CN216537985U - Humic acid fertilizer transportation compounding device - Google Patents

Abstract

The utility model discloses a humic acid organic fertilizer conveying and mixing device which comprises a belt conveyor and a mixing mechanism, wherein a partition plate is arranged in the middle of the belt conveyor, two groups of anti-slip plates positioned on the left side and the right side of the partition plate are uniformly distributed on the surface of the belt conveyor, supporting blocks are hinged to two sides of the front end of the belt conveyor, and lifting mechanisms are arranged on two sides of the top of the rear end of the belt conveyor. The utility model relates to a humic acid organic fertilizer conveying and mixing device, which can adjust the inclination angle and the conveying height of a belt conveyor through a lifting mechanism, different raw materials to be mixed are placed on conveying belts on two sides of a partition plate, an antiskid plate is used for preventing the raw materials from sliding downwards, the raw materials are stirred and mixed through a stirring assembly in a mixing mechanism, the inclination angle of the mixing mechanism can be driven to change through changing the inclination angle of the belt conveyor by the lifting mechanism, and the mixed fertilizer is conveniently discharged from a discharge port.

Description

Humic acid fertilizer transportation compounding device

Technical Field

The utility model relates to the technical field of organic fertilizer production, in particular to a humic acid organic fertilizer conveying and mixing device.

Background

The humic acid organic fertilizer is a novel fertilizer mainly containing humic acid substances, and is formed by adding a proper amount of nutrient substances necessary for plant growth and development by taking humic acid as a main mechanism and scientifically preparing. The humic acid organic fertilizer can increase the buffering performance of soil, improve acid soil and reform saline-alkali soil. Acid soil in south China is abundant, and after applying the humic acid fertilizer, humic acid reacts with iron, aluminum and other ions in the soil to form a new compound, and the acidity of the acid soil can be reduced by the buffering effect of the humic acid. Most of saline-alkali soil in China is distributed in arid areas in the north, and the application of humic acid fertilizers can change the structure of the surface layer of the saline-alkali soil, increase the granular structure, destroy the condition of salt rising and play a role of salt isolation.

At present, present rotten phytic acid fertilizer needs transport the raw materials of different grade type to the compounding case through the conveyer and mix, but because the environment in the factory building is different, the height that the conveyer need transport is also different to because the high fixed of current compounding case, can only lean on the manual work to fall the fertilizer that has mixed in the compounding case and transport near the equipment that next needs processing, be not conform to modern enterprise's production demand, so propose a humic acid fertilizer transportation compounding device in order to solve above-mentioned problem.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a humic acid organic fertilizer conveying and mixing device.

In order to solve the technical problems, the utility model provides the following technical scheme:

the utility model discloses a humic acid organic fertilizer conveying and mixing device which comprises a belt conveyor and a mixing mechanism, wherein the belt conveyor is inclined upwards from front to back, the mixing mechanism is arranged on the rear side of the belt conveyor, a partition plate is arranged in the middle of the belt conveyor, two groups of anti-slip plates located on the left side and the right side of the partition plate are uniformly distributed on the surface of the belt conveyor, supporting blocks are hinged to two sides of the front end of the belt conveyor, and lifting mechanisms are arranged on two sides of the top of the rear end of the belt conveyor.

As a preferred technical scheme of the present invention, the lifting mechanism includes sliding grooves formed on both sides of a top portion of a rear end of the belt conveyor, a slider, a boss, a rotating shaft, and an electric telescopic rod, the sliding grooves are located inside the sliding grooves, the slider is slidably connected inside the sliding grooves along a length direction of the belt conveyor, the two bosses are installed at a bottom end of the slider, and a telescopic portion of the electric telescopic rod is located between the two bosses and is rotatably connected through the rotating shaft.

As a preferable technical scheme of the utility model, a control switch is installed on the right side of the belt conveyor, and the electric telescopic rod is electrically connected with the control switch.

According to a preferred technical scheme, the mixing mechanism comprises a mixing box, a feeding groove, a stirring assembly and a discharging hole, a notch is formed in the mixing box, the antiskid plate penetrates through the notch under the driving of the belt conveyor, the mixing box is located at the rear end of the belt conveyor, the feeding groove is formed in the top end of the mixing box, and the discharging hole is formed in the bottom end of the mixing box.

As a preferable technical scheme of the utility model, the stirring assembly comprises a driving motor, a stirring rod and stirring blades, the driving motor is installed at the bottom end of the mixing box, an output shaft of the driving motor is vertically and upwards arranged and is coaxially connected with the stirring rod, and the stirring rod is provided with a plurality of stirring blades positioned inside the mixing box.

As a preferred technical scheme of the utility model, the bottom end of the supporting block is provided with a non-slip mat.

As a preferable technical scheme of the utility model, the antiskid plates are J-shaped structures, the heights of the antiskid plates are higher than the heights of the partition plates, the top ends of the left side and the right side of the belt conveyor are respectively fixed with a baffle plate, and the heights of the two baffle plates are higher than the heights of the antiskid plates.

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

the utility model relates to a humic acid organic fertilizer conveying and mixing device, which is characterized in that the inclination angle and the conveying height of a belt conveyor can be adjusted through a lifting mechanism, after the belt conveyor is adjusted to a proper position, the belt conveyor is started, different raw materials to be mixed are placed on conveying belts on two sides of a partition plate, an antiskid plate is used for preventing the raw materials from sliding downwards in the lifting process, the raw materials are lifted more stably, the raw materials are conveyed to a feeding groove on a mixing mechanism, and fall into the feeding groove at the rear end of the raw materials, and are stirred and mixed through a stirring assembly in the mixing mechanism.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an overall cross-sectional view of the present invention;

FIG. 3 is an overall rear view of the present invention;

FIG. 4 is a schematic view of the cleat construction of the present invention;

in the figure: 1. a belt conveyor; 2. a material mixing mechanism; 21. a mixing box; 22. a feeding groove; 23. a stirring assembly; 231. a drive motor; 232. a stirring rod; 233. stirring blades; 24. a discharge port; 3. a partition plate; 4. an anti-skid plate; 5. a support block; 6. a lifting mechanism; 61. a chute; 62. a slider; 63. a boss; 64. a rotating shaft; 65. an electric telescopic rod; 7. a control switch; 8. a non-slip mat; 9. and a baffle plate.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in fig. 1-4, the utility model provides a humic acid organic fertilizer conveying and mixing device, which comprises a belt conveyor 1 and a mixing mechanism 2, wherein the belt conveyor 1 is inclined upwards from front to back, the mixing mechanism 2 is arranged on the rear side of the belt conveyor 1, a partition plate 3 is arranged in the middle of the belt conveyor 1, two groups of anti-slip plates 4 are uniformly distributed on the surface of the belt conveyor 1 and are positioned on the left side and the right side of the partition plate 3, supporting blocks 5 are hinged to two sides of the front end of the belt conveyor 1, and lifting mechanisms 6 are arranged on two sides of the top of the rear end of the belt conveyor 1.

Further, elevating system 6 is including offering in the spout 61 of 1 rear end top both sides of belt conveyor, be located the inside slider 62 of spout 61, boss 63, pivot 64 and electric telescopic handle 65, inside 1 length direction sliding connection of belt conveyor along of spout 61 has slider 62, two bosses 63 are installed to slider 62's bottom, electric telescopic handle 65's pars contractilis is located between two bosses 63 and rotates through pivot 64 and connects, when electric telescopic handle 65's pars contractilis rose, can drive slider 62 along 1 length direction rebound of belt conveyor in spout 61's inside under pivot 64 and boss 63's effect, when electric telescopic handle 65's pars contractilis shrink, otherwise then rebound, make the holistic inclination of belt conveyor 1 change, can cooperate the equipment of different specification sizes to use.

Control switch 7 is installed on the right side of belt conveyor 1, and electric telescopic handle 65 and control switch 7 electric connection can control electric telescopic handle 65's use in a flexible way through control switch 7.

Mixing mechanism 2 includes mixing box 21, pan feeding groove 22, stirring subassembly 23 and discharge gate 24, be equipped with a breach on the mixing box 21, antiskid ribbed tile 4 passes the breach under the drive of band conveyer 1, mixing box 21 is located the rear end of band conveyer 1, pan feeding groove 22 has been seted up on the top of mixing box 21, discharge gate 24 has been seted up to the bottom of mixing box 21, different raw materials on the band conveyer 1 can drop to the pan feeding groove 22 from antiskid ribbed tile 4 of its rear end, pan feeding groove 22 can be with the leading-in mixing box 21 of raw materials, stir the mixture through stirring subassembly 23 to different raw materials in the mixing box 21, open the valve of discharge gate 24, the fertilizer after finishing mixing can fall out from discharge gate 24.

Stirring subassembly 23 includes driving motor 231, puddler 232 and stirring leaf 233, driving motor 231 installs in the bottom of mixing box 21, the vertical upwards setting of output shaft of driving motor 231 and coaxial coupling have puddler 232, install a plurality of stirring leaves 233 that are located mixing box 21 inside on the puddler 232, driving motor 231's output torque transmits for puddler 232 through the shaft coupling, the rotatory stirring leaf 233 that drives of puddler 232 is rotatory around puddler 232, can mix the stirring to the different raw materials in the mixing box 21.

Non-slip mat 8 is installed to the bottom of supporting shoe 5, and non-slip mat 8 can adopt the rubber material preparation to form, and non-slip mat 8 multiplicable supporting shoe 5 and the area of contact between the ground, and then improve frictional force between the two.

Antiskid ribbed tile 4 is J type structure, and its height that highly is higher than division board 3 all is fixed with baffle 9 on the left and right sides top of belt conveyor 1, and the height of two baffles 9 all is higher than a plurality of antiskid ribbed tile 4's height, makes the ascending in-process of conveyer belt of belt conveyor 1 on the raw materials difficult from the left and right sides to dropping to the outside through baffle 9.

Specifically, in the using process, the belt conveyor 1 and the driving motor 231 are connected with an external control system and a power supply, the electric telescopic rod 65 is started through the control switch 7, when the telescopic part of the electric telescopic rod 65 ascends, the sliding block 62 is driven to move upwards in the sliding groove 61 along the length direction of the belt conveyor 1 under the action of the rotating shaft 64 and the boss 63, when the telescopic part of the electric telescopic rod 65 contracts, otherwise, the sliding block moves downwards, so that the integral inclination angle of the belt conveyor 1 is changed, the belt conveyor 1 can be used by matching with equipment with different specifications and sizes, the belt conveyor 1 is started, raw materials to be mixed are placed on two sides of the surface partition plate 3 of the belt conveyor 1, in the ascending process of the raw materials, the anti-slip plate 4 is used for preventing the raw materials from sliding downwards, the raw materials ascend more stably, and the raw materials are conveyed to the rear end of the belt conveyor 1 and fall into the feeding groove 22 on the mixing mechanism 2, pan feeding groove 22 can be with the leading-in compounding box 21 of raw materials, driving motor 231's output torque passes through the shaft coupling and transmits for puddler 232, puddler 232 is rotatory to be driven stirring leaf 233 and is rotatory around puddler 232, can mix the stirring to the different raw materials in the compounding box 21, open the valve of discharge gate 24, the fertilizer after the completion of mixing can fall out from discharge gate 24, and when electric telescopic handle 65's pars contractilis extended, can change compounding box 21's inclination, the fertilizer that conveniently mixes is discharged from the discharge gate.

The device can adjust the inclination angle and the conveying height of the belt conveyor through the lifting mechanism, after the belt conveyor is adjusted to a proper position, the belt conveyor is started, different raw materials to be mixed are placed on the conveying belts on two sides of the partition plate, in the ascending process, the antiskid plate is used for blocking the situation that the raw materials slide downwards, the raw materials ascend more stably, the raw materials are conveyed to the feeding groove of the mixing mechanism, fall into the feeding groove at the rear end, are stirred and mixed through the stirring assembly in the mixing mechanism, and the lifting mechanism can drive the inclination angle of the mixing mechanism to change through changing the inclination angle of the belt conveyor, so that the mixed fertilizer is conveniently discharged from the discharge port.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a humic acid fertilizer transportation compounding device, including be preceding to the belt conveyor (1) of backward tilt up with install in compounding mechanism (2) of belt conveyor (1) rear side, its characterized in that, the middle part of belt conveyor (1) is equipped with division board (3), the surface evenly distributed of belt conveyor (1) has and is located two sets of antiskid ribbed slabs (4) of division board (3) left and right sides, the front end both sides of belt conveyor (1) all articulate there is supporting shoe (5), the rear end top both sides of belt conveyor (1) all are equipped with elevating system (6).

2. The humic acid organic fertilizer conveying and mixing device as claimed in claim 1, wherein the lifting mechanism (6) comprises sliding chutes (61) formed in two sides of the top of the rear end of the belt conveyor (1), sliding blocks (62), bosses (63), a rotating shaft (64) and electric telescopic rods (65) arranged inside the sliding chutes (61), the sliding blocks (62) are connected inside the sliding chutes (61) in a sliding manner along the length direction of the belt conveyor (1), the two bosses (63) are installed at the bottom end of each sliding block (62), and the telescopic parts of the electric telescopic rods (65) are arranged between the two bosses (63) and are rotatably connected through the rotating shaft (64).

3. A humic acid organic fertilizer conveying and mixing device as claimed in claim 2, wherein the right side of the belt conveyor (1) is provided with a control switch (7), and the electric telescopic rod (65) is electrically connected with the control switch (7).

4. The humic acid organic fertilizer conveying and mixing device as claimed in claim 2, wherein the mixing mechanism (2) comprises a mixing box (21), a feeding groove (22), a stirring assembly (23) and a discharging hole (24), a gap is formed in the mixing box (21), the antiskid plate (4) penetrates through the gap under the driving of the belt conveyor (1), the mixing box (21) is located at the rear end of the belt conveyor (1), the feeding groove (22) is formed in the top end of the mixing box (21), and the discharging hole (24) is formed in the bottom end of the mixing box (21).

5. A humic acid organic fertilizer conveying and mixing device as claimed in claim 4, wherein the stirring assembly (23) comprises a driving motor (231), a stirring rod (232) and stirring blades (233), the driving motor (231) is installed at the bottom end of the mixing box (21), the output shaft of the driving motor (231) is vertically upwards arranged and is coaxially connected with the stirring rod (232), and the stirring rod (232) is provided with a plurality of stirring blades (233) inside the mixing box (21).

6. A humic acid organic fertilizer conveying and mixing device as claimed in claim 1 wherein the bottom end of the support block (5) is provided with a non-slip mat (8).

7. A humic acid organic fertilizer conveying and mixing device as claimed in claim 1, wherein the antiskid plates (4) are J-shaped structures and are higher than the partition plates (3), baffle plates (9) are fixed on the top ends of the left side and the right side of the belt conveyor (1), and the heights of the two baffle plates (9) are higher than the heights of the antiskid plates (4).

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