Citrus cultivation device facilitating quick irrigation

By designing a citrus cultivation device with components such as planting buckets, hoops, flat poles, diagonal braces, and water trays, the problems of large footprint, difficulty in controlling water flow speed, and resource waste of existing devices have been solved, achieving rapid irrigation and water resource recycling, and adapting to the needs of different growth stages.

CN224386302UActive Publication Date: 2026-06-23城固县果业技术指导站

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
城固县果业技术指导站
Filing Date
2025-07-22
Publication Date
2026-06-23

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    Figure CN224386302U_ABST
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Abstract

The utility model relates to citrus cultivation technical field, and disclose a citrus cultivation device convenient to quick irrigation, including planting bucket, the outer surface of planting bucket is sleeved and has the hoop, the upper surface of hoop is fixedly connected with two flat bars, the lower surface of two flat bars is connected with the inclined brace through bolt, the bottom of inclined brace is connected with the water receiving tray through bolt, the top of water receiving tray is connected with the filter screen through screw, and the both ends of flat bar are inserted with the stand, and the bottom of stand is fixedly connected with the base. The utility model discloses through starting water pump can quickly draw water tank water source, and by multiple spray heads to citrus seedling irrigation through water delivery pipe, inclined pipe, with the help of water pump power and multi -spray head design, efficient irrigation is completed, at the same time, the water receiving tray collects the redundant moisture of planting bucket seepage, and the backflow is realized to water tank through the downspout, realizes water resource recycling, reduces waste.
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Description

Technical Field

[0001] This utility model relates to the field of citrus cultivation technology, specifically to a citrus cultivation device that facilitates rapid irrigation. Background Technology

[0002] Citrus fruits, widely cultivated in tropical and subtropical regions worldwide, are rich in nutrients such as vitamin C, citric acid, and dietary fiber. They are not only a popular fresh fruit but also hold significant economic value in juice processing and jam production. Citrus trees have strict water requirements, needing adequate water supply at different growth stages. Insufficient water leads to poor fruit development and reduced quality, while excessive water can cause root rot. Therefore, scientific and reasonable irrigation is a key factor in ensuring high-quality and high-yield citrus production.

[0003] According to a search, Chinese patent document CN220986819U discloses a citrus cultivation device for easy and rapid irrigation. It uses a draining seat to collect the water flowing from the cultivation tanks, and connects adjacent cultivation tanks and the draining seat with a water-guiding telescopic pipe. This allows excess water from the draining seat to supply water to the next cultivation tank. The cultivation tanks only need to be connected to the water inlet pipe via a side-mounted inlet screw pipe for water release. Interconnection between adjacent cultivation tanks enables one-button watering, while also making full use of excess water.

[0004] However, in actual use, the aforementioned citrus cultivation device requires multiple cultivation tanks to be placed at different heights to ensure that water from one tank flows into the next. This occupies a significant amount of space. Furthermore, the water needs to be thoroughly soaked in the first tank before it can flow through the inlet pipe into the next, increasing irrigation time and making it difficult to control the water flow rate. Therefore, we propose a citrus cultivation device that facilitates rapid irrigation to solve these problems. Utility Model Content

[0005] Technical problems to be solved

[0006] In view of the shortcomings of the existing technology, this utility model provides a citrus cultivation device that is easy to irrigate quickly. It has the advantages of small footprint, full utilization of water resources and avoidance of waste, thus solving the above-mentioned technical problems.

[0007] (II) Technical Solution

[0008] To achieve the above objectives, this utility model provides the following technical solution: a citrus cultivation device for easy and rapid irrigation, comprising a planting bucket, a hoop fitted on the outer surface of the planting bucket, two flat rods fixedly connected to the upper surface of the hoop, diagonal braces bolted to the lower surfaces of the two flat rods, a water tray bolted to the bottom of the diagonal braces, a filter screen screwed to the top surface of the water tray, uprights inserted into both ends of the flat rods, a base fixedly connected to the bottom of the uprights, a water tank fixedly connected to the bottom surface of the base, a bracket fixedly connected to the inner bottom surface of the water tank, a water pump mounted on the top surface of the bracket, a water delivery pipe fixedly connected to the outlet end of the water pump, several inclined pipes fixedly connected to the outer surface of the water delivery pipe, and a nozzle threadedly connected to one end of each inclined pipe.

[0009] Preferably, the top of the water receiving tray supports the planting bucket, and two opposing flat rods are welded to the upper surface of the hoop. The two flat rods and one water receiving tray are connected by four diagonal braces around the axis of the water receiving tray via bolts.

[0010] Preferably, the suction end of the water pump is connected to a pumping pipe, and the end of the pumping pipe away from the water pump extends into the interior of the water tank.

[0011] Preferably, a T-joint is threaded onto the outer wall of the water receiving tray, and both ends of the T-joint are inserted into the drain pipe.

[0012] Preferably, multiple lugs are welded at equal intervals on the side wall of the upright, the two ends of the flat rod are bent at 90 degrees and inserted into the lugs, and both the water supply pipe and the drain pipe are flexible hoses.

[0013] Preferably, a cylinder is fixedly connected to the top of the bracket, the height of the cylinder is greater than the height of the water tank, and a suction tube is inserted into the inside of the cylinder, with one end of the suction tube connected to a peristaltic pump.

[0014] Compared with the prior art, this utility model provides a citrus cultivation device that facilitates rapid irrigation, and has the following beneficial effects:

[0015] 1. This utility model can quickly draw water from the water tank by starting the water pump, and then irrigate the citrus seedlings through the water pipe and inclined pipe with multiple nozzles. With the help of the water pump power and the multi-nozzle design, the irrigation is completed efficiently. At the same time, the water tray collects the excess water seeping out of the planting bucket and returns it to the water tank through the drain pipe, realizing the recycling and reuse of water resources and reducing waste.

[0016] 2. This utility model provides stable support for the planting bucket through the cooperation of the water receiving tray, hoop, flat rod and diagonal brace, effectively preventing shaking or tipping; moreover, the height of the planting bucket can be adjusted by the hanging ears, and the telescopic hose can also be adjusted to meet the needs of different growth stages. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural schematic diagram of the present utility model;

[0018] Figure 2 This is a front view of the present invention after the water tank has been removed;

[0019] Figure 3 This is a schematic diagram of a partial explosion disassembly of the present invention;

[0020] Figure 4 This is a schematic diagram of the internal structure of the water tank in this utility model.

[0021] The components include: 1. Planting bucket; 2. Hoop; 3. Flat rod; 4. Diagonal brace; 5. Water tray; 6. Filter screen; 7. Upright pole; 71. Hanging lug; 8. Base; 9. Water tank; 10. Support frame; 11. Water pump; 12. Water delivery pipe; 13. Inclined pipe; 14. Sprinkler head; 15. Pumping pipe; 16. T-joint; 17. Downpipe; 18. Cylinder body; 19. Suction pipe; 20. Peristaltic pump. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] Please see Figures 1-4 A citrus cultivation device for easy and rapid irrigation includes a planting bucket 1. A hoop 2 is fitted onto the outer surface of the planting bucket 1. Two flat rods 3 are fixedly connected to the upper surface of the hoop 2. A diagonal brace 4 is bolted to the lower surface of the two flat rods 3. A water receiving tray 5 is bolted to the bottom of the diagonal brace 4. A filter screen 6 is screwed to the top surface of the water receiving tray 5. Uprights 7 are inserted into both ends of the flat rods 3. A base 8 is fixedly connected to the bottom of the uprights 7. A water tank 9 is fixedly connected to the bottom surface of the base 8. A bracket 10 is fixedly connected to the bottom surface of the water tank 9. A water pump 11 is installed on the top surface of the bracket 10. A water delivery pipe 12 is fixedly connected to the outlet end of the water pump 11. Several inclined pipes 13 are fixedly connected to the outer surface of the water delivery pipe 12. A nozzle 14 is threaded to one end of the inclined pipe 13.

[0024] Specifically, the top of the water receiving tray 5 supports the planting bucket 1, and two opposing flat rods 3 are welded to the upper surface of the hoop 2. The two flat rods 3 and one water receiving tray 5 are connected by bolts to four diagonal braces 4 around the axis of the water receiving tray 5.

[0025] The advantages are that the top of the water tray 5 supports the planting bucket 1, providing a stable support base for the planting bucket 1 and facilitating the collection of excess water seeping from the planting bucket 1; the two opposing flat rods 3 welded to the upper surface of the hoop 2 can provide lateral reinforcement to the planting bucket 1, enhancing the stability of the overall structure; and the four diagonal braces 4 connecting the flat rods 3 and the water tray 5 can evenly distribute the weight of the planting bucket 1 borne by the water tray 5 onto the two flat rods 3. By setting the hoop 2 to be fastened to the outer wall of the planting bucket 1, the planting bucket 1 is placed more stably and reliably, and is not prone to shaking or tipping over.

[0026] Specifically, the suction end of the water pump 11 is connected to a water suction pipe 15, and the end of the water suction pipe 15 away from the water pump 11 extends into the interior of the water tank 9.

[0027] The advantage is that when it is necessary to irrigate the citrus seedlings in the planting bucket 1, the water pump 11 is started. The water pump 11 draws water from the water tank 9 through the water pipe 15. The water is then transported to the water delivery pipe 12 through the water outlet of the water pump 11. Several inclined pipes 13 connected to the outer surface of the water delivery pipe 12 divide the water. Finally, the water is directly irrigated to the citrus seedlings in the planting bucket 1 through the nozzle 14 at one end of the inclined pipe 13. The whole process achieves rapid water extraction and delivery with the power of the water pump 11. With the setting of multiple nozzles 14, it can efficiently irrigate the citrus seedlings in multiple planting buckets 1.

[0028] Specifically, a T-joint 16 is threaded onto the outer wall of the water receiving tray 5, and both ends of the T-joint 16 are inserted into the drain pipe 17.

[0029] The advantage is that after watering the planting bucket 1, the soil of the citrus seedlings fully absorbs the water, and the excess water will flow out through the drain hole at the bottom of the planting bucket 1 and fall into the water collection tray 5. Since a filter screen 6 is installed on the top of the water collection tray 5 to intercept the soil, the water collection tray 5 can collect the excess water seeping out of the planting bucket 1. The excess water is then directed into the drain pipe 17 through the three-way connector 16. Finally, the drain pipe 17 directly guides the excess water back into the water tank 9. This design effectively recycles the excess irrigation water that might otherwise be wasted, realizes the recycling of water resources, reduces waste caused by water loss during irrigation, and thus achieves the goal of saving water resources.

[0030] Specifically, multiple lugs 71 are welded at equal intervals on the side wall of the upright pole 7, the two ends of the flat pole 3 are bent at ninety degrees and inserted into the lugs 71, and the water supply pipe 12 and the downpipe 17 are both flexible hoses.

[0031] The advantages are that the multiple hanging ears 71 welded at equal intervals on the side wall of the upright pole 7, combined with the design of inserting the hanging ears 71 after bending the two ends of the flat pole 3, can flexibly adjust the height of the planting bucket 1 according to the growth needs of citrus seedlings, making it easy to adapt to the cultivation needs of different growth stages; the water supply pipe 12 and the downpipe 17 are made of flexible hoses, which can expand and contract synchronously with the height adjustment of the planting bucket 1, avoiding the limitation of structural adjustment due to the fixed length of the pipes; in terms of floor space, this structure achieves three-dimensional placement of the planting bucket 1 through the vertical support of the upright pole 7, without having to be laid flat like traditional devices and occupying little space, thus achieving efficient cultivation in a small space.

[0032] Specifically, a cylinder 18 is fixedly connected to the top of the bracket 10. The height of the cylinder 18 is greater than the height of the water tank 9, and a suction tube 19 is inserted into the inside of the cylinder 18. One end of the suction tube 19 is connected to a peristaltic pump 20.

[0033] The advantages are that by placing the nutrient solution inside the cylinder 18, its position above the water tank 9 effectively prevents water from flowing back into the cylinder 18, ensuring that the concentration of the nutrient solution is not affected. At the same time, the peristaltic pump 20 can precisely adjust the flow rate and speed of the nutrient solution drawn by the suction tube 19, so that the nutrient solution is accurately delivered to the water tank 9 as needed and mixed with water. Then, the water mixed with nutrient solution is delivered to the citrus seedlings in the planting bucket 1 through the water pump 11, water delivery pipe 12, inclined pipe 13 and nozzle 14. This design not only achieves uniform mixing of nutrient solution and water, ensuring that the seedlings can stably absorb nutrients, but also avoids waste of nutrient solution or damage to the seedlings due to excessive addition through precise control.

[0034] When using the plant, first, according to the growth stage of the citrus seedlings, select the appropriate hanging ears 71 at the appropriate height on the upright pole 7. Insert the bent ends of the flat pole 3 into the hanging ears 71, adjust the height of the planting bucket 1, and place the planting bucket 1 stably on the water receiving tray 5. Tighten the hoop 2 around the outer wall of the planting bucket 1 to enhance stability. Normally, add an appropriate amount of clean water to the water tank 9. If nutrient solution needs to be added, put the nutrient solution into the cylinder 18, and adjust the flow rate and speed of the nutrient solution drawn by the suction tube 19 using the peristaltic pump 20. Nutrient solution is precisely injected into water tank 9 and mixed with water. When irrigation is needed, water pump 11 is started. Water pump 11 draws the mixed water (or clean water) from water tank 9 through water pipe 15, and delivers it to nozzle 14 through water pipe 12 and inclined pipe 13. Sprinkler 14 irrigates the citrus seedlings in planting bucket 1. During irrigation, excess water seeping from planting bucket 1 falls into water collection tray 5, is filtered by filter screen 6, and enters downpipe 17 through three-way connector 16, and finally flows back to water tank 9 to realize water resource recycling.

[0035] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A citrus cultivation device for facilitating quick irrigation comprising a planting barrel (1), characterized in that: The outer surface of the planting barrel (1) is sleeved with a hoop (2), the upper surface of the hoop (2) is fixedly connected with two flat rods (3), the lower surfaces of the two flat rods (3) are connected with inclined braces (4) through bolts, the bottom of the inclined brace (4) is connected with a water collecting disc (5) through a bolt, the top surface of the water collecting disc (5) is connected with a filter screen (6) through a screw, both ends of the flat rod (3) are inserted with a vertical rod (7), the bottom of the vertical rod (7) is fixedly connected with a base (8), the bottom surface of the base (8) is fixedly connected with a water tank (9), the inner bottom surface of the water tank (9) is fixedly connected with a support (10), the top surface of the support (10) is installed with a water pump (11), the water outlet end of the water pump (11) is fixedly connected with a water delivery pipe (12), the outer surface of the water delivery pipe (12) is fixedly connected with a plurality of inclined pipes (13), one end of the inclined pipe (13) is threadedly connected with a spray head (14).

2. A citrus cultivation device for facilitating quick irrigation as claimed in claim 1 wherein: The top of the water collecting disc (5) holds the planting barrel (1), the upper surface of the hoop (2) is welded with two flat rods (3) that are opposite to each other, and four inclined braces (4) are connected between the two flat rods (3) and the water collecting disc (5) around the axial direction of the water collecting disc (5) through bolts.

3. A citrus cultivation device for facilitating quick irrigation as claimed in claim 1 wherein: The water suction end of the water pump (11) is connected with a water suction pipe (15), one end of the water suction pipe (15) away from the water pump (11) extends into the inside of the water tank (9).

4. A citrus growing device for facilitating quick irrigation as claimed in claim 1 wherein: A three-way head (16) is threadedly connected on the outer wall of the water collecting disc (5), both ends of the three-way head (16) are inserted into a downpipe (17).

5. A citrus growing device for facilitating quick irrigation as claimed in claim 4 wherein: A plurality of hanger ears (71) are welded on the side wall of the vertical rod (7) at equal intervals, both ends of the flat rod (3) are bent by 90 degrees, and both ends of the flat rod (3) are inserted into the hanger ear (71), and the water delivery pipe (12) and the downpipe (17) are both telescopic hoses.

6. A citrus growing device for facilitating quick irrigation as claimed in claim 1 wherein: A cylinder (18) is fixedly connected to the top of the support (10), the height of the cylinder (18) is greater than the height of the water tank (9), and a suction pipe (19) is inserted into the inside of the cylinder (18), one end of the suction pipe (19) is connected with a peristaltic pump (20).