CN218202755U - Built-in photoreactor for microalgae culture - Google Patents

Abstract

A built-in photoreactor for microalgae culture comprises a bottom box body, a floating plate, a floating pipeline, a driving mechanism, a turnover type light source component and a heating pipe; the utility model discloses carry out the circulatory transport breed with little algae liquid through the pipeline that floats, breed through outside illumination daytime, get into the inside that the floating plate got into the bottom box through actuating mechanism drive after indoor night, carry out heat conduction through the heating pipe, overturn the rotor plate on the holding fluting, make a plurality of light source support and luminotron upset upwards shine to the pipeline that floats, realize convenient efficient breed so, the rotor plate can pivoted design on the holding fluting, make daytime avoid illumination influence luminotron life with the downward upset of luminotron under the stronger condition of illumination.

Description

Built-in photoreactor for microalgae culture

Technical Field

The utility model relates to a built-in photoreactor for microalgae culture.

Background

Microalgae are various in types, and microalgae cells contain high-value nutritional ingredients and chemical raw materials such as protein, lipid, algal polysaccharide, various inorganic elements and the like; microalgae have high protein content and are an important source of single-cell protein, and the commonly used microalgae culture systems can be divided into four types: a raceway pond, a plate type photobioreactor, a column type photobioreactor and a tubular photobioreactor; the circulating culture of microalgae is carried out through illumination by the aid of the existing tubular photobioreactor in the daytime, but in night, the tubular photobioreactor cannot be illuminated and cannot be efficiently cultured, and once the temperature in night is too low, the microalgae cannot be efficiently cultured, so that reasonable adjustment is needed.

Disclosure of Invention

To the weak point of above-mentioned prior art, the utility model provides a problem do: provides a built-in photoreactor for microalgae culture, which can carry out high-efficiency culture.

In order to solve the above problem, the utility model discloses the technical scheme who takes as follows:

a built-in photoreactor for microalgae culture comprises a bottom box body, a floating plate, a floating pipeline, a driving mechanism, a turnover type light source component and a heating pipe; the bottom box body is of a structure with closed bottom and periphery and an open upper end; a plurality of heating pipes are uniformly paved below the inner part of the bottom box body; the floating plate is vertically and movably clamped and mounted in the bottom box body; the driving mechanism is arranged on one side of the bottom box body and controls the floating plate to move up and down; the heating pipe is of a bent and circuitous pipeline structure; the heating pipe is arranged on the upper side of the floating plate; the turnover type light source component comprises a rotating plate, a light source bracket and a light emitting tube; the middle of the floating plate is provided with an accommodating groove; the rotating plate is rotatably arranged on the accommodating groove; and a plurality of light source brackets are arranged on one side of the rotating plate, and light emitting tubes are respectively arranged on the light source brackets.

Further, the driving mechanism comprises a longitudinal moving block, a driving screw and a limiting slide block; the two ends of the floating plate are respectively provided with a longitudinal moving block and a limiting slide block; two sides of the interior of the bottom box body are respectively provided with a driving sliding chute and a limiting sliding chute; the longitudinal moving block is slidably arranged on the driving sliding chute; the limiting sliding block is connected to the limiting sliding groove in a sliding and clamping mode; the longitudinal moving block is provided with a thread channel, the thread channel is connected with a driving screw in a screwed mode, the lower end of the driving screw is rotatably clamped at the lower end of the driving sliding groove, and the upper end of the driving screw extends to the upper portion of the bottom box body.

Furthermore, the driving mechanism also comprises a driven gear, a driving gear, an adjusting motor and a connecting belt; a driven gear is arranged at the upper end of the driving screw rod; an adjusting motor is arranged outside one side of the bottom box body, and a driving gear is arranged on the adjusting motor through a rotating shaft; and a connecting belt is arranged between the driving gear and the driven gear.

Furthermore, mounting channels penetrating through the front and the rear are arranged on two sides of the floating plate; two sides of the bottom of the floating pipeline are respectively provided with an installation sliding rod; the sliding rod is slidably clamped on the floating plate from the mounting channel.

Furthermore, telescopic hoses are respectively arranged at two ends of the floating pipeline.

Furthermore, two sides of the rotating plate are respectively provided with a rotating clamping column; the two sides of the accommodating groove of the floating plate are respectively provided with a rotary clamping groove; the rotating plate is rotatably clamped on the rotating clamping grooves through the rotating clamping columns on the two sides.

Further, the bottom of bottom box is equipped with the heat-conducting plate, and a plurality of heating pipes are laid in the bottom of heat-conducting plate.

The utility model has the advantages as follows:

the utility model discloses carry out the circulatory transport breed with little algae liquid through the pipeline that floats, breed through outside illumination daytime, get into the inside that the floating plate got into the bottom box through actuating mechanism drive after indoor night, carry out heat conduction through the heating pipe, overturn the rotor plate on the holding fluting, make a plurality of light source support and luminotron upset upwards shine to the pipeline that floats, realize convenient efficient breed so, the rotor plate can pivoted design on the holding fluting, make daytime avoid illumination influence luminotron life with the downward upset of luminotron under the stronger condition of illumination.

Drawings

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

Fig. 2 is a schematic structural diagram of one side of the present invention.

Fig. 3 is a schematic diagram of a partially enlarged structure of fig. 2 according to the present invention.

Fig. 4 is a schematic structural view of the rotating plate of fig. 3 according to the present invention after being turned downward.

Fig. 5 is a schematic structural view of the other side of the present invention.

Detailed Description

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

As shown in fig. 1 to 5, a built-in photo reactor for microalgae cultivation comprises a bottom box body 1, a floating plate 3, a floating pipeline 2, a driving mechanism 4, a turnover type light source assembly 5 and a heating pipe 6; the bottom box body 1 is of a structure with closed bottom and periphery and an open upper end; a plurality of heating pipes 6 are uniformly laid below the inner part of the bottom box body 1; the floating plate 3 is vertically and movably clamped and installed in the bottom box body 1; the driving mechanism 7 is arranged on one side of the bottom box body 1, and the driving mechanism 7 controls the floating plate 3 to move up and down; the heating pipe 2 is of a bent and circuitous pipeline structure; the heating pipe 2 is arranged on the upper side of the floating plate 3; the turnover type light source assembly 5 comprises a rotating plate 51, a light source bracket 52 and a light emitting tube 53; the middle of the floating plate 3 is provided with an accommodating groove; the rotating plate 51 is rotatably arranged on the accommodating groove; a plurality of light source holders 52 are provided at one side of the rotating plate 51, and light emitting tubes 53 are respectively mounted on the light source holders 52.

As shown in fig. 1 to 5, in order to conveniently drive the floating plate 3 up and down, further, the driving mechanism 4 includes a longitudinal moving block 42, a driving screw 43, and a limit slider 41; the two ends of the floating plate 3 are respectively provided with a longitudinal moving block 42 and a limiting slide block 41; two sides of the interior of the bottom box body 1 are respectively provided with a driving sliding chute 12 and a limiting sliding chute 11; the longitudinal moving block 42 is slidably mounted on the driving chute 12; the limiting sliding block 41 is connected to the limiting sliding groove 11 in a sliding and clamping manner; the longitudinal moving block 42 is provided with a thread passage 421, the thread passage 421 is screwed with a driving screw 43, the lower end of the driving screw 43 is rotatably clamped at the lower end of the driving chute 12, and the upper end of the driving screw 43 extends to the upper part of the bottom box body 1.

As shown in fig. 1 to 5, in order to realize mechanical automatic driving, further, the driving mechanism 4 further includes a driven gear 44, a driving gear 45, an adjusting motor 47, and a connecting belt 46; a driven gear 44 is arranged at the upper end of the driving screw 43; an adjusting motor 47 is arranged outside one side of the bottom box body 1, and a driving gear 45 is arranged on the adjusting motor 47 through a rotating shaft; a connecting belt 46 is arranged between the driving gear 45 and the driven gear 44.

As shown in fig. 1 to 5, in order to realize the movable installation of the floating pipeline 2, further, two sides of the floating plate 3 are provided with installation channels 31 penetrating through the front and the rear; two sides of the bottom of the floating pipeline 2 are respectively provided with a mounting sliding rod 22; the slide bar 22 is slidably engaged with the floating plate 3 from the installation passage 31. In order to realize convenient movement, the two ends of the floating pipeline 2 are respectively provided with a flexible hose 21.

As shown in fig. 1 to 5, in order to realize the convenient turning of the light source bracket 52 and the light emitting tube 53, further, two sides of the rotating plate 51 are respectively provided with a rotating clamping column 511; the two sides of the accommodating groove of the floating plate 51 are respectively provided with a rotary clamping groove 32; the rotating plate 51 is rotatably clamped in the rotating clamping groove 32 through the rotating clamping posts 511 at both sides. In order to facilitate heat conduction, a heat conduction plate 61 is arranged at the bottom of the bottom box body 1, and a plurality of heating pipes 6 are laid at the bottom of the heat conduction plate 61.

The utility model discloses carry out the circulatory transport breed with little algae liquid through pipeline 2 that floats, breed through outside illumination daytime, get into the inside that indoor back got into bottom box 1 through 4 drive floating plate 3 of actuating mechanism, heat conduction through heating pipe 6, overturn rotor plate 51 on the holding fluting, make a plurality of light source support 52 and luminotron 53 upset upwards shine to pipeline 2 that floats, so realize convenient efficient and breed, rotor plate 51 can the pivoted design on the holding fluting, make daytime avoid illumination to influence luminotron 53 life with luminotron 53 upset downwards under the stronger condition of illumination.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A built-in photoreactor for microalgae culture is characterized by comprising a bottom box body, a floating plate, a floating pipeline, a driving mechanism, a turnover type light source component and a heating pipe; the bottom box body is of a structure with a closed bottom and periphery and an open upper end; a plurality of heating pipes are uniformly paved below the inner part of the bottom box body; the floating plate is vertically and movably clamped and mounted in the bottom box body; the driving mechanism is arranged on one side of the bottom box body and controls the floating plate to move up and down; the heating pipe is of a bent and circuitous pipeline structure; the heating pipe is arranged on the upper side of the floating plate; the turnover type light source component comprises a rotating plate, a light source bracket and a light emitting tube; the middle of the floating plate is provided with an accommodating groove; the rotating plate is rotatably arranged on the accommodating groove; and a plurality of light source brackets are arranged on one side of the rotating plate, and luminous tubes are respectively arranged on the light source brackets.

2. The photoreactor for microalgae cultivation capable of being built-in according to claim 1, wherein the driving mechanism comprises a longitudinal moving block, a driving screw rod and a limiting slide block; the two ends of the floating plate are respectively provided with a longitudinal moving block and a limiting slide block; two sides of the interior of the bottom box body are respectively provided with a driving sliding chute and a limiting sliding chute; the longitudinal moving block is slidably arranged on the driving sliding chute; the limiting sliding block is connected to the limiting sliding groove in a sliding and clamping mode; the longitudinal moving block is provided with a thread channel, a driving screw is screwed on the thread channel, the lower end of the driving screw is rotationally clamped at the lower end of the driving chute, and the upper end of the driving screw extends to the upper part of the bottom box body.

3. The photoreactor for microalgae cultivation that can be built in according to claim 2, wherein the driving mechanism further comprises a driven gear, a driving gear, an adjusting motor, a connecting belt; a driven gear is arranged at the upper end of the driving screw rod; an adjusting motor is arranged outside one side of the bottom box body, and a driving gear is arranged on the adjusting motor through a rotating shaft; and a connecting belt is arranged between the driving gear and the driven gear.

4. The photoreactor for microalgae cultivation capable of being built-in according to claim 1, wherein the floating plate is provided with mounting channels penetrating through the front and the rear at two sides; two sides of the bottom of the floating pipeline are respectively provided with an installation sliding rod; the sliding rod is slidably clamped on the floating plate from the mounting channel.

5. The photoreactor for microalgae cultivation capable of being built-in according to claim 1, wherein the two ends of the floating pipeline are respectively provided with a flexible hose.

6. The photoreactor for microalgae cultivation capable of being built-in according to claim 1, wherein the two sides of the rotating plate are respectively provided with a rotating clamping column; the two sides of the accommodating groove of the floating plate are respectively provided with a rotary clamping groove; the rotating plate is rotatably clamped on the rotating clamping grooves through the rotating clamping columns on the two sides.

7. The photoreactor for microalgae cultivation capable of being built-in according to claim 1, wherein the bottom of the bottom box body is provided with a heat conducting plate, and the plurality of heating pipes are laid at the bottom of the heat conducting plate.

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