CN220056849U - Microorganism regulation and control device for algae product preparation - Google Patents

Abstract

The utility model discloses a microorganism regulating and controlling device for preparing algae products, which comprises a driving mechanism, wherein the driving mechanism comprises a driving mechanism body; the driving mechanism synchronously outputs two rotational degrees of freedom to the U-shaped frame, and the two ends of the U-shaped frame are hinged to the outer surface of a storage tank of the storage assembly, which is used for storing algae products; the storage component comprises a functional component for heating the storage tank and inputting bacterial liquid; (1) high-precision control: the utility model realizes high-precision control and adjustment of the algae growth environment through a plurality of components such as the driving mechanism, the rotating module, the heating element, the fungus liquid tank and the like. Can meet different requirements of algae of different types and different stages, and improve the production efficiency and the yield stability. (2) automated control: the utility model adopts an automatic control system, so that the operation is simple and convenient, the stability is high, the investment of manpower and material resources is reduced, and the operation difficulty and the risk of misoperation are reduced.

Description

Microorganism regulation and control device for algae product preparation

Technical Field

The utility model relates to the technical field of algae product production, in particular to a microorganism regulating device for algae product preparation.

Background

The technology of microorganism regulation for preparing algae products refers to the technology of regulating the growth and metabolic processes of algae by utilizing microorganisms so as to achieve the purposes of increasing the yield of algae and improving the quality of the products. The specific technology comprises the following aspects:

(1) Co-cultivation of algae and microorganisms: certain microorganisms are co-cultured with algae, and substances such as hormone, growth factors, organic acids and the like secreted by the microorganisms are utilized to regulate the growth and metabolic processes of the algae, so that the growth and product accumulation of the algae are promoted. For example, some bacteria can secrete hormones and growth factors that promote growth of algae, such as some rhizobia can secrete auxins and kinetin, etc., which can promote growth of algae.

(2) Use of microbial fertilizer: proper microbial fertilizer is added into the algae culture medium to provide nutrients and growth factors for algae growth and to increase algae yield and quality. Microbial fertilizers generally consist of organic fertilizers, microbial inoculants, organic acids and the like, which can promote the growth and metabolic processes of algae.

(3) Use of a microbial modulator: some microbial regulators may increase the yield and quality of algae by regulating the metabolic processes of the algae.

For example, some microbial regulators may increase the photosynthetic efficiency of algae, increase the utilization of light by algae, and increase the growth rate and yield of algae.

(4) Utilization of microbial biomass: microbial biomass is added to the algae culture medium to provide the organic carbon and nitrogen sources required by the algae, promote the growth and metabolic processes of the algae, and increase the yield and quality of the algae.

In general, the technology of microbial control for preparing algae products can effectively improve the yield and quality of algae, and has wide application prospect.

However, the inventor has long been working and studied to find that the microorganism control technology of algae products in the conventional technology has the following technical defects or improvement points:

(1) The control precision of the traditional technology is relatively low, the algae growth environment can be controlled only by manual or simple mechanical means, and different demands of different types and different stages of algae are difficult to meet, so that the production efficiency is low and the yield is unstable.

(2) The traditional technology is complex and tedious in operation, requires a large amount of investment of manpower and material resources, has higher requirements on skill level of operators, and is easy to operate by mistake, so that production efficiency is low and algae quality is unstable.

(3) The conventional technology cannot finely control and regulate the growth environment of algae, cannot meet the requirements of modern algae product production on high quality, high yield and high efficiency, and cannot well cope with the diversified demands of markets.

For this purpose, a microorganism control device for algae product production is proposed.

Disclosure of Invention

Accordingly, embodiments of the present utility model desirably provide a microbial control device for algae product production to solve or alleviate the technical problems of the prior art, and at least provide a beneficial choice;

the technical scheme of the embodiment of the utility model is realized as follows:

first aspect

A microorganism control device for preparing algae products comprises a driving mechanism; the driving mechanism synchronously outputs two rotational degrees of freedom to the U-shaped frame, and the two ends of the U-shaped frame are hinged to the outer surface of a storage tank of the storage assembly, which is used for storing algae products; the storage component comprises a functional component for heating the storage tank and inputting bacterial liquid.

In the above embodiment, the following embodiments are described. The device adopts a driving mechanism to output two rotational degrees of freedom to the U-shaped frame, and the two ends of the U-shaped frame are hinged to the outer surface of a storage tank of the storage assembly, which is used for storing algae products. The storage component comprises a functional component for heating the storage tank and inputting bacterial liquid.

Wherein in one embodiment: the driving mechanism comprises a box body and a rotating module which is arranged in the box body and used for outputting the rotation freedom degree.

In the above embodiment, the following embodiments are described. In one embodiment of the device, the drive mechanism comprises a housing and a rotation module mounted in the housing for outputting the rotational degrees of freedom.

Wherein in one embodiment: the rotating module comprises a chain wheel assembly, one of two chain wheels of the chain wheel assembly is driven to rotate by a rotating executing piece fixedly connected in the box body, and a transmission chain is meshed between the two chain wheels; the wheel shafts of the two chain wheels are respectively fixedly connected with one U-shaped frame, and the outer surfaces of the two U-shaped frames are respectively hinged to the upper end and the lower end of the outer surface of the storage tank. The rotary actuator is preferably a servomotor, and the output shaft of the servomotor is fixedly connected to one of the sprockets.

Wherein in one embodiment: the functional component comprises a heating piece for heating, and the heating piece is fixedly connected to the outer surface of the storage tank. The heating element is preferably an electric heating plate which is fixedly connected to the outer surface of the storage tank.

In the above embodiment, the following embodiments are described. In one embodiment of the device, the functional component comprises a heating element fixedly attached to the outer surface of the storage tank.

Wherein in one embodiment: the functional component further comprises a bacterial liquid tank for storing bacterial liquid, and the bacterial liquid tank is communicated with the storage tank through a water pump and an electromagnetic valve.

In the above embodiment, the following embodiments are described. In one embodiment of the device, the functional component comprises a bacteria liquid tank storing bacteria liquid, and the bacteria liquid tank is communicated with the storage tank through a water pump and an electromagnetic valve.

Second aspect

An algae product production apparatus incorporating into a production system using a control apparatus as described above. The bottom of the box body is supported by a workbench which is fixedly connected to the external environment.

In the above embodiment, the following embodiments are described. The algae product production apparatus employs the regulation apparatus described above and is integrated into the production system. The bottom of the box body of the device is supported by a workbench which is fixedly connected with the external environment.

Compared with the prior art, the utility model has the beneficial effects that:

(1) High-precision control: the utility model realizes high-precision control and adjustment of the algae growth environment through a plurality of components such as the driving mechanism, the rotating module, the heating element, the fungus liquid tank and the like. Can meet different requirements of algae of different types and different stages, and improve the production efficiency and the yield stability.

(2) And (3) automatic control: the utility model adopts an automatic control system, so that the operation is simple and convenient, the stability is high, the investment of manpower and material resources is reduced, and the operation difficulty and the risk of misoperation are reduced.

(3) High efficiency and energy saving: the utility model can improve the energy utilization efficiency and the production efficiency to the greatest extent and reduce the production cost and the energy consumption by finely controlling the algae growth environment.

(4) The production is stable: the utility model can control a plurality of factors such as growth speed, growth cycle, growth environment and the like of algae, thereby realizing comprehensive control of the growth process of algae, ensuring the stability of algae growth and metabolism and improving the quality and yield of products.

(5) Environmental protection: the utility model adopts the microorganism regulation technology, realizes the organic regulation of the algae growth environment, can reduce the environmental pollution and the dependence on natural resources to the greatest extent, and realizes the aim of sustainable development.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of another embodiment of the present utility model;

FIG. 3 is a schematic perspective view of a driving mechanism according to the present utility model;

FIG. 4 is a schematic perspective view of a storage assembly according to the present utility model;

FIG. 5 is a schematic perspective view of a detail of a storage assembly according to the present utility model;

reference numerals: 1. a work table; 2. a driving mechanism; 201. a case; 202. rotating the actuator; 203. a sprocket assembly; 3. a U-shaped frame; 4. a storage component; 401. a storage tank; 402. a heating member; 403. a bacterial liquid tank.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. This utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below;

it should be noted that the terms "first," "second," "symmetric," "array," and the like are used merely for distinguishing between description and location descriptions, and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of features indicated. Thus, a feature defining "first," "symmetry," or the like, may explicitly or implicitly include one or more such feature; also, where certain features are not limited in number by words such as "two," "three," etc., it should be noted that the feature likewise pertains to the explicit or implicit inclusion of one or more feature quantities;

in the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature; meanwhile, all axial descriptions such as X-axis, Y-axis, Z-axis, one end of X-axis, the other end of Y-axis, or the other end of Z-axis are based on a cartesian coordinate system.

In the present utility model, unless explicitly specified and limited otherwise, terms such as "mounted," "connected," "secured," and the like are to be construed broadly; for example, the connection can be fixed connection, detachable connection or integrated molding; the connection may be mechanical, direct, welded, indirect via an intermediate medium, internal communication between two elements, or interaction between two elements. The specific meaning of the terms described above in the present utility model will be understood by those skilled in the art from the specification and drawings in combination with specific cases.

In the prior art, the microorganism control technology of the traditional algae products has the following technical defects: (1) The control precision of the traditional technology is relatively low, the algae growth environment can be controlled only by manual or simple mechanical means, and different demands of different types and different stages of algae are difficult to meet, so that the production efficiency is low and the yield is unstable. (2) The traditional technology is complex and tedious in operation, requires a large amount of investment of manpower and material resources, has higher requirements on skill level of operators, and is easy to operate by mistake, so that production efficiency is low and algae quality is unstable. (3) The traditional technology cannot finely control and regulate the growth environment of algae, cannot meet the requirements of modern algae product production on high quality, high yield and high efficiency, and cannot well cope with the diversified demands of markets; for this reason, referring to fig. 1-5, the present utility model provides a technical solution to solve the above technical problems: a microorganism control device for preparing algae products comprises a driving mechanism 2; the driving mechanism 2 synchronously outputs two rotational degrees of freedom to the U-shaped frame 3, and the two ends of the U-shaped frame 3 are hinged to the outer surface of a storage tank 401 of the storage assembly 4 for storing algae products; the storage unit 4 includes a functional unit for heating the storage tank 401 and inputting the bacterial liquid.

In this aspect, the above-mentioned component is a main functional mechanism in the device provided in this embodiment; on the basis of the above mechanism, it is arranged on the workbench 1; specifically, the workbench 1 is used as a reference supporting structure of the whole device, provides a foundation for the device to cooperate with the external environment, and can be matched with external staff to carry out maintenance, adjustment, assembly of related parts and other conventional mechanical maintenance operations;

specifically, through the support of the workbench 1 on the mechanism, the whole device can be placed and applied to an automatic production line of algae products, so that the whole device is used as an additional process in the existing automatic production line, and the function of providing microbial regulation for the production and preparation of algae products is realized;

it should be noted that parameters such as height and width of the workbench 1 need to be adapted and selected according to relevant mechanical devices of front and rear procedures of the automatic algae product production line, which is non-limiting;

further, the present embodiment may be replaced by an algae product production apparatus, which is incorporated into a production system using a control apparatus as described above. The bottom of the box 201 is received by the table 1, and the table 1 is fixedly connected to the external environment.

In this embodiment, the algae product production apparatus employs the control apparatus described above and is integrated into the production system. The bottom of the box 201 of the device is supported by a workbench 1, and the workbench 1 is fixedly connected with the external environment.

Specifically, the device controls and regulates the growth and metabolic process of algae through the regulating device, thereby improving the growth speed and yield of algae. Meanwhile, since the work table 1 of the apparatus is fixedly connected to the external environment, stability and reliability of the apparatus can be ensured. The regulation and control device of the algae product production device adopts the components of the driving mechanism, the rotating module, the heating element, the fungus liquid tank and the like, and can realize high-precision control and regulation of the algae growth and metabolic process. The device has the advantages of compact structure, simple and convenient operation, wide adjustment range, high production efficiency, stable yield, low production cost and the like. The workbench 1 is fixedly connected to the external environment, so that the stability and the reliability of the device can be ensured, and the device has good application prospect in industrial production.

In some embodiments of the present utility model, please refer to fig. 3 in combination: in this embodiment, the driving mechanism 2 is adopted to output two rotational degrees of freedom to the U-shaped frame 3, and two ends of the U-shaped frame 3 are hinged to the outer surface of the storage tank 401 of the storage assembly 4 for storing algae products. The storage unit 4 includes a functional unit for heating the storage tank 401 and inputting the bacterial liquid.

In the scheme, the device is characterized in that the U-shaped frame 3 is fixed on the storage tank 401 through the driving mechanism 2, the storage tank 401 is placed at two ends of the U-shaped frame 3, and the adjustment of the inclination angle of the storage tank 401 is realized through a double-end hinging mode. At the same time, the storage assembly 4 can achieve heating of the storage tank 401 and bacterial fluid input, thereby regulating the growth and metabolic processes of algae.

Furthermore, the device can realize the regulation and control of the growth and metabolic processes of the algae products, and the storage tank 401 is heated and the bacterial liquid is input through the storage component 4, so that the yield and quality of algae can be improved. In addition, the illumination intensity and illumination time of algae can be controlled by adjusting the inclination angle of the U-shaped frame 3, so that the yield and quality of algae are further improved. The device has the advantages of simple structure, convenient operation, wide adjusting range and the like.

In some embodiments of the present utility model, please refer to fig. 3 in combination: the driving mechanism 2 includes a case 201 and a rotation module installed in the case 201 for outputting a rotational degree of freedom. The driving mechanism 2 includes a case 201 and a rotation module installed in the case 201 for outputting a rotation degree of freedom.

Specifically, the rotation module outputs a required degree of freedom of rotation through driving control of the case 201, and accurate positioning and adjustment of the storage assembly 4 and the storage tank 401 are achieved. Corresponding motors and transmission components are arranged in the rotation module, and the inclination angle of the storage component 4 and the storage tank 401 can be adjusted by controlling the rotation speed and the rotation direction of the rotation module.

Further, the driving mechanism 2 of the device can realize the control of the position and the angle of the storage component 4 and the storage tank 401, thereby achieving the purpose of regulating the growth and the metabolic process of algae. Meanwhile, the driving mechanism 2 adopts a high-precision rotating module, so that the output of the degree of freedom of rotation can be precisely controlled, and the operation precision and reliability of the device are ensured.

In some embodiments of the present utility model, please refer to fig. 3 in combination: the rotation module comprises a chain wheel assembly 203, one of two chain wheels of the chain wheel assembly 203 is driven to rotate by a rotation executing piece 202 fixedly connected in a box 201, and a transmission chain is meshed between the two chain wheels; the wheel shafts of the two chain wheels are respectively fixedly connected with a U-shaped frame 3, and the outer surfaces of the two U-shaped frames 3 are respectively hinged to the upper end and the lower end of the outer surface of the storage tank 401. The rotary actuator 202 is preferably a servo motor, the output shaft of which is fixedly connected to a sprocket.

In this embodiment, the rotation actuator 202 drives one sprocket to rotate, and the rotation of the two U-shaped frames 3 is achieved by engagement of the drive chain with the other sprocket. Since the U-shaped frame 3 is hinged with the storage tank 401 and the sprocket is fixedly connected to the U-shaped frame 3, the adjustment of the inclination angle of the storage tank 401 can be achieved by rotating the module.

Specifically, the rotation module of the device adopts a chain wheel assembly and a transmission chain, can realize adjustment of a larger angle, and has simple structure and high reliability. By adopting the servo motor as the rotary actuator 202, high-precision control can be realized, and the operation precision and stability of the device are improved. The U-shaped frame 3 of the device can be customized according to different needs to adapt to different sizes and shapes of the storage tanks 401.

In some embodiments of the present utility model, please refer to fig. 5 in combination: the functional assembly includes a heating member 402 for heating, the heating member 402 being fixedly connected to the outer surface of the storage tank 401. The heating member 402 is preferably an electric heating plate fixedly connected to the outer surface of the storage tank 401.

In this embodiment, the functional assembly includes a heating member 402, and the heating member 402 is fixedly connected to the outer surface of the storage tank 401.

Specifically, the heating element 402 may control algae growth and metabolic processes by heating the tank. In this embodiment, the heating member 402 takes the form of an electric heating plate fixedly attached to the outer surface of the storage tank 401. By controlling the heating power and time of the electric heating plate, the growth environment of algae in the storage tank 401 can be controlled, and the growth speed and yield of algae can be improved.

Further, the heating element 402 of the device adopts the form of an electric heating plate, and has the advantages of high heating efficiency, high temperature control precision, wide adjustment range and the like. The storage tank 401 is heated by the heating element 402, so that the growth speed and yield of microorganisms can be improved, the heating element 402 is fixedly connected to the outer surface of the storage tank 401, the operation is simple and convenient, and adverse effects of the heating element on algae growth can be avoided.

In some embodiments of the present utility model, please refer to fig. 5 in combination: the functional component also comprises a bacteria liquid tank 403 for storing bacteria liquid, and the bacteria liquid tank 403 is communicated with the storage tank 401 through a water pump and an electromagnetic valve.

Specifically, in one embodiment of the device, the functional component includes a bacteria liquid tank 403 storing bacteria liquid, and the bacteria liquid tank 403 communicates with the storage tank 401 through a water pump and a solenoid valve. The bacteria liquid tank 403 stores the microorganism culture liquid, and the bacteria liquid in the bacteria liquid tank 403 can be fed into the storage tank 401 by a water pump. In the storage tank 401, the microorganisms decompose organic and inorganic substances while secreting hormones, growth factors, organic acids, etc. to regulate the growth and metabolic processes of algae.

It should be noted that in this embodiment, the bacteria tank 403 of the apparatus can store a large amount of microorganism culture liquid, can stably operate for a long time, and provide growth factors, nutrients, etc. necessary for the growth process of algae, thereby promoting the growth and metabolic process of algae. Through the communication of the water pump and the electromagnetic valve, the bacterial liquid can be conveniently input into the storage tank 401, and the algae growth process can be regulated. In addition, by using the bacteria liquid tank 403, too high oxygen concentration generated by the microorganisms in the storage tank 401 due to excessive decomposition of organic substances can be avoided, so that the decomposition speed of the microorganisms is slowed down, and the stability of algae growth and metabolism is ensured.

In the scheme, all electric elements of the whole device are powered by mains supply; specifically, the electric elements of the whole device are in conventional electrical connection with the commercial power output port through the relay, the transformer, the button panel and other devices, so that the energy supply requirements of all the electric elements of the device are met.

Specifically, a controller is further arranged outside the device and is used for connecting and controlling all electrical elements of the whole device to drive according to a preset program as a preset value and a drive mode; it should be noted that the driving mode corresponds to output parameters such as start-stop time interval, rotation speed, power and the like between related electrical components, and meets the requirement that related electrical components drive related mechanical devices to operate according to the functions described in the related electrical components.

The technical features of the above-described embodiments may be combined in any manner, and for brevity, all of the possible combinations of the technical features of the above-described embodiments may not be described, however, they should be considered as the scope of the present description as long as there is no contradiction between the combinations of the technical features.

Examples

In order to make the above-described embodiments of the present utility model more comprehensible, embodiments accompanied with the present utility model are described in detail by way of example. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, so that the utility model is not limited to the embodiments disclosed below.

The present embodiment is based on the relevant principles described in the above detailed description, where exemplary applications are:

in an algae product production plant, the control device provided by the embodiment is used for auxiliary production, wherein the specific steps are as follows:

s1, preparing bacterial liquid: first, a bacterial liquid containing an alga strain needs to be prepared. A common strain of seaweed is selected as the source of the bacterial liquid.

S2, preparing a storage tank: a suitable volume of tank is selected as a storage container for the algae product and the storage assembly 4 is mounted on the outer surface of the tank. The storage assembly 4 comprises a heating element 402 and a bacteria liquid tank 403, wherein the heating element 402 is used for controlling the temperature of the storage tank, and the bacteria liquid tank 403 is used for inputting bacteria liquid into the storage tank.

S3, installing a driving mechanism: the driving mechanism 2 is installed and connected to the U-shaped frame 3 of the storage tank, so that the control of the rotation freedom degree is realized.

S4, connecting a power supply: all electrical components (e.g., heating element 402, water pump, solenoid valve, etc.) are connected to a power source to ensure that they function properly.

S5, setting a control program: the rotational speed of the drive mechanism 2 and the temperature of the storage assembly 4 are set by a c++ control program so that they can cooperate to produce an algal product according to set requirements.

S6, adding bacterial liquid: the prepared bacterial liquid is fed into the bacterial liquid tank 403.

S7, starting a control program: the control program is started, the driving mechanism 2 starts to rotate, the temperature of the storage tank is controlled to rise and fall, and the bacterial liquid is heated and fully mixed in the rotating process.

S8, monitoring the production process: the temperature of the storage tank and the growth state of algae are checked regularly, and the rotation speed and the temperature control parameters are adjusted according to the requirement so as to ensure the quality of algae products.

S9, harvesting: after the algae growth cycle is completed, the control program is stopped and the rotation of the driving mechanism 2 is stopped. Harvesting and processing the algae product in the storage tank to finally obtain the product.

The above examples merely illustrate embodiments of the utility model that are specific and detailed for the relevant practical applications, but are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (7)

1. A microorganism control device for preparing algae products, which is characterized by comprising a driving mechanism (2);

the driving mechanism (2) synchronously outputs two rotational degrees of freedom to the U-shaped frame (3), and two ends of the U-shaped frame (3) are hinged to the outer surface of a storage tank (401) of the storage assembly (4) for storing algae products;

the storage assembly (4) comprises a functional assembly for heating the storage tank (401) and inputting bacterial liquid.

2. The regulating device of claim 1, wherein: the driving mechanism (2) comprises a box body (201) and a rotation module which is arranged in the box body (201) and is used for outputting the rotation freedom degree.

3. The regulating device of claim 2, wherein: the rotating module comprises a chain wheel assembly (203), one of two chain wheels of the chain wheel assembly (203) is driven to rotate by a rotating executing piece (202) fixedly connected in the box body (201), and a transmission chain is meshed between the two chain wheels;

the wheel shafts of the two chain wheels are respectively and fixedly connected with one U-shaped frame (3), and the outer surfaces of the two U-shaped frames (3) are respectively hinged to the upper end and the lower end of the outer surface of the storage tank (401).

4. A regulating device according to claim 3, wherein: the rotary actuator (202) comprises a servo motor, and an output shaft of the servo motor is fixedly connected with one sprocket.

5. The control device according to any one of claims 1 to 4, wherein: the functional assembly comprises a heating element (402) for heating, the heating element (402) being fixedly connected to the outer surface of the storage tank (401).

6. The regulating device of claim 5, wherein: the heating element (402) comprises an electric heating plate which is fixedly connected to the outer surface of the storage tank (401).

7. The regulating device of claim 5, wherein: the functional assembly further comprises a bacteria liquid tank (403) for storing bacteria liquid, and the bacteria liquid tank (403) is communicated with the storage tank (401) through a water pump and an electromagnetic valve.