CN210492563U

CN210492563U - Feed granulator

Info

Publication number: CN210492563U
Application number: CN201920944733.9U
Authority: CN
Inventors: 张勤飞; 陈正勇; 王刚; 赵刚; 吴信伟; 张晶晶; 周文蔚; 肖魏巍
Original assignee: Yancheng Tianbang Feed Science & Technology Co ltd
Current assignee: Yancheng Tianbang Feed Science & Technology Co ltd
Priority date: 2019-06-21
Filing date: 2019-06-21
Publication date: 2020-05-12
Anticipated expiration: 2029-06-21

Abstract

The utility model relates to a feed granulator, which comprises a bottom beam, a first crosspiece, a first supporting pipe, a second crosspiece, a top beam, a third crosspiece, a third supporting pipe, a fourth crosspiece, a first beam, a second beam, a blanking plate, a first landing leg, a second landing leg, a driving assembly and a granulating assembly; the driving component comprises a motor, a first belt wheel, a second belt wheel, a belt, a bearing seat, a housing and a rotating shaft; the granulating component comprises a first sleeve, a second sleeve, an inner cylinder, a support rod, a tray, a support foot, a blade and a conical sleeve; the utility model has simple structure and low cost, and adopts a vertical feeding mode, thereby greatly reducing the occupied volume and being convenient for moving; meanwhile, the use is simple and convenient.

Description

Feed granulator

Technical Field

The utility model relates to a feeding stuff cuber.

Background

In a narrow sense, the feed generally refers to food of animals raised in agriculture or animal husbandry, mixed feed raw materials are drawn to form strip feed, and then the strip feed is formed through the cutting action of the granulator.

SUMMERY OF THE UTILITY MODEL

Current situation to above-mentioned prior art, the utility model aims to solve the technical problem that a simple structure is provided, and the cost is low, and adopts vertical feeding mode in order to reduce shared volume greatly and be convenient for remove, convenient to use's feeding granulator.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a feed granulator comprises bottom beams, first crosspieces, first supporting tubes, second crosspieces, top beams, third crosspieces, third supporting tubes, fourth crosspieces, first cross beams, second cross beams, blanking plates, first supporting legs, second supporting legs, driving assemblies and granulating assemblies, and is characterized in that the second supporting tubes are vertically distributed and fixed at two ends of each first cross beam, the bottom beams are transversely distributed and arranged below the two second supporting tubes, one ends of the two bottom beams are respectively fixed at the lower ends of the two second supporting tubes, the first supporting tubes are vertically distributed and fixed at the upper sides of the other ends of the two bottom beams, and the first crosspieces are transversely distributed and fixed between the inner side faces of the other ends of the two bottom beams; a top beam is fixed between the upper ends of one first supporting tube and one second supporting tube on the same side, and a second crosspiece is fixed between the middle parts of one first supporting tube and one second supporting tube on the same side; two be fixed with the third crosspiece between the upper end of first props the pipe, the second crossbeam transversely is fixed between the front side of two second props the pipe and is located the top of second crossbeam, be fixed with the third of vertical distribution between first crosspiece and the third crosspiece and prop the pipe, the third props the pipe and is fixed with the fourth crosspiece of two transverse distribution between one of them first props the pipe, two be fixed with the flitch down that distributes that inclines between the inboard side of second props the pipe, the both sides of flitch down all upwards are formed with the turn-ups of a mutual symmetric distribution, every turn down rims outside all is fixed with the first landing leg of a vertical distribution and the second landing leg of a vertical distribution, drive assembly sets up under between flitch and two fourth crosspieces, the top of flitch is provided with the pelletization subassembly down.

Preferably, the driving assembly comprises a motor, a first belt wheel, a second belt wheel, a belt, a bearing seat, a housing and a rotating shaft; the motor is vertically fixed between the two fourth crosspieces, the first pulley is sleeved and fixed on a rotating shaft of the motor, bearing seats positioned on the same vertical straight line are fixed on the outer sides of the first cross beam and the second cross beam, and vertically distributed rotating shafts are inserted and connected between the two bearing seats; the second belt pulley is sleeved and fixed at the lower end of the rotating shaft and positioned below one bearing seat on the lower side, and the belt is sleeved on the first belt pulley and the second belt pulley; the outer side of the rotating shaft is provided with a vertically distributed housing, and the upper end and the lower end of the housing are respectively fixed on the first cross beam and the second cross beam.

Preferably, the granulating assembly comprises a first sleeve, a second sleeve, an inner cylinder, a stay bar, a tray, a brace, a blade and a conical sleeve; the first sleeve is vertically fixed between the inner side surfaces of the upper ends of the two flanges and is spaced from the bottom surface of the blanking plate by a certain distance, a second sleeve which is vertically distributed is fixed at the center of the upper end of the first sleeve, and a conical sleeve is fixed at the upper end of the second sleeve; the inner cylinder is fixed inside the second sleeve through a plurality of support rods, a tray which is transversely distributed is arranged inside the first sleeve, and a plurality of support feet are fixed on the lower plane of the tray; the lower end of each supporting foot is fixed on the bottom surface of the blanking plate, the upper end of the rotating shaft upwards penetrates through the tray and extends into the first sleeve, a plurality of blades which are distributed at equal angles in the circumferential direction are fixed on the outer side of the upper end of the rotating shaft, and each blade is obliquely distributed.

Preferably, the upper side edge of blade outwards is formed with cutting edge portion, the lower side edge of blade outwards is formed with transverse distribution's ejector pad portion, ejector pad portion sets up with cutting edge portion homonymy, the lower side of ejector pad portion laminates on the last plane of tray.

Preferably, a tapered column is formed outwards at the upper end of the inner cylinder, the tapered column is arranged at the center of the interior of the tapered sleeve, and a plurality of support rods which are distributed at equal angles along the circumferential direction are fixed on the outer side of the upper end of the inner cylinder; the outer end of each stay bar is fixed on the inner wall of the second sleeve.

Preferably, the inner diameter of the tray is smaller than the inner diameter of the first sleeve and larger than the inner diameter of the second sleeve, and the revolving outer diameter of the plurality of blades is larger than the inner diameter of the second sleeve.

Preferably, a circular hole for the rotating shaft to pass through is formed in the center of the tray.

Compared with the prior art, the utility model has the advantages of: the utility model has simple structure and low cost, and adopts a vertical feeding mode, thereby greatly reducing the occupied volume and being convenient for moving; meanwhile, the use is simple and convenient.

Drawings

FIG. 1 is a view showing a structure of a top side of the present invention;

FIG. 2 is a bottom side structure view of the present invention;

fig. 3 is a sectional structure view of the granulating assembly of the present invention;

fig. 4 is a cross-sectional view of a blade of the present invention.

Detailed Description

As shown in fig. 1 to 4, a feed granulator comprises a bottom beam 1, a first crosspiece 2, a first supporting tube 3, a second supporting tube 30, a second crosspiece 4, a top beam 5, a third crosspiece 6, a third supporting tube 7, a fourth crosspiece 8, a first cross beam 10, a second cross beam 11, a blanking plate 20, a first supporting leg 18, a second supporting leg 19, a driving component and a granulating component; two ends of the first cross beam 10 are respectively fixed with a second supporting tube 30 which is vertically distributed, a bottom beam 1 which is transversely distributed is arranged below each of the two second supporting tubes 30, one end of each of the two bottom beams 1 is respectively fixed at the lower end of each of the two second supporting tubes 30, a first supporting tube 3 which is vertically distributed is respectively fixed at the upper side of the other end of each of the two bottom beams 1, and a first crosspiece 2 which is transversely distributed is fixed between the inner side surfaces of the other ends of the two bottom beams 1; a top beam 5 is fixed between the upper ends of one first supporting tube 3 and one second supporting tube 30 on the same side, and a second crosspiece 4 is fixed between the middle parts of one first supporting tube 3 and one second supporting tube 30 on the same side; a third crosspiece 6 is fixed between the upper ends of the two first supporting tubes 3, the second crossbeam 11 is transversely fixed between the front side faces of the two second supporting tubes 30 and is arranged above the second crossbeam 11, a vertically distributed third supporting tube 7 is fixed between the first crosspiece 2 and the third crosspiece 6, two transversely distributed fourth crosspieces 8 are fixed between the third supporting tube 7 and one of the first supporting tubes 3, an obliquely and downwardly distributed blanking plate 20 is fixed between the inner side faces of the two second supporting tubes 30, two flanges 2001 which are symmetrically distributed with each other are formed upwards on two sides of the blanking plate 20, a vertically distributed first supporting leg 18 and a vertically distributed second supporting leg 19 are fixed on the outer side of each flange 2001, a driving assembly is arranged between the blanking plate 20 and the two fourth crosspieces 8, a granulating assembly is arranged above the blanking plate 20, and the driving assembly comprises a motor 9, A first belt wheel 16, a second belt wheel 13, a belt 14, a bearing seat 12, a housing 17 and a rotating shaft 15; the motor 9 is vertically fixed between the two fourth crosspieces 8, the first belt pulley 16 is sleeved and fixed on a rotating shaft of the motor 9, the outer sides of the first beam 10 and the second beam 11 are respectively fixed with a bearing seat 12 positioned on the same vertical straight line, and a rotating shaft 15 which is vertically distributed is inserted and connected between the two bearing seats 12; the second belt wheel 13 is sleeved and fixed at the lower end of the rotating shaft 15 and positioned below one bearing seat 12 at the lower side, and the belt 14 is sleeved on the first belt wheel 16 and the second belt wheel 13; a vertically distributed housing 17 is arranged outside the rotating shaft 15, the upper end and the lower end of the housing 17 are respectively fixed on the first beam 10 and the second beam 11, and the granulating component comprises a first sleeve 21, a second sleeve 22, an inner cylinder 23, a stay bar 24, a tray 25, a supporting foot 26, a blade 27 and a conical sleeve 28; the first sleeve 21 is vertically fixed between the inner side surfaces of the upper ends of the two flanges 2001 and is spaced from the bottom surface of the blanking plate 20 by a certain distance, the second sleeve 22 which is vertically distributed is fixed at the center of the upper end of the first sleeve 21, and the conical sleeve 28 is fixed at the upper end of the second sleeve 22; the inner cylinder 23 is fixed inside the second sleeve 22 through a plurality of support rods 24, a tray 25 which is transversely distributed is arranged inside the first sleeve 21, and a plurality of support feet 26 are fixed on the lower plane of the tray 25; the lower end of each supporting foot 26 is fixed on the bottom surface of the blanking plate 20, the upper end of the rotating shaft 15 upwards penetrates through the tray 25 and extends into the first sleeve 21, the outer side of the upper end of the rotating shaft 15 is fixed with a plurality of blades 27 which are distributed at equal angles along the circumferential direction, each blade 27 is obliquely distributed, the upper side edge of each blade 27 is outwards provided with a blade part 271, the lower side edge of each blade 27 is outwards provided with a transversely distributed push block part 272, the push block parts 272 are arranged on the same side as the blade parts 271, and the lower side surfaces of the push block parts 272 are attached to the upper plane of the tray 25; a conical column 231 is formed outwards at the upper end of the inner cylinder 23, the conical column 231 is arranged at the inner center of the conical sleeve 28, and a plurality of support rods 24 which are distributed at equal angles along the circumferential direction are fixed on the outer side of the upper end of the inner cylinder 23; the outer end of each strut 24 is fixed to the inner wall of the second sleeve 22; the inner diameter of the tray 25 is smaller than the inner diameter of the first sleeve 21 and larger than the inner diameter of the second sleeve 22, the rotating outer diameter of the plurality of blades 27 is larger than the inner diameter of the second sleeve 22, and a circular hole 251 through which the rotating shaft 15 passes is formed in the center of the tray 25.

When in use: vertically inserting a plurality of strips of feed 29 formed by drawing between the inner cylinder 23 and the second sleeve 22 until the lower end of the strip of feed 29 abuts against the upper plane of the tray 25, then starting the motor 9 to rotate to drive the first pulley 16 to rotate, further driving the rotating shaft 15 to rotate between the two bearing seats 12 through the belt 14 and the second pulley 13, thereby driving the plurality of blades 27 to rotate, the blade part 271 will cut off the part of each strip of feed 29 lower than the blade part 271 to form granulated feed 31, the plurality of cut granulated feeds 31 will be thrown to the inner wall of the first sleeve 21 by centrifugal force under the rotation of the push block part 272, and then fall onto the blanking plate 20 through the gap between the first sleeve 21 and the tray 25, part of the granulated feed 31 will also fall onto the blanking plate 20 through the circular hole 251, the granulated feed 31 falling onto the blanking plate 20 will slide down by the inclination of the blanking plate 20, so as to facilitate centralized collection; after each section of the strip-shaped feed 29 is cut, the strip-shaped feed automatically falls until the lower end of the strip-shaped feed abuts against the upper plane of the tray 25 again, and so on; the provision of the tapered sleeve 28 and the tapered post 231 facilitates the insertion of a plurality of strips of feed 29.

In a narrow sense, the feed generally mainly refers to food of animals raised in agriculture or animal husbandry, mixed feed raw materials are drawn to form strip-shaped feed, and then the strip-shaped feed is cut by a granulator to form granulated feed; the utility model has simple structure and low cost, and adopts a vertical feeding mode, thereby greatly reducing the occupied volume and being convenient for moving; meanwhile, the use is simple and convenient.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims

1. A feed granulator comprises bottom beams, first crosspieces, first supporting tubes, second crosspieces, top beams, third crosspieces, third supporting tubes, fourth crosspieces, first cross beams, second cross beams, blanking plates, first supporting legs, second supporting legs, driving assemblies and granulating assemblies, and is characterized in that the second supporting tubes are vertically distributed and fixed at two ends of each first cross beam, the bottom beams are transversely distributed and arranged below the two second supporting tubes, one ends of the two bottom beams are respectively fixed at the lower ends of the two second supporting tubes, the first supporting tubes are vertically distributed and fixed at the upper sides of the other ends of the two bottom beams, and the first crosspieces are transversely distributed and fixed between the inner side faces of the other ends of the two bottom beams; a top beam is fixed between the upper ends of one first supporting tube and one second supporting tube on the same side, and a second crosspiece is fixed between the middle parts of one first supporting tube and one second supporting tube on the same side; two be fixed with the third crosspiece between the upper end of first props the pipe, the second crossbeam transversely is fixed between the front side of two second props the pipe and is located the top of second crossbeam, be fixed with the third of vertical distribution between first crosspiece and the third crosspiece and prop the pipe, the third props the pipe and is fixed with the fourth crosspiece of two transverse distribution between one of them first props the pipe, two be fixed with the flitch down that distributes that inclines between the inboard side of second props the pipe, the both sides of flitch down all upwards are formed with the turn-ups of a mutual symmetric distribution, every turn down rims outside all is fixed with the first landing leg of a vertical distribution and the second landing leg of a vertical distribution, drive assembly sets up under between flitch and two fourth crosspieces, the top of flitch is provided with the pelletization subassembly down.

2. The feed granulator of claim 1 wherein the drive assembly comprises a motor, a first pulley, a second pulley, a belt, a bearing housing, a housing, and a shaft; the motor is vertically fixed between the two fourth crosspieces, the first pulley is sleeved and fixed on a rotating shaft of the motor, bearing seats positioned on the same vertical straight line are fixed on the outer sides of the first cross beam and the second cross beam, and vertically distributed rotating shafts are inserted and connected between the two bearing seats; the second belt pulley is sleeved and fixed at the lower end of the rotating shaft and positioned below one bearing seat on the lower side, and the belt is sleeved on the first belt pulley and the second belt pulley; the outer side of the rotating shaft is provided with a vertically distributed housing, and the upper end and the lower end of the housing are respectively fixed on the first cross beam and the second cross beam.

3. The feed granulator of claim 2 wherein the granulation assembly comprises a first sleeve, a second sleeve, an inner barrel, a brace, a tray, a brace, a blade, and a tapered sleeve; the first sleeve is vertically fixed between the inner side surfaces of the upper ends of the two flanges and is spaced from the bottom surface of the blanking plate by a certain distance, a second sleeve which is vertically distributed is fixed at the center of the upper end of the first sleeve, and a conical sleeve is fixed at the upper end of the second sleeve; the inner cylinder is fixed inside the second sleeve through a plurality of support rods, a tray which is transversely distributed is arranged inside the first sleeve, and a plurality of support feet are fixed on the lower plane of the tray; the lower end of each supporting foot is fixed on the bottom surface of the blanking plate, the upper end of the rotating shaft upwards penetrates through the tray and extends into the first sleeve, a plurality of blades which are distributed at equal angles in the circumferential direction are fixed on the outer side of the upper end of the rotating shaft, and each blade is obliquely distributed.

4. The feedstuff granulator according to claim 3, characterized in that the upper edge of the blade is outwardly formed with a knife edge, the lower edge of the blade is outwardly formed with a laterally distributed push block part, the push block part is arranged at the same side as the knife edge, and the lower side surface of the push block part is attached to the upper plane of the tray.

5. The fodder granulator according to claim 3, characterized in that the upper end of the inner cylinder is formed with a conical column outwards, the conical column is arranged in the center of the interior of the conical sleeve, and a plurality of struts distributed at equal angles along the circumferential direction are fixed on the outer side of the upper end of the inner cylinder; the outer end of each stay bar is fixed on the inner wall of the second sleeve.

6. The feed granulator of claim 3 wherein the inner diameter of the tray is less than the inner diameter of the first sleeve and greater than the inner diameter of the second sleeve, and the outer diameter of revolution of the plurality of blades is greater than the inner diameter of the second sleeve.

7. The feeding stuff cuber according to claim 3, characterized in that the center of the tray is provided with a round hole for the rotating shaft to pass through.