CN215560224U - Multi-functional little algae incubator - Google Patents

Abstract

The utility model discloses a multifunctional microalgae incubator which comprises an incubator body, a switch door, a power module and a control module, wherein the incubator body comprises an upper culture chamber and a lower culture chamber which are arranged in an up-down stacked mode, the upper culture chamber and the lower culture chamber are internally provided with temperature control modules connected with the control module respectively, the upper culture chamber is in a standing condition state, and the lower culture chamber is internally provided with a shaking table structure capable of vibrating. By adopting the structure, the different types of microalgae have different requirements on the dynamic and static water bodies, for example, diatoms which are easy to sink can grow rapidly under the oscillation condition, and freshwater green algae such as scenedesmus, discriminant algae and the like prefer the still water environment. The lower culture chamber of the incubator is designed into a shaking table structure, and the upper culture chamber is a standing condition, so that the space is reasonably and effectively utilized, and algae with different requirements can be positioned in one incubator.

Description

Multi-functional little algae incubator

Technical Field

The utility model relates to a multifunctional microalgae incubator, in particular to a multifunctional microalgae incubator meeting the requirements of different microalgae culture experiments.

Background

The optimal growth conditions of different kinds of microalgae are different. Most of the incubators have single function, are generally more suitable for culturing other microorganisms except the microalgae, and are difficult to provide better growth conditions for different types of microalgae at the same time. In addition, some laboratories do not have proper conditions and space for specially setting up a microalgae culture room, so that the multifunctional microalgae culture box is particularly important to be equipped.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a multifunctional microalgae incubator which has the characteristic of meeting the requirements of different microalgae culture experiments.

In order to solve the technical problems, the technical scheme of the utility model is as follows: a multi-functional little algae incubator, its innovation point lies in: multifunctional little algae incubator include the incubator body, be located the switch door in this incubator body the place ahead, set up power module on this incubator body and with the control module that power module links to each other, the incubator body includes from top to bottom range upon range of the setting cultivate the room and be located cultivate the room under on and under the room below, on cultivate the room with cultivate indoor respectively be provided with down with the temperature control module that control module links to each other, on cultivate the room and be in the condition state of standing still, cultivate indoor shaking table structure that is provided with the vibration down.

Preferably, the upper culture chamber and the lower culture chamber can be provided with one of two temperature control areas, including a first temperature control area and a second temperature control area, wherein the range of the first temperature control area is 22-25 ℃, and the range of the second temperature control area is 27-30 ℃.

Preferably, the incubator body is provided with an incubator power switch connected with the power module; a first touch screen numerical control panel connected with the control module is arranged on the incubator body in an upper incubator area, and a second touch screen numerical control panel connected with the control module is arranged on the incubator body in a lower incubator area.

Preferably, a plurality of lamp tubes are arranged in the upper culture chamber and the lower culture chamber and are respectively connected with the control module through control components.

Preferably, a plurality of culture dish drawers are arranged in the upper culture chamber in an up-down stacked mode, the culture dish rack is located above the culture dish drawers correspondingly, and the culture dishes are located in the culture dish drawers or on the culture dish rack.

Preferably, the culture dish rack is made of transparent plastic materials, and a plurality of culture dish rack units are stacked up and down; the culture dish drawer is made of transparent plastic materials.

Preferably, the upper culture chamber is provided with a plurality of fixed-point clamping grooves on the inner wall of the upper culture chamber, and the corresponding culture dish drawer is slidably matched in the upper culture chamber along the fixed-point clamping grooves; and a culture dish drawer handle for pulling out is arranged on the culture dish drawer.

Preferably, the shaking table structure that sets up in the lower incubator includes the vibration test-tube rack that can vibrate, is located this shaking table structure below and is used for restricting the test tube fixing device of test tube degree of freedom, and the test tube is located the vibration test-tube rack.

Preferably, test-tube rack fixing device includes that perpendicular to positive plane inserts iron bar in the vibration test-tube rack, with stiff end that the iron bar links to each other, install adjustable knob on the stiff end, adjustable knob is located iron bar and is close to user one side, the restriction is located after inserting the iron bar the horizontal degree of freedom of the test tube in the vibration test-tube rack.

Preferably, the incubator body is provided with heat dissipation holes positioned below the incubator body; two visual glass windows are arranged on the switch door and are respectively opposite to the upper culture chamber and the lower culture chamber.

The utility model has the advantages that: by adopting the structure, the different types of microalgae have different requirements on the dynamic and static water bodies, for example, diatoms which are easy to sink can grow rapidly under the oscillation condition, and freshwater green algae such as scenedesmus, discriminant algae and the like prefer the still water environment. The lower culture chamber of the incubator is designed into a shaking table structure, and the upper culture chamber is a standing condition, so that the space is reasonably and effectively utilized, and algae with different requirements can be positioned in one incubator.

Drawings

The utility model is described in further detail below with reference to the figures and the detailed description.

FIG. 1 is a schematic structural view of a multifunctional microalgae incubator according to the present invention.

FIG. 2 is a schematic structural diagram of a culture dish rack in a multifunctional microalgae incubator according to the utility model.

Fig. 3 is a schematic structural diagram of an oscillation test tube rack and a test tube rack fixing device in a multifunctional microalgae incubator.

In the figure: 01-incubator body; 02-opening and closing the door; 03-upper culture chamber; 04-lower culture chamber, 1-incubator power switch; 21-a first touch screen numerical control panel; 22-a second touch screen numerical control panel; 3, lighting a lamp tube; 4-a culture dish drawer; 5-culture dish rack; 6-fixed point card slot; 7-oscillating the test tube rack; 8-a test tube rack fixing device; 81-iron bar; 82-a fixed end; 83-an adjustable knob; 9-a petri dish drawer handle; 10-shaking table structure; 11-heat dissipation holes; 12-a visible glazing; 13-test tube.

Detailed Description

The multifunctional microalgae incubator comprises an incubator body 01, a switch door 02 positioned in front of the incubator body, a power module arranged on the incubator body and a control module connected with the power module, wherein the incubator body comprises an upper incubator 03-and a lower incubator 04 positioned below the upper incubator in an up-and-down stacked manner, temperature control modules connected with the control module are respectively arranged in the upper incubator and the lower incubator, the upper incubator is in a standing condition, and a shaking table structure 10 capable of vibrating is arranged in the lower incubator. By adopting the structure, the different types of microalgae have different requirements on the dynamic and static water bodies, for example, diatoms which are easy to sink can grow rapidly under the oscillation condition, and freshwater green algae such as scenedesmus, discriminant algae and the like prefer the still water environment. The lower culture chamber of the incubator is designed into a shaking table structure, and the upper culture chamber is a standing condition, so that the space is reasonably and effectively utilized, and algae with different requirements can be positioned in one incubator.

The upper culture chamber and the lower culture chamber can be respectively provided with one of two temperature control areas, and the temperature control areas comprise a first temperature control area and a second temperature control area, wherein the range of the first temperature control area is 22-25 ℃, and the range of the second temperature control area is 27-30 ℃. The upper and lower independent culture chambers can be respectively set with temperature, the optimum temperature of some algae such as seawater diatom is 22-25 deg.C, and the optimum temperature of some fresh water green algae is 27-30 deg.C. In the case of the conventional culture conditions alone, it is generally possible to set the temperature of 25 to 27 ℃ so that both algae can grow normally, although the optimal conditions are not achieved. Setting the temperature separately provides optimal temperature conditions for most algae.

The incubator body is provided with an incubator power switch 1 connected with the power module; a first touch screen numerical control panel 21 connected with the control module is arranged on the upper incubator area on the incubator body, and a second touch screen numerical control panel 22 connected with the control module is arranged on the lower incubator area on the incubator body. This incubator adopts touch screen numerical control panel, and two upper and lower cultivate rooms possess independent panel, can set up the light quality, the light intensity, the switch of temperature and each fluorescent tube, and the lower floor still can set up the oscillation speed, flexible operation, simple and convenient, clear.

The upper culture chamber and the lower culture chamber are internally provided with a plurality of lamp tubes 3 which are respectively connected with the control module through control components. A large number of studies show that different microalgae have different requirements on optimal light quality and light intensity. The incubator can set the light quality and light intensity of each lamp tube, provide light source of various colors and illuminate regularly. In addition, most lamp tubes are arranged on the side surface of the inner wall of the culture box, so that more reasonable light source distribution is realized when the algae are cultured in common conical flasks and test tubes, the illumination utilization rate is greatly improved, and the growth condition of the microalgae can be observed more conveniently.

A plurality of culture dish drawers 4 and culture dish frames 5 which are arranged above the corresponding culture dish drawers are arranged in the upper culture chamber in an up-down stacking manner, and the culture dishes are positioned in the culture dish drawers or on the culture dish frames. The culture dish rack is made of transparent plastic materials, and a plurality of culture dish rack units are vertically stacked; the culture dish drawer is made of transparent plastic materials. A plurality of fixed-point clamping grooves 6 are arranged on the inner wall of the upper culture chamber, and corresponding culture dish drawers are slidably matched in the upper culture chamber along the fixed-point clamping grooves; a culture dish drawer handle 9 for pulling out is arranged on the culture dish drawer. In order to more flexibly and reasonably utilize the space, the upper culture chamber adopts a fixed-point clamping groove design and adopts a transparent plastic drawer, a culture dish or an EP (EP) tube can be placed in the drawer, a conical flask, a test tube rack and the like can be placed on the drawer, and the space height of each layer can be adjusted according to the requirements of users. In addition, the culture dish rack made of transparent plastic is arranged, so that the culture dish is placed stably and is convenient to take. These designs are favorable to observing the little algae growth condition of culture dish, need not to observe at every turn and all will take out a pile of culture dish simultaneously, have also avoided the culture dish loss that the circumstances such as drop caused.

The shaking table structure that sets up in foretell incubator includes vibration test-tube rack 7 that can vibrate, is located this shaking table structure below and is used for restricting test tube fixing device 8 of test tube degree of freedom, and test tube 13 is located the vibration test-tube rack. The test-tube rack fixing device comprises an iron bar 81 inserted into the vibration test-tube rack perpendicular to the front plane, a fixed end 82 connected with the iron bar, and an adjustable knob 83 installed on the fixed end, wherein the adjustable knob is located on the iron bar and close to one side of a user, and the horizontal degree of freedom of a test tube in the vibration test-tube rack is limited after the iron bar is inserted. The different types of microalgae have different requirements on the dynamic and static water bodies. For example, diatoms that are prone to sediment can grow rapidly under shaking conditions, whereas freshwater green algae such as scenedesmus, discemaria, etc. prefer a still water environment. The lower culture chamber of the incubator is designed as a shaking table, and the upper culture chambers are both in a standing condition, so that the space is reasonably and effectively utilized, and algae with different requirements can be positioned in one incubator.

The incubator body is provided with a heat dissipation hole 11 positioned below the incubator body; two visual glass windows 12 are arranged on the switch door, and the two visual glass windows are respectively opposite to the upper culture chamber and the lower culture chamber.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the technical solutions, and those skilled in the art should understand that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions, and all the modifications and equivalent substitutions should be covered by the claims of the present invention.

Claims (10)

1. A multi-functional little algae incubator which characterized in that: multifunctional little algae incubator include the incubator body, be located the switch door in this incubator body the place ahead, set up power module on this incubator body and with the control module that power module links to each other, the incubator body includes from top to bottom range upon range of the setting cultivate the room and be located cultivate the room under on and under the room below, on cultivate the room with cultivate indoor respectively be provided with down with the temperature control module that control module links to each other, on cultivate the room and be in the condition state of standing still, cultivate indoor shaking table structure that is provided with the vibration down.

2. A multifunctional microalgae incubator as claimed in claim 1, wherein: the upper culture chamber and the lower culture chamber can be provided with one of two temperature control areas, and the temperature control areas comprise a first temperature control area and a second temperature control area, wherein the range of the first temperature control area is 22-25 ℃, and the range of the second temperature control area is 27-30 ℃.

3. A multifunctional microalgae incubator as claimed in claim 1, wherein: the incubator body is provided with an incubator power switch connected with the power module; a first touch screen numerical control panel connected with the control module is arranged on the incubator body in an upper incubator area, and a second touch screen numerical control panel connected with the control module is arranged on the incubator body in a lower incubator area.

4. A multifunctional microalgae incubator as claimed in claim 1, wherein: the upper culture chamber and the lower culture chamber are internally provided with a plurality of lamp tubes which are respectively connected with the control module through control components.

5. A multifunctional microalgae incubator as claimed in claim 1, wherein: go up the culture chamber indoor be provided with a plurality of range upon range of culture dish drawers, be located correspondingly the culture dish frame of culture dish drawer top, the culture dish is located in the culture dish drawer perhaps on the culture dish frame.

6. A multifunctional microalgae incubator as claimed in claim 5, characterized in that: the culture dish rack is made of transparent plastic materials, and a plurality of culture dish rack units are arranged in an up-down stacked mode; the culture dish drawer is made of transparent plastic materials.

7. A multifunctional microalgae incubator as claimed in claim 5, characterized in that: the upper culture chamber is provided with a plurality of fixed-point clamping grooves which are positioned on the inner wall of the upper culture chamber, and the corresponding culture dish drawer is arranged in the upper culture chamber along the fixed-point clamping grooves in a sliding manner; and a culture dish drawer handle for pulling out is arranged on the culture dish drawer.

8. A multifunctional microalgae incubator as claimed in claim 1, wherein: the shaking table structure that sets up in the lower incubator includes the vibration test-tube rack that can vibrate, is located this shaking table structure below and is used for restricting the test tube fixing device of test tube degree of freedom, and the test tube is located the vibration test-tube rack.

9. A multifunctional microalgae incubator as claimed in claim 8, wherein: the test-tube rack fixing device comprises an iron bar which is inserted into the vibration test-tube rack in a vertical plane, a fixed end which is connected with the iron bar, and an adjustable knob which is arranged on the fixed end, wherein the adjustable knob is positioned on the iron bar and is close to one side of a user, and the iron bar is limited to be positioned at the transverse degree of freedom of a test tube in the vibration test-tube rack after being inserted.

10. A multifunctional microalgae incubator as claimed in claim 1, wherein: the incubator body is provided with heat dissipation holes positioned below the incubator body; two visual glass windows are arranged on the switch door and are respectively opposite to the upper culture chamber and the lower culture chamber.

Images