CN210718348U - Biological feed fluidized bed drying device - Google Patents

Abstract

The utility model provides a biological feed fluidized bed drying device, include: a bed body, a sieve plate and a heater; the bottom of the bed body is provided with four vibrating springs in a rectangular array mode, and the bed body is connected with the vibrating springs in a bolt fixing mode; the sieve plate is arranged at the upper part in the bed body and is connected with the bed body in a bolt fixing mode; the corrugated hose is respectively arranged on one side of the bed body and the upper part of the bed cover, and the corrugated hose is connected with the bed body and the bed cover in a bolt fixing mode; the heater is arranged on one side of the cyclone separator, and the heater is connected with the cyclone separator in a bolt fixing mode. Through structurally improving, it is showing to have drying and cooling treatment effect, improves work efficiency greatly, and structural design is reasonable simultaneously, should not produce resonance, improves advantages such as result of use, thereby effectual solution the utility model provides a problem and not enough.

Description

Biological feed fluidized bed drying device

Technical Field

The utility model relates to a biological feed technical field, more specifically the theory that says so especially relates to a biological feed fluidized bed drying device.

Background

After the biological feed is prepared and molded, the biological feed needs to be dried by using a feed fluidized bed due to certain moisture, the feed enters the machine from a feed inlet of the drying bed, the material is thrown along the horizontal fluidized bed under the action of vibration force and moves forwards continuously, hot air upwards passes through the fluidized bed to exchange heat with wet materials, the wet air is discharged from an air outlet after being dedusted by a cyclone separator, and the dry materials are discharged from a discharge outlet, so that the feed can be conveniently stored for a long time.

However, the current common drying fluidized bed for biological feed still has the problems that the dried biological feed cannot be cooled, so that the working efficiency is poor, resonance is easily generated between each component and the bed body in a hard connection design mode, the use effect is poor, the biological feed is easy to damage and the like.

In view of the above, the present invention provides a fluidized bed drying apparatus for biological feed, which is developed to solve the problems and improve the practical value.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a biological fodder fluidized bed drying device to solve the dry fluidized bed that the present common biological fodder that proposes used in the above-mentioned background art still has the biological fodder after the drying and can't carry out cooling treatment, lead to its work efficiency relatively poor, and produce resonance easily between each part with the design of bed body rigid connection, cause the result of use relatively poor, damage scheduling problem and not enough easily.

In order to achieve the above object, the utility model provides a biological feed fluidized bed drying device, which is achieved by the following specific technical means:

a biological feed fluidized bed drying apparatus comprising: the device comprises a bed body, a vibrating spring, a vibrating motor, a discharge port, a partition plate, a sieve plate, a bed cover, a feed port, a corrugated hose, a return air pipe, a cyclone separator, a heater, an air supply pipe and a blower; the bottom of the bed body is provided with four vibrating springs in a rectangular array mode, and the bed body is connected with the vibrating springs in a bolt fixing mode; the vibration motor is arranged in the middle of the two sides of the bed body and is connected with the bed body in a bolt fixing mode; the discharge port is arranged at the left end of the bed body and is connected with the bed body in a welding mode; the partition plate is arranged on the left side of the bed body and is connected with the bed body in a welding mode; the sieve plate is arranged at the upper part in the bed body and is connected with the bed body in a bolt fixing mode; the bedspread is arranged at the upper part of the bed body and is connected with the bed body in a bolt fixing mode; the feeding port is arranged at the right end of the bed cover and is connected with the bed cover in a welding mode; the corrugated hose is respectively arranged on one side of the bed body and the upper part of the bed cover, and the corrugated hose is connected with the bed body and the bed cover in a bolt fixing mode; the air return pipe is arranged above the bed cover and is connected with the bed cover through a corrugated hose; the cyclone separator is arranged on one side of the air return pipe and is connected with the air return pipe in a bolt fixing mode; the heater is arranged on one side of the cyclone separator and is connected with the cyclone separator in a bolt fixing mode; the air supply pipe is arranged at the front end of the heater and is connected with the heater in a bolt fixing mode; the air blower sets up the one side at the bed body left end, and the air blower is connected through the bellows with the bed body.

As the further optimization of this technical scheme, the utility model relates to a biological feed fluidized bed drying device the sieve is rectangular plate-like hollow out construction, and the sieve highly flushes with the height of discharge gate at the bed body.

As the further optimization of this technical scheme, the utility model relates to a biological feed fluidized bed drying device the upper portion of bedspread is the tubulose air outlet of circle that the welding of transverse arrangement mode has four places to be used for bolted connection corrugated hose, and the left end and the discharge gate of bedspread pass through bolt fixed connection.

As the further optimization of this technical scheme, the utility model relates to a biological feed fluidized bed drying device the bottom of return air hose is equipped with the flange that is used for bolted connection corrugated hose everywhere, and the return air hose is connected with the air outlet everywhere on bedspread upper portion through corrugated hose.

As the further optimization of the technical proposal, the utility model relates to a biological feed fluidized bed drying device the heater adopts WY-0537 industrial cycle air heater, and the air intake of heater is connected with cyclone's air outlet, and the air outlet is connected with the blast pipe.

As the further optimization of this technical scheme, the utility model relates to a biological feed fluidized bed drying device one side of blast pipe is equipped with three flanges that are used for bolted connection corrugated hose, and three flanges on the blast pipe are connected with the air intake of three departments on the bed body right side through corrugated hose.

As the further optimization of the technical scheme, the utility model relates to a biological feed fluidized bed drying device the air-blower adopts CZ-TD550W centrifugal blower, and the air-blower is connected with the air intake of a bed body left side department through corrugated hose.

As the further optimization of the technical scheme, the utility model relates to a biological feed fluidized bed drying device the inside of the bed body is separated into the right side through the baffle of rectangle form and is the dry chamber, and the left side is the two cavity structures in cooling chamber.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

1. the utility model relates to a biological feed fluidized bed drying device makes internal interval of bed become left cooling chamber and right dry chamber through setting up the baffle to can make the device obtain separating between the hot-air that gets into when dry and cooling process biological feed and the cold air, avoid the hot-air mixing of cold and hot to cause the not obvious problem of drying and cooling effect.

2. The utility model relates to a biological feed fluidized bed drying device is through utilizing the bellows to be connected between the bed body and blast pipe and air-blower, with the design that utilizes the bellows to be connected between bedspread and the return air duct to can avoid blast pipe and air-blower and return air duct to appear producing resonance in bed body vibration process, influence the problem of using and damaging easily.

3. The utility model relates to a biological feed fluidized bed drying device sets up the air-blower through bed body left side to can utilize the air-blower to the internal cold air of injection of bed, cool off the biological feed after the drying on the sieve, improve its work efficiency greatly.

4. The utility model discloses a to above-mentioned device structural improvement, it is showing to have drying and cooling treatment effect, improves work efficiency greatly, and structural design is reasonable simultaneously, should not produce resonance, improves advantages such as result of use, thereby effectual solution the utility model provides a problem and not enough.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

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

FIG. 2 is a schematic view of the partially exploded structure of the bed body of the present invention;

fig. 3 is a schematic view of the local decomposition structure of the bedspread of the present invention.

In the figure: the bed comprises a bed body 1, a vibrating spring 2, a vibrating motor 3, a discharge port 4, a partition plate 5, a sieve plate 6, a bed cover 7, a feed port 8, a corrugated hose 9, a return air pipe 10, a cyclone separator 11, a heater 12, an air supply pipe 13 and a blower 14.

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.

It is to be noted that, in the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 3, the present invention provides a specific technical embodiment of a biological feed fluidized bed drying device:

a biological feed fluidized bed drying apparatus comprising: the bed comprises a bed body 1, a vibrating spring 2, a vibrating motor 3, a discharge port 4, a partition plate 5, a sieve plate 6, a bed cover 7, a feed port 8, a corrugated hose 9, a return air pipe 10, a cyclone separator 11, a heater 12, an air supply pipe 13 and a blower 14; the bottom of the bed body 1 is provided with four vibrating springs 2 in a rectangular array mode, and the bed body 1 is connected with the vibrating springs 2 in a bolt fixing mode; the vibration motor 3 is arranged in the middle of the two sides of the bed body 1, and the vibration motor 3 is connected with the bed body 1 in a bolt fixing mode; the discharge port 4 is arranged at the left end of the bed body 1, and the discharge port 4 is connected with the bed body 1 in a welding mode; the partition plate 5 is arranged on the left side of the bed body 1, and the partition plate 5 is connected with the bed body 1 in a welding mode; the sieve plate 6 is arranged at the upper part in the bed body 1, and the sieve plate 6 is connected with the bed body 1 in a bolt fixing mode; the bed cover 7 is arranged at the upper part of the bed body 1, and the bed cover 7 is connected with the bed body 1 in a bolt fixing way; the feeding port 8 is arranged at the right end of the bed cover 7, and the feeding port 8 is connected with the bed cover 7 in a welding mode; the corrugated hose 9 is respectively arranged on one side of the bed body 1 and the upper part of the bed cover 7, and the corrugated hose 9 is connected with the bed body 1 and the bed cover 7 in a bolt fixing mode; the return air pipe 10 is arranged above the bed cover 7, and the return air pipe 10 is connected with the bed cover 7 through a corrugated hose 9; the cyclone separator 11 is arranged on one side of the return air pipe 10, and the cyclone separator 11 is connected with the return air pipe 10 in a bolt fixing mode; the heater 12 is arranged at one side of the cyclone separator 11, and the heater 12 is connected with the cyclone separator 11 in a bolt fixing mode; the blast pipe 13 is arranged at the front end of the heater 12, and the blast pipe 13 is connected with the heater 12 in a bolt fixing mode; the blower 14 is arranged at one side of the left end of the bed body 1, and the blower 14 is connected with the bed body 1 through a corrugated hose 9.

Specifically, the bed body 1 is a rectangular box structure, and one side of the bed body 1 is welded with tubular air inlets for connecting the corrugated hoses 9 by bolts in a transverse arrangement mode.

Specifically, the sieve plate 6 is a rectangular plate-shaped hollow structure, and the sieve plate 6 is flush with the discharge port 4 in the height of the bed body 1.

Specifically, the upper part of the bed cover 7 is welded with four tubular air outlets for connecting the corrugated hoses 9 by bolts in a transverse arrangement mode, and the left end of the bed cover 7 is fixedly connected with the discharge port 4 by bolts.

Specifically, four flanges for connecting corrugated hoses 9 by bolts are arranged at the bottom of the return air pipe 10, and the return air pipe 10 is connected with four air outlets at the upper part of the bed cover 7 through the corrugated hoses 9.

Specifically, the heater 12 is a WY-0537 industrial circulating air heater, an air inlet of the heater 12 is connected with an air outlet of the cyclone separator 11, and an air outlet of the heater is connected with the blast pipe 13.

Specifically, one side of the blast pipe 13 is provided with three flanges for connecting the corrugated hose 9 by bolts, and the three flanges on the blast pipe 13 are connected with three air inlets on the right side of the bed body 1 through the corrugated hose 9.

Specifically, the blower 14 is a CZ-TD550W centrifugal blower, and the blower 14 is connected with an air inlet at one position on the left side of the bed body 1 through a corrugated hose 9.

Specifically, the inside of the bed body 1 is divided into two chamber structures with a right side being a drying chamber and a left side being a cooling chamber by a rectangular partition plate 5, and as shown in fig. 2, an air inlet connected with an air blower 14 is located at the cooling chamber on the left side, and three air inlets connected with an air supply pipe 13 are located at the drying chamber on the right side.

The method comprises the following specific implementation steps:

biological feed is thrown on sieve 6 by dog-house 8 department, under the effect through vibrating motor 3, the material is thrown along sieve 6 level, move in succession forward, the hot-blast right side in 13 departments entering bed body 1 that gets into of blast pipe of heater 12 simultaneously, hot-blast biological feed on sieve 6 upwards carries out the drying, then get into cyclone 11 through return air pipe 10 after separating the dust through heater 12 heating once more and get into bed body 1 and carry out circulation drying process, and when biological feed after the drying was through bed body 1 left side, air-blower 14 pours into the cool breeze into to the cooling chamber, cool off biological feed, fall into collection packaging container through discharge gate 4 at last, thereby improve its work efficiency greatly.

In summary, the following steps: according to the biological feed fluidized bed drying device, the partition plates are arranged to divide the interior of the bed body into the left cooling cavity and the right drying cavity, so that hot air and cold air entering the device during drying and cooling treatment of biological feed can be separated, and the problem that drying and cooling effects are not obvious due to mixing of the cold air and the hot air is avoided; the bed body is connected with the blast pipe and the blower by the corrugated hose, and the bedspread is connected with the return air pipe by the corrugated hose, so that the problems that the blast pipe, the blower and the return air pipe generate resonance in the vibration process of the bed body, the use is influenced and the bed body is easy to damage can be solved; set up the air-blower through bed body left side to can utilize the air-blower to the internal cold air of injecting of bed, cool off the biological feed after the drying on the sieve, improve its work efficiency greatly.

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 (9)

1. A biological feed fluidized bed drying apparatus comprising: the bed comprises a bed body (1), a vibrating spring (2), a vibrating motor (3), a discharge hole (4), a partition plate (5), a sieve plate (6), a bed cover (7), a feed inlet (8), a corrugated hose (9), a return air pipe (10), a cyclone separator (11), a heater (12), an air supply pipe (13) and a blower (14); the method is characterized in that: the bottom of the bed body (1) is provided with four vibrating springs (2) in a rectangular array mode, and the bed body (1) is connected with the vibrating springs (2) in a bolt fixing mode; the vibration motor (3) is arranged in the middle of two sides of the bed body (1), and the vibration motor (3) is connected with the bed body (1) in a bolt fixing mode; the discharge port (4) is arranged at the left end of the bed body (1), and the discharge port (4) is connected with the bed body (1) in a welding mode; the partition plate (5) is arranged on the left side of the bed body (1), and the partition plate (5) is connected with the bed body (1) in a welding mode; the sieve plate (6) is arranged at the upper part in the bed body (1), and the sieve plate (6) is connected with the bed body (1) in a bolt fixing mode; the bed cover (7) is arranged at the upper part of the bed body (1), and the bed cover (7) is connected with the bed body (1) in a bolt fixing mode; the feeding port (8) is arranged at the right end of the bed cover (7), and the feeding port (8) is connected with the bed cover (7) in a welding mode; the corrugated hose (9) is respectively arranged on one side of the bed body (1) and the upper part of the bed cover (7), and the corrugated hose (9) is connected with the bed body (1) and the bed cover (7) in a bolt fixing mode; the air return pipe (10) is arranged above the bed cover (7), and the air return pipe (10) is connected with the bed cover (7) through a corrugated hose (9); the cyclone separator (11) is arranged on one side of the air return pipe (10), and the cyclone separator (11) is connected with the air return pipe (10) in a bolt fixing mode; the heater (12) is arranged on one side of the cyclone separator (11), and the heater (12) is connected with the cyclone separator (11) in a bolt fixing mode; the air supply pipe (13) is arranged at the front end of the heater (12), and the air supply pipe (13) is connected with the heater (12) in a bolt fixing mode; the air blower (14) is arranged on one side of the left end of the bed body (1), and the air blower (14) is connected with the bed body (1) through a corrugated hose (9).

2. The biological feed fluidized bed drying device of claim 1, wherein: the bed body (1) is of a rectangular box body structure, and one side of the bed body (1) is welded with tubular air inlets which are used for being connected with corrugated hoses (9) through bolts in a transverse arrangement mode.

3. The biological feed fluidized bed drying device of claim 1, wherein: the sieve plate (6) is of a rectangular plate-shaped hollow structure, and the sieve plate (6) is flush with the discharge hole (4) in height at the bed body (1).

4. The biological feed fluidized bed drying device of claim 1, wherein: the upper portion of bedspread (7) is the welding of horizontal arrangement mode and is used for the tubulose air outlet of the round of bolted connection ripple hose (9) everywhere, and the left end of bedspread (7) passes through bolt fixed connection with discharge gate (4).

5. The biological feed fluidized bed drying device of claim 1, wherein: the bottom of the air return pipe (10) is provided with four flanges for connecting corrugated hoses (9) through bolts, and the air return pipe (10) is connected with four air outlets at the upper part of the bed cover (7) through the corrugated hoses (9).

6. The biological feed fluidized bed drying device of claim 1, wherein: the heater (12) adopts a WY-0537 industrial circulating air heater, an air inlet of the heater (12) is connected with an air outlet of the cyclone separator (11), and an air outlet is connected with the blast pipe (13).

7. The biological feed fluidized bed drying device of claim 1, wherein: and three flanges for connecting the corrugated hoses (9) through bolts are arranged on one side of the blast pipe (13), and the three flanges on the blast pipe (13) are connected with three air inlets on the right side of the bed body (1) through the corrugated hoses (9).

8. The biological feed fluidized bed drying device of claim 1, wherein: the air blower (14) adopts a CZ-TD550W centrifugal air blower, and the air blower (14) is connected with an air inlet at one position on the left side of the bed body (1) through a corrugated hose (9).

9. A biological feed fluid bed drying apparatus as claimed in claim 1 or 2, wherein: the inside of the bed body (1) is divided into two chamber structures, wherein the right side is a drying chamber and the left side is a cooling chamber through rectangular partition plates (5).

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