CN216550428U - Bio-organic fertilizer bacterial culture apparatus - Google Patents

Abstract

The utility model relates to the technical field of organic fertilizer production and manufacturing equipment, in particular to a bio-organic fertilizer strain culture device which comprises a strain culture box body, a first culture tank body and a second culture tank body, wherein the first culture tank body and the second culture tank body are arranged inside the strain culture box body; the bottom of the first culture tank body is provided with a first humidity detection sensor, the inner left side surface of the first culture tank body is provided with a first temperature sensor, the bottom of the second culture tank body is provided with a second humidity detection sensor, and the inner left side surface of the second culture tank body is provided with a second temperature sensor. The bio-organic fertilizer strain culture device can provide a suitable living environment for strains during culture.

Description

Bio-organic fertilizer bacterial culture apparatus

Technical Field

The utility model relates to the technical field of organic fertilizer production and manufacturing equipment, in particular to a biological organic fertilizer strain culture device.

Background

The organic fertilizer is mainly derived from plants and/or animals, and is a carbon-containing material which is applied to soil to provide plant nutrition as a main function. Is prepared from biological substances, animal and plant wastes and plant residues, eliminates toxic and harmful substances in the biological substances, and is rich in a large amount of beneficial substances, including: various organic acids, peptides and rich nutrient elements including nitrogen, phosphorus and potassium. The fertilizer not only can provide comprehensive nutrition for crops, but also has long fertilizer efficiency, can increase and update soil organic matters, promote microbial propagation, improve the physical and chemical properties and biological activity of soil, and is a main nutrient for green food production.

Before the production of the organic fertilizer, whether the organic fertilizer is suitable for the survival and the propagation of strains is verified in a strain culture mode, and the growth of the strains needs to provide proper temperature, humidity and nutrition.

SUMMERY OF THE UTILITY MODEL

The purpose of the utility model is as follows: the utility model provides a bacterial culture device for a bio-organic fertilizer, which can provide a suitable living environment for the bacterial culture during the bacterial culture.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

a bio-organic fertilizer strain culture device comprises a strain culture box body, a first culture tank body and a second culture tank body, wherein the first culture tank body and the second culture tank body are arranged inside the strain culture box body;

a first humidity detection sensor is arranged at the bottom of the first culture tank body, a first temperature sensor is arranged on the inner left side surface of the first culture tank body, a second humidity detection sensor is arranged at the bottom of the second culture tank body, and a second temperature sensor is arranged on the inner left side surface of the second culture tank body;

a first nutrient solution adding tank body and a first nutrient solution adding pump body are sequentially arranged on the left side surface of the strain culture box body from top to bottom, the input end of the first nutrient solution adding pump body is connected with the first nutrient solution adding tank body through a first nutrient solution input pipe, the output end of the first nutrient solution adding pump body is connected with a first nutrient solution output pipe, and the first nutrient solution output pipe extends to the upper part of the first culture tank body;

a second nutrient solution adding tank body and a second nutrient solution adding pump body are sequentially arranged on the right side surface of the strain culture box body from top to bottom, the input end of the second nutrient solution adding pump body is connected with the second nutrient solution adding tank body through a second nutrient solution input pipe, the output end of the second nutrient solution adding pump body is connected with a second nutrient solution output pipe, and the second nutrient solution output pipe extends to the upper part of the second culture tank body;

an air heater is arranged between the first culture tank body and the second culture tank body.

As an improvement: and a transparent observation window is arranged at the top of the strain culture box body.

As an improvement: a first sliding guide rail and a second sliding guide rail are sequentially arranged on the inner bottom surface of the strain culture box body from left to right, the first culture tank body is arranged on the first sliding guide rail in a sliding manner, the outer rear side surface of the first culture tank body is connected with a first lead screw transmission motor, and the first lead screw transmission motor is fixed on the strain culture box body;

the second culture tank body is arranged on the second sliding guide rail in a sliding mode, the rear side face of the outer portion of the second culture tank body is connected with a second lead screw transmission motor, and the second lead screw transmission motor is fixed on the strain culture tank body.

As an improvement: the first drawing handle is arranged on the front face of the outside of the first culture tank body, and the second drawing handle is arranged on the front face of the outside of the second culture tank body.

In conclusion, the utility model has the following beneficial effects:

the utility model provides a bio-organic fertilizer strain culture device, wherein the inside of a strain culture box body can be disinfected and sterilized through an ultraviolet lamp tube before use, an organic fertilizer powder sample and a strain sample are respectively placed into a first culture tank body and a second culture tank body after disinfection and sterilization are finished, the box door of the strain culture box body is closed, a hot air blower is started, a first temperature sensor and a second temperature sensor respectively sense the temperature of the samples in the first culture tank body and the second culture tank body, when the temperature is proper, the hot air blower is closed, a first nutrient solution adding pump body and a second nutrient solution adding pump body are started to respectively add liquid nutrient substances into the first culture tank body and the second culture tank body, a first humidity detection sensor and a second humidity detection sensor respectively detect the humidity in the first culture tank body and the second culture tank body, when the detected humidity is proper, the first nutrient solution feeding pump body and the second nutrient solution feeding pump body are closed, and a proper living environment (temperature, humidity and initial sterile environment) can be provided for strain culture through the operation;

the transparent observation window is convenient for operators to observe and judge the culture production condition of the strain culture box body.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the description of the prior art will be briefly described below.

FIG. 1 is a schematic diagram of the overall structure of a bio-organic fertilizer strain culture device;

FIG. 2 is a schematic diagram of the overall structure of a bio-organic fertilizer strain culture device;

FIG. 3 is a front view of a bio-organic fertilizer strain culture apparatus;

FIG. 4 is a rear view of a bio-organic fertilizer strain culture apparatus;

FIG. 5 is a cross-sectional view of a bio-organic fertilizer strain culture apparatus;

wherein: 1. a strain culture box body; 2. a first culture tank body; 3. a second culture tank body; 4. an ultraviolet lamp tube; 5. a first humidity detection sensor; 6. a first temperature sensor; 7. a second humidity detection sensor; 8. a second temperature sensor; 9. a first nutrient solution adding tank body; 10. a first nutrient solution adding pump body; 11. a second nutrient solution adding tank; 12. a second nutrient solution adding pump body; 13. a first nutrient solution infusion tube; 14. a first nutrient solution delivery pipe; 15. a second nutrient solution infusion tube; 16. a second nutrient solution delivery pipe; 17. a hot air blower; 18. a transparent observation window; 19. a first sliding guide rail; 20. a second sliding guide rail; 21. a first lead screw transmission motor; 22. a second lead screw transmission motor; 23. a first pull handle; 24. a second pull handle; 25. a permanent magnet sheet.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Please refer to fig. 1-5; a bio-organic fertilizer strain culture device comprises a strain culture box body 1, a first culture tank body 2 and a second culture tank body 3, wherein the first culture tank body 2 and the second culture tank body 3 are both arranged inside the strain culture box body 1, and a plurality of ultraviolet lamp tubes 4 are arranged on the top surface inside the strain culture box body 1;

a first humidity detection sensor 5 is arranged at the bottom of the first culture tank body 2, a first temperature sensor 6 is arranged on the inner left side surface of the first culture tank body, a second humidity detection sensor 7 is arranged at the bottom of the second culture tank body 3, and a second temperature sensor 8 is arranged on the inner left side surface of the second culture tank body;

a first nutrient solution adding tank body 9 and a first nutrient solution adding pump body 10 are sequentially arranged on the left side surface of the strain culture box body 1 from top to bottom, the input end of the first nutrient solution adding pump body 10 is connected with the first nutrient solution adding tank body 9 through a first nutrient solution input pipe 13, the output end of the first nutrient solution adding pump body is connected with a first nutrient solution output pipe 14, and the first nutrient solution output pipe 14 extends to the upper part of the first culture tank body 2;

a second nutrient solution adding tank body 11 and a second nutrient solution adding pump body 12 are sequentially arranged on the right side surface of the strain culture box body 1 from top to bottom, the input end of the second nutrient solution adding pump body 12 is connected with the second nutrient solution adding tank body 11 through a second nutrient solution input pipe 15, the output end of the second nutrient solution adding pump body is connected with a second nutrient solution output pipe 16, and the second nutrient solution output pipe 16 extends to the upper part of the second culture tank body 3;

an air heater 17 is arranged between the first culture trough body 2 and the second culture trough body 3.

In the embodiment, a transparent observation window 18 is arranged at the top of the strain culture box body 1; the transparent observation window 18 is convenient for the operator to observe and judge the culture production condition of the strain culture box body 1.

A first sliding guide rail 19 and a second sliding guide rail 20 are sequentially arranged on the inner bottom surface of the strain culture box body 1 from left to right, the first culture box body 2 is arranged on the first sliding guide rail 19 in a sliding manner, the outer rear side surface of the first culture box body is connected with a first screw rod transmission motor 21, and the first screw rod transmission motor 21 is fixed on the strain culture box body 1; the second culture tank body 3 is arranged on a second sliding guide rail 20 in a sliding way, the external back side surface of the second culture tank body is connected with a second screw rod transmission motor 22, and the second screw rod transmission motor 22 is fixed on the strain culture tank body 1; a first drawing handle 23 is provided on the outer front surface of the first culture tank body 2, and a second drawing handle 24 is provided on the outer front surface of the second culture tank body 3.

In this embodiment, the first culture tank body 2 and the second culture tank body 3 are respectively connected to the first lead screw transmission motor 21 and the first lead screw transmission motor 21 through the permanent magnet pieces 25 in an adsorption manner, after the culture is completed, the first culture tank body 2 and the second culture tank body 3 can be pushed out from the strain culture box body 1 through the first lead screw transmission motor 21 and the second lead screw transmission motor 22, and then the first culture tank body 2, the second culture tank body 3 can be taken down from the first lead screw transmission motor 21 and the second lead screw transmission motor 22 through the first pull handle 23 and the second pull handle 24 respectively, so that the experimental process is facilitated.

The utility model provides a bio-organic fertilizer strain culture device, wherein the inside of a strain culture box body 1 can be disinfected and sterilized through an ultraviolet lamp tube 4 before use, an organic fertilizer powder sample and a strain sample are respectively placed into a first culture box body 2 and a second culture box body 3 after disinfection and sterilization are finished, the box door of the strain culture box body 1 is closed, an air heater 17 is started, a first temperature sensor 6 and a second temperature sensor 8 respectively sense the temperature of the samples in the first culture box body 2 and the second culture box body 3, when the temperature is proper, the air heater 17 is closed, a first nutrient solution adding pump body 10 and a second nutrient solution adding pump body 12 are started to respectively add liquid nutrient substances into the first culture box body 2 and the second culture box body 3, a first humidity detection sensor 5 and a second humidity detection sensor 7 respectively detect the first culture box body 2, and the second culture box body 3, The humidity in the second culture tank body 3 is detected to be proper, the first nutrient solution adding pump body 10 and the second nutrient solution adding pump body 12 are closed, and a proper living environment (temperature, humidity and initial sterile environment) can be provided for strain culture through the operation.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to preferred embodiments, those skilled in the art will appreciate that; modifications to the specific embodiments of the utility model or equivalent substitutions for parts of the technical features may be made; without departing from the spirit of the present invention, it is intended to cover all aspects of the utility model as defined by the appended claims.

Claims (4)

1. A bio-organic fertilizer strain culture device is characterized by comprising a strain culture box body, a first culture groove body and a second culture groove body, wherein the first culture groove body and the second culture groove body are arranged inside the strain culture box body;

a first humidity detection sensor is arranged at the bottom of the first culture tank body, a first temperature sensor is arranged on the inner left side surface of the first culture tank body, a second humidity detection sensor is arranged at the bottom of the second culture tank body, and a second temperature sensor is arranged on the inner left side surface of the second culture tank body;

a first nutrient solution adding tank body and a first nutrient solution adding pump body are sequentially arranged on the left side surface of the strain culture box body from top to bottom, the input end of the first nutrient solution adding pump body is connected with the first nutrient solution adding tank body through a first nutrient solution input pipe, the output end of the first nutrient solution adding pump body is connected with a first nutrient solution output pipe, and the first nutrient solution output pipe extends to the upper part of the first culture tank body;

a second nutrient solution adding tank body and a second nutrient solution adding pump body are sequentially arranged on the right side surface of the strain culture box body from top to bottom, the input end of the second nutrient solution adding pump body is connected with the second nutrient solution adding tank body through a second nutrient solution input pipe, the output end of the second nutrient solution adding pump body is connected with a second nutrient solution output pipe, and the second nutrient solution output pipe extends to the upper part of the second culture tank body;

an air heater is arranged between the first culture tank body and the second culture tank body.

2. The bio-organic fertilizer strain culture device of claim 1, wherein a transparent observation window is opened at the top of the strain culture box body.

3. The bio-organic fertilizer strain culture device as claimed in claim 1, wherein a first sliding guide rail and a second sliding guide rail are sequentially arranged on the inner bottom surface of the strain culture box body from left to right, the first culture tank body is slidably arranged on the first sliding guide rail, the outer rear side surface of the first culture tank body is connected with a first lead screw transmission motor, and the first lead screw transmission motor is fixed on the strain culture box body;

the second culture tank body is arranged on the second sliding guide rail in a sliding mode, the rear side face of the outer portion of the second culture tank body is connected with a second lead screw transmission motor, and the second lead screw transmission motor is fixed on the strain culture tank body.

4. The bio-organic fertilizer strain culture device as claimed in claim 1, wherein a first pull handle is arranged on the outer front surface of the first culture tank body, and a second pull handle is arranged on the outer front surface of the second culture tank body.

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