CN114837263A

CN114837263A - No negative pressure secondary water supply equipment of wisdom

Info

Publication number: CN114837263A
Application number: CN202210565067.4A
Authority: CN
Inventors: 李文韬
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-23
Filing date: 2022-05-23
Publication date: 2022-08-02

Abstract

The invention discloses intelligent negative-pressure-free secondary water supply equipment, which belongs to the technical field of secondary water supply and comprises a first water supply tank and a second water supply tank, wherein rear mounting shells are fixedly mounted on the outer walls of the rear sides of the first water supply tank and the second water supply tank, a rear mounting frame is fixedly mounted on the outer wall of one side of the rear mounting shell, a reflective mirror is embedded in the rear mounting frame, and bases are fixedly mounted at the bottoms of the first water supply tank and the second water supply tank; according to the invention, by arranging the water collecting assembly and the purifying assembly, a stable and excellent automatic water replenishing function can be realized, the equipment has a certain height, and water flow has larger potential energy after being conducted into the water supply assembly, so that the problem of insufficient water demand in a water consumption peak period can be solved, the condition of water pressure reduction caused by large water consumption can be effectively solved, the composite requirement of secondary water supply water pressure is ensured, manual control is not needed in the process, the process can be automatically carried out, and the intelligence of the equipment is improved.

Description

No negative pressure secondary water supply equipment of wisdom

Technical Field

The invention belongs to the technical field of secondary water supply, and particularly relates to intelligent non-negative-pressure secondary water supply equipment.

Background

The secondary water supply mainly refers to a water supply form that a unit or an individual stores and pressurizes urban public water supply or self-built facility water supply and supplies water to users or self-use through a pipeline. The secondary water supply is mainly established for compensating the pressure shortage of the municipal water supply pipeline and ensuring the water consumption of high-rise people living in dwellings, and has a self-evident function.

Chinese patent discloses (CN113863439A) a secondary water supply tank with an aeration device, relating to the technical field of secondary water supply. The secondary water supply water tank with the aeration device comprises a water tank body and an aeration device body, wherein the aeration device body is fixed on the right side of the water tank body, and the top and the front side of the water tank body are respectively provided with a water inlet end and a water outlet end. The secondary water supply tank with the aeration device can supply oxygen to water in the water tank body by arranging the aeration device body and the exhaust device, the exhaust device can generate a large amount of bubbles in the oxygen supply process, the light guide plate can guide the bubbles biased to the front side and the rear side of the inner wall of the water tank body, so that the partial bubbles rise along the front side and the rear side of the inner wall of the water tank body, the contact of the bubbles and the inner wall of the water tank body can reduce the stability of dust on the inner wall of the water tank body, further, the dust can be prevented from attaching to the inner wall of the water tank body, so as to reduce the cleaning strength of the subsequent water tank body, the secondary water supply structure at present easily causes a problem, when water is supplied, the water supply requirement is large, the consumption of the water supply amount is large, when the water source in the water supply structure is not timely supplemented, the water pressure is easily reduced, so that the water supply is failed, and the problem that the water supply requirement cannot be met can also occur, in order to solve this problem, there is a need for an intelligent non-negative pressure secondary water supply apparatus.

Disclosure of Invention

The invention aims to: in order to solve the problem that a secondary water supply structure is easy to generate, when water is supplied, because the water supply demand is large and the consumption of the water supply is large, when the water source in the water supply structure is untimely to supplement, the water pressure is easy to reduce, so that the water supply is failed, and meanwhile, the problem that the water supply demand cannot be met is solved.

In order to achieve the purpose, the invention adopts the following technical scheme: an intelligent negative-pressure-free secondary water supply device comprises a first water supply tank and a second water supply tank, wherein rear mounting shells are fixedly mounted on the outer walls of the rear sides of the first water supply tank and the second water supply tank, a rear mounting frame is fixedly arranged on the outer wall of one side of the rear mounting shell, a reflective mirror is embedded in the rear mounting frame, the bottoms of the first water supply tank and the second water supply tank are fixedly provided with bases, the top of the rear mounting shell is provided with a top groove, a water gathering assembly is fixedly arranged in the top groove and used for collecting environmental water sources and taking water from air, the outer walls of one sides of the first water supply tank and the second water supply tank are fixedly provided with water supply components which are used for stable secondary negative pressure water supply, the water supply assembly outside is located equal fixed mounting on the lateral wall of first water supply tank and second water supply tank and is had outer light collecting assembly, and outer light collecting assembly is used for towards the stable light collecting of water supply assembly.

As a further description of the above technical solution:

the water collecting assembly comprises a water collecting tank, water guide bent pipes are fixedly mounted on the outer walls of the two sides of the water collecting tank, an inner water guide seat is fixedly mounted on the inner wall of the bottom surface of the water collecting tank, and an inner frame is fixedly mounted on the inner wall of the water collecting tank.

As a further description of the above technical solution:

the inner frame is filled with a plurality of pebble layers, a heat-insulating film is arranged on the inner wall of the water collecting tank above the pebble layers, a plurality of air holes are formed in the heat-insulating film, and a impurity filtering net is arranged on the inner wall of the water collecting tank above the heat-insulating film.

As a further description of the above technical solution:

first water supply tank is unanimous with the volume size specification that the second supplied water the jar, equal fixed mounting has the purification subassembly on the lateral wall of first water supply tank and second water supply tank, purifies the purification treatment that the subassembly is used for the water source collected, purify the subassembly and include the outer installation shell, the inside of outer installation shell is from last to down respectively fixed mounting have built-in filter screen, gauze layer, diatom mud layer and activated carbon layer.

As a further description of the above technical solution:

the surface area size of built-in filter screen, gauze layer, diatom mud layer is the same with the active carbon layer, the top fixed mounting of outer installation shell has the top cap, fixed mounting has the aqueduct on the lateral wall of outer installation shell, the through-hole fixed connection that the one end of water guide return bend and the top of top cap set up.

Furthermore, through arranging the water collecting component and the purifying component outside, and the two have a certain height, when the water supply equipment is used normally, rainwater in some external environments can be collected by the water collecting component firstly, then purified by the purifying component to be led into the water supply component for utilization, meanwhile, under the condition of no rain, the ambient temperature is reduced at night, low temperature can flow into the water collecting tank and be captured by the pebble layer, the temperature of the pebble layer is reduced and stored at low temperature, the heat-insulating film avoids low temperature loss, after the water is bright, the ambient temperature is raised, meanwhile, the external sunlight can irradiate on the reflector, the external sunlight is reflected on the water collecting tank through the reflector, heat in the water collecting tank is slowly accumulated, condensation phenomenon can occur after the heat energy in the water collecting tank is contacted with the low-temperature hot air pebble layer, thereby generating liquid drop accumulation, the stable automatic water taking function can be realized in daily accumulation, and the collected water can be discharged to two sides through the inner water guide seat, through purifying the built-in filter screen in the subassembly, the gauze layer, go into in the water supply subassembly behind the filtration purification of diatom mud layer and activated carbon layer, through this structural design, can realize stable and good automatic water supply function, and equipment has a take the altitude, rivers have great potential energy after conduction to the water supply subassembly in, not only can solve the not enough problem of water demand of water peak period, still can effectively solve the condition of the water pressure reduction that leads to because the water consumption is big, guarantee secondary water supply water pressure combined requirement, and this process need not artifical management and control, can go on automatically, the intelligence of equipment has been improved.

As a further description of the above technical solution:

the water supply assembly comprises a water supply pipe, the water supply pipe is fixedly installed on the side walls of the first water supply tank and the second water supply tank, a top pressurizing water supplementing hole is formed in the top of the water supply pipe, one end of the water guide pipe is fixedly connected with the top pressurizing water supplementing hole, a leakage-preventing adsorption sleeve is tightly sleeved on the outer portion of the water supply pipe, and a plurality of thermal expansion grains are arranged inside the leakage-preventing adsorption sleeve.

As a further description of the above technical solution:

the outer light collecting component comprises an arc-shaped shell and a light collecting mirror, the light collecting mirror is fixedly installed on the side wall of the arc-shaped shell and is located on one side of the anti-leakage adsorption sleeve, and the surface area of the light collecting mirror is smaller than that of the arc-shaped shell.

As a further description of the above technical solution:

the equal fixed mounting in top of first water supply tank and second water supply tank has the top cap, and the top of two top caps is fixed mounting respectively has first oral siphon and second oral siphon, the volume size of first oral siphon and second oral siphon is unanimous, rotate on the inner wall of back installation shell and install first water guide clearance subassembly and second water guide clearance subassembly, first water guide clearance subassembly and second water guide clearance subassembly are used for the automatic control of the interior liquid flow of first oral siphon and second oral siphon respectively.

As a further description of the above technical solution:

the utility model discloses a water guide cleaning assembly, including first oral siphon and second oral siphon's inside fixed mounting has a bottom filter screen, first water guide cleaning assembly is including the installation pole, the one end fixed mounting of installation pole has the side-mounting roller, the outside fixed mounting of side-mounting roller has four flexible brushes of clearance and four water blades, and four flexible brushes of clearance and four water blades all are located the inside of first oral siphon, and the lateral wall of four water blades and the inner wall in close contact with and the extrusion of first oral siphon, the one end fixed mounting of installation pole has first installation meshing roller, the one end fixed mounting of second water guide cleaning assembly has second installation meshing roller, be connected through the transmission cingulum transmission between first installation meshing roller and the second installation meshing roller, the tooth footpath of first installation meshing roller is greater than the tooth footpath of second installation meshing roller.

Furthermore, by adopting the design of double tanks, and arranging a first water guide cleaning component and a second water guide cleaning component in the double tanks, when water flow is guided into the first water supply tank and the second water supply tank, water liquid can be added into the first water inlet pipe and can drive four water body blades to rotate under the pressure of the water flow, the mounting rod rotates to drive the first mounting meshing roller at one end of the mounting rod to rotate, the first mounting meshing roller drives the second mounting meshing roller to rotate through the transmission toothed belt, and because the tooth diameter of the first mounting meshing roller is larger than that of the second mounting meshing roller, the first mounting meshing roller plays an accelerating role for the second mounting meshing roller, so that the rotating speed of the second water guide cleaning component is increased, the flow rate of the water liquid entering the second water inlet pipe is increased, and through the structural design, the flow rate of the water in the other tank can be automatically controlled by utilizing the pressure of the water flow in one tank, the relation of the water flow rate between the two tank bodies is established, the automatic control function of the water flow rate can be realized, and when the first water guide cleaning assembly and the second water guide cleaning assembly rotate, the four cleaning flexible brushes can also clean the bottom filter screen synchronously, so that the blockage of the bottom filter screen is avoided, and the water supply effect is ensured.

As a further description of the above technical solution:

the water supply device is characterized in that a water guide inclined seat is fixedly mounted on the inner wall of the bottom surface of the second water supply tank, a tip is longitudinally and fixedly mounted at the central position of the water guide inclined seat, a water receiving assembly is slidably mounted inside the second water supply tank and used for collecting and storing water flow, the water receiving assembly comprises a water receiving inner cylinder, a pressure-bearing spring rod is fixedly mounted at the top of the water receiving inner cylinder, the top end of the pressure-bearing spring rod is fixedly connected with the bottom surface of the top cover, a water outlet guide pipe is fixedly mounted at the central position of the bottom surface of the water receiving inner cylinder, an opening and closing sheet is rotatably mounted inside the water outlet guide pipe through a hinge, and the tip is located under the water outlet guide pipe.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, the water collecting component and the purifying component are arranged outside and have a certain height, when the water supply equipment is used normally, rainwater in some external environment can be collected by the water collecting component firstly, then purified by the purifying component to become a water source which can be used and led into the water supply component, meanwhile, under the condition of no rain, the ambient temperature is reduced at night, low temperature can flow into the water collecting tank and be captured by the pebble layer, the temperature of the pebble layer is reduced and stored for low temperature, the heat-insulating film avoids low temperature loss, after the water is bright, the ambient temperature is raised, meanwhile, the external sunlight can irradiate on the reflector and is reflected on the water collecting tank through the reflector, the heat in the water collecting tank is slowly accumulated, the hot air flow can be condensed after contacting with the low-temperature pebble, thereby generating liquid drop accumulation, and realizing the stable automatic water taking function in the day and month, and the water liquid of collection can be discharged to both sides through interior water guide seat, through purifying the built-in filter screen in the subassembly, the gauze layer, go into in the water supply subassembly behind the filtration purification on diatom mud layer and activated carbon layer, through this structural design, can realize stable and good automatic water supply function, and equipment has a take the altitude, rivers have great potential energy after conducting to the water supply subassembly in, not only can solve the not enough problem of water demand of water peak period, still can effectively solve because the condition that the water pressure that the water consumption leads to greatly reduces, guarantee secondary water supply water pressure combined requirement, and this process need not artifical management and control, can go on automatically, the intelligence of equipment has been improved.

2. In the invention, by adopting a double-tank design and arranging a first water guide cleaning component and a second water guide cleaning component in the double-tank design, when water flow is introduced into a first water supply tank and a second water supply tank, water liquid can be added into a first water inlet pipe and can drive four water body blades to rotate under the pressure of the water flow, a mounting rod rotates to drive a first mounting meshing roller at one end of the mounting rod to rotate, the first mounting meshing roller drives a second mounting meshing roller to rotate through a transmission toothed belt, and because the tooth diameter of the first mounting meshing roller is larger than that of the second mounting meshing roller, the first mounting meshing roller plays an accelerating role on the second mounting meshing roller, the rotating speed of the second water guide cleaning component is increased, the flow rate of the water liquid entering the second water inlet pipe is increased, and through the structural design, the flow rate of the water in the other tank can be automatically controlled by utilizing the pressure of the water flow in one tank body, the relation of the water flow rate between the two tank bodies is established, the automatic control function of the water flow rate can be realized, and when the first water guide cleaning assembly and the second water guide cleaning assembly rotate, the four cleaning flexible brushes can also clean the bottom filter screen synchronously, so that the blockage of the bottom filter screen is avoided, and the water supply effect is ensured.

3. According to the invention, the water collecting assembly is arranged in the water collecting device, a water body introduced through the first water inlet pipe and the second water inlet pipe can be collected and stored by the water collecting assembly, along with the increase of the water collecting amount in the water collecting inner cylinder, when the gravity in the water collecting inner cylinder exceeds the elastic force of the pressure-bearing spring rod, the water collecting inner cylinder can slowly descend until the opening and closing sheet in the water outlet guide pipe is contacted with the tip, the tip pushes the opening and closing sheet open, and at the moment, a large amount of water liquid stored in the water collecting assembly can be discharged through the water outlet guide pipe in a large amount and is guided through the quick side of the water guide inclined seat to finally discharge water for supply.

4. In the invention, the outer light collecting component is arranged outside the water supply component, when secondary water supply is carried out, water is led out through the water supply pipe, the anti-leakage adsorption sleeve can play a good anti-leakage role, the waste of water is avoided, even if a small amount of water leaks, the water can be quickly adsorbed by the anti-leakage adsorption sleeve and cannot leak out, simultaneously, after sunlight in the outer environment irradiates on the outer light collecting component, the sunlight is gathered outside the anti-leakage adsorption sleeve by the light collecting lens, the inner temperature of the anti-leakage adsorption sleeve rises after the anti-leakage adsorption sleeve is continuously irradiated by the sunlight, the thermal expansion particles expand to expand the anti-leakage adsorption sleeve, the water adsorbed in the anti-leakage adsorption sleeve is extruded out, meanwhile, the high temperature can evaporate water in the anti-leakage adsorption sleeve, and by the structural design, the anti-leakage effect in the water supply process can be greatly improved, and the use effect of the anti-leakage adsorption sleeve can be effectively and continuously ensured, the use effect of the equipment is improved.

Drawings

Fig. 1 is a schematic perspective view of an intelligent negative-pressure-free secondary water supply device.

Fig. 2 is a schematic diagram of an explosion three-dimensional structure of an intelligent non-negative pressure secondary water supply device.

Fig. 3 is a schematic diagram of an enlarged explosion three-dimensional structure of a water collecting component in an intelligent non-negative pressure secondary water supply device.

Fig. 4 is a schematic diagram of an enlarged explosion three-dimensional structure of a purification component in an intelligent non-negative pressure secondary water supply device.

Fig. 5 is an enlarged exploded perspective view of a first water guiding and cleaning assembly and a first water inlet pipe in an intelligent non-negative pressure secondary water supply device.

Fig. 6 is an enlarged schematic perspective view of a first water guiding and cleaning assembly in an intelligent non-negative pressure secondary water supply device.

FIG. 7 is an enlarged perspective view of a water supply module and an external light collecting module in an intelligent non-negative pressure secondary water supply device.

FIG. 8 is an enlarged exploded perspective view of a water supply module and an external light collecting module in an intelligent non-negative pressure secondary water supply apparatus.

Fig. 9 is an exploded perspective view of a second water supply tank in the intelligent non-negative pressure secondary water supply apparatus.

FIG. 10 is an enlarged view of the bottom of the outlet conduit of the intelligent non-negative pressure secondary water supply equipment.

Illustration of the drawings:

1. a first water supply tank; 2. a first water inlet pipe; 3. a second water supply tank; 4. a base; 5. a water supply assembly; 51. a leakage-proof adsorption sleeve; 52. a water supply pipe; 53. a top pressure water replenishing hole; 54. thermal expansion particles; 6. a purification assembly; 61. a top cover; 62. a filter screen is arranged inside; 63. a gauze layer; 64. a layer of diatom ooze; 65. an activated carbon layer; 66. an outer mounting shell; 67. a water conduit; 7. a second water inlet pipe; 8. a rear mounting frame; 9. a water collection assembly; 91. filtering the impurity net; 92. a heat preservation film; 93. a pebble layer; 94. an inner frame; 95. a bottom water pipe; 96. an inner water guide seat; 97. a water collecting tank; 98. a water guide bent pipe; 10. a reflector; 11. a rear mounting shell; 12. an external light collection assembly; 121. an arc-shaped housing; 122. a light collecting mirror; 13. a first mounting mesh roller; 14. a drive toothed belt; 15. a second mounting meshing roller; 16. the first water guide cleaning assembly; 161. mounting a rod; 162. cleaning the flexible brush; 163. water body leaves; 164. side mounting rollers; 17. the second water guide cleaning assembly; 18. a bottom screen; 19. a top cover; 20. a water collection assembly; 201. a pressure-bearing spring rod; 202. an inner water collecting cylinder; 203. a water outlet conduit; 204. opening and closing the sheet; 21. a tip; 22. a water guide inclined seat.

Detailed Description

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.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a wisdom does not have negative pressure secondary water supply equipment, includes first water supply tank 1 and second water supply tank 3, fixed mounting has back installation shell 11 on the rear side outer wall of first water supply tank 1 and second water supply tank 3, fixed mounting has back installing frame 8 on one side outer wall of back installation shell 11, the inside of back installing frame 8 is inlayed and is installed reflector 10, the equal fixed mounting in bottom of first water supply tank 1 and second water supply tank 3 has base 4, the top of back installation shell 11 is provided with the top groove, and fixed mounting has water collecting component 9 in the top groove, and water collecting component 9 is used for the collection and the air water intaking processing of environmental water source, equal fixed mounting has water supply component 5 on one side outer wall of first water supply tank 1 and second water supply tank 3, and water supply component 5 is used for stable secondary negative pressure water supply, equal fixed mounting has outer subassembly 12 on the lateral wall that the water supply component 5 outside is located first water supply tank 1 and second water supply tank 3, the external light collecting assembly 12 serves to stably collect light toward the water supply assembly 5.

Gather water subassembly 9 including gathering water tank 97, equal fixed mounting has water guide return bend 98 on the both sides outer wall of gathering water tank 97, water guide seat 96 in fixed mounting on the bottom surface inner wall of gathering water tank 97, fixed mounting has inside casing 94 on the inner wall of gathering water tank 97, the inside packing of inside casing 94 has a plurality of cobble layers 93, the top of cobble layer 93 is located and is provided with heat preservation membrane 92 on the inner wall of gathering water tank 97, the inside of heat preservation membrane 92 is provided with a plurality of gas pockets, the top of heat preservation membrane 92 is located and is provided with miscellaneous net 91 of straining on the inner wall of gathering water tank 97.

First water supply tank 1 is unanimous with the volume size specification of second water supply tank 3, equal fixed mounting has purification unit 6 on the lateral wall of first water supply tank 1 and second water supply tank 3, and purification unit 6 is used for the purification treatment of the water source of collecting, purification unit 6 includes outer installation shell 66, outer installation shell 66's inside from last to down respectively fixed mounting have built-in filter screen 62, gauze layer 63, diatomaceous earth layer 64 and activated carbon layer 65, built-in filter screen 62, gauze layer 63, diatomaceous earth layer 64 are the same with activated carbon layer 65's surface area size, the top fixed mounting of outer installation shell 66 has top cap 61, fixed mounting has aqueduct 67 on the lateral wall of outer installation shell 66, the one end of water guide return bend 98 and the through-hole fixed connection of the top setting of top cap 61.

The specific implementation mode is as follows: when the water supply equipment is used normally, rainwater in some external environments can be collected by the water collecting component 9 firstly, then purified by the purifying component 6 to be a water source for utilization and led into the water supply component 5, meanwhile, under the condition of no rain, the ambient temperature is reduced at night, low temperature can flow into the water collecting tank 97 and be captured by the pebble layer 93, the temperature of the pebble layer 93 is reduced and low temperature can be stored, the heat preservation film 92 avoids low temperature loss, after the sun is bright, the ambient temperature is raised, meanwhile, the external sunlight can irradiate the reflector 10, the sunlight is reflected on the water collecting tank 97 through the reflector 10, heat in the water collecting tank 97 is slowly accumulated, the hot air flow is in contact with the low-temperature pebble layer 93, condensation phenomenon can occur, water taking and liquid drop accumulation are generated, the stable automatic water supply function is realized in daily accumulation and monthly accumulation, the collected water liquid can be discharged to two sides through the built-in the purifying component 6, and the built-in the filter screen 62, The gauze layer 63, the diatomite layer 64 and the activated carbon layer 65 are filtered and purified and then enter the water supply assembly 5 for pressure supplementing water supply.

Through being provided with water collecting assembly 9 and purification assembly 6, can realize stable and good automatic water supply function, and equipment has a take the altitude, rivers have great potential energy after conducting in to water supply assembly 5, not only can solve the not enough problem of water demand of water peak period, still can effectively solve the condition because the water pressure that the water consumption leads to greatly reduces, guarantee secondary water supply water pressure combined requirement, and this process need not artifical management and control, can go on automatically, the intelligence of equipment has been improved.

Referring to fig. 7-8, the water supply assembly 5 includes a water supply pipe 52, the water supply pipe 52 is fixedly installed on the side walls of the first water supply tank 1 and the second water supply tank 3, a top pressurizing water replenishing hole 53 is formed at the top of the water supply pipe 52, one end of the water guide pipe 67 is fixedly connected with the top pressurizing water replenishing hole 53, a leakage-proof adsorption sleeve 51 is tightly sleeved outside the water supply pipe 52, and a plurality of thermal expansion particles 54 are arranged inside the leakage-proof adsorption sleeve 51.

The external light collecting assembly 12 comprises an arc-shaped housing 121 and a light collecting mirror 122, wherein the light collecting mirror 122 is fixedly installed on the side wall of the arc-shaped housing 121, the light collecting mirror 122 is located on one side of the leak-proof adsorption sleeve 51, the surface area of the light collecting mirror 122 is smaller than that of the arc-shaped housing 121, and the thermal expansion particles 54 are made of graphite powder particles.

The specific implementation mode is as follows; when carrying out the secondary water supply, the water is derived through delivery pipe 52, prevent leaking absorption cover 51 and can play good prevention of leakage effect, avoid the waste of water, even there is a small amount of leakage circumstances, can be fast adsorbed by preventing leaking absorption cover 51 fast, can not leak out, simultaneously the sunshine among the external environment shines back on external light collecting component 12, by the outside of collector mirror 122 gathering at preventing leaking absorption cover 51, prevent leaking absorption cover 51 and receive inside temperature rising behind the sunshine irradiation that lasts, thermal expansion grain 54 inflation, make and prevent leaking absorption cover 51 expansion, extrude the water that absorbs in the absorption cover 51 of preventing leaking, high temperature still can evaporate to the water liquid in preventing leaking absorption cover 51 simultaneously.

Through being provided with water supply assembly 5 and outer light collecting assembly 12, not only can promote the anti-leakage effect when supplying water greatly, still can effectively last to guarantee to prevent leaking the result of use of adsorbing cover 51, the result of use of lifting means.

Referring to fig. 5-6, top covers 19 are fixedly mounted on the top portions of the first and second water supply tanks 1 and 3, a first water inlet pipe 2 and a second water inlet pipe 7 are fixedly mounted on the top portions of the two top covers 19, the first water inlet pipe 2 and the second water inlet pipe 7 have the same volume, a first water guide cleaning assembly 16 and a second water guide cleaning assembly 17 are rotatably mounted on the inner wall of the rear mounting shell 11, the first water guide cleaning assembly 16 and the second water guide cleaning assembly 17 are respectively used for automatically controlling the liquid flow rate in the first water inlet pipe 2 and the second water inlet pipe 7, a bottom filter screen 18 is fixedly mounted inside the first water inlet pipe 2 and the second water inlet pipe 7, the first water guide cleaning assembly 16 includes a mounting rod 161, a side mounting roller 164 is fixedly mounted on one end of the mounting rod 161, four cleaning flexible brushes 162 and four water blades 163 are fixedly mounted outside the side mounting roller 164, four flexible brushes 162 of clearance and four water body blades 163 all are located the inside of first oral siphon 2, the lateral wall of four water body blades 163 and the inner wall in close contact with and the extrusion of first oral siphon 2, the one end fixed mounting of installation pole 161 has first installation meshing roller 13, the one end fixed mounting of second water guide clearance subassembly 17 has second installation meshing roller 15, be connected through the transmission of transmission cingulum 14 between first installation meshing roller 13 and the second installation meshing roller 15, the tooth footpath of first installation meshing roller 13 is greater than the tooth footpath of second installation meshing roller 15.

The specific implementation mode is as follows; when water flow is introduced into the first water supply tank 1 and the second water supply tank 3, water liquid can be added into the first water inlet pipe 2, and under the pressure of the water flow, the four water body blades 163 can be driven to rotate, the mounting rod 161 rotates to drive the first mounting meshing roller 13 at one end of the mounting rod to rotate, the first mounting meshing roller 13 drives the second mounting meshing roller 15 to rotate through the transmission toothed belt 14, because the tooth diameter of the first mounting meshing roller 13 is larger than that of the second mounting meshing roller 15, the first mounting meshing roller 13 plays an accelerating role on the second mounting meshing roller 15, the rotating speed of the second water guide cleaning component 17 is increased, the flow rate of the water liquid entering the second water inlet pipe 7 is increased, and when the first water guide cleaning component 16 and the second water guide cleaning component 17 rotate, the four cleaning flexible brushes 162 can also clean the bottom filter screen 18 synchronously to avoid the blockage of the bottom filter screen 18, the water supply effect is ensured.

Through being provided with first water guide cleaning assembly 16 and second water guide cleaning assembly 17, the velocity of flow of the internal water of another jar can be carried out automatic control to the pressure of one of them jar body rivers, has established the relation of the velocity of flow of water between the two jar bodies, can realize the automatic control function of the velocity of flow of water.

Referring to fig. 9-10, a water guide inclined seat 22 is fixedly mounted on an inner wall of a bottom surface of the second water supply tank 3, an apex 21 is longitudinally and fixedly mounted at a central position of the water guide inclined seat 22, a water collecting assembly 20 is slidably mounted inside the second water supply tank 3, the water collecting assembly 20 is used for collecting and storing water flow, the water collecting assembly 20 includes a water collecting inner cylinder 202, a pressure-bearing spring rod 201 is fixedly mounted at a top of the water collecting inner cylinder 202, a top end of the pressure-bearing spring rod 201 is fixedly connected with a bottom surface of the top cover 19, a water outlet conduit 203 is fixedly mounted at a central position of a bottom surface of the water collecting inner cylinder 202, an opening and closing sheet 204 is rotatably mounted inside the water outlet conduit 203 through a hinge, and the apex 21 is located right below the water outlet conduit 203.

The specific implementation mode is as follows; the water body guided in through the first water inlet pipe 2 and the second water inlet pipe 7 can be firstly collected and stored by the water collecting assembly 20, along with the increase of the water collecting amount in the water collecting inner cylinder 202, when the gravity in the water collecting inner cylinder 202 exceeds the elastic force of the pressure-bearing spring rod 201, the water collecting inner cylinder 202 can slowly descend until the opening and closing sheet 204 in the water outlet guide pipe 203 is contacted with the tip 21, the tip 21 pushes the opening and closing sheet 204 open, and at the moment, a large amount of water liquid stored in the water collecting assembly 20 can be discharged in a large amount through the water outlet guide pipe 203, and is guided by the quick side of the water guide inclined seat 22 to finally discharge water for supply.

Through setting up and receiving water subassembly 20, can make rivers obtain certain storage, store and lead out fast after continuing to certain pressure, can further compensate the not enough problem of water pressure of water peak period, guarantee the smoothness of user's water, excellent in use effect.

The working principle is as follows: when water flow is introduced into the first water supply tank 1 and the second water supply tank 3, water liquid can be added into the first water inlet pipe 2, and under the pressure of the water flow, the four water body blades 163 can be driven to rotate, the mounting rod 161 rotates to drive the first mounting meshing roller 13 at one end of the mounting rod to rotate, the first mounting meshing roller 13 drives the second mounting meshing roller 15 to rotate through the transmission toothed belt 14, because the tooth diameter of the first mounting meshing roller 13 is larger than that of the second mounting meshing roller 15, the first mounting meshing roller 13 plays an accelerating role on the second mounting meshing roller 15, the rotating speed of the second water guide cleaning component 17 is increased, the flow rate of the water liquid entering the second water inlet pipe 7 is increased, and when the first water guide cleaning component 16 and the second water guide cleaning component 17 rotate, the four cleaning flexible brushes 162 can also clean the bottom filter screen 18 synchronously to avoid the blockage of the bottom filter screen 18, the water supply effect is ensured; the water body guided in through the first water inlet pipe 2 and the second water inlet pipe 7 can be firstly collected and stored by the water collecting assembly 20, along with the increase of the water collecting amount in the water collecting inner cylinder 202, when the gravity in the water collecting inner cylinder 202 exceeds the elastic force of the pressure-bearing spring rod 201, the water collecting inner cylinder 202 can slowly descend until the opening and closing sheet 204 in the water outlet guide pipe 203 is contacted with the centre 21, the centre 21 pushes the opening and closing sheet 204 open, and at the moment, a large amount of water liquid stored in the water collecting assembly 20 can be discharged in a large amount through the water outlet guide pipe 203 and is guided through the quick side of the water guiding inclined seat 22 to finally discharge water for supply; when the water supply equipment is used normally, rainwater in some external environments can be collected by the water collecting component 9 firstly, then purified by the purifying component 6 to be a water source for utilization and led into the water supply component 5, meanwhile, under the condition of no rain, the ambient temperature is reduced at night, low temperature can flow into the water collecting tank 97 and be captured by the pebble layer 93, the temperature of the pebble layer 93 is reduced and low temperature can be stored, the heat preservation film 92 avoids low temperature loss, after the sun is bright, the ambient temperature is raised, meanwhile, the external sunlight can irradiate the reflector 10, the sunlight is reflected on the water collecting tank 97 through the reflector 10, heat in the water collecting tank 97 is slowly accumulated, the hot air flow is in contact with the low-temperature pebble layer 93, condensation phenomenon can occur, water taking and liquid drop accumulation are generated, the stable automatic water supply function is realized in daily accumulation and monthly accumulation, the collected water liquid can be discharged to two sides through the built-in the purifying component 6, and the built-in the filter screen 62, Filtering and purifying the gauze layer 63, the diatomite layer 64 and the activated carbon layer 65, and then feeding the filtered and purified gauze layer, the diatomite layer and the activated carbon layer into the water supply component 5 for pressure supplementing water supply; when carrying out the secondary water supply, the water is derived through delivery pipe 52, prevent leaking absorption cover 51 and can play good prevention of leakage effect, avoid the waste of water, even there is a small amount of leakage circumstances, can be fast adsorbed by preventing leaking absorption cover 51 fast, can not leak out, simultaneously the sunshine among the external environment shines back on external light collecting component 12, by the outside of collector mirror 122 gathering at preventing leaking absorption cover 51, prevent leaking absorption cover 51 and receive inside temperature rising behind the sunshine irradiation that lasts, thermal expansion grain 54 inflation, make and prevent leaking absorption cover 51 expansion, extrude the water that absorbs in the absorption cover 51 of preventing leaking, high temperature still can evaporate to the water liquid in preventing leaking absorption cover 51 simultaneously.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a no negative pressure secondary water supply equipment of wisdom, includes first water supply tank (1) and second water supply tank (3), fixed mounting has rear mounting shell (11), its characterized in that on the rear side outer wall of first water supply tank (1) and second water supply tank (3): a rear mounting frame (8) is fixedly mounted on the outer wall of one side of the rear mounting shell (11), a reflector (10) is embedded in the rear mounting frame (8), bases (4) are fixedly mounted at the bottoms of the first water supply tank (1) and the second water supply tank (3), the top of the rear mounting shell (11) is provided with a top groove, a water-collecting component (9) is fixedly mounted in the top groove, the water-collecting component (9) is used for collecting environmental water sources and taking water from air for treatment, the outer walls of one sides of the first water supply tank (1) and the second water supply tank (3) are fixedly provided with water supply components (5), the water supply components (5) are used for stable secondary negative pressure water supply, the utility model discloses a light source device, including water supply assembly (5), the lateral wall that is located first water supply tank (1) and second water supply tank (3) outside water supply assembly (5) all fixed mounting have outer light collecting assembly (12), and outer light collecting assembly (12) are used for towards the stable light collecting of water supply assembly (5).

2. The intelligent negative-pressure-free secondary water supply device as claimed in claim 1, wherein the water collecting component (9) comprises a water collecting tank (97), water guide bent pipes (98) are fixedly mounted on outer walls of two sides of the water collecting tank (97), an inner water guide seat (96) is fixedly mounted on an inner wall of the bottom surface of the water collecting tank (97), and an inner frame (94) is fixedly mounted on an inner wall of the water collecting tank (97).

3. The intelligent negative-pressure-free secondary water supply device as claimed in claim 2, wherein a plurality of pebble layers (93) are filled in the inner frame (94), a heat insulation film (92) is arranged on the inner wall of the water collection tank (97) above the pebble layers (93), a plurality of air holes are formed in the heat insulation film (92), and a foreign matter filtering net (91) is arranged on the inner wall of the water collection tank (97) above the heat insulation film (92).

4. The wisdom does not have negative pressure secondary water supply equipment of claim 3, characterized in that, the size of the volume specification of first water supply jar (1) is unanimous with second water supply jar (3), all fixed mounting has purification subassembly (6) on the lateral wall of first water supply jar (1) and second water supply jar (3), purification subassembly (6) are used for the purification treatment of the water source of collecting, purification subassembly (6) are including outer installation shell (66), the inside of outer installation shell (66) is from last to down respectively fixed mounting have built-in filter screen (62), gauze layer (63), diatomaceous earth layer (64) and active carbon layer (65).

5. The intelligent negative-pressure-free secondary water supply device as claimed in claim 4, wherein the surface areas of the built-in filter screen (62), the gauze layer (63), the diatomite layer (64) and the activated carbon layer (65) are the same, the top cover (61) is fixedly installed at the top of the outer installation shell (66), the water guide pipe (67) is fixedly installed on the side wall of the outer installation shell (66), and one end of the water guide bent pipe (98) is fixedly connected with the through hole formed in the top of the top cover (61).

6. The intelligent negative-pressure-free secondary water supply device according to claim 5, wherein the water supply assembly (5) comprises a water supply pipe (52), the water supply pipe (52) is fixedly installed on the side walls of the first water supply tank (1) and the second water supply tank (3), a top pressurizing water replenishing hole (53) is formed in the top of the water supply pipe (52), one end of the water guide pipe (67) is fixedly connected with the top pressurizing water replenishing hole (53), a leakage-proof adsorption sleeve (51) is tightly sleeved on the outside of the water supply pipe (52), and a plurality of thermal expansion particles (54) are arranged inside the leakage-proof adsorption sleeve (51).

7. The intelligent negative-pressure-free secondary water supply equipment as claimed in claim 6, wherein the external light collecting assembly (12) comprises an arc-shaped housing (121) and a light collecting mirror (122), the light collecting mirror (122) is fixedly installed on the side wall of the arc-shaped housing (121), the light collecting mirror (122) is located on one side of the leakage-proof adsorption sleeve (51), and the surface area of the light collecting mirror (122) is smaller than that of the arc-shaped housing (121).

8. The intelligent negative-pressure-free secondary water supply device as claimed in claim 7, wherein top covers (19) are fixedly mounted at the tops of the first water supply tank (1) and the second water supply tank (3), a first water inlet pipe (2) and a second water inlet pipe (7) are respectively fixedly mounted at the tops of the two top covers (19), the first water inlet pipe (2) and the second water inlet pipe (7) are consistent in size, a first water guide cleaning component (16) and a second water guide cleaning component (17) are rotatably mounted on the inner wall of the rear mounting shell (11), and the first water guide cleaning component (16) and the second water guide cleaning component (17) are respectively used for automatically controlling the liquid flow in the first water inlet pipe (2) and the second water inlet pipe (7).

9. The intelligent negative-pressure-free secondary water supply device according to claim 8, wherein a bottom filter screen (18) is fixedly mounted inside the first water inlet pipe (2) and the second water inlet pipe (7), the first water guide cleaning assembly (16) comprises a mounting rod (161), a side mounting roller (164) is fixedly mounted at one end of the mounting rod (161), four cleaning flexible brushes (162) and four water blades (163) are fixedly mounted outside the side mounting roller (164), the four cleaning flexible brushes (162) and the four water blades (163) are both located inside the first water inlet pipe (2), the side walls of the four water blades (163) are in close contact and extrusion with the inner wall of the first water inlet pipe (2), a first mounting meshing roller (13) is fixedly mounted at one end of the mounting rod (161), a second mounting meshing roller (15) is fixedly mounted at one end of the second water guide cleaning assembly (17), the first installation meshing roller (13) is in transmission connection with the second installation meshing roller (15) through a transmission toothed belt (14), and the tooth diameter of the first installation meshing roller (13) is larger than that of the second installation meshing roller (15).

10. The intelligent negative-pressure-free secondary water supply device according to claim 9, wherein a water guide inclined seat (22) is fixedly installed on the inner wall of the bottom surface of the second water supply tank (3), a tip (21) is longitudinally and fixedly installed at the center position of the water guide inclined seat (22), a water collection assembly (20) is slidably installed inside the second water supply tank (3), the water collection assembly (20) is used for collecting and storing water flow, the water collection assembly (20) comprises a water collection inner cylinder (202), a pressure-bearing spring rod (201) is fixedly installed at the top of the water collection inner cylinder (202), the top end of the pressure-bearing spring rod (201) is fixedly connected with the bottom surface of the top cover (19), a water outlet conduit (203) is fixedly installed at the center position of the bottom surface of the water collection inner cylinder (202), and an opening and closing sheet (204) is rotatably installed inside the water outlet conduit (203) through a hinge, the centre (21) is positioned right below the water outlet conduit (203).