A portable two-wheel translation type sprinkler

By using lightweight aluminum alloy materials and a simple structural design, the problems of large size and non-expandable nozzles in sprinkler irrigation equipment have been solved, achieving a lightweight and expandable sprinkler irrigation range, suitable for efficient sprinkler irrigation of crops.

CN224482458UActive Publication Date: 2026-07-14DALIAN JUNJIE MASCH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DALIAN JUNJIE MASCH CO LTD
Filing Date
2025-08-21
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing sprinkler irrigation equipment is bulky, heavy, and complex in structure, making it inconvenient to move and process, and the sprinkler pipes cannot expand the irrigation range.

Method used

The mobile chassis and support frame are made of lightweight aluminum alloy, and the simple structural design makes the sprinkler machine lightweight. At the same time, the design of the detachable nozzle structure can expand the sprinkler range.

Benefits of technology

It achieves lightweight and simple sprinkler irrigation equipment, making it easy to implement and expand the sprinkler irrigation range to meet the sprinkler irrigation needs of different areas.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to the technical field of sprinkling irrigation equipment, and specifically relates to a portable double-wheel translation type sprinkling machine, which comprises a rack mechanism and a sprinkling irrigation mechanism, and the rack mechanism comprises: a mobile chassis; a support frame; a U-shaped push handle; the mobile chassis and the support frame are both made of light aluminum alloy profiles; the sprinkling pipe mechanism comprises: a transverse sprinkling pipe fixed to the top of the support frame; a plurality of connecting sprinkling pipes, each of which is detachably installed at the two ends of the transverse sprinkling pipe; two plugs matched with the transverse sprinkling pipe and the connecting sprinkling pipes; a water inlet hose fixed to the transverse sprinkling pipe and provided with a manual valve; a connecting joint connected at one end to the water inlet hose and having a water supply pipe connected at the other end; the utility model is made of light materials through simple structural design, so that the equipment structure is light, simple, convenient to push and extendable, and the sprinkling irrigation range can be expanded.
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Description

Technical Field

[0001] This utility model belongs to the field of sprinkler irrigation equipment technology, specifically relating to a lightweight, two-wheeled, horizontally moving sprinkler irrigation machine. Background Technology

[0002] Agriculture is one of my country's economic sectors. During crop cultivation, sprinkler irrigation is necessary to prevent crops from withering due to lack of water. To facilitate crop irrigation, a large number of sprinkler irrigation devices have been designed in existing technologies. However, existing sprinkler irrigation devices are often bulky, heavy, and complex in structure, making them inconvenient to move, transport, and manufacture. Furthermore, their nozzles are often fixed, which cannot expand the range of sprinkler irrigation operations. To address this, we propose a lightweight, two-wheeled, horizontally moving sprinkler irrigation machine. Through a simple structural design and the use of lightweight materials, the equipment is lightweight, simple, and easy to move. At the same time, the nozzles can be extended to expand the irrigation range. Utility Model Content

[0003] The purpose of this invention is to provide a lightweight, two-wheeled, horizontally moving sprinkler irrigation machine to solve the problems existing in the background art.

[0004] To achieve the above-mentioned technical objectives, the technical solution adopted by this utility model is as follows:

[0005] A lightweight, two-wheeled, horizontally moving sprinkler includes a frame mechanism and a sprinkler mechanism. The frame mechanism includes: a movable chassis with sets of wheels mounted on both sides of the chassis; a support frame mounted on the upper side of the movable chassis; and a U-shaped push handle with its two ends fixed to both sides of the movable chassis. Both the movable chassis and the support frame are made of lightweight aluminum alloy profiles.

[0006] The nozzle mechanism includes: a transverse nozzle, which is open at both ends and fixedly mounted on the top of the support frame; a plurality of connecting nozzles, each of which is open at both ends and detachably mounted on both ends of the transverse nozzle; two plugs, which match the ends of the transverse nozzle and the ends of the connecting nozzles; a water inlet hose, which is fixedly mounted to the middle of the transverse nozzle and extends toward the U-shaped push handle, and the water inlet hose is also provided with a manual valve; and a connecting joint, which is fixedly mounted to the U-shaped push handle, one end of which is connected to the water inlet hose, and the other end of which is connected to a water supply pipe.

[0007] As a further limitation of the present invention, the mobile chassis is formed by mounting a first I-beam and two U-shaped profiles, with the two U-shaped profiles longitudinally fixed to both ends of the first I-beam, and the mobile wheel sets respectively mounted on both ends of the two U-shaped profiles longitudinally.

[0008] As a further limitation of the present utility model, the support frame includes a second I-beam and a top frame. The second I-beam is vertically fixed to the upper side of the first I-beam. Several positioning grooves are provided on both sides of the second I-beam. The higher side of the positioning groove corresponds to the side of the second I-beam. The top frame is engaged with the positioning groove.

[0009] As a further limitation of the present utility model, the top frame includes a horizontal platform, two slides and two springs. The two slides are slidably connected to the horizontal sides of the bottom of the horizontal platform. The horizontal ends of the horizontal platform are connected to the two slides through the two springs. A positioning pin that matches the positioning groove is fixed on the lower side of the slide.

[0010] As a further limitation of the technical solution of this utility model, the transverse nozzle is fixed to the surface of the transverse platform by a number of clamps.

[0011] As a further limitation of the present invention, both of the slides are also fixedly provided with positioning slide rods, which are sleeved inside the spring and slide through the cross platform.

[0012] As a further limitation of the present invention, the inner and outer sides of both ends of the transverse nozzle and the inner and outer sides of one end of each connecting nozzle are all threaded, and the other end of each connecting nozzle is provided with a threaded sleeve for connection.

[0013] As a further limitation of the present invention, the plug can be matched with the threads on the inner sides of both ends of the transverse nozzle and the threads on the inner side of the connecting nozzle.

[0014] The threaded sleeve can be matched with the threads on the outer sides of both ends of the transverse nozzle and the threads on the outer side of the connecting nozzle.

[0015] The sprinkler irrigation machine proposed in this utility model has a simple structural design and is made of lightweight materials, making the equipment lightweight, simple and easy to implement. At the same time, the spray pipe can be extended to expand the irrigation range. Attached Figure Description

[0016] This utility model can be further illustrated by the non-limiting embodiments given in the accompanying drawings.

[0017] Figure 1 This is a schematic diagram of the main structure of the present utility model. Figure 1 ;

[0018] Figure 2 for Figure 1 Enlarged schematic diagram of the structure at point A;

[0019] Figure 3 for Figure 1 Enlarged schematic diagram of the structure at point B;

[0020] Figure 4 This is a schematic diagram of the main structure of the present utility model. Figure 2 ;

[0021] Figure 5 This is a schematic diagram of the connection structure of the transverse nozzle and the connecting nozzle of this utility model;

[0022] The symbols for the main components are explained below:

[0023] Frame mechanism 1, mobile chassis 11, mobile wheel set 111, first I-beam profile 112, U-shaped profile 113, support frame 12, second I-beam profile 121, positioning inclined groove 1211, top frame 122, cross platform 1221, slide 1222, spring 1223, positioning pin 1224, clamp 1225, positioning slide rod 1226, U-shaped push handle 13, sprinkler mechanism 2, horizontal spray pipe 21, connecting spray pipe 22, threaded sleeve 221, plug 23, water inlet hose 24, manual valve 241, connecting joint 25, water supply pipe 251. Detailed Implementation

[0024] To enable those skilled in the art to better understand this utility model, the technical solution of this utility model will be further described below in conjunction with the accompanying drawings and embodiments.

[0025] Example:

[0026] like Figures 1 to 5 The illustration shows a lightweight, two-wheeled, horizontally moving sprinkler, including a frame mechanism 1 and a sprinkler mechanism 2. The frame mechanism 1 includes: a movable chassis 11, with movable wheel sets 111 mounted on both sides of the movable chassis 11; a support frame 12 mounted on the upper side of the movable chassis 11; and a U-shaped push handle 13, with both ends of the U-shaped push handle 13 fixed to both sides of the movable chassis 11. Both the movable chassis 11 and the support frame 12 are made of lightweight aluminum alloy profiles. As can be seen from the above structure, the sprinkler in this embodiment is used by manually holding the U-shaped push handle 13 to push it, thereby driving the movable chassis 11 to move using the movable wheel sets 111 mounted on it, thus moving the entire device. Furthermore, since the movable chassis 11 and the support frame 12 are made of lightweight aluminum alloy profiles, their weight can be greatly reduced, making the device lighter and easier to move.

[0027] The nozzle mechanism 2 includes: a transverse nozzle 21, open at both ends and fixed to the top of the support frame 12; several connecting nozzles 22, each open at both ends and detachably installed at both ends of the transverse nozzle 21; two plugs 23, matching the ends of the transverse nozzle 21 and the ends of the connecting nozzles 22; a water inlet hose 24, fixed to the middle of the transverse nozzle 21 and extending towards the U-shaped push handle 13, the water inlet hose 24 also equipped with a manual valve 241; and a connecting joint 25, fixed to the U-shaped push handle 13, one end of the connecting joint 25 connected to the water inlet hose 24, connecting... The other end of the connector 25 is connected to a water supply pipe 251. As can be seen from the above structure, the sprinkler irrigation method adopted by the sprinkler irrigation machine in this embodiment is to connect the water supply pipe 251 to the connector 25, so that the external water source can enter the water inlet hose 24 from the water supply pipe 251. The manual valve 241 of the water inlet hose 24 is used to turn the water source on and off. When the water enters from the water inlet hose 24, it can be sprayed out through the horizontal spray pipe 21 and multiple connecting spray pipes 22 at both ends to irrigate the crops. According to the above principle, it can be predicted that the horizontal spray pipe 21 and the connecting spray pipes 22 are equipped with sprinkler heads for irrigation or have holes for irrigation.

[0028] The specific usage process of this embodiment is as follows:

[0029] ① Move the frame mechanism 1 between two adjacent rows of crops. According to the required irrigation area, add connecting nozzles 22 to both ends of the transverse nozzle 21 as needed to achieve the required irrigation range. Finally, seal the ends of the connecting nozzles 22 at both ends with plugs 23. If it is not necessary to add connecting nozzles 22, simply seal both ends of the transverse nozzle 21 with plugs 23. It should be noted that in order to ensure the stability of the overall center of gravity of the frame mechanism 1, the number of connecting nozzles 22 added to both ends of the transverse nozzle 21 should be consistent.

[0030] ② Connect the water supply pipe 251 to the connecting joint 25. In this embodiment, the water supply pipe 251 is used to connect to the external water source equipment. The external water source equipment can be a mobile water tank and water pump or a fixed water tank and water pump. The difference is that if it is a mobile water tank and water pump, then a longer water supply pipe 251 is not required.

[0031] ③ The sprinkler machine is pushed manually, and the manual valve 241 of the water inlet hose 24 is opened at the same time. Water is sprayed out through the horizontal spray pipe 21 and the connecting spray pipes 22 installed at both ends (if connecting spray pipes 22 are installed), thereby irrigating crops over a large area.

[0032] As a structural description of the mobile chassis 11 in this embodiment, as follows Figure 1 and Figure 4As shown, the mobile chassis 11 is formed by mounting a first I-beam 112 and two U-shaped profiles 113. The two U-shaped profiles 113 are longitudinally fixed to both ends of the first I-beam 112, and the mobile wheel sets 111 are respectively mounted on both ends of the two U-shaped profiles 113. This structure is simple and easy to process. It can be installed and fixed by welding or bolting. The illustration in this embodiment shows bolting.

[0033] As a structural description of the support frame 12 in this embodiment, as follows Figure 3 As shown, the support frame 12 includes a second I-beam 121 and a top frame 122. The second I-beam 121 is vertically fixed to the upper side of the first I-beam 112. Several positioning grooves 1211 are provided on both sides of the second I-beam 121. The higher side of the positioning groove 1211 corresponds to the side of the second I-beam 121. The top frame 122 is engaged with the positioning groove 1211.

[0034] The top frame 122 includes a horizontal platform 1221, two slides 1222 and two springs 1223. The two slides 1222 are slidably connected to the bottom horizontal sides of the horizontal platform 1221. The horizontal ends of the horizontal platform 1221 are connected to the two slides 1222 by the two springs 1223. The lower side of the slides 1222 is fixed with a positioning pin 1224 that matches the positioning groove 1211.

[0035] To accommodate irrigation of crops at different heights, the support frame 12 is designed to be height-adjustable. Adjustment can be performed as follows: First, use both hands to pull the two slides 1222 laterally apart, compressing the spring 1223. Then, align the positioning pins 1224 on the lower side of the two slides 1222 with the positioning grooves 1211 on both sides of the second I-beam 121. Next, slowly release the force with both hands. The rebound of the spring 1223 causes the positioning pins 1224 to engage with the positioning grooves 1211, thus completing the height adjustment. The higher side of the positioning grooves 1211 corresponds to the side of the second I-beam 121, preventing the positioning pins 1224 from loosening and slipping out.

[0036] As a further explanation of other structures in this embodiment, such as Figure 3 As shown, the transverse nozzle 21 is fixed to the surface of the cross platform 1221 by several clamps 1225. Both slides 1222 are also fixedly provided with positioning slide rods 1226. The positioning slide rods 1226 are sleeved inside the spring 1223 and slide through the cross platform 1221. The clamps 1225 can effectively fix the transverse nozzle 21 to the upper side of the cross platform 1221. The positioning of the positioning slide rods 1226 allows the spring 1223 to be compressed and rebound along the axis, preventing the spring 1223 from bending laterally.

[0037] As an example of the connection structure between the transverse nozzle 21 and the connecting nozzle 22 in this embodiment, as follows: Figure 2 and Figure 5 As shown, threads are machined on both the inner and outer sides of the two ends of the transverse nozzle 21 and on both the inner and outer sides of one end of each connecting nozzle 22. Each connecting nozzle 22 is provided with a threaded sleeve 221 for connection at the other end.

[0038] The plug 23 can be matched with the threads on the inner side of both ends of the transverse nozzle 21 and the threads on the inner side of the connecting nozzle 22; the threaded sleeve 221 can be matched with the threads on the outer side of both ends of the transverse nozzle 21 and the threads on the outer side of the connecting nozzle 22.

[0039] This configuration allows for connection of the connecting nozzle 22 to the transverse nozzle 21 via a threaded sleeve 221 when the connecting nozzle 22 is installed. Furthermore, when another connecting nozzle 22 is installed at the end of the connecting nozzle 22, it can be threadedly connected to the end of the previous connecting nozzle 22 via a threaded sleeve 221. The threads on the inner sides of the connecting nozzle 22 and the transverse nozzle 21 are used to install the plug 23 for sealing.

[0040] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit this utility model. Any person skilled in the art can modify or alter the above embodiments without departing from the spirit and scope of this utility model. Therefore, all equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.

Claims

1. A lightweight, two-wheeled, translational sprinkler irrigation machine, comprising a frame mechanism and a sprinkler irrigation mechanism, characterized in that: The frame mechanism includes: A mobile chassis, wherein sets of wheels are mounted on both sides of the mobile chassis; A support frame, which is mounted on the upper side of the mobile chassis; The U-shaped push handle has its two ends fixed to the lateral sides of the mobile chassis, respectively. Both the mobile chassis and the support frame are made of lightweight aluminum alloy profiles; The sprinkler irrigation mechanism includes: A transverse nozzle, which is open at both ends and fixed to the top of the support frame; A plurality of connecting nozzles, each of the connecting nozzles being open at both ends and detachably mounted at both ends of the transverse nozzle; Two plugs, which are matched with both ends of the transverse nozzle and both ends of the connecting nozzle; The water inlet hose is fixed to the middle of the transverse spray pipe and extends toward the U-shaped push handle. The water inlet hose is also equipped with a manual valve. A connecting connector is installed and fixed to the U-shaped push handle. One end of the connecting connector is connected to the water inlet hose, and the other end of the connecting connector is connected to a water supply pipe.

2. The lightweight, two-wheeled, translational sprinkler irrigation machine according to claim 1, characterized in that: The mobile chassis is formed by assembling a first I-beam and two U-shaped profiles. The two U-shaped profiles are longitudinally fixed to both ends of the first I-beam, and the mobile wheel sets are respectively installed at both ends of the two U-shaped profiles.

3. A lightweight, two-wheeled, translational sprinkler irrigation machine according to claim 2, characterized in that: The support frame includes a second I-beam and a top frame. The second I-beam is vertically fixed to the upper side of the first I-beam. Several positioning grooves are provided on both sides of the second I-beam. The higher side of the positioning groove corresponds to the side of the second I-beam. The top frame is engaged with the positioning groove.

4. A lightweight, two-wheeled, translational sprinkler irrigation machine according to claim 3, characterized in that: The top frame includes a horizontal platform, two slides, and two springs. The two slides are slidably connected to the horizontal sides of the bottom of the horizontal platform. The horizontal ends of the horizontal platform are connected to the two slides through the two springs. A positioning pin that matches the positioning groove is fixed on the lower side of the slide.

5. A lightweight, two-wheeled, translational sprinkler irrigation machine according to claim 4, characterized in that: The transverse nozzle is fixed to the surface of the transverse platform by several clamps.

6. A lightweight, two-wheeled, translational sprinkler irrigation machine according to claim 4, characterized in that: Both of the carriages are also fixedly provided with positioning slide rods, which are sleeved inside the spring and slide through the cross platform.

7. A lightweight, two-wheeled, translational sprinkler irrigation machine according to claim 1, characterized in that: The inner and outer sides of both ends of the transverse nozzle and the inner and outer sides of one end of each connecting nozzle are all threaded, and the other end of each connecting nozzle is provided with a threaded sleeve for connection.

8. A lightweight, two-wheeled, translational sprinkler irrigation machine according to claim 7, characterized in that: The plug can be matched with the threads on the inner sides of both ends of the transverse nozzle and the threads on the inner side of the connecting nozzle. The threaded sleeve can be matched with the threads on the outer sides of both ends of the transverse nozzle and the threads on the outer side of the connecting nozzle.