CN213680655U - Active fungus culture apparatus with environment simulation mechanism - Google Patents

Abstract

The utility model discloses an active fungus culture apparatus with environmental simulation mechanism, including cultivateing equipment and chamber door, cultivate the front of equipment and install the chamber door, when the active fungus needs carry out the environmental simulation and cultivates, can make active fungus put simultaneously in the first carousel and the second carousel upper end in heated warehouses and cold wind storehouse, the chamber door is closed this moment, a driving motor rotates and drives first fan and rotate, first fan blows out the air current, the air current meets a side-mounting's triangle and begins to carry out the shut, the air current of lower extreme is blown to the heated warehouses after the heater strip heating, thereby can simulate hotter environment, the air current of upper end is refrigerated by the semiconductor refrigeration piece, blow to the cold wind storehouse, thereby can simulate colder environment, the convenience carries out different environmental simulation to same active fungus wholesale.

Description

Active fungus culture apparatus with environment simulation mechanism

Technical Field

The utility model relates to an active fungus culture apparatus technical field specifically is an active fungus culture apparatus with environmental simulation mechanism.

Background

The incubator is a temperature-controllable box device mainly used for culturing microorganisms, plants and animal cells, has refrigeration and heating functions, is basic experimental equipment for biological, agricultural, medical, environmental-friendly and other scientific research departments, and is widely applied to tests such as constant-temperature culture, constant-temperature reaction and the like.

However, when the existing active bacteria are cultured, the culture device is controlled by a single temperature, and two different temperature environments cannot be simulated at the same time, so that the experiment is repeatedly operated.

The problems described above are addressed. Therefore, an active bacteria culture apparatus having an environment simulation mechanism is proposed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an active fungus culture apparatus with environmental simulation mechanism, when the active fungus needs carry out the environmental simulation and cultivates, can make active fungus put simultaneously on the first carousel and the second carousel in heated warehouses and cold wind storehouse, the chamber door is closed this moment, first driving motor rotates and drives first fan and rotate, first fan blows off the air current, the air current meets the triangle piece of a side-mounting and begins to carry out the shut, the air current of lower extreme is blown to the heated warehouses after being heated by the heater strip, thereby can simulate hotter environment, the air current of upper end is refrigerated by the semiconductor refrigeration piece, blow to the cold wind storehouse, thereby can simulate colder environment, conveniently carry out different environmental simulation to same batch of active fungus, thereby the problem in the above-mentioned background art has been solved.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an active bacteria culture apparatus with environmental simulation mechanism, is including cultivateing equipment and chamber door, cultivates the front of equipment and installs the chamber door, cultivate equipment and include main part, heated warehouses, cold wind storehouse and ventilation hole, the heated warehouses is installed to the inner chamber lower extreme of main part, and the cold wind storehouse is installed to the inner chamber upper end of main part, and the ventilation hole is installed to the inner chamber wall in cold wind storehouse and heated warehouses.

Preferably, the main part includes first toper ratch, first driving motor, second toper ratch, third toper ratch, tuber pipe and exhaust pipe, and first toper ratch is installed to the inner chamber one side of main part, and the inner chamber back mounted of main part has first driving motor, and second toper ratch is installed to first driving motor's upper end, and third toper ratch is installed to one side of second toper ratch, and the tuber pipe has been seted up to one side of first driving motor, and the exhaust pipe has been seted up to the upper end of tuber pipe.

Preferably, the first driving motor comprises a first fan and a first bevel gear, the first fan is mounted on one side of the first driving motor, and the first bevel gear is mounted on the outer surface of the first fan.

Preferably, the upper end of the first bevel gear is in meshed connection with the second bevel gear rod.

Preferably, the tuber pipe includes triangle piece, heater strip, semiconductor refrigeration piece and heat radiation fins, and the triangle piece is installed to one side of tuber pipe, and the triangle piece level is located first fan one side, and the heater strip is installed to the inner chamber lower extreme of tuber pipe, and the semiconductor refrigeration piece is installed to the inner chamber upper end of tuber pipe, and heat radiation fins is installed to the upper end of semiconductor refrigeration piece.

Preferably, the exhaust pipe includes mounting panel, second fan and fourth bevel gear, and the mounting panel is installed to the inner chamber of exhaust pipe, and the second fan is installed to the inner chamber of mounting panel, and fourth bevel gear is installed to the upper end of second fan.

Preferably, the heating bin comprises a first rotary disc, a second driving motor, a second bevel gear and a fourth bevel gear rod, the first rotary disc is installed on the bottom surface of an inner cavity of the heating bin, the second driving motor is installed at the lower end of the first rotary disc, the second bevel gear is installed at the upper end of the second driving motor, one side of the second bevel gear is meshed with the fourth bevel gear rod, and the other side of the fourth bevel gear is meshed with the first bevel gear rod.

Preferably, the cold air bin comprises a heat insulation plate, a second rotary table, a rotating rod, a third bevel gear and a fifth conical toothed rod, the heat insulation plate is installed on the bottom surface of the inner cavity of the cold air bin, the second rotary table is installed at the upper end of the heat insulation plate, the rotating rod is installed at the lower end of the second rotary table, the third bevel gear is installed on the outer surface of the rotating rod, the fifth conical toothed rod is installed on one side of the third bevel gear, and the fifth conical toothed rod is meshed with the upper end of the first conical toothed rod.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides an active fungus culture apparatus with environmental simulation mechanism, when the active fungus needs to carry out the environmental simulation and cultivates, can make active fungus put simultaneously on the first carousel of heated warehouses and cold wind storehouse and second carousel upper end, the chamber door is closed this moment, first driving motor rotates and drives first fan and rotate, first fan blows off the air current, the air current meets the triangle piece of one side-mounting and begins to carry out the shunting, the air current of lower extreme blows to the heated warehouses after being heated by the heater strip, thereby can simulate hotter environment, the air current of upper end is refrigerated by the semiconductor refrigeration piece, blow to the cold wind storehouse, thereby can simulate colder environment, conveniently carry out different environmental simulations to same batch of active fungus;

2. the utility model provides an active bacteria culture apparatus with environmental simulation mechanism, when first driving motor rotates, drive first bevel gear and rotate, first bevel gear drives second toper ratch, second toper ratch drives third toper ratch after rotating, third toper ratch rotates and then drives the second fan through fourth bevel gear and rotates to can make the radiating heat of heat radiation fins discharged fast, and carry out power drive by first driving motor, simple structure is practical;

3. the utility model provides an active fungus culture apparatus with environmental simulation mechanism, active fungus is when the simulated environment, second driving motor can rotate, second driving motor drives first carousel and rotates, make more even being heated of active fungus, it is more accurate to make the experiment, and second driving motor drives second bevel gear, second bevel gear then drives fourth toper pinion, drive first toper pinion after fourth toper pinion is rotatory, first toper pinion then drives fifth toper pinion, fifth toper pinion drives the second carousel through third bevel gear and rotates, realize the second carousel and the synchronous revolution of first carousel of cold wind storehouse.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the cultivation apparatus of the present invention;

FIG. 3 is a schematic view of the internal structure of the cultivation apparatus of the present invention;

FIG. 4 is a schematic diagram of the side view of the internal structure of the cultivation apparatus of the present invention;

fig. 5 is an enlarged schematic structural diagram of a in fig. 4 according to the present invention.

In the figure: 1. a culture device; 11. a main body; 111. a first conical rack bar; 112. a first drive motor; 1121. a first fan; 1122. a first bevel gear; 113. a second conical rack; 114. a third tapered rack bar; 115. an air duct; 1151. a triangular block; 1152. heating wires; 1153. a semiconductor refrigeration sheet; 1154. heat dissipation fins; 116. an exhaust duct; 1161. mounting a plate; 1162. a second fan; 1163. a fourth bevel gear; 12. a heating chamber; 121. a first turntable; 122. a second drive motor; 123. a second bevel gear; 124. a fourth conical rack; 13. a cold air bin; 131. a heat insulation plate; 132. a second turntable; 133. a rotating rod; 134. a third bevel gear; 135. a fifth conical rack bar; 14. a vent hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, an active bacteria culturing device with an environment simulation mechanism comprises a culturing device 1 and a box door 2, wherein the box door 2 is installed on the front surface of the culturing device 1, the culturing device 1 comprises a main body 11, a heating chamber 12, a cold air chamber 13 and a vent hole 14, the heating chamber 12 is installed at the lower end of an inner cavity of the main body 11, the cold air chamber 13 is installed at the upper end of the inner cavity of the main body 11, and the vent hole 14 is installed on the inner cavity walls of the cold air chamber 13 and the heating chamber 12.

Referring to fig. 3-5, the main body 11 includes a first conical rack 111 and a first driving motor 112, the first driving motor 112 includes a first fan 1121 and a first conical gear 1122, an upper end of the first conical gear 1122 is engaged with the second conical rack 113, the first fan 1121 is installed at one side of the first driving motor 112, the first conical gear 1122 is installed on an outer surface of the first fan 1121, the second conical gear 113, the third conical gear 114, and the air duct 115, the air duct 115 includes a triangular block 1151, a heating wire 1152, a semiconductor chilling plate 1153, and a heat dissipation fin 1154, the triangular block 1151 is installed at one side of the air duct 115, the triangular block 1151 is horizontally located at one side of the first fan 1121, the heating wire 1152 is installed at a lower end of an inner cavity of the air duct 115, the semiconductor chilling plate 1153 is installed at an upper end of the inner cavity of the air duct 115, the heat dissipation fin 1154 is installed at an upper end of the semiconductor chilling plate 1153, the active bacteria can be simultaneously placed at the upper ends of the first rotating disc 121 and the second rotating disc 132 of the heating bin 12 and the cold air bin 13, at this time, the box door 2 is closed, the first driving motor 112 rotates to drive the first fan 1121 to rotate, the first fan 1121 blows out air flow, the air flow meets the triangular block 1151 installed on one side and starts to be shunted, the air flow at the lower end is heated by the heating wire 1152 and then blows towards the heating bin 12, so that a hotter environment can be simulated, the air flow at the upper end is refrigerated by the semiconductor refrigerating sheet 1153 and blows towards the cold air bin 13, so that a colder environment can be simulated, different environment simulations on the same batch of active bacteria can be conveniently performed, the exhaust pipe 116 comprises an installation plate 1161, a second fan 1162 and a fourth bevel gear 1163, the installation plate 1161 is installed in the inner cavity of the exhaust pipe 116, the second fan 1162 is installed in the inner cavity of the installation plate 1161, the fourth bevel gear 1163 is installed at the upper end, the first bevel gear 1122 is driven to rotate, the first bevel gear 1122 drives the second conical rack bar 113, the second conical rack bar 113 drives the third conical rack bar 114 after rotating, the third conical rack bar 114 rotates and drives the second fan 1162 to rotate through the fourth bevel gear 1163, so that heat dissipated by the heat dissipating fins 1154 can be rapidly discharged and is driven by the first driving motor 112, the structure is simple and practical, the first conical rack bar 111 is installed on one side of the inner cavity of the main body 11, the first driving motor 112 is installed on the back surface of the inner cavity of the main body 11, the second conical rack bar 113 is installed on the upper end of the first driving motor 112, the third conical air duct 114 is installed on one side of the second conical rack bar 113, the first driving motor 112 is provided with a duct 115, the duct 116 is provided on the upper end of the air duct 115, the heating chamber 12 comprises a first rotary disc 121, a second driving motor 122, a second exhaust gear 123 and a fourth conical rack bar 124, a first rotating disc 121 is installed on the bottom surface of an inner cavity of the heating chamber 12, a second driving motor 122 is installed on the lower end of the first rotating disc 121, a second bevel gear 123 is installed on the upper end of the second driving motor 122, one side of the second bevel gear 123 is engaged with a fourth bevel gear 124, the other side of the fourth bevel gear 124 is engaged with a first bevel gear 111, the cold air chamber 13 comprises a heat insulation plate 131, a second rotating disc 132, a rotating rod 133, a third bevel gear 134 and a fifth bevel gear 135, the bottom surface of the inner cavity of the cold air chamber 13 is installed with the heat insulation plate 131, the upper end of the heat insulation plate 131 is installed with the second rotating disc 132, the lower end of the second rotating disc 132 is installed with the rotating rod 133, the outer surface of the rotating rod 133 is installed with the third bevel gear 134, one side of the third bevel gear 134 is installed with the fifth bevel gear 135, and the fifth bevel gear 135 is engaged with the upper end of the first, second driving motor 122 can rotate, second driving motor 122 drives first carousel 121 and rotates, make more even being heated of active fungus, it is more accurate to make the experiment, and second driving motor 122 drives second bevel gear 123, second bevel gear 123 then drives fourth toper pinion 124, fourth toper pinion 124 drives first toper pinion 111 after rotatory, first toper pinion 111 then drives fifth toper pinion 135, fifth toper pinion 135 drives second carousel 132 through third bevel gear 134 and rotates, realize the second carousel 132 and the synchronous revolution of first carousel 121 of cold wind storehouse 13.

In summary, the following steps: the utility model provides an active bacteria culture device with environment simulation mechanism, when the active bacteria needs to be cultured in an environment simulation way, the active bacteria can be simultaneously placed on the upper ends of a first turntable 121 and a second turntable 132 of a heating chamber 12 and a cold air chamber 13, at the moment, a chamber door 2 is closed, a first driving motor 112 rotates to drive a first fan 1121 to rotate, the first fan 1121 blows out air flow, the air flow meets a triangular block 1151 installed on one side and starts to be shunted, the air flow at the lower end is heated by a heating wire 1152 and then blows to the heating chamber 12, so that a hotter environment can be simulated, the air flow at the upper end is refrigerated by a semiconductor refrigerating sheet 1153 and blows to the cold air chamber 13, thereby the colder environment can be simulated, different environment simulations can be conveniently performed on the same batch of active bacteria, when the first driving motor 112 rotates, a first bevel gear 1122 is driven to rotate, the first bevel gear drives a second bevel gear 1122, the second conical rack 113 rotates to drive the third conical rack 114, the third conical rack 114 rotates to drive the second fan 1162 to rotate through the fourth bevel gear 1163, therefore, the heat dissipated by the heat dissipating fins 1154 can be rapidly discharged, and the first driving motor 112 is used for driving the heat dissipating fins, the structure is simple and practical, when the active bacteria are used for simulating the environment, the second driving motor 122 can rotate, the second driving motor 122 drives the first rotating disc 121 to rotate, so that the active bacteria are heated more uniformly, the experiment is more accurate, the second driving motor 122 drives the second bevel gear 123, the second bevel gear 123 drives the fourth bevel gear 124, the fourth bevel gear 124 rotates to drive the first bevel gear 111, the first bevel gear 111 drives the fifth bevel gear 135, and the fifth bevel gear 135 drives the second turntable 132 to rotate through the third bevel gear 134, so that the second turntable 132 and the first turntable 121 of the cold air bin 13 rotate synchronously.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an active fungus culture apparatus with environmental simulation mechanism, includes cultivation equipment (1) and chamber door (2), its characterized in that are installed to the front of cultivation equipment (1): cultivate equipment (1) and include main part (11), heated warehouses (12), cold wind storehouse (13) and ventilation hole (14), heated warehouses (12) are installed to the inner chamber lower extreme of main part (11), and cold wind storehouse (13) are installed to the inner chamber upper end of main part (11), and ventilation hole (14) are installed to the inner chamber wall of cold wind storehouse (13) and heated warehouses (12).

2. The apparatus for culturing active bacteria having an environment simulation mechanism according to claim 1, wherein: main part (11) include first toper ratch (111), first driving motor (112), second toper ratch (113), third toper ratch (114), tuber pipe (115) and exhaust pipe (116), first toper ratch (111) are installed to inner chamber one side of main part (11), the inner chamber back mounted of main part (11) has first driving motor (112), second toper ratch (113) are installed to the upper end of first driving motor (112), third toper ratch (114) are installed to one side of second toper ratch (113), tuber pipe (115) have been seted up to one side of first driving motor (112), exhaust pipe (116) have been seted up to the upper end of tuber pipe (115).

3. The apparatus for culturing active bacteria having an environment simulation mechanism according to claim 2, wherein: the first driving motor (112) comprises a first fan (1121) and a first bevel gear (1122), the first fan (1121) is installed on one side of the first driving motor (112), and the first bevel gear (1122) is installed on the outer surface of the first fan (1121).

4. The apparatus for culturing active bacteria having an environment simulation mechanism according to claim 3, wherein: the upper end of the first bevel gear (1122) is in meshed connection with the second conical toothed bar (113).

5. The apparatus for culturing active bacteria having an environment simulation mechanism according to claim 2, wherein: the air pipe (115) comprises a triangular block (1151), a heating wire (1152), a semiconductor refrigerating piece (1153) and radiating fins (1154), the triangular block (1151) is installed on one side of the air pipe (115), the triangular block (1151) is horizontally located on one side of a first fan (1121), the heating wire (1152) is installed at the lower end of an inner cavity of the air pipe (115), the semiconductor refrigerating piece (1153) is installed at the upper end of the inner cavity of the air pipe (115), and the radiating fins (1154) are installed at the upper end of the semiconductor refrigerating piece (1153).

6. The apparatus for culturing active bacteria having an environment simulation mechanism according to claim 2, wherein: exhaust pipe (116) include mounting panel (1161), second fan (1162) and fourth bevel gear (1163), and mounting panel (1161) is installed to the inner chamber of exhaust pipe (116), and second fan (1162) are installed to the inner chamber of mounting panel (1161), and fourth bevel gear (1163) are installed to the upper end of second fan (1162).

7. The apparatus for culturing active bacteria having an environment simulation mechanism according to claim 1, wherein: the heating bin (12) comprises a first rotating disc (121), a second driving motor (122), a second bevel gear (123) and a fourth bevel gear rod (124), the first rotating disc (121) is installed on the bottom surface of an inner cavity of the heating bin (12), the second driving motor (122) is installed at the lower end of the first rotating disc (121), the second bevel gear (123) is installed at the upper end of the second driving motor (122), one side of the second bevel gear (123) is meshed with the fourth bevel gear rod (124), and the other side of the fourth bevel gear rod (124) is meshed with the first bevel gear rod (111).

8. The apparatus for culturing active bacteria having an environment simulation mechanism according to claim 1, wherein: cold wind storehouse (13) are including heat insulating board (131), second carousel (132), bull stick (133), third bevel gear (134) and fifth toper ratch (135), heat insulating board (131) are installed to the inner chamber bottom surface of cold wind storehouse (13), second carousel (132) are installed to the upper end of heat insulating board (131), bull stick (133) are installed to the lower extreme of second carousel (132), the surface mounting of bull stick (133) has third bevel gear (134), fifth toper ratch (135) are installed to one side of third bevel gear (134), and fifth toper ratch (135) are connected with the upper end meshing of first toper ratch (111).

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