CN216778533U - A intensive mixing device for cultivating soil - Google Patents

Abstract

The utility model discloses a sufficient mixing device for cultivation soil, which comprises a base, a first shell and a second shell, wherein the first shell and the second shell are respectively fixed at two ends of the top surface of the base, the inner end of the first shell and the inner end of the second shell are mutually communicated, the top end of the first shell is provided with a first feed hopper, the top end of the second shell is provided with a second feed hopper, a first rotating shaft is arranged in the first shell, a plurality of first mixing blades are fixed on the first rotating shaft, a second rotating shaft is arranged in the second shell, and a plurality of second mixing blades are fixed on the second rotating shaft. In the utility model, the first material and the second material are fully mixed for a long time; when the threaded rod is screwed in the threaded sleeve, the bottom ends of the first shell and the second shell are sealed, so that material leakage is avoided; when the threaded rod is screwed out of the threaded sleeve, the bottom ends of the first shell and the second shell can be opened, and outflow of materials is facilitated.

Description

A intensive mixing device for cultivating soil

Technical Field

The utility model relates to the technical field of cultivation soil mixing, in particular to a full mixing device for cultivation soil.

Background

The planting soil has good physical and chemical properties, loose structure, ventilation, strong water and fertilizer retention capacity and is suitable for the growth of garden plants. The optimal soil (volume ratio) suitable for plant growth is as follows: 45% of mineral substances, 5% of organic matters, 20% of air and 30% of water. The soil aggregate is preferably 1 to 5 mm. The soil is required to be moderate in acid-base, good in drainage, loose and fertile, free of construction and domestic garbage and free of toxic and harmful substances. Soil improvement needs to be done according to local conditions.

The base fertilizer is applied to the plants in order to improve the soil, make up for the insufficient fertility of the soil of the green land and enable the plants to take effect as soon as possible after the plants recover growth. According to the requirement, the compost retted mushroom fertilizer or sawdust which is fully decomposed by 3% of calcium superphosphate and 4% of urea can be selected to be used as the soil base fertilizer.

In the process of processing the cultivation soil, a plurality of raw materials need to be mixed, and a mixing device is used in the process, but the mixing device in the prior art has the following defects:

1. the first raw material and the second raw material are not sufficiently mixed, and partial caking exists, so that the cultivation is not facilitated; 2. the ejection of compact is smooth and easy inadequately, leads to the ejection of compact to be blocked, influences work efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a sufficient mixing device for cultivation soil, which is used for solving the problems that a first raw material and a second raw material are not sufficiently mixed, part of raw materials are agglomerated and cultivation is not facilitated; the ejection of compact is smooth and easy inadequately, leads to the ejection of compact to be blocked, influences work efficiency's problem.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme: the utility model provides a intensive mixing device for cultivation soil, includes base, first casing and second casing, first casing, second casing are fixed respectively on the top surface both ends of base, the inner of first casing, the inner intercommunication of second casing, be equipped with first feeder hopper on the top of first casing, be equipped with the second feeder hopper on the top of second casing, the inside of first casing is equipped with first pivot, be fixed with a plurality of first mixing blade in the first pivot, the inside of second casing is equipped with the second pivot, be fixed with a plurality of second mixing blade in the second pivot, first material in the first casing and the second casing in the second casing position department between first mixing blade, second mixing blade are mixed, be equipped with discharge mechanism between the bottom of first casing, second casing.

Preferably, first casing, second casing are cylinder cavity structure, the axis of first pivot and the coincidence of the central line of first casing, install first motor on the outer wall of first casing, the output shaft of first motor and the outer end fixed connection of first pivot, the axis of second pivot and the coincidence of the central line of second casing, install the second motor on the outer wall of second casing, the output shaft of second motor and the outer end fixed connection of second pivot.

Preferably, the first mixing blade and the second mixing blade are both rectangular plate-shaped structures, through holes are formed in the first mixing blade and the second mixing blade, the first mixing blade and the second mixing blade are uniformly distributed along the circumferential direction of the first rotating shaft, and the second mixing blade are distributed along the circumferential direction of the second rotating shaft.

Preferably, discharge mechanism includes first ejection of compact board, second ejection of compact board and locking subassembly, first ejection of compact board rotates and sets up on the bottom of first casing, the second ejection of compact board rotates and sets up on the bottom of second casing, the locking subassembly sets up between first ejection of compact board, second ejection of compact board.

Preferably, the first discharging plate and the second discharging plate are both arc-shaped plate structures, and when the first discharging plate and the second discharging plate are in a locked state, the first discharging plate and the first shell are located on the same cylindrical surface, and the second discharging plate and the second shell are located on the same cylindrical surface.

Preferably, the locking subassembly includes first fixed block, second fixed block, thread bush and threaded rod, first fixed block sets up on the bottom surface of first ejection of compact board, the thread bush level is fixed on the side of first fixed block, the second fixed block sets up on the bottom of second ejection of compact board, the threaded rod screw thread runs through the second fixed block, threaded connection between threaded rod and the thread bush.

Preferably, a first rubber block is arranged at the free end of the first discharging plate, a second rubber block is arranged at the free end of the second discharging plate, and when the first discharging plate and the second discharging plate are locked, the first rubber block and the second rubber block are mutually abutted.

Compared with the prior art, the full mixing device for the cultivation soil adopting the technical scheme has the following beneficial effects:

firstly, in use, a worker adds a first material into a first shell from a first feed hopper, the first material falls between two adjacent first mixing blades under the action of gravity, and simultaneously adds a second material into a second shell from a second feed hopper, the second material falls between two adjacent second mixing blades, when a first rotating shaft rotates, the first rotating shaft can drive a plurality of first mixing blades to rotate simultaneously, a second rotating shaft can drive a plurality of second mixing blades to rotate simultaneously, under the condition that the first mixing blades and the second mixing blades rotate inwards simultaneously, the first material and the second material are stirred to the positions between the first mixing blades and the second mixing blades, then the first material and the second material are mixed with each other, when the first mixing blades and the second mixing blades are continuously rotated, the first material and the second material are fully mixed for a long time, after the operation is finished, the discharging mechanism is opened, and the fully mixed materials flow out of the discharging mechanism;

when the locking assembly is in a locking state, the first discharging plate and the second discharging plate are mutually butted, so that the bottom ends of the first shell and the second shell are sealed, the first material and the second material are prevented from accidentally falling, and the first material and the second material are fully mixed in the first shell and the second shell for a long time; when the locking assembly is in an open state, a worker can open the first discharging plate and the second discharging plate, so that the first material and the second material which are fully mixed flow out, and the mixing operation of the cultivation soil is completed;

when the threaded rod is screwed in the threaded sleeve in use, the first fixing block and the second fixing block are parallel to each other, the first fixing block and the second fixing block force the free ends of the first discharging plate and the second discharging plate to be in butt joint respectively, so that the bottom ends of the first shell and the second shell are sealed, and the mixing device is in a working state at the moment, so that material leakage is avoided; when the threaded rod is screwed out from the threaded sleeve, the worker can freely rotate the first discharging plate and the second discharging plate to open the bottom ends of the first shell and the second shell, so that the materials can flow out conveniently.

Drawings

FIG. 1 is a front sectional view of an embodiment of the intensive mixing apparatus for cultivation soil according to the present invention;

FIG. 2 is a front sectional view of the discharging mechanism in the embodiment;

fig. 3 is a front cross-sectional view of the discharge mechanism in the embodiment (when the first discharge plate is rotated downward).

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

The intensive mixing device for the cultivation soil as shown in fig. 1 comprises a base 10, a first shell 1 and a second shell 2, wherein the first shell 1 and the second shell 2 are respectively fixed on two ends of the top surface of the base 10, the base 10 is of a frame structure, the inner end of the first shell 1 and the inner end of the second shell 2 are communicated with each other, a first feed hopper 11 is arranged on the top end of the first shell 1, a second feed hopper 21 is arranged on the top end of the second shell 2, a first rotating shaft 3 is arranged in the first shell 1, a plurality of first mixing blades 5 are fixed on the first rotating shaft 3, a second rotating shaft 4 is arranged in the second shell 2, a plurality of second mixing blades 6 are fixed on the second rotating shaft 4, a first material in the first shell 1 and a second material in the second shell 2 are mixed at positions between the first mixing blades 5 and the second mixing blades 6, the first shell 1, the second shell 2 and the second shell 2 are mixed, A discharging mechanism is arranged between the bottom ends of the second shell 2.

In use, a worker adds a first material into the first shell 1 from the first feeding hopper 11, the first material falls between two adjacent first mixing blades 5 under the action of gravity, and simultaneously adds a second material into the second shell 2 from the second feeding hopper 21, the second material falls down between two adjacent second mixing blades 6, when the first rotating shaft 3 rotates, the first rotating shaft 3 can drive a plurality of first mixing blades 5 to rotate simultaneously, the second rotating shaft 4 can drive a plurality of second mixing blades 6 to rotate simultaneously, under the condition that the first mixing blades 5 and the second mixing blades 6 rotate inwards simultaneously, the first material and the second material are stirred to the positions between the first mixing blades 5 and the second mixing blades 6, and then the first material and the second material are mixed with each other, when the first mixing blades 5 and the second mixing blades 6 are continuously rotated, the first material and the second material are fully mixed for a long time, after the operation is finished, the discharging mechanism is opened, and the fully mixed materials flow out from the discharging mechanism.

As shown in fig. 1, the first housing 1 and the second housing 2 are both cylindrical cavity structures, the axis of the first rotating shaft 3 coincides with the center line of the first housing 1, the outer wall of the first housing 1 is provided with a first motor, the output shaft of the first motor is fixedly connected with the outer end of the first rotating shaft 3, the axis of the second rotating shaft 4 coincides with the center line of the second housing 2, the outer wall of the second housing 2 is provided with a second motor, and the output shaft of the second motor is fixedly connected with the outer end of the second rotating shaft 4.

In use, start first motor and second motor simultaneously, the output shaft of first motor drives first pivot 3 rotatoryly, the output shaft of second motor drives second pivot 4 rotatoryly, wherein, the output shaft clockwise rotation of first motor, the output shaft anticlockwise rotation of second motor, first pivot 3 drives a plurality of first hybrid blade 5 clockwise rotations simultaneously, second pivot 4 drives a plurality of second hybrid blade 6 anticlockwise rotations simultaneously, make first material, the second material is at first hybrid blade 5, mix each other under the effect of second hybrid blade 6 relative rotation, with the intensive mixing material.

As shown in fig. 1, the first mixing blades 5 and the second mixing blades 6 are both rectangular plate-shaped structures, through holes are formed in the first mixing blades 5 and the second mixing blades 6, the plurality of first mixing blades 5 are uniformly distributed along the circumferential direction of the first rotating shaft 3, and the plurality of second mixing blades 6 are distributed along the circumferential direction of the second rotating shaft 4.

In use, first mixing blade 5, second mixing blade 6 rotate simultaneously, can form the air current in through-hole position department, do benefit to the whereabouts of first material, second material, in addition, two adjacent first mixing blade 5 and the inner wall of first casing 1 form first loculus, form the second loculus between the inner wall of two adjacent second mixing blade 6 and second casing 2, a plurality of first mixing blade 5, the design of a plurality of second mixing blade 6 evenly distributed for the volume of a plurality of first loculus is the same, the volume of a plurality of second loculus is the same simultaneously, do benefit to the homogeneous mixing of first material, second material.

As shown in fig. 1-3, the discharging mechanism includes a first discharging plate 7, a second discharging plate 8 and a locking assembly 9, the first discharging plate 7 is rotatably disposed on the bottom end of the first casing 1, the second discharging plate 8 is rotatably disposed on the bottom end of the second casing 2, and the locking assembly 9 is disposed between the first discharging plate 7 and the second discharging plate 8.

In use, when the locking assembly 9 is in a locking state, the first discharging plate 7 and the second discharging plate 8 are mutually butted, so that the bottom ends of the first shell 1 and the second shell 2 are sealed, the first material and the second material are prevented from accidentally falling, and the first material and the second material are fully mixed in the first shell 1 and the second shell 2 for a long time; when the locking assembly 9 is in an open state, a worker can open the first discharging plate 7 and the second discharging plate 8, so that the first material and the second material which are fully mixed flow out, and the mixing operation of the cultivation soil is completed.

As shown in fig. 1-3, the first discharging plate 7 and the second discharging plate 8 are both arc-shaped plate structures, when the first discharging plate 7 and the second discharging plate 8 are in a locked state, the first discharging plate 7 and the first shell 1 are located on the same cylindrical surface to ensure that the volumes of the plurality of first small cavities are the same, and the second discharging plate 8 and the second shell 2 are located on the same cylindrical surface to ensure that the volumes of the plurality of second small cavities are the same, so as to ensure that the first material and the second material are uniformly mixed.

As shown in fig. 2 to 3, the locking assembly 9 includes a first fixing block 91, a second fixing block 92, a threaded sleeve 93 and a threaded rod 94, the first fixing block 91 is disposed on the bottom surface of the first discharging plate 7, the first fixing block 91 is vertically distributed, the threaded sleeve 93 is horizontally fixed on the side surface of the first fixing block 91, the second fixing block 92 is disposed on the bottom end of the second discharging plate 8, the threaded rod 94 penetrates through the second fixing block 92, the threaded rod 94 is horizontally distributed, and the threaded rod 94 and the threaded sleeve 93 are in threaded connection.

When the threaded rod 94 is screwed in the threaded sleeve 93 in use, the first fixing block 91 and the second fixing block 92 are parallel to each other, the first fixing block 91 and the second fixing block 92 force the free ends of the first discharging plate 7 and the second discharging plate 8 to be butted respectively, so that the bottom ends of the first shell 1 and the second shell 2 are sealed, and the mixing device is in a working state at the moment, so that material leakage is avoided; when screwing out threaded rod 94 from thread bush 93, the staff can be the first ejection of compact board 7 of rotation, second ejection of compact board 8 of freedom to open the bottom of first casing 1, second casing 2, do benefit to the outflow of material, it is specific, upwards rotate the second ejection of compact board 8 earlier, then first ejection of compact board 7 of downward rotation, the second ejection of compact board 8 of downward rotation can open the bottom of first casing 1, second casing 2 completely, the free end of first ejection of compact board 7, the free end of second ejection of compact board 8 interferes mutually can be avoided to this kind of operating method, the operation of being convenient for.

As shown in fig. 2, a first rubber block 71 is disposed at a free end of the first discharging plate 7, a second rubber block 81 is disposed at a free end of the second discharging plate 8, and when the first discharging plate 7 and the second discharging plate 8 are locked, the first rubber block 71 and the second rubber block 81 are abutted against each other. In use, the first rubber block 71 and the second rubber block 81 have certain buffering operation, stress impact between the free end of the first discharging plate 7 and the free end of the second discharging plate 8 is avoided, and the protection effect is achieved.

The above description is of the preferred embodiment of the present invention, and it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit of the utility model, and these are to be considered within the scope of the utility model.

Claims (7)

1. The utility model provides a intensive mixing device for cultivation soil, includes base (10), first casing (1) and second casing (2), first casing (1), second casing (2) are fixed respectively on the top surface both ends of base (10), its characterized in that: the inner end of the first shell (1) and the inner end of the second shell (2) are communicated with each other, a first feed hopper (11) is arranged at the top end of the first shell (1), a second feed hopper (21) is arranged at the top end of the second shell (2), a first rotating shaft (3) is arranged in the first shell (1), a plurality of first mixing blades (5) are fixed on the first rotating shaft (3), a second rotating shaft (4) is arranged in the second shell (2), a plurality of second mixing blades (6) are fixed on the second rotating shaft (4), the first material in the first housing (1) and the second material in the second housing (2) are mixed at a position between the first mixing blade (5) and the second mixing blade (6), and a discharging mechanism is arranged between the bottom ends of the first shell (1) and the second shell (2).

2. The intensive mixing apparatus for cultivation soil according to claim 1, wherein: first casing (1), second casing (2) are cylinder cavity structure, the axis of first pivot (3) and the coincidence of the central line of first casing (1), install first motor on the outer wall of first casing (1), the output shaft of first motor and the outer end fixed connection of first pivot (3), the axis of second pivot (4) and the coincidence of the central line of second casing (2), install the second motor on the outer wall of second casing (2), the output shaft of second motor and the outer end fixed connection of second pivot (4).

3. The intensive mixing apparatus for cultivation soil according to claim 1, wherein: first mixing blade (5), second mixing blade (6) are rectangle platelike structure, all seted up the through-hole on first mixing blade (5), the second mixing blade (6), it is a plurality of first mixing blade (5) are along the circumferencial direction evenly distributed of first pivot (3), and is a plurality of second mixing blade (6) are along the circumferencial direction distribution of second pivot (4).

4. The intensive mixing apparatus for cultivation soil according to claim 1, wherein: discharge mechanism includes first ejection of compact board (7), second ejection of compact board (8) and locking Assembly (9), first ejection of compact board (7) rotate to set up on the bottom of first casing (1), second ejection of compact board (8) rotate to set up on the bottom of second casing (2), locking Assembly (9) set up between first ejection of compact board (7), second ejection of compact board (8).

5. The intensive mixing apparatus for cultivation soil according to claim 4, wherein: the first discharging plate (7) and the second discharging plate (8) are both arc-shaped plate structures, when the first discharging plate (7) and the second discharging plate (8) are in a locking state, the first discharging plate (7) and the first shell (1) are located on the same cylindrical surface, and the second discharging plate (8) and the second shell (2) are located on the same cylindrical surface.

6. The intensive mixing apparatus for cultivation soil according to claim 4, wherein: locking Assembly (9) include first fixed block (91), second fixed block (92), thread bush (93) and threaded rod (94), first fixed block (91) set up on the bottom surface of first play flitch (7), thread bush (93) level is fixed on the side of first fixed block (91), second fixed block (92) set up on the bottom of second play flitch (8), threaded rod (94) screw thread runs through second fixed block (92), threaded connection between threaded rod (94) and the thread bush (93).

7. The intensive mixing apparatus for cultivation soil according to claim 4, wherein: be equipped with first rubber piece (71) on the free end of first ejection of compact board (7), be equipped with second rubber piece (81) on the free end of second ejection of compact board (8), work as when first ejection of compact board (7), second ejection of compact board (8) are locked, support tightly each other between first rubber piece (71), second rubber piece (81).

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