CN217628397U - Bacterial manure microbial cultivation is with constant temperature culture apparatus - Google Patents

Abstract

The utility model provides a constant temperature culture device for bacterial manure microorganism culture, which comprises a thermostat, mounting support legs, a nutrient solution stirring frame structure, a conveying pipe, an atomizing spray head, a constant temperature gas conveying frame structure, an auxiliary gas leading-in frame structure, a transverse limiting rod, a storage screen plate, an observation window, a temperature controller and a temperature and humidity sensor, wherein the mounting support legs are welded at four corners of the lower part of the thermostat; the inner side of the mounting support leg is provided with a nutrient solution stirring frame structure; the conveying pipe is glued to the left side inside the constant temperature box; the right sides of the conveying pipes are respectively provided with an atomizing nozzle; the left side of the constant temperature box is provided with a constant temperature gas conveying frame structure. The utility model discloses vertical input frame embedding is favorable to utilizing the electric heater in the vertical input frame to play the auxiliary heating effect to the air of input when using in the inside left side of thermostated container, and then can play the heating effect to leading-in gas in the thermostated container.

Description

Bacterial manure microbial cultivation is with constant temperature culture apparatus

Technical Field

The utility model belongs to the technical field of bacterial manure production facility, especially, relate to a bacterial manure microorganism is cultivateed and uses constant temperature culture apparatus.

Background

Bacterial manure is also known as biological fertilizer, bacterial fertilizer or inoculant, etc. The bacterial manure is like 'bacteria plus fertilizer', because the bacterial manure contains nutrient components such as 'organic matter, nitrogen, phosphorus, potassium' and the like which are necessary for the growth of crops on one hand, and meanwhile, the product also contains a large amount of beneficial microbial bacteria which are propagated in the soil, thereby playing the functions of improving the soil, preventing and controlling diseases and the like. In the production process of bacterial manure, need cultivate beneficial microorganism, for the culture effect of messenger's microorganism is better, mostly will put the culture medium of having inoculated the microbial srain and cultivate under the constant temperature environment, at this moment, can use the constant temperature incubator.

But current bacterial manure constant temperature culture apparatus for microbial cultivation has not possessed according to the demand to ventilate in the constant temperature equipment, does not possess during the ventilation to the temperature control with inconvenient the problem of stirring the nutritional supplement.

Therefore, the invention of the constant-temperature culture device for bacterial manure microorganism culture is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a bacterial manure is constant temperature culture apparatus for microbial cultivation to there is not possessing according to the demand to ventilate in the constant temperature equipment in solving current bacterial manure is constant temperature culture apparatus for microbial cultivation, does not possess during the ventilation and controls the temperature and inconvenient carry out the problem of stirring to the nutritional supplement. A constant-temperature culture device for bacterial manure microorganism culture comprises a constant-temperature box, mounting support legs, a nutrient solution stirring frame structure, a conveying pipe, an atomizing spray head, a constant-temperature gas conveying frame structure, an auxiliary gas introducing frame structure, a transverse limiting rod, a storage screen plate, an observation window, a temperature controller and a temperature and humidity sensor, wherein the mounting support legs are welded at four corners of the lower portion of the constant-temperature box; a nutrient solution stirring frame structure is arranged on the inner side of the mounting support leg; the conveying pipe is glued to the left side inside the constant temperature box; the right side of the conveying pipe is respectively provided with an atomizing nozzle; a constant-temperature gas conveying frame structure is arranged on the left side of the constant-temperature box; an auxiliary gas leading-in frame structure is arranged on the left side of the constant-temperature gas conveying frame structure; the transverse limiting rod is arranged on the front side and the rear side of the inner wall of the constant temperature box from top to bottom by screws; a storage screen plate is arranged at the upper part of the transverse limiting rod; the right side of the constant temperature box is hinged with an observation window; a temperature controller is installed on a screw at the rear side of the observation window; a temperature and humidity sensor is glued to the front side of the observation window; the constant-temperature gas conveying frame structure comprises a longitudinal input frame, side pipes, an electric heating wire, an L-shaped gas outlet frame, a gas inlet hole and a lead-out check valve, wherein the side pipes are respectively embedded in the right side of the longitudinal input frame; the inner sides of the longitudinal input frames are respectively provided with electric heating wires by screws; the lower part of the longitudinal input frame is provided with an L-shaped air outlet frame; the upper part of the L-shaped air outlet frame is respectively provided with an air inlet; and a guide one-way valve is arranged on the left side of the L-shaped air outlet frame.

Preferably, the auxiliary gas leading-in frame structure comprises an L-shaped connecting pipe, a regulating valve, a driving motor, a centrifugal fan blade and a dust screen, wherein the regulating valve is arranged on the right side of the L-shaped connecting pipe; a driving motor is installed on the left side of the upper part of the L-shaped connecting pipe through a screw; the output shaft of the driving motor is provided with a centrifugal fan blade; and a dust screen is mounted on the lower part of the L-shaped connecting pipe through screws.

Preferably, the nutrient solution stirring frame structure comprises a storage box, a feeding pipe, a stirring motor, a transmission rod, a stirring rod and a water supply pump, wherein the feeding pipe is arranged on the right upper side of the front part of the storage box; a stirring motor is installed on a screw at the middle upper part of the storage box; a transmission rod is arranged at the lower part of the stirring motor; the lower part of the transmission rod is provided with a stirring rod; the lower left side of the inside of the storage box is provided with a water supply pump.

Preferably, the longitudinal input frame is embedded in the left side of the inside of the oven.

Preferably, the L-shaped air outlet frame is embedded into the left lower side of the incubator at the same time.

Preferably, the L-shaped connecting pipe is inserted at the left upper side of the longitudinal input frame.

Preferably, the centrifugal fan blade is arranged on the inner side of the L-shaped connecting pipe.

Preferably, the water supply pump is connected to the delivery pipe.

Preferably, the storage box is mounted on the inner side of the mounting leg through screws.

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

1. the utility model discloses in, vertical input frame embedding in the inside left side of thermostated container, be favorable to utilizing the electric heat silk in the vertical input frame to play the auxiliary heating effect to the air of input when using, and then can play the heating effect to leading-in gas to in the thermostated container.

2. The utility model discloses in, the L type frame of giving vent to anger imbed simultaneously at the left downside of thermostated container, be favorable to utilizing the L type to give vent to anger the derivation check valve on the frame and with gaseous derivation when using, can avoid the outside air to get into easily when not using on the contrary.

3. The utility model discloses in, L type connecting pipe peg graft at the upper left side of vertical input frame, be favorable to utilizing driving motor to drive centrifugal fan blade rotatory when using to lead in the inboard of vertical input frame with the new trend.

4. The utility model discloses in, centrifugal fan blade set up in the inboard of L type connecting pipe, be favorable to utilizing driving motor to extract the outside air through centrifugal fan blade when using, can utilize the dust screen to play the filter effect to leading-in air simultaneously.

5. The utility model discloses in, the working shaft switch-on with the conveyer pipe, be favorable to when using conveniently extracting water liquid or nutrient solution in the bin to carry in to the conveyer pipe.

6. The utility model discloses in, bin mounting screw in the inboard of installation landing leg, be favorable to when using convenient dismouting from the installation landing leg to the bin according to the demand, the person of facilitating the use simultaneously deposits water liquid or nutrient solution to the bin through the pan feeding pipe.

Drawings

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

Fig. 2 is a schematic structural diagram of the structure of the nutrient solution stirring rack of the present invention.

Fig. 3 is a schematic structural view of the constant temperature gas carriage structure of the present invention.

Fig. 4 is a schematic structural view of the structure of the auxiliary gas introduction frame of the present invention.

In the figure:

1. a thermostat; 2. mounting support legs; 3. a nutrient solution stirring frame structure; 31. a storage tank; 32. a feeding pipe; 33. a stirring motor; 34. a transmission rod; 35. a stirring rod; 36. a water supply pump; 4. a delivery pipe; 5. an atomizing spray head; 6. a constant temperature gas delivery rack structure; 61. a longitudinal input box; 62. a side tube; 63. an electric heating wire; 64. an L-shaped air outlet frame; 65. an air intake; 66. a lead-out check valve; 7. an auxiliary gas introduction frame structure; 71. an L-shaped connecting pipe; 72. adjusting a valve; 73. a drive motor; 74. centrifuging the fan blades; 75. a dust screen; 8. a transverse limiting rod; 9. storing the screen plate; 10. an observation window; 11. a temperature controller; 12. and a temperature and humidity sensor.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in the attached drawings 1 and 3, the utility model provides a constant temperature culture device for bacterial manure microorganism culture, which comprises a constant temperature box 1, mounting support legs 2, a nutrient solution stirring frame structure 3, a conveying pipe 4, an atomizing spray head 5, a constant temperature gas conveying frame structure 6, an auxiliary gas leading-in frame structure 7, a transverse limiting rod 8, a storage screen plate 9, an observation window 10, a temperature controller 11 and a temperature and humidity sensor 12, wherein the mounting support legs 2 are welded at four corners of the lower part of the constant temperature box 1; a nutrient solution stirring frame structure 3 is arranged on the inner side of the mounting support leg 2; the conveying pipe 4 is glued to the left side inside the constant temperature box 1; the right side of the conveying pipe 4 is respectively provided with an atomizing nozzle 5; a constant-temperature gas conveying frame structure 6 is arranged on the left side of the constant-temperature box 1; an auxiliary gas leading-in frame structure 7 is arranged on the left side of the constant-temperature gas conveying frame structure 6; the transverse limiting rod 8 is arranged on the front side and the rear side of the inner wall of the constant temperature box 1 from top to bottom by screws; a storage screen plate 9 is arranged at the upper part of the transverse limiting rod 8; the right side of the constant temperature box 1 is hinged with an observation window 10; a temperature controller 11 is installed on a screw at the rear side of the observation window 10; a temperature and humidity sensor 12 is glued to the front side of the observation window 10; the constant-temperature gas conveying frame structure 6 comprises a longitudinal input frame 61, a side pipe 62, an electric heating wire 63, an L-shaped gas outlet frame 64, a gas inlet hole 65 and a lead-out check valve 66, wherein the longitudinal input frame 61 is embedded in the left side inside the incubator 1, when in use, the electric heating wire 63 in the longitudinal input frame 61 is used for assisting in heating input air, so that the gas led into the incubator 1 can be heated, and the side pipe 62 is respectively embedded in the right side of the longitudinal input frame 61; the heating wires 63 are respectively screwed on the inner sides of the longitudinal input frames 61; the lower part of the longitudinal input frame 61 is provided with an L-shaped air outlet frame 64, the L-shaped air outlet frame 64 is embedded into the left lower side of the incubator 1, when in use, the air is led out by using the lead-out one-way valve 66 on the L-shaped air outlet frame 64, and on the contrary, when not in use, the external air can be prevented from entering easily; the upper part of the L-shaped air outlet frame 64 is respectively provided with an air inlet 65; the left side of the L-shaped air outlet frame 64 is provided with an outlet one-way valve 66.

As shown in fig. 4, in the above embodiment, specifically, the auxiliary gas introducing frame structure 7 includes an L-shaped connecting pipe 71, an adjusting valve 72, a driving motor 73, a centrifugal fan blade 74 and a dust screen 75, the L-shaped connecting pipe 71 is inserted into the upper left side of the longitudinal input frame 61, when in use, the driving motor 73 is used to drive the centrifugal fan blade 74 to rotate, so as to introduce fresh air into the inner side of the longitudinal input frame 61, and the adjusting valve 72 is installed on the right side of the L-shaped connecting pipe 71; a driving motor 73 is installed on the left screw at the upper part of the L-shaped connecting pipe 71; the centrifugal fan blades 74 are mounted on the output shaft of the driving motor 73, the centrifugal fan blades 74 are arranged on the inner side of the L-shaped connecting pipe 71, when the air purifier is used, external air is extracted through the centrifugal fan blades 74 by using the driving motor 73, and meanwhile, the introduced air can be filtered by using the dust screen 75; the lower part of the L-shaped connecting pipe 71 is provided with a dustproof net 75 by a screw.

As shown in fig. 2, in the above embodiment, specifically, the nutrient solution stirring frame structure 3 includes a storage tank 31, a feeding pipe 32, a stirring motor 33, a transmission rod 34, a stirring rod 35 and a water supply pump 36, the storage tank 31 is screwed inside the mounting leg 2, when in use, the storage tank 31 is conveniently dismounted from the mounting leg 2 according to requirements, and at the same time, a user can conveniently store water or nutrient solution into the storage tank 31 through the feeding pipe 32, and the feeding pipe 32 is mounted on the upper right side of the front part of the storage tank 31; a stirring motor 33 is installed on a screw at the middle upper part of the storage tank 31; a transmission rod 34 is arranged at the lower part of the stirring motor 33; the lower part of the transmission rod 34 is provided with a stirring rod 35; the water supply pump 36 is installed at the lower left side inside the storage tank 31, the water supply pump 36 is communicated with the delivery pipe 4, and when the water supply pump is used, water liquid or nutrient solution in the storage tank 31 is conveniently extracted so as to be delivered into the delivery pipe 4.

Principle of operation

The utility model discloses in the course of the work, the microorganism that can required cultivation during use is placed and is cultivateed on depositing otter board 9, usable temperature and humidity sensor 12 detects the humiture in the thermostated container 1 simultaneously, usable working pump 36 extracts the water liquid in the bin 31 when humidity is lower, spout the inside humidity of increase thermostated container 1 in following atomizer 5 through conveyer pipe 4 after that, it utilizes driving motor 73 to drive centrifugal fan blade 74 rotatory to open governing valve 72 when needs ventilation, and to the extraction of outside new trend, then through the side pipe 62 on the vertical input frame 61 to thermostated container 1 inside ventilation, and usable heating wire 63 carries out the heat treatment to it when the temperature is lower, unnecessary air is through inlet port 65, and derive to the outside in the derivation check valve 66 on L type frame 64 of giving vent to anger, can add the bin 31 in from pan feeding pipe 32 with the nutrient solution simultaneously, utilize agitator motor 33 to drive puddler 35 through transfer line 34 and stir water liquid and nutrient solution in the bin 31, and then conveniently carry out the nutrition to the microorganism and add.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (7)

1. The constant-temperature culture device for bacterial manure microorganism culture is characterized by comprising a constant-temperature box (1), mounting support legs (2), a nutrient solution stirring frame structure (3), a conveying pipe (4), an atomizing nozzle (5), a constant-temperature gas conveying frame structure (6), an auxiliary gas introducing frame structure (7), a transverse limiting rod (8), a storage screen plate (9), an observation window (10), a temperature controller (11) and a temperature and humidity sensor (12), wherein the mounting support legs (2) are welded at four corners of the lower part of the constant-temperature box (1); a nutrient solution stirring frame structure (3) is arranged on the inner side of the mounting supporting leg (2); the conveying pipe (4) is glued to the left side inside the constant temperature box (1); the right side of the conveying pipe (4) is respectively provided with an atomizing nozzle (5); a constant-temperature gas conveying frame structure (6) is arranged on the left side of the constant-temperature box (1); an auxiliary gas leading-in frame structure (7) is arranged on the left side of the constant-temperature gas conveying frame structure (6); the transverse limiting rod (8) is arranged on the front side and the rear side of the inner wall of the constant temperature box (1) from top to bottom by screws; a storage screen plate (9) is arranged at the upper part of the transverse limiting rod (8); the right side of the constant temperature box (1) is hinged with an observation window (10); a temperature controller (11) is installed on a rear side screw of the observation window (10); a temperature and humidity sensor (12) is connected to the front side of the observation window (10) in an adhesive manner; the constant-temperature gas conveying frame structure (6) comprises a longitudinal input frame (61), side pipes (62), electric heating wires (63), an L-shaped gas outlet frame (64), gas inlet holes (65) and a guide one-way valve (66), wherein the side pipes (62) are respectively embedded in the right side of the longitudinal input frame (61); electric heating wires (63) are respectively installed on the inner sides of the longitudinal input frames (61) through screws; an L-shaped air outlet frame (64) is arranged at the lower part of the longitudinal input frame (61); the upper part of the L-shaped air outlet frame (64) is respectively provided with an air inlet hole (65); and a guide one-way valve (66) is arranged on the left side of the L-shaped air outlet frame (64).

2. The constant temperature cultivation apparatus for bacterial manure microorganism cultivation as claimed in claim 1, wherein the auxiliary gas introduction frame structure (7) comprises an L-shaped connection pipe (71), a regulating valve (72), a driving motor (73), a centrifugal fan blade (74) and a dust screen (75), the regulating valve (72) is installed on the right side of the L-shaped connection pipe (71); a driving motor (73) is installed on the left side of the upper part of the L-shaped connecting pipe (71) through a screw; an output shaft of the driving motor (73) is provided with a centrifugal fan blade (74); and a dustproof net (75) is mounted on the lower part of the L-shaped connecting pipe (71) through a screw.

3. The constant temperature cultivation device for bacterial manure microorganism culture as claimed in claim 1, characterized in that the nutrient solution stirring frame structure (3) comprises a storage tank (31), a feeding pipe (32), a stirring motor (33), a transmission rod (34), a stirring rod (35) and a water supply pump (36), wherein the feeding pipe (32) is arranged at the upper right side of the front part of the storage tank (31); a stirring motor (33) is installed on the middle upper part of the storage box (31) through a screw; a transmission rod (34) is arranged at the lower part of the stirring motor (33); a stirring rod (35) is arranged at the lower part of the transmission rod (34); a water supply pump (36) is arranged at the left lower side in the storage tank (31).

4. The incubator as claimed in claim 1, wherein said longitudinal input frame (61) is embedded in the left side of the inside of the incubator (1).

5. The constant-temperature culture device for bacterial manure microorganism culture according to claim 1, characterized in that the L-shaped air outlet frame (64) is embedded at the left lower side of the constant-temperature box (1) at the same time.

6. The thermostatic culture device for bacterial manure microorganism culture according to claim 3, characterized in that the water supply pump (36) is connected to the delivery pipe (4).

7. The constant temperature culture apparatus for bacterial manure microorganism culture as claimed in claim 3, wherein the storage tank (31) is screw-mounted inside the mounting leg (2).

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