CN104316563B - Building heat preservation photovoltaic component combustibility test device and method of testing - Google Patents

Abstract

Building heat preservation photovoltaic component combustibility test device and method of testing that the present invention is provided, device includes test platform, analog light source, circuit is controlled, combustion system, temperature monitoring and heat release test system, platform is provided with two pieces of building heat preservation photovoltaic components vertically placed, connect with being mutually perpendicular, analog light source provides light source for which, combustion system provides burning things which may cause a fire disaster for which, circuit control system controls its photovoltaic battery panel and works and electric energy output, temperature control system obtains the temperature rise electric signal of point for measuring temperature, and the signal is converted and temperature variation curve is recorded, heat release test system carries out the analysis of component gas and calculates heat emission characteistics parameter to the flue gas that component burning is produced.The present invention is tested to the photovoltaic component combustibility under normal operating conditions, the true combustion process under its working condition is reacted, result of the test has directive significance to material combustion characteristic, the research of outer heat preservation system structure and technique and building total fire safety evaluation.

Description

Building heat preservation photovoltaic component combustibility test device and method of testing

Technical field

The invention belongs to the technical field of performance test of building heat preservation photovoltaic material, more particularly to a kind of building heat preservation photovoltaic Component combustibility test device and method of testing.

Background technology

Building exterior wall heat preserving is the important way that current building field realizes energy-saving and emission-reduction, and conventional form of construction work is building External Thermal Insulation Technology for External.External wall outer insulation is referred in modes such as bonding, anchorings in facade according to suitable process Apply insulation material, the purpose of energy-conservation is realized so as to reduce Discussion on architecture heat exchange action.Conventional building thermal insulation material includes Organic and inorganic and compounding insulating material, the insulation material of different attribute is in terms of energy-saving effect, construction technology, security performance It is different.In recent years, as the Fire Accidents for Buildings that insulation material causes is brought greatly to people life property safety Harm, this causes the whole society day by day to improve the attention degree of the fire safety of architectural exterior insulation system.Build at present Research in terms of vertical external wall outer insulation engineering fire safety launches from material and entity two kinds of approach of fire, for insulation The combustibility test result that material is carried out, such as HRR, total heat release etc., can be according to the evaluation of GB8624-2012 System is classified exactly to material, and the burning of entity fire then lays particular emphasis on the anti-to fire of performance real building outer heat preservation system Answer characteristic.

Building photovoltaic generating system is, with external surface of buildings to rely on, to be converted solar energy into electrical energy using photovoltaic module A kind of building external structure, and building heat preservation photovoltaic component has then merged insulation on the basis of photovoltaic generating system and has made With, it is a kind of new energy-conservation peripheral structure, its feature is the dual-use function for combining insulation material and photovoltaic module, real Showed a kind of novel building energy acquisition modes, building external envelope structure has been made outside energy-saving and emission-reduction function is undertaken, moreover it is possible to become The conversion carrier of green novel energy source, promotes further transformation of the environment protection architecture system from passive energy-conservation to active generating mode.Allusion quotation The structure of type building heat preservation photovoltaic component product is as illustrated shown in Fig. 2.

The working method of building heat preservation photovoltaic component product is different from common building insulation material, this is because, it is incubated light While component product is lied prostrate in insulation material realization prevention by its inside or building internal-external heat exchange effect is reduced, photovoltaic System can also realize the band under the presence and normality of sun transformation of energy, photovoltaic battery panel and its internal control circuit for building Electrician's operation mode is clearly distinguishable from common simple heat preservation plate material.Combustion process is the complicated course of reaction of a class, and result of the test can Be able to can be affected by factors such as sample working condition, fire exposure or characteristics, therefore for construction material class product fires The design aim for burning performance test should embody the final application mode and working condition of sample as far as possible, react which as far as possible most True combustion process under whole application state, the result of the test for only in this way obtaining for the true combustion characteristics of material reaction, The outer heat preservation system structure Evaluation of Fire Protection overall with the research of technique and building just has directive significance.

Building heat preservation photovoltaic component product belongs to tabular building external envelope structure, currently for tabular construction material flammability The test method of energy characteristic carries out monomer combustion performance test according to GB/T20284-2006, and the specimen method is according to board-like material Vertically-mounted mode in building is devised in the long short limb of orthogonal two pieces of samples in its intersection bottom triangle point Burning things which may cause a fire disaster ignites the combustion characteristic research method under mode, and can consider that combination of sample fire surface and base material etc. can simultaneously The test unique application feature of result of the test can be affected.But for building heat preservation photovoltaic component product, party's rule fails The characteristics of reaction photovoltaic system normality lower band electrician's operation mode, and during practical application, the photovoltaic heat preservation structural component under working condition is received To after the bombardment of outside burning things which may cause a fire disaster melt circuit lead insulation sheath because of the high temperature store being internally formed, cause circuit isolation Lose, the phenomenon that is short-circuited simultaneously forms localized hyperthermia, that may cause component inside insulation material has flame or a flameless combustion, and Thus produce certain fire risk.Therefore existing sample testing method is for the combustibility of building heat preservation photovoltaic component product Evaluate with obvious limitation.

The content of the invention

The problem to be solved in the present invention is to provide a kind of building heat preservation photovoltaic component that can be tested under normal operating conditions The device and method of testing of combustibility.

To solve the above problems, the technical solution used in the present invention：A kind of building heat preservation photovoltaic component combustibility test Device, including test platform, analog light source system, circuit control system, combustion system, temperature monitoring system and heat release test System, the test platform are provided with two pieces of building heat preservation photovoltaic components vertically placed, and two building heat preservation photovoltaic component phases Mutually it is vertically connected to together, the analog light source system provides light source, the burning system for the building heat preservation photovoltaic component Uniting and burning things which may cause a fire disaster is provided for the building heat preservation photovoltaic component, the circuit control system controls the light of the building heat preservation photovoltaic component The work of volt cell panel and electric energy output, the temperature monitoring system obtain the temperature rise electric signal of point for measuring temperature, and to the temperature rise telecommunications Number converted so as to record temperature variation curve, the heat release test system is to fume pipe above building heat preservation photovoltaic component The flue gas that road collection system is collected carries out the analysis of the various component gas of GB/T20284-2006 regulations and calculates heat release spy Property parameter.

The analog light source system includes simulating sun light source, slip elevating lever and pressure regulator, the simulating sun light source height Adjustable ground on the slip elevating lever, build on the test platform fixed or movablely by the slip elevating lever The position that photovoltaic battery panel working condition is met in front of heat insulating photovoltaic component is built, the pressure regulator adjusts the light of simulating sun light source According to intensity.

The circuit control system includes control circuit, battery, output voltage monitoring unit and load, control circuit control Photovoltaic battery panel work and electric energy output in producing building heat insulating photovoltaic component, output voltage monitoring unit show photovoltaic battery panel Output voltage, battery is used to store the output electric energy of photovoltaic battery panel, loads for characterizing the electricity of internal storage battery storage Energy.

The combustion system includes burner and associated ping, and the burner passes through the associated ping and gas supply Device connects.

The temperature monitoring system includes thermocouple, secondary meter and moisture recorder, and thermocouple is used to obtain point for measuring temperature Temperature rise electric signal, secondary meter are used for the conversion of electric signal, and moisture recorder is used to record temperature variation curve.

The method tested using above-mentioned building heat preservation photovoltaic component combustibility test device, including following step Suddenly：

The first step：Two pieces of building heat preservation photovoltaic components are positioned on test platform by test request；

Second step：Debugging is operated to photovoltaic battery panel, confirms that photovoltaic battery panel is in normal operating conditions；

3rd step：Easily send out relative with organic insulation material around short position and control circuit inside sample control circuit Being close to may be because some points for measuring temperature that high temperature occurs combustion case lays thermocouple, and thermocouple output electric signal Jing secondary meters turn Changing rear input temp recorder is used for the record of temperature rise curve；The acquisition and recording of 1 minute temperature signal is first carried out before test, is confirmed Temperature monitoring system is working properly；

4th step：The height of adjustment analog light source simultaneously starts pressure regulator point bright light source, makes building heat preservation photovoltaic component work Under a certain solar energy translative mode；Burning things which may cause a fire disaster is lighted, starts flue collection system and heat release test system according to GB/ T20284-2006 regulations carry out combustibility test, and the heat obtained under building heat preservation photovoltaic component product normal mode of operation is released Characterisitic parameter is put, while temperature rise situation within and around temperature monitoring system record control circuit.

The second step is comprised the following steps that：Used as fire surface, two pieces of sample positions are closed sample photovoltaic battery panel one side System is in be mutually perpendicular to；Height position of the simulating sun light source on slip elevating lever is adjusted according to the incident angle of light of required simulation Putting, the pressure regulator of analog light source system being adjusted according to the intensity of illumination for intending simulation, the output of pressure regulator is used as simulating sun light source Power input so that the illumination of light source can be stablized under required intensity；Electric light is selected as building heat preservation photovoltaic component Solar energy converts the load of electric energy, and cell panel control circuit output end is first connected with battery charging terminal, and storage battery power supply is defeated Go out terminal and connect electric light, and electric light is positioned over into the sample back side, load electric light is prevented from being irradiated to cell panel working face；

Start pressure regulator, make simulating sun light source normal work, check output voltage monitoring and load the luminous situation of electric light, really Recognize photovoltaic battery panel to be under normal luminous energy transformation mode；Pressure regulator output voltage is raised and lowered, light-source brightness is adjusted, is checked Output voltage monitoring displays whether to increase with light-source brightness and improve or the reduction with light-source brightness reduction.

The present invention has the advantages and positive effects that：The present invention can be to the building heat preservation photovoltaic under normal operating conditions The combustibility of component is tested, and reacts the true combustion process under its final application state, the test knot of acquisition as far as possible Fruit is for reaction, the research of outer heat preservation system structure and technique and the security against fire of building entirety of the true combustion characteristics of material Evaluate with directive significance；The slip lifting of light source or being slidably connected for bottom, the regulation that can meet different angular illuminations will Ask, the setting of pressure regulator can meet the requirement of varying strength light source；Circuit control system makes photovoltaic component be in normal work State；Combustion system provides burning things which may cause a fire disaster for test system；Temperature monitoring system easily sends out short circuit to sample inside or burning position is provided Temperature monitoring, heat release test system are analyzed display to burning performance parameter；This method of testing simple structure, it is easily real It is existing, meet the relevant regulations of GB, it is important to be able to the combustibility under true reflection material working condition, to external thermal insulation system The overall Evaluation of Fire Protection of the structure of system, technique and building has directive significance.

Description of the drawings

Fig. 1 is schematic structural view of the invention；

Fig. 2 is the structural representation of building heat preservation photovoltaic component；

Fig. 3 is 1 sample HRR of test；

Fig. 4 is 2 sample HRRs of test；

Fig. 5 is 3 sample HRRs of test；

Fig. 6 is the total thermal discharge of 1 sample of test；

Fig. 7 is the total thermal discharge of 2 samples of test；

Fig. 8 is the total thermal discharge of 3 samples of test；

Fig. 9 is 1 internal temperature rise of test；

Figure 10 is 2 internal temperature rises of test；

Figure 11 is 3 internal temperature rises of test；

In figure：The first inorganic plates of 1-, 2- metal sealed edges, 3- polyurethane foaming layers, 4-the second inorganic plates, 5- aluminium honeycombs Plate, 6. safety glass composite photo voltaic battery layers.

Specific embodiment

The explanation that now 1-11 carries out in greater detail to the present invention with reference to the accompanying drawings：

A kind of building heat preservation photovoltaic component combustibility test device, including test platform, analog light source system, circuit control System processed, combustion system, temperature monitoring system and heat release test system, the test platform are provided with two pieces of vertical placements Building heat preservation photovoltaic component, and two building heat preservation photovoltaic components are linked together mutual vertically, the analog light source system is The building heat preservation photovoltaic component provides light source, and the combustion system provides burning things which may cause a fire disaster for the building heat preservation photovoltaic component, described Circuit control system controls the photovoltaic battery panel work and electric energy output of the building heat preservation photovoltaic component, the temperature monitoring system System obtains the temperature rise electric signal of point for measuring temperature, and the temperature rise electric signal is converted so as to record temperature variation curve, the heat Release test system carries out GB/T20284- to the flue gas that flue collection system above two building heat preservation photovoltaic components is collected The analysis of the various component gas of 2006 regulations simultaneously calculates heat emission characteistics parameter.

The analog light source system includes simulating sun light source, slip elevating lever and pressure regulator, and the simulating sun light source is adjustable Save land on the slip elevating lever, located at the test platform on protect fixed or movablely by building for the slip elevating lever The position of photovoltaic battery panel working condition is met in front of warm photovoltaic component, the illumination that the pressure regulator adjusts simulating sun light source is strong Degree.

The circuit control system includes control circuit, battery, output voltage monitoring unit and load, control circuit control Photovoltaic battery panel work and electric energy output in producing building heat insulating photovoltaic component, output voltage monitoring unit show photovoltaic battery panel Output voltage, battery is used to store the output electric energy of photovoltaic battery panel, loads for characterizing the electricity of internal storage battery storage Energy.

The combustion system includes burner and associated ping, and the burner passes through the associated ping and gas supply Device connects.

The temperature monitoring system includes thermocouple, secondary meter and moisture recorder, and thermocouple is used to obtain point for measuring temperature Temperature rise electric signal, secondary meter are used for the conversion of electric signal, and moisture recorder is used to record temperature variation curve.

The building heat preservation photovoltaic component the first inorganic plate 1, polyurethane foaming layer that order is arranged successively from inside to outside 3rd, the second inorganic board 4, aluminum honeycomb panel 5 and safety glass composite photo voltaic battery layers 6, are formed around metal sealed edges after each flaggy is compound 2。

Binding tests device is illustrated to the course of work of this method.The present embodiment adopts length for the DN15 of 1500mm Used as slip elevating lever, slip elevating lever is vertically fixed in test plane, away from the long wing 500mm of sample, away from sample coating steel pipe Short limb 700mm, simulating sun light source are fixed on slip elevating lever by clip, and light source height can be realized in the position of mobile clip Adjust.

Simulating sun light source adopts square lamp box, internal to install 5 Ou Silang 6W LED ball shape bulbs, colour temperature 6500K.Pressure regulation Device input is AC220V, is output as 0～AC220V and continuously adjusts, and adjusts pressure regulator voltage output and is capable of achieving light-source brightness regulation.

Point for measuring temperature is attached on point for measuring temperature using RTD, is integrated using eight passage recording instrument without paper of MIK-7000A and is realized The function that temperature rise electric signal is changed and recorded.

Output voltage monitoring is same to be shown using eight passage recording instrument without paper of MIK-7000A and recording voltage level, load Using DC12V/9W LED/light sources.

Flue collection system controls flue gas flow about 1.5m using axial flow blower³/ s, heat release test system is English Fume component analysis and computing unit in state's FTT companies SBI monomer combustion experimental rigs, wherein fume component analysis are Shi Fumei Sermex4100 series fume component analysis instrument.

Test building heat preservation photovoltaic component is domestic certain Products, and primary structure is as shown in figure 1, sample thickness 40mm。

Process of the test is as follows：

(1) sample is installed by Fig. 1, sample photovoltaic battery panel one side is used as fire surface.

(2) position of the analog light source lamp box on slip elevating lever is adjusted, makes light source height distance test platform 750mm.

(3) voltage-stablizer voltage output is adjusted to AC180V, with the light at the vertical intersection middle position of two pieces of samples of photometric determination It is 650lux according to intensity.

(4) after light-source brightness is continual and steady, check that the voltage of eight passage recording instrument without paper of MIK-7000A shows, records Situation is lighted with load DC12V/9W LED/light sources.

(5), after above-mentioned steps are normally completed, flue collection system, heat release test device and temperature monitoring system are started System, first collection are lighted burning things which may cause a fire disaster for 1 minute and formally start combustion test after base-line data.

(6) HRR, total heat release and the Liang Tai of heat release test device output are persistently recorded in process of the test The point for measuring temperature temperature and control circuit output voltage of MIK-7000A recording instrument without paper record, and load DC12V/9W LED lights The bright situation of source point.

(7), after the completion of testing, simulating sun luminous source lamp box height or light-source brightness, repeat step can be adjusted according to test plan (2)～(6), you can obtain the building heat preservation photovoltaic component product combustion behavior data under different working modes.

Test data sheet such as following table

Three test building heat preservation photovoltaic component product HRRs and total heat release curve are (in HRR figure Abscissa is test period, unit s, and ordinate is HRR, unit kW；In total heat release figure, abscissa is for during test Between, unit s, ordinate is total heat release, unit MJ；In temperature rise curve figure abscissa be test period, unit s, ordinate For temperature, unit DEG C) as shown in Fig. 3-11.

Above embodiments of the invention are described in detail, but the content have been only presently preferred embodiments of the present invention, It is not to be regarded as limiting practical range of the invention.All impartial changes made according to the scope of the invention and improvement etc., all should Still belong within this patent covering scope.

Claims (7)

1. a kind of building heat preservation photovoltaic component combustibility test device, it is characterised in that：Including test platform, analog light source system System, circuit control system, combustion system, temperature monitoring system and heat release test system, the test platform are provided with two pieces The vertically building heat preservation photovoltaic component of placement, and two building heat preservation photovoltaic components is linked together mutual vertically, the simulation Light-source system provides light source for the building heat preservation photovoltaic component, and the combustion system is provided for the building heat preservation photovoltaic component Burning things which may cause a fire disaster, the circuit control system control the photovoltaic battery panel work and electric energy output of the building heat preservation photovoltaic component, described Temperature monitoring system obtains the temperature rise electric signal of point for measuring temperature, and the temperature rise electric signal is converted bent so as to record temperature change Line, the heat release test system are carried out to the flue gas that flue collection system above two building heat preservation photovoltaic components is collected The analysis of the various component gas of GB/T20284-2006 regulations simultaneously calculates heat emission characteistics parameter.

2. building heat preservation photovoltaic component combustibility test device according to claim 1, it is characterised in that：The simulation Light-source system includes simulating sun light source, slip elevating lever and pressure regulator, and the simulating sun light source height adjustable saves land located at described On slip elevating lever, the slip elevating lever is fixed or movablely located at building heat preservation photovoltaic component on the test platform Front meets the position of photovoltaic battery panel working condition, and the pressure regulator adjusts the intensity of illumination of simulating sun light source.

3. building heat preservation photovoltaic component combustibility test device according to claim 1, it is characterised in that：The circuit Control system includes control circuit, battery, output voltage monitoring unit and load, control circuit control building heat preservation photovoltaic structure Photovoltaic battery panel work and electric energy output in part, output voltage monitoring unit show the output voltage of photovoltaic battery panel, electric power storage Pond is used for the output electric energy for storing photovoltaic battery panel, loads for characterizing the electric energy that internal storage battery is stored.

4. building heat preservation photovoltaic component combustibility test device according to claim 1, it is characterised in that：The burning System includes burner and associated ping, and the burner is connected with fuel gas supply equipment by the associated ping.

5. building heat preservation photovoltaic component combustibility test device according to claim 1, it is characterised in that：The temperature Monitoring system includes thermocouple, secondary meter and moisture recorder, and thermocouple is used to obtain point for measuring temperature temperature rise electric signal, secondary instrument Table is used for the conversion of electric signal, and moisture recorder is used to record temperature variation curve.

6. the side for being tested using the building heat preservation photovoltaic component combustibility test device described in any one of claim 1-5 Method, it is characterised in that：Comprise the steps：

The first step：Two pieces of building heat preservation photovoltaic components are positioned on test platform by test request；

Second step：Debugging is operated to photovoltaic battery panel, confirms that photovoltaic battery panel is in normal operating conditions；

3rd step：Easily send out around short position and control circuit inside sample control circuit and be relatively close to organic insulation material Thermocouple may be laid because of some points for measuring temperature that high temperature occurs combustion case, thermocouple exports electric signal Jing after secondary meter conversion Input temp recorder is used for the record of temperature rise curve；The acquisition and recording of 1 minute temperature signal is first carried out before test, temperature is confirmed Monitoring system is working properly；

4th step：The height of simulating sun light source is adjusted according to the incident angle of light that need to be simulated and starts pressure regulator point bright light source, made Building heat preservation photovoltaic component is operated under a certain solar energy translative mode；Burning things which may cause a fire disaster is lighted, starts flue collection system and heat Release test system carries out combustibility test according to GB/T20284-2006 regulations, is just obtaining building heat preservation photovoltaic component product Heat emission characteistics parameter under normal mode of operation, while temperature rise situation within and around temperature monitoring system record control circuit.

7. building heat preservation photovoltaic component combustibility test device according to claim 6, it is characterised in that：Described second What is walked comprises the following steps that：Used as fire surface, two pieces of sample position relations are in be mutually perpendicular to sample photovoltaic battery panel one side；According to The incident angle of light for intending simulation adjusts height and position of the simulating sun light source on slip elevating lever, according to the intensity of illumination for intending simulation Adjust the pressure regulator of analog light source system, the power input of the output of pressure regulator as simulating sun light source so that the illumination of light source Can stablize under required intensity；Select electric light that the load of electric energy, electricity are converted as building heat preservation photovoltaic component solar energy Pond plate control circuit output end is first connected with battery charging terminal, and storage battery power supply lead-out terminal connects electric light, and electric light is put The sample back side is placed in, and load electric light is prevented from being irradiated to cell panel working face；

Start pressure regulator, make analog light source normal work, check output voltage monitoring and load the luminous situation of electric light, confirm photovoltaic Cell panel is under normal luminous energy transformation mode；Pressure regulator output voltage is raised and lowered, light-source brightness is adjusted, output electricity is checked Pressure monitors whether to change with the change of light source incidence angle and intensity.