CN206823541U - Photocatalyst filtering module and photocatalyst structure thereof - Google Patents

Abstract

The utility model relates to a photocatalyst filtering module and a photocatalyst structure thereof, the photocatalyst filtering module comprises a shell, one or a plurality of photocatalyst structures and a plurality of light sources, and the shell is provided with an air flow channel; the photocatalyst structure is accommodated in the airflow channel and comprises a carrier and a plurality of photocatalyst particles, wherein the carrier is provided with a reflecting surface; a plurality of photocatalyst particles combined on the reflecting surface; the plurality of light sources are installed on the housing and arranged corresponding to the photocatalyst structure. Therefore, when the light source irradiates corresponding to the photocatalyst structure, the reflecting surface of the carrier can generate light reflection effect, so that the UV light can be repeatedly reflected to the photocatalyst particles along with the reflecting surface, thereby improving the use efficiency of the photocatalyst structure and achieving the purpose of cleaning the indoor air.

Description

Photocatalyst filters net module and its photocatalyst structure

Technical field

A kind of photocatalyst structure is the utility model is related to, and is touched in particular to a kind of net module of photocatalyst filter and its light Matchmaker's structure.

Background technology

With science and technology, industrial development, the harmful substance such as organic chemical composition, poisonous fume, pathogenic microorganisms in air, The health of the mankind has gradually been influenceed.Therefore, occur a kind of Photocatalyst air purification device on the market, utilize titanium dioxide （TiO₂）, zinc oxide（ZnO）, tin oxide（SnO₂）, zirconium dioxide（ZrO2）Deng oxide and cadmium sulfide（CdS）, zinc sulphide （ZnS）Carry out disinfection, sterilize and the effect of deodorization Deng photocatalyst self character.

Photocatalyst is once the electronics in UV illumination, raw material（e-）Will be from valence band（Valence Band）Transit to biography Conduction band（Conduction Band）And depart from, photocatalyst surface is lost in（e-）Form electronics electricity hole（h+）.When pollutant, germ The organic substances such as microorganism（Hydrocarbon）, will be with hydroperoxyl radical and hydroxyl free radical knot when touching photocatalyst surface Close, free radical can snatch away electronics from other organic matters, and the organic matter for being snatched away electronics can be because lose bond ability (Valence) it is degraded into smaller molecule（Such as carbon dioxide, water）, and then the purpose of clean room air.

However, known photocatalyst is attached on the surface of netted, paliform carrier or a passage more, when UV light is carried out Irradiation touches the redox reaction of photocatalyst progress as described above（Redox Reaction）When, optical catalyst carrier can be because in structure Pass be to cause to produce dead angle in UV light irradiations, and light because be only capable of straight line irradiation, UV light sources is led from sufficiently using The efficiency for causing the air passed through to be cleaned will be greatly reduced.

In view of this, the present inventor is directed to above-mentioned prior art then, and spy concentrates on studies and coordinates the utilization of scientific principle, solves as possible Certainly above-mentioned problem points, become the target of the present inventor's improvement.

The content of the invention

The utility model provides a kind of photocatalyst and filters net module and its photocatalyst structure, and it is to correspond to photocatalyst using light source During structured illumination, the reflecting surface of carrier can produce light reflex, allow UV light with reflecting surface and repeated reflection is to photocatalyst Particulate, and then the service efficiency of photocatalyst structure is lifted, to reach the purpose of clean room air.

In the utility model embodiment, the utility model provides a kind of photocatalyst structure, including：One carrier, have one Reflecting surface；And plural photocatalyst particulate, it is incorporated on the reflecting surface.

Preferably, above-mentioned carrier has an outer surface, and the outer surface is coated with a reflecting layer, and above-mentioned reflecting surface is formed at this On surface of the reflecting layer away from the carrier, the material in the reflecting layer is anti-for reflection paint, glass, glass ceramics, suprasil or height Penetrate ceramics.

Preferably, above-mentioned carrier has an outer surface, and above-mentioned reflecting surface is formed on the outer surface of the carrier, the carrier Material be glass, glass ceramics or suprasil.

Preferably, above-mentioned carrier has plural hole, and above-mentioned outer surface is formed in the outer wall of the carrier and the hole On wall.

Preferably, above-mentioned carrier be a polygon block, a spheroidal block, a column shape block, a tubular shape block, One annular block, a taper block or a lamellar lamellar body.

In the utility model embodiment, the utility model provides a kind of photocatalyst and filters net module, including：One housing, tool There is a gas channel；At least one photocatalyst structure as described above, it is placed in the gas channel；And plural light source, it is installed on this Housing and to should photocatalyst structure configure.

Preferably, the utility model further includes a fan, and the fan is arranged on the side of said flow passage, above-mentioned housing With the internal ring wall being arranged on inside the gas channel, above-mentioned plural light source is fixedly arranged in the internal ring wall.

Preferably, the quantity of above-mentioned photocatalyst structure is plural number, and above-mentioned each carrier is a polygon block, a spheroidal Block, a column shape block, a tubular shape block, an annular block, a taper block or a lamellar lamellar body, above-mentioned plural number carry The mutual storehouse of body phase is set, so that formed with a ventilative gap between the plural carrier.

Preferably, the quantity of above-mentioned photocatalyst structure is plural number, and above-mentioned each carrier is a column shape block, the plural post The spaced spread configuration of shape shape block, so that formed with a ventilative gap between the plural carrier.

Preferably, the quantity of above-mentioned photocatalyst structure is plural number, and above-mentioned each carrier is a lamellar lamellar body, and the plural number is thin The mutual stacking spread configuration of plate body phase, so that formed with a ventilative gap between above-mentioned plural hole positioned opposite to each other.

Brief description of the drawings

Fig. 1 is the diagrammatic cross-section of the utility model photocatalyst structure first embodiment.

Fig. 2 is the diagrammatic cross-section that the utility model photocatalyst filters net module.

Fig. 3 is the diagrammatic cross-section of the utility model photocatalyst structure second embodiment.

Fig. 4 is the diagrammatic cross-section of the utility model photocatalyst structure 3rd embodiment.

Fig. 5 is the diagrammatic cross-section of the utility model photocatalyst structure fourth embodiment.

Fig. 6 is the diagrammatic cross-section of the embodiment of the utility model photocatalyst structure the 5th.

Fig. 7 is the diagrammatic cross-section of the utility model photocatalyst structure sixth embodiment.

【Critical piece symbol description】

100 ... photocatalysts filter net module

10 ... photocatalyst structures

1st, 1 ' ... carrier

11 ... reflectings surface

12nd, 12 ' ... outer surfaces

13 ... reflecting layer

14 ... holes

2 ... photocatalyst particulates

3 ... polygon blocks

4 ... spheroidal blocks

5 ... column shape blocks

6 ... lamellar lamellar bodies

20 ... housings

201 ... gas channels

202 ... internal ring walls

30 ... light sources

40 ... fans

S, the ventilative gap of s ', s " ...

Embodiment

The detailed description of relevant the utility model and technology contents, by coordinating, brief description of the drawings is as follows, but appended accompanying drawing is only As illustrative purposes, it is not intended to limit to the utility model.

It refer to shown in Fig. 1 to Fig. 2, the utility model provides that a kind of photocatalyst filters net module and its photocatalyst structure One embodiment, this photocatalyst structure 10 mainly include a carrier 1 and plural photocatalyst particulate 2；Photocatalyst, which filters net module 100, to be included The photocatalyst structure 10 of one housing 20, one or plural and plural light source 30.

As shown in figure 1, carrier 1 has a reflecting surface 11, detailed description is as follows, and carrier 1 has an outer surface 12, outer surface 12 are coated with a reflecting layer 13, and reflecting surface 11 is formed on surface of the reflecting layer 13 away from carrier 1.Wherein, the material of carrier 1 can For ceramics, metal or plastics, wherein ceramic material has a porosity characteristic in itself, the material in reflecting layer 13 can be reflect paint, glass, Glass ceramics, suprasil or high reflection ceramics.

In addition, the carrier 1 of the present embodiment has plural hole 14, but system is not limited, if carrier 1 has plural hole 14, then outer surface 12 formed on the outer wall of carrier 1 and the inwall of hole 14；If carrier 1 does not have plural hole 14, appearance Face 12 is made only on the outer wall of carrier 1.

As shown in figure 1, plural photocatalyst particulate 2 is incorporated on reflecting surface 11, photocatalyst particulate 2 can be titanium oxide（TiO₂） Particulate, zinc oxide（ZnO）Particulate, tin oxide（SnO₂）Particulate, zirconium dioxide（ZrO2）The oxides such as particulate and cadmium sulfide（CdS） Particulate or zinc sulphide（ZnS）Particulate.

As shown in Fig. 2 housing 20 has a gas channel 201 and the internal ring wall being arranged on inside gas channel 201 202；Above-mentioned one or plural photocatalyst structure 10 is placed in gas channel 201.

As shown in Fig. 2 plural light source 30 is installed on housing 20 and corresponding photocatalyst structure 10 configures, further illustrate such as Under, plural light source 30 is fixedly arranged in internal ring wall 202, and light source 30 is used to produce UV light to irradiate photocatalyst structure 10.

As shown in Fig. 2 the utility model photocatalyst, which filters net module 10, further includes a fan 40, fan 40 is arranged on air-flow and led to The side in road 201, fan 40 are used to guide airflow in gas channel 201 and hole 14.

As shown in Figure 1 to Figure 2, the utility model photocatalyst filters the combination of net module 100 and photocatalyst structure 10, and it is profit There is gas channel 201 with housing 20；Photocatalyst structure 10 is placed in gas channel 201, photocatalyst structure 10 include carrier 1 and Plural photocatalyst particulate 2, carrier 1 have reflecting surface 11；Plural photocatalyst particulate 2 is incorporated on reflecting surface 11；Plural light source 30 It is installed on housing 20 and corresponding photocatalyst structure 10 configures.

As shown in Figure 1 to Figure 2, the utility model photocatalyst filters net module 100 and the use state of photocatalyst structure 10, its It is to be placed in gas channel 201 using photocatalyst structure 10, fan 40 guides airflow in gas channel 201 and hole 14, The carrier 1 of photocatalyst structure 10 has reflecting surface 11, and photocatalyst particulate 2 is incorporated on reflecting surface 11, when the corresponding light of light source 30 touches When matchmaker's structure 10 is irradiated, the reflecting surface 11 of carrier 1 can produce light reflex, allow the repeated reflection with reflecting surface 11 of UV light To photocatalyst particulate 2, and then the service efficiency of photocatalyst structure 10 is lifted, more exciting light catalyst particles 2 quickly aoxidize also Original reaction（Redox Reaction）, with organic substances such as the pollutant in catalytic air, pathogenic microorganisms（Hydrocarbon） Electronics, and snatched away the organic substances such as the pollutant of electronics, pathogenic microorganisms（Hydrocarbon）Can be because losing bond energy Power (Valence) and be degraded into smaller molecule（Such as carbon dioxide, water）, to reach the purpose of clean room air.

In addition, reflecting surface 11 is formed on the outer wall of carrier 1 and the inwall of hole 14, because reflecting surface 11 itself is more smooth, So the outer wall of carrier 1 and the inwall of hole 14 are also less susceptible to adhere to dirty, photocatalyst is set to filter net module 100 and photocatalyst structure 10 have and are readily cleaned and the feature of reuse.

It refer to shown in Fig. 3 to Fig. 4, be second, third embodiment of the utility model photocatalyst structure 2, Fig. 3 to Fig. 4 Embodiment it is roughly the same with Fig. 1 to Fig. 2 embodiment, but Fig. 3 to Fig. 4 embodiment it is different from Fig. 1 to Fig. 2 embodiment it The quantity being in photocatalyst structure 10 is plural number, and the mutually any storehouse of plural carrier 1 is set.

Detailed description is as follows, and each carrier 1 can be a polygon block 3, a spheroidal block 4, a column shape block, one The geometrical bodies such as tubular shape block, an annular block, a taper block or a lamellar lamellar body, the plural mutually any heap of carrier 1 Stack is arranged on air-flow channel 201（It refer to shown in Fig. 2）, so that formed with a ventilative gap s, air-flow between plural carrier 1 Flowed using ventilative gap s by gas channel 201.Thereby, to reach the function for the embodiment for being same as Fig. 1 to Fig. 2 and excellent Point.

It refer to shown in Fig. 5, be the fourth embodiment of the utility model photocatalyst structure 2, Fig. 5 embodiment and Fig. 1 are extremely Fig. 2 embodiment is roughly the same, but Fig. 5 embodiment and Fig. 1 to Fig. 2 embodiment difference are photocatalyst structure 10 Quantity is plural, and 1 spaced spread configuration of plural carrier.

It is further described below, each carrier 1 can be a column shape block 5 or a tubular shape block, plural column shape block Body 5 is spaced to be arranged in gas channel 201（It refer to shown in Fig. 2）, so as to saturating formed with one between plural carrier 1 Gas gap s ', air-flow are flowed using ventilative gap s ' and are passed through gas channel 201.Thereby, the realities of Fig. 1 to Fig. 2 are same as to reach Apply the function and advantage of example.

It refer to shown in Fig. 6, be the 5th embodiment of the utility model photocatalyst structure 2, Fig. 6 embodiment and Fig. 1 are extremely Fig. 2 embodiment is roughly the same, but Fig. 6 embodiment and Fig. 1 to Fig. 2 embodiment difference are photocatalyst structure 10 Quantity is plural, and the mutual stacking spread configuration of plural carrier 1.

Detailed description is as follows, and each carrier 1 is a lamellar lamellar body 6, and plural 6 mutual stacking of thin plate lamellar body is arranged in Gas channel 201（It refer to shown in Fig. 2）, so that formed with a ventilative gap between plural hole 14 positioned opposite to each other s”（Ventilative gap s " is formed because relative hole 14 is interconnected）, air-flow utilizes ventilative gap s " and stream passes through gas channel 201.Thereby, to reach the function for the embodiment for being same as Fig. 1 to Fig. 2 and advantage.

It refer to shown in Fig. 7, be the sixth embodiment of the utility model photocatalyst structure 2, Fig. 7 embodiment and Fig. 1 are extremely Fig. 2 embodiment is roughly the same, but Fig. 7 embodiment and Fig. 1 to Fig. 2 embodiment difference are carrier 1 ' originally as one High reflection body or a light penetrating object.

It is further described below, the material of carrier 1 ' is the high reflectors such as glass, glass ceramics or suprasil, so figure 7 carrier 1 ' does not need one layer of reflecting layer of coating, and the outer surface 12 i.e. nature of carrier 1 ' possesses and has light reflex, makes reflection Face 11 is formed directly on the outer surface 12 ' of carrier 1 ', allows UV light with reflecting surface 11 and repeated reflection is to photocatalyst particulate 2. Thereby, to reach the function for the embodiment for being same as Fig. 1 to Fig. 2 and advantage.

In summary, the photocatalyst of the utility model filters net module and its photocatalyst structure, really can reach the use of expection Purpose, and solve known missing, and with industry applications, novelty and creativeness, comply fully with utility model patent Shen Please condition, filed an application according to Patent Law, detailed survey and quasi- this case patent please be grant, to ensure the right of utility model people.

Claims (10)

1. A kind of 1. photocatalyst structure, it is characterised in that including：

   One carrier, there is a reflecting surface；And

   Plural photocatalyst particulate, is incorporated on the reflecting surface.
2. 2. photocatalyst structure as claimed in claim 1, it is characterised in that above-mentioned carrier has an outer surface, the outer surface coating There is a reflecting layer, above-mentioned reflecting surface is formed on surface of the reflecting layer away from the carrier, the material in the reflecting layer is reflection paint, Glass, glass ceramics, suprasil or high reflection ceramics.
3. 3. photocatalyst structure as claimed in claim 1, it is characterised in that above-mentioned carrier has an outer surface, above-mentioned reflecting surface shape Into on the outer surface of the carrier, the material of the carrier is glass, glass ceramics or suprasil.
4. 4. photocatalyst structure as claimed in claim 2 or claim 3, it is characterised in that above-mentioned carrier has plural hole, above-mentioned appearance Face is formed on the inwall of the outer wall of the carrier and the hole.
5. 5. photocatalyst structure as claimed in claim 4, it is characterised in that above-mentioned carrier is a polygon block, a spheroidal block Body, a column shape block, a tubular shape block, an annular block, a taper block or a lamellar lamellar body.
6. 6. a kind of photocatalyst filters net module, it is characterised in that including：

   One housing, there is a gas channel；

   At least just like the photocatalyst structure any one of Claims 1-4, the gas channel is placed in；And

   Plural light source, be installed on the housing and to should photocatalyst structure configure.
7. 7. photocatalyst as claimed in claim 6 filters net module, it is characterised in that further includes a fan, the fan is arranged on above-mentioned The side of gas channel, above-mentioned housing have the internal ring wall being arranged on inside the gas channel, and above-mentioned plural light source is fixedly arranged in The internal ring wall.
8. 8. photocatalyst as claimed in claim 6 filters net module, it is characterised in that the quantity of above-mentioned photocatalyst structure is plural number, on Each carrier is stated as a polygon block, a spheroidal block, a column shape block, a tubular shape block, an annular block, one Taper block or a lamellar lamellar body, the above-mentioned plural mutual storehouse of carrier is set, so that formed with one between the plural carrier Ventilative gap.
9. 9. photocatalyst as claimed in claim 6 filters net module, it is characterised in that the quantity of above-mentioned photocatalyst structure is plural number, on It is a column shape block to state each carrier, the plural spaced spread configuration of column shape block, so as to the plural carrier it Between formed with a ventilative gap.
10. 10. photocatalyst as claimed in claim 6 filters net module, it is characterised in that the quantity of above-mentioned photocatalyst structure is plural number, Above-mentioned each carrier is a lamellar lamellar body, the plural mutual stacking spread configuration of thin plate sheet body phase, so as to positioned opposite to each other Above-mentioned plural hole between formed with a ventilative gap.