CN108386112A - A kind of sound-absorbing door - Google Patents

Abstract

The invention discloses a kind of sound-absorbing door, including decoration external door panel, abatvoix, abatvoix outline border and bottom plate, there is the external door panel decorative pattern, sound-absorbing plate surface there is evenly arranged pyramid protrusion, the abatvoix to be prepared by molecular screen material.Sound-absorbing plate surface of the present invention has evenly arranged pyramid protrusion, the refraction for being conducive to sound wave in this way is cut down, the abatvoix is prepared by molecular screen material, the molecular sieve that molecular sieve is prepared by special process is prepared, sound-absorption coefficient can reach 0.96, so that the sound-absorbing effect of entire door is very notable, comprehensive sound-absorption coefficient reaches 0.99.

Description

A kind of sound-absorbing door

The application is application No. is 2016109902310, and the applying date is on November 10th, 2016, and invention and created name is A kind of divisional application of the patent of " decorative panel sound-absorbing door ".

Technical field

The present invention relates to a kind of decorative panel sound-absorbing doors, belong to architectural acoustics field.

Background technology

In people’s lives and work, it is often necessary to the institutes such as space of independence or secret, such as office, meeting or rest The place needed, therefore the soundproof effect in room just seems extremely important.It is a kind of reduction noise to use acoustic material indoors The effective means of pollution, the room door sold currently on the market has mostly to be handled by sound insulation, has certain sound insulation function, but Be when encounter audible sound it is larger when, or with door have it is certain contact and generates shake when, soundproof effect with regard to poor, this Sample can be impacted to the people of surrounding.Therefore, it is to be solved for how developing a kind of room door with superior acoustic effect Problem.

Invention content

In view of the above existing problems in the prior art, the present invention provides a kind of decorative panel sound-absorbing door, sound-absorbing effect is good.

To achieve the goals above, the technical solution adopted by the present invention is：A kind of decorative panel sound-absorbing door, including outside decoration door There is decorative pattern, sound-absorbing plate surface to have evenly arranged for plate, abatvoix, abatvoix outline border and bottom plate, the external door panel Pyramid protrusion, the abatvoix are prepared by molecular screen material.

Bottom plate is I-shaped template, sound construction.

Sound-absorbing plate surface of the present invention has evenly arranged pyramid protrusion, and the refraction for being conducive to sound wave in this way is cut down, institute The abatvoix stated is prepared by molecular screen material, and the molecular sieve that molecular sieve is prepared by special process is prepared, sound-absorption coefficient 0.96 can be reached so that the sound-absorbing effect of entire door is very notable, and comprehensive sound-absorption coefficient reaches 0.99.

Description of the drawings

Fig. 1 is the schematic diagram of the present invention.

Fig. 2 is abatvoix Local map.

1, external door panel is decorated, 2, abatvoix, 3, abatvoix outline border, 4, bottom plate.

Specific implementation mode

The invention will be further described with reference to the accompanying drawings and examples.

A kind of decorative panel sound-absorbing door, including decoration external door panel 1, abatvoix 2, abatvoix outline border 3 and bottom plate 4, abatvoix 2 block Inside abatvoix outline border 3, there is the external door panel decorative pattern, sound-absorbing plate surface to have evenly arranged pyramid convex It rises, the abatvoix is prepared by molecular screen material.Abatvoix 2 is that Sc/ZSM-12 molecular sieve materials are packed into fixed form Material.

Bottom plate is I-shaped template, sound construction.Sc/ZSM-12 molecular screen material preparation methods are as follows：

Embodiment 1, prepares scandium nitrate, Ludox, and sodium aluminate mass ratio is 1:3:1 sample.Manganese sulfate 10g, Ludox 30g, sodium aluminate 10g, the sodium hydroxide of tetraethylammonium bromide (TEABr) 10ml, 5ml 2mol/L, 200ml deionized waters.

Step 1,100 DEG C of oil bath ultrasound 3h removal of impurities under ultrasonic oscillation by 10g Ludox and 10g sodium aluminates first；

Step 2, by 10ml tetraethylammonium bromides (TEABr), 10g scandium nitrates, 5ml 2mol/L sodium hydroxide solutions are super 100 DEG C of 2h removal of impurities of sound wave shock water-bath；

Ludox is added drop-wise in flask by step 3, is then added dropwise and is removed 100ml ionized waters, sodium hydroxide solution, with every point Clock 20 drips speed and is added dropwise, and 100 DEG C of 3h of magnetic agitation oil bath heating simultaneously；

Sodium aluminate is added in above-mentioned solution by step 4, template tetraethylammonium bromide (TEABr) then is being added dropwise, with every Minute 30 drips speed and is added dropwise, and 100 DEG C of 2h of magnetic agitation oil bath heating are carried out at the same time in dropwise addition；

Manganese sulfate is dissolved in 100ml ionized waters by step 5, and manganese sulfate solution is then added to above-mentioned solution In, coagulant liquid is made in 100 DEG C of 3h of magnetic agitation oil bath heating；

Step 6, by coagulant liquid, aging is for 24 hours in air；

Step 7 pours into coagulant liquid in the reaction kettle that polytetrafluoroethylene (PTFE) is liner by flow diverter, then puts reaction kettle Entering into microwave reactor and 300kpa is boosted to the speed of 20kap/min, temperature rises to 250 DEG C with the speed of 20 DEG C/min, Crystallization 12h under nitrogen atmosphere；

It step 8 and then is centrifuged under centrifugal separator, it is dry,.The finally first time pre-burning in Muffle furnace, Under 30%CO2+70%CO atmosphere, the time is 30 minutes, 500 DEG C of temperature, and then second of burn-in time is 60 minutes, in N2 gas Under atmosphere, about 700 DEG C of temperature, negative pressure 0.05MPa, last third time pre-burning, the time is 50 minutes, 600 DEG C, 0.05MPa of temperature, Under 35%Ar+35%CO2+30%CO atmosphere, Sc/ZSM-12 molecular sieves are obtained.

Embodiment 2,

Preparation method is same as Example 1, the difference lies in that scandium nitrate, Ludox, sodium aluminate mass ratio are 1:1:1 Sample.Manganese sulfate 10g, Ludox 10g, sodium aluminate 10g.

Embodiment 3,

Preparation method is same as Example 1, the difference lies in that scandium nitrate, Ludox, sodium aluminate mass ratio are 1:1:2 Sample.Manganese sulfate 10g, Ludox 10g, sodium aluminate 20g.

Embodiment 4,

Preparation method is same as Example 1, the difference lies in that scandium nitrate, Ludox, sodium aluminate mass ratio are 2:1:1 Sample.Manganese sulfate 20g, Ludox 10g, sodium aluminate 10g.

Embodiment 5,

Preparation method is identical as embodiment, the difference lies in that scandium nitrate, Ludox, sodium aluminate mass ratio are 1:3:1 Sample.Manganese sulfate 10g, Ludox 30g, sodium aluminate 10g.

Comparative example 1

Preparation method is same as Example 1, the difference lies in that all whipping steps are without magnetic stirring, only Normal agitation.

Comparative example 2,

Preparation method is same as Example 1, the difference lies in that step 8 and then being centrifuged under centrifugal separator, does It is dry.Finally under Muffle furnace nitrogen atmosphere, Sc/ZSM-12 molecular sieves are obtained.

Comparative example 3,

Conventional ZSM-12 molecular sieves.

Comparative example 4,

Scandium nitrate, Ludox are prepared, sodium aluminate mass ratio is 1:3:1 sample.Manganese sulfate 10g, Ludox 30g, sodium aluminate The sodium hydroxide of 10g, tetraethylammonium bromide (TEABr) 10ml, 5ml 2mol/L, 200ml deionized waters.

Step 1,100 DEG C of oil bath ultrasound 3h removal of impurities under ultrasonic oscillation by 10g Ludox and 10g sodium aluminates first；

Step 2, by 10ml tetraethylammonium bromides (TEABr), 10g scandium nitrates, 5ml 2mol/L sodium hydroxide solutions are super 100 DEG C of 2h removal of impurities of sound wave shock water-bath；

Ludox is added drop-wise in flask by step 3, is then added dropwise and is removed 100ml ionized waters, sodium hydroxide solution, with every point Clock 20 drips speed and is added dropwise, and 100 DEG C of 3h of magnetic agitation oil bath heating simultaneously；

Sodium aluminate is added in above-mentioned solution by step 4, template tetraethylammonium bromide (TEABr) then is being added dropwise, with every Minute 30 drips speed and is added dropwise, and 100 DEG C of 2h of magnetic agitation oil bath heating are carried out at the same time in dropwise addition；

Manganese sulfate is dissolved in 100ml ionized waters by step 5, and manganese sulfate solution is then added to above-mentioned solution In, coagulant liquid is made in 100 DEG C of 3h of magnetic agitation oil bath heating；

Step 6, by coagulant liquid, aging is for 24 hours in air；

Step 7 pours into coagulant liquid in the reaction kettle that polytetrafluoroethylene (PTFE) is liner by flow diverter, then puts reaction kettle Entering into microwave reactor and 300kpa is boosted to the speed of 20kap/min, temperature rises to 250 DEG C with the speed of 20 DEG C/min, Crystallization 12h under nitrogen atmosphere；

It step 8 and then is centrifuged under centrifugal separator, it is dry.The finally pre-burning in Muffle furnace, in 30%CO2+ Under 70%CO atmosphere, the time is 30 minutes, and 500 DEG C of temperature obtains Sc/ZSM-12 molecular sieves.

Experimental Comparison：

With reference to national standard 85-85, standing wave tube sound-absorption coefficient and specific acoustic resistance specifications of surveys, the standing wave tube sound-absorbing system of test sample Number.

The platy structure of 1 centimetre of thickness is made in test baffle.Frequency is 1000-2500 hertz.

Group	Sound-absorption coefficient
		Embodiment 1	0.96
Embodiment 2	0.67
		Embodiment 3	0.64
Embodiment 4	0.62
		Embodiment 5	0.67
Comparative example 1	0.58
		Comparative example 2	0.59
Comparative example 3	0.54
		Comparative example 4	0.56

It can be seen that material prepared by embodiment 1 has extraordinary sound-absorbing effect relative to other groups, substantially increase whole A sound-absorbing effect, it is seen that the scandium nitrate in preparation process, Ludox, sodium aluminate mass ratio, magnetic stirring and pre-burning The factors such as atmosphere play the role of promotion for preparing the sound-absorbing of material.

Claims (6)

1. a kind of sound-absorbing door, which is characterized in that including abatvoix, the abatvoix is prepared by molecular screen material, described point Son sieve material is Sc/ZSM-12 molecular screen materials, the Sc/ZSM-12 molecular screen materials, the Sc/ZSM-12 molecular screen materials The raw material for preparing include scandium nitrate, Ludox and sodium aluminate, the mass ratio of the scandium nitrate, Ludox, sodium aluminate is 1:3:1.

2. a kind of sound-absorbing door according to claim 1, which is characterized in that the sound-absorbing door further comprises outside decoration door There is decorative pattern, sound-absorbing plate surface to have evenly arranged pyramid for plate, abatvoix outline border and bottom plate, the external door panel Protrusion.

3. a kind of sound-absorbing door according to claim 1, which is characterized in that the quality of manganese sulfate is 10g, the quality of Ludox Quality for 30g, sodium aluminate is 10g.

4. a kind of sound-absorbing door according to claim 1, which is characterized in that the preparation of the Sc/ZSM-12 molecular screen materials Raw material further includes 10ml tetraethylammonium bromides (TEABr), the sodium hydroxide of 5ml 2mol/L, 200ml deionized waters.

5. a kind of sound-absorbing door according to claim 1, which is characterized in that the preparation of the Sc/ZSM-12 molecular screen materials Method includes：

Step 1,100 DEG C of oil bath ultrasound 3h removal of impurities under ultrasonic oscillation by 30g Ludox and 10g sodium aluminates first；

Step 2, by 10ml tetraethylammonium bromides (TEABr), 10g scandium nitrates, 5ml 2mol/L sodium hydroxide solutions are in ultrasonic wave 100 DEG C of 2h removal of impurities of shaking water bath；

Ludox is added drop-wise in flask by step 3, is then added dropwise and is removed 100ml ionized waters, sodium hydroxide solution, with per minute 20 It drips speed to be added dropwise, and 100 DEG C of 3h of magnetic agitation oil bath heating simultaneously；

Sodium aluminate is added in above-mentioned solution by step 4, template tetraethylammonium bromide (TEABr) then is being added dropwise, with per minute 30 drop speed are added dropwise, and 100 DEG C of 2h of magnetic agitation oil bath heating are carried out at the same time in dropwise addition；

Manganese sulfate is dissolved in 100ml ionized waters by step 5, and then manganese sulfate solution is added in above-mentioned solution, Coagulant liquid is made in 100 DEG C of 3h of magnetic agitation oil bath heating；

Step 6, by coagulant liquid, aging is for 24 hours in air；

Step 7 pours into coagulant liquid in the reaction kettle that polytetrafluoroethylene (PTFE) is liner by flow diverter, is then put into reaction kettle 300kpa is boosted to the speed of 20kap/min in microwave reactor, temperature rises to 250 DEG C with the speed of 20 DEG C/min, in nitrogen Atmosphere encloses lower crystallization 12h；

It step 8 and then is centrifuged under centrifugal separator, it is dry；The finally first time pre-burning in Muffle furnace, in 30%CO2+ Under 70%CO atmosphere, the time is 30 minutes, 500 DEG C of temperature, and then second of burn-in time is 60 minutes, under N2 atmosphere, temperature About 700 DEG C, negative pressure 0.05MPa of degree, last third time pre-burning, time are 50 minutes, 600 DEG C of temperature, 0.05MPa, 35% Under Ar+35%CO2+30%CO atmosphere, Sc/ZSM-12 molecular sieves are obtained.

6. a kind of sound-absorbing door according to claim 1, which is characterized in that bottom plate is I-shaped template.