CN210987522U - Hibiscus syriacus is planted and is used quantitative watering device - Google Patents

Abstract

The utility model discloses a hibiscus flower is planted and is used quantitative watering device, including storage water tank, transfer pipe, working plate, balancing weight and set nut, storage water tank bottom avris welded fastening has the transfer pipe, fly leaf bottom avris and control gear interconnect, the wash port has all been seted up on control gear and the fixed plate, storage water tank bottom platelike structure welded fastening is on the base plate, and base plate edge welded fastening has the stop lever to install the axis on the base plate, the working plate both ends are fixed with respectively and hold box and screw thread post, and the screw thread post runs through the balancing weight to set nut is installed at screw thread post top. This hibiscus flower is planted and is used quantitative watering device adopts neotype structural design for this device can carry out intermittent type nature's watering to hibiscus flower regularly and quantitatively, and can control the interval time of intermittent type nature watering and the water yield of watering, and adaptability is higher, can guarantee the healthy growth of hibiscus flower.

Description

Hibiscus syriacus is planted and is used quantitative watering device

Technical Field

The utility model relates to a hibiscus flower planting technical field specifically is a hibiscus flower is planted and is used quantitative watering device.

Background

Hibiscus flower is a shrub fallen leaves of hibiscus genus of the malvaceae family, which is native to various provinces in China, can be planted as a vegetable, can also be planted as a gardening variety for appreciation, and is bred by seeding, cuttage and grafting, and the hibiscus flower is planted in a large range due to strong adaptability, easy growth and easy cultivation and management.

With the continuous planting of hibiscus flowers, the following problems were found in the actual planting and watering process:

the hibiscus flowers are not favored by water, so that excessive water cannot be irrigated when the hibiscus flowers are planted, but a certain amount of water is needed in the growth process, and at present, a manual irrigation mode is adopted, but the manual irrigation engineering quantity is large, the irrigation quantity cannot be accurately controlled, and the hibiscus flowers cannot be irrigated in a timed and quantitative mode.

Therefore, a quantitative irrigation device for hibiscus flower planting needs to be designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hibiscus flower is planted and is used quantitative watering device to it is big to propose artifical watering engineering volume in solving above-mentioned background art, and the volume of watering can't comparatively accurate control, can not carry out the problem of regular and quantitative watering to hibiscus flower.

In order to achieve the above object, the utility model provides a following technical scheme: a quantitative irrigation device for hibiscus flower planting comprises a water storage tank, a transfer pipe, a working plate, a balancing weight and a positioning nut, wherein the transfer pipe is fixed on the side of the bottom of the water storage tank in a welding manner, an operation threaded rod is installed on the upper portion of the inner wall of the water storage tank through the nut, the bottom end of the operation threaded rod is connected with the top end of a movable plate through a bearing, the movable plate penetrates through a stabilizing sleeve and is welded on the inner wall of the water storage tank, the side of the bottom of the movable plate is connected with a control gear, the control gear is installed on the inner bottom surface of the water storage tank through a central cylindrical shaft and is attached to a fixed plate, the fixed plate is welded and fixed at the tail end of the transfer pipe in the water storage tank, drain holes are formed in the control gear and the fixed plate, and a middle shaft is arranged on the base plate and penetrates through the center of the working plate, a containing box and a threaded column are respectively fixed at two ends of the working plate, the threaded column penetrates through the balancing weight, and a positioning nut is arranged at the top of the threaded column.

Preferably, the operation threaded rod constitutes slewing mechanism through the bearing of its bottom installation and fly leaf, and the nut of operation threaded rod mid-mounting and storage water tank are welded connection.

Preferably, the movable plate is in sliding connection with the stabilizing sleeve, the movable plate is in meshed connection with the control gear, and the control gear and the water storage tank form a rotating mechanism through a columnar shaft arranged at the center of the control gear.

Preferably, the arrangement position and density of the water drain holes on the control gear and the fixed plate are the same, and the center of the control gear is aligned with the center of the fixed plate.

Preferably, the working plate and the base plate form a rotating mechanism through a middle shaft, and the working plate is connected with a containing box which is right trapezoid in front view in a welding mode.

Preferably, the threaded column is in sliding connection with a hole formed in the center of the solid wood counterweight block, and the threaded column is vertically welded on the working plate.

Compared with the prior art, the beneficial effects of the utility model are that: the quantitative irrigation device for hibiscus flower planting adopts a novel structural design, so that the device can intermittently irrigate hibiscus flowers in a timed and quantitative manner, can control the interval time of intermittent irrigation and the irrigation water amount, has high adaptability, and can ensure the healthy growth of hibiscus flowers;

1. the structure composed of the operation threaded rod, the movable plate, the stabilizing sleeve, the control gear, the drain hole and the fixed plate can control the speed of water drained from the transfer pipe, thereby achieving the effect of controlling the irrigation interval time;

2. stop pole, axis, working plate, hold the structure that box, screw thread post, balancing weight and set nut constitute, can adjust the volume of the water of once watering.

Drawings

FIG. 1 is a schematic view of the front section structure of the water storage tank of the present invention;

FIG. 2 is a schematic view of the contact state between the working plate and the blocking rod of the present invention;

FIG. 3 is a schematic view of the cross-sectional structure of the counterweight block of the present invention;

FIG. 4 is a schematic diagram of a side view cross-sectional structure of the water storage tank of the present invention;

FIG. 5 is a schematic side view of the control gear of the present invention;

fig. 6 is a schematic side view of the fixing plate of the present invention.

In the figure: 1. a water storage tank; 2. a transfer tube; 3. operating the threaded rod; 4. a movable plate; 5. a stabilizing sleeve; 6. a control gear; 7. a drain hole; 8. a fixing plate; 9. a substrate; 10. a blocking lever; 11. a middle shaft; 12. a working plate; 13. a containing box; 14. a threaded post; 15. a balancing weight; 16. and positioning the nut.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a quantitative irrigation device for hibiscus syriacus planting comprises a water storage tank 1, a transfer pipe 2, an operating threaded rod 3, a movable plate 4, a stabilizing sleeve 5, a control gear 6, a drain hole 7, a fixed plate 8, a base plate 9, a stop rod 10, a middle shaft 11, a working plate 12, a containing box 13, a threaded column 14, a balancing weight 15 and a positioning nut 16, wherein the transfer pipe 2 is fixedly welded on the bottom edge side of the water storage tank 1, the operating threaded rod 3 is mounted on the upper portion of the inner wall of the water storage tank 1 through a nut, the bottom end of the operating threaded rod 3 is mutually connected with the top end of the movable plate 4 through a bearing, the movable plate 4 penetrates through the stabilizing sleeve 5, the stabilizing sleeve 5 is welded on the inner wall of the water storage tank 1, the bottom edge side of the movable plate 4 is mutually connected with the control gear 6, the control gear 6 is mounted on the bottom surface of the inner side of the water storage, the control gear 6 and the fixing plate 8 are both provided with a drain hole 7, the bottom end plate-shaped structure of the water storage tank 1 is welded and fixed on the base plate 9, the edge of the base plate 9 is welded and fixed with a blocking rod 10, the base plate 9 is provided with a center shaft 11, the center shaft 11 penetrates through the center of the working plate 12, two ends of the working plate 12 are respectively fixed with a containing box 13 and a threaded column 14, the threaded column 14 penetrates through a balancing weight 15, and the top of the threaded column 14 is provided with a positioning nut 16.

In the embodiment, the operating threaded rod 3 and the movable plate 4 form a rotating mechanism through a bearing arranged at the bottom end of the operating threaded rod, a nut arranged in the middle of the operating threaded rod 3 is in welded connection with the water storage tank 1, the structural design enables the operating threaded rod 3 to stably perform rotary displacement in the vertical direction under the action of the nut arranged in the middle, and the operating threaded rod 3 can push the movable plate 4 to perform displacement in the vertical direction by utilizing the rotating mechanism;

the movable plate 4 is connected with the stabilizing sleeve 5 in a sliding mode, the movable plate 4 is connected with the control gear 6 in a meshing mode, the control gear 6 and the water storage tank 1 form a rotating mechanism through a columnar shaft arranged in the center of the control gear 6, and the stabilizing sleeve 5 and a bearing arranged at the bottom end of the operating threaded rod 3 ensure that the movable plate 4 can only perform displacement in the vertical direction when pushed by the operating threaded rod 3 and can stably drive the control gear 6 to rotate by utilizing the meshing connection relation during displacement;

the arrangement positions and the density of the drain holes 7 on the control gear 6 and the fixed plate 8 are the same, and the center of the control gear 6 is aligned with the center of the fixed plate 8, the structural design enables the water flow passing through the control gear 6 and the drain holes 7 on the fixed plate 8 in unit time to be large when the control gear 6 is aligned with the drain holes 7 on the fixed plate 8, and the water flow is reduced when the control gear 6 is partially aligned and communicated with the drain holes 7 on the fixed plate 8;

the working plate 12 and the base plate 9 form a rotating mechanism through a middle shaft 11, the working plate 12 and a containing box 13 which is right trapezoid in front view shape are connected in a welding mode, the rotating mechanism is a structural basis for realizing irrigation operation, and the shape design of the containing box 13 ensures that water in the containing box 13 can be poured out smoothly for irrigation after the working plate 12 is triggered to rotate;

the hole that threaded post 14 and the balancing weight 15 center of wood material was seted up is sliding connection, and threaded post 14 welds perpendicularly on working plate 12, and foretell structural design makes adding and reducing that balancing weight 15 can be convenient.

The working principle is as follows: when the device is used, the water storage tank 1 is filled with water, one side of the device, which is provided with the containing box 13, is close to the root of the hibiscus flower to be watered, the number of the balancing weights 15 in the figure 1 is adjusted according to the amount of the water to be watered at a single time, when the amount of the water to be watered at a single time is large, the positioning nut 16 is screwed off from the threaded column 14, the new balancing weight 15 is installed on the threaded column 14, when the amount of the water to be watered at a single time is small, the existing balancing weight 15 is moved upwards to be separated from the threaded column 14, the positioning nut 16 is installed, and the positioning nut 16 extrudes the balancing weight 15 to be attached and fixed on the working plate 12;

thus, the water previously added into the water storage tank 1 enters the transfer pipe 2 through the gear 6 and the drain hole 7 arranged on the fixing plate 8 which are sequentially controlled, and continuously flows into the containing box 13 in the figure 1 from the bottom end opening of the transfer pipe 2, when the water in the added containing box 13 is heavier than the counterweight block 15, the containing box 13 presses the working plate 12 to rotate clockwise by taking the central shaft 11 as the shaft to the state shown in the figure 2, the containing box 13 inclines, the accumulated water is poured into the soil at the root of the hibiscus flower beside the hibiscus flower, the working plate 12 can only incline to the state shown in the figure 2 at most due to the blocking of the blocking rod 10, the threaded column 14 and the counterweight block 15 are ensured not to collide with the water storage tank 1 and the transfer pipe 2, the weight is reduced after the water in the containing box 13 is poured out, the working plate 12 rotates counterclockwise to reset under the action of the counterweight block 15, the transfer pipe 2 continues to convey the water into the containing box 13, and then the operations are, performing intermittent irrigation;

when the interval time of intermittent irrigation needs to be adjusted, only the operation threaded rod 3 in fig. 4 needs to be rotated, the operation threaded rod 3 rotates and moves downwards in a nut arranged at the joint of the middle part of the operation threaded rod 3 and the water storage tank 1, the movable plate 4 is pushed by a bottom end bearing to vertically move downwards, the movable plate 4 drives the control gear 6 to rotate, the control gear 6 drives the drain hole 7 on the control gear 6 to rotate and stagger with the drain hole 7 on the fixed plate 8 to a certain degree, so that the drain hole 7 on the control gear 6 is not completely aligned with the drain hole 7 on the fixed plate 8, the water quantity entering the transfer pipe 2 through the control gear 6 and the drain hole 7 arranged on the fixed plate 8 in unit time is small, the time for adding water in the containing box 13 to be heavier than the weight of the weight distribution block 15 is prolonged, the time for triggering the working plate 12 to, by controlling the overlapping area of the drain hole 7 on the control gear 6 and the drain hole 7 on the fixed plate 8, the irrigation interval time can be effectively increased and decreased, and the control effect is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a hibiscus flower is planted and is used quantitative watering device, includes storage water tank (1), transfer pipe (2), working plate (12), balancing weight (15) and set nut (16), its characterized in that: the bottom side of the water storage tank (1) is fixedly welded with a transfer pipe (2), the upper part of the inner wall of the water storage tank (1) is provided with an operation threaded rod (3) through a nut, the bottom end of the operation threaded rod (3) is connected with the top end of a movable plate (4) through a bearing, the movable plate (4) penetrates through a stabilizing sleeve (5), the stabilizing sleeve (5) is welded on the inner wall of the water storage tank (1), the bottom side of the movable plate (4) is connected with a control gear (6), the control gear (6) is arranged on the inner bottom surface of the water storage tank (1) through a central columnar shaft, the control gear (6) is attached to a fixed plate (8), the fixed plate (8) is fixedly welded at the tail end of the transfer pipe (2) positioned in the water storage tank (1), drain holes (7) are formed in the control gear (6) and the fixed plate (8), and a plate-shaped structure, and the edge of the base plate (9) is fixedly welded with a blocking rod (10), a middle shaft (11) is installed on the base plate (9), the middle shaft (11) penetrates through the center of the working plate (12), the two ends of the working plate (12) are respectively and fixedly provided with a containing box (13) and a threaded column (14), the threaded column (14) penetrates through a balancing weight (15), and a positioning nut (16) is installed at the top of the threaded column (14).

2. The quantitative irrigation device for hibiscus syriacus cultivation as claimed in claim 1, wherein: the operation threaded rod (3) and the movable plate (4) form a rotating mechanism through a bearing installed at the bottom end of the operation threaded rod, and a nut installed in the middle of the operation threaded rod (3) is connected with the water storage tank (1) in a welding mode.

3. The quantitative irrigation device for hibiscus syriacus cultivation as claimed in claim 1, wherein: the movable plate (4) is in sliding connection with the stabilizing sleeve (5), the movable plate (4) is in meshed connection with the control gear (6), and the control gear (6) and the water storage tank (1) form a rotating mechanism through a columnar shaft arranged at the center of the control gear.

4. The quantitative irrigation device for hibiscus syriacus cultivation as claimed in claim 1, wherein: the arrangement positions and the density of the drain holes (7) on the control gear (6) and the fixed plate (8) are the same, and the center of the control gear (6) is aligned with the center of the fixed plate (8).

5. The quantitative irrigation device for hibiscus syriacus cultivation as claimed in claim 1, wherein: the working plate (12) and the base plate (9) form a rotating mechanism through the middle shaft (11), and the working plate (12) is connected with a containing box (13) which is in a right trapezoid shape in front view in a welding mode.

6. The quantitative irrigation device for hibiscus syriacus cultivation as claimed in claim 1, wherein: the threaded column (14) is in sliding connection with a hole formed in the center of a solid wood counterweight block (15), and the threaded column (14) is vertically welded on the working plate (12).

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