CN219124980U - Irrigation equipment based on forest management - Google Patents

Abstract

The utility model relates to the technical field of irrigation management for forest tree planting, in particular to an irrigation device based on forest tree management, which is characterized in that a main semicircular tube and an auxiliary semicircular tube which are combined in a sliding mode are arranged based on the growth characteristics of forest trees, a supporting structure is used for fixing the device, when irrigation is executed, the auxiliary semicircular tube is pulled out from the main semicircular tube to form an annular pipeline to encircle the outer side of an irrigation object, so that sprayed irrigation water is sprayed around the root of a big tree, when irrigation is not executed, the auxiliary semicircular tube is embedded into the main semicircular tube, the device has high flexibility and good storage property, waste of water resources can be effectively reduced, and the arranged sealed fixed end can seal the internal environment of the device to prevent the problem of water leakage.

Description

Irrigation equipment based on forest management

Technical Field

The utility model relates to the technical field of irrigation management for forest planting, in particular to an irrigation device based on forest management.

Background

The water is uniformly distributed by the correct irrigation mode, so that water is saved, soil erosion is reduced, and a good structure of the soil is maintained. The furrow irrigation is to ditche between planting rows and irrigate by diversion, which saves labor and effort but is comparatively waste water. The tree is irrigated by the irrigation method, which is suitable for the street tree, saves water and has low cost. The sprinkling irrigation is to use pipe to guide water to make artificial rainfall, which is suitable for large-area greenbelt lawn.

Gardens are a leisure place that people often go in daily life, have flowers, green grass, big tree etc. the inside, are close natural good places, in order to guarantee the normal growth of the inside trees in gardens, can install watering device around the big tree to for big tree provides the water source, avoid big tree wilt, however current watering device is mostly 360 degrees scope of spraying, makes the water yield of spraying too much, causes the waste of water resource.

The traditional irrigation mode has the problems of low efficiency, high cost, low water resource utilization rate and the like.

Disclosure of Invention

The utility model provides an irrigation device based on forest management, which solves the technical problems of low efficiency, high cost and low water resource utilization rate of the existing forest irrigation equipment.

In order to solve the technical problems, the utility model provides an irrigation device based on forest management, which comprises a main semicircular pipe, a secondary semicircular pipe and a supporting structure, wherein the secondary semicircular pipe is arranged in the main semicircular pipe in a sliding manner, and the supporting structure is arranged in the middle of the main semicircular pipe; one end of the main semicircular pipe is sealed to form a fixed end, the other end of the main semicircular pipe is opened to form a communicating end, the side wall of the inner ring of the main semicircular pipe is provided with a plurality of main water outlet holes, and the side wall of the outer ring of the main semicircular pipe is provided with a water inlet communicated with the water inlet pipe; an embedded end is formed by opening one end of the auxiliary semicircular tube, the embedded end is embedded into the main semicircular tube and is communicated with the communication end, a positioning end is formed by closing the other end of the main semicircular tube, and a plurality of auxiliary water outlet holes are formed in the side wall of the inner ring of the main semicircular tube;

when the forest irrigation is executed, the supporting structure is fixed on the root soil of an irrigation object, the auxiliary semicircular tube is pulled to slide out of the main semicircular tube, the auxiliary semicircular tube and the main semicircular tube form a circular ring and encircle the periphery of the irrigation object, and the water inlet tube is communicated with an external water source to start irrigating the irrigation object.

This basic scheme is based on the forest growth characteristic, sets up main semicircle pipe, the vice semicircle pipe of slip combination, utilizes bearing structure to carry out the device fixedly, when carrying out irrigation, pulls out the vice semicircle pipe from main semicircle pipe and forms annular pipeline and encircle in the irrigation object outside for the spun watering is whole to spray around the root of big tree, when not irrigating, in vice semicircle pipe inlays main semicircle pipe, the device flexibility is high, and accomodates nature is good, can effectively reduce the waste of water resource, the sealed stiff end of setting also can seal the internal environment of device, prevents the problem that water leakage from appearing.

In a further embodiment, the communication end includes an inner collar disposed on the distal end, and inner and outer seal rings mounted on the inner collar; the inner convex ring extends towards the central shaft of the main semicircular pipe to form an annular structure, and the inner sealing ring and the outer sealing ring are respectively arranged on the inner side and the outer side of the inner convex ring and respectively attached to the embedded end and the positioning end.

The interior bulge loop of detaining in this scheme adoption carries out spacingly to vice semicircle pipe, sets up interior sealing ring and outer sealing ring respectively in the interior outer both sides of bulge loop simultaneously, and further seals the internal environment of device when carrying out irrigation, prevents the problem that leaks.

In a further embodiment, the utility model further comprises a locking structure arranged on the outer side wall of the tail end of the communication end, the locking structure comprises a base, a rotating shaft and a buckle which are sequentially connected, one end of the base is fixed on the outer side wall of the tail end of the communication end, the other end of the base is provided with an installation through hole for fixing the rotating shaft, one end of the buckle is movably connected with the rotating shaft, and the other end of the buckle is inwards bent to form a buckling position to be buckled with the positioning end.

In a further embodiment, the embedded end terminates in an outer collar extending outwardly, the outer collar having a maximum outer diameter less than the inner diameter of the main semicircle and greater than the maximum diameter of the inner collar.

This scheme sets up the outer bulge loop of gomphosis with interior bulge loop, can be spacing in main semicircle pipe with vice semicircle pipe through spacing each other, and the device integration, the structure is more stable.

In a further embodiment, the positioning end is a circular sealing plate fixed at the tail end of the other end of the auxiliary semicircular tube, and the maximum diameter of the circular sealing plate is larger than the outer diameter of the main semicircular tube and is buckled with the buckle.

According to the scheme, the locking structure is arranged on the outer side wall of the tail end of the communication end, the circular sealing plate at the tail end of the auxiliary semicircular tube is matched, the auxiliary semicircular tube is locked by utilizing the turnover buckle which is received into the main semicircular tube, and the auxiliary semicircular tube can be prevented from sliding randomly.

In a further embodiment, the support structure comprises a fixed rod and at least two groups of auxiliary rods, wherein the top of the fixed rod is connected with the outer side wall of the main semicircular tube, and the bottom of the fixed rod is contracted towards the central shaft to form a tip part; one end of the auxiliary rod is fixed in the middle of the fixing rod, and the other end of the auxiliary rod is fixed on the outer side wall of the main semicircular tube.

This scheme sets up bearing structure's bottom to the center pin shrink formation point, helps the device fixed in soil, sets up the auxiliary rod of connecting between dead lever and main semicircle pipe, also can further improve bearing structure to the supporting stability of main semicircle pipe.

In a further embodiment, the fixing rod includes a sliding part, an auxiliary part and a tip part from top to bottom; the sliding part comprises a vertical sliding cavity and a sliding rod embedded in the vertical sliding cavity, two sides of the top of the sliding rod are provided with supporting lugs extending outwards, the bottom of the sliding rod is provided with a tip shrinking towards the central axis, and two side walls of the two sides of the vertical sliding cavity are provided with sliding grooves with openings from the top;

the sliding rod slides in the vertical sliding cavity, and the supporting lugs slide along the sliding grooves.

In a further embodiment, the auxiliary part comprises a horizontal sliding cavity arranged in the middle of the fixed rod and a plugboard arranged in the horizontal sliding cavity in a sliding way; the horizontal sliding cavity is a cross-shaped cavity which is axially arranged, the four ends of the horizontal sliding cavity are respectively provided with an inserting plate, and the ends, close to the 4 inserting plates, of the horizontal sliding cavity form a abdication hole corresponding to the tip;

the slide bar slides downwards, the pointed end is embedded into the abdication hole, and the plugboard is ejected out and inserted into surrounding soil.

According to the scheme, the sliding part and the auxiliary part which continuously act are arranged, radial acting force is converted into axial power, after the fixing rod is inserted into soil, the sliding rod is pushed downwards, the inserting plate is pushed out and inserted into the surrounding soil, and the stability of the device is further enhanced.

Drawings

Fig. 1 is a perspective structure diagram of an irrigation device based on forest management according to an embodiment of the present utility model;

FIG. 2 is an enlarged view of portion A of FIG. 1 provided by an embodiment of the present utility model;

FIG. 3 is a schematic view of the housing of FIG. 1 according to an embodiment of the present utility model;

FIG. 4 is a schematic side view of FIG. 1 provided by an embodiment of the present utility model;

FIG. 5 is a side cross-sectional view of the securing lever of FIG. 4 provided in accordance with an embodiment of the present utility model;

FIG. 6 is an enlarged view of portion B of FIG. 5 provided by an embodiment of the present utility model;

fig. 7 is a transverse cross-sectional view of the securing lever of fig. 4 provided in accordance with an embodiment of the present utility model.

Wherein: a main semicircular pipe 1, a fixed end 11, a communicating end 12 and a main water outlet hole 13; a secondary semicircular tube 2, an embedded end 21, a positioning end 22 and a secondary water outlet hole 23; a support structure 3, a fixing rod 31, an auxiliary rod 32; a locking structure 4, a base 41, a rotating shaft 42 and a buckle 43; a sliding part 5, a vertical sliding cavity 51, a sliding groove 52, a sliding rod 53 and a supporting lug 54; an auxiliary part 6, a horizontal cavity 61, a plugboard 62 and a relief hole 63; a tip 7 and a water inlet pipe 8.

An inner convex ring a, an inner sealing ring b and an outer sealing ring c.

Detailed Description

The following examples are given for the purpose of illustration only and are not to be construed as limiting the utility model, including the drawings for reference and description only, and are not to be construed as limiting the scope of the utility model as many variations thereof are possible without departing from the spirit and scope of the utility model.

As shown in FIG. 1, in the embodiment, the irrigation device based on forest management provided by the embodiment of the utility model comprises a main semicircular tube 1, a secondary semicircular tube 2 which is slidably arranged in the main semicircular tube 1, and a supporting structure 3 which is arranged in the middle of the main semicircular tube 1; one end of the main semicircular tube 1 is sealed to form a fixed end 11, the other end is opened to form a communicating end 12, the side wall of the inner ring of the main semicircular tube is provided with a plurality of main water outlet holes 13, and the side wall of the outer ring of the main semicircular tube is provided with a water inlet communicated with the water inlet tube 8; one end of the auxiliary semicircular tube 2 is opened to form an embedded end 21, the embedded end 21 is embedded into the main semicircular tube 1 and is communicated with the communicating end 12, the other end is closed to form a positioning end 22, and the side wall of the inner ring of the positioning end is provided with a plurality of auxiliary water outlet holes 23;

when the forest irrigation is executed, the supporting structure 3 is fixed on the root soil of an irrigation object, the auxiliary semicircular tube 2 is pulled to slide out of the main semicircular tube 1, the auxiliary semicircular tube 2 and the main semicircular tube 1 form a circular ring and encircle the periphery of the irrigation object, and the water inlet tube 8 is communicated with an external water source to start irrigation of the irrigation object.

Wherein the main water outlet 13 and the auxiliary water outlet 23 are distributed at equal intervals.

In the present embodiment, the communication end 12 includes an inner convex ring a provided at the tip, and an inner seal ring b and an outer seal ring c mounted on the inner convex ring a; the inner convex ring a extends towards the central shaft of the main semicircular tube 1 to form an annular structure, and the inner sealing ring b and the outer sealing ring c are respectively arranged on the inner side and the outer side of the inner convex ring a and respectively attached to the embedded end 21 and the positioning end 22.

The inner convex ring a of the inner buckle is adopted to limit the auxiliary semicircular tube 2, meanwhile, the inner sealing ring b and the outer sealing ring c are respectively arranged on the inner side and the outer side of the inner convex ring a, and further the inner environment of the device during irrigation is sealed, so that the problem of water leakage is prevented.

In this embodiment, the present utility model further includes a locking structure 4 mounted on the outer side wall of the end of the communication end 12, where the locking structure 4 includes a base 41, a rotating shaft 42, and a buckle 43 sequentially connected, one end of the base 41 is fixed on the outer side wall of the end of the communication end 12, the other end is provided with a mounting through hole for fixing the rotating shaft 42, one end of the buckle 43 is movably connected with the rotating shaft 42, and the other end is bent inwards to form a buckling position and buckled with the positioning end 22.

In this embodiment, the end of the embedded end 21 extends outwards to form an outer convex ring, and the maximum outer diameter of the outer convex ring is smaller than the inner diameter of the main semicircular tube 1 and larger than the maximum diameter of the inner convex ring a.

The outer convex ring which is embedded with the inner convex ring a is arranged in the embodiment, the auxiliary semicircular tube 2 can be limited in the main semicircular tube 1 through mutual limiting, the device is integrated, and the structure is more stable.

In this embodiment, the positioning end 22 is a circular sealing plate fixed at the end of the other end of the secondary semicircular tube 2, and the maximum diameter of the circular sealing plate is larger than the outer diameter of the primary semicircular tube 1 and is buckled with the buckle 43.

In this embodiment, the locking structure 4 is disposed on the outer side wall of the end of the communicating end 12, and is matched with the circular sealing plate on the end of the auxiliary semicircular tube 2, so that the auxiliary semicircular tube 2 is locked by using the reversible fastener 43 to be received into the main semicircular tube 1, and the auxiliary semicircular tube 2 can be prevented from sliding randomly.

In this embodiment, the support structure 3 comprises a fixing rod 31 and at least two groups of auxiliary rods 32, wherein the top of the fixing rod 31 is connected with the outer side wall of the main semicircular tube 1, and the bottom of the fixing rod is contracted towards the central axis to form a tip 7; one end of the auxiliary rod 32 is fixed at the middle part of the fixed rod 31, and the other end is fixed at the outer side wall of the main semicircular tube 1.

Preferably, two sets of auxiliary rods 32 are respectively disposed at both sides of the fixing rod 31 to form a relatively stable triangular pyramid structure.

In this embodiment, the bottom of the supporting structure 3 is set to shrink toward the central axis to form the tip 7, which is helpful for fixing the device in the soil, and the auxiliary rod 32 connected between the fixing rod 31 and the main semicircular tube 1 is provided, so that the supporting stability of the supporting structure 3 to the main semicircular tube 1 can be further improved.

In the present embodiment, the fixing lever 31 includes the sliding portion 5, the auxiliary portion 6, and the tip portion 7 from top to bottom; the sliding part 5 comprises a vertical sliding cavity 51 and a sliding rod 53 embedded in the vertical sliding cavity 51, wherein two sides of the top of the sliding rod 53 are provided with supporting lugs 54 extending outwards, the bottom of the sliding rod is provided with a tip shrinking towards the central axis, and two side walls of the two sides of the vertical sliding cavity 51 are provided with sliding grooves 52 with openings from the top;

the slide bar 53 slides in the vertical slide cavity 51 while the lugs 54 slide along the slide grooves 52.

In the present embodiment, the auxiliary portion 6 includes a horizontal cavity 61 formed in the middle of the fixing lever 31, and a socket 62 slidably provided in the horizontal cavity 61; the horizontal cavity 61 is a cross cavity axially arranged, and four ends of the horizontal cavity are respectively provided with a plugboard 62,4 plugboards 62, and one end, which is close to the plugboards 62, is provided with a abdication hole 63 corresponding to the tip;

the slide bar 53 slides down and the tips are inserted into the relief holes 63, ejecting the insert plate 62 into the surrounding soil.

Preferably, the insert plate 62 is provided as an insert plate with a pointed outer end; the insert plate 62 may be provided with a conical structure or a conical structure at one end of the outer side according to requirements, and the corresponding horizontal sliding cavity 61 may be provided with a conical cavity.

In this embodiment, the sliding portion 5 and the auxiliary portion 6 are provided to perform a continuous operation, so that a radial acting force is converted into an axial force, and after the fixing rod 31 is inserted into the soil, the sliding rod 53 is pushed down, so that the insert plate 62 is pushed out and inserted into the surrounding soil, and the stability of the device is further enhanced.

According to the embodiment of the utility model, based on the growth characteristics of trees, the main semicircular tube 1 and the auxiliary semicircular tube 2 which are combined in a sliding manner are arranged, the supporting structure 3 is utilized for device fixing, when irrigation is carried out, the auxiliary semicircular tube 2 is pulled out from the main semicircular tube 1 to form an annular pipeline to encircle the outside of an irrigation object, so that all the sprayed irrigation water is sprayed to the periphery of the root of a big tree, when irrigation is not carried out, the auxiliary semicircular tube 2 is embedded into the main semicircular tube 1, the device has high flexibility and good storage performance, the waste of water resources can be effectively reduced, and the arranged sealed fixed end 11 can also seal the internal environment of the device, so that the problem of water leakage is prevented.

The above examples are preferred embodiments of the present utility model, but the embodiments of the present utility model are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present utility model should be made in the equivalent manner, and the embodiments are included in the protection scope of the present utility model.

Claims (7)

1. Irrigation equipment based on forest management, its characterized in that: the device comprises a main semicircular tube, a secondary semicircular tube and a supporting structure, wherein the secondary semicircular tube is arranged in the main semicircular tube in a sliding manner, and the supporting structure is arranged in the middle of the main semicircular tube; one end of the main semicircular pipe is sealed to form a fixed end, the other end of the main semicircular pipe is opened to form a communicating end, the side wall of the inner ring of the main semicircular pipe is provided with a plurality of main water outlet holes, and the side wall of the outer ring of the main semicircular pipe is provided with a water inlet communicated with the water inlet pipe; an embedded end is formed by opening one end of the auxiliary semicircular tube, the embedded end is embedded into the main semicircular tube and is communicated with the communication end, a positioning end is formed by closing the other end of the main semicircular tube, and a plurality of auxiliary water outlet holes are formed in the side wall of the inner ring of the main semicircular tube;

the locking structure comprises a base, a rotating shaft and a buckle which are sequentially connected, wherein one end of the base is fixed on the outer side wall of the tail end of the communication end, the other end of the base is provided with an installation through hole for fixing the rotating shaft, one end of the buckle is movably connected with the rotating shaft, and the other end of the buckle is inwards bent to form a buckling position to be buckled with the positioning end;

when the forest irrigation is executed, the supporting structure is fixed on the root soil of an irrigation object, the auxiliary semicircular tube is pulled to slide out of the main semicircular tube, the auxiliary semicircular tube and the main semicircular tube form a circular ring and encircle the periphery of the irrigation object, and the water inlet tube is communicated with an external water source to start irrigating the irrigation object.

2. A forest management-based irrigation apparatus as in claim 1, wherein: the communication end comprises an inner convex ring arranged at the tail end, and an inner sealing ring and an outer sealing ring which are arranged on the inner convex ring; the inner convex ring extends towards the central shaft of the main semicircular pipe to form an annular structure, and the inner sealing ring and the outer sealing ring are respectively arranged on the inner side and the outer side of the inner convex ring and respectively attached to the embedded end and the positioning end.

3. A forest management-based irrigation apparatus as in claim 2, wherein: the tail end of the embedded end extends outwards to form an outer convex ring, and the maximum outer diameter of the outer convex ring is smaller than the inner diameter of the main semicircular tube and larger than the maximum diameter of the inner convex ring.

4. A forest management-based irrigation apparatus as claimed in claim 3, wherein: the locating end is a round sealing plate fixed at the tail end of the other end of the auxiliary semicircular pipe, and the maximum diameter of the round sealing plate is larger than the outer diameter of the main semicircular pipe and is buckled with the buckle.

5. A forest management-based irrigation apparatus as in claim 1, wherein: the supporting structure comprises a fixed rod and at least two groups of auxiliary rods, the top of the fixed rod is connected with the outer side wall of the main semicircular tube, and the bottom of the fixed rod contracts towards the central shaft to form a tip; one end of the auxiliary rod is fixed in the middle of the fixing rod, and the other end of the auxiliary rod is fixed on the outer side wall of the main semicircular tube.

6. A forest management-based irrigation apparatus as in claim 5, wherein: the fixed rod comprises a sliding part, an auxiliary part and a tip part from top to bottom; the sliding part comprises a vertical sliding cavity and a sliding rod embedded in the vertical sliding cavity, two sides of the top of the sliding rod are provided with supporting lugs extending outwards, the bottom of the sliding rod is provided with a tip shrinking towards the central axis, and two side walls of the two sides of the vertical sliding cavity are provided with sliding grooves with openings from the top;

the sliding rod slides in the vertical sliding cavity, and the supporting lugs slide along the sliding grooves.

7. A forest management-based irrigation apparatus as in claim 6, wherein: the auxiliary part comprises a horizontal sliding cavity arranged in the middle of the fixed rod and a plugboard arranged in the horizontal sliding cavity in a sliding manner; the horizontal sliding cavity is a cross-shaped cavity which is axially arranged, the four ends of the horizontal sliding cavity are respectively provided with an inserting plate, and the ends, close to the 4 inserting plates, of the horizontal sliding cavity form a abdication hole corresponding to the tip;

the slide bar slides downwards, the pointed end is embedded into the abdication hole, and the plugboard is ejected out and inserted into surrounding soil.

Images