WO2020038177A1 - 一种用于泳池循环加热的太阳能加热系统 - Google Patents

一种用于泳池循环加热的太阳能加热系统 Download PDF

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WO2020038177A1
WO2020038177A1 PCT/CN2019/097606 CN2019097606W WO2020038177A1 WO 2020038177 A1 WO2020038177 A1 WO 2020038177A1 CN 2019097606 W CN2019097606 W CN 2019097606W WO 2020038177 A1 WO2020038177 A1 WO 2020038177A1
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solar
swimming pool
water pump
heater
water
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PCT/CN2019/097606
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English (en)
French (fr)
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王怀平
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王怀平
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Publication of WO2020038177A1 publication Critical patent/WO2020038177A1/zh

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S20/00Solar heat collectors specially adapted for particular uses or environments
    • F24S20/02Solar heat collectors specially adapted for particular uses or environments for swimming pools
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S10/00Solar heat collectors using working fluids
    • F24S10/50Solar heat collectors using working fluids the working fluids being conveyed between plates
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S80/00Details, accessories or component parts of solar heat collectors not provided for in groups F24S10/00-F24S70/00
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02SGENERATION OF ELECTRIC POWER BY CONVERSION OF INFRARED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
    • H02S40/00Components or accessories in combination with PV modules, not provided for in groups H02S10/00 - H02S30/00
    • H02S40/40Thermal components
    • H02S40/44Means to utilise heat energy, e.g. hybrid systems producing warm water and electricity at the same time
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24SSOLAR HEAT COLLECTORS; SOLAR HEAT SYSTEMS
    • F24S20/00Solar heat collectors specially adapted for particular uses or environments
    • F24S2020/10Solar modules layout; Modular arrangements
    • F24S2020/17Arrangements of solar thermal modules combined with solar PV modules
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/44Heat exchange systems
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/60Thermal-PV hybrids

Definitions

  • the utility model relates to a solar heating system, in particular to a solar heating system for circulating heating of a swimming pool.
  • a well-functioning swimming pool can make people fully enjoy the fun of the pool, but in cold seasons, it is difficult to ensure the normal use of the pool because the pool water is too cold; in order to maintain a suitable water temperature, the pool water must be
  • the existing heating system mainly uses electric energy or other energy sources such as oil and gas, which need to consume a lot of valuable resources, and some will cause certain environmental pollution.
  • solar heating technology With the maturity of solar heating technology, many swimming pools have begun to use clean, pollution-free solar heaters for heating. Their structures are usually composed of swimming pools, solar heaters, and pumps that are sealed and connected in order by pipes to form a water circuit.
  • the water in the swimming pool is sucked in by the pump, and then re-injected into the swimming pool after being heated by the solar heater, so as to ensure that the pool water in the swimming pool is always in a circulating heating state. Because of the energy saving, environmental protection and safety of the entire heating process, it is well received by consumers Welcome.
  • the technical problem to be solved by the utility model is to overcome the shortcomings of the prior art and provide a compact structure design, convenient disassembly and connection, flexible use, unlimited use place, adjustable light receiving area, and miniaturization and high-grade feeling.
  • a solar heating system for circulating heating of a swimming pool includes a swimming pool, a solar heater, and a water pump which are sealed and connected by pipes in order to form a water circuit circulation.
  • the solar heater is provided with a solar panel on one side; the water pump is integrated
  • the water pump is installed on a solar heater, and the water pump is connected with the solar heater as a water channel and also connected with the solar battery board as a circuit for power supply.
  • the back of the solar heater is provided with a leg, the upper end of the leg is hingedly installed on the back of the solar heater, the lower end of the leg is suspended and the length is adjustable.
  • the leg rotates around a hinge point at the upper end, and the lower end of the leg is supported on the ground obliquely or closely against the back of the solar heater.
  • the back of the solar heater is provided with a mounting platform.
  • the mounting platform is provided with a water inlet connector and a water outlet connector that communicate with the solar heater.
  • the water pump is fixedly installed on the installation platform, and the water inlet and water inlet of the water pump The joint, the water outlet of the water pump and the water outlet joint are in corresponding sealed communication.
  • the installation platform is disposed at the upper left corner of the back of the solar heater, and the installation platform is further provided with a bottom cover for pressing and fixing the water pump.
  • the solar heater is provided with at least two, and adjacent two solar heaters are provided with mutually connected connecting pipes, and the solar cell panels are installed on the connecting pipes.
  • the solar cell panel is provided with a power cord plug.
  • the solar heater has a rectangular plate structure, and water inlet holes and water outlet holes are respectively provided on two sides of the rectangular plate.
  • Grooves are provided on both sides of the rectangular plate, and the water inlet and outlet holes are embedded in the groove.
  • a horizontal groove is provided on the top of the back of the solar heater.
  • the utility model mainly adds a solar panel on one side of the solar heater, and also integrates a water pump on the solar heater, and makes the water pump communicate with the solar heater in a water way. Make circuit power connection with solar panel.
  • the entire solar heating system has the advantages of compact structure design, small installation site, convenient disassembly and connection, flexible use, etc., and also has a sense of miniaturization and high-end, while the water pump is independently powered by solar panels, it is far away from the city electricity
  • the outdoor place of the socket can also be used normally, the use place is not restricted, and the application range is wide.
  • the back of the solar heater is also provided with adjustable legs for support, so that the solar heater can flexibly adjust the light receiving area according to the time and position of the solar light, which enhances the heating effect of the solar heater.
  • FIG. 1 is a schematic structural diagram of the present invention.
  • Fig. 2 is a schematic diagram of a mounting structure of a solar heater and a solar cell panel.
  • FIG. 3 is an exploded perspective view of FIG. 2.
  • FIG. 4 is a schematic structural diagram of a power line plug provided on a solar cell panel.
  • FIG. 5 is a schematic diagram of the back structure of the solar cell panel.
  • FIG. 6 is an exploded perspective view of a mounting structure of the water pump in FIG. 5.
  • FIG. 7 is a schematic structural diagram of a leg obliquely supporting a solar heater.
  • a solar heating system for circulating heating of a swimming pool mainly relates to a heating system for circulating heating of pool water in a swimming pool through solar heating technology.
  • the structure mainly includes a swimming pool 2, a solar heater 3,
  • the solar panel 4 and the water pump 5 are connected to each other, and the swimming pool 2, the solar heater 3, and the water pump 5 are connected in a sealed manner by the pipeline 1 in order to form a water circuit cycle.
  • the cold water outlet 21 and the hot water inlet 22 are provided in the swimming pool 2 so as to facilitate the circulation heating operation of the pool water after the pipeline 1 is connected, and the proper water temperature of the pool water can be maintained at all times.
  • the solar heaters 3 are provided with at least two.
  • two solar heaters 3 installed side by side as shown in FIG. 2 to FIG. 4 are taken as an example for detailed description. Most preferred use structure.
  • Each solar heater 3 has a rectangular plate structure, and grooves 33 are respectively provided on the top of both sides of the rectangular plate. Water inlet holes 31 and water outlet holes 32 are respectively provided in the two grooves, thereby forming an embedded installation.
  • the structure is designed to ensure that the connection between the pipe 1 and the water inlet hole 31 and the water outlet hole 32 of the solar heater 3 forms a hidden state, so as to prevent the connection seal from failing due to accidental collision at the connection.
  • connection pipe 6 is provided between two adjacent solar heaters 3 to communicate with each other.
  • the water inlet hole 31 and the water outlet hole 32 of each solar heater 3 form a series connection of two solar heaters 3.
  • the water pump 5 is integrated and installed on the solar heater 3 as shown in FIG. 5. Generally, the water pump 5 only needs to be integrated and installed on one of the solar heaters 3, and the same position of the other solar heater 3 may be The connection is achieved through the water outlet pipe 10.
  • the water pump 5 used in this embodiment is a miniaturized water pump, which is smaller than the independent water pump used in the traditional solar heating system. It is sufficient to integrate a water pump 5 on a solar heater 3. Recycling of pool water;
  • the water pump 5 and the solar heater 3 form an integrated structure, they only need to meet the connection needs of the solar heater 3 during disassembly, so that the structure has a compact design, a small installation site, and disassembly Easy to connect and flexible to use.
  • the installation structure of the water pump 5 is shown in FIG. 6.
  • An installation platform is provided at the upper left corner of the back of the solar heater 3.
  • the installation platform is provided with an inlet 36 and an outlet 37 that communicate with the solar heater 3.
  • the water outlet joint is a convex cylindrical joint
  • the water pump 5 is fixed on the installation platform by a plurality of screws 52
  • the water inlet and the water inlet 36 of the water pump 5 and the water outlet and the water outlet 37 of the water pump are all made through an O-ring 34
  • the water path between the water pump 5 and the solar heater 3 is formed.
  • a bottom cover 51 is also provided on the installation platform to press the water pump 5 tightly, so that the water pump is closely attached to the installation platform, thereby ensuring that the water pump 5 is installed. Mounting on the platform is fixed.
  • the back of the solar heater 3 is provided with legs 9. As shown in FIG. 7, the legs 9 are provided on both sides of the back of the solar heater 3, and the upper end of each leg is hingedly installed on the solar heater 3. On the rear hinge seat, the lower end of each leg 9 is suspended and the length is adjustable. When the leg 9 rotates around the upper hinge point, the lower end of the leg 9 can be supported on the ground obliquely. By adjusting the length of the lower end of the leg 9 To meet the solar heater 3's flexibility to adjust the light receiving area according to the time and position of the solar light, to enhance the heating effect of the solar heater 3, or to collapse the legs 9 and to stick to the back of the solar heater 3 to reduce the storage volume .
  • a horizontal groove 35 is provided on the top of the back surface of the solar heater 3, and is generally used to facilitate the lifting and moving of the solar heater 3.
  • the solar battery panel 4 is installed on the connecting pipe 6, and the water pump 5 and the solar battery panel 4 are connected to the circuit for power supply.
  • the solar battery panel 4 can also be used normally in outdoor places far from the mains socket 8, and the use place is not limited. The scope of application wide.
  • the solar cell panel 4 can also be provided with a power cord plug 7 to facilitate direct connection to the mains socket 8 or when there is no solar panel 4, the water pump 5 can also be directly connected to the mains socket 8 through the power cord plug 7. on.
  • the working process of the utility model is as follows: after the water pump 5 is started, the pool water in the swimming pool 2 enters each solar heater 3 through the cold water outlet 21 through the pipeline. Each solar heater absorbs the heat of the sun and heats the pool water flowing through it. The pool water is re-injected into the pool 2 through the hot water inlet 22 through the pipeline 1, so as to realize the water circuit circulation operation, thereby maintaining an appropriate water temperature in the pool 2.
  • This solar heating system can resist the corrosion of chlorine-containing water in the swimming pool, and the material meets environmental protection requirements. It does not pollute and scale the heated pool water, and has lower operating costs compared to heating systems using electricity, coal, and gas as energy sources. , The use is also simpler and more stable, the entire process is automated, convenient for ordinary personnel management.

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Abstract

本实用新型公开了一种用于泳池循环加热的太阳能加热系统,涉及太阳能泳池加热技术,其结构包括泳池、太阳能加热器和水泵等,主要是增设了太阳能电池板,同时还将水泵集成安装在太阳能加热器上,并使水泵既与太阳能加热器作水路连通,又与太阳能电池板作电路供电连接。经过上述改进,使得整套太阳能加热系统具有结构设计紧凑、安装场地小、拆装连接方便、使用灵活等优点,也具备小型化和高档感,而水泵经太阳能电池板独立供电,则在远离市电插座的室外场所也能正常使用,使用场所不受限制,适用范围广。另外,太阳能加热器的背面设有可调支腿用于支撑,使得太阳能加热器能够根据光照时间和位置而灵活调节受光面积,增强了太阳能加热器的加热效果。

Description

一种用于泳池循环加热的太阳能加热系统 技术领域
本实用新型涉及一种太阳能加热系统,具体是指一种用于泳池循环加热的太阳能加热系统。
背景技术
一个良好运行的泳池,可使人们充分享受泳池带来的乐趣,但在寒冷的季节,由于泳池内的池水太冷,就难以保证泳池的正常使用;为了维持适宜的水温,必须对泳池的池水进行加热,现有的加热系统主要利用电能或油气等其它能源,这些都需要消耗大量宝贵的资源,有些还会造成一定的环境污染。随着太阳能加热技术的成熟,不少泳池开始应用清洁、无污染的太阳能加热器进行加热,其结构通常是由以管道依次密封连接并构成水路循环的泳池、太阳能加热器和水泵等构成,使用时由水泵将泳池内的池水吸入,再经太阳能加热器加热后重新注入泳池内,从而保证泳池内的池水始终处于循环加热状态,由于整个加热过程节能、环保、安全,故深受广大消费者的欢迎。
然而,目前所使用的这些太阳能加热系统结构设计过于简陋,这就造成了实际使用中存在不少问题,例如:一、水泵和太阳能加热器是独立分开的两个部件,故在进行管道连接拆装时,过多的零部件不但连接麻烦,使得整套太阳能加热系统结构杂乱,而且也占用较多的安装场地;二、水泵的供电都是通过电源线连接市电插座的,则在远离市电插座的室外就难以使用,使用场所受到限制;三、太阳能加热器都是直接搁置在露天或安装在一个固定位置的,则受太阳光照的面积难以调节,在光照时间和位置产生偏差时,容易影响太阳能加热器的加热效果。
发明内容
本实用新型所要解决的技术问题在于克服现有技术的缺陷而提供一种结构设计紧凑、拆装连接方便、使用灵活、使用场所不受限制、可调整受光照面积并具备小型化和高档感的用于泳池循环加热的太阳能加热系统。
本实用新型的技术问题通过以下技术方案实现:
一种用于泳池循环加热的太阳能加热系统,包括以管道依次密封连接并构成水路循环的泳池、太阳能加热器和水泵,所述的太阳能加热器一侧设有太阳能电 池板;所述的水泵集成安装在太阳能加热器上,该水泵既与太阳能加热器作水路连通,又与太阳能电池板作电路供电连接。
所述的太阳能加热器的背面设有支腿,该支腿上端铰接安装在太阳能加热器的背面上,支腿下端悬空并长度可调。
所述的支腿围绕上端的铰接点转动,支腿下端斜支撑在地面上或紧贴在太阳能加热器的背面。
所述的太阳能加热器的背面设有安装平台,该安装平台上设有连通太阳能加热器的进水接头和出水接头,所述的水泵固定安装在安装平台上,且水泵的进水口与进水接头、水泵的出水口与出水接头作对应密封连通。
所述的安装平台设置在太阳能加热器的背面左上角,在安装平台上还设有压紧固定水泵的底盖。
所述的太阳能加热器设有至少两个,相邻两个太阳能加热器之间设有互相连通的连接管,所述的太阳能电池板安装在该连接管上。
所述的太阳能电池板上设有电源线插头。
所述的太阳能加热器为矩形板结构,在矩形板的两侧分别设有进水孔和出水孔。
所述的矩形板两侧分别设有凹槽,所述的进水孔和出水孔内嵌安装在该凹槽内。
所述的太阳能加热器的背面顶部设有横槽。
与现有技术相比,本实用新型主要是在太阳能加热器的一侧增设了太阳能电池板,同时还将水泵集成安装在太阳能加热器上,并使水泵既与太阳能加热器作水路连通,又与太阳能电池板作电路供电连接。经过上述改进,使得整套太阳能加热系统具有结构设计紧凑、安装场地小、拆装连接方便、使用灵活等优点,也具备小型化和高档感,而水泵经太阳能电池板独立供电,则在远离市电插座的室外场所也能正常使用,使用场所不受限制,适用范围广。另外,太阳能加热器的背面还设有可调支腿用于支撑,使得太阳能加热器能够根据太阳光照的时间和位置而灵活调节受光面积,增强了太阳能加热器的加热效果。
附图说明
图1为本实用新型的结构示意图。
图2为太阳能加热器和太阳能电池板的安装结构示意图。
图3为图2的立体分解图。
图4为太阳能电池板上设有电源线插头的结构示意图。
图5为太阳能电池板的背面结构示意。
图6为图5中水泵的安装结构立体分解图。
图7为支腿斜支撑太阳能加热器的结构示意图。
具体实施方式
下面将按上述附图对本实用新型实施例再作详细说明。
如图1~图7所示,1.管道、2.泳池、21.冷水出口、22.热水进口、3.太阳能加热器、31.进水孔、32.出水孔、33.凹槽、34.O型圈、35.横槽、36.进水接头、37.出水接头、4.太阳能电池板、5.水泵、51.底盖、52.螺钉、6.连接管、7.电源线插头、8.市电插座、9.支腿、10.出水管道。
一种用于泳池循环加热的太阳能加热系统,如图1所示,主要涉及的是一种通过太阳能加热技术来循环加热泳池内池水的加热系统,其结构主要包括泳池2、太阳能加热器3、太阳能电池板4和水泵5等,且泳池2、太阳能加热器3和水泵5以管道1依次密封连接并构成水路循环。
其中,泳池2内设置冷水出口21和热水进口22,以便于管道1连接后形成池水的循环加热运转,并能始终维持池水的适宜水温。
所述的太阳能加热器3设有至少两个,本实施例是以图2~图4所示的两个并排安装的太阳能加热器3为例进行详细描述,并且采用两个太阳能加热器3也是最优选的使用结构。
每个太阳能加热器3均为矩形板结构,在矩形板的两侧顶部分别设有凹槽33,两个凹槽内分别设置进水孔31和出水孔32,从而形成了内嵌式的安装结构,其设计目的是保证管道1与太阳能加热器3的进水孔31和出水孔32之间的连接处形成隐藏状态,以此避免该连接处因意外碰撞而导致的连接密封失效。
同时,太阳能加热器3的进水孔31和出水孔32处于同一水平面上,在相邻两个太阳能加热器3之间设有互相连通的连接管6,具体是通过连接管分别连接相邻两个太阳能加热器3的进水孔31和出水孔32,即形成两个太阳能加热器3的串联连接。
所述的水泵5如图5所示集成安装在太阳能加热器3上,一般来说,水泵5仅需集成安装在其中一个太阳能加热器3上即可,另一个太阳能加热器3的相同位置可通过出水管道10实现连通,本实施例所采用的水泵5为小型化水泵,它相比传统的太阳能加热系统所使用的独立水泵体积更小,一个太阳能加热器3 上集成一个水泵5就足以满足池水的循环使用;另外,水泵5与太阳能加热器3形成集成结构后,在拆装时只需满足太阳能加热器3的连接需要即可,从而使得该结构具有设计紧凑、安装场地小、拆装连接方便、使用灵活等优点。
水泵5的安装结构如图6所示,在太阳能加热器3的背面左上角设有安装平台,该安装平台上设有连通太阳能加热器3的进水接头36和出水接头37,该进水接头和出水接头为凸起的圆柱接头,水泵5通过多颗螺钉52固定在安装平台上,且水泵5的进水口与进水接头36、水泵的出水口与出水接头37通过O型圈34均作对应密封连通,以此形成水泵5与太阳能加热器3的水路连通,在安装平台上还设有底盖51以便于压紧水泵5,使水泵紧贴在安装平台上,从而保证水泵5在安装平台上的安装固定。
所述的太阳能加热器3的背面设有支腿9,如图7所示是在太阳能加热器3背面的两侧分别设有支腿9,每根支腿上端均铰接安装在太阳能加热器3背面的铰接座上,每根支腿9下端均悬空并长度可调,则当支腿9围绕上端的铰接点转动时,支腿9下端可斜支撑在地面上,通过调节支腿9下端长度来满足太阳能加热器3根据太阳光照的时间和位置而灵活调节受光面积,增强太阳能加热器3的加热效果,或者收合支腿9,并紧贴在太阳能加热器3的背面,以缩小收纳体积。
所述的太阳能加热器3的背面顶部设有横槽35,一般是用于方便太阳能加热器3的提拿搬移。
所述的太阳能电池板4安装在连接管6上,而水泵5与太阳能电池板4作电路供电连接,则在远离市电插座8的室外场所也能正常使用,使用场所不受限制,适用范围广。当然,太阳能电池板4上也可设有电源线插头7,便于与市电插座8的直接连接,或无太阳能电池板4时,水泵5也可通过电源线插头7直接连接在市电插座8上。
本实用新型的工作过程如下:水泵5启动后,泳池2内的池水由冷水出口21经管道依次进入各个太阳能加热器3,每个太阳能加热器都吸收阳光热量而加热流经的池水,经过加热的池水再通过管道1经热水进口22重新注入泳池2内,以此实现水路循环运转,从而保持泳池2内的适宜水温。
这种太阳能加热系统能抵抗泳池含氯水的腐蚀,并且材质符合环保要求,对所加热的池水没有污染、不结垢,与电、煤、气作为能源的加热系统相比,运行费用更低,使用也更加简单、稳定,全程自动化,方便普通人员管理。
以上所述仅是本实用新型的具体实施例,本领域技术人员应该理解,任何与该实施例等同的结构设计,均应包含在本实用新型的保护范围之内。

Claims (10)

  1. 一种用于泳池循环加热的太阳能加热系统,包括以管道(1)依次密封连接并构成水路循环的泳池(2)、太阳能加热器(3)和水泵(5),其特征在于所述的太阳能加热器(3)一侧设有太阳能电池板(4);所述的水泵(5)集成安装在太阳能加热器(3)上,该水泵(5)既与太阳能加热器(3)作水路连通,又与太阳能电池板(4)作电路供电连接。
  2. 根据权利要求1所述的一种用于泳池循环加热的太阳能加热系统,其特征在于所述的太阳能加热器(3)的背面设有支腿(9),该支腿上端铰接安装在太阳能加热器(3)的背面上,支腿(9)下端悬空并长度可调。
  3. 根据权利要求2所述的一种用于泳池循环加热的太阳能加热系统,其特征在于所述的支腿(9)围绕上端的铰接点转动,支腿(9)下端斜支撑在地面上或紧贴在太阳能加热器(3)的背面。
  4. 根据权利要求1所述的一种用于泳池循环加热的太阳能加热系统,其特征在于所述的太阳能加热器(3)的背面设有安装平台,该安装平台上设有连通太阳能加热器(3)的进水接头(36)和出水接头(37),所述的水泵(5)固定安装在安装平台上,且水泵(5)的进水口与进水接头(36)、水泵的出水口与出水接头(37)作对应密封连通。
  5. 根据权利要求4所述的一种用于泳池循环加热的太阳能加热系统,其特征在于所述的安装平台设置在太阳能加热器(3)的背面左上角,在安装平台上还设有压紧固定水泵(5)的底盖(51)。
  6. 根据权利要求1所述的一种用于泳池循环加热的太阳能加热系统,其特征在于所述的太阳能加热器(3)设有至少两个,相邻两个太阳能加热器(3)之间设有互相连通的连接管(6),所述的太阳能电池板(4)安装在该连接管(6)上。
  7. 根据权利要求1所述的一种用于泳池循环加热的太阳能加热系统,其特征在于所述的太阳能电池板(4)上设有电源线插头(7)。
  8. 根据权利要求1所述的一种用于泳池循环加热的太阳能加热系统,其特征在于所述的太阳能加热器(3)为矩形板结构,在矩形板的两侧分别设有进水孔(31)和出水孔(32)。
  9. 根据权利要求8所述的一种用于泳池循环加热的太阳能加热系统,其特征在于所述的矩形板两侧分别设有凹槽(33),所述的进水孔(31)和出水孔(32)内嵌安装在该凹槽(33)内。
  10. 根据权利要求1所述的一种用于泳池循环加热的太阳能加热系统,其特征在于所述的太阳能加热器(3)的背面顶部设有横槽(35)。
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