CN213514915U - Continuous drying device of fodder - Google Patents

Abstract

The utility model discloses a continuous feed drying device, which comprises a drying device; the upper part of the left side of the charging barrel is communicated with a feed inlet capable of placing feed inwards, the right side of the charging barrel is communicated with a first discharge hole, and a plurality of second discharge holes are arranged below the charging barrel in a penetrating manner; the feeding mechanism is arranged on the left side of the charging barrel and is used for driving the feed in the charging barrel to be conveyed to the first discharge hole and the second discharge hole; the transfer box is provided with a placing space and is arranged below the charging bucket, the right side of the transfer box is provided with an outlet, and the charging bucket is fixed above the transfer box; the conveying mechanism is arranged in the placing space and is used for driving the feed falling from the first discharge port and the second discharge port to be conveyed to the outlet; compared with the prior art, the ventilation pipe can ensure that the materials are heated uniformly in the drying process, and can lower the heat energy reutilization efficiency of the device, thereby reducing the operation cost of the device and bringing convenience for the user.

Description

Continuous drying device of fodder

Technical Field

The utility model relates to a drying-machine technical field, in particular to fodder continuous drying device.

Background

The fodder dryer is widely used for drying materials such as slag limestone, coal powder, slag, clay and the like in the building materials, metallurgy, chemical industry and cement industry. The rotary dryer has strong adaptability to materials, can dry various materials, has simple and reliable operation, and has the advantages of reasonable structure, fine manufacture, high yield, low energy consumption, convenient operation and the like.

The existing continuous feed drying device has some defects, in the using process of the device, materials are heated unevenly, the feed drying processing quality is poor, the device is low in heat energy reutilization efficiency, the operation cost of the device is increased, and inconvenience is brought to users.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a fodder is drying device in succession.

In order to achieve the above purpose, the utility model adopts the following scheme:

a continuous drying device for feed comprises;

the upper part of the left side of the charging barrel is communicated with a feed inlet capable of placing feed inwards, the right side of the charging barrel is communicated with a first discharge hole, and a plurality of second discharge holes are arranged below the charging barrel in a penetrating manner;

the feeding mechanism is arranged on the left side of the charging barrel and is used for driving the feed in the charging barrel to be conveyed to the first discharge hole and the second discharge hole;

the transfer box is provided with a placing space and is arranged below the charging bucket, the right side of the transfer box is provided with an outlet, and the charging bucket is fixed above the transfer box;

the conveying mechanism is arranged in the placing space and is used for driving the feed falling from the first discharge port and the second discharge port to be conveyed to the outlet;

the ventilation pipe is communicated with the front part and the rear part of the transfer box, and the left side of the ventilation pipe is provided with a constant-temperature heating plate which can heat the air in the transfer box;

and the air supply mechanism is arranged on the left side of the ventilation pipe and used for driving the air heated by the constant-temperature heating plate to be conveyed into the placing space along the ventilation pipe.

Further, the feeding mechanism comprises a fixing seat, a propeller blade and a first motor, the first motor is fixed above the fixing seat, the propeller blade is arranged in the charging barrel, and the center of the left side of the propeller blade is fixed at the output end of the first motor.

Further, the conveying mechanism comprises a conveying belt and a driving mechanism;

the conveying belt comprises a first roller, a first synchronous belt, a second roller and a second synchronous belt which are symmetrically arranged, the first roller and the second roller are symmetrically and transversely inserted into the placing space, the first synchronous belt is sleeved and connected on the first roller, the second roller is arranged below the first roller, and the second synchronous belt is sleeved and connected on the second roller;

actuating mechanism, it includes motor cabinet, second motor, first spur gear, second spur gear and third spur gear, the motor cabinet is fixed at transfer case rear side wall face, the second motor is transversely fixed on the motor cabinet, first spur gear is fixed at second motor output, second spur gear and second spur gear are fixed respectively on one of them first roller bearing and one of them second roller bearing, second spur gear and third spur gear meshing, second spur gear and first spur gear meshing.

Furthermore, the left side of the first synchronous belt is provided with an empty groove which can allow the feed to fall down to the second conveying belt.

Further, air supply mechanism is including the third motor, blow fan, intercommunication pipeline and cavity, the third motor is transversely fixed in the fixing base below, intercommunication pipeline is fixed the intercommunication respectively in the ventilation pipe left, the cavity intercommunication sets up between the intercommunication pipeline, blow the fan center and fix at the third motor output, blow the fan setting in the cavity.

Preferably, the ventilation pipe comprises short pipes and long pipes, the short pipes are transversely and fixedly communicated with the front side wall surface and the rear side wall surface of the transfer box, and the long pipes are transversely and fixedly communicated with the short pipes.

Preferably, supporting legs are arranged below the transfer box.

To sum up, the utility model discloses for its beneficial effect of prior art is:

the above technical scheme is adopted in the utility model, can realize when the fodder needs to be dried when producing the fodder, pour the fodder into on the feed inlet through the user, after the fodder has got into the charging bucket, drive the fodder that loads in the bucket through feeding mechanism and move toward first discharge gate and second discharge gate, then the fodder falls in the transfer case through first discharge gate and second discharge gate, the fodder in the transfer case passes through conveying mechanism and makes the fodder carry toward the exit, air after the heating of constant temperature hot plate flows along the ventilation pipe toward the incasement during fodder is carried, contrast prior art, it is even to make the material be heated at the in-process of drying, can be with the device to heat energy reuse inefficiency, the running cost of the device has been reduced, bring the convenience for user's use.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic view of the half-section of the present invention.

Fig. 3 is an exploded view of the present invention.

Description of reference numerals: 1. a charging barrel; 2. a feed inlet; 3. a first discharge port; 4. a second discharge port; 5. a transfer box; 6. a placement space; 7. an outlet; 8. a vent pipe; 9. heating the plate at constant temperature; 100. a feeding mechanism; 200. a conveying mechanism; 300. an air supply mechanism; 101. a fixed seat; 102. a propeller blade; 103. a first motor; 210. a conveyor belt; 220. a drive mechanism; 211. a first roller; 212. a first synchronization belt; 213. a second roller; 214. a second synchronous belt; 221. a motor base; 222. a second motor; 223. a first straight gear; 224. a second spur gear; 225. a third spur gear; 2121. an empty groove; 301. a third motor; 302. a blower fan; 303. a communicating pipe; 304. a cavity; 81. a short pipe; 82. a long tube; 51. support the feet.

Detailed Description

The following detailed description provides many different embodiments or examples for implementing the invention. Of course, these are merely embodiments or examples and are not intended to be limiting. In addition, repeated reference numbers, such as repeated numbers and/or letters, may be used in various embodiments. These iterations are for simplicity and clarity of describing the present invention and are not intended to represent a particular relationship between the various embodiments and/or configurations discussed.

The invention will be further described with reference to the following description and embodiments in conjunction with the accompanying drawings:

a continuous drying apparatus for fodder as shown in fig. 1 to 3, comprising; a feed inlet 2 capable of placing feed inwards is communicated with the upper part of the left side of the charging barrel 1, a first discharge port 3 is communicated with the right side of the charging barrel, and a plurality of second discharge ports 4 are arranged below the charging barrel in a penetrating manner; the feeding mechanism 100 is arranged on the left side of the charging barrel 1 and is used for driving the feed in the charging barrel 1 to be conveyed to the first discharge hole 3 and the second discharge hole 4; a transfer case 5 having a placing space 6 provided below the charging bucket 1 and having an outlet 7 at a right side thereof, the charging bucket 1 being fixed above the transfer case 5; the conveying mechanism 200 is arranged in the placing space 6 and is used for driving the feed falling from the first discharge port 3 and the second discharge port 4 to be conveyed to the outlet 7; a ventilation pipe 8 which is communicated with the front and the rear of the transfer box 5, and a constant temperature heating plate 9 which can heat the air in the transfer box is arranged on the left side of the ventilation pipe; the air supply mechanism 300 is arranged on the left side of the vent pipe 8 and is used for driving the feed heated by the constant-temperature heating plate 9 to be conveyed into the placing space 6 along the vent pipe 8, when the feed needs to be dried in the feed production process, the feed is poured into the feed inlet 2 by a user, after the feed enters the charging barrel 1, the feed in the charging barrel 1 is driven to move towards the first discharge port 3 and the second discharge port 4 by the feed mechanism 100, then the feed falls into the transfer box 5 through the first discharge port 3 and the second discharge port 4, the supporting legs 51 are arranged below the transfer box 5, the feed in the transfer box 5 is conveyed towards the outlet 7 by the feed conveying mechanism 200, the air heated by the constant-temperature heating plate flows into the transfer box 5 along the vent pipe 8 by the air supply mechanism 300 in the feed conveying process, the vent pipe 8 comprises a short pipe 81 and a long pipe 82, the lateral fixed intercommunication of nozzle stub 81 is at the both sides wall around the transfer case 5, each nozzle stub 81 of long tube 82 lateral fixed intercommunication, compares prior art, enables the material and is heated evenly at the in-process of drying, can be with the device to heat energy reuse inefficiency again, has reduced the running cost of the device, brings the convenience for user's use.

Feeding mechanism 100 includes fixing base 101, propeller blade 102, first motor 103 is fixed in fixing base 101 top, propeller blade 102 sets up in charging bucket 1, propeller blade 102 left side center is fixed at first motor 103 output, and first motor 103 drive through switch-on fixing base 101 upper end for first motor 103 output drives propeller blade 102 at 1 internal rotation of charging bucket, can effectually carry the fodder of charging bucket 1.

The conveying mechanism 200 of the present invention comprises a conveying belt 210 and a driving mechanism 220; the conveying belt 210 comprises a first roller 211, a first synchronous belt 212, a second roller 213 and a second synchronous belt 214 which are symmetrically arranged, the first roller 211 and the second roller 213 are symmetrically and transversely inserted into the placing space 6, the first synchronous belt 212 is sleeved on the first roller 211, the second roller 213 is arranged below the first roller 211, and the second synchronous belt 214 is sleeved on the second roller 213; the driving mechanism 220 comprises a motor base 221, a second motor 222, a first spur gear 223, a second spur gear 224 and a third spur gear 225, the motor base 221 is fixed on the rear side wall surface of the transfer box 5, the second motor 222 is transversely fixed on the motor base 221, the first spur gear 223 is fixed at the output end of the second motor 222, the second spur gear 224 and the second spur gear 224 are respectively fixed on one of the first rollers 211 and one of the second rollers 213, the second spur gear 224 is meshed with the third spur gear 225, the second spur gear 224 is meshed with the first spur gear 223, the second motor 222 fixed on the motor base 211 is connected through a power supply for driving, so that the output end of the second motor 222 drives the first spur gear 223 to rotate the second spur gear 224, at the moment, one of the first rollers 211 rotates the second spur gear 224 to drive the third spur gear 225 to rotate, one of the second rollers 213 rotates, the first roller 211 and the second roller 225 drive the first synchronous belt 212 and the second synchronous belt 214 to rotate, and the left side of the first synchronous belt 212 is provided with a hollow groove 2121 which can allow the feed to fall towards the second conveying belt, so that the feed falling on the charging bucket 1 can be driven to be conveyed.

Air supply mechanism 300 is including third motor 301, blow fan 302, intercommunication pipeline 303 and cavity 304, third motor 301 transversely fixes in fixing base 101 below, intercommunication pipeline 303 is fixed intercommunication respectively at the 8 lefts of ventilation pipe, cavity 304 intercommunication sets up between intercommunication pipeline 303, blow fan 302 center is fixed at third motor 301 output, blow fan 302 sets up in cavity 304, fixes third motor 301 function in fixing base 101 below through power drive and makes third motor 301 output drive fan 302 of blowing at cavity 304 internal rotation, and the gas that flows can drive the air current and flow through intercommunication pipeline 303 toward ventilation pipe 8 transport.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above, and it should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only illustrative of the principles of the present invention, and the present invention can be modified in various ways without departing from the spirit and scope of the present invention, and these modifications and changes fall into the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A continuous drying device for feed is characterized by comprising;

a feed inlet (2) capable of placing feed inwards is communicated above the left side of the charging barrel (1), a first discharge port (3) is communicated on the right side of the charging barrel, and a plurality of second discharge ports (4) penetrate below the charging barrel;

the feeding mechanism (100) is arranged on the left side of the charging barrel (1) and is used for driving the feed in the charging barrel (1) to be conveyed to the first discharging port (3) and the second discharging port (4);

a transfer box (5) provided with a placing space (6) and arranged below the charging barrel (1), wherein the right side of the transfer box is provided with an outlet (7), and the charging barrel (1) is fixed above the transfer box (5);

the conveying mechanism (200) is arranged in the placing space (6) and is used for driving the feed falling from the first discharge port (3) and the second discharge port (4) to be conveyed to the outlet (7);

a ventilation pipe (8) which is communicated with the front and the rear of the transfer box (5), and a constant temperature heating plate (9) which can heat the air in the ventilation pipe is arranged on the left side of the ventilation pipe;

and the air supply mechanism (300) is arranged on the left side of the ventilation pipe (8) and is used for driving the air heated by the constant-temperature heating plate (9) to be conveyed into the placing space (6) along the ventilation pipe (8).

2. The continuous feed drying device according to claim 1, characterized in that the feeding mechanism (100) comprises a fixed seat (101), a propeller blade (102) and a first motor (103), the first motor (103) is fixed above the fixed seat (101), the propeller blade (102) is arranged in the charging bucket (1), and the center of the left side of the propeller blade (102) is fixed at the output end of the first motor (103).

3. The continuous drying device for fodder according to claim 2, characterized in that the conveying mechanism (200) comprises a conveyor belt (210), a driving mechanism (220);

the conveying belt (210) comprises first rollers (211) which are symmetrically arranged, a first synchronous belt (212), second rollers (213) and a second synchronous belt (214) which are symmetrically arranged, the first rollers (211) and the second rollers (213) are symmetrically and transversely inserted into the placing space (6), the first synchronous belt (212) is sleeved on the first rollers (211), the second rollers (213) are arranged below the first rollers (211), and the second synchronous belt (214) is sleeved on the second rollers (213);

actuating mechanism (220), it includes motor cabinet (221), second motor (222), first spur gear (223), second spur gear (224) and third spur gear (225), motor cabinet (221) are fixed at transfer case (5) rear side wall face, second motor (222) are transversely fixed on motor cabinet (221), first spur gear (223) are fixed at second motor (222) output, second spur gear (224) and second spur gear (224) are fixed respectively on one of them first roller (211) and one of them second roller (213), second spur gear (224) and third spur gear (225) meshing, second spur gear (224) and first spur gear (223) meshing.

4. A fodder continuous drying device according to claim 3, characterized in that the left side of the first conveyor belt (212) is provided with a slot (2121) allowing fodder to fall down towards the second conveyor belt.

5. The continuous feed drying device according to claim 2, wherein the air supply mechanism (300) comprises a third motor (301), a blowing fan (302), a communication pipeline (303) and a cavity (304), the third motor (301) is transversely fixed below the fixing seat (101), the communication pipeline (303) is respectively and fixedly communicated at the left side of the ventilation pipe (8), the cavity (304) is communicated and arranged between the communication pipelines (303), the center of the blowing fan (302) is fixed at the output end of the third motor (301), and the blowing fan (302) is arranged in the cavity (304).

6. The continuous drying device for fodder as claimed in claim 1, characterized in that the ventilation pipe (8) comprises a short pipe (81) and a long pipe (82), the short pipe (81) is transversely and fixedly communicated with the front and rear side wall surfaces of the transfer box (5), and the long pipe (82) is transversely and fixedly communicated with each short pipe (81).

7. The continuous drying device for feed as claimed in claim 1, characterized in that supporting feet (51) are arranged below the transfer box (5).

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