CN219014915U - Microbial inoculum production drying device - Google Patents

Abstract

The utility model relates to a microbial inoculum production drying device, which comprises a drying box and a drying plate thereof, wherein the drying plate comprises at least one group of drying units, and the drying units comprise: the upper surface of the drying surface is used for flatly laying the microbial inoculum; the air supply surface is obliquely distributed, the bottom side edge of the air supply surface is connected with one side of the drying surface, an opening structure is formed between the top side edge of the air supply surface and the drying surface, and a plurality of air supply holes are formed in the air supply surface; the utility model has reasonable structural design, and by adopting the drying plate with special structure, the hot air can be precisely blown to any drying surface area in the point-position blowing mode of the blowing hole in the drying process, and meanwhile, good drying environment and effect are formed by matching with the distribution of the microbial inoculum, so that the drying efficiency and quality are improved.

Description

Microbial inoculum production drying device

Technical Field

The utility model relates to the technical field of chemical fertilizer drying equipment, in particular to a microbial inoculum production drying device.

Background

At present, in the fungus agent production process, need carry out drying treatment to it, the drying cabinet that uses at present is mostly open-type structure, places the tray of laying the fungus agent inside, then realizes the drying effect through letting in the air of certain temperature in inclosed drying cabinet, because the tray area is big, can't guarantee even unified drying effect, simultaneously because the inner space is whole to open structure, the drying process can't realize accurate air supply, drying efficiency is low.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model aims to provide a microbial inoculum production drying device which realizes accurate air supply in a point location air supply mode and improves drying efficiency and quality.

The technical scheme adopted for solving the technical problems is as follows:

a fungus agent production drying device, includes drying cabinet and dry board thereof, its characterized in that, dry board includes at least one set of drying unit, the drying unit includes:

the upper surface of the drying surface is used for flatly laying the microbial inoculum; and

the air supply surface is obliquely distributed, the bottom side edge of the air supply surface is connected with one side of the drying surface, an opening structure is formed between the top side edge of the air supply surface and the drying surface, and a plurality of air supply holes are formed in the air supply surface.

The inside of drying cabinet is equipped with the drying chamber, including at least a set of air inlet chamber and air-out chamber in the drying chamber, be equipped with the opening between air inlet chamber and the air-out chamber, and the open position is installed the desiccator, the desiccator tiling has one side of microbial inoculum to be located the air-out intracavity.

The inside of the drying box is respectively provided with an air inlet chamber, a heating chamber and an air outlet chamber from bottom to top, and the drying chamber is positioned between the heating chamber and the air outlet chamber.

The heating chamber is internally provided with a heating component and a fan component, the fan component is communicated with the air inlet chamber, and air enters the heating chamber from the fan component and enters the air inlet chamber of the drying chamber through the heating component.

The drying plates are provided with at least two groups, and the drying plates are symmetrically distributed in the drying box.

The beneficial effects of the utility model are as follows: structural design is reasonable, through the desiccator that adopts special structure, makes it in the drying process, can realize accurate air supply to arbitrary dry surface region with the hot air through the point position air supply mode of air feed hole, and the distribution of cooperation microbial inoculum constitutes good drying environment and effect simultaneously, has improved drying efficiency and quality.

Drawings

The utility model will be further described with reference to the drawings and examples.

Fig. 1 is a schematic cross-sectional structure of the present utility model.

Fig. 2 is a partial structural schematic view of the drying chamber.

Fig. 3 is a partial structural schematic diagram of the drying plate.

In the figure: 100 air inlet chambers, 200 heating chambers, 201 fan assemblies, 202 heating assemblies, 300 drying chambers, 301 drying plates, 302 air outlet chambers, 303 air inlet chambers, 304 drying surfaces, 305 air supply surfaces, 306 air supply holes, 307 plugboards, 400 air outlet chambers and 500 microbial inoculum.

Detailed Description

Further advantages and effects of the present utility model will become apparent to those skilled in the art from the disclosure of the present utility model, which is described by the following specific examples.

According to the figures 1 to 3: the embodiment provides a fungus agent production drying device, including drying cabinet and desiccation board 301 thereof, through carrying out structural design to desiccation board 301 to and optimize again the drying cabinet is inside according to desiccation board 301's characteristic, thereby realize good result of use, the concrete implementation structure of each subassembly is described below.

The inside of the drying box is respectively provided with an air inlet chamber 100, a heating chamber 200, a drying chamber 300 and an air outlet chamber 400 from bottom to top, wherein:

the air inlet chamber 100 is used for allowing external air to enter the drying oven, an air inlet is formed in the side wall of the air inlet chamber, and meanwhile, the air inlet chamber 100 and the heating chamber 200 are communicated with each other;

the heating chamber 200 is internally provided with a heating assembly 202 and a fan assembly 201, the fan assembly 201 is used for communicating with the air inlet chamber 100, air enters the heating chamber 200 from the fan assembly 201 and enters an air inlet cavity 303 of the drying chamber 300 through the heating assembly 202, and the heating assembly 202 adopts a fin heat exchanger or an electric heating device and is selectively assembled according to site conditions and customer requirements;

the drying chamber 300 includes at least four groups of air inlet cavities 303 and three groups of air outlet cavities 302, the air inlet cavities 303 are communicated with the heating chamber 200, openings are arranged between the air inlet cavities 303 and the air outlet cavities 302, the drying plate 301 is installed at the opening positions, the edge of the drying plate 301 is provided with a plugboard 307 which is assembled with a slot at the edge of the opening positions in a sliding manner, so that air circulation between the air inlet cavities 303 and the air outlet cavities 302 needs to pass through the drying plate 301;

the air outlet chamber 400 is communicated with the air outlet chamber 302 of the drying chamber 300, and an air outlet with standard size is arranged on the side wall of the air outlet chamber 400 and is used for being connected with a ventilating pipeline, so that on one hand, the direct recycling of hot air can be realized, or the heat recovery and the use of the hot air can be realized;

the drying plate 301 is provided with six groups, and the six groups are symmetrically distributed in the drying box, wherein the drying plate 301 comprises a plurality of groups of drying units which are vertically and continuously distributed, and the drying units comprise:

the drying surface 304 is horizontally distributed as a whole, the upper surface of the drying surface 304 is used for tiling the microbial inoculum 500, and the drying surface 304 is positioned in the air outlet cavity 302; and

the air supply surface 305, the air supply surface 305 is distributed obliquely, the bottom side edge of the air supply surface 305 is connected with one side of the drying surface 304, an included angle distribution state of 45-60 degrees is formed between the air supply surface 305 and the air supply surface 304, an opening structure is formed between the top side edge of the air supply surface 305 and the drying surface 304, and a plurality of uniformly distributed air supply holes 306 are formed in the air supply surface 305;

through the structure, when in actual use, hot air needs to circulate from the air inlet cavity 303 to the air outlet cavity 302 through the air supply holes 306, at this time, the hot air of each drying unit is blown out towards the microbial inoculum 500 through the positions of the air supply holes 306, and the microbial inoculum 500 is paved into a slender shape and distributed corresponding to the air outlet positions, so that an accurate point-position air supply mode is formed, the heat of the hot air is effectively utilized, and the drying efficiency and quality are improved.

The foregoing is only a preferred embodiment of the present utility model, and all that is required to achieve the object of the present utility model by substantially the same means is to fall within the scope of the present utility model.

Claims (5)

1. A fungus agent production drying device, includes drying cabinet and dry board thereof, its characterized in that, dry board includes at least one set of drying unit, the drying unit includes:

the upper surface of the drying surface is used for flatly laying the microbial inoculum; and

the air supply surface is obliquely distributed, the bottom side edge of the air supply surface is connected with one side of the drying surface, an opening structure is formed between the top side edge of the air supply surface and the drying surface, and a plurality of air supply holes are formed in the air supply surface.

2. The microbial inoculant production drying device of claim 1, wherein: the inside of drying cabinet is equipped with the drying chamber, including at least a set of air inlet chamber and air-out chamber in the drying chamber, be equipped with the opening between air inlet chamber and the air-out chamber, and the open position is installed the desiccator, the desiccator tiling has one side of microbial inoculum to be located the air-out intracavity.

3. The microbial inoculant production drying device of claim 1, wherein: the inside of the drying box is respectively provided with an air inlet chamber, a heating chamber and an air outlet chamber from bottom to top, and the drying chamber is positioned between the heating chamber and the air outlet chamber.

4. A microbial inoculum production drying apparatus according to claim 3, wherein: the heating chamber is internally provided with a heating component and a fan component, the fan component is communicated with the air inlet chamber, and air enters the heating chamber from the fan component and enters the air inlet chamber of the drying chamber through the heating component.

5. The microbial inoculant production drying device of claim 1, wherein: the drying plates are provided with at least two groups, and the drying plates are symmetrically distributed in the drying box.

Images