CN220068266U - Drought-preventing and yield-increasing equipment for wheat - Google Patents

Abstract

The utility model discloses drought-preventing and yield-increasing equipment for wheat, which relates to the field of agriculture and comprises an equipment main body, wherein a bottom cavity and an inner cavity are sequentially arranged in the equipment main body from bottom to top, a sedimentation cavity is fixedly arranged on one side of the inner cavity, a mixing structure is embedded in the sedimentation cavity, an irrigation pipeline is outwards extended from the outer end of the mixing structure, and a collecting structure is embedded in the inner cavity. The effect of fully stirring fertilizer and water source in the mixing drum is reached through the stirring flabellum, and in the stirring process, because the top of stirring base sets up circular filter screen, effectually carries out layering processing with the mixed solution, and the mixed solution of misce bene is located this circular filter screen top, and has granule misce bene to be located the below position of this circular filter screen and continue stirring processing, and the arc binding off that stirring flabellum side set up is supplementary to mix the vortex, is favorable to the mixture of fertilizer and water source.

Description

Drought-preventing and yield-increasing equipment for wheat

Technical Field

The utility model relates to the technical field of agriculture, in particular to drought-preventing and yield-increasing equipment for wheat.

Background

The agriculture is an industry for obtaining products by utilizing growth and development rules of animals and plants and through artificial cultivation, the agriculture belongs to a first industry, the science for researching agriculture is agronomic, the labor object of agriculture is living animals and plants, the obtained products are animals and plants, and the agriculture is a basic industry for supporting national economic construction and development.

When wheat is planted, auxiliary irrigation treatment is carried out on the wheat in order to increase the planting yield and avoid drought, meanwhile, the jointing booting fertilizer should be applied in a rainy day, each field should be fertilized according to the situation of land fertility, and during the period, wheat diseases and insect pests should be prevented.

In combination with the above, during the period of planting and increasing the yield to wheat, the corresponding drought-preventing and increasing equipment is needed, such as equipment for sprinkling irrigation and fertilization, when the existing drought-preventing and increasing equipment is actually used, external fertilizer and water source are needed to be mixed in the equipment, and then sprinkling irrigation is carried out, and meanwhile, the existing equipment has the water source storage function for enhancing the convenience of field use, so that the existing problems are that:

firstly, when the existing equipment is used for mixing fertilizers, the externally added fertilizers and a water source are stirred and mixed through a stirring mechanism, the externally added fertilizers are generally liquid fertilizers and solid fertilizers which need to be diluted and used, and when the stirring and mixing are carried out, the existing stirring mechanism is easy to cause excessive dispersion of the solid fertilizers in water in the stirring process, the stirring effect is reduced, the full stirring and dilution of the solid fertilizers cannot be well ensured, undissolved fertilizer particles are mixed in mixed liquid after the mixing, the fertilizing effect is influenced, and residues are easy to occur in the equipment and a pipeline;

secondly, when collecting outside rainwater, current equipment filters the impurity granule in the rainwater through the built-in filter screen of collection structure wherein more, and the condition that the filter screen jam easily appears influences collection efficiency, and this kind of collection structure to rainwater collection does not possess to accomodate and adjusts, influences whole yield-increasing equipment's removal convenience, and when outside water source is collected simultaneously, should guarantee the abundant removal processing of impurity in its water source, influence follow-up fertilizer dilution operation when avoiding leading to equipment jam.

The utility model patent of China with the application number of 202210449035.8 provides a drainage and irrigation device for agricultural drainage and drought control, which comprises a movable box body, wherein a stirring device is arranged in the movable box body, a detection device is arranged in the movable box body, a control device is arranged on the outer side of the stirring box body, the control device is electrically connected with the stirring device and the detection device, a driving device is arranged at the top of stirring decoration, a water inlet pipeline is arranged on one side of the movable box body, a feeding pipeline is arranged on the other side of the movable box body, a discharging pipe is arranged on the side face of the bottom of the movable box body, and an observation window is arranged on the front side of the movable box body. By adopting the structure, the utility model can uniformly stir and mix water and fertilizer, so that the water and fertilizer are mixed and irrigated into the field, and the front side of the whole movable box body is provided with the observation window with scale marks, so that the water level in the period can be observed conveniently. The side surface of the pipeline storage box body is provided with the pipeline storage box body, so that the pipeline can be placed on the pipeline storage box body, the pipeline is prevented from moving in the drainage and irrigation process, and the pipeline is prevented from polluting the ground.

The utility model in China with the application number of 202120309822.3 provides agricultural drainage and irrigation equipment for preventing drought, which comprises a main body, wherein one side of the main body is fixedly connected with a water guide pipe, the other end of the water guide pipe is fixedly connected with a filter screen, the inside of the water guide pipe is fixedly connected with a fixed block, the inside of the fixed block is movably connected with a rotating rod, one end of the rotating rod is fixedly connected with a limiting block, and the outer side of the surface of the rotating rod is fixedly connected with a rotating disc; through fixed block, dwang, stopper, rolling disc, guide vane, rotor plate and the wire brush of design, be convenient for when the device carries out work, the inside of water guide pipe flows, drives guide vane and rotates for the rolling disc can drive the dwang and rotate, thereby drives rotor plate and wire brush and rotates the surface of filter screen, brushes the surface of filter screen and moves, makes the surface of filter screen keep clean, has solved the problem that can not carry out the filtration to external water source.

Disclosure of Invention

The utility model aims to provide drought-preventing and yield-increasing equipment for wheat, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the wheat drought-preventing and yield-increasing equipment comprises an equipment main body, wherein a bottom cavity and an inner cavity are sequentially formed in the equipment main body from bottom to top, a sedimentation cavity is fixedly formed in one side of the inner cavity, a mixing structure is embedded in the sedimentation cavity, the outer end of the mixing structure extends outwards to form a watering pipeline, a collecting structure is embedded in the inner cavity, a connecting pipeline and an adjusting support are fixedly connected to the bottom of the collecting structure, the connecting pipeline is simultaneously communicated with the bottom cavity, and the adjusting support is simultaneously movably connected with the inner cavity;

the mixing structure comprises a mixing cylinder, a water inlet pipeline and a water outlet pipeline at two ends of the mixing cylinder, a stirring structure is embedded in the mixing cylinder, and the stirring structure comprises stirring blades fixedly connected with a stirring base and the surfaces of the stirring blades;

the collecting structure comprises a collecting cover and an interception layer on the surface of the collecting cover, and a communication port is arranged at the central position of the collecting cover.

Preferably, the bottom cavity and the sedimentation cavity are communicated and connected through a pipeline, and meanwhile, the pipeline is provided with a pump body mechanism in a matching way.

Preferably, the adjusting bracket is connected with the inner cavity connecting end through the shaft body in a turnover way, a driving device is arranged at the outer end of the shaft body in a matching way, and the communicating pipeline is a plastic corrugated pipe.

Preferably, the collecting cover is integrally arranged in a conical cover body, the interception layer is arranged in an arc-shaped strip-shaped protruding mode, the interception layer is distributed in a staggered mode along the surface of the collecting cover, and the surface of the interception layer is provided with the plastic brush hair layer.

Preferably, the mixing drum is vertically arranged, and the water inlet pipeline and the water outlet pipeline are respectively positioned at the bottom of the inner side and the top of the outer side of the mixing drum;

the pump body mechanism is arranged in the water inlet pipeline, and the filter screen is arranged at the inner end of the guide pipeline in a surrounding manner.

Preferably, a driving shaft and a driving device are arranged on the top of the stirring structure in a matching way.

Preferably, the stirring fan blade is obliquely arranged in an L shape along the surface of the stirring base, and two sides of the stirring fan blade are arranged in an inward closing way in an arc shape.

Preferably, a round filter screen is arranged on the top of the stirring base in a matching way.

The utility model has the technical effects and advantages that:

the utility model has reasonable structure, achieves the effect of temporarily storing the collected external rainwater through the bottom cavity, and achieves the effect of depositing and storing the external water source through the depositing cavity.

The utility model has reasonable structure, achieves the effect of driving the whole collecting mechanism to turn outwards from the position of the inner cavity through adjusting the bracket, and achieves the effect of guiding and collecting external rainwater through the communicating pipeline.

The utility model has reasonable structure, and achieves the effect of collecting external rainwater and simultaneously intercepting and removing impurity garbage by matching the collecting cover with the interception layer which is arranged on the surface of the collecting cover in a protruding way.

The utility model has reasonable structure, achieves the effect of directly conveying the water source which is precipitated from the precipitation cavity to the mixing drum for mixing treatment with fertilizer through the water inlet pipeline of the built-in pump body mechanism, and achieves the effect of leading out the mixed liquid for irrigation through the leading-out pipeline.

The stirring device is reasonable in structure, the stirring fan blade is used for achieving the effect of fully stirring the fertilizer and the water source in the mixing drum, in the stirring process, the circular filter screen is arranged at the top of the stirring base, so that the mixed liquid is effectively subjected to layered treatment, the mixed liquid which is uniformly mixed is positioned above the circular filter screen, the mixed liquid which is not uniformly mixed with particles is positioned below the circular filter screen, the stirring treatment is continued, and the arc-shaped closing-in arranged on the side surface of the stirring fan blade is used for assisting in carrying out mixed turbulence, so that the mixing of the fertilizer and the water source is facilitated.

Drawings

FIG. 1 is a front view of the overall structure of the present utility model;

FIG. 2 is a front view of the collection structure of the present utility model in use;

FIG. 3 is a front view of a hybrid structural joint of the present utility model;

fig. 4 is a top view of the attachment structure of the collection housing of the present utility model.

FIG. 5 is a schematic diagram showing the connection of stirring structures in the present utility model.

In the figure: 1. an apparatus main body; 2. a bottom cavity; 3. an inner cavity; 4. a sedimentation chamber; 5. a hybrid structure; 6. irrigation pipes; 7. a collection structure; 8. a connecting pipe; 9. adjusting the bracket; 10. a mixing drum; 11. a water inlet pipe; 12. a stirring structure; 13. a lead-out pipe; 14. a collection cover; 15. a communication port; 16. an interception layer; 17. a stirring base; 18. stirring fan blade.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides drought-preventing and yield-increasing equipment for wheat as shown in figures 1-5, which comprises an equipment main body 1, wherein a bottom cavity 2 and an inner cavity 3 are sequentially arranged in the equipment main body 1 from bottom to top, a sedimentation cavity 4 is fixedly arranged on one side of the inner cavity 3, a mixing structure 5 is embedded in the sedimentation cavity 4, an irrigation pipeline 6 is outwards extended from the outer end of the mixing structure 5, a collecting structure 7 is embedded in the inner cavity 3, a connecting pipeline 8 and an adjusting bracket 9 are fixedly connected to the bottom of the collecting structure 7, the connecting pipeline 8 is simultaneously communicated with the bottom cavity 2, and the adjusting bracket 9 is simultaneously and movably connected with the inner cavity 3;

the mixing structure 5 comprises a mixing drum 10, a water inlet pipeline 11 and a water outlet pipeline 13 at two ends of the mixing drum, a stirring structure 12 is embedded in the mixing drum 10, and the stirring structure 12 comprises stirring blades 18 fixedly connected with a stirring base 17 and the surfaces of the stirring blades;

the collecting structure 7 comprises a collecting cover 14 and an interception layer 16 on the surface of the collecting cover, and a communication port 15 is arranged in the middle of the collecting cover 14;

the bottom cavity 2 and the sedimentation cavity 4 are communicated and connected through a pipeline, and a pump body mechanism is arranged in the pipeline in a matching way;

the effect of carrying out temporary storage to the outside rainwater of collecting is reached through end chamber 2, reaches the effect of carrying out precipitation storage to outside water source through precipitation chamber 4, is favorable to carrying out fertilizer mixing subsequently, avoids having impurity in the mixed liquor.

Furthermore, the connecting end of the adjusting bracket 9 and the inner cavity 3 is connected through the turning of the shaft body, the outer end of the shaft body is provided with a driving device in a matching way, and the communicating pipeline 8 is a plastic corrugated pipe;

when needs use collection mechanism 7 to collect outside rainwater, reach through adjusting support 9 and drive whole collection mechanism 7 and outwards overturn effect from inner chamber 3 position, collection mechanism 7 upset to the horizontality, be located the top position of equipment main part 1, the communication pipeline 8 carries out self-adaptation compression along with the upset of collection structure 7 and stretches, reaches the effect of leading the outside rainwater of collecting through communication pipeline 8.

Further, the collecting cover 14 is integrally arranged in a conical cover body, the interception layer 16 is arranged in an arc-shaped strip-shaped protruding mode, the interception layer is distributed in a staggered mode along the surface of the collecting cover 14, and the surface of the interception layer 16 is provided with a plastic bristle layer;

the effect of intercepting and removing impurity garbage in the outside rainwater is achieved when the outside rainwater is collected by the collecting cover 14 matched with the intercepting layer 16 protruding from the surface of the collecting cover 14, and the rainwater flows along the direction of the intercepting layer 16 on the surface of the collecting cover 14 when the rainwater is collected, so that the rainwater is collected rapidly.

Further, the mixing drum 10 is vertically arranged, and the water inlet pipeline 11 and the water outlet pipeline 13 are respectively positioned at the bottom of the inner side and the top of the outer side of the mixing drum 10;

the water inlet pipeline 11 is internally provided with a pump body mechanism, and the inner end of the outlet pipeline 13 is surrounded by a filter screen;

the water source precipitated in the precipitation cavity 4 is directly conveyed to the mixing drum 10 through the water inlet pipeline 11 with the built-in pump body mechanism to be mixed with the fertilizer, the effect of leading out the mixed liquid to irrigate is achieved through the leading-out pipeline 13, and the height difference exists between the water inlet pipeline 11 and the leading-out pipeline 13, so that the leading-out mixed liquid is effectively ensured to be uniform liquid after the water source and the fertilizer are mixed.

Further, a driving shaft and a driving device are arranged on the top of the stirring structure 12 in a matched manner;

further, the stirring fan blades 18 are obliquely arranged in an L shape along the surface of the stirring base 17, and two sides of the stirring fan blades 18 are arranged in an arc inward closing way;

a circular filter screen is arranged on the top of the stirring base 17 in a matching way;

the stirring base 17 drives the stirring fan blade 18 to rotate, the effect of fully stirring the fertilizer and the water source in the mixing drum 10 is achieved through the stirring fan blade 18, and in the stirring process, the top of the stirring base 17 is provided with the circular filter screen, the mixed solution is effectively layered, the uniformly mixed solution is positioned above the circular filter screen, the mixed solution with particles which are not uniformly mixed is positioned below the circular filter screen to continue stirring, and the arc-shaped closing-in arranged on the side surface of the stirring fan blade 18 assists in mixing turbulence, so that the mixing of the fertilizer and the water source is facilitated.

Further, the surface of the sedimentation chamber 4 is additionally provided with an interface pipe of a direct external water supply device.

The working principle of the utility model is as follows: rainwater is intercepted and filtered through the interception layer 16 in the collecting structure 7, the rainwater is stored in the bottom cavity 2 in a concentrated mode, when the rainwater is used, an external water source in the bottom cavity 2 enters the sedimentation cavity 4 for standby, external fertilizer enters the mixing drum 10, a water inlet pipeline 11 extracts the water source in the sedimentation cavity 4 and enters the mixing drum 10, the stirring structure rotates to mix and stir the water source, uniformly stirred mixed liquid passes through a circular filter screen which is arranged on the top of the stirring base 17 in a matching mode and is located at the upper position of the circular filter screen, at the moment, the uniformly stirred mixed liquid on the upper layer is discharged outwards through a guiding-out pipeline 13 to be irrigated, and other mixed liquid with particles is continuously located at the position below the circular filter screen which is arranged on the top of the stirring base 17 in a matching mode and is stirred, a user can also directly add the external water source into the sedimentation cavity 4 for use, and when the collecting structure 7 is not used, the water source is inwards stored into the inner cavity 3 through the adjusting support 9.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. Drought-preventing yield-increasing equipment for wheat comprises an equipment main body (1), and is characterized in that: the device comprises a device main body (1), a bottom cavity (2) and an inner cavity (3) are sequentially arranged in the device main body (1) from bottom to top, a sedimentation cavity (4) is fixedly arranged on one side of the inner cavity (3), a mixing structure (5) is embedded in the sedimentation cavity (4), an irrigation pipeline (6) is outwards extended from the outer end of the mixing structure (5), a collecting structure (7) is embedded in the inner cavity (3), a connecting pipeline (8) and an adjusting bracket (9) are fixedly connected to the bottom of the collecting structure (7), the connecting pipeline (8) is simultaneously communicated with the bottom cavity (2), and the adjusting bracket (9) is simultaneously movably connected with the inner cavity (3);

the mixing structure (5) comprises a mixing cylinder (10) and a water inlet pipeline (11) and a water outlet pipeline (13) at two ends of the mixing cylinder, a stirring structure (12) is embedded in the mixing cylinder (10), and the stirring structure (12) comprises a stirring fan blade (18) fixedly connected with a stirring base (17) and the surface of the stirring base;

the collecting structure (7) comprises a collecting cover (14) and an interception layer (16) on the surface of the collecting cover, and a communication port (15) is arranged at the central position of the collecting cover (14).

2. The drought control and yield increasing equipment for wheat according to claim 1, wherein: the bottom cavity (2) and the sedimentation cavity (4) are communicated and connected through a pipeline, and meanwhile, a pump body mechanism is arranged in a matched mode through the pipeline.

3. The drought control and yield increasing equipment for wheat according to claim 1, wherein: the connecting end of the adjusting bracket (9) and the inner cavity (3) is connected through the turning of the shaft body, a driving device is arranged at the outer end of the shaft body in a matching way, and the communicating pipeline (8) is a plastic corrugated pipe.

4. The drought control and yield increasing equipment for wheat according to claim 1, wherein: the collecting cover (14) is integrally arranged in a conical cover body, the intercepting layer (16) is arranged in an arc-shaped strip-shaped protruding mode, the intercepting layer is distributed in a staggered mode along the surface of the collecting cover (14), and the surface of the intercepting layer (16) is provided with a plastic brush hair layer.

5. The drought control and yield increasing equipment for wheat according to claim 1, wherein: the mixing drum (10) is vertically arranged, and the water inlet pipeline (11) and the water outlet pipeline (13) are respectively positioned at the bottom of the inner side and the top of the outer side of the mixing drum (10);

the water inlet pipeline (11) is internally provided with a pump body mechanism, and the inner end of the outlet pipeline (13) is surrounded by a filter screen.

6. The drought control and yield increasing equipment for wheat according to claim 1, wherein: the top of the stirring structure (12) is provided with a driving shaft and a driving device in a matching way.

7. The drought control and yield increasing equipment for wheat according to claim 1, wherein: the stirring fan blades (18) are obliquely arranged in an L shape along the surface of the stirring base (17), and two sides of the stirring fan blades (18) are arranged in an inward closing way in an arc shape.

8. The drought control and yield increasing equipment for wheat according to claim 1, wherein: a circular filter screen is arranged on the top of the stirring base (17) in a matching way.