CN203758944U - Textile heat-accumulating and heat-preserving performance tester - Google Patents

Abstract

The utility model relates to the field of textile detection, and in particular relates to a textile heat-accumulating and heat-preserving performance tester. The tester comprises an irradiation lamp tube, a light-shielding shell and a temperature measuring device, wherein the irradiation lamp tube comprises a lamp tube body, an air channel and a fan; the fan comprises an output port; a sealing door is arranged on the side wall of the light-shielding shell; an air inlet and an air outlet are formed in the light-shielding shell, and the air outlet is used for exhausting air flowing out of the output port of the fan; the air channel is a hollow column of which the two ends are open, and is formed inside the light-shielding shell; the lamp tube body is placed into the air channel; the fan is placed at one end of the air channel, and air is exhausted from the output port after passing through the air channel and the output port; the temperature measuring device is placed inside the light-shielding shell, and is used for measuring the temperature of a textile; the lamp tube body is a xenon lamp tube or a small sun lamp tube. By adopting the tester provided by the utility model, the heat-accumulating and heat-preserving performances of textiles under sunlight irradiation can be reflected intuitively by measuring energy change and temperature change.

Description

Textile accumulation of heat and thermal property tester

Technical field

The utility model relates to textile inspection field, in particular to textile accumulation of heat and thermal property tester.

Background technology

The heat storage performance of textile, thermal property are important indicators evaluating textile thermal behavior.The temperature variation of textile under light irradiates is the main reference data of textile thermal property.How measuring the temperature variation of accurate measurement textile under light irradiates is a primary task.

In this national standard of GB/T18319-2001 " test method of the infrared heat accumulation thermal of textile ", tell about Infrared irradiation to measuring textile infrared reflectivity and ir transmissivity, calculating ir-absorbance on textile, and measured a method for irradiation heating rate with some thermometer.This method is by calculating the heat storage performance of ir-absorbance reaction textile to Infrared, going out the thermal property of textile to Infrared by the reacting condition of temperature.

But, in normal sunray, except comprising infrared ray, also comprise ultraviolet light and part visible ray, ultraviolet ray and this part visible ray can cause the variation of textile temperature equally, simple to pass through infrared ray simulated solar light source be inaccurate, also just caused having measured ir-absorbance and irradiation heating rate, cannot intuitively accurately reflect accumulation of heat and the thermal property of textile under solar light irradiation.

Utility model content

The purpose of this utility model is to provide textile accumulation of heat and thermal property tester, to solve the above problems.

Textile accumulation of heat and thermal property test are provided in embodiment of the present utility model

Instrument, comprising: irradiate fluorescent tube, shading shell, temperature measuring equipment, described irradiation light

Pipe comprises lamp tube body, air channel and blower fan, and described blower fan comprises delivery outlet;

The sidewall of described shading shell is provided with hermatic door;

On described shading shell, be provided with air inlet and air outlet, and described air outlet is for discharging the air flowing out from the delivery outlet of described blower fan;

Described air channel is the hollow columnar of both ends open, and is placed in the inside of described shading shell;

Described lamp tube body is placed in the inside in described air channel;

Described blower fan is placed in the one end in described air channel, and air is through described air channel and described delivery outlet, discharges from described delivery outlet;

Described temperature measuring equipment is placed in the inside of described shading shell, and for measuring the temperature of textile;

Described lamp tube body is xenon lamp fluorescent tube or Sunny fluorescent tube.

Preferably, described air channel is shading material,

The sidewall in described air channel is provided with the mouth that filters, and is provided with optical filter with on the described mouthful corresponding position of filtering.

Preferably, also comprise specimen mounting, described specimen mounting is placed in the inside of described shading shell, and described specimen mounting comprises screw mandrel, polished rod and lifting table, and described lifting table comprises the screw hole coordinating with described screw mandrel and the polished rod hole coordinating with described polished rod;

Described screw mandrel and described polished rod be arranged in parallel, and one end of described screw mandrel and described polished rod is all fixedly connected with the interior perimembranous of described shading shell;

Described screw rod bushing is connected to described screw hole, and described polished rod is socketed on described polished rod hole.

Preferably, described lifting table also comprises aluminium sheet and lifting table main body, and described temperature measuring equipment comprises measurement section,

Described aluminium sheet is placed in the outside surface at the top of described lifting table main body,

Described measurement section is placed between described aluminium sheet and described lifting table main body, and contacts with described aluminium sheet.

Preferably, described lifting table also comprises thermal insulation board, and described measurement section is placed between described aluminium sheet and described thermal insulation board, and contacts with described aluminium sheet.

Preferably, the sidewall of described shading shell is provided with watch window.

Preferably, described temperature measuring equipment is PT100 temperature sensor.

Preferably, described temperature measuring equipment also comprises display part, and described display part is placed in the peripheral part of described shading shell.

The textile accumulation of heat that the utility model embodiment provides and thermal property tester, with the infrared ray simulated solar irradiation that utilizes of the prior art, and make infrared ray direct irradiation on the surface of textile, and by the temperature of thermometer measure textile after pre-irradiation, only cannot simulate whole sunshines by infrared ray, ir-absorbance and irradiation heating rate are caused having measured, cannot intuitively reflect that accumulation of heat and the thermal property of textile under solar light irradiation compare, it is by using xenon lamp fluorescent tube or Sunny fluorescent tube simulated solar irradiation, inside at shading shell is irradiated textile, the heat by devices such as blower fans, irradiation fluorescent tube being sent again sends away, make textile can both be subject to the irradiation identical with sunray all the time, also just make to measure energy variation, the variation of temperature reflects accumulation of heat and the thermal property of textile under solar light irradiation intuitively, thereby the deficiencies in the prior art are solved.

Brief description of the drawings

Fig. 1 shows the textile accumulation of heat of the utility model embodiment and the basic block diagram of thermal property tester;

Fig. 2 shows the textile accumulation of heat of the utility model embodiment and the irradiation fluorescent tube basic block diagram of thermal property tester.

Fig. 3 shows the textile accumulation of heat of the utility model embodiment and the specimen mounting basic block diagram of thermal property tester.

In figure: 1, lamp tube body; 2, air channel; 3, delivery outlet; 4, blower fan; 5, hermatic door; 6, optical filter; 7, screw mandrel; 8, polished rod; 9, measurement section; 10, aluminium sheet; 11, thermal insulation board.

Embodiment

Also by reference to the accompanying drawings the utility model is described in further detail below by specific embodiment.

As shown in Figure 1, the utility model embodiment 1 provides textile accumulation of heat and thermal property tester, comprise: irradiate fluorescent tube, shading shell, temperature measuring equipment, described irradiation fluorescent tube comprises lamp tube body 1, air channel 2 and blower fan 4, and described blower fan 4 comprises delivery outlet 3; The sidewall of described shading shell is provided with hermatic door 5; On described shading shell, be provided with air inlet and air outlet, and described air outlet is for discharging the air flowing out from the delivery outlet 3 of described blower fan; Described air channel 2 is the hollow columnar of both ends open, and is placed in the inside of described shading shell; Described lamp tube body 1 is placed in the inside in described air channel 2; Described blower fan 4 is placed in the one end in described air channel 2, and air is through described air channel 2 and described delivery outlet 3, discharges from described delivery outlet 3; Described temperature measuring equipment is placed in the inside of described shading shell, and for measuring the temperature of textile; Described lamp tube body is xenon lamp fluorescent tube or Sunny fluorescent tube.

Wherein, shading shell refers on traditional shell basis, its housing is made up of lighttight material, to prevent that outside light from irradiating into enclosure, and then cause extraneous light to irradiate textile, textile being heated up, and cause the intensification of textile just not caused by irradiating fluorescent tube, is inaccurate and cause the heating rate of measuring.

Shading shell can be designed as rectangular parallelepiped, and irradiating fluorescent tube can simulated solar irradiation or the light of transmitting specified intensity and/or wavelength, and this part light is absorbed by textile.Lamp tube body 1 is preferably arranged on the top layer of shading outer casing inner wall, and parallel with the top layer of the inwall of shading shell, makes textile can receive that uniform light irradiates.Accordingly, lamp tube body 1 is placed in the inside in air channel 2.Shading material can be arranged in air channel 2, and the light that now lamp tube body 1 is launched irradiates to yarn fabric by the openend in air channel 2; Air channel 2 also can be arranged to transparent, and the sidewall that now lamp tube body 1 sees through air channel 2 is launched light to textile, makes its intensification.

Meanwhile, blower fan 4 is arranged on the one end in air channel 2, is used for taking away near the air of fluorescent tube.Fluorescent tube is in the time of work, namely fluorescent tube is when luminous, simultaneously can the evolution of heat, namely lamp tube body 1 can heat up, when the temperature of lamp tube body 1 is during higher than the temperature of lamp tube body 1 ambient air, lamp tube body 1 can be propagated heat around to it, and then causes textile to heat up, but intensification be not herein due to light be irradiated on textile caused, so should prevent phenomenon here.In the time that lamp tube body 1 is worked, blower fan 4 can be taken lamp tube body 1 ambient air away, makes the temperature of lamp tube body 1 ambient air can not affect the temperature of textile.Certainly, the delivery outlet 3 of blower fan and the air outlet of shading shell should corresponding settings, the air of discharging from delivery outlet 3 is directly discharged from delivery outlet 3, and can not flow into the inside of shading shell, and textile is heated up.It should be noted that the other end in air channel 2, one end that blower fan 4 is not namely set preferably with air inlet joint, to ensure the extraneous air of shading shell, can not affect the temperature of textile.

In the time that hermatic door 5 is opened, just textile is placed on shading enclosure, or textile is taken out from the inside of shading shell, in the time that hermatic door 5 is closed, both can start operation and irradiate the component workings such as fluorescent tube, to start the measurement of textile temperature rise.But consider in the time that light is irradiated on textile, need to ensure do not have extraneous light to irradiate into shading enclosure, also just need to use hermatic door 5, to ensure that hermatic door 5 is in the time closing, do not have light and enter into shading enclosure through the crack between a door and its frame of hermatic door 5.

Temperature measuring equipment can be temperature sensor, can be also the device that thermometer etc. can be measured textile temperature.Also can be carried out by multiple temperature measuring equipments the measurement of temperature to multiple positions of same textile, ensure the accuracy of measuring.

It should be noted that, the lamp tube body 1 in the utility model is used for simulated solar, is also the sunshine of simulation with regard to the light that lamp tube body 1 is sent, so described lamp tube body 1 is preferably xenon lamp fluorescent tube or Sunny fluorescent tube.Radiation spectrum energy distribution and daylight that two kinds of fluorescent tubes send are close, can imitate comparatively accurately sunshine, and there is following features, 1, the spectral distribution of continuous spectrum part almost changes and has nothing to do with lamp power input, and in lifetime, spectral power distribution is also almost constant; 2, the optical, electrical parameter consistency of lamp is good, and duty is subject to the impact of change of external conditions little; 3, the light efficiency of lamp is higher, and electric potential gradient is less.

Textile accumulation of heat provided by the utility model and thermal property tester, irradiate lamp luminescence by use and replaced sunshine, and be in the inside of shading shell, textile to be irradiated, the heat by devices such as blower fans, irradiation fluorescent tube being sent again sends away, make textile can both be subject to the irradiation identical with sunray all the time, also just make the variation that measures energy variation, temperature reflect intuitively accumulation of heat and the thermal property of textile under solar light irradiation, thereby solved the deficiencies in the prior art.

As shown in Figure 2, the utility model embodiment 2 provides the detailed structure of textile accumulation of heat and thermal property tester, on the basis of embodiment 1, in the test of textile accumulation of heat and thermal property in order to make more accurately the light that textile receiving light tube body 1 sends the light of certain wave band be filtered out by optical filter 6, described air channel 2 is shading material, the sidewall in described air channel 2 is provided with the mouth that filters, and is provided with optical filter 6 with on the described mouthful corresponding position of filtering.And the air inlet in air channel is connected with the sidewall of shading shell, the air inlet in air channel can be understood as the one end away from blower fan, the air of shading housing exterior has been directly inputted to the inside in air channel through the air inlet in the enterprising air port of shading shell and air channel, make the air of shading housing exterior can be sequentially by the air inlet of shading shell, the air inlet in air channel, inside, air channel, blower fan input port, after the delivery outlet 3 of blower fan and the air outlet of shading shell, be discharged to the outside of shading shell, thereby the air that makes inside, air channel not can with outside, air channel, the circulation of air of shading enclosure, thereby make the air that air can inside, air channel can be to air or textile conduction heat.

By being provided with optical filter 6 and air channel 2 is set to shading material, the light sending that can make lamp tube body 1 after filtration mating plate 6 is irradiated on Counterfeit Item, the infrared ray namely by optical filter 6, lamp tube ends being sent because of heated by electrodes filters, get rid of the impact of non-analog light source on the heat on textile and temperature, made the reason in the temperature of textile more accurate.

It should be noted that, the effect of optical filter 6 is that the light of part beyond 200nm-2700nm in light is removed, also the light (ultraviolet light, infrared light, visible ray) that just makes to guarantee 200～2700nm is irradiated on textile through optical filter, also ensure chamber and air channel isolation simultaneously, not directly and shading enclosure, the air of outside, air channel directly contacts the air that makes inside, air channel.Can realize on optical filter 6 markets of this kind of function very common.Certainly, also can be by the combined filters 6 that the light of part beyond 200nm-2700nm in light can be removed that is combined to form of multiple optical filter 6.

For the pipeline that better makes textile receiving light tube body 1 send, textile accumulation of heat and thermal property tester also comprise specimen mounting, described specimen mounting is placed in the inside of described shading shell, described specimen mounting comprises screw mandrel 7, polished rod 8 and lifting table, and described lifting table comprises the screw hole coordinating with described screw mandrel 7 and the polished rod hole coordinating with described polished rod 8; Described screw mandrel 7 be arranged in parallel with described polished rod 8, and one end of described screw mandrel 7 and described polished rod 8 is all fixedly connected with the interior perimembranous of described shading shell; Described screw mandrel 7 is socketed on described screw hole, and described polished rod 8 is socketed on described polished rod hole.

When use, textile is placed on lifting table, certainly, the end face of lifting table, namely prevents from the one side of textile being preferably designed to the form forming with surface level, ensures that textile can landing from lifting table after being placed on lifting table.

The elevating function of lifting table is to realize by polished rod 8, screw mandrel 7, the polished rod hole coordinating with polished rod 8 and the screw hole that coordinates with screw mandrel 7.When use, by rotary screw 7, can make lifting table increase or decline.The peripheral part of screw mandrel 7 is threaded, and the screw hole coordinating with screw mandrel 7 is with the internal thread matching with screw thread or other fit structures.In the time that screw mandrel 7 rotates, can drive the lifting table rotation with screw hole, or rise or decline along screw thread, but owing to being fixedly connected with the mating reaction of polished rod 8 with polished rod hole with the interior perimembranous of shading shell, lifting table is only done along the vertical motion of screw mandrel 7 length directions, thereby completed the work of lifting.Certainly, screw mandrel 7 need to be fixed on the inside of shading shell, its one end can be fixedly connected with the interior perimembranous of described shading shell, the other end also can be fixedly connected with the interior perimembranous of shading shell, certainly, one end of polished rod 8 also should be fixedly connected with the interior perimembranous of shading shell, to ensure lifting table lifting normally.

Simple temperature measuring equipment is placed on to the upper of textile, be difficult to the accurate temperature variation of measuring textile, main cause is that the illumination everywhere receiving of textile is different, also be different with regard to having caused the variation of temperature, in order to overcome this problem, described lifting table also comprises aluminium sheet 10 and lifting table main body, described temperature measuring equipment comprises measurement section 9, described aluminium sheet 10 is placed in the outside surface at the top of described lifting table main body, described measurement section 9 is placed between described aluminium sheet 10 and described lifting table main body, and contacts with described aluminium sheet 10.

Aluminium sheet 10 has good thermal conductivity, by textile by temperature conduction to aluminium sheet 10, it is relatively average can making the received temperature of aluminium sheet 10, is also relatively accurate.Meanwhile, the measurement section 9 of temperature measuring equipment is not directly to contact with textile, but contacts with aluminium sheet 10, has further strengthened the accuracy of the temperature that temperature measuring equipment detects, and makes the heating rate that calculates more accurate.The measurement section 9 of different temperature measuring equipments can be placed into different positions, so that the measured numerical value of temperature measuring equipment is for different parts, to ensure the accuracy of data.

In order to prevent that aluminium sheet 10 is subject to the temperature impact of other structures, thermal insulation board 11 also should be set and surround aluminium sheet 10, described lifting table also comprises thermal insulation board 11, described measurement section 9 is placed between described aluminium sheet 10 and described thermal insulation board 11, and contacts with described aluminium sheet 10.Thermal insulation board 11 can play heat insulation effect, the variation of avoiding environmental impact extraneous except test specimens to test.To ensure that the measured temperature of temperature measuring equipment is caused by the temperature rise of textile, has further strengthened the accuracy of the data that measure.

Observe for convenient, the sidewall of described shading shell is provided with watch window.Observe critical point by arranging, user can directly make to observe with the naked eye the state of textile under light irradiates.Also can be used for observing the duty of all parts in textile accumulation of heat and thermal property tester, to ensure that it can work normally.Meanwhile, if temperature measuring equipment is a thermometer, also can see intuitively the number of degrees shown on thermometer by watch window, person easy to use records temperature value.

When textile thermal property is tested, require humidity collection scope can reach 0～100%, instrument is to be placed in constant temperature and humidity space, wherein humidity reaches 64 ± 5%, general sensor cannot normally be worked under this state, therefore adopt PT100 temperature sensor, the sensor of this kind of model can meet the requirement of ambient humidity, and described temperature measuring equipment is PT100 temperature sensor.

Certainly, temperature measuring equipment can be set to intuitively to see that the form of the digital number of degrees can person more convenient to use, and described temperature measuring equipment also comprises display part, and described display part is placed in the peripheral part of described shading shell.By being arranged on the display part on shading shell, the temperature that can make measurement section 9 measure has display part to show intuitively, further, can also be designed to monitor continuously temperature in textile over time by temperature measuring equipment, and gather accurately temperature data points in textile, be plotted in taking the time as transverse axis, in the rectangular coordinate system that temperature is the longitudinal axis.By hardware circuit board, calculate in certain period, with the rate of change of textile temperature and the rate of change of heat.

Textile accumulation of heat provided by the utility model and thermal property tester, cross use xenon lamp fluorescent tube or Sunny fluorescent tube simulated solar irradiation, inside at shading shell is irradiated textile, the heat by devices such as blower fans, irradiation fluorescent tube being sent again sends away, make textile can both be subject to the irradiation identical with sunray all the time, also just make the variation that measures energy variation, temperature reflect intuitively accumulation of heat and the thermal property of textile under solar light irradiation, thereby solved the deficiencies in the prior art.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (8)

1. textile accumulation of heat and thermal property tester, is characterized in that, comprising: irradiate fluorescent tube, shading shell, temperature measuring equipment, described irradiation fluorescent tube comprises lamp tube body, air channel and blower fan, and described blower fan comprises delivery outlet;

The sidewall of described shading shell is provided with hermatic door;

On described shading shell, be provided with air inlet and air outlet, and described air outlet is for discharging the air flowing out from the delivery outlet of blower fan;

Described air channel is the hollow columnar of both ends open, and is placed in the inside of described shading shell;

Described lamp tube body is placed in the inside in described air channel;

Described blower fan is placed in the one end in described air channel, and air is through described air channel and described delivery outlet, discharges from described delivery outlet;

Described temperature measuring equipment is placed in the inside of described shading shell, and for measuring the temperature of textile;

Described lamp tube body is xenon lamp fluorescent tube or Sunny fluorescent tube.

2. textile accumulation of heat according to claim 1 and thermal property tester, is characterized in that, described air channel is shading material,

The sidewall in described air channel is provided with the mouth that filters, and is provided with optical filter with on the described mouthful corresponding position of filtering.

3. textile accumulation of heat according to claim 1 and thermal property tester, it is characterized in that, also comprise specimen mounting, described specimen mounting is placed in the inside of described shading shell, described specimen mounting comprises screw mandrel, polished rod and lifting table, and described lifting table comprises the screw hole coordinating with described screw mandrel and the polished rod hole coordinating with described polished rod;

Described screw mandrel and described polished rod be arranged in parallel, and one end of described screw mandrel and described polished rod is all fixedly connected with the interior perimembranous of described shading shell;

Described screw rod bushing is connected to described screw hole, and described polished rod is socketed on described polished rod hole.

4. textile accumulation of heat according to claim 3 and thermal property tester, is characterized in that, described lifting table also comprises aluminium sheet and lifting table main body, and described temperature measuring equipment comprises measurement section,

Described aluminium sheet is placed in the outside surface at the top of described lifting table main body,

Described measurement section is placed between described aluminium sheet and described lifting table main body, and contacts with described aluminium sheet.

5. textile accumulation of heat according to claim 4 and thermal property tester, is characterized in that, described lifting table also comprises thermal insulation board, and described measurement section is placed between described aluminium sheet and described thermal insulation board, and contact with described aluminium sheet.

6. textile accumulation of heat according to claim 5 and thermal property tester, is characterized in that, the sidewall of described shading shell is provided with watch window.

7. textile accumulation of heat according to claim 6 and thermal property tester, is characterized in that, described temperature measuring equipment is PT100 temperature sensor.

8. textile accumulation of heat according to claim 7 and thermal property tester, is characterized in that, described temperature measuring equipment also comprises display part, and described display part is placed in the peripheral part of described shading shell.