CN201780213U - Thermal performance detection system of balcony wall-mounted solar water heater - Google Patents

Thermal performance detection system of balcony wall-mounted solar water heater Download PDF

Info

Publication number
CN201780213U
CN201780213U CN2010205084373U CN201020508437U CN201780213U CN 201780213 U CN201780213 U CN 201780213U CN 2010205084373 U CN2010205084373 U CN 2010205084373U CN 201020508437 U CN201020508437 U CN 201020508437U CN 201780213 U CN201780213 U CN 201780213U
Authority
CN
China
Prior art keywords
water
temperature
detection system
solar
detecting device
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.)
Expired - Lifetime
Application number
CN2010205084373U
Other languages
Chinese (zh)
Inventor
马光柏
姜尊勇
苏士民
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shandong Linuo Paradigma Co Ltd
Original Assignee
Shandong Linuo Paradigma Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Shandong Linuo Paradigma Co Ltd filed Critical Shandong Linuo Paradigma Co Ltd
Priority to CN2010205084373U priority Critical patent/CN201780213U/en
Application granted granted Critical
Publication of CN201780213U publication Critical patent/CN201780213U/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Landscapes

  • Heat-Pump Type And Storage Water Heaters (AREA)

Abstract

The utility model discloses a thermal performance detection system of a balcony wall-mounted solar water heater, which includes a configuration pipeline, a temperature detection device, a device for feeding water at a rated temperature, a hot water storage box, a controller, a data acquisition module, a bracket, and the like. According to the technical scheme adopted by the thermal performance detection system, a circulating pipeline is arranged between a water inlet pipe and a water outlet pipe which are connected with a solar water box, water is supplied to the water box at a rated temperature, the tests in methods of water mixing and water discharging are carried out on the supplied water, and the test results are highly-referable; and then the tested hot water is supplied to heat utilization equipment, and both water consumption and detection cost are reduced. Furthermore, the bracket is utilized to simulate the installation state of the solar water heater, so that the objectivity of the thermal performance detection system is high.

Description

Balcony wall-hanging solar water heater thermal behavior detection system
Technical field
The utility model relates to a kind of balcony wall-hanging solar water heater thermal behavior detection system.
Background technology
The solar energy resources of China is very abundant, relies on the complete glass vacuum sun thermal-collecting tube with independent intellectual property right to be able to develop rapidly, and the solar thermal utilization of China is increasingly extensive, has been at present solar water heater producing country and use state the biggest in the world.
The solar water heater of China is used, and is close-coupled domestic solar hot-water heating system more than 70%~80%, promptly is installed in the common direct insertion solar water heater on the roof.This production development the earliest, technology is the most ripe, uses also the most extensive.But, development along with building trade, the skyscraper of various places is more and more, can be fewer and feweri for the roof area that solar water heater is installed, fierceness day by day along with market competition, each big sun power enterprise is all making great efforts the development novel product and existing product is being improved, and the balcony wall-hanging separated solar water heater is exactly one of them.Balcony wall-hanging solar water heater can be installed in the balcony of skyscraper, and heat collector is installed in the wall outside, balcony south, and water tank wall hangs in the balcony, is connected by circulation line, works by the Natural Circulation principle.This product has development very fast nearly one or two years, but that technical merit remains is further ripe perfect, and the specific aim national standard of relevant product is also worked out.
The detection system of common direct insertion solar water heater is comparatively common, domestic manufacturer mainly contains Jinzhou sunlight development in science and technology company limited and the Kunlun, Beijing Science and Technology Ltd. of Huaxing, and national solar water heater quality supervision and test centers (Beijing), country solar water heater quality supervision and test centers (Wuhan), the bright group of emperor and other are engaged in the mechanism that sun power detects etc. all the own regular solar water heater detection system of developing, but the detection of balcony wall-hanging solar water heater does not have special enterprise to research and develop production at present, does not see related data yet and addresses detection system at the balcony wall-hanging solar water heater thermal behavior.
The balcony wall-hanging solar water heater thermal behavior detects the difficulty that is faced and mainly contains water tank fixation problem, the consistency problem with actual operating position, heat collector receiving angle adjusting problem, circulation line installation requirement etc. at present.A kind of technical scheme for reference is embodied in No. 2008102436679 utility application of China, it discloses a kind of automatic constant temperature testing system for solar water heater by water-mixing and water-discharging method, mainly comprise the constant temperature system that satisfies national standard, and recycling water as working medium, adopt mixed water to detect in the experiment in conjunction with the method that draining combines.This system architecture complexity but, link is many, for the constant temperature that guarantees to meet national standard requires the cost paid too big, causes this system to comprise multi-faceted constant temperature configuration.Link too much also causes the heat waste link to increase in addition, and leakage point is also many, safeguards inconvenience.In addition, the water that recycles no doubt can using water wisely, but the degradation of the water after the circulation heating, and than testing result, the cost of water is not very big, if the water after the heating is carried out heat utilization, the good selection of can yet be regarded as.
Summary of the invention
For this reason, the purpose of this utility model is to provide a kind of solar water heater thermal behavior detection system of simulating balcony wall-hanging solar water heater actual installation state, make this system satisfy the detection of drainage and mixed water law simultaneously, be easy to realize the standard control of temperature, the result can be with reference to the property height.
A foundation aspect of the present utility model:
This utility model balcony wall-hanging solar water heater thermal behavior detection system, it comprises:
The configuration pipeline comprises being used to connect the water inlet pipe of solar water container and the circulation line of rising pipe that this circulation line is furnished with solenoid valve and ebullator;
First temperature-detecting device is used to detect the temperature of described water inlet pipe and working medium that rising pipe circulates;
The rated temperature waterworks, comprise be furnished with heating arrangement, the refrigerating plant and second temperature-detecting device and connect the water source the cold water reserve tank, be connected in this cold water reserve tank to the feed pipe of described water inlet pipe, and be installed in feed pump and flow detector on this feedwater piping;
The hot water storage tank, the water pipeline through having solenoid valve is connected in described rising pipe;
Controller is connected with described heating arrangement, refrigerating plant and second temperature-detecting device, makes the temperature of cold water reserve tank in predetermined scope with the state of adjusting heating arrangement and refrigerating plant according to the detected value of second temperature-detecting device; And this controller also is connected with above-mentioned each solenoid valve and ebullator and feed pump, and first temperature-detecting device is to finish water, to mix water and draining control;
Data acquisition module carries out the collection of this detection system place environmental parameter, and the detection data of the detection data of described flow detector and described first temperature-detecting device; And
Support comprises base and be installed in the second perpendicular frame that being used on this base install the first perpendicular frame of solar water heater water tank and be used to install solar thermal collector, and under installment state, the solar water container height is higher than the height of solar thermal collector.
Said detecting system also comprises the water return pipeline that has operation valve that picks out from described circulation line, and this water return pipeline is connected to described cold water reserve tank.
Also be provided with the secondary temperature regulator for described feed pipe, this secondary temperature regulator is positioned at the next stage of described feed pump.
Described data detection module is data collecting instrument independently, and this data collecting instrument is connected with environment temperature sensor, irradiation table and anemoscope obtaining described environmental parameter, and is connected with described first temperature-detecting device and described flow detector.
Said detecting system, the described second perpendicular frame comprises:
Two columns are installed on the described base;
One rotating shaft flatly is supported on described two columns and with column and is rotatably assorted;
One rocker is connected in described rotating shaft and forms the swing pair, and this rocker is as the carrier of solar thermal collector; And
Support bar is based on described base and be supported on the bottom of described rocker, to adjust the angle of rocker and vertical direction.
Said detecting system, the upper end of described column are a U type groove, correspondingly, have the cylinder that cooperates U type trench bottom at described rotating shaft two ends.
The end face of described rotating shaft is provided with the axle collar of diameter greater than U type well width.
Described support bar is an expansion link, and its bottom rotating shaft is installed on the described base.
The bottom of described rocker has the hook portion of support solar heat collector.
The utility model adopts water after the test is deposited in the hot water storage tank, can satisfy daily required, and this processing mode is not only than the using water wisely of directly draining, and than recycling energy efficient, mainly be the also cooling naturally of the water that recycles, perhaps force cooling, increased extra energy consumption.On the other hand, the mode that this programme adopts new water to cover can guarantee requirements in water quality, satisfies the needs of test.
It is to cooperate the mode of heating to be guaranteed by simple relatively refrigeration that this programme provides the cold water temperature that satisfies national standard, compact conformation, certainly, consider pipeline heat waste and preventing freeze in winter, on each pipeline, be wound with electric-heating belt, the outside wraps polyurethane insulation coating again, and outermost layer uses the aluminum-pinch parcel; Water tank also uses polyurethane heat-insulation; Exposed pipe fitting and other easy thermal component use soft insulating rubber plastic to coat insulation, can be referring to the insulation measure shown in the Figure of description 6 to pipeline portions, other parts can be with reference to existing insulation measure, what relate generally to here is the cycle control part, and the insulation measure is no longer too much addressed.
In addition, this programme has adopted the means that are connected circulation line between water inlet pipe and rising pipe, not only can be used for mixing water usefulness, can also external other pipelines, and with expanded application.
Then adopt the mode of two-stage control for temperature, at first, precision in cold water reserve tank control temperature is lower, and the preceding higher two-stage control mode of secondary control accuracy of solar water container is easier to satisfy temperature required control to entering then, is not easy to be subjected to external influence.
Description of drawings
Below in conjunction with Figure of description the technical solution of the utility model is further elaborated, makes those skilled in the art better understand the utility model, wherein:
Fig. 1 is the structure principle chart according to a kind of balcony wall-hanging solar water heater thermal behavior detection system of technical solutions of the utility model.
Fig. 2 is the configuration structure synoptic diagram of solar water container.
Fig. 3 is the structural representation of support.
Fig. 4 is the fit structure synoptic diagram of column and rotating shaft.
Fig. 5 is the structural representation of support bar.
Fig. 6 is a pipeline anti-freezing and heat-insulating synoptic diagram.
Among the figure: 1, solar water container, 2, the heat utilization pipe, 3, the hot water storage tank, 4, solar thermal collector, 5, support, 6, feed pipe, 7, flowmeter, 8, the secondary temperature regulator, 9, feed pump, 10, electric heater, 11, the cold water temperature sensor, 12, the cold water reserve tank, 13, refrigeration unit, 14, data collecting instrument, 15, the ring temperature sensor, 16, the irradiation table, 17, anemoscope, 18, controller, 19, rising pipe, 20, bypass, 21, second temperature sensor, 22, first solenoid valve, 23, second solenoid valve, 24, the flow pipe road, 25, ebullator, 26, the 3rd solenoid valve, 27, water return pipeline, 28, the 4th solenoid valve, 29, ball valve, 30, circulation line, 31, first temperature sensor, 32, water inlet pipe, 33, pipe, 34, column, 35, the groove frame, 36, support bar, 37, hook portion, 38, pin, 39, stull, 40, base, 41, montant, 42, the water tank hook, 43, cross bar, 44, web joint, 45, U type groove, 46, the axle collar, 47, bearing pin, 48, fixed screw, 49, telescopic rod, 50, female screw hole, 51, the aluminum-pinch shell, 52, polyurethane, 53, electric-heating belt, 54, pipeline.
Embodiment
Balcony wall-hanging solar water heater thermal behavior detection system with reference to shown in the Figure of description 1 to 3 comprises:
The configuration pipeline comprises being used to connect the water inlet pipe 32 of solar water container 1 and the circulation line 30 of rising pipe 19 that this circulation line is furnished with solenoid valve and ebullator 25;
First temperature-detecting device is used to detect the temperature of described water inlet pipe and working medium that rising pipe circulates;
The rated temperature waterworks, comprise be furnished with heating arrangement, the refrigerating plant and second temperature-detecting device and connect the water source cold water reserve tank 12, be connected in this cold water reserve tank to the feed pipe 6 of described water inlet pipe, and be installed in feed pump 9 and flow detector on this feedwater piping;
The hot water storage tank 3, and the water pipeline through having solenoid valve is connected in described rising pipe;
Controller 18 is connected with described heating arrangement, refrigerating plant and second temperature-detecting device, makes the temperature of cold water reserve tank in predetermined scope with the state of adjusting heating arrangement and refrigerating plant according to the detected value of second temperature-detecting device; And this controller also is connected with above-mentioned each solenoid valve and ebullator and feed pump, and first temperature-detecting device is to finish water, to mix water and draining control;
Data acquisition module carries out the collection of this detection system place environmental parameter, and the detection data of the detection data of described flow detector and described first temperature-detecting device; And
Support 5 comprises base 40 and be installed in the second perpendicular frame that being used on this base install the first perpendicular frame of solar water container and be used to install solar thermal collector, and under installment state, the solar water container height is higher than the height of solar thermal collector.
Can adopt an independent collecting device that is provided with for data acquisition module, such as data collecting instrument 14 independently, this data collecting instrument is connected with ring temperature sensor 15, irradiation table 16 and anemoscope 17 to obtain described environmental parameter, and be connected with described first temperature-detecting device and described flow detector, the gained data can be handled according to the program that presets, also can store these data, in order to analytical calculation.Data acquisition module can also be integrated in described controller, perhaps makes up an intelligence system with described controller, such as directly using multi-purpose computer, disposes some fasteners and acquisition terminal again.
About the rated temperature waterworks, mainly be the water of sending in the certain temperature range, by the double action of refrigerating plant and heating arrangement, be easy to regulate.Heating can be adopted conventional well heater, such as electric heater 10, or even hot water boiler system, also can external heat exchanger, certainly, the easier control of electric heater unit and heat exchanger.Preferably adopt refrigeration unit 13 as for refrigerating plant, easily control also can spare interface, external refrigeration system or heat-exchange apparatus.
This programme tends to the working medium after the experiment is delivered to hot water storage tank shown in Figure 1, is convenient to heat utilization, such as domestic water.Certainly, still can recycle working medium in some cases, therefore, native system also comprises the water return pipeline that has operation valve 27 that picks out from described circulation line, and this water return pipeline is connected to described cold water reserve tank, use and then open said operation valve, inapplicablely then closing, is not primary selection, in some cases can be preferably it, low excessively such as cold water reserve tank temperature, can adopt the higher backwater of temperature to be heated.In addition, hot water can be connected and fixed uses drainage facility, also can reserve the heat utilization pipe shown in Fig. 1 low order end, is convenient to connect outside heat utilization equipment or living facilities.
The device that cold water reserve tank shown in Fig. 1 and the adjustment of attaching troops to a unit are used can be defined as the one-level temperature control equipment, adjust the cold water of certain temperature range herein, can directly use to solar water container, but in order to ensure to the stability of coolant-temperature gage, described feed pipe 6 also is provided with the secondary temperature regulator, this secondary temperature regulator is positioned at the next stage of described feed pump, is easy to control feed temperature through multistage adjusting.Certainly, can also can use existing ripe temperature control equipment with reference to the thermostatic configuration mode of the said first order about the secondary temperature regulator.
Require not to be very high in principle for support, as long as it is just passable to satisfy the actual user mode of simulation, based on this design, those skilled in the art can select to have the structure of two perpendicular framves, as for saying base, as long as it is just enough to satisfy stability.As if only certainly, need a support also can meet the demands, but will attach troops to a unit a large amount of pipelines and detect components and parts of solar water container in this programme, walk pipe and will occupy bigger space usually, and also need bigger operating space, therefore, the structure of this programme more helps actual operation.Preferably, with reference to Figure of description 3, the described second perpendicular frame comprises:
Two columns 34 are installed on the described base;
One rotating shaft flatly is supported on described two columns and with column and is rotatably assorted;
One rocker is connected in described rotating shaft and forms the swing pair, and this rocker is as the carrier of solar thermal collector; And
Support bar 36 is based on described base and be supported on the bottom of described rocker, to adjust the angle of rocker and vertical direction.
Adopt the second perpendicular frame of said structure to have the adjusting function that connects, the position of being convenient to solar thermal collector is adjusted and is installed.
About the fit system of described column and rotating shaft, can adopt common axis hole fit system, this structure is more common in machinery, does not repeat them here.Can directly select cylindrical section bar for use for said rotating shaft, self forms a pipe 33 as shown in Figure 3, is convenient to the configuration of mounting structure, also can select other profile structure for use, at two ends configuration spindle nose.
Preferably, the upper end of described column is a U type groove 45, correspondingly, has the cylinder that cooperates U type trench bottom at described rotating shaft two ends, is convenient to install and debugging, and structure is also very simple, low cost of manufacture.
Further, the end face of described rotating shaft is provided with the axle collar 46 of diameter greater than U type well width, in use can form the spacing of suggestion, and is simple in structure, is easy to processing.
Because what this programme adopted is the mounting structure of analog solar heat collector, and the mounting structure of solar thermal collector is normally fixed, therefore, said support bar can adopt the support bar of fixed sturcture, as long as it is not make described rocker be in suitable angle, strict to the structural requirement of support bar.Certainly, detection system has its purposes, and such as measuring the solar collecting performance of solar thermal collector under different angle of incidence of sunlight degree, so preferably, as shown in Figure 5, described support bar is an expansion link, and its bottom rotating shaft is installed on the described base.Expansion link has various ways, and for the ease of using, adopting the air spring of using on the swivel chair also is a kind of good selection, easy structure then is to adopt screw thread pair, simpler then can the employing fixedly fastened one group of threaded hole of cooperation, after telescopic rod 50 leans out certain-length, locks its position.
For the ease of installing, the bottom of described rocker has the hook portion 37 of support solar heat collector.
The detection method of the above-mentioned balcony wall-hanging solar water heater thermal behavior of a foundation detection system, it may further comprise the steps:
A) the installment state structure according to solar water heater to be detected is installed on solar thermal collector 4 and solar water container 1 on the support 5, and connect described detection system, and then carry out watertightness test, then do not detect until meeting the demands if do not meet the demands, if meet the demands, then enter next step;
B) adjust water temperature to 20 ± 1 ℃ in the cold water reserve tank 12, must test and use cold water;
C) start feed pump 9 described experiment is sent into described solar water container 1 until reaching the specified water yield with cold water, and guarantee to enter the water temperature of solar water container at 20 ± 0.2 ℃;
System for adopting the two-stage temperature adjustment device can adjust water temperature in the second level and reach desired 20 ± 0.2 ℃ of standard, and is more effective than single, also more helps follow-up processing.
D) mix water: close feed pipe 6 and the pipeline that is connected to hot water storage tank 3, start ebullator 25 and obtain the temperature value that first temperature-detecting device detects, when if detected temperatures changed less than 0.2 ℃ in continuous 5 minutes, stop to mix water, and write down the water temperature value in the current solar water container;
E) thermal-arrest: close rising pipe 19 and water inlet pipe 32, make balcony wall-hanging solar water heater thermal-arrest preset time to be detected;
F) draining: close circulation line, and open rising pipe and water inlet pipe, and the pipeline that is connected to the hot water storage tank; Starting feed pump then feeds water in solar water container, so that heated hot water is discharged, the temperature T 1 of a water inlet pipe of the every 5s clock of data acquisition module record and the temperature T 2 of rising pipe, and confluent finish draining during less than 0.2 ℃ until the continuous 5 minutes temperature variation of T2;
G) the gained data storage is prepared against calculating.
Simple from realizing angle, to the foregoing description of the detection system shown in this programme,, be easy to just can realize said method in conjunction with prior art.

Claims (9)

1. balcony wall-hanging solar water heater thermal behavior detection system is characterized in that it comprises:
The configuration pipeline comprises the water inlet pipe (32) that is used to connect solar water container (1) and the circulation line (30) of rising pipe (19), and this circulation line is furnished with solenoid valve and ebullator (25);
First temperature-detecting device is used to detect the temperature of described water inlet pipe and working medium that rising pipe circulates;
The rated temperature waterworks, comprise be furnished with heating arrangement, the refrigerating plant and second temperature-detecting device and connect the water source cold water reserve tank (12), be connected in this cold water reserve tank to the feed pipe (6) of described water inlet pipe, and be installed in feed pump (9) and flow detector on this feedwater piping;
Hot water storage tank (3), the water pipeline through having solenoid valve is connected in described rising pipe;
Controller (18) is connected with described heating arrangement, refrigerating plant and second temperature-detecting device, makes the temperature of cold water reserve tank in predetermined scope with the state of adjusting heating arrangement and refrigerating plant according to the detected value of second temperature-detecting device; And this controller also is connected with above-mentioned each solenoid valve and ebullator and feed pump, and first temperature-detecting device is to finish water, to mix water and draining control;
Data acquisition module carries out the collection of this detection system place environmental parameter, and the detection data of the detection data of described flow detector and described first temperature-detecting device; And
Support (5) comprises base (40) and be installed in the second perpendicular frame that being used on this base install the first perpendicular frame of solar water container and be used to install solar thermal collector, and under installment state, the solar water container height is higher than the height of solar thermal collector.
2. detection system according to claim 1 is characterized in that: also comprise the water return pipeline that has operation valve (27) that picks out from described circulation line, this water return pipeline is connected to described cold water reserve tank.
3. detection system according to claim 1 is characterized in that: described feed pipe (6) also is provided with the secondary temperature regulator, and this secondary temperature regulator is positioned at the next stage of described feed pump.
4. detection system according to claim 1, it is characterized in that: described data detection module is data collecting instrument (14) independently, this data collecting instrument is connected with environment temperature sensor (15), irradiation table (16) and anemoscope (17) obtaining described environmental parameter, and is connected with described first temperature-detecting device and described flow detector.
5. according to the arbitrary described detection system of claim 1 to 4, it is characterized in that: the described second perpendicular frame comprises:
Two columns (34) are installed on the described base;
One rotating shaft flatly is supported on described two columns and with column and is rotatably assorted;
One rocker is connected in described rotating shaft and forms the swing pair, and this rocker is as the carrier of solar thermal collector; And
Support bar (36) is based on described base and be supported on the bottom of described rocker, to adjust the angle of rocker and vertical direction.
6. detection system according to claim 5 is characterized in that: the upper end of described column is a U type groove (45), correspondingly, has the cylinder that cooperates U type trench bottom at described rotating shaft two ends.
7. detection system according to claim 6 is characterized in that: the end face of described rotating shaft is provided with the axle collar (46) of diameter greater than U type well width.
8. detection system according to claim 5 is characterized in that: described support bar is an expansion link, and its bottom rotating shaft is installed on the described base.
9. detection system according to claim 5 is characterized in that: the bottom of described rocker has the hook portion (37) of support solar heat collector.
CN2010205084373U 2010-08-30 2010-08-30 Thermal performance detection system of balcony wall-mounted solar water heater Expired - Lifetime CN201780213U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010205084373U CN201780213U (en) 2010-08-30 2010-08-30 Thermal performance detection system of balcony wall-mounted solar water heater

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010205084373U CN201780213U (en) 2010-08-30 2010-08-30 Thermal performance detection system of balcony wall-mounted solar water heater

Publications (1)

Publication Number Publication Date
CN201780213U true CN201780213U (en) 2011-03-30

Family

ID=43793424

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2010205084373U Expired - Lifetime CN201780213U (en) 2010-08-30 2010-08-30 Thermal performance detection system of balcony wall-mounted solar water heater

Country Status (1)

Country Link
CN (1) CN201780213U (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101975671A (en) * 2010-08-30 2011-02-16 山东力诺瑞特新能源有限公司 Thermal performance detection system and method for balcony wall-mounted solar water heater
CN103033390A (en) * 2013-01-04 2013-04-10 朱汉武 Device for testing negative pressure shock resistance and pulse pressure resistance of water heater
CN103308331A (en) * 2012-03-16 2013-09-18 桑小飞 Pressure testing system for instant water heater
CN103519931A (en) * 2013-10-30 2014-01-22 安徽英特电子有限公司 Automatic water inflowing and draining structure of water bath
CN104460373A (en) * 2014-11-17 2015-03-25 成都前锋电子有限责任公司 Gas instantaneous water heater parameter debugging system
CN107314862A (en) * 2017-08-09 2017-11-03 中国建筑科学研究院 Solar energy collection product rain sealing performance detection system

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101975671A (en) * 2010-08-30 2011-02-16 山东力诺瑞特新能源有限公司 Thermal performance detection system and method for balcony wall-mounted solar water heater
CN101975671B (en) * 2010-08-30 2012-06-06 山东力诺瑞特新能源有限公司 Thermal performance detection system and method for balcony wall-mounted solar water heater
CN103308331A (en) * 2012-03-16 2013-09-18 桑小飞 Pressure testing system for instant water heater
CN103308331B (en) * 2012-03-16 2016-06-15 桑小飞 A kind of immediately heating water heater pressure testing system
CN103033390A (en) * 2013-01-04 2013-04-10 朱汉武 Device for testing negative pressure shock resistance and pulse pressure resistance of water heater
CN103033390B (en) * 2013-01-04 2015-03-18 朱汉武 Device for testing negative pressure shock resistance and pulse pressure resistance of water heater
CN103519931A (en) * 2013-10-30 2014-01-22 安徽英特电子有限公司 Automatic water inflowing and draining structure of water bath
CN103519931B (en) * 2013-10-30 2015-03-11 安徽英特电子有限公司 Automatic water inflowing and draining structure of water bath
CN104460373A (en) * 2014-11-17 2015-03-25 成都前锋电子有限责任公司 Gas instantaneous water heater parameter debugging system
CN104460373B (en) * 2014-11-17 2017-02-22 成都前锋电子有限责任公司 Gas instantaneous water heater parameter debugging system
CN107314862A (en) * 2017-08-09 2017-11-03 中国建筑科学研究院 Solar energy collection product rain sealing performance detection system

Similar Documents

Publication Publication Date Title
CN101975671B (en) Thermal performance detection system and method for balcony wall-mounted solar water heater
CN201780213U (en) Thermal performance detection system of balcony wall-mounted solar water heater
Dannemand et al. Performance of a demonstration solar PVT assisted heat pump system with cold buffer storage and domestic hot water storage tanks
Li et al. Study on performance of solar assisted air source heat pump systems for hot water production in Hong Kong
Weber et al. Solar cooling with water–ammonia absorption chillers and concentrating solar collector–Operational experience
Zhang et al. Experimental and analytic study of a hybrid solar/biomass rural heating system
CN203586373U (en) Solar centralized water heating system
CN105402940A (en) Modularized integrated control pipeline solar ground-source heat pump system
CN104832976A (en) Climate compensation apparatus for temperature control valve of heat exchange station
CN100582587C (en) Separate solar architecture integral hot water supply system
CN103900247A (en) Instant water heater
CN104832973A (en) Active type solar energy and CO2 air heat source pump combined heating control system and control method thereof
CN104879953B (en) Light energy, wind energy and geothermal energy comprehensive utilization device
Wang et al. Energy saving and economic analysis of a novel PV/T coupled multi-source heat pump heating system with phase change storage: A case study in cold zone in China
CN103900248A (en) Instant water heater
CN108522097A (en) A kind of greenhouse collection heat release intelligent controlling device and efficient control method
CN203052984U (en) Instant-heat type water heater
CN201382506Y (en) Central air-conditioning system
CN106016784A (en) Micropower solar water heating system
CN205332605U (en) Modularization integrated control pipeline solar energy ground source heat pump system
CN203052986U (en) Instantaneous water heater
Zhou et al. Performance Analysis of a Collective Solar Domestic Water-Heating System in the Temperate Zone of Yunnan Province, China.
CN207585136U (en) A kind of new type solar energy heating/refrigeration system
Gooroochurn et al. Maximization of solar hot water production using a secondary storage tank
CN104848585A (en) Complementary optical energy, wind energy and geothermal energy heat pump system

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20110330

Effective date of abandoning: 20120606