CN209522603U - A kind of net drinking-water system of novel modularized solar energy - Google Patents
A kind of net drinking-water system of novel modularized solar energy Download PDFInfo
- Publication number
- CN209522603U CN209522603U CN201920085511.6U CN201920085511U CN209522603U CN 209522603 U CN209522603 U CN 209522603U CN 201920085511 U CN201920085511 U CN 201920085511U CN 209522603 U CN209522603 U CN 209522603U
- Authority
- CN
- China
- Prior art keywords
- water
- drinking
- solar energy
- water system
- water tank
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Heat-Pump Type And Storage Water Heaters (AREA)
Abstract
The utility model discloses a kind of novel modularized net drinking-water systems of solar energy, including drinking-water system assembly, the drinking-water system assembly is equipped with water tank, two brackets are fixedly mounted in the top of the water tank, solar thermal collector is rotatably equipped with by shaft between two brackets, the side of bracket is fixedly installed with the motor for driving solar thermal collector to rotate, sunlight sensor is fixedly installed at the top of solar thermal collector, solar thermal collector includes the thermal-collecting tube of shell and setting inside the housing, the outer wall of water tank is equipped with controller, water pump and water purifier, thermal insulation board is fixedly mounted in the inside of water tank, the net drinking-water system structure of novel modularized solar energy is simple, it is easy to use, figure is small and exquisite, it is easy to remove, being used in mixed way for solar energy and electric energy is realized simultaneously, and thermal-collecting tube light-receiving surface can be made to reach maximum, from And reach good energy-saving effect.
Description
Technical field
The utility model relates to a kind of drinking device, specifically a kind of novel modularized net drinking-water system of solar energy.
Background technique
There are many impurity and organic pollutants in the water quality of underground water or tap water, in order to which the safety and sanitation of user are used
Water generally requires to handle water quality, especially direct drinking, and the processing to water quality is essential.Current drinking-water is set
It is standby generally to provide electric power using alternating current, the construction of line is needed, at high cost, drinking equipment displacement is very troublesome when installing again.
In the prior art, solar drinking-water device structure is complicated, and volume is larger, inconvenient for use outdoors, and solar energy collection
Hot equipment is to be fixedly mounted, and can not be adjusted according to the irradiation position of sunlight, solar energy utilization ratio is lower, and solar energy is general
100 degrees Celsius can not be heated the water to, not boiled water is drunk for a long time and is not conducive to good health.
Summary of the invention
The purpose of this utility model is to provide a kind of novel modularized net drinking-water systems of solar energy, to solve above-mentioned background
The problem of being proposed in technology.
To achieve the above object, the utility model provides the following technical solutions:
A kind of net drinking-water system of novel modularized solar energy, including drinking-water system assembly, the drinking-water system assembly are equipped with
Water tank, the top of the water tank are fixedly mounted two brackets, are rotatably equipped with solar energy by shaft between two brackets
Heat collector, the side of bracket are fixedly installed with the motor for driving solar thermal collector to rotate, the top of solar thermal collector
Be fixedly installed with sunlight sensor, solar thermal collector includes the thermal-collecting tube of shell and setting inside the housing, water tank it is outer
Wall is equipped with controller, water pump and water purifier, and thermal insulation board is fixedly mounted in the inside of water tank, and the inside of water tank is by thermal insulation board point
It is divided into cold water cabin and hot water storehouse, cold water cabin, water pump, water purifier are sequentially connected, and the water outlet of water purifier passes through the second conduit and collection
One end of heat pipe connects, and the other end of thermal-collecting tube is connect by the first conduit with hot water storehouse, the top of water tank and positioned at bracket
Two sides be hinged with sleeve, the inside of sleeve is equipped with telescopic rod, and the free end of telescopic rod and the bottom of solar thermal collector are cut with scissors
It connects, the inside in hot water storehouse is fixedly installed with electrically heated rod, and the inside bottom in hot water storehouse is fixedly installed with temperature sensor, controller
Signal input part respectively with sunlight sensor, temperature sensor be electrically connected, the control output end of controller respectively with motor,
Electrically heated rod is electrically connected.
As a further solution of the present invention: being fixedly installed with transparent armorplate glass at the top of the shell.
The inside bottom of the shell, which is painted with, as a further solution of the present invention, returns optical material layer.
The water purifier is active carbon filter as a further solution of the present invention,.
First conduit and the second conduit are by bamboo-plastic combined undulation degree as a further solution of the present invention,
Material is made.
The armorplate glass can replace with collector lens as a further solution of the present invention,.
Compared with prior art, the utility model has the beneficial effects that
The utility model is suitable for the area of illumination resource abundance, it can realize modularity control no supervision, Ke Yizuo
Flexibly spliced for Modularized splice unit, utmostly plays Modularized splice technology bring and do not interfere with each other independent operating
Work, change the outfit quickly, the technical advantage manually spliced of the efficiently convenient assembling of pipeline and circuit serial or parallel connection and low cost, pass through
It is the wireless communication module of communication technology carrier to photothermal conversion rate using 4G or 5G mobile communications network or Zigbee communication network
With the long-distance wireless monitoring of the critical operational states such as the unit time water purification amount of drinking, such as: on the ground of a certain sunlight-heat reaources abundance
Area, if having been got up two to work by Modularized splice Technical form by long distance wireless manual or automatic monitoring discovery
Novel net drinking-water unit time quantum of output is significantly less than unit time of the office worker of this area or the resident that lives to the playscript with stage directions in fact
Water purification intake should be substantially equal to office worker or life according to the net drinking-water unit time quantum of output of the utility model used
The unit time water purification intake of resident show that the quantity of specific the utility model to be spliced together is six, then, passes through mould
Block splicing goes here and there the pipeline and/or circuit of original two playscript with stage directions utility models and increased four playscripts with stage directions utility model
After connection and/or parallel connection, alternatively, if having passed through Modularized splice technology groups by the manual or automatic monitoring discovery of long distance wireless
Load and eight playscripts with stage directions that are working novel net drinking-water unit time quantum of output is significantly greater than the office worker of this area in fact
Or the unit time water purification intake of life resident, according to the utility model used, total net drinking-water unit time quantum of output is answered
Substantially equal to the unit time water purification intake of office worker or the resident that lives obtain specific the utility model to be spliced together
Quantity is five, then, is removed extra three adjacent the utility model and to residue by Modularized splice technology
Five playscript with stage directions utility models pipeline and/or circuit retain series connection and/or parallel connection.
The utility model can pass through Modularized splice skill as the solar drinking-water machine for having Modularized splice Elementary Function
Art carries out flexible group and connects, and structure is simple, easy to use, compact, and easy to remove, temperature sensor is to the water temperature in hot water storehouse
It being detected and will test information and be transmitted in controller, controller controls electrically heated rod by water temperature information, thus
Water in hot water storehouse is heated to boiling, being used in mixed way for solar energy and electric energy can be crossed, reach energy-efficient purpose, sunlight sensor
Lighting angle is detected, and will test information and be transmitted in controller controller and motor is carried out according to lighting angle information
Control makes its light-receiving area reach maximum, improves solar energy utilization ratio so that solar thermal collector be driven to rotate.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the net drinking-water system of novel modularized solar energy.
Fig. 2 is the structural schematic diagram of armorplate glass in the net drinking-water system of novel modularized solar energy.
Fig. 3 is the cross-sectional view of water tank in the net drinking-water system of novel modularized solar energy.
Fig. 4 is the node series connection schematic diagram that respectively supplies water in the net drinking-water system of novel modularized solar energy.
Fig. 5 is the branch circuit parallel connection schematic diagram that respectively supplies water in the net drinking-water system of novel modularized solar energy.
In figure: solar thermal collector 1, telescopic rod 2, sleeve 3, the first conduit 4, controller 5, water tank 6, water pump 7, water purification
Device 8, the second conduit 9, sunlight sensor 10, bracket 11, motor 12, thermal-collecting tube 13, armorplate glass 14, hot water storehouse 15, cold water
Storehouse 16, thermal insulation board 17, temperature sensor 18, flow sensor 19, flow sensor 20, drinking-water system assembly 21 and solenoid valve
22。
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Please refer to Fig. 1~5, in the utility model embodiment, a kind of novel modularized net drinking-water system of solar energy, including drink
Water system assembly 21, the drinking-water system assembly 21 are equipped with water tank 6, and the top of water tank 6 is fixedly mounted two brackets 11, and two
Solar thermal collector 1 is rotatably equipped with by shaft between a bracket 11, the side of bracket 11 is fixedly installed with for driving too
The motor 12 that positive energy heat collector 1 rotates, the top of solar thermal collector 1 is fixedly installed with sunlight sensor 10, sunlight sensor
10 model GST 400, solar thermal collector 1 include shell and setting thermal-collecting tube 13 inside the housing, water tank 6 it is outer
Wall is equipped with controller 5, water pump 7 and water purifier 8, and the inside of water tank 6 is fixedly mounted thermal insulation board 17, the inside of water tank 6 by
Thermal insulation board 17 is divided into cold water cabin 16 and hot water storehouse 15, and cold water cabin 16, water pump 7, water purifier 8 are sequentially connected, the water outlet of water purifier 8
End is connect by the second conduit 9 with one end of thermal-collecting tube 13, and the other end of thermal-collecting tube 13 is connected by the first conduit 4 with hot water storehouse 15
It connects, the top of the water tank 6 and two sides for being located at bracket 11 are hinged with sleeve 3, the inside of sleeve 3 is equipped with telescopic rod 2, telescopic rod
2 free end and the bottom of solar thermal collector 1 are hinged, and the inside in hot water storehouse 15 is fixedly installed with electrically heated rod, hot water storehouse 15
Inside bottom be fixedly installed with temperature sensor 18, temperature sensor 18 is PT 100, and the signal input part of controller 5 is distinguished
With sunlight sensor 10, temperature sensor 18 be electrically connected, the control output end of controller 5 respectively with motor 12, electrically heated rod
It is electrically connected;Transparent armorplate glass 14 is fixedly installed at the top of the shell;The inside bottom of the shell is painted with
Return optical material layer;The water purifier 8 is active carbon filter;First conduit 4 and the second conduit 9 are by bamboo-plastic combined fiber
Material is made;The armorplate glass 14 can replace with collector lens;In use, starting water pump 7, water pump 7 is by cold water cabin 16
Interior cold water is pumped into thermal-collecting tube 13 by water purifier 8, and thermal-collecting tube 13 can absorb the thermal energy of the sun and heat to water, quilt
The water of heating is flowed into hot water storehouse 15 and is stored, and temperature sensor 18 is detected and be will test to the water temperature in hot water storehouse 15
Information is transmitted in controller 5, and controller 5 controls electrically heated rod by water temperature information, thus in hot water storehouse 15
Water is heated to boiling, and can cross being used in mixed way for solar energy and electric energy, reach energy-efficient purpose, sunlight sensor 10 is to lighting angle
It is detected, and will test information and be transmitted to controller 5 in controller 5 and motor 12 is controlled according to lighting angle information,
To drive solar thermal collector 1 to rotate, so that its light-receiving area is reached maximum, improve solar energy utilization ratio.
The modular embodiment 1 of the utility model
Referring to Fig. 4, the quantity of the drinking-water system assembly 21 be it is multiple, each drinking-water system assembly 21 forms one solely
Water supply node is found, tee tube, the water outlet of each drinking-water system assembly 21 are installed on the water outlet of each drinking-water system assembly 21
Mouth is connect by tee tube with the water inlet of adjacent drinking-water system assembly 21, to realize multiple water supply nodes series connection, each drink
Wherein one end of tee tube on 21 water outlet of water system assembly is as the mouth of a river is adopted, and described adopt installs valve on the mouth of a river, thus shape
It at modular series connection node water system, and realizes that the synchronous of multiple water supply nodes is supplied water and synchronous thermal-arrest, greatly improves hot water
Efficiency of supply.
Each drinking-water system assembly 21 is connected by pipeline, to form modular series connection, by modular series connection system,
It can be realized the quick splicing of each building block in system, while being connected by modularization so that relatively independent between each component,
Consequently facilitating the maintenance in later period, substantially reduces system maintenance cost, meanwhile, the series connection of modules, to form flexible string
Alliance Water Network system is more advantageous to information transmitting and monitoring data by the increase and decrease and detection of modular implementation water supply node
Acquisition with summarize, greatly improve the practicability and stability of system.
The water inlet of each drinking-water system assembly 21 is mounted on flow sensor 19 and flow sensor 20, and flow passes
The model FMG70 of sensor 19, the model QVE 1901 of flow sensor 20, flow sensor 19 and flow sensor 20
Module and corresponding controller 5 realization data interchange by wireless communication respectively, thus to the flow and flow velocity of each water supply node
It is monitored.
The modular embodiment 2 of the utility model
Referring to Fig. 5, the quantity of the drinking-water system assembly 21 be it is multiple, each drinking-water system assembly 21 forms one solely
The water inlet of vertical water supply node, each drinking-water system assembly 21 is connected with each other, and the water outlet of each drinking-water system assembly 21 passes through
Tee tube connection, to realize that multiple water supply nodes are in parallel, multiple water supply nodes in parallel form a plurality of water supply branch, every confession
Water branch road is equipped with solenoid valve 22, and wherein one end of the tee tube on each 21 water outlet of drinking-water system assembly is as adopting water
Mouthful, described adopt installs valve on the mouth of a river, to form modular parallel node water system, and realize that multiple water supply branches are asynchronous
It supplies water, while each water supply branch realizes synchronous thermal-arrest, improves water system flexibility.
Each drinking-water system assembly 21 is connected by pipeline, to form modular parallel, by modular parallel system,
It can be realized the quick splicing of each building block in system, while being connected by modularization so that relatively independent between each component,
Consequently facilitating the maintenance in later period, substantially reduces system maintenance cost, meanwhile, the parallel connection of modules, to be formed flexibly simultaneously
Alliance Water Network system is more advantageous to information transmitting and monitoring data by the increase and decrease and detection of modular implementation water supply branch
Acquisition with summarize, greatly improve the practicability and stability of system.
The water inlet of each drinking-water system assembly 21 is mounted on flow sensor 19 and flow sensor 20, and flow passes
The model FMG70 of sensor 19, the model QVE 1901 of flow sensor 20, flow sensor 19 and flow sensor 20
Module and corresponding controller 5 realization data interchange by wireless communication respectively, thus to the flow and flow velocity of each water supply node
It is monitored.
Although the utility model is described in detail with reference to the foregoing embodiments, come for those skilled in the art
Say, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic into
Row equivalent replacement, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on should all
It is included within the scope of protection of this utility model.
Claims (6)
1. a kind of net drinking-water system of novel modularized solar energy, including drinking-water system assembly (21), it is characterised in that: the drinking-water
System synthesis (21) is equipped with water tank (6), and two brackets (11), two brackets are fixedly mounted in the top of the water tank (6)
(11) it is rotatably equipped with solar thermal collector (1) between by shaft, the side of bracket (11) is fixedly installed with for driving too
It is positive can the motor (12) that rotates of heat collector (1), be fixedly installed with sunlight sensor (10) at the top of solar thermal collector (1), too
Positive energy heat collector (1) includes the thermal-collecting tube (13) of shell and setting inside the housing, and the outer wall of water tank (6) is equipped with controller
(5), thermal insulation board (17) are fixedly mounted in water pump (7) and water purifier (8), the inside of water tank (6), the inside of water tank (6) by every
Hot plate (17) is divided into cold water cabin (16) and hot water storehouse (15), and cold water cabin (16), water pump (7), water purifier (8) are sequentially connected, only
The water outlet of hydrophone (8) is connect by the second conduit (9) with one end of thermal-collecting tube (13), and the other end of thermal-collecting tube (13) passes through the
One conduit (4) is connect with hot water storehouse (15), the top of water tank (6) and be located at bracket (11) two sides be hinged with sleeve (3),
The inside of sleeve (3) is equipped with telescopic rod (2), and the free end of telescopic rod (2) and the bottom of solar thermal collector (1) are hinged, hot water
The inside in storehouse (15) is fixedly installed with electrically heated rod, and the inside bottom of hot water storehouse (15) is fixedly installed with temperature sensor (18),
The signal input part of controller (5) is electrically connected with sunlight sensor (10), temperature sensor (18) respectively, controller (5)
Control output end is electrically connected with motor (12), electrically heated rod respectively.
2. the net drinking-water system of novel modularized solar energy according to claim 1, it is characterised in that: the top of the shell
It is fixedly installed with transparent armorplate glass (14).
3. the net drinking-water system of novel modularized solar energy according to claim 1, it is characterised in that: the inside of the shell
Bottom, which is painted with, returns optical material layer.
4. the net drinking-water system of novel modularized solar energy according to claim 1, it is characterised in that: the water purifier (8)
For active carbon filter.
5. the net drinking-water system of novel modularized solar energy according to claim 1, it is characterised in that: first conduit
(4) it is made with the second conduit (9) of bamboo-plastic combined fibrous material.
6. the net drinking-water system of novel modularized solar energy according to claim 2, it is characterised in that: the armorplate glass
(14) collector lens can be replaced with.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920085511.6U CN209522603U (en) | 2019-01-18 | 2019-01-18 | A kind of net drinking-water system of novel modularized solar energy |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920085511.6U CN209522603U (en) | 2019-01-18 | 2019-01-18 | A kind of net drinking-water system of novel modularized solar energy |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209522603U true CN209522603U (en) | 2019-10-22 |
Family
ID=68228779
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201920085511.6U Active CN209522603U (en) | 2019-01-18 | 2019-01-18 | A kind of net drinking-water system of novel modularized solar energy |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209522603U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109607643A (en) * | 2019-01-18 | 2019-04-12 | 海南自贸区浩天能环境工程有限公司 | A kind of net drinking-water system of novel modularized solar energy |
-
2019
- 2019-01-18 CN CN201920085511.6U patent/CN209522603U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109607643A (en) * | 2019-01-18 | 2019-04-12 | 海南自贸区浩天能环境工程有限公司 | A kind of net drinking-water system of novel modularized solar energy |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104429714B (en) | A kind of photovoltaic ecology roof | |
CN209522603U (en) | A kind of net drinking-water system of novel modularized solar energy | |
CN114383182A (en) | Utilize deep buried tubular geothermal heating system of photoelectric coupling | |
CN108335595A (en) | Modular solar energy photoelectric and light-heat integration system experimental device | |
CN202562094U (en) | Trough-type solar energy collecting and tracking driving apparatus and system | |
CN109607643A (en) | A kind of net drinking-water system of novel modularized solar energy | |
CN208752833U (en) | Modular solar energy photoelectric and light-heat integration system experimental device | |
CN207383081U (en) | A kind of temperature-increasing system of heliogreenhouse | |
CN203731715U (en) | Flat plate solar water heater for gathering heat by using flat plate glass mirrors | |
CN206469326U (en) | A kind of concentrating solar integrated thermal utilization system | |
CN205279486U (en) | Sulculus formula solar energy spotlight solar collecting system | |
CN114531092A (en) | Power generation system based on solar energy | |
CN212538001U (en) | Soil efficient heat exchange season-crossing heat storage device | |
CN210771976U (en) | Light guide tube lighting device convenient for adjusting light wavelength | |
CN202648193U (en) | Flat plate type solar heat collecting system with high heat transfer efficiency | |
CN210921544U (en) | Season-crossing heat storage device combining solar energy with heat storage well | |
CN200968732Y (en) | Capillary pipe type solar heat-collector | |
CN201126281Y (en) | High-efficiency controllable solar air heat collectors | |
CN101545686A (en) | High-efficiency continuous solar energy hot water supplying system | |
CN212081663U (en) | Solar heat collecting device | |
CN212511858U (en) | Photovoltaic and photo-thermal integrated equipment | |
CN214536445U (en) | Solar energy rapid heating up heating installation | |
CN103884112A (en) | Flat plate solar water heater capable of collecting heat through flat plate glass mirrors | |
CN112657224B (en) | Styrene rectifying device capable of effectively reducing energy consumption of pre-separation tower | |
CN220541809U (en) | Novel polymorphic heat source positive displacement heat exchanger |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |