CN209906777U - Activation device for microbial agent for spray deodorization - Google Patents
Activation device for microbial agent for spray deodorization Download PDFInfo
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- CN209906777U CN209906777U CN201920614217.XU CN201920614217U CN209906777U CN 209906777 U CN209906777 U CN 209906777U CN 201920614217 U CN201920614217 U CN 201920614217U CN 209906777 U CN209906777 U CN 209906777U
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- microbial inoculum
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A50/00—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
- Y02A50/20—Air quality improvement or preservation, e.g. vehicle emission control or emission reduction by using catalytic converters
Abstract
The utility model relates to the field of biological deodorization devices, and discloses an activation device of microbial inoculum for spray deodorization, which comprises a primary stirring and filtering tank, wherein the side wall of the primary stirring and filtering tank is provided with screen holes, the primary stirring and filtering tank is provided with a stirring motor, and a stirring shaft of the stirring motor is uniformly provided with a plurality of groups of blades; the outer cover of one-level stirring filter tank still is equipped with second grade microbial inoculum circulation activation bucket, and second grade microbial inoculum circulation activation bucket still is equipped with the fungus liquid circulating pump outward, and the feed liquor pipe and the second grade microbial inoculum circulation activation bucket intercommunication of fungus liquid circulating pump, the drain pipe of fungus liquid circulating pump are connected in one-level stirring filter tank. The utility model provides a microbial inoculum with large granule auxiliary material activation after the microbial inoculum separation effect not good and lead to the problem of spray line jam.
Description
Technical Field
The utility model belongs to the environmental protection field especially relates to biological deodorizing device field, concretely relates to an activation equipment for deodorant microbial inoculum of spraying.
Background
In recent years, with the rapid development of economy, the living standard of people is increasingly improved, and the large-scale cultivation becomes a trend of the development of livestock and poultry breeding industry. However, the urine manure discharged from the large-scale livestock and poultry farm and the generated harmful gases such as ammonia gas, hydrogen sulfide, skatole, indole, trimethylamine, acrolein and the like are not beneficial to the sustainable development of the livestock and poultry industry, and not only influence the normal growth and production performance of the livestock and poultry, but also influence the living environment and even the body health of surrounding residents.
The odor of livestock farms comes mainly from the anaerobic decomposition of proteins in the waste, including livestock manure, skin, hair, feed and bedding. And most of the odor is generated by anaerobic decomposition of the feces and urine.
Organic matters in the livestock and poultry excrement mainly comprise carbohydrates and nitrogen-containing organic matters, and under certain conditions, proteins (containing sulfur) in the excrement are subjected to anaerobic decomposition to generate a large amount of odor gases such as ammonia gas, hydrogen sulfide and the like.
The current methods for deodorization in farms are mainly classified into three types: physical, chemical and biological methods. The chemical method has the advantages of high odor removal efficiency and the like, but the investment and operation cost is high, and secondary pollution is easy to generate; the physical method can only adsorb or mask malodorous gas, but cannot solve the fundamental problem. The biological method is to decompose and convert the odor components through the physiological metabolism of microorganisms, thereby fundamentally achieving the aim of deodorization.
Compared with other two methods, the biological method has the advantages of low operation cost, wide application and suitability for treating various malodorous gases. The principle of the biological method is that the compound deodorization microbial agent is uniformly sprayed into a breeding house, and the self-propagation of the microbial agent and the reduction of odor substances are realized by using the nutrition in the excrement.
However, as a commercial deodorizing microbial agent, powder or liquid microbial agents are required to be activated in advance under specific conditions to achieve the best effect, and some large-particle auxiliary materials such as bran, corncob powder and the like which maintain biological activity are usually added into the microbial agents, so that the organic substances are very easy to block a spraying pipeline and are not beneficial to direct spraying, and the organic auxiliary materials are required to be separated in advance in the activation process of the microbial agents to avoid pipeline blockage.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem that microbial inoculum separation effect leads to spraying pipe to block up with large granule auxiliary material activation after the microbial inoculum separation effect is not good, the utility model provides a microbial inoculum activation effect is better and with the better microbial inoculum's of large granule auxiliary material separation effect activation device.
The utility model provides a technical scheme is: a microbial agent activation device for spray deodorization comprises a primary stirring and filtering tank, wherein the side wall of the primary stirring and filtering tank is provided with screen holes, the primary stirring and filtering tank is provided with a stirring motor, and a stirring shaft of the stirring motor is uniformly provided with a plurality of groups of blades; the outer cover of one-level stirring filter tank still is equipped with second grade microbial inoculum circulation activation bucket, and second grade microbial inoculum circulation activation bucket still is equipped with the fungus liquid circulating pump outward, and the feed liquor pipe and the second grade microbial inoculum circulation activation bucket intercommunication of fungus liquid circulating pump, the drain pipe of fungus liquid circulating pump are connected in one-level stirring filter tank.
Further, still be equipped with the external heating heat preservation outside the second grade microbial inoculum circulation activation bucket, the external heating heat preservation is established the outside shell body in second grade microbial inoculum circulation activation bucket including the cover, is equipped with the clear water between shell body and the second grade microbial inoculum circulation activation bucket, still is equipped with the heating rod that is used for rising the temperature to the clear water in the external heating heat preservation.
Furthermore, an illumination compensation lamp tube is arranged between the secondary microbial inoculum circulation activation barrel and the primary stirring and filtering tank at the top in the secondary microbial inoculum circulation activation barrel.
Further, a liquid level prompt floating ball is further arranged between the secondary microbial inoculum circulation activation barrel and the primary stirring and filtering tank in the secondary microbial inoculum circulation activation barrel.
Furthermore, the top of the first-stage stirring and filtering tank is also provided with a feeding funnel with transparent glass scales, the bottom of the first-stage stirring and filtering tank is also communicated with a pipeline penetrating out of the second-stage microbial inoculum circulation activation barrel, and the end part of the pipeline is provided with a slag discharge valve.
Further, a fungus liquid internal circulation pipeline valve is arranged at one end of a liquid outlet pipe of the fungus liquid circulating pump, a branch pipe is further arranged between the fungus liquid circulating pump and the fungus liquid internal circulation pipeline valve of the liquid outlet pipe, and the end portion of the branch pipe is connected with a fungus liquid activated discharge valve.
Compared with the prior art, the beneficial effects of the utility model are that:
1. in the utility model, the paddle arranged in the primary stirring and filtering tank stirs the large-particle auxiliary material and the microbial agent added with the biological activity, so that the microbial agent is activated more fully, and the sieve mesh holes arranged on the side wall of the primary stirring and filtering tank separate the large-particle auxiliary material from the bacteria liquid, thus the separated bacteria liquid is used, so that the problem that the auxiliary material blocks the spraying pipeline is avoided; in addition, the bacteria liquid subjected to primary separation is added into the primary stirring and filtering tank again through the bacteria liquid circulating pump, so that the filtering effect of the bacteria liquid is better on the one hand, and the activation degree of the bacteria liquid is further improved on the other hand.
2. In the utility model, through the arrangement of the heat preservation layer, the heating rod heats the clear water to further improve the temperature of the bacteria liquid in the secondary bacteria agent circulation activation barrel, and the activity of the bacteria liquid is further enhanced; in addition, the illumination compensation lamp tube is arranged to provide a light source, so that the photosynthetic bacteria deodorant bacteria is ensured to be in the optimal activation condition.
3. The utility model discloses in, through setting up liquid level suggestion floater, monitor the liquid level of fungus liquid in the secondary grade microbial inoculum circulation activation bucket to the discharge amount when the addition of clear water and the discharge of fungus liquid when disposing the fungus liquid of better control.
4. In the utility model, the feeding funnel with transparent glass scales is arranged, so that the adding amount of microbial agents, nutritional agents and the like can be better controlled; the slag discharge valve is arranged, so that large-particle auxiliary materials after use can be discharged conveniently, and subsequent use is facilitated; in addition, a bacteria liquid internal circulation pipeline valve and a bacteria liquid activated exhaust valve are further arranged, so that the bacteria liquid is conveniently discharged and utilized after the large-particle auxiliary materials and the bacteria liquid are separated.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
FIG. 2 is a schematic top view of FIG. 1;
1-first-stage stirring and filtering tank, 2-second-stage microbial inoculum circulation activation barrel, 3-external heating and heat preservation layer, 4-feeding funnel, 5-stirring motor, 6-paddle, 7-conical bottom and slag discharge pipeline, 8-slag discharge valve, 9-bacteria liquid circulating pump, 10-heating rod, 11-illumination compensation lamp tube, 12-bacteria liquid internal circulation pipeline valve, 13-bacteria liquid activated discharge valve and 14-liquid level prompt floating ball.
Detailed Description
The present invention will be described in further detail with reference to the following embodiments, which are provided for the purpose of illustration and are not intended to limit the scope of the invention.
As shown in fig. 1 and 2, the utility model comprises a primary stirring and filtering tank 1, wherein a feeding port is arranged at the top of the primary stirring and filtering tank 1, sieve holes of about 50-80 meshes are uniformly arranged on the side wall of the primary stirring and filtering tank 1, a stirring motor 5 and a protective cover are arranged at the middle position of the top of the primary stirring and filtering tank 1, a speed reducer is sleeved on the stirring motor 5, and a plurality of groups of blades 6 made of stainless steel are uniformly arranged on a stirring shaft of the stirring motor 5; one-level stirring filtration jar 1 still overlaps outward and is equipped with second grade microbial inoculum circulation activation bucket 2, 1 accessible bottom of one-level stirring filtration jar sets up modes such as pillar or lateral wall setting spliced pole and fixes on second grade microbial inoculum circulation activation bucket 2, the space between one-level stirring filtration jar 1 and the second grade microbial inoculum circulation activation bucket 2 is the apotheca of fungus liquid after filtering, second grade microbial inoculum circulation activation bucket 2 still is equipped with fungus liquid circulating pump 9 outward, fungus liquid circulating pump 9's feed liquor pipe and second grade microbial inoculum circulation activation bucket 2 intercommunication and setting are in the apotheca of fungus liquid after filtering, fungus liquid circulating pump 9's drain pipe is connected in one-level stirring filtration jar 1.
In order to enhance the activity of the bacteria liquid, an external heating insulation layer 3 is further arranged outside the secondary bacteria agent circulation activation barrel 2, the external heating insulation layer 3 comprises an outer shell body sleeved outside the secondary bacteria agent circulation activation barrel 2, the outer shell body is made of polystyrene resin materials, clear water is arranged between the outer shell body and the secondary bacteria agent circulation activation barrel 2, and a heating rod 10 used for heating the clear water is further arranged in the external heating insulation layer 3.
In order to enable the photosynthetic bacteria deodorization microbial inoculum to be in the best activation condition, an illumination compensation lamp tube 11 is further arranged between the secondary microbial inoculum circulation activation barrel 2 and the primary stirring and filtering tank 1 at the top in the secondary microbial inoculum circulation activation barrel 2, and the illumination compensation lamp tube 11 adopts an electrodeless lamp tube to provide a light source.
In order to monitor the liquid level of the bacteria liquid in the secondary bacteria agent circulation activation barrel, a liquid level prompt floating ball 14 is further arranged between the secondary bacteria agent circulation activation barrel 2 and the primary stirring and filtering tank 1 in the secondary bacteria agent circulation activation barrel 2.
In order to discharge large-particle auxiliary materials after use conveniently, the top of the first-stage stirring and filtering tank 1 is also provided with a feeding funnel 4 with transparent glass scales, the bottom of the first-stage stirring and filtering tank 1 is also communicated with a pipeline 7 penetrating out of the second-stage microbial inoculum circulation activation barrel 2, and the end part of the pipeline 7 is provided with a slag discharge valve 8.
In order to facilitate the discharge and utilization of the bacterial liquid after the separation of the large-particle auxiliary materials and the bacterial liquid, one end of a liquid outlet pipe of the bacterial liquid circulating pump 9 is provided with a bacterial liquid internal circulating pipeline valve 12, a branch pipe is further arranged between the bacterial liquid circulating pump 9 and the bacterial liquid internal circulating pipeline valve 12 of the liquid outlet pipe, and the end part of the branch pipe is connected with a bacterial liquid activated external discharge valve 13.
In addition, in order to make the activation device operation of microbial inoculum more nimble, degree of automation is higher, the utility model discloses still be provided with electrical system and agitator motor 5, fungus liquid circulating pump 9 electricity and be connected.
The specific working principle is as follows: firstly, supplementing proper clear water from a feed inlet, then starting a stirring motor 5 and a bacteria liquid circulating pump 9, adding a proper amount of bacteria agent and nutrient according to the requirements of a bacteria agent specification, after the device automatically operates for 1-2 hours to complete activation and separation of the bacteria agent, closing a bacteria liquid internal circulating pipeline valve 12, and simultaneously starting an exhaust valve 13 after the bacteria liquid is activated; and then introducing the activated microbial inoculum into a spraying device for deodorization and spraying.
The utility model has simple and easy maintenance, and can control the operation time of the stirring motor and the bacteria liquid circulating pump through the electric control system under the optimal culture condition of providing stable culture temperature and illumination, thereby flexibly setting the activation condition and time according to the requirements of the activation bacteria agents of different manufacturers, and realizing the unattended and automatic completion of 1-2 hours of bacteria agent activation process; simultaneously the utility model discloses still realized the separation of large granule auxiliary material and fungus liquid, but deodorization in the direct connection atomizing deodorization system directly carries out the house, the personnel's of breeding intensity of labour that has significantly reduced has reduced the actual operation degree of difficulty of biological deodorization method.
It should be noted that, the specific connection method for electrically connecting the electric control system, the stirring motor and the bacteria liquid circulating pump is the prior art and the common general knowledge well known to those skilled in the art, and will not be described herein again.
Those skilled in the art can easily conceive of changes or substitutions within the technical scope of the present disclosure, and all such changes or substitutions are intended to be included within the scope of the present disclosure. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.
Claims (6)
1. The activation device of the microbial agent for spray deodorization is characterized by comprising a primary stirring and filtering tank (1), wherein the side wall of the primary stirring and filtering tank (1) is provided with screen holes, the primary stirring and filtering tank (1) is provided with a stirring motor (5), and a stirring shaft of the stirring motor (5) is uniformly provided with a plurality of groups of blades (6); the secondary microbial inoculum circulation activation barrel (2) is further sleeved outside the primary stirring and filtering tank (1), the secondary microbial inoculum circulation activation barrel (2) is further provided with a bacterial liquid circulating pump (9), a liquid inlet pipe of the bacterial liquid circulating pump (9) is communicated with the secondary microbial inoculum circulation activation barrel (2), and a liquid outlet pipe of the bacterial liquid circulating pump (9) is connected into the primary stirring and filtering tank (1).
2. The activation device of microbial inoculum for spray deodorization according to claim 1, characterized in that, the secondary inoculum circulation activation barrel (2) is further provided with an external heating insulation layer (3), the external heating insulation layer (3) comprises an outer shell sleeved outside the secondary inoculum circulation activation barrel (2), clear water is arranged between the outer shell and the secondary inoculum circulation activation barrel (2), and the external heating insulation layer (3) is further provided with a heating rod (10) for heating the clear water.
3. The activation device of microbial inoculum for spray deodorization according to claim 1 or 2, characterized in that the top in the secondary inoculum circulation activation tank (2) is further provided with an illumination compensation lamp tube (11) between the secondary inoculum circulation activation tank (2) and the primary stirring filtration tank (1).
4. The activation device of microbial inoculum for spray deodorization according to claim 3, characterized in that a liquid level indication floating ball (14) is further arranged between the secondary inoculum circulation activation barrel (2) and the primary stirring filtration tank (1) in the secondary inoculum circulation activation barrel (2).
5. The activation device of microbial agents for spray deodorization according to claim 1, wherein the top of the primary stirring filtration tank (1) is further provided with a feeding funnel (4) with transparent glass scales, the bottom of the primary stirring filtration tank (1) is further communicated with a pipeline (7) penetrating through the secondary microbial agent circulation activation barrel (2), and the end of the pipeline (7) is provided with a slag discharge valve (8).
6. The activation device of microbial agents for spray deodorization according to claim 1, wherein one end of the liquid outlet pipe of the bacteria liquid circulating pump (9) is provided with a bacteria liquid internal circulating pipeline valve (12), the liquid outlet pipe is further provided with a branch pipe between the bacteria liquid circulating pump (9) and the bacteria liquid internal circulating pipeline valve (12), and the end of the branch pipe is connected with a bacteria liquid activated external discharge valve (13).
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CN201920614217.XU CN209906777U (en) | 2019-04-29 | 2019-04-29 | Activation device for microbial agent for spray deodorization |
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CN201920614217.XU CN209906777U (en) | 2019-04-29 | 2019-04-29 | Activation device for microbial agent for spray deodorization |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113583821A (en) * | 2021-09-29 | 2021-11-02 | 深圳市路阳农业科技有限公司 | A little biological separation device for alkaline microorganism inspection |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113583821A (en) * | 2021-09-29 | 2021-11-02 | 深圳市路阳农业科技有限公司 | A little biological separation device for alkaline microorganism inspection |
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