CN220237765U - Biological fermentation preparation spray drying equipment - Google Patents

Abstract

The utility model discloses biological fermentation preparation spray drying equipment, which comprises a tank body, wherein an internal air cavity is arranged in the tank body, a spray cavity positioned in the tank body is arranged at the lower side of the internal air cavity, an atomizer is arranged in the internal air cavity, and one side of the atomizer is communicated with a side pipe.

Description

Biological fermentation preparation spray drying equipment

Technical Field

The utility model relates to the technical field of spray drying equipment, in particular to biological fermentation preparation spray drying equipment.

Background

The bio-fermentation preparation is often prepared by mixing a solution, wherein a common solution is an aqueous solution, the aqueous solution is required to be dried before being packaged, a common device is spray drying equipment, the spray drying equipment is used for atomizing the bio-fermentation preparation solution during working, then the atomized solution is rapidly evaporated by high-speed air, and then the bio-fermentation preparation is left, but the problems are more problematic during practical application, so a great deal of researches are carried out on the problems;

for example, the chinese patent document "full-automatic spray dryer material automatic humidification system" with application number CN201820847581.6, which comprises a spray drying chamber, a first air filter, a material mixing tank, a water tank, a main cyclone separator, a second air filter and a humidification component, wherein the upper end of the spray drying chamber is provided with a high-speed centrifugal atomizer, the upper part of the first air filter is communicated with a first blower, the upper part of the first blower is communicated with a first steam heater, the upper part of the first steam heater is communicated with an electric heater, the upper end of the electric heater is communicated with a high-efficiency filter, the utility model opens a blanking valve at the bottom of the main cyclone separator, so that materials fall into the atomizer, and meanwhile, the infrared moisture meter is installed outside the atomizer and is connected with a PLC controller, and the PLC controller is in an electrical connection relationship with a water pump, and can calculate the moisture in the materials according to the reduction amount of emitted light by using the non-contact measurement of the infrared moisture meter.

Therefore, in the prior art, the hot air heat generating structure cannot be conveniently maintained during spray drying, cold and hot air cannot be quickly switched, a more uniform feeding process cannot be realized during raw material solution suction, and other feeding barrels are required to be replaced after a person extracts a pipeline on one side of the feeding barrel.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide a spray drying device for biological fermentation preparations, which can solve the problems in the prior art.

The utility model is realized by the following technical scheme: the utility model relates to biological fermentation preparation spray drying equipment, which comprises a tank body, wherein an internal air cavity is arranged in the tank body, a spray cavity positioned in the tank body is arranged at the lower side of the internal air cavity, an atomizer is arranged in the internal air cavity, and one side of the atomizer is communicated with a side pipe.

Further technical scheme, spout the chamber bottom and be provided with the downside connector, jar body opposite side is provided with the screw separator, screw separator top intercommunication is provided with the suction pump, screw separator one side is provided with the connecting pipe mouth, the connecting pipe mouth passes through the pipeline intercommunication with spouting the chamber.

According to a further technical scheme, two air inlet holes are formed in the bottom of the tank body, and one side of each air inlet hole is communicated with an air pipe.

Further technical scheme, inside air cavity bottom is provided with the jet-propelled groove, inside air cavity top is provided with the connection barrel, the atomizer set up in connect barrel bottom, the atomizer with the spout the chamber intercommunication setting of jar body.

Further technical scheme, cold and hot auto-change over device includes first support, the air-blower set up in first support bottom, be provided with certain distance between air-blower and the connecting pipe, be provided with the side linking bridge that can rotate between the first support, both sides are provided with an inside connecting pipe respectively in the side linking bridge, one of them be provided with the heating rod in the inside connecting pipe, side linking bridge upside and downside are provided with the linking bridge, the linking bridge both ends are provided with an outside sleeve respectively, outside sleeve with inside connecting pipe sliding fit connects, side linking bridge upside and downside is provided with a plurality of pushing cylinders, pushing cylinder's push rod with the linking bridge is fixed, side linking bridge is rotated by power device drive.

Further technical scheme, power device including set up in the topside motor at first support top, topside motor one side power connection is provided with the motor side lever, the motor side lever passes the side linking bridge, the motor side lever with the side linking bridge is fixed.

Further technical scheme, jar body top is provided with the water pump, the water pump other end intercommunication is provided with the cooperation pipe, the side pipe with the water pump intercommunication sets up.

Further technical scheme, fixed plate one side is provided with the second support, be provided with the movable plate of oscilaltion in the second support, the interior pivoted of movable plate is provided with flexible pipe, the surface of flexible pipe is provided with a plurality of archs, the cooperation pipe downwards passes the support, the cooperation pipe stretches into in the flexible pipe, the cooperation pipe with flexible pipe sliding fit keeps the intercommunication when being connected.

According to a further technical scheme, a rotary driving gear is arranged at the top of the moving plate, and the driving gear is meshed with the driven gear.

Further technical scheme, support one side is provided with a plurality of slide bars, the slide bar with movable plate sliding fit connects, the slide bar passes the movable plate, slide bar one side pivoted is provided with the external screw rod, the external screw rod passes the movable plate, the external screw rod with movable plate screw fit connects, the support top is provided with output motor, output motor drive the external screw rod rotates.

The beneficial effects of the utility model are as follows:

1. the telescopic tube is kept in communication with the matching tube on the premise that lifting can be carried out, so that people can conveniently replace a container after the telescopic tube stretches out and draws back, the telescopic tube can be rotated under the action of the rotating motor, the driving gear and the driven gear, and the solution can be fully stirred by utilizing the protrusions, so that the telescopic tube is uniformly sucked by the telescopic tube.

2. The motor side rod and the side connecting bracket are driven by the top motor to rotate, so that the outer sleeve with the heating rod and the inner connecting pipe are positioned between the connecting pipe and the blower, the air sprayed by the blower is provided with heat, and the outer sleeve without the heating rod and the inner connecting pipe are positioned between the connecting pipe and the blower, so that normal-temperature air is introduced into the connecting pipe, and the heating rod can be conveniently maintained by personnel at the moment.

Drawings

For ease of illustration, the utility model is described in detail by the following specific examples and figures.

FIG. 1 is a schematic diagram of the overall structure of a spray drying apparatus for a biological fermentation agent of the present utility model;

FIG. 2 is a schematic diagram of FIG. 1 at A;

FIG. 3 is a schematic diagram at B in FIG. 1;

FIG. 4 is a schematic diagram at C in FIG. 1;

FIG. 5 is a schematic view of the apparatus of FIG. 1 in cross-section;

FIG. 6 is a schematic diagram at D in FIG. 5;

in the drawing, a tank 11, a side pipe 13, a suction pump 14, a water pump 15, a fitting pipe 16, a screw separator 17, a bellows 18, a boss 19, a lower connection port 21, an air inlet 22, a first bracket 23, a blower 24, a motor side lever 25, a top motor 26, a connection pipe 27, a rotating motor 31, a moving plate 32, a fixed plate 33, a second bracket 34, a slide rod 35, an external threaded rod 36, a driving gear 37, a driven gear 38, an output motor 41, a connection bracket 42, a heating rod 43, an external sleeve 44, a side connection bracket 45, an internal connection pipe 46, a pushing cylinder 48, an internal air chamber 49, a connection pipe orifice 50, a connection cylinder 51, an air injection groove 52, and an atomizer 53.

Detailed Description

The present utility model will be described in detail with reference to fig. 1 to 6, and for convenience of description, the following orientations will be defined as follows: the biological fermentation preparation spray drying equipment comprises a tank body 11, wherein an inner air cavity 49 is arranged in the tank body 11, a spraying cavity positioned in the tank body 11 is arranged at the lower side of the inner air cavity 49, a lower connecting port 21 is arranged at the lower side of the spraying cavity, a connecting pipe 27 is arranged at one side of the inner air cavity 49 in a communicating manner, a blower 24 is arranged at the lower side of the connecting pipe 27, a cold-hot switching device is arranged between the blower 24 and the connecting pipe 27, an atomizer 53 is arranged in the inner air cavity 49, a water pump 15 is arranged at the top of the tank body 11, a matching pipe 16 is arranged at the other end of the water pump 15 in a communicating manner, the atomizer 53 is arranged at the other side of the tank body 11 in a communicating manner through a side pipe 13, a spiral separator 17 is arranged at the top of the spiral separator 17, a connecting pipe orifice 50 is arranged at one side of the spiral separator 17 in a communicating manner, a connecting pipe orifice 50 is communicated with the lower side 21 through a pipeline, and the spiral separator 17 is in the prior art, materials are fed from one side of the connecting pipe orifice 50, and then the materials fall from the spiral separator 17 to the lower side of the spiral separator 17 under the connecting port under the action of the suction pump 14 along with the air separation in the spiral separator 17.

Advantageously, two air inlet holes 22 are formed in the bottom of the tank 11, and one side of each air inlet hole 22 is communicated with an air pipe.

The air injection tank 52 is arranged at the bottom of the inner air cavity 49, the connecting cylinder 51 is arranged at the top of the inner air cavity 49, the atomizer 53 is arranged at the bottom of the connecting cylinder 51, the atomizer 53 is communicated with the air injection cavity of the tank 11, and the air injection tank 52 is utilized to spray gas and then contact the atomized solution of the atomizer 53 to realize rapid heat exchange.

Advantageously, the cold-hot switching device comprises a first bracket 23, a blower 24 is arranged at the bottom of the first bracket 23, a certain distance is arranged between the blower 24 and a connecting pipe 27, a rotatable side connecting bracket 45 is arranged between the first bracket 23, two inner sides of the side connecting bracket 45 are respectively provided with an inner connecting pipe 46, one inner connecting pipe 46 is internally provided with a heating rod 43, the upper side and the lower side of the side connecting bracket 45 are respectively provided with a connecting bracket 42, two ends of the connecting bracket 42 are respectively provided with an outer sleeve 44, the outer sleeve 44 is connected with the inner connecting pipe 46 in a sliding fit manner, the upper side and the lower side of the side connecting bracket 45 are provided with a plurality of pushing cylinders 48, a push rod of the pushing cylinders 48 is fixed with the connecting bracket 42, the top side motor 26 is arranged at the top of the first bracket 23, the motor side rod 25 is arranged on one side of the top side motor 26 in a power connection way, the motor side rod 25 penetrates through the side connecting support 45, the motor side rod 25 is fixed with the side connecting support 45, the inner connecting pipes 46 on two sides are respectively located between the connecting pipe 27 and the blower 24 through telescopic movement of the outer side sleeve 44 and the connecting support 42, the outer surfaces of the connecting pipe 27 and the blower 24 are sleeved through telescopic sleeves of the outer side sleeve 44, and the outer side sleeve 44 and the inner connecting pipe 46 are kept in sliding and internal communication due to the fact that the outer side sleeve 44 slides on the outer surface of the inner connecting pipe 46, the positions of the inner connecting pipes 46 on the left side and the right side are exchanged under the action of driving the motor side rod 25 by the top side motor 26, and hot air can be realized when the heating rod 43 is located between the connecting pipe 27 and the blower 24.

The utility model has the advantages of, wherein, still include fixed plate 33, fixed plate 33 one side is provided with second support 34, fixed plate 33 is fixed with jar body 11, be provided with the movable plate 32 of oscilaltion in the second support 34, the internal pivoted of movable plate 32 is provided with flexible pipe 18, the surface of flexible pipe 18 is provided with a plurality of archs 19, the movable plate 32 top is provided with rotating motor 31, rotating motor 31 top is provided with the driving gear 37 rather than power connection, flexible pipe 18 surface is provided with driven gear 38, driven gear 38 and driving gear 37 meshing set up, cooperation pipe 16 passes second support 34 downwards, cooperation pipe 16 stretches into in the flexible pipe 18, cooperation pipe 16 keeps the intercommunication when being connected with flexible pipe 18 sliding fit.

The sliding rod 35 is connected with the moving plate 32 in a sliding fit manner, the sliding rod 35 penetrates through the moving plate 32, an external threaded rod 36 is rotatably arranged on one side of the sliding rod 35, the external threaded rod 36 penetrates through the moving plate 32, the external threaded rod 36 is connected with the moving plate 32 in a threaded fit manner, an output motor 41 is arranged at the top of the second bracket 34, and the output motor 41 drives the external threaded rod 36 to rotate.

In the initial state, the device, the components and the structure are in a stop working state, the device realizes the vaporific diffusion of the biological starter solution by sucking the biological starter solution into the tank 11 through the telescopic pipe 18, and the air blower 24 sprays cold and hot air to enable the gas in the spray cavity in the tank 11 to quickly exchange heat with the biological starter solution spray by utilizing the cold and hot switching function, so that water liquid is taken away, and the rest biological starter is separated again through the spiral separator 17.

The hot air or the normal temperature air can be introduced into one side of the connecting pipe 27, namely, the cold and hot switching is performed, so that the air enters the inner air cavity 49 and overflows through the air injection groove 52, a person places the container containing the solution of the biological fermentation agent at the lower side of the telescopic pipe 18, and as the telescopic pipe 18 is communicated with the matching pipe 16, under the action of the water pump 15, the solution in the container containing the solution of the biological fermentation agent can be introduced into the atomizer 53 to realize the spray atomization, and the air inlet hole 22 also allows the biological fermentation agent to pass through the connecting pipe opening 50 along the pipeline through the lower side connecting port 21 and enter the spiral separator 17, at the moment, the suction pump 14 is operated to separate the biological fermentation agent again, so that the purified biological fermentation agent is discharged from the lower side of the spiral separator 17.

When a person changes the container of the biological starter solution, the output motor 41 works and then drives the external threaded rod 36 to rotate, so that the moving plate 32 slides on one side of the second bracket 34, the moving plate 32 drives the telescopic tube 18 to move upwards, the telescopic tube 18 is removed from the container on the lower side of the moving plate, and after a new container is placed in the telescopic tube 18, the output motor 41 works again, so that the telescopic tube 18 enters the container again downwards, wherein the rotating motor 31 can drive the driving gear 37 to rotate, and the driven gear 38 meshed with the driving gear 37 drives the telescopic tube 18 and the bulge 19 to rotate, so that the stirring of the solution in the container is uniform.

The motor side rod 25 and the side connecting bracket 45 are driven by the top side motor 26 to rotate, so that the position exchange of the inner connecting pipes 46 at the two sides is realized, the heating rod 43 can be positioned between the blower 24 and the connecting pipes 27 to realize the conduction of hot air, the outer sleeve 44 without the heating rod 43 can be arranged between the blower 24 and the connecting pipes 27 to realize normal-temperature ventilation, and in this case, a person can conveniently maintain the heating rod 43.

The foregoing is merely illustrative of specific embodiments of the present utility model, and the scope of the utility model is not limited thereto, but any changes or substitutions that do not undergo the inventive effort should be construed as falling within the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope defined by the claims.

Claims (10)

1. The utility model provides a biological fermentation preparation spray drying equipment, includes jar body (11), be provided with inside air cavity (49) in jar body (11), inside air cavity (49) downside is provided with and is located spout the chamber in jar body (11), be provided with atomizer (53) in inside air cavity (49), atomizer (53) one side intercommunication is provided with side pipe (13), a serial communication port, inside air cavity (49) one side intercommunication is provided with connecting pipe (27), connecting pipe (27) downside is provided with air-blower (24), be provided with cold and hot auto-change over device between air-blower (24) and connecting pipe (27).

2. A biofermentation formulation spray drying apparatus as in claim 1 wherein: spout chamber bottom and be provided with downside connector (21), jar body (11) opposite side is provided with spiral separating centrifuge (17), spiral separating centrifuge (17) top intercommunication is provided with suction pump (14), spiral separating centrifuge (17) one side is provided with connecting mouth of pipe (50), connecting mouth of pipe (50) pass through the pipeline intercommunication with spouting the chamber.

3. A biofermentation formulation spray drying apparatus as in claim 1 wherein: two air inlet holes (22) are formed in the bottom of the tank body (11), and one side of each air inlet hole (22) is communicated with an air pipe.

4. A biofermentation formulation spray drying apparatus as in claim 1 wherein: the air-jet type air-jet device is characterized in that an air-jet groove (52) is formed in the bottom of the inner air cavity (49), a connecting cylinder body (51) is arranged at the top of the inner air cavity (49), an atomizer (53) is arranged at the bottom of the connecting cylinder body (51), and the atomizer (53) is communicated with the air-jet cavity of the tank body (11).

5. A biofermentation formulation spray drying apparatus as in claim 1 wherein: the cold-hot switching device comprises a first support (23), the air-blower (24) set up in first support (23) bottom, be provided with certain distance between air-blower (24) and connecting pipe (27), be provided with between first support (23) rotatable side linking bridge (45), both sides set up respectively in side linking bridge (45) are provided with one internal connection pipe (46), one of them be provided with heating rod (43) in internal connection pipe (46), side linking bridge (45) upper and lower side is provided with linking bridge (42), linking bridge (42) both ends are provided with an outside sleeve (44) respectively, outside sleeve (44) with internal connection pipe (46) sliding fit is connected, side linking bridge (45) upper and lower side is provided with a plurality of pushing cylinder (48), pushing cylinder's (48) push rod with linking bridge (42) are fixed, side linking bridge (45) are rotated by power device drive.

6. The apparatus for spray drying a biological fermentation formulation of claim 5, wherein: the power device comprises a top motor (26) arranged at the top of the first bracket (23), one side of the top motor (26) is in power connection with a motor side rod (25), the motor side rod (25) penetrates through the side connecting bracket (45), and the motor side rod (25) is fixed with the side connecting bracket (45).

7. A biofermentation formulation spray drying apparatus as in claim 1 wherein: the water pump (15) is arranged at the top of the tank body (11), a matching pipe (16) is arranged at the other end of the water pump (15) in a communicating mode, and the side pipe (13) is arranged in a communicating mode with the water pump (15).

8. A biofermentation formulation spray drying apparatus as in claim 7 wherein: still include fixed plate (33), fixed plate (33) one side is provided with second support (34), be provided with movable plate (32) of oscilaltion in second support (34), movable plate (32) internal rotation is provided with flexible pipe (18), the surface of flexible pipe (18) is provided with a plurality of archs (19), cooperation pipe (16) pass downwards second support (34), cooperation pipe (16) stretch into in flexible pipe (18), cooperation pipe (16) with keep the intercommunication when flexible pipe (18) sliding fit connects.

9. A biofermentation formulation spray drying apparatus as in claim 8 wherein: the top of the moving plate (32) is provided with a rotary driving gear (37), the outer surface of the telescopic tube (18) is provided with a driven gear (38), and the driving gear (37) is meshed with the driven gear (38).

10. A biofermentation formulation spray drying apparatus as in claim 8 wherein: the utility model discloses a movable plate, including movable plate (32), second support (34) one side is provided with a plurality of slide bars (35), slide bar (35) with movable plate (32) sliding fit is connected, slide bar (35) pass movable plate (32), slide bar (35) one side pivoted is provided with external screw rod (36), external screw rod (36) pass movable plate (32), external screw rod (36) with movable plate (32) screw fit is connected, second support (34) top is provided with output motor (41), output motor (41) drive external screw rod (36) rotate.