the processing box 808 is uniformly and fixedly connected with a filter screen 814 corresponding to the top part of the liquid drainage notch 810, a corresponding notch is arranged at one side of the top end of the booster pump station base 1 corresponding to the end part of the liquid drainage notch 810, the outlet of the collecting bottom box 807 is arranged at the top part of the liquid drainage inclined plate 809, through the mutual matching among the components in the side sound insulation drying mechanism 8, water in the air in the pump station is actively collected in the transportation process of the pump station, and the collected water is guided and absorbed, thereby effectively reducing the humidity in the pump station, the moisture absorbed by the absorbent cotton strip 802 is intensively transported to the inside of the treatment box 808 through the continuous circulating airflow, so that the collected moisture is condensed again in the inside of the treatment box 808 and then is discharged out of a pump station from a liquid discharge notch 810;

meanwhile, the sound waves diffused to the inner side of the wall of the pump station in the operation process of the infusion pump 4 are absorbed, consumed and directionally guided by a loose and porous structure adsorbing the cotton sliver 802 and the airflow continuously flowing downwards in the thin box 801, so that the noise generated by the pump station is effectively prevented from being diffused outwards, the noise pollution of the pump station to the surrounding environment is effectively reduced, and the environmental protection performance of the pump station is improved.

The working principle and the using process of the invention are as follows: in the practical use process of the invention, in the use process of the pump station, the ground of the pump station needs to be isolated and protected, an additional installation force point is arranged on the ground of the pump station through the support bottom frame 601, the water flow passing through the support bottom frame 601 is guided through the liquid guide bottom groove 602, the splicing clamp plate 604 is clamped to the inner side of the support bottom frame 601 through the clamping square groove 603, the auxiliary support is provided for the side surface of the splicing clamp plate 604 through the support grid frame 607, the absorbent cotton block 609 is embedded into the support grid frame 607 through the connecting magnetic block 608 and the limiting frame 610, the connecting magnetic block 608 is adsorbed through the magnet, so that the connecting magnetic block 608, the absorbent cotton block 609 and the limiting frame 610 are lifted out of the support grid frame 607 to clean the insides of the absorbent cotton block 609 and the clamping square groove 603, the swinging slide bar 613 is installed to the middle part of the splicing clamp plate 604 through the containing narrow box 611, after the top of the support bottom frame 601 is submerged, the floating box 614 floats upwards under the action of the buoyancy of water, the swinging slide bar 613 is guided by the guide slot 612, the floating box 614 is limited and guided, and the guide assistance is provided for the maintainers through the floating box 614;

in the continuous operation process of the infusion pump 4 of the pump station, the motor part of the infusion pump 4 generates natural heat, meanwhile, the infusion pump 4 needs to do damp-proof and waterproof work when working in a wet environment for a long time, an independent isolation space is constructed outside the infusion pump 4 through the protection box 701, heat emitted in the working process of the infusion pump 4 is absorbed through the heat conduction sleeve 702 and guided outwards, so that the heat is quickly diffused outwards through the heat conduction fins 703, and in the low-temperature operation process of the infusion pump 4, the isolation rubber strips 708 are clamped at the gaps among the heat conduction fins 703, so that an additional protection barrier is erected outside the infusion pump 4, and the whole waterproofness of the infusion pump 4 is improved;

when the temperature of the infusion pump 4 rises rapidly and exceeds the conventional temperature, the heat absorption round box 705 absorbs heat and transfers the heat to the interior of the elastic ring sleeve 706, the elastic ring sleeve 706 expands after being heated, the driving bent rod 707 is driven to extend outwards in the expansion process of the elastic ring sleeve 706, and the isolation rubber strip 708 is driven to be separated from the gap between the heat conducting fins 703 in the outward extension process of the driving bent rod 707, so that the heat dissipation area of the infusion pump 4 is increased;

the heat dissipation area at the top of the protection box 701 is effectively increased through the heat dissipation top strip 709, the heat dissipation efficiency of the protection box 701 is further improved, meanwhile, after the temperature in the protection box 701 rises, the pressure in the heat absorption top box 711 rises, so that the floating sliding block 713 is jacked upwards along the transparent conduit 712 through the pressure in the heat absorption top box 711, the temperature in the protection box 701 is judged through the position of the floating sliding block 713, and meanwhile, when the water is immersed in the humidity sensor 715 positioned at the lowest point of the tail of the infusion pump 4, the alarm 716 gives an alarm and the corresponding infusion pump 4 is closed in time to ensure the safety of the infusion pump 4;

in the continuous operation process of the pump station, water vapor in the air in the pump station needs to be collected and pumped away to keep the inside of a pump station room dry, an adsorption cotton sliver 802 and a connecting narrow strip 803 are arranged inside a thin box 801, moisture in the air inside the pump station is condensed through a condensation inclined rod 804, the condensed water is guided, the moisture is adsorbed and collected through the adsorption cotton sliver 802 in the downward flowing process after being condensed, and the moisture is diffused into the thin box 801 through the adsorption cotton sliver 802;

outside air is sucked into the inside of the processing box 808 through the liquid drainage notch 810 by the circulating fan 811, the air is filtered by the filter screen plate 814, so that solid impurities in the air are intercepted at the bottom of the collecting bottom box 807, the air flow is guided into the air blowing long box 813 through the air guide pipe 812 and is uniformly blown into the mounting thin box 801, the air flow in the mounting thin box 801 is guided through the separating vertical frame 805 and the guide horizontal plate 806, the flow path and the flow time of the air flow in the mounting thin box 801 are effectively increased, moisture on the inner side of the absorbent cotton strip 802 is separated in the air flow flowing process, the moisture is guided into the inside of the collecting bottom box through the air flow, the moisture is re-condensed at the bottom of the processing box 808, and the air flow is discharged out of a room through the liquid drainage notch 810 under the guidance of the liquid drainage inclined plate 809, and the drying of the inside of the pump station is realized.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. An intelligent booster pump station, includes booster pump station base (1), its characterized in that: the middle part of one side in the booster pump station base (1) is fixedly connected with a movable interlayer (2), mounting bases (3) are uniformly poured at equal intervals on the top end of the booster pump station base (1), infusion pumps (4) are fixedly mounted at the top ends of the mounting bases (3), the input ends of the infusion pumps (4) are electrically connected with the output end of an external power supply, and infusion tubes (5) are mounted on two sides of each infusion pump (4);

the top of the booster pump station base (1) is provided with a bottom guide supporting mechanism (6) which is used for providing auxiliary support for the ground of the booster pump station and reducing the contact area between maintainers and the ground inside the pump station, so that the maintainers are prevented from continuously polluting the ground of the pump station, and meanwhile, when shallow water submerges the bottom inside the pump station, guidance is provided for the traveling route of the maintainers;

the bottom guide supporting mechanism (6) comprises a support bottom frame (601), a liquid guide bottom groove (602), a clamping square groove (603), a splicing clamping plate (604), a separating rectangular groove (605), a drainage groove hole (606), a support grid frame (607), a connecting magnetic block (608), a water absorption cotton block (609), a limit frame (610), a narrow containing box (611), a guide slot (612), a swing sliding rod (613), a floating box (614) and protective particles (615);

the top surface of the booster pump station base (1) is spliced and installed with a support bottom frame (601) at a position corresponding to the outer side of the installation base (3), liquid guide bottom grooves (602) are formed in the bottom of the support bottom frame (601) in a criss-cross mode, clamping square grooves (603) are uniformly formed in the top end of the support bottom frame (601), splicing clamping plates (604) are movably clamped in the clamping square grooves (603), separating rectangular grooves (605) are formed in four corners of the top surface of each splicing clamping plate (604), and drainage groove holes (606) are formed in the middle of the bottom end of the inner side of each separating rectangular groove (605) in a penetrating mode;

a supporting grid frame (607) is clamped on the inner side of the separating rectangular groove (605), a connecting magnetic block (608) is movably clamped in the middle of the supporting grid frame (607), absorbent cotton blocks (609) are uniformly clamped on the inner side edge of the supporting grid frame (607) at equal intervals, and the absorbent cotton blocks (609) and the connecting magnetic block (608) are connected with each other through a limiting frame (610);

the middle parts of two sides of the top end of the splicing clamping plate (604) are embedded with narrow accommodating boxes (611), two sides of each narrow accommodating box (611) are respectively provided with a guide slot (612) in a penetrating manner, the positions, corresponding to the inner sides of the guide slots (612), of the inner sides of the narrow accommodating boxes (611) are connected with swing sliding rods (613) in a sliding manner, the positions, corresponding to the middle parts of the top end of the splicing clamping plate (604), of the end parts of the swing sliding rods (613) are connected with floating boxes (614) in a rotating manner through rotating shafts, and the middle part of the top end of the splicing clamping plate (604) is uniformly provided with protective particles (615);

the outer side of the supporting grid frame (607) is tightly attached to the inner side of the separating rectangular groove (605), the top surface of the water absorption cotton block (609) is lower than the top surface of the limiting frame (610), and the floating box (614) is made of light hollow materials.

2. The intelligent booster pump station according to claim 1, wherein steps are equidistantly arranged on the side surfaces of the movable partition layer (2), fences are fixedly arranged on both the top surface edge part and the step edge part of the movable partition layer (2), an inlet and an outlet are arranged on the wall surface at the end part of the movable partition layer (2), and a drainage channel is formed in the edge part of the booster pump station base (1).

3. The intelligent booster pump station according to claim 1, wherein the support bottom frame (601) is formed by splicing a plurality of sets of frame structures, the liquid guiding bottom grooves (602) are communicated with each other, and the liquid guiding bottom grooves (602) are communicated with a drainage groove inside the pump station.

4. The intelligent booster pump station according to claim 1, wherein a protective isolation and heat dissipation mechanism (7) is arranged at the top of the mounting base (3) corresponding to the outside of the infusion pump (4) and used for isolating and protecting the motor of the infusion pump (4) so as to prevent external moisture from contacting with the motor for a long time, and a local high-temperature zone is formed outside the motor so as to quickly volatilize moisture adsorbed to the outside of the motor and further prolong the service life of the infusion pump (4);

the protective isolation heat dissipation mechanism (7) comprises a protective box (701), a heat conduction sleeve (702), heat conduction fins (703), a heat conduction tail plate (704), a heat absorption round box (705), an elastic ring sleeve (706), a driving bent rod (707), an isolation rubber strip (708), a heat dissipation top strip (709), a heat dissipation hole plate (710), a heat absorption top box (711), a transparent conduit (712), a floating sliding block (713), a breathable tail plate (714), a humidity sensor (715) and an alarm (716);

the heat pump protection device is characterized in that a protection box (701) is fixedly mounted at the top of the mounting base (3) corresponding to the outer side of the infusion pump (4), a heat conduction sleeve (702) is wrapped on the outer side of the tail of the infusion pump (4), heat conduction fins (703) are uniformly arranged on the outer side of the heat conduction sleeve (702) at equal intervals, a heat conduction tail plate (704) is fixedly connected to the position of one end of the heat conduction sleeve (702) corresponding to the tail of the infusion pump (4), a heat absorption round box (705) is embedded in the middle of the heat conduction tail plate (704) corresponding to the position of the tail of the infusion pump (4), an elastic ring sleeve (706) is fixedly bonded to the middle of the inner side of the heat absorption round box (705), driving bent rods (707) are uniformly and fixedly connected to the outer side of the elastic ring sleeve (706) along the circumferential direction, and isolation rubber strips (708) are fixedly connected to the positions of the end portions of the driving bent rods (707) corresponding to the outer side of the heat conduction sleeve (702);

the heat dissipation top strips (709) are fixedly connected to two sides of the top end of the protection box (701), heat dissipation pore plates (710) are embedded into two ends of the top of the protection box (701), a heat absorption top box (711) is fixedly connected to the middle of the top end of the protection box (701), a transparent guide pipe (712) is fixedly connected to the middle of the top end of the heat absorption top box (711), and a floating slide block (713) is slidably connected to the inner side of the transparent guide pipe (712);

protection box (701) tail end middle part embedding is installed ventilative tailboard (714), transfer pump (4) afterbody bottom middle part fixed mounting has humidity transducer (715), protection box (701) afterbody bottom middle part fixed mounting has alarm (716).

5. The intelligent booster pump station according to claim 4, wherein the side of the heat absorption round box (705) is tightly attached to the infusion pump (4), a small amount of volatile liquid is contained in the elastic ring sleeve (706), the driving bent rod (707) penetrates through the side wall of the heat absorption round box (705), and the driving bent rod (707) is in sliding connection with the heat absorption round box (705).

6. The intelligent booster pump station according to claim 5, wherein the inside of the top heat absorbing box (711) is filled with a small amount of volatile liquid, and the side of the floating slider (713) is tightly attached to the inner wall of the transparent conduit (712).

7. The intelligent booster pump station according to claim 1, wherein the two sides of the top of the booster pump station base (1) are provided with side sound insulation drying mechanisms (8) for isolating and protecting the sides of the pump station, so as to collect moisture in the air inside the booster pump station, and simultaneously discharge the collected moisture out of the pump station through continuous circulating airflow and effectively prevent sound inside the pump station from diffusing outwards;

the side sound insulation drying mechanism (8) comprises a mounting thin box (801), an adsorption cotton sliver (802), a connecting narrow strip (803), a condensation inclined rod (804), a separation vertical frame (805), a guide transverse plate (806), a collection bottom box (807), a treatment box (808), a liquid drainage inclined plate (809), a liquid drainage notch (810), a circulating fan (811), an air duct (812), a blowing long box (813) and a filter screen plate (814);

the device comprises a booster pump station base (1), wherein mounting thin boxes (801) are fixedly mounted on two sides of the top end of the booster pump station base (1), adsorption cotton slivers (802) are embedded into the front faces of the mounting thin boxes (801) at equal intervals, connecting narrow strips (803) are embedded into the front faces of the mounting thin boxes (801) corresponding to the tops of the adsorption cotton slivers (802), and condensation inclined rods (804) are uniformly and fixedly connected to the middle of one sides of the connecting narrow strips (803) at equal intervals;

the inner side of the thin mounting box (801) is equidistantly provided with separating vertical frames (805), the inner sides of the separating vertical frames (805) are fixedly connected with guide transverse plates (806) in a staggered mode, the bottom end of the inner side of the thin mounting box (801) is fixedly connected with a collecting bottom box (807), a processing box (808) is arranged at the end part of the collecting bottom box (807) corresponding to one corner of the booster pump station base (1), a liquid drainage inclined plate (809) is fixedly mounted at the bottom end of the processing box (808), and a liquid drainage notch (810) is formed in the bottom end of the processing box (808) corresponding to the edge part of the liquid drainage inclined plate (809) in a penetrating mode;

handle case (808) top one side and have circulating fan (811) through the pipe connection, the input of circulating fan (811) and external power source's output electric connection, circulating fan (811) one end middle part fixedly connected with air duct (812), air duct (812) one end corresponds thin box (801) of installation inboard top position department fixedly connected with long box (813) of blowing, handle even fixedly connected with filter plate (814) of case (808) bottom corresponding flowing back notch (810) top position department.

8. The intelligent booster pump station according to claim 7, wherein the inner side surface of the connecting strip (803) and the inner side surface of the absorbent sliver (802) are both located inside the thin installation box (801), the end of the condensation diagonal rod (804) is tilted upwards, and the outer side of the separation vertical frame (805) is tightly attached to the inner wall of the thin installation box (801).

9. The intelligent booster pump station according to claim 8, wherein a corresponding notch is formed at a position corresponding to the end of the drainage notch (810) on one side of the top end of the booster pump station base (1), and the outlet of the collecting bottom box (807) is located at the top of the drainage sloping plate (809).

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