CN217093631U - Fertile grain separator even of boron magnesium - Google Patents

Abstract

The utility model discloses a boron-magnesium fertilizer continuous grain separation device, which relates to the technical field of fertilizer preparation equipment, and comprises a pair of vertical plates and a main conveyor belt, wherein the main conveyor belt is arranged on the lower half part between the side walls of the pair of vertical plates, a rolling separation structure is arranged between the pair of vertical plates and above the center of the corresponding main conveyor belt, the rolling separation structure comprises a synchronous driving assembly, a pair of driving conveyor belts, a rotating rod, a mounting plate and a pressing plate, the pair of driving conveyor belts are respectively arranged at the opposite positions of the inner side walls of the pair of vertical plates, and the two ends of the rotating rod are respectively fixedly connected with the opposite positions of the pair of driving conveyor belts; the utility model discloses a roll even a raw materials of separation structure on with the conveyer belt and roll the rotation to make and glue even a separation of sticking together, can not cause the granule to smash moreover, greatly improved the treatment effect even a lot of costs, save a large amount of costs.

Description

Fertile grain separator even of boron magnesium

Technical Field

The utility model relates to a fertilizer preparation equipment technical field specifically is a fertile grain separator even of boron magnesium.

Background

The boron-magnesium fertilizer needs to be further screened after being granulated, the fertilizer with qualified grain size is separated from the planar fertilizer with unqualified grain size, but because a small part of adhered grains are inevitable in the granulation process, the grains are generally crushed and recycled as waste materials because the grain size is overlarge; therefore, certain waste is caused, although some existing equipment rotate to crush and separate through a cutting knife or a stirring blade, the boron-magnesium fertilizer particles are crushed seriously in the mode and still cannot be qualified, and therefore the boron-magnesium fertilizer continuous particle separation device is urgently needed to be developed.

SUMMERY OF THE UTILITY MODEL

The above-mentioned not enough to prior art, the utility model provides a fertile even grain separator of boron magnesium rolls the rotation through rolling even grain raw materials of separation structure on with the conveyer belt to make and glue even grain separation together, can not cause the granule to smash moreover, greatly improved the treatment effect even grain, save a large amount of costs.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a boron-magnesium fertilizer continuous grain separation device comprises a pair of vertical plates and a main conveyor belt, wherein the main conveyor belt is arranged on the lower half part between the side walls of the pair of vertical plates, a rolling separation structure is arranged between the pair of vertical plates and above the center of the main conveyor belt, the rolling separation structure comprises a synchronous drive assembly, a pair of drive conveyor belts, a rotating rod, a mounting plate and a pressing plate, the pair of drive conveyor belts are respectively arranged at the opposite positions of the inner side walls of the pair of vertical plates, the two ends of the rotating rod are respectively fixedly connected with the opposite positions of the pair of drive conveyor belts, the drive conveyor belts rotate to drive the rotating rod to move synchronously, the positions of the two sides of the center of the rotating rod which are equal are connected with the upper surface of the mounting plate through a pair of connecting rods, the pair of connecting rods are rotatably connected with the rotating rod through bearings, the mounting plate is kept horizontal, and the lower bottom surface of the mounting plate is connected with the upper surface of the pressing plate through a plurality of compression springs which are evenly distributed, the mounting panel is close to the terminal surface of a pair of riser and is provided with a pair of gag lever post respectively, and every riser corresponds the movement track position of every gag lever post and has seted up the spacing groove, the end sliding connection in the spacing groove of gag lever post, the synchronous drive subassembly makes a pair of drive conveyer belt synchronous working.

Preferably, the synchronous drive subassembly includes layer board, double-shaft motor, drive shaft, driven shaft, V belt and a pair of belt pulley, the driven shaft activity runs through in the riser and corresponds the drive wheel position in the drive transmission area, and the drive wheel in driven shaft one end and the drive transmission area is connected, and the other end is connected with one of a pair of belt pulley, the layer board sets up between a pair of riser and corresponds one side of drive transmission area, double-shaft motor sets up on the layer board, two outputs of double-shaft motor are connected with the one end of drive shaft respectively, and the drive shaft activity runs through in the riser, and the other end and another belt pulley of drive shaft are connected, and two belt pulleys pass through the V belt and connect, double-shaft motor work drives the drive shaft and rotates to drive the drive transmission area work that the driven shaft connected through belt pulley and V belt.

Preferably, rubber pads are arranged on the lower bottom surface of the pressing plate and the belt of the main conveyor belt.

Preferably, a plurality of pits are uniformly distributed on the rubber pad.

Preferably, the thickness of the rubber pad on the side of the lower bottom surface of the pressing plate corresponding to the supplied materials is smaller than that of the rubber pad on the side of the discharged materials.

Preferably, the inner side walls of the pair of vertical plates are provided with baffles corresponding to the two sides of the upper surface of the main conveyor belt.

The utility model provides a fertile even grain separator of boron magnesium possesses following beneficial effect:

1. the utility model rolls and rotates the continuous grain raw materials on the conveyor belt through the rolling and separating structure, thereby separating the continuous grains stuck together, avoiding crushing the grains, greatly improving the treatment effect of the continuous grains and saving a large amount of cost;

2. the utility model discloses be provided with compression spring between well clamp plate and the mounting panel to and be provided with the rubber pad under the clamp plate on bottom surface and the main conveyer belt, prevent to be too big to the granule application of force in rolling the separation process, cause the granule to smash, the last pit of rubber pad helps rolling the separation and links the grain, promotes the separation and links the effect of grain.

Drawings

Fig. 1 is a front view section of the boron-magnesium fertilizer continuous grain separation device of the utility model.

Fig. 2 is a left side sectional view of the boron-magnesium fertilizer continuous grain separation device of the utility model.

Fig. 3 is a top view of the device for separating continuous boron-magnesium fertilizer particles of the present invention.

In the figure: 1. a vertical plate; 2. a main conveyor belt; 3. a baffle plate; 4. a limiting groove; 5. a rubber pad; 6. pressing a plate; 7. a compression spring; 8. a pit; 9. mounting a plate; 10. driving the conveyor belt; 11. a connecting rod; 12. rotating the rod; 13. a support plate; 14. a double-shaft motor; 15. a pulley; 16. a drive shaft; 17. a driven shaft; 18. a limiting rod; 19. a V-belt; 20. and a bearing.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, a boron-magnesium fertilizer particle separating device comprises a pair of vertical plates 1 and a main conveyor belt 2, wherein the main conveyor belt 2 is arranged on the lower half portion between the side walls of the pair of vertical plates 1, a rolling separation structure is arranged between the pair of vertical plates 1 and above the center of the main conveyor belt 2, the rolling separation structure comprises a synchronous driving assembly, a pair of driving conveyor belts 10, a rotating rod 12, a mounting plate 9 and a pressing plate 6, the pair of driving conveyor belts 10 are respectively arranged at opposite positions on the inner side walls of the pair of vertical plates 1, two ends of the rotating rod 12 are respectively fixedly connected with the opposite positions of the pair of driving conveyor belts 10, the driving conveyor belts 10 rotate to drive the rotating rod 12 to move synchronously, the opposite positions at two sides of the center of the rotating rod 12 are connected with the upper surface of the mounting plate 9 through a pair of connecting rods 11, and the pair of connecting rods 11 are rotatably connected with the rotating rod 12 through a bearing 20, the mounting plate 9 is kept horizontal, the lower bottom surface of the mounting plate is connected with the upper surface of the pressing plate 6 through a plurality of compression springs 7 which are uniformly distributed, a pair of limiting rods 18 are respectively arranged on the end surfaces of the mounting plate 9 close to the pair of vertical plates 1, a limiting groove 4 is formed in the position, corresponding to the motion track of each limiting rod 18, of each vertical plate 1, the tail ends of the limiting rods 18 are connected in the limiting grooves 4 in a sliding mode, and the synchronous driving assembly enables the pair of driving conveyor belts 10 to work synchronously; the synchronous driving component comprises a supporting plate 13, a double-shaft motor 14, a driving shaft 16, a driven shaft 17, a triangular belt 19 and a pair of belt pulleys 15, the driven shaft 17 movably penetrates through the vertical plate 1 and corresponds to the position of a driving wheel in the driving transmission belt 10, one end of the driven shaft 17 is connected with the driving wheel in the driving transmission belt, the other end of the driven shaft 17 is connected with one of the pair of belt pulleys 15, the supporting plate 13 is arranged between the pair of vertical plates 1 and corresponds to one side of the driving conveyor belt 10, the double-shaft motor 14 is arranged on the supporting plate 13, two output ends of the double-shaft motor 14 are respectively connected with one end of a driving shaft 16, the driving shaft 16 movably penetrates through the vertical plate 1, the other end of the driving shaft 16 is connected with another belt pulley 15, the two belt pulleys 15 are connected through a triangular belt 19, the double-shaft motor 14 works to drive the driving shaft 16 to rotate, thereby driving the driven shaft 17 to rotate through the belt pulley 15 and the triangular belt 19 and driving the transmission belt 10 connected with the driven shaft 17 to work; rubber pads 5 are arranged on the lower bottom surface of the pressing plate 6 and the belt of the main conveyor belt 2; a plurality of pits 8 are uniformly distributed on the rubber pad 5; the thickness of the rubber pad 5 on the side, corresponding to the incoming material, of the lower bottom surface of the pressing plate 6 is smaller than that of the rubber pad 5 on the discharging side; the inner side walls of the pair of vertical plates 1 are provided with baffle plates 3 corresponding to the two sides of the upper surface of the main conveyor belt 2.

The detailed connection means is a technique known in the art, and the following main description is provided for the working principle and process, and specifically provided for the following:

the double-shaft motor 14 in the utility model is connected with an external electric control system through a wire; the drive belt 10 drives the turning bars 12 along their belt conveying path, which is referred to as a race track.

As can be known from the description of figures 1-3 of the attached drawings, taking figure 1 as an example, the feeding end is the right side of the main conveyor belt 2, the main conveyor belt 2 rotates counterclockwise for conveying, and the left side is the discharging end, when the utility model works, firstly, the continuous grain raw material is fed into the synchronous driving component from the right side of the main conveyor belt 2 to drive the driving conveyor belt 10 to work, the driving conveyor belt 10 also rotates counterclockwise to drive the rotating rod 12 to rotate along the belt conveying path, because the rotating rod 12 is connected with the connecting rod 11 through the bearing 20, the lower end of the connecting rod 11 is fixedly connected with the upper surface of the mounting plate 9, and the end surface of the mounting plate 9 close to the vertical plate 1 is connected with the limiting groove 4 arranged on the vertical plate 1 through the limiting rod 18 in a sliding way, the movement paths of the limiting groove 4 and the limiting rod 18 and the belt of the driving conveyor belt 10 are all of runway type, and the limiting rod 18 is limited, therefore, when the rotating rod 12 moves along with the driving conveyor belt 10, the mounting plate 9 also moves along a track of a runway type, the driving conveyor belt 10 rotates anticlockwise, the mounting plate 9 also rotates anticlockwise, the lower bottom surface of the mounting plate 9 is connected with the pressing plate 6 through a plurality of compression springs 7 which are uniformly arranged, therefore, the movement track of the pressing plate 6 is the same as that of the mounting plate 9, when the pressing plate 6 moves to the leftmost end of the runway type, the pressing plate 6 rotates upwards and downwards, the pressing plate 6 starts to approach the upper surface of the driving conveyor belt and presses and joints the continuous raw materials on the main conveyor belt 2, the driving conveyor belt 10 continues to move, the pressing plate 6 starts to move rightwards, the continuous raw materials between the lower bottom surface and the upper surface of the main conveyor belt 2 are rolled, the continuous raw materials rotate and are torn between the pressing plate 6 and the main conveyor belt 2, the purpose of separation is achieved, and when the continuous raw materials are pressed and jointed by the pressing plate 6, certain buffer is realized for the extrusion of the continuous raw materials due to the compression springs 7 between the mounting plate 9 and the pressing plate 6, the particles can not be crushed, the treatment effect of the continuous particles is greatly improved, and a large amount of cost is saved; when dwang 12 on the drive conveyer belt 10 rotated the right side of drive conveyer belt 10, clamp plate 6 began to be raised, moved the left side again, and in this process, the raw materials that just were separated on the main conveyer belt 2 were carried out, and clamp plate 6 reduces once more, rolls the separation to the new continuous grain that gets into on the main conveyer belt 2. Thereby continuously operating.

Be provided with rubber pad 5 under the clamp plate 6 on bottom surface and the main belt 2, prevent to be too big to the granule application of force rolling the separation in-process, cause the granule to smash, the last pit 8 of rubber pad 5 helps rolling the separation even grain, promotes the separation even effect of grain.

The thickness of the rubber pad 5 on the side of the pressing plate 6, corresponding to the supplied materials, is smaller than that of the rubber pad 5 on the side of the discharged materials, so that the raw materials can be conveniently fed between the pressing plate 6 and the main conveyor belt 2.

The synchronous driving assembly comprises a supporting plate 13, a double-shaft motor 14, a driving shaft 16, a driven shaft 17, a triangular belt 19 and a pair of belt pulleys 15, wherein the double-shaft motor 14 works, two output ends drive the two driving shafts 16 to rotate, so that the driven shaft 17 is driven to rotate through the belt pulleys 15 and the triangular belt 19 and the driving conveyor belts 10 connected with the driven shaft 17 work, and the synchronous work of the two driving conveyor belts 10 is guaranteed.

The baffle 3 is used for blocking the particle-connected raw materials on the main conveyor belt 2 and preventing the particle-connected raw materials from sliding out of two sides of the main conveyor belt 2.

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 (6)

1. The utility model provides a fertile grain separator that links of boron magnesium, includes a pair of riser (1) and main conveyer belt (2), main conveyer belt (2) sets up the latter half between a pair of riser (1) lateral wall, its characterized in that, be provided with between a pair of riser (1) and the top that corresponds main conveyer belt (2) center and roll the isolating construction, roll the isolating construction and include synchronous drive subassembly, a pair of drive conveyer belt (10), dwang (12), mounting panel (9) and clamp plate (6), a pair of drive conveyer belt (10) set up respectively in the relative position of a pair of riser (1) inside wall, the both ends of dwang (12) respectively with the relative position fixed connection of a pair of drive conveyer belt (10), drive conveyer belt (10) rotate and drive dwang (12) and follow synchronous motion, be connected through a pair of connecting rod (11) between the position that dwang (12) center both sides are equal and mounting panel (9) upper surface, a pair of connecting rod (11) is connected through rotating between bearing (20) and dwang (12), and mounting panel (9) keep the level, and is connected through a plurality of compression spring (7) of evenly arranging between its lower bottom surface and clamp plate (6) upper surface, the terminal surface that mounting panel (9) are close to a pair of riser (1) is provided with a pair of gag lever post (18) respectively, and spacing groove (4) have been seted up to the movement track position that every riser (1) corresponds every gag lever post (18), the end of gag lever post (18) sliding connection in spacing groove (4), the synchronous drive subassembly makes a pair of drive conveyer belt (10) synchronous working.

2. The boron-magnesium fertilizer continuous grain separation device according to claim 1, wherein the synchronous driving component comprises a supporting plate (13), a double-shaft motor (14), a driving shaft (16), a driven shaft (17), a triangular belt (19) and a pair of belt pulleys (15), the driven shaft (17) movably penetrates through the vertical plate (1) and corresponds to the position of the driving wheel in the driving conveyor belt (10), one end of the driven shaft (17) is connected with the driving wheel in the driving conveyor belt, the other end of the driven shaft (17) is connected with one of the pair of belt pulleys (15), the supporting plate (13) is arranged between the pair of vertical plates (1) and corresponds to one side of the driving conveyor belt (10), the double-shaft motor (14) is arranged on the supporting plate (13), two output ends of the double-shaft motor (14) are respectively connected with one end of the driving shaft (16), the driving shaft (16) movably penetrates through the vertical plate (1), the other end of drive shaft (16) is connected with another belt pulley (15), and two belt pulleys (15) are connected through V belt (19), biax motor (14) work drives drive shaft (16) and rotates to drive driven shaft (17) through belt pulley (15) and V belt (19) and rotate and driven shaft (17) connected drive conveyer belt (10) work.

3. The device for separating the boron-magnesium fertilizer with the grains as claimed in claim 1, wherein the lower bottom surface of the pressing plate (6) and the belt of the main conveyor belt (2) are provided with rubber pads (5).

4. The device for separating the boron-magnesium fertilizer with the grains as claimed in claim 3, wherein a plurality of concave pits (8) are uniformly arranged on the rubber pad (5).

5. The device for separating the boron-magnesium fertilizer with the grains as claimed in claim 3, wherein the thickness of the rubber mat (5) on the side of the lower bottom surface of the pressing plate (6) corresponding to the incoming material is smaller than that of the rubber mat (5) on the side of the outgoing material.

6. The continuous boron-magnesium fertilizer grain separation device according to claim 1, wherein baffles (3) are arranged on the inner side walls of the pair of vertical plates (1) and at positions corresponding to the two sides of the upper surface of the main conveyor belt (2).

Images