CN221951117U - Feeding structure for double-shaft stirrer - Google Patents

Abstract

The utility model discloses a feeding structure for a double-shaft stirrer, which comprises a horizontal conveying belt: the right side fixed mounting of horizontal conveyer belt has the climbing conveyer belt, the bottom welding of climbing conveyer belt has the support, the right side of climbing conveyer belt is provided with the biax mixer of fixed mounting at ground, the front and back side of climbing conveyer belt all rotates and is connected with the axostylus axostyle, two common fixedly connected with silo between the axostylus axostyle. According to the utility model, the raw materials are conveyed to the inner cavity of the double-shaft stirrer through the trough by the cooperation of the horizontal conveying belt and the climbing conveying belt, meanwhile, the L-shaped rod is driven to rotate through the rotation of the turntable, then the L-shaped rod drives the trough to swing back and forth through the inner wall of the stirring trough rod, and the raw materials are uniformly dumped, so that the purposes of conveying the raw materials through the use of the conveying belt and uniformly dumping the raw materials to the inner cavity of the stirrer through the arrangement of the swinging hopper can be achieved.

Description

A feeding structure for a double-shaft mixer

Technical Field

The utility model belongs to the technical field of organic fertilizer production, in particular to a feeding structure for a double-shaft mixer.

Background Art

Bio-organic fertilizer is a type of fertilizer made from natural organic matter through decomposition or fermentation by microorganisms, also known as farmyard manure. It is made by quickly degrading organic matter and using the high temperature generated during the fermentation process to kill harmful pathogens and roundworm eggs, and converting unstable substances into stable humus to become bio-organic fertilizer. Its characteristics are: a wide source of raw materials, large quantity, slow and long fertilizer effect, and good soil fertilization effect. In the production process of organic fertilizer, it is often necessary to mix and stir different raw materials, and a double-shaft mixer is required at this time.

When using a twin-shaft mixer, it is necessary to pour the organic fertilizer raw materials into its inner cavity. Since the mixer itself has a certain height, the pouring process is relatively laborious. Therefore, a feeding structure for a twin-shaft mixer is required. The raw materials can be transported by using a conveyor belt, and the raw materials can be evenly poured into the inner cavity of the mixer through the setting of a swing bucket to avoid the accumulation of raw materials in a single position, thereby facilitating the subsequent uniform mixing of the raw materials.

Utility Model Content

The purpose of the utility model is to provide a feeding structure for a double-shaft mixer, which transports raw materials by using a conveyor belt and evenly pours the raw materials into the inner cavity of the mixer by setting a swing bucket, thereby avoiding the accumulation of raw materials in a single position, thereby facilitating the subsequent uniform mixing of the raw materials, so as to solve the technical problems raised by the above-mentioned background technology.

The utility model solves the above-mentioned technical problem with the following technical solutions: a feeding structure for a double-shaft mixer, comprising a horizontal conveyor belt: a climbing conveyor belt is fixedly installed on the right side of the horizontal conveyor belt, a bracket is welded at the bottom of the climbing conveyor belt, a double-shaft mixer fixedly installed on the ground is arranged on the right side of the climbing conveyor belt, the front and rear sides of the climbing conveyor belt are rotatably connected with shaft rods, a material trough is commonly fixedly connected between the two shaft rods, a groove rod is fixedly connected on the surface of the shaft rod, an L-shaped rod is arranged on the inner cavity of the groove rod, a support rod is welded on the front and rear sides of the support, a transmission shaft is fixedly connected on the surface of the L-shaped rod, two symmetrically arranged turntables are rotatably connected on the surface of the support rod, a belt is commonly driven and connected between the two turntables, a rotating rod is commonly fixedly connected between the two turntables located on the lower side, the rotating rod and the support rod are rotatably connected, a motor is fixedly installed on the surface of the support by bolts, the output shaft of the motor is fixedly connected with a bevel gear 1 by a flange, and a bevel gear 2 is fixedly connected on the surface of the rotating rod.

Preferably, baffles are fixedly installed on the front and rear sides of the horizontal conveyor belt by bolts, and the baffles are made of stainless steel plates.

Preferably, the end of the transmission shaft passes through the outside of the support rod and is fixedly connected to the turntable, and the transmission shaft is rotationally connected to the support rod.

Preferably, the bevel gear 1 is meshed with the bevel gear 2.

Preferably, a protective shell is fixedly installed at the bottom of the climbing conveyor belt by bolts, and the protective shell is located on the outside of bevel gear one and bevel gear two, and the rotating rod and the output shaft of the motor are both rotatably connected to the protective shell.

1. The beneficial effect of the utility model is that the utility model conveys the raw materials to the inner cavity of the double-shaft mixer through the material trough by the cooperation of the horizontal conveyor belt and the climbing conveyor belt, and at the same time drives the L-shaped rod to rotate by the rotation of the turntable, and then the L-shaped rod drives the material trough to swing back and forth by moving the inner wall of the trough rod, thereby evenly dumping the raw materials, so as to achieve the purpose of conveying the raw materials by using the conveyor belt and evenly dumping the raw materials into the inner cavity of the mixer by setting the swing bucket.

2. The utility model blocks the front and rear sides of the top of the horizontal conveyor belt by setting a baffle, thereby preventing the raw materials from sliding from the top to the ground.

3. The utility model protects the outer sides of the bevel gear 1 and the bevel gear 2 by setting a protective shell, thereby preventing the two gears from biting into foreign objects during operation, thereby improving the smoothness of the two gears during operation.

BRIEF DESCRIPTION OF THE DRAWINGS

in:

FIG1 is a schematic structural diagram of an embodiment of the utility model;

FIG2 is a partial enlarged view of point A in FIG1 according to an embodiment of the present utility model;

FIG3 is a schematic top view of a climbing conveyor belt and a double-shaft mixer according to an embodiment of the utility model;

FIG4 is a perspective schematic diagram of a slot rod and an L-shaped rod in an embodiment of the utility model;

FIG. 5 is a partial enlarged view of point B in FIG. 4 of an embodiment of the utility model.

In the accompanying drawings, the components represented by the reference numerals are listed as follows:

1. Horizontal conveyor belt, 2. Climbing conveyor belt, 3. Bracket, 4. Double-shaft mixer, 5. Baffle, 6. Shaft rod, 7. Material trough, 8. Trough rod, 9. L-shaped rod, 10. Support rod, 11. Drive shaft, 12. Turntable, 13. Belt, 14. Rotating rod, 15. Motor, 16. Bevel gear one, 17. Bevel gear two, 18. Protective shell.

DETAILED DESCRIPTION

Hereinafter, embodiments of the feeding structure for a twin-shaft mixer of the present invention will be described with reference to the accompanying drawings.

Embodiment 1

Fig. 1-5 shows a feeding structure for a double-shaft mixer of an embodiment of the utility model, which comprises a horizontal conveyor belt 1: a climbing conveyor belt 2 is fixedly installed on the right side of the horizontal conveyor belt 1, a bracket 3 is welded to the bottom of the climbing conveyor belt 2, a double-shaft mixer 4 fixedly installed on the ground is arranged on the right side of the climbing conveyor belt 2, baffles 5 are fixedly installed on the front and rear sides of the horizontal conveyor belt 1 by bolts, and the baffles 5 are stainless steel plates. Through the setting of the baffles 5, the front and rear sides of the top of the horizontal conveyor belt 1 are blocked to prevent the raw materials from sliding from the top to the ground, the front and rear sides of the climbing conveyor belt 2 are rotatably connected with shaft rods 6, a material trough 7 is fixedly connected between the two shaft rods 6, a groove rod 8 is fixedly connected to the surface of the shaft rod 6, and the inner surface of the groove rod 8 is fixedly connected to the outer surface of the groove rod 8. The cavity is provided with an L-shaped rod 9, and support rods 10 are welded to the front and rear sides of the bracket 3. A transmission shaft 11 is fixedly connected to the surface of the L-shaped rod 9, and the end of the transmission shaft 11 passes through the outer side of the support rod 10 and is fixedly connected to the turntable 12. The transmission shaft 11 is rotatably connected to the support rod 10, and the surface of the support rod 10 is rotatably connected to two symmetrically arranged turntables 12, and a belt 13 is commonly connected for transmission between the two turntables 12, and a rotating rod 14 is commonly fixedly connected between the two turntables 12 located on the lower side, and the rotating rod 14 is rotatably connected to the support rod 10. A motor 15 is fixedly installed on the surface of the bracket 3 by bolts, and the output shaft of the motor 15 is fixedly connected to a bevel gear 16 through a flange, and a bevel gear 2 17 is fixedly connected to the surface of the rotating rod 14.

Embodiment 2

Fig. 1-5 shows a feeding structure for a double-shaft mixer according to an embodiment of the utility model, which comprises a horizontal conveyor belt 1: a climbing conveyor belt 2 is fixedly installed on the right side of the horizontal conveyor belt 1, a bracket 3 is welded to the bottom of the climbing conveyor belt 2, a double-shaft mixer 4 fixedly installed on the ground is arranged on the right side of the climbing conveyor belt 2, the front and rear sides of the climbing conveyor belt 2 are rotatably connected with shafts 6, a material trough 7 is commonly fixedly connected between the two shafts 6, a groove rod 8 is fixedly connected to the surface of the shaft rod 6, an L-shaped rod 9 is arranged in the inner cavity of the groove rod 8, a support rod 10 is welded to the front and rear sides of the bracket 3, a transmission shaft 11 is fixedly connected to the surface of the L-shaped rod 9, and two symmetrically arranged turntables 12 are rotatably connected to the surface of the support rod 10, a belt 13 is commonly connected to the two turntables 12 for transmission, and two turntables 12 located at the lower side are connected to each other by a belt 13. A rotating rod 14 is fixedly connected between the disks 12, and the rotating rod 14 is rotatably connected to the support rod 10. A motor 15 is fixedly installed on the surface of the bracket 3 by bolts, and the output shaft of the motor 15 is fixedly connected to a bevel gear 16 by a flange. A bevel gear 17 is fixedly connected to the surface of the rotating rod 14, and the bevel gear 16 is meshed with the bevel gear 17. A protective shell 18 is fixedly installed on the bottom of the climbing conveyor belt 2 by bolts, and the protective shell 18 is located on the outside of the bevel gear 16 and the bevel gear 2 17. The output shafts of the rotating rod 14 and the motor 15 are rotatably connected to the protective shell 18. Through the setting of the protective shell 18, the outer sides of the bevel gear 16 and the bevel gear 2 17 are covered to avoid the occurrence of the two being bitten into foreign objects during operation, thereby improving the smoothness of the two during operation.

Working principle: When the utility model is used, the user transports the raw materials to the inner cavity of the double-shaft mixer 4 through the material trough 7 through the cooperation of the horizontal conveyor belt 1 and the climbing conveyor belt 2, and at the same time turns on the motor 15 to drive the bevel gear 1 16 to rotate, so that the bevel gear 1 16 drives the rotating rod 14 to rotate through the bevel gear 2 17, and then the turntable 12 on the lower side drives the turntable 12 on the upper side to rotate through the belt 13, so that the turntable 12 drives the L-shaped rod 9 to move the inner wall of the groove rod 8 through the transmission shaft 11. At this time, the groove rod 8 drives the material trough 7 to swing back and forth through the shaft rod 6, and then the raw materials are evenly dumped, so as to achieve the purpose of transporting the raw materials through the use of the conveyor belt, and at the same time, the raw materials are evenly dumped into the inner cavity of the mixer through the setting of the swing bucket.

To sum up: the feeding structure of the twin-shaft mixer conveys the raw materials to the inner cavity of the twin-shaft mixer 4 through the material trough 7 through the cooperation of the horizontal conveyor belt 1 and the climbing conveyor belt 2, and at the same time, the L-shaped rod 9 is driven to rotate by the rotation of the turntable 12, and then the L-shaped rod 9 drives the material trough 7 to swing back and forth by moving the inner wall of the trough rod 8, thereby evenly pouring the raw materials, thereby achieving the purpose of conveying the raw materials through the use of the conveyor belt, and evenly pouring the raw materials into the inner cavity of the mixer through the setting of the swing bucket.

Claims (5)

1. A feeding structure for a twin-shaft mixer, characterized in that it comprises a horizontal conveyor belt (1): a climbing conveyor belt (2) is fixedly installed on the right side of the horizontal conveyor belt (1), a bracket (3) is welded to the bottom of the climbing conveyor belt (2), a twin-shaft mixer (4) fixedly installed on the ground is arranged on the right side of the climbing conveyor belt (2), the front and rear sides of the climbing conveyor belt (2) are rotatably connected to shaft rods (6), a material trough (7) is fixedly connected between the two shaft rods (6), a groove rod (8) is fixedly connected to the surface of the shaft rod (6), an L-shaped rod (9) is arranged in the inner cavity of the groove rod (8), and the front and rear sides of the bracket (3) are welded to A support rod (10), the surface of the L-shaped rod (9) is fixedly connected to a transmission shaft (11), the surface of the support rod (10) is rotatably connected to two symmetrically arranged turntables (12), a belt (13) is commonly connected to the two turntables (12), a rotating rod (14) is commonly fixedly connected between the two turntables (12) located at the lower side, the rotating rod (14) is rotatably connected to the support rod (10), a motor (15) is fixedly mounted on the surface of the bracket (3) by bolts, the output shaft of the motor (15) is fixedly connected to a bevel gear 1 (16) by a flange, and the surface of the rotating rod (14) is fixedly connected to a bevel gear 2 (17). 2. A feeding structure for a twin-shaft mixer according to claim 1, characterized in that baffles (5) are fixedly installed on the front and rear sides of the horizontal conveyor belt (1) by bolts, and the baffles (5) are stainless steel plates. 3. A feeding structure for a double-shaft mixer according to claim 2, characterized in that the end of the transmission shaft (11) passes through the outer side of the support rod (10) and is fixedly connected to the turntable (12), and the transmission shaft (11) and the support rod (10) are rotationally connected. 4. A feeding structure for a twin-shaft mixer according to claim 3, characterized in that the bevel gear 1 (16) is meshed with the bevel gear 2 (17). 5. A feeding structure for a twin-shaft mixer according to claim 4, characterized in that a protective shell (18) is fixedly installed at the bottom of the climbing conveyor belt (2) by bolts, and the protective shell (18) is located on the outside of bevel gear 1 (16) and bevel gear 2 (17), and the output shaft of the rotating rod (14) and the motor (15) are both rotatably connected to the protective shell (18).