CN219890092U - Edible fungus residue drying equipment for preparing beef cattle feed - Google Patents

Abstract

The utility model relates to edible fungus dreg drying equipment for preparing beef cattle feed, which relates to the technical field of recycling of agricultural waste materials. The drying equipment can effectively dry the fungus residues, and has high treatment efficiency and good drying effect.

Description

Edible fungus residue drying equipment for preparing beef cattle feed

Technical Field

The utility model relates to the technical field of recycling of agricultural waste, in particular to edible fungus residue drying equipment for preparing beef cattle feed.

Background

The culture material after edible fungi are cultivated is called fungus dreg, the fungus dreg contains rich protein and other nutritional ingredients, the random discarding is waste of resources, meanwhile, the breeding of mould and pests is also caused, the number of harmful spores and pests in the air is increased, and environmental pollution is caused. Therefore, the edible fungus residues are reasonably developed and utilized, so that resources can be widely developed, waste is reduced, pollution to the environment can be reduced, and the ecological effect is remarkable.

At present, the redevelopment and utilization mode of the edible fungus residues mainly comprises three ways of ingredients for reproducing the edible fungus, animal feed and fertilizer, when the edible fungus residues are used as the animal feed, the edible fungus residues in the edible fungus bags are required to be broken and scattered so as to be added into the animal feed, but the edible fungus bags contain more water when and after the edible fungus bags are cultivated, and if the edible fungus bags are doped in the animal feed after being broken, fermentation reaction is easy to occur, so that the animal feed is spoiled and the growth of animals is endangered. Therefore, in the bacterial dreg treatment process, the bacterial dreg needs to be dried.

Disclosure of Invention

The utility model aims to provide edible fungus dreg drying equipment for preparing beef cattle feed, which can effectively dry fungus dreg and has the advantages of high treatment efficiency and good drying effect.

The utility model provides edible fungus dreg drying equipment for preparing beef cattle feed, which adopts the following technical scheme:

the utility model provides an edible fungus sediment drying equipment that preparation beef cattle fodder was used, includes blast air storehouse, prepares feed bin and drying storehouse, prepares the feed bin setting between blast air storehouse and drying storehouse, and the blast air storehouse is provided with the blast apparatus to prepare the feed bin orientation blast air, prepares the feed bin and is provided with the placing tray that bears the weight of the material, and the top is provided with the feed inlet, and blast apparatus blows the material to the drying storehouse in the flip drying.

As a preferable technical scheme of the utility model, the blowing bin is arranged as an axially horizontal cylindrical shell, air inlets are formed in two side planes of the cylindrical shell, and the blowing device comprises a fan impeller arranged in the blowing bin and a power source arranged outside the blowing bin, and the power source drives the fan impeller to rotate.

As a preferable technical scheme of the utility model, the power source is set as a driving motor or a manual driving mechanism, and the manual driving mechanism comprises a frame, a manual pedal arranged at the lower part of the frame, a driving wheel connected to a rotating shaft of the manual pedal, a driven wheel connected to a rotating shaft of the fan impeller and a connecting belt.

As a preferable technical scheme of the utility model, the material preparation bin is a rectangular shell with two open ends, one open end is connected to the circumferential surface of the air blowing bin, the bottom plate of the material preparation bin is equal to the bottom of the air blowing bin in height, and the top plate of the material preparation bin is smaller than the top of the air blowing bin in height.

As a preferable technical scheme of the utility model, the placing tray is connected to the side wall of the stock bin, the placing tray is obliquely arranged, the height of one side far away from the blast bin is larger, and the upper surface of the placing tray is provided with a material blocking protrusion perpendicular to the side wall of the stock bin.

As a preferable technical scheme of the utility model, the side wall of the stock bin is provided with a jack, the placing tray is inserted into the stock bin from the jack, a supporting rod is connected between the two side walls of the stock bin, and the supporting rod is abutted on the bottom surface of the placing tray.

As a preferable technical scheme of the utility model, the drying bin is a cylindrical shell with the same size as the blowing bin, the drying bin is connected with the opening end of the standby bin through the circumferential surface, the bottom of the drying bin is provided with an openable or closable discharging door, and the top of the drying bin is provided with an exhaust port.

As a preferable technical scheme of the utility model, the exhaust port is arranged at one side of the circumferential surface of the drying bin facing the blowing bin, and a material blocking net is arranged at the exhaust port.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the utility model utilizes the blowing device to blow up the fungus dregs in the preparation bin into the drying bin, and the fungus dregs can be spread in the drying bin under the action of wind force, and the fungus dregs have lighter mass, can roll in the drying bin under the action of wind force, and are gradually dried and mixed with water, and the air is taken in by the air inlet and the air outlet, so that the air circulation is realized, and the water vapor in the fungus dregs is taken away.

2. The utility model can adopt a manual driving mechanism to drive the fan impeller to rotate, can reduce the use of energy sources, and meets the requirements of energy conservation and environmental protection.

3. The placing tray is obliquely placed in the material preparation bin, the contact surface between the material on the placing tray and the air supplied by the fan impeller can be increased, so that the material is more easily blown away from the placing tray by air, moisture is more easily taken away, and the drying efficiency of fungus residues is further improved.

Drawings

Fig. 1 is a schematic view showing an internal structure of a drying apparatus according to an embodiment of the present utility model;

in the figure, 1, a blowing bin; 11. an air inlet; 2. preparing a storage bin; 21. placing a tray; 22. a feed port; 23. a material blocking protrusion; 24. a supporting rod; 3. a drying bin; 31. a discharge door; 32. an exhaust port; 33. a material blocking net; 4. a blowing device; 41. a fan impeller; 5. a manual driving mechanism; 51. a frame; 52. a manual pedal; 53. a driving wheel; 54. driven wheel; 55. and (5) connecting the belts.

Detailed Description

The present utility model will be described in further detail with reference to fig. 1.

Examples: the utility model provides edible fungus residue drying equipment for preparing beef cattle feed, which comprises an air blowing bin 1, a material preparation bin 2 and a drying bin 3 which are integrated into a whole, wherein the whole equipment is supported by a support frame, the air blowing bin 1 is provided with an air blowing device 4, materials are contained in the material preparation bin 2, the air blowing device 4 blows air into the material preparation bin 2, the materials are blown into the drying bin 3, the materials are piled and rolled in the drying bin 3, and moisture contained in the materials is taken away, so that the aim of drying is fulfilled.

The air blowing bin 1 is arranged into a cylindrical shell, the axis is horizontally arranged, semicircular air inlets 11 are formed in the planes of the two sides of the air blowing bin 1 oppositely, and are used for enabling air to enter the air blowing bin 1 to participate in circulation of air flow, and in order to enhance the drying effect on materials, a hot air pipeline can be connected to the outer side of the air inlets 11, and hot air is introduced into the air blowing bin 1 to dry the materials.

The blower 4 includes a fan impeller 41 and a power source, the fan impeller 41 is installed in the blower housing 1, the power source is disposed outside the blower housing 1 and is connected to a rotation shaft of the fan impeller 41, the fan impeller 41 includes a plurality of large blades, and the rotation shaft thereof is connected to a side wall of the blower housing 1 at the air inlet 11 of the blower housing 1.

The power source can adopt the electronic, for example driving motor, also can adopt the manpower to drive, adopts manpower actuating mechanism 5 in this embodiment, and manpower actuating mechanism 5 adopts the bicycle-like structure, including frame 51, manpower pedal 52, drive wheel 53, from driving wheel 54 and connecting band 55, frame 51 is the triangle-shaped structure of falling, and the crossbeam both ends at top set up handlebar and saddle respectively, and the bottom sets up the base, and the bottom angle position at the triangle-shaped falls is installed to the manpower pedal 52, and drive wheel 53 coaxial coupling is in the pivot of manpower pedal 52, and from driving wheel 54 connection is in the pivot of fan impeller 41, and connecting band 55 connects between drive wheel 53 and from driving wheel 54. The connecting belt 55 may be a chain, a synchronous belt or a V-belt, and the driving wheel 53 and the driven wheel 54 correspond to a sprocket, a synchronous pulley or a belt pulley, and in this embodiment, a combination of a belt pulley and a V-belt is selected.

When driving the fan impeller 41 to rotate, an operator sits on the saddle, holds the handle bar, steps on the manual pedal 52 to drive the driving wheel 53 to rotate, and then drives the fan impeller 41 to rotate through the connecting belt 55, so that larger wind is generated to blow into the stock bin 2.

The preparation bin 2 is arranged as a rectangular shell with two open ends, one open end of one side is connected to the circumferential surface of the blowing bin 1, the other open end of the other side is connected to the circumferential surface of the drying bin 3, the bottom plate of the preparation bin 2 is equal to the bottom of the blowing bin 1 in height, and the top plate of the preparation bin 2 is smaller than the top of the blowing bin 1 in height.

The backup bin 2 is provided with a placement tray 21 for bearing materials, the placement tray 21 is connected to two side walls of the backup bin 2 and can be fixedly connected and detachably connected, a plurality of sockets are formed in the two side walls of the backup bin 2 in a detachable connection mode in the embodiment, the sockets on the same side wall are different in height, the sockets on the two side walls are oppositely arranged, the placement tray 21 is inserted into the backup bin 2 from the sockets, a supporting rod 24 is connected between the two side walls of the backup bin 2 in order to prevent the placement tray 21 from falling, the supporting rod 24 is abutted to the bottom surface of the placement tray 21, and each placement tray 21 is supported by the two supporting rods 24. The top of the spare storage bin 2 is provided with a feed opening 22 corresponding to the position of the placing plate 21, a feed door is arranged at the feed opening 22, fungus dreg materials are put into the placing plate 21 through the feed opening 22, and then the fungus dreg materials are blown up by wind blown out by the fan impeller 41 for air drying.

In order to increase the windward side of the placing plate 21, the placing plate 21 is obliquely arranged, the height of one side of the placing plate, far away from the blasting bin 1, is large, in order to avoid the fungus dreg materials on the placing plate 21 from automatically sliding down, a plurality of blocking protrusions 23 perpendicular to the side wall of the storage bin 2 are fixed on the upper surface of the placing plate 21, and the cross section of each blocking protrusion 23 in the embodiment is semicircular.

The drying bin 3 is arranged into a cylindrical shell with the same size as the blowing bin 1, the cylindrical shell is connected with the opening end of the standby bin 2 through the circumferential surface, and the bottom of the drying bin 3 is provided with a discharging door 31 which can be opened or closed, so that the materials in the drying bin 3 after being dried are conveniently discharged. The top of drying storehouse 3 is provided with gas vent 32 for the air in the drying storehouse 3 flows out, and gas vent 32 sets up in the circumference of drying storehouse 3 towards one side of blast air storehouse 1 in this embodiment, can increase the flow path length of wind in drying storehouse 3 like this, increases the contact time with the material, improves the drying effect, in order to avoid the material to be taken out drying storehouse 3, gas vent 32 department is provided with keeps off material net 33.

The implementation principle of the embodiment of the utility model is as follows: according to the utility model, the driving wheel 53 is driven by manpower to rotate, so that the fan impeller 41 is driven to rotate, larger wind is generated to blow the fungus residues on the placing tray 21 in the material preparation bin 2 into the drying bin 3, the fungus residues can be spread out in the drying bin 3 under the action of the wind force, the fungus residues are lighter in weight and roll in the drying bin 3 under the action of the wind force, the air is blown into the air by the air inlet 11, the air is discharged by the air outlet 32, the air flow circulation is realized, and the water vapor in the fungus residues is taken away.

The embodiments of the present utility model are all preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, wherein like reference numerals are used to refer to like elements throughout. Therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides an edible fungus sediment drying equipment that preparation beef cattle fodder was used, a serial communication port, including blast air storehouse (1), prepare material storehouse (2) and drying storehouse (3), prepare material storehouse (2) and set up between blast air storehouse (1) and drying storehouse (3), blast air storehouse (1) are provided with blast apparatus (4) to prepare material storehouse (2) direction bloied, prepare material storehouse (2) are provided with the placing tray (21) that bear the weight of the material, the top is provided with feed inlet (22), blast apparatus (4) blow the material into drying storehouse (3) in turn the drying.

2. The edible fungi residue drying equipment for preparing beef cattle feed according to claim 1, wherein the air blowing bin (1) is a cylindrical shell which is axially horizontal, air inlets (11) are formed in two side planes of the air blowing bin, the air blowing device (4) comprises a fan impeller (41) arranged in the air blowing bin (1) and a power source arranged outside the air blowing bin (1), and the power source drives the fan impeller (41) to rotate.

3. The edible fungi residue drying device for preparing beef cattle feed according to claim 2, wherein the power source is a driving motor or a manual driving mechanism (5), and the manual driving mechanism (5) comprises a frame (51), a manual pedal (52) arranged at the lower part of the frame (51), a driving wheel (53) connected on the rotating shaft of the manual pedal (52), a driven wheel (54) connected on the rotating shaft of the fan impeller (41) and a connecting belt (55).

4. The edible fungi residue drying device for preparing beef cattle feed according to claim 2, wherein the material preparation bin (2) is a rectangular shell with two open ends, one open end is connected to the circumferential surface of the air blowing bin (1), the bottom plate of the material preparation bin (2) is equal to the bottom of the air blowing bin (1), and the top plate of the material preparation bin (2) is smaller than the top of the air blowing bin (1).

5. The edible fungi residue drying device for preparing beef cattle feed according to claim 4, wherein the placing plate (21) is connected to the side wall of the material preparation bin (2), the placing plate (21) is obliquely arranged, the height of one side far away from the air blast bin (1) is larger, and the upper surface of the placing plate (21) is provided with a material blocking protrusion (23) perpendicular to the side wall of the material preparation bin (2).

6. The edible fungi residue drying device for preparing beef cattle feed according to claim 5, wherein a socket is formed in the side wall of the feed preparation bin (2), the placing tray (21) is inserted into the feed preparation bin (2) from the socket, a supporting rod (24) is connected between the two side walls of the feed preparation bin (2), and the supporting rod (24) is abutted to the bottom surface of the placing tray (21).

7. The edible fungi residue drying equipment for preparing beef cattle feed according to claim 4, wherein the drying bin (3) is a cylindrical shell with the same size as the blowing bin (1), the drying bin is connected with the opening end of the feed preparation bin (2) through the circumferential surface, the bottom of the drying bin (3) is provided with an openable or closable discharging door (31), and the top of the drying bin is provided with an air outlet (32).

8. The edible fungi residue drying equipment for preparing beef cattle feed according to claim 7, wherein the exhaust port (32) is arranged on one side of the circumferential surface of the drying bin (3) facing the blowing bin (1), and a material blocking net (33) is arranged at the exhaust port (32).