CN221204059U - Fermented pellet feed stoving pelletization equipment with waste heat recovery structure - Google Patents

Abstract

The utility model discloses fermented pellet feed drying and granulating equipment with a waste heat recovery structure, which comprises a bottom structure, an extrusion mechanism, a discharging structure, a heat exchange pipeline, a stirring and heating mechanism, a forming pipeline, a cutting mechanism and a heat exchange mechanism, wherein the stirring and heating mechanism comprises a stirring bin, an electric heating block is arranged in the stirring bin near the bottom end, the extrusion mechanism comprises a conical discharge hole and an extrusion bin, one end of the conical discharge hole is provided with a forming pipeline, one end of the top of the forming pipeline is welded with a vertical plate, one end of the vertical plate is provided with a heat exchanger through a bolt, and the heat exchange pipeline is arranged in the heat exchanger. This novel waste heat that can heat when stirring fermentation to the raw materials after is retrieved to the energy waste that significantly reduces is fit for extensively using widely.

Description

Fermented pellet feed stoving pelletization equipment with waste heat recovery structure

Technical Field

The utility model relates to the technical field of feed production, in particular to a fermentation pellet feed drying and granulating device with a waste heat recovery structure.

Background

The fermented pellet feed stoving and pelletizing equipment is one for producing animal feed, and may be used in eliminating water from animal feed material and pelletizing fermented material for easy storage, transportation and feeding.

The prior granulating equipment has the following defects: 1. when the raw materials are stirred and fermented, the raw materials are required to be heated, but the heat does not have a waste heat recovery structure, and the energy waste phenomenon is serious. Therefore, we propose a fermented pellet feed drying and granulating device with a waste heat recovery structure.

Disclosure of utility model

The utility model mainly aims to provide a fermented pellet feed drying and granulating device with a waste heat recovery structure, which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The utility model provides a fermentation pellet feed stoving pelletization equipment with waste heat recovery structure, includes bottom structure, extrusion mechanism, unloading structure, heat exchange pipeline, stirring heating mechanism, shaping pipeline, shutdown mechanism and heat exchange mechanism, stirring heating mechanism includes the stirring storehouse, be close to bottom department in the stirring storehouse and be provided with the electrical heating piece, extrusion mechanism includes toper discharge gate and extrusion storehouse, toper discharge gate one end department is provided with the shaping pipeline, shaping pipeline top one end welding has the riser, the heat exchanger is installed through the bolt to riser one end, be provided with the heat exchange pipeline in the heat exchanger, heat exchange pipeline both ends are pre-buried respectively to be set up in stirring storehouse and shaping pipeline.

Further, the mounting plate is welded to one end of the extrusion bin, the servo electric cylinder is fixed to the top of the mounting plate through bolts, the conical extrusion block is connected to the power output end of the servo electric cylinder, the conical extrusion block is located the extrusion bin, the servo electric cylinder conveniently drives the conical extrusion block to horizontally move in operation, and feed entering the extrusion bin is conveniently extruded to the conical discharge port through the conical extrusion block.

Further, the first motor is installed through the bolt near central department in stirring storehouse top, the output shaft peripheral of first motor is connected with stirring vane, stirring vane is located the stirring storehouse, stirring storehouse top one end department is provided with the charge door, the charge door top inboard is provided with the cock through the internal thread, and first motor is convenient to drive stirring vane and rotate at the during operation to conveniently stir the fodder in the stirring storehouse, through unscrewing the cock, the convenience gets into the raw materials that the production fodder was used via the charge door.

Further, shutdown mechanism includes the second motor, the second motor pass through the mount install in shaping pipeline bottom, the power take off end of second motor is connected with the connection pad, the cutting blade is installed through the screw to connection pad one end, and the second motor is convenient to drive connection pad and cutting blade at the during operation and rotates, utilizes cutting blade to conveniently cut off the fodder that extrudees shaping through the shaping pipeline to become granular fodder.

Further, the bottom structure comprises a supporting base and a temperature controller, the supporting base is welded at the bottom of the extrusion bin, and one end of the supporting base is fixed with the temperature controller through a connecting rod.

Further, the unloading structure includes the unloading pipe, stirring storehouse bottom is connected with extrusion mechanism top through the unloading pipe, be provided with the stop valve on the unloading pipe.

Compared with the prior art, the utility model has the following beneficial effects:

1. According to the fermented pellet feed drying and granulating equipment with the waste heat recovery structure, due to the effects of the heat exchanger and the heat exchange pipeline, the waste heat in the stirring bin is recovered and released at the forming pipeline, and then the waste heat is utilized to further dry the feed in the forming pipeline.

Drawings

Fig. 1 is a schematic diagram of the whole structure of a fermented pellet feed drying and granulating device with a waste heat recovery structure.

Fig. 2 is a detailed structural schematic diagram of a part A of a fermented pellet feed drying and granulating device with a waste heat recovery structure.

Fig. 3 is a schematic diagram showing the detailed structure of the part B of the fermented pellet feed drying and granulating equipment with the waste heat recovery structure.

In the figure: 1. a bottom structure; 101. a support base; 102. a temperature controller; 2. an extrusion mechanism; 201. a mounting plate; 202. a servo electric cylinder; 203. extruding the bin; 204. a conical extrusion block; 205. a conical discharge port; 3. a blanking structure; 301. discharging pipes; 302. a stop valve; 4. a heat exchange pipeline; 5. a stirring and heating mechanism; 501. a stirring bin; 502. an electric heating block; 503. a first motor; 504. stirring blades; 505. a feed inlet; 506. a cock; 6. forming a pipeline; 7. a cutting mechanism; 701. a second motor; 702. a connecting disc; 703. a cutting blade; 8. a heat exchange mechanism; 801. a riser; 802. a heat exchanger.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1-3, a fermented pellet feed stoving pelletization equipment with waste heat recovery structure, including bottom structure 1, extrusion mechanism 2, unloading structure 3, heat transfer pipeline 4, stirring heating mechanism 5, shaping pipeline 6, shutdown mechanism 7 and heat transfer mechanism 8, stirring heating mechanism 5 includes stirring storehouse 501, be close to bottom department in the stirring storehouse 501 and be provided with electric heating block 502, extrusion mechanism 2 includes toper discharge gate 205 and extrusion storehouse 203, toper discharge gate 205 one end department is provided with shaping pipeline 6, shaping pipeline 6 top one end welding has riser 801, riser 801 one end is installed through the bolt heat exchanger 802, be provided with heat transfer pipeline 4 in the heat exchanger 802, heat transfer pipeline 4 both ends are pre-buried respectively and are set up in stirring storehouse 501 and shaping pipeline 6.

Wherein, the mounting panel 201 has been welded to extrusion storehouse 203 one end, the mounting panel 201 top is fixed with servo electric jar 202 through the bolt, the power take off end of servo electric jar 202 is connected with toper extrusion piece 204, toper extrusion piece 204 is located extrusion storehouse 203.

In this embodiment, as shown in fig. 1, the servo cylinder 202 conveniently drives the tapered extrusion block 204 to move horizontally during operation, and the tapered extrusion block 204 is used to conveniently extrude the feed entering the extrusion bin 203 to the tapered discharge port 205.

The top of the stirring bin 501 is close to the center and provided with a first motor 503 through a bolt, the periphery of an output shaft of the first motor 503 is connected with a stirring blade 504, the stirring blade 504 is located in the stirring bin 501, one end of the top of the stirring bin 501 is provided with a charging port 505, and the inner side of the top end of the charging port 505 is provided with a cock 506 through internal threads.

In this embodiment, as shown in fig. 1 and 3, the first motor 503 conveniently drives the stirring blade 504 to rotate during operation, so that the feed in the stirring bin 501 is conveniently stirred, and the raw materials for producing the feed can be conveniently introduced through the feed inlet 505 by unscrewing the cock 506.

The cutting mechanism 7 comprises a second motor 701, the second motor 701 is mounted at the bottom of the forming pipeline 6 through a fixing frame, a power output end of the second motor 701 is connected with a connecting disc 702, and a cutting blade 703 is mounted at one end of the connecting disc 702 through a screw.

In this embodiment, as shown in fig. 1 and 2, the second motor 701 conveniently drives the connection disc 702 and the cutting blade 703 to rotate during operation, and the cutting blade 703 is used to conveniently cut off the feed extruded through the forming pipe 6, thereby forming granular feed.

The bottom structure 1 comprises a supporting base 101 and a temperature controller 102, the supporting base 101 is welded at the bottom of the extrusion bin 203, and one end of the supporting base 101 is fixed with the temperature controller 102 through a connecting rod.

In this embodiment, as shown in fig. 1, the bottom of the extrusion chamber 203 is conveniently supported by the support base 101.

The discharging structure 3 comprises a discharging pipe 301, the bottom of the stirring bin 501 is connected with the top of the extruding mechanism 2 through the discharging pipe 301, and a stop valve 302 is arranged on the discharging pipe 301.

In this embodiment, as shown in fig. 1, when the stop valve 302 is opened, the stirred feed heated by the stirring tank 501 is conveniently introduced into the extrusion tank 203.

It should be noted that, the utility model is a fermented pellet feed drying and granulating device with a waste heat recovery structure, during operation, the first motor 503 conveniently drives the stirring blade 504 to rotate during operation, thereby conveniently stirring the feed in the stirring bin 501, the raw material for producing the feed is conveniently fed into the forming pipeline 6 through unscrewing the cock 506, when the stop valve 302 is opened, conveniently making the feed heated and stirred in the stirring bin 501 enter the extrusion bin 203, the servo cylinder 202 conveniently drives the tapered extrusion block 204 to horizontally move during operation, the tapered extrusion block 204 is utilized to conveniently extrude the feed entering the extrusion bin 203 to the tapered discharge port 205, the feed close to the tapered discharge port 205 is then fed into the forming pipeline 6, due to the effect of the heat exchanger 802 and the heat exchange pipeline 4, the waste heat in the stirring bin 501 is recovered, and released at the forming pipeline 6, further the feed in the forming pipeline 6 is further dried by the waste heat, the second motor 701 conveniently drives 702 and the cutting blade 703 to conveniently cut off the feed extruded and formed by the forming pipeline 6 during operation, thereby greatly reducing waste of the raw material after the fermentation and the waste of the raw material is greatly reduced during the fermentation.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a fermentation pellet feed stoving pelletization equipment with waste heat recovery structure, includes bottom structure (1), extrusion mechanism (2), unloading structure (3), heat transfer pipeline (4), stirring heating mechanism (5), shaping pipeline (6), shutdown mechanism (7) and heat transfer mechanism (8), its characterized in that: stirring heating mechanism (5) are including stirring storehouse (501), be close to bottom department in stirring storehouse (501) and be provided with electric heating piece (502), extrusion mechanism (2) are including toper discharge gate (205) and extrusion storehouse (203), toper discharge gate (205) one end department is provided with shaping pipeline (6), shaping pipeline (6) top one end welding has riser (801), riser (801) one end is installed heat exchanger (802) through the bolt, be provided with heat transfer pipeline (4) in heat exchanger (802), heat transfer pipeline (4) both ends are pre-buried respectively to be set up in stirring storehouse (501) and shaping pipeline (6).

2. The fermented pellet feed drying and granulating apparatus with a waste heat recovery structure as claimed in claim 1, wherein: the extrusion bin is characterized in that a mounting plate (201) is welded at one end of the extrusion bin (203), a servo electric cylinder (202) is fixed at the top of the mounting plate (201) through a bolt, a conical extrusion block (204) is connected to the power output end of the servo electric cylinder (202), and the conical extrusion block (204) is located in the extrusion bin (203).

3. The fermented pellet feed drying and granulating apparatus with a waste heat recovery structure as claimed in claim 1, wherein: the stirring bin is characterized in that a first motor (503) is mounted on the top of the stirring bin (501) close to the center through a bolt, a stirring blade (504) is connected to the periphery of an output shaft of the first motor (503), the stirring blade (504) is located in the stirring bin (501), a charging port (505) is arranged at one end of the top of the stirring bin (501), and a cock (506) is arranged on the inner side of the top of the charging port (505) through internal threads.

4. The fermented pellet feed drying and granulating apparatus with a waste heat recovery structure as claimed in claim 1, wherein: the cutting mechanism (7) comprises a second motor (701), the second motor (701) is mounted at the bottom of the forming pipeline (6) through a fixing frame, a power output end of the second motor (701) is connected with a connecting disc (702), and a cutting blade (703) is mounted at one end of the connecting disc (702) through a screw.

5. The fermented pellet feed drying and granulating apparatus with a waste heat recovery structure as claimed in claim 1, wherein: the bottom structure (1) comprises a supporting base (101) and a temperature controller (102), wherein the supporting base (101) is welded at the bottom of the extrusion bin (203), and the temperature controller (102) is fixed at one end of the supporting base (101) through a connecting rod.

6. The fermented pellet feed drying and granulating apparatus with a waste heat recovery structure as claimed in claim 1, wherein: the blanking structure (3) comprises a blanking pipe (301), the bottom of the stirring bin (501) is connected with the top of the extrusion mechanism (2) through the blanking pipe (301), and a stop valve (302) is arranged on the blanking pipe (301).