CN222044331U - A water-saving rainwater accumulation structure based on tobacco planting - Google Patents

Abstract

The utility model discloses a water-saving rain accumulation structure based on tobacco planting, which comprises a rain accumulation pit, a water storage mechanism and a rain accumulation structure, wherein the water storage structure comprises a receiving part and a cover part, an opening of the receiving part is upwards arranged in the rain accumulation pit, the cover part is arranged at the opening of the receiving part, a plurality of rain accumulation holes are formed in the cover part along the length direction of the cover part so as to be communicated with the inner side and the outer side of the receiving part, a supporting part is arranged at the upper end of the receiving part, the cover part is arranged on the supporting part so as to correspondingly form a side opening between the cover part and the long side end surface of the receiving part, and the rain accumulation structure is arranged above the cover part and used for guiding rainwater to flow to the plurality of rain accumulation holes. In the technical scheme of the utility model, the water conveying structure is matched with the rain accumulation structure, so that not only can the rainwater be fully collected in raining, but also the root of the tobacco seedling can be continuously supplemented in arid weather, and the whole water-saving rain accumulation structure is simple in structure and low in cost, and meets the actual emergency demands of tobacco farmers.

Description

Water-saving rain accumulation structure based on tobacco planting

Technical Field

The utility model relates to the technical field of tobacco planting, in particular to a water-saving rain accumulation structure based on tobacco planting.

Background

At present, the rain accumulation pit is more and more commonly applied to the production of peasants, so that the requirements of peasants on convenience and simplicity of the rain accumulation pit are met, the effect of saving water and reducing drought can be achieved, and the method has an important role in specific arrangement of the rain accumulation pit.

Most of existing rain accumulation pits adopt a traditional positioning mode, such as traditional tobacco planting, the rain accumulation pits are arranged at one corners of planting lands, rainwater in the pits needs to be transported to each position of a planting field, tobacco seedlings are irrigated, the traditional mode is high in labor intensity, meanwhile, the storage amount of the rainwater is small, and the risk of waterlogging is increased.

The existing part of intelligent rain accumulation pit comprises a water outlet and draining mechanism, a draining pump, a rainwater control and management system and the like. The pressure and flow of the stored rainwater can be regulated through the drainage pump, and the vertex is quantified to drain the stored rainwater through the subsurface. But this approach is not suitable for tobacco growers' planting conditions and practical economic demands.

Disclosure of utility model

The utility model mainly aims to provide a water-saving rain accumulation structure based on tobacco planting, and aims to solve the problems that the traditional rain accumulation structure is limited in rain accumulation amount and cannot effectively reduce the labor intensity of tobacco farmers, and meanwhile, the actual economic conditions of the tobacco farmers are difficult to consider.

In order to achieve the above purpose, the utility model provides a water-saving rain accumulation structure based on tobacco planting, which comprises a rain accumulation pit and further comprises:

The water storage structure comprises a bearing part and a cover part, wherein an opening of the bearing part is upwards arranged in the rain accumulation pit, the cover part is arranged at the opening of the bearing part, a plurality of rain accumulation holes are formed in the cover part along the length direction of the cover part so as to be communicated with the inner side and the outer side of the bearing part, a supporting part is arranged at the upper end of the bearing part, and the cover part is arranged on the supporting part so as to form a side opening between the cover part and the long side end surface of the bearing part correspondingly; and

The rain accumulation structure is arranged above the cover cap part and used for guiding rainwater to flow to the plurality of rain accumulation holes.

Preferably, the support portion includes two mounting plates, the two mounting plates are respectively disposed on two ends of the receiving portion in a width direction, and upper end surfaces of the two mounting plates are disposed corresponding to the shape of the cover portion.

Preferably, the cover portion includes a concave portion and two inclined portions, the plurality of rain accumulation holes are uniformly arranged at the lowest position of the concave portion along the length direction of the cover portion at intervals, one ends of the two inclined portions are respectively connected to two arc-shaped ends of the concave portion, the two inclined portions and two ends of the concave portion are respectively mounted on the two mounting plates, so that the concave portion is arranged right above the inner cavity of the receiving portion, and the inclined direction of the inclined portion gradually inclines from the middle of the receiving portion to the long edge of the receiving portion to the bottom surface of the receiving portion.

Preferably, one end of the inclined part inclined downwards extends outwards from the long side wall of the bearing part so as to form an embedded part; and/or the number of the groups of groups,

The two inclined parts are at least partially transparent.

Preferably, the long side end part of the side opening corresponding to the bearing part is provided with a plurality of support rods, the upper ends of the support rods are connected to the inclined part, the support rods are provided with isolating parts, and the isolating parts allow water to move on two sides of the isolating parts.

Preferably, a plurality of diversion parts are arranged on one side of the inclined part corresponding to the bearing part, and the diversion parts are arranged along the width direction of the inclined part; and/or the number of the groups of groups,

The long edge end of the receiving part extends outwards along the inner side of the receiving part to form a baffle plate part.

Preferably, the supporting part is in an inverted trapezoid shape, the cross-sectional area of the supporting part gradually increases from the bottom surface of the supporting part towards the opening direction of the supporting part, the bottom surface of the supporting part is provided with a reinforcing frame, and the upper ends of the reinforcing frames are respectively connected with the two inclined parts; and/or the number of the groups of groups,

The outer side wall of the bearing part is provided with a plurality of reinforcing plates fixedly connected with the bearing part.

Preferably, the rain accumulation structure comprises:

The mounting piece is provided with two first vertical rods, two second vertical rods and two cross rods, wherein the two second vertical rods are higher than the two first vertical rods, the two first vertical rods are mounted at the joint of the concave part and the inclined part along the length direction of the cover part, the two second vertical rods are mounted on the upper end surface of the embedded part corresponding to the two first vertical rods, and the two cross rods are mounted between the corresponding two vertical rods respectively; and

The cloth shade comprises a cloth shade, wherein a plurality of slide buckles are arranged at the two end parts of the cloth shade, and the slide buckles at the two end parts of the cloth shade are respectively and slidably arranged between the two cross bars.

Preferably, threads are arranged at two ends of the cross rod, and the ends of the cross rod are fixedly arranged on the vertical rod through nuts.

Preferably, an arc-shaped guide plate is arranged between the two first vertical rods.

In the technical proposal of the utility model, the water delivery structure is matched with the rain accumulation structure, not only can fully collect rainwater in raining, but also can continuously supplement water to the roots of tobacco seedlings in arid weather, the whole water-saving rain accumulation structure has simple structure and low cost, meets the actual emergency requirement of tobacco farmers, in addition, the water storage structure and the water accumulation structure, can set up according to the actual planting density of tobacco seedling and the actual size of planting field, set up it into a plurality of first continuous structures, can satisfy the planting demand of not equidimension planting field, and after the water storage structure installation is accomplished, the reservoir volume greatly increased, tobacco growers also need not to reciprocate the water intaking and water, has effectively reduced tobacco growers' intensity of labour, has better application prospect.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the internal structure of a water-saving rain accumulation structure based on tobacco planting;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an overall side view of a water-saving rain accumulation structure based on tobacco planting of FIG. 1;

fig. 4 is a partial enlarged view at B in fig. 3.

Reference numerals illustrate:

the achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. 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.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Most of existing rain accumulation pits adopt a traditional positioning mode, such as traditional tobacco planting, the rain accumulation pits are arranged at one corners of planting lands, rainwater in the pits needs to be transported to each position of a planting field, tobacco seedlings are irrigated, the traditional mode is high in labor intensity, meanwhile, the storage amount of the rainwater is small, and the risk of waterlogging is increased.

The existing part of intelligent rain accumulation pit comprises a water outlet and draining mechanism, a draining pump, a rainwater control and management system and the like. The pressure and flow of the stored rainwater can be regulated through the drainage pump, and the vertex is quantified to drain the stored rainwater through the subsurface. But this approach is not suitable for tobacco growers' planting conditions and practical economic demands.

In order to solve the above-mentioned problems, the present utility model provides a water-saving rain accumulation structure based on tobacco planting, and fig. 1 to 4 are schematic structural diagrams of an embodiment of a water-saving rain accumulation structure 1000 based on tobacco planting.

Referring to fig. 1 to 4, the present utility model provides a water-saving rain accumulation structure 1000 based on tobacco planting, which can collect rainwater and meet the planting and irrigation requirements of tobacco leaves, and provides a water-saving rain accumulation structure 3 suitable for traditional tobacco growers in a more economical manner, wherein the water-saving rain accumulation structure 3 specifically comprises a water storage structure 2 and a rain accumulation structure 3, when in use, firstly, a rectangular rain accumulation pit 1 is dug between two adjacent rows of tobacco planting grooves, then a bearing part 21 is upwards placed in the rain accumulation pit 1, a plurality of rain accumulation holes 211a are arranged on a cover part 22 along the length direction of the bearing part 21, when in rain, the rainwater falls into the bearing part 21 through the plurality of rain accumulation holes 211a for centralized collection, the rain accumulation mechanism arranged above the cover part 22 can intensively guide the rainwater, the rainwater can flow intensively to the rainwater accumulation holes 211a, so that the collection efficiency of the rainwater in the bearing part 21 is quickened, when the air temperature is high or no rainwater is present for a long time, the accumulated water in the bearing part 21 can evaporate, on one hand, the cover part 22 can reduce the loss of the accumulated water caused by evaporation, on the other hand, most of the evaporated water vapor can flow to the side opening 23 along the lower end surface of the cover part 22 at the lower Leng Ningcheng water drops of the cover part 22 and flow outwards through the side opening 23, and the side opening 23 aims at the root area of the tobacco seedlings, so that the water flowing out of the side opening 23 can also supply water to the root of the tobacco seedlings in the case of hot weather or drought, and the whole device can also have good drought resistance performance in drought seasons. It is conceivable that the water storage structure reaches ponding structure can set up according to the actual planting density of tobacco seedling and the actual size of planting the field, sets up it to a plurality of first continuous structures, can satisfy the planting demand of not equidimension planting field, and after the water storage structure installation is accomplished, the reservoir volume greatly increased can carry out automatic moisturizing to tobacco seedling radical, can effectually reduce tobacco growers 'intensity of labour, and the installation cost is lower, accords with tobacco growers' actual economic demand.

The long side direction of the receiving portion 21 is set corresponding to the long side direction of the rain pit 1, and mounting plates 214 are provided at both ends of the receiving portion 21 in the width direction to support the cover portion 22, and the side opening 23 is formed between the cover portion 22 and the long side end portion of the receiving portion 21.

In order to facilitate the collection of rainwater, and at the same time, the condensed water inside the cover portion 22 can flow to the side opening 23 during drought, in this embodiment, the cover portion 22 is configured to have a special-shaped structure, specifically, the cover portion 22 includes a lower recess 221 and two inclined portions 222, the lower recess 221 is disposed at a position directly above the receiving portion 21 along the length direction of the receiving portion 21, one end of the inclined portion 222 connected to the lower recess 221 is highest, and the other end of the inclined portion 222 gradually inclines downward in the process of gradually extending toward the long side wall direction of the receiving portion 21, at this time, the two inclined portions 222 and the lower recess 221 are together configured in an M-shape, during rain, the arc-shaped lower recess 221 can collect rainwater, and the rainwater flows into the receiving portion 21 through the plurality of rain accumulation holes 211a at the lowest position of the lower recess, and at the same time, since the two inclined portions 222 are both provided with the above inclined directions, the flow of the condensed water on the inner side surface of the inclined portion 222 can be effectively accelerated toward the side opening 23.

The inclined portion 222 extends outward from the long side wall of the receiving portion 21 to form an embedded portion 222a, after the receiving portion 21 is placed in the rain pit 1, backfill soil is needed to backfill analysis between the receiving portion 21 and the rain pit 1, on one hand, part of backfill soil is spread on the embedded portion 222a during backfill, so that the receiving portion 21 is placed in the rain pit 1 more stably, on the other hand, the embedded portion 222a extends outward to have a certain transverse length, and after the backfill soil is covered on the embedded portion 222a, a certain space can be formed at the side opening 23, so that sand is prevented from entering the receiving portion 21. In addition, in order to observe the water accumulation in the receiving portion 21, the inclined portion 222 is at least partially made of a transparent material, so that convenience is improved during use.

The isolation part 25 is arranged at the side opening 23 to seal the inner side and the outer side of the side opening 23 relatively, the isolation part 25 can prevent external soil from entering the bearing part 21, meanwhile, the isolation part 25 has certain water permeability, condensation water on the inclined part 222 can flow into the external soil, a plurality of support rods 24 are arranged on the long side direction of the bearing part 21 to mount the isolation part 25, in the actual operation process, the isolation part 25 can be divided into a plurality of uniform size, the mounting is carried out between two adjacent support rods 24, the replacement and maintenance of the isolation part 25 are more convenient, and meanwhile, the installation of the isolation part 25 through the plurality of support rods 24 can effectively improve the whole support strength of the isolation part 25.

In addition, a plurality of diversion portions 222b are arranged on the inner side wall of the inclined portion 222, steam condenses into water drops on the lower end face of the inclined portion 222, the water drops flow along the diversion portions 222b to the side openings 23, the diversion portions 222b can concentrate and divert the condensed water to promote movement of the condensed water, and meanwhile, a small water storage space is formed between the baffle portion 213 on the end portion of the receiving portion 21 and the isolation portion 25, so that water can permeate to the outer side of the isolation portion 25, and the effect of soil wetting is promoted.

In order to increase the evaporation effect of the water body in the receiving portion 21, the receiving portion 21 is configured to have an inverted trapezoid structure with a large opening and a small bottom, so that the evaporation area of the water body can be increased as much as possible, and meanwhile, the inclined portion 222 is supported by the plurality of reinforcing frames 212 in the receiving portion 21, so that the overall strength of the cover portion 22 can be ensured even when the designed length of the receiving portion 21 is relatively long. In addition, the plurality of reinforcing plates 211 outside the receiving portion 21 can secure stability of the position of the receiving portion 21 in the rain pit 1 in addition to reinforcing the overall strength of the receiving portion 21.

The rain accumulation structure 3 is configured as a foldable shielding structure, and can be folded in windy weather, so that the problem that the rain accumulation structure 3 is easy to damage in windy weather is avoided, specifically, two first vertical rods 311 are mounted on the inner side, two second vertical rods 312 are mounted on the outer side, the two second vertical rods 312 are higher, after the shielding cloth 32 is fully unfolded on two cross rods 313, a diversion structure as shown in fig. 1 is formed between the second vertical rods 312 and the first vertical rods 311, and the shielding cloth 32 is fully unfolded on the two cross rods 313 under the condition of no wind or breeze, then the two transverse ends of the shielding cloth 32 are fixed on the first vertical rods 311 and the second vertical rods 312, and the shielding cloth 32 is folded in windy weather, so that the winded area is effectively reduced, the damage is prevented, and the sliding buckle 321 is arranged on the shielding cloth 32 to be connected with the cross rods 313, so that the service life of the shielding cloth 32 is prolonged.

The two ends of the cross bar 313 are fixedly mounted between the corresponding two first vertical bars 311 and the corresponding two second vertical bars 312 by nuts 33, and the cross bar 313 can be detached, so that maintenance, replacement, etc. of the shade cloth 32 can be performed.

In order to make the water on the shielding cloth 32 flow to the concave part 221 as much as possible, an arc-shaped flow guide plate 34 connected with two first vertical rods 311 is arranged at the bottom end of the shielding cloth 32, and the rainwater flows from the bottom end of the shielding cloth 32 to the arc-shaped flow guide plate 34 and then flows from the arc-shaped flow guide plate 34 to the concave part 221, so that the rainwater can be sufficiently collected.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. Water conservation ponding rain structure based on tobacco is planted, its characterized in that includes ponding rain hole, still includes:

The water storage structure comprises a bearing part and a cover part, wherein an opening of the bearing part is upwards arranged in the rain accumulation pit, the cover part is arranged at the opening of the bearing part, a plurality of rain accumulation holes are formed in the cover part along the length direction of the cover part so as to be communicated with the inner side and the outer side of the bearing part, a supporting part is arranged at the upper end of the bearing part, and the cover part is arranged on the supporting part so as to form a side opening between the cover part and the long side end surface of the bearing part correspondingly; and

The rain accumulation structure is arranged above the cover cap part and used for guiding rainwater to flow to the plurality of rain accumulation holes.

2. The water-saving rain accumulation structure based on tobacco planting according to claim 1, wherein the supporting portion includes two mounting plates, the two mounting plates are respectively provided on both end portions in the width direction of the receiving portion, and upper end faces of the two mounting plates are provided corresponding to the shape of the cover portion.

3. The water-saving rain accumulation structure based on tobacco planting according to claim 2, wherein the cover portion comprises a concave portion and two inclined portions, the plurality of rain accumulation holes are uniformly arranged at the lowest position of the concave portion along the length direction of the cover portion, one ends of the two inclined portions are respectively connected to two arc-shaped ends of the concave portion, the two inclined portions and two ends of the concave portion are respectively mounted on the two mounting plates, so that the concave portion is arranged right above an inner cavity of the receiving portion, and the inclined direction of the inclined portion gradually inclines from the middle portion of the receiving portion to the long edge portion of the receiving portion to the bottom surface of the receiving portion.

4. A water conservation rain construction based on tobacco planting as claimed in claim 3 wherein the downwardly inclined end of the inclined portion extends outwardly from the long side wall of the receiving portion to form a pre-buried portion; and/or the number of the groups of groups,

The two inclined parts are at least partially transparent.

5. A water-saving rain accumulation structure based on tobacco planting as set forth in claim 3, wherein a plurality of support bars are provided at the side openings corresponding to the long side ends of the receiving portion, the upper ends of the plurality of support bars are connected to the inclined portion, and a partition portion is provided on the support bars, the partition portion allowing water to move on both sides of the partition portion.

6. The water-saving rain accumulation structure based on tobacco planting according to claim 3, wherein a plurality of diversion parts are arranged on one side of the inclined part corresponding to the bearing part, and the diversion parts are all arranged along the width direction of the inclined part; and/or the number of the groups of groups,

The long edge end of the receiving part extends outwards along the inner side of the receiving part to form a baffle plate part.

7. The water-saving rain accumulation structure based on tobacco planting according to claim 3, wherein the receiving part is arranged in an inverted trapezoid shape, the cross-sectional area of the receiving part gradually increases from the bottom surface of the receiving part towards the opening direction of the receiving part, a reinforcing frame is arranged on the bottom surface of the receiving part, and the upper ends of the reinforcing frames are respectively connected with the two inclined parts; and/or the number of the groups of groups,

The outer side wall of the bearing part is provided with a plurality of reinforcing plates fixedly connected with the bearing part.

8. The tobacco planting-based water-saving rain accumulation structure of claim 4, wherein the rain accumulation structure comprises:

The mounting piece is provided with two first vertical rods, two second vertical rods and two cross rods, wherein the two second vertical rods are higher than the two first vertical rods, the two first vertical rods are mounted at the joint of the concave part and the inclined part along the length direction of the cover part, the two second vertical rods are mounted on the upper end surface of the embedded part corresponding to the two first vertical rods, and the two cross rods are mounted between the corresponding two vertical rods respectively; and

The cloth shade comprises a cloth shade, wherein a plurality of slide buckles are arranged at the two end parts of the cloth shade, and the slide buckles at the two end parts of the cloth shade are respectively and slidably arranged between the two cross bars.

9. The water-saving rain accumulation structure based on tobacco planting according to claim 8, wherein both ends of the cross bar are provided with threads, and the ends thereof are fixedly mounted on the vertical bar by nuts.

10. The water-saving rain accumulation structure based on tobacco planting according to claim 9, wherein an arc-shaped guide plate is arranged between the two first vertical rods.