CN110747980A - Multifunctional intelligent soft water storage equipment - Google Patents

Abstract

The invention relates to a multifunctional intelligent soft water storage device, which relates to the technical field of water storage devices.A water collection surface is provided with an opening on which an access cover is arranged, one side edge of the access cover and one side edge of the opening are of an integrated structure, and the other three edges are connected and fixed with the other three edges of the opening by explosion-proof zippers; a flange is fixedly inserted into the access cover, the water pumping pipe is inserted into the flange, the upper end of the water pumping pipe is connected with the water inlet end of the water pumping pump, and the water outlet end of the water pumping pump is connected with the top surface liquid outlet pipe; the liquid sensor is connected with the controller, the controller is fixed in an electric cabinet in the solar photovoltaic module, the controller is connected with the water suction pump, the liquid sensor, the water suction pump and the controller are all electrically connected with the solar photovoltaic module, and the solar photovoltaic module is fixed on the outer side of the tank body; a plurality of pull rings are embedded in the water collecting surface at the periphery of the tank body. The water storage device can be applied to water storage under various environments, is energy-saving and environment-friendly, and reduces investment and later maintenance cost.

Description

Multifunctional intelligent soft water storage equipment

Technical Field

The invention relates to the technical field of water storage equipment, in particular to multifunctional intelligent soft water storage equipment.

Background

Water is a source of life and is extremely deficient in most areas of china for both natural and geographical reasons. The water for livestock is almost stored by limited rainfall. In order to help people in the places to get rid of poverty and loss caused by shortage of agricultural resources, the concrete water cellar is optimized for better collecting limited resources. The concrete water cellar has the prominent problems of high manufacturing cost, poor seepage prevention, soil destruction, difficult construction, more construction waste and the like.

Disclosure of Invention

The invention aims to provide a reasonably designed multifunctional intelligent soft water tank aiming at the defects and shortcomings of the prior art, which can be applied to water storage under various environments, is energy-saving and environment-friendly, and reduces the investment and later maintenance cost.

In order to achieve the purpose, the invention adopts the following technical scheme: the solar water heater comprises a tank body, a water collecting surface, a water inlet device, a water pumping pipe, a flange, a water pumping pump, a liquid sensor, a solar photovoltaic assembly, an explosion-proof zipper, an access cover and a buttonhole clamping piece; a liquid sensor is fixed on the inner wall of the tank body, an opening at the upper end of the tank body is fixedly connected with the lower surface of the water collecting surface, four top corners at the connecting part are fixedly connected by buckling up and down through buttonhole clamping pieces, a plurality of water inlet devices are arranged in the water collecting surface, an access cover is arranged on the opening on the water collecting surface, one side edge of the access cover and one side edge of the opening are of an integrated structure, and the rest three edges are fixedly connected with the other three edges of the opening through explosion-proof zippers; a flange is fixedly inserted into the access cover, the water pumping pipe is inserted into the flange, the upper end of the water pumping pipe is connected with the water inlet end of the water pumping pump, and the water outlet end of the water pumping pump is connected with the top surface liquid outlet pipe; the liquid sensor is connected with the controller, the controller is fixed in an electric cabinet in the solar photovoltaic module, the controller is connected with the water suction pump, the liquid sensor, the water suction pump and the controller are all electrically connected with the solar photovoltaic module, and the solar photovoltaic module is fixed on the outer side of the tank body; a plurality of pull rings are embedded in the water collecting surface at the periphery of the tank body.

Furthermore, the controller is arranged on the mobile equipment, the liquid sensor is in signal transmission connection with the controller on the mobile equipment through the wireless transmission module, and the controller is in electric control connection with the water suction pump through the wireless transmission module.

Furthermore, a warning lamp is fixed on the solar photovoltaic component and electrically connected with the solar photovoltaic component.

Furthermore, the solar photovoltaic module is fixedly and electrically connected with an illuminating lamp.

Further, the periphery of the water collecting surface is higher than the water inlet device.

Furthermore, the water inlet device comprises a cylindrical shell, a flange is formed at the edge position of the top of the shell through injection molding, external threads are arranged at the outer wall of the shell and below the flange, a pressing ring is matched with the external threads, a sealing ring is sleeved outside the shell and below the flange, an inner pipe is formed at the inner bottom of the shell through injection molding, the inner pipe is arranged upwards, the lower end of the inner pipe is provided with an opening, the upper end of the inner pipe is provided with a small hole, the aperture of the small hole is smaller than the inner diameter of the inner pipe, a plurality of water inlet holes are annularly arranged at the outer wall of the inner pipe, a movable pipe is connected with the external threads of the inner pipe, a first disc body and a second disc body are formed at the outer wall of the movable pipe through injection molding, and the first disc body is positioned above the second disc body, a positioning groove is formed after the bottom of the second tray body protrudes upwards, a PP cotton filter element is assembled in the positioning groove, the lower end of the PP cotton filter element is extruded on the inner bottom surface of the shell, the water inlet hole is positioned on the inner side of the PP cotton filter element, an operation gap is formed between the first tray body and the second tray body, medical stone particles are filled in the first tray body, and activated carbon particles are filled in the second tray body; a baffle net is supported above the first tray body, a mixed filter material is supported above the baffle net, a movable rod made of a plastic material is inserted in the small hole in an penetrating manner, a limiting plate is formed at the lower end of the movable rod in an injection molding manner, a hollow floating ball is connected to the lower end of the movable rod in a threaded manner, the upper end of the floating ball abuts against the limiting plate, a flow blocking cover is connected to the upper end of the movable rod after extending to the outside of the shell in a threaded manner, the outer diameter of the flow blocking cover is smaller than that of the blocking edge, the outer diameter of the flow blocking cover is larger than the inner diameter of the shell, a limiting cover is connected to the movable rod in a threaded manner, and the limiting cover is sleeved at the upper end of the inner tube; the water collecting surface is provided with an installation hole site for installing the shell, the water collecting surface is clamped between the flange and the pressing ring, and the sealing ring is sealed between the flange and the water collecting surface; the bottoms of the first tray body and the second tray body are respectively provided with a water seepage hole for water seepage downwards; a sealing gasket made of rubber is supported above the limiting plate; the filter material was replaced as follows: firstly, take off the spiral of flow blocking cover, clear up the mixed filter media that lies in and keep off the net top, then take off spacing cover spiral upwards again, hold the movable rod with the hand, avoid the movable rod to drop downwards. And the movable pipe is spirally taken down, finally, the PP cotton filter element is upwards taken out, and after the taking-out operation is completed, the limiting cover is spirally arranged at the upper end of the movable rod, so that the movable rod is prevented from falling downwards. At the moment, the medical stone particles and the active carbon particles in the first tray body and the second tray body are cleaned, new medical stone particles and active carbon particles are replaced, and a new PP cotton filter element is replaced. And then reinstalling. The above operation mode is easy to replace the filter material. While the integrity is high. The design purpose of floater is that after this product inside retaining is full, the floater upwards floated, seals the inner tube through sealed the pad, avoids the continuation entering of water. The problem that the product is broken due to excessive water inflow is avoided, the position of the floating ball can be changed by changing the position of the limiting cover to limit the maximum water inflow capacity, and after the limiting cover moves upwards along the movable rod, the height of the floating ball can be reduced due to the fact that the limiting cover is supported through the inner tube, and therefore the storage capacity of the product is reduced. Otherwise, the storage capacity is increased. The above-mentioned filter structure is designed for two main purposes, one of which is to filter the inlet water and to improve the cleanliness of the water when the stored water is used for drinking. Secondly, the organisms such as spiders and frogs are prevented from entering the product, and when the organisms enter and die, the water quality is prevented from smelling.

Further, the mixed filter material is one or a mixture of more than two of medical stone particles, active carbon particles, quartz sand and anthracite particles.

Furthermore, more than three stress ends are annularly arranged on the outer wall of the pressing ring, and each stress end is provided with a stress hole.

Furthermore, a bracket is sleeved outside the tank body, and the bottom of the side wall of the tank body is in through connection with an automatic overflow pipeline; the bracket is composed of a pool body frame, a water collecting surface frame, a vertical rod, an L-shaped foot support and an iron support; a plurality of tank body frames are stacked up and down and are connected and fixed by using upright rods, and the tank body frame on the uppermost layer is propped against the lower surface of a water collecting surface at the upper port of the tank body; the water collecting surface frame is sleeved on the periphery of the water collecting surface and is fixedly connected by utilizing the matching of the fixing binding band and the pull ring; four corners of the water collecting surface frame are fixedly connected with four corners of the tank body frame at the bottommost layer by utilizing L-shaped foot supports, and the upper end of each L-shaped foot support is connected with a plurality of iron supports; the automatic overflow pipeline consists of a bottom liquid outlet pipe, a drain valve, an overflow vertical pipe and an overflow transverse pipe; the bottom surface drain pipe through connection is in the lateral wall bottom of cell body, and the through connection has the drain valve on the bottom surface drain pipe, and the through connection has the overflow riser on the bottom surface drain pipe that is located between drain valve and the cell body, and the upper end through connection of overflow riser has the horizontal pipe of overflow, and the horizontal pipe of overflow is higher than the water-collecting plane setting.

The working principle of the invention is as follows: burying the pool body in a pre-dug pit, and connecting and fixing the periphery of the water collecting surface on a fixed object on the periphery of the upper part of the pit by using a fixed binding band (or directly nailing the pool body into the ground by using a buried nail); or the pool body is erected on the ground by using the bracket, the rainwater is collected by the water collecting surface, the rainwater flows into the water inlet device through the periphery of the inclined water collecting surface, and is filtered by the water inlet device to prevent some larger impurities from entering the pool body, the water collecting quantity in the pool body is sensed by the liquid sensor arranged in the pool body in real time, and when the water collecting quantity exceeds a preset value, the controller is triggered, and the controller starts the water suction pump to pump the collected water in the pool body for external use; after using a period of time, materials such as dust that exist in the rainwater can be gathered in the bottom of cell body, earlier the catchment in the discharge cell body this moment, pull open explosion-proof zip fastener again, open the access cover, in the maintainer can follow the opening entering cell body, with the silt clean up of inside, when the cell body erects in subaerial, the purpose of bottom drainage is realized promptly to the automatic overflow pipeline that sets up in cell body lateral wall below, when the catchment liquid level in the cell body is higher than the height that the overflow violently managed, unnecessary catchment this moment can be discharged along the overflow violently pipe by oneself.

After adopting the structure, the invention has the beneficial effects that: the invention provides multifunctional intelligent soft water storage equipment which can be applied to water storage under various environments, is energy-saving and environment-friendly, and reduces the investment and later maintenance cost.

Description of the drawings:

FIG. 1 is a schematic structural diagram of a first embodiment;

FIG. 2 is a schematic structural diagram of a second embodiment;

FIG. 3 is an electrical block diagram of the present invention;

FIG. 4 is a front view of the water intake apparatus;

FIG. 5 is a cross-sectional view of the water intake apparatus;

FIG. 6 is a cross-sectional view of the movable tube;

FIG. 7 is a perspective view of the movable tube;

fig. 8 is a perspective view of the barrier net.

Description of reference numerals: the device comprises a tank body 1, a water collecting surface 2, pull rings 2-1, a water inlet device 3, a water pumping pipe 4, a flange 5, a water pumping pump 6, a top surface liquid outlet pipe 6-1, a liquid sensor 7, a solar photovoltaic component 8, an explosion-proof zipper 9, an access cover 10, a button hole clamping piece 11, a support 12, a tank body frame 12-1, a water collecting surface frame 12-2, upright rods 12-3, an L-shaped foot support 12-4, iron supports 12-5, an automatic overflow pipeline 13, a bottom surface liquid outlet pipe 13-1, a drain valve 13-2, an overflow vertical pipe 13-3, an overflow transverse pipe 13-4, a fixing bandage 14, a controller 15, a warning lamp 16 and a lighting lamp 17.

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

Example 1: as shown in fig. 1 and 3, the present embodiment is an underground water storage device, which comprises a tank body 1, a water collection surface 2, a water inlet device 3, a water pumping pipe 4, a flange 5, a water pumping pump 6, a liquid sensor 7, a solar photovoltaic module 8, an explosion-proof zipper 9, an access cover 10, and a buttonhole clamping piece 11; a liquid sensor 7 is fixed on the inner wall of the tank body 1 by gluing, the upper end opening of the tank body 1 is fixedly connected with the lower surface of the water collecting surface 2, four top corners of the connection part are vertically buckled, connected and fixed by using buttonhole clamping pieces 11 (the tank body 1 and the water collecting surface 2 are of an integral structure and are made of high-strength composite materials, when a certain amount of water is stored in the tank body 1, the original bearing capacity of the tank body 1 is exceeded, the tank body 1 is easy to tear or even fall off from the water collecting surface 2, so that the tank body 1 is damaged, therefore, four corners of the connection part of the tank body 1 and the water collecting surface 2 are reinforced by using the buttonhole clamping pieces 11), three water inlet devices 3 (formed by embedding filter screens in openings) are arranged in the water collecting surface 2, an access cover 10 is arranged on an opening formed in the water collecting surface 2, one side of the access cover 10 and one side of the opening are of an integral structure, and the rest of the access cover are connected and fixed with the other three sides; a flange 5 is inserted into the access cover 10 and fixedly connected with the access cover through a flange plate, a water pumping pipe 4 is inserted into the flange 5, the upper end of the water pumping pipe 4 is connected with the water inlet end of a water pumping pump 6, and the water outlet end of the water pumping pump 6 is connected with a top surface liquid outlet pipe 6-1 (the water pumping pump 6 is arranged on the periphery of the water collecting surface 2); the liquid sensor 7 is connected with the controller 15, the controller 15 is fixed in an electric cabinet in the solar photovoltaic module 8, the controller 15 is connected with the water suction pump 6, the liquid sensor 7, the water suction pump 6 and the controller 15 are all electrically connected with the solar photovoltaic module 8, and the solar photovoltaic module 8 is fixed on the outer side of the pool body 1; a plurality of pull rings 2-1 are embedded in the water collecting surface 2 positioned at the periphery of the tank body 1.

Further, a warning light 16 is fixed and electrically connected to the solar photovoltaic module 8.

Further, the solar photovoltaic module 8 is fixed and electrically connected with an illuminating lamp 17.

Furthermore, the periphery of the water collecting surface 2 is higher than the water inlet device 3, so that rainwater can be collected conveniently.

The working principle of the specific embodiment is as follows: burying the pool body 1 in a pre-dug pit, and connecting and fixing the periphery of the water collecting surface 2 on a fixed object on the periphery of the upper part of the pit by using a fixing bandage 14 (or directly nailing the pool body into the ground by using a buried nail); the rainwater is collected by the water collecting surface 2, the rainwater flows into the water inlet device 3 through the periphery of the inclined water collecting surface 2, and is filtered by the water inlet device 3 to prevent some larger impurities from entering the tank body 1, the water collecting quantity in the tank body 1 is sensed by the liquid sensor 7 arranged in the tank body 1 in real time, when the water collecting quantity exceeds a preset value, the controller 15 is triggered, and the controller 15 starts the water suction pump 6 to pump the collected water in the tank body 1 for external use; after using for a period of time, materials such as dust that exist in the rainwater can gather in the bottom of cell body 1, discharge the catchment in the cell body 1 earlier this moment, again pull open explosion-proof zip fastener 9, open access cover 10, in the maintainer can follow the opening and get into cell body 1, with the inside silt clean up.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. the solar photovoltaic module 8 is used for supplying power to the whole water storage equipment, manual guard is not needed, the reliability is high, energy is saved, the environment is protected, and meanwhile, the construction and maintenance cost of the system is greatly reduced;

2. the solar photovoltaic component 8 is suitable for outdoor use without power supply, can also be suitable for household alternating current use, can be charged and stored, is provided with a plug, and is provided with the warning lamp 16 and the illuminating lamp 17 according to the arrangement position of the equipment, so that the utilization rate of the equipment is improved, and the safety performance around the night is enhanced;

3. the liquid sensor 7 is arranged at a position with a certain height in the tank body 1, and the overhigh water level of the tank body 1 may bring certain danger, so that the liquid sensor 7 in the tank body 1 senses the water level in real time, and after the water level exceeds a preset value, the water suction pump 6 is started to automatically pump water and drain the water, and the water is directly drained out of the tank body for irrigating crops;

4. the water suction pump 6 is arranged above the water collecting surface 2, so that the problems of difficult water outlet at the bottom, large occupied area, inconvenient water pumping, increased auxiliary pit excavation cost and the like due to the limitation of geographical environment factors can be solved; the problem of land occupation of the drainage pit can be solved, the damage to the land soil is reduced, and the utilization rate of the land soil is higher;

5. the water pumping pipe 4 is connected with the water collecting surface 2 through a flange, the flange locks an opening on the water collecting surface, the opening is prevented from being torn due to overlarge pulling force, the flange is larger than the diameter of the water pumping pipe 4, the water pumping pipe 4 can be flexibly lifted up and down, water pumping equipment of each family is different in water consumption, and replacement of PVC pipelines of different models can be facilitated;

6. after the large water storage tank or the cellar body without the drain pipe at the bottom is used for a long time, fine impurities such as sewage, mud, sand and the like are deposited in the tank, the water quality in the tank is influenced, the impurities need to enter the tank for cleaning, an opening of 0.5m to 0.5m is arranged on a water collecting surface, the opening is connected by an explosion-proof zipper 9, the water can enter and exit after being pulled open, and the sewage and the impurities can be prevented from permeating after being pulled up; the explosion-proof zipper 9 has high strength, can prevent the tearing danger caused by the opening of the tank surface film material, and enhances the strength of the whole tank surface film material.

Example 2: referring to fig. 2 and 3, the embodiment is a ground-based water storage device, and the technical features of the embodiment are different from those of the first embodiment: the controller 15 is arranged on the mobile equipment, the liquid sensor 7 is in signal transmission connection with the controller 15 on the mobile equipment through a wireless transmission module, and the controller 15 is in electric control connection with the water pump 6 through the wireless transmission module (remote control is realized to remotely control water pumping irrigation); the outer part of the tank body 1 is sleeved with a bracket 12, and the bottom of the side wall of the tank body 1 is connected with an automatic overflow pipeline 13 in a penetrating way; the bracket 12 consists of a pool body frame 12-1, a water collecting surface frame 12-2, upright rods 12-3, an L-shaped foot support 12-4 and iron supports 12-5; a plurality of tank body frames 12-1 are stacked up and down and are fixedly connected by upright rods 12-3 (the upright rods 12-3 are vertically inserted into the stacked tank body frames 12-1, and the inserting positions are detachably riveted and fixed by bolt assemblies and connecting pieces), and the tank body frame 12-1 at the uppermost layer is abutted against the lower surface of the water collecting surface 2 at the upper port of the tank body 1; the water collecting surface frame 12-2 is sleeved on the periphery of the water collecting surface 2 and is fixedly connected by matching the fixing binding band 14 with the pull ring 2-1; four corners of the water collecting surface frame 12-2 are fixedly connected with four corners of the tank body frame 12-1 at the bottommost layer by utilizing L-shaped foot supports 12-4 (two end corners of the L-shaped foot supports 12-4 are detachably connected with the water collecting surface frame 12-2 and the tank body frame 12-1 at the bottommost layer by utilizing bolt components), and two iron supports 12-5 are fixed at the upper end of each L-shaped foot support 12-4 by utilizing the bolt components; the automatic overflow pipeline 13 consists of a bottom liquid outlet pipe 13-1, a drain valve 13-2, an overflow vertical pipe 13-3 and an overflow horizontal pipe 13-4; the bottom surface liquid outlet pipe 13-1 is connected to the bottom of the side wall of the tank body 1 in a penetrating manner, the bottom surface liquid outlet pipe 13-1 is connected with a water discharge valve 13-2 in a penetrating manner, the bottom surface liquid outlet pipe 13-1 between the water discharge valve 13-2 and the tank body 1 is connected with an overflow vertical pipe 13-3 in a penetrating manner, the upper end of the overflow vertical pipe 13-3 is connected with an overflow transverse pipe 13-4 in a penetrating manner, and the overflow transverse pipe 13-4 is arranged higher than the water collecting surface 2.

The working principle of the specific embodiment is as follows: the method comprises the following steps that a pool body 1 is erected on the ground by using a support 12, a pool body frame 12-1 in the support 12 has a certain supporting force on the pool body 1, pressure expansion caused by water collection in the pool body 1 is effectively resisted, a water collection surface 2 collects rainwater, the rainwater flows into a water inlet device 3 through the periphery of the inclined water collection surface 2, and is filtered by the water inlet device 3 to prevent some larger impurities from entering the pool body 1, a liquid sensor 7 arranged in the pool body 1 senses the water collection amount in the pool body 1 in real time, when the water collection amount exceeds a preset value, a controller 15 is triggered, the controller 15 starts a water suction pump 6, and the collected water in the pool body 1 is pumped to be used outside; after the overflow water drainage device is used for a period of time, substances such as dust and the like in rainwater can be accumulated at the bottom of the pool body 1, at the moment, water in the pool body 1 is drained firstly, the explosion-proof zipper 9 is pulled open, the access cover 10 is opened, an maintainer can enter the pool body 1 from the opening to clean up the sludge in the pool body, the purpose of bottom drainage is achieved through the automatic overflow pipeline 13 arranged below the side wall of the pool body 1, and when the water collecting liquid level in the pool body 1 is higher than the height of the horizontal overflow pipe 13-4, redundant water can be drained along the horizontal overflow pipe 13-4 automatically at the moment.

Example 3: referring to fig. 4 to 8, the water inlet device 3 includes a cylindrical housing 301, a rib 302 is formed at a top edge of the housing 301 by injection molding, an external thread 303 is disposed at an outer wall of the housing 301 and below the rib 302, a pressing ring 304 is matched with the external thread 303, a sealing ring 305 is sleeved outside the housing 301, the sealing ring 305 is located below the rib 302, an inner tube 306 is formed at an inner bottom of the housing 301 by injection molding, the inner tube 306 is disposed upward, a lower end of the inner tube 306 has an opening 307, an upper end of the inner tube 306 is provided with a small hole 308, a diameter of the small hole 308 is smaller than an inner diameter of the inner tube 306, a plurality of water inlet holes 309 are annularly disposed at the outer wall of the inner tube 306, a movable tube 310 is connected to the external thread of the inner tube 306, a first tray 311 and a second tray 312 are formed at an outer wall of the movable tube 310 by injection molding, the first tray body 311 is positioned above the second tray body 312, a positioning groove 313 is formed after the bottom of the second tray body 312 protrudes upwards, a PP cotton filter element 314 is assembled in the positioning groove 313, the lower end of the PP cotton filter element 314 is extruded on the inner bottom surface of the shell 301, the water inlet hole 309 is positioned on the inner side of the PP cotton filter element 314, an operation gap 315 is formed between the first tray body 311 and the second tray body 312, medical stone particles 321 are filled in the first tray body 311, and activated carbon particles 322 are filled in the second tray body 312; a baffle net 316 is supported above the first tray body 311, a mixed filter material 323 is supported above the baffle net 316, a movable rod 317 made of plastic is inserted in the small hole 308, a limiting plate 318 is formed at the lower end of the movable rod 317 through injection molding, a hollow floating ball 319 is connected at the lower end of the movable rod 317 through threads, the upper end of the floating ball 319 props against the limiting plate 318, a flow blocking cover 320 is connected at the upper end of the movable rod 317 after extending to the outside of the shell 301 through threads, the outer diameter of the flow blocking cover 320 is smaller than that of the baffle edge 302, the outer diameter of the flow blocking cover 320 is larger than the inner diameter of the shell 301, a limiting cover 331 is connected on the movable rod 317 through threads, and the limiting cover 331 is sleeved at the upper end of the inner tube 306; mounting holes (not shown) for mounting the shell 301 are formed in the water collecting surface 2, the water collecting surface 2 is clamped between the flange 302 and the pressing ring 304, and the sealing ring 304 is sealed between the flange 302 and the water collecting surface 2; the bottoms of the first tray body 311 and the second tray body 312 are provided with water seepage holes 388 for water seepage downwards; a rubber gasket 399 is supported above the limit plate 318, and when the floating ball moves upwards to the limit position, the gasket contacts the lower end surface of the shell and seals the lower end of the inner pipe; the filter material was replaced as follows: firstly, take off the spiral of flow blocking cover, clear up the mixed filter media that lies in and keep off the net top, then take off spacing cover spiral upwards again, hold the movable rod with the hand, avoid the movable rod to drop downwards. And the movable pipe is spirally taken down, finally, the PP cotton filter element is upwards taken out, and after the taking-out operation is completed, the limiting cover is spirally arranged at the upper end of the movable rod, so that the movable rod is prevented from falling downwards. At the moment, the medical stone particles and the active carbon particles in the first tray body and the second tray body are cleaned, new medical stone particles and active carbon particles are replaced, and a new PP cotton filter element is replaced. And then reinstalling. The above operation mode is easy to replace the filter material. While the integrity is high. The design purpose of floater is that after this product inside retaining is full, the floater upwards floated, seals the inner tube through sealed the pad, avoids the continuation entering of water. The problem that the product is broken due to excessive water inflow is avoided, the position of the floating ball can be changed by changing the position of the limiting cover to limit the maximum water inflow capacity, and after the limiting cover moves upwards along the movable rod, the height of the floating ball can be reduced due to the fact that the limiting cover is supported through the inner tube, and therefore the storage capacity of the product is reduced. Otherwise, the storage capacity is increased. The above-mentioned filter structure is designed for two main purposes, one of which is to filter the inlet water and to improve the cleanliness of the water when the stored water is used for drinking. Secondly, the organisms such as spiders and frogs are prevented from entering the product, and when the organisms enter and die, the water quality is prevented from smelling.

The mixed filter material 323 is a mixture of quartz sand and anthracite particles, and the mixing ratio is 1: 1.

the outer wall of the pressing ring 304 is annularly provided with 4 force bearing ends 334, and each force bearing end 334 is provided with a force bearing hole 335.

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 various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (10)

1. Multi-functional intelligent software retaining equipment, its characterized in that: the solar water-collecting pool comprises a pool body (1), a water-collecting surface (2), a water inlet device (3), a water pumping pipe (4), a flange (5), a water pumping pump (6), a liquid sensor (7), a solar photovoltaic assembly (8), an explosion-proof zipper (9), an access cover (10) and a button hole clamping piece (11); a liquid sensor (7) is fixed on the inner wall of the pool body (1), an opening at the upper end of the pool body (1) is fixedly connected with the lower surface of the water collecting surface (2), four top corners at the connecting part are vertically buckled and connected by a buttonhole clamping piece (11), a plurality of water inlet devices (3) are arranged in the water collecting surface (2), an access cover (10) is arranged on the opening on the water collecting surface (2), one side of the access cover (10) and one side of the opening are of an integrated structure, and the rest three sides are fixedly connected with the other three sides of the opening by explosion-proof zippers (9); a flange (5) is fixedly inserted into the access cover (10), the water pumping pipe (4) is inserted into the flange (5), the upper end of the water pumping pipe (4) is connected with the water inlet end of a water pumping pump (6), and the water outlet end of the water pumping pump (6) is connected with a top surface liquid outlet pipe (6-1); the liquid sensor (7) is connected with the controller (15), the controller (15) is fixed in an electric cabinet in the solar photovoltaic module (8), the controller (15) is connected with the water suction pump (6), the liquid sensor (7), the water suction pump (6) and the controller (15) are all electrically connected with the solar photovoltaic module (8), and the solar photovoltaic module (8) is fixed on the outer side of the tank body (1); a plurality of pull rings (2-1) are embedded in the water collecting surface (2) positioned at the periphery of the tank body (1).

2. The multifunctional intelligent soft water storage device according to claim 1, wherein: the controller (15) is arranged on the mobile equipment, the liquid sensor (7) is in signal transmission connection with the controller (15) on the mobile equipment through the wireless transmission module, and the controller (15) is in electric control connection with the water suction pump (6) through the wireless transmission module.

3. The multifunctional intelligent soft water storage device according to claim 1, wherein: the solar photovoltaic component (8) is fixedly and electrically connected with a warning lamp (16).

4. The multifunctional intelligent soft water storage device according to claim 1, wherein: the solar photovoltaic component (8) is fixedly and electrically connected with an illuminating lamp (17).

5. The multifunctional intelligent soft water storage device according to claim 1, wherein: the periphery of the water collecting surface (2) is higher than the water inlet device (3).

6. The multifunctional intelligent soft water storage device according to claim 1, wherein: a bracket (12) is sleeved outside the tank body (1), and the bottom of the side wall of the tank body (1) is connected with an automatic overflow pipeline (13) in a penetrating way; the bracket (12) consists of a tank body frame (12-1), a water collecting surface frame (12-2), upright rods (12-3), L-shaped foot supports (12-4) and iron supports (12-5); a plurality of tank body frames (12-1) are stacked up and down and are connected and fixed by upright posts (12-3), and the tank body frame (12-1) at the uppermost layer is propped against the lower surface of a water collecting surface (2) at the upper port of the tank body (1); the water collecting surface frame (12-2) is sleeved on the periphery of the water collecting surface (2) and is connected and fixed by the matching of the fixing binding band (14) and the pull ring (2-1); four corners of the water collecting surface frame (12-2) are fixedly connected with four corners of the tank body frame (12-1) at the bottommost layer by utilizing L-shaped foot supports (12-4), and the upper end of each L-shaped foot support (12-4) is connected with a plurality of iron supports (12-5); the automatic overflow pipeline (13) consists of a bottom liquid outlet pipe (13-1), a drain valve (13-2), an overflow vertical pipe (13-3) and an overflow horizontal pipe (13-4); the bottom surface liquid outlet pipe (13-1) is connected to the bottom of the side wall of the tank body (1) in a penetrating mode, the bottom surface liquid outlet pipe (13-1) is connected with a drain valve (13-2) in a penetrating mode, an overflow vertical pipe (13-3) is connected to the bottom surface liquid outlet pipe (13-1) located between the drain valve (13-2) and the tank body (1) in a penetrating mode, the upper end of the overflow vertical pipe (13-3) is connected with a horizontal overflow pipe (13-4) in a penetrating mode, and the horizontal overflow pipe (13-4) is higher than the water collecting surface (2).

7. The multifunctional intelligent soft water storage device according to claim 1, wherein: the water inlet device (3) comprises a cylindrical shell (301), a flange (302) is formed at the edge position of the top of the shell (301) in an injection molding mode, external threads (303) are arranged at the position of the outer wall of the shell (301) and below the flange (302), a pressing ring (304) is matched with the external threads (303), a sealing ring (305) is sleeved outside the shell (301), the sealing ring (305) is positioned below the flange (302), an inner pipe (306) is formed at the position of the inner bottom of the shell (301) in an injection molding mode, the inner pipe (306) is arranged upwards, an opening (307) is formed at the lower end of the inner pipe (306), a small hole (308) is formed at the upper end of the inner pipe (306), the aperture of the small hole (308) is smaller than the inner diameter of the inner pipe (306), a plurality of water inlet holes (309) are annularly formed at the position of the outer wall of the inner pipe (306), the outer part of the inner pipe (306) is in threaded connection with a movable pipe (310), the outer wall of the movable pipe (310) is formed with a first tray body (311) and a second tray body (312) in an injection molding mode, the first tray body (311) is located above the second tray body (312), a positioning groove (313) is formed after the bottom of the second tray body (312) protrudes upwards, a PP cotton filter element (314) is assembled in the positioning groove (313), the lower end of the PP cotton filter element (314) is extruded on the inner bottom surface of the shell (301), the water inlet hole (309) is located on the inner side of the PP cotton filter element (314), an operation gap (315) is formed between the first tray body (311) and the second tray body (312), medical stone particles (321) are filled in the first tray body (311), and activated carbon particles (322) are filled in the second tray body (312); a baffle net (316) is supported above the first tray body (311), a mixed filtering material (323) is supported above the baffle net (316), a movable rod (317) made of plastic is inserted in the small hole (308), a limit plate (318) is formed at the lower end of the movable rod (317) by injection molding, a hollow floating ball (319) is connected with the lower end of the movable rod (317) through threads, the upper end of the floating ball (319) props against the limit plate (318), the upper end of the movable rod (317) extends to the outside of the shell (301) and is connected with a flow blocking cover (320) in a threaded manner, the outer diameter of the flow shield (320) is smaller than the outer diameter of the retaining rim (302), the outer diameter of the flow blocking cover (320) is larger than the inner diameter of the shell (301), a limit cover (331) is connected to the movable rod (317) in a threaded manner, and the limit cover (331) is sleeved at the upper end of the inner pipe (306); the water collecting surface (2) is provided with mounting hole sites for mounting the shell (301), the water collecting surface (2) is clamped between the flange (302) and the pressing ring (304), and the sealing ring (304) is sealed between the flange (302) and the water collecting surface (2); the bottoms of the first tray body (311) and the second tray body (312) are respectively provided with a water seepage hole (388) for water seepage downwards; a rubber gasket (399) is supported above the limit plate (318).

8. The multifunctional intelligent soft water storage device of claim 7, wherein: the mixed filter material (323) is one or a mixture of more than two of medical stone particles, active carbon particles, quartz sand and anthracite particles.

9. The multifunctional intelligent soft water storage device of claim 7, wherein: more than three stress ends (334) are annularly arranged on the outer wall of the pressing ring (304), and each stress end (334) is provided with a stress hole (335).

10. The multifunctional intelligent soft water storage device according to claim 1, wherein: the working principle is as follows: burying the pool body (1) in a pre-dug pit, and connecting and fixing the periphery of the water collecting surface (2) on a fixed object on the periphery of the upper part of the pit by using a fixing bandage (14); or the pool body (1) is erected on the ground by using a support (12), rainwater is collected by the water collection surface (2), the rainwater flows into the water inlet device (3) through the periphery of the inclined water collection surface (2), and is filtered by the water inlet device (3) to prevent some larger impurities from entering the pool body (1), a liquid sensor (7) arranged in the pool body (1) senses the water collection amount in the pool body (1) in real time, when the water collection amount exceeds a preset value, a controller (15) is triggered, the controller (15) starts a water suction pump (6), and the collected water in the pool body (1) is pumped for external use; after the novel water-collecting type overflowing pool is used for a period of time, substances such as dust and the like existing in rainwater can be accumulated at the bottom of the pool body (1), at the moment, water collecting in the pool body (1) is discharged firstly, then the explosion-proof zipper (9) is pulled open, the access cover (10) is opened, an maintainer can enter the pool body (1) from the opening to clean up internal sludge, when the pool body (1) is erected on the ground, the automatic overflowing pipeline (13) arranged below the side wall of the pool body (1) can achieve the purpose of bottom water discharging, and when the water collecting liquid level in the pool body (1) is higher than the height of the overflowing transverse pipe (13-4), redundant water collecting at the moment can be discharged along the overflowing transverse pipe (13-4) automatically.

Images