CN219877060U - Novel fungus greenhouse drip irrigation planting frame - Google Patents

Abstract

A novel fungus greenhouse drip irrigation planting frame relates to the technical field of fungus planting and is used for solving the problems that when an existing greenhouse plant planting frame is applied to fungus planting, the space utilization rate is low and the irrigation mode is wasteful of water. Including support, planting groove and water supply assembly, the support is "eight" font structure, all have equidistant bracket that sets up on the lateral wall about the support, the planting groove is located the bracket, water supply assembly is responsible for including being responsible for and branch pipe, be responsible for and fix on the support, the one end and the being responsible for fixed connection and the intercommunication of branch pipe, the other end of branch pipe stretches into planting the inslot, the other end of branch pipe is used for connecting the drip irrigation zone, the drip irrigation zone is laid to planting the inslot. The utility model can carry out multilayer planting on fungi, increases the planting amount while reducing the number of planting frames, saves water resources by adopting a drip irrigation mode, can dissolve fertilizer in water for transportation together, saves labor cost and improves the utilization rate of the fertilizer.

Description

Novel fungus greenhouse drip irrigation planting frame

Technical Field

The utility model relates to the technical field of fungus planting, in particular to a novel fungus greenhouse drip irrigation planting frame.

Background

At present, most of greenhouse plant planting frames in the market are three-layer structures, and the sunlight irradiation of crops can be guaranteed through the structures, but the space utilization rate is low due to the fact that occupied space is large. For some plants with low illumination requirements, such as fungi, the laying cost is relatively high. The existing irrigation modes of the crop planting frames are all direct water delivery irrigation through pipelines, and the water waste condition is serious.

Disclosure of Invention

The utility model aims to provide a novel fungus greenhouse drip irrigation planting frame which is used for solving the problems of low space utilization rate and water waste in an irrigation mode when the existing greenhouse plant planting frame is applied to fungus planting.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a novel fungus class greenhouse is driped irrigation and is planted frame, includes support, planting groove and water supply assembly, the support is "eight" font structure, all have equidistant bracket that sets up on the lateral wall about the support, it is located the bracket to plant the groove, water supply assembly is responsible for and branch pipe including being responsible for, be responsible for and fix on the support, the one end and the being responsible for fixed connection and the intercommunication of branch pipe, the other end of branch pipe stretches into planting inslot, the other end of branch pipe is used for connecting the drip irrigation zone, the drip irrigation zone is laid to at planting inslot.

Further, the support comprises two left and right inclined supporting rods, and the inclined supporting rods are fixedly connected together through a transverse supporting rod.

Further, the other end of the branch pipe penetrates through the bottom of the planting groove from bottom to top and then stretches into the planting groove.

Further, the support includes two diagonal braces that set up about, two hinged joint between the upper end of diagonal brace, hinged joint is connected with the one end of connecting plate to the lower extreme of diagonal brace, two hinged joint is passed through to the other end of connecting plate, and two have locking component between the other end of connecting plate.

Further, the locking assembly comprises a circular arc-shaped fixed locking piece and a circular arc-shaped movable locking piece, the fixed locking piece is fixed on one connecting plate, a circular arc-shaped guide rail is arranged on the other connecting plate, the guide rail and the fixed locking piece are positioned on the same circumference taking the hinge shaft as the center of a circle, the movable locking piece is in sliding connection with the guide rail, and one end of the movable locking piece extends into the fixed locking piece to realize locking fixation of the two connecting plates by rotating the movable locking piece.

Further, the upper ends of the inclined supporting rods are provided with upper lug plates, and the upper lug plates at the upper ends of the two inclined supporting rods are hinged; the lower end of the inclined stay bar is provided with a lower lug plate which is hinged with one end of the connecting plate.

Further, the lower end of the bracket is provided with a roller.

Further, the number of the brackets is two, and the two inclined supporting rods of the brackets are fixedly connected through the reinforcing rods.

Further, the middle part of the bracket is fixedly connected with the bracket.

Further, the planting groove is connected with the bracket in a plug connection mode, and the plug connection direction is perpendicular to the vertical surface where the bracket is located.

The beneficial effects of the utility model are as follows: the utility model can carry out multilayer planting on the fungus, increases the planting amount while reducing the number of planting frames, and has reasonable distribution. Irrigation adopts drip irrigation, and is directed against fungus root and applied with water, and the direct effective, water economy resource can be with fertilizer dissolve in water together transportation moreover, practices thrift the cost of labor, has improved fertilizer utilization.

Drawings

FIG. 1 is a three-dimensional view of a first embodiment of the present utility model;

FIG. 2 is a second three-dimensional view of the first embodiment of the present utility model;

FIG. 3 is a front view of a first embodiment of the present utility model;

FIG. 4 is a left side view of a first embodiment of the present utility model;

FIG. 5 is a right side view of a first embodiment of the present utility model;

FIG. 6 is a top view showing a usage state according to an embodiment of the present utility model;

fig. 7 is a front view of a bracket according to a second embodiment of the present utility model;

FIG. 8 is an enlarged view of a portion of FIG. 7 at A;

FIG. 9 is a cross-sectional view of the locking assembly;

FIG. 10 is a schematic illustration of the locking assembly unlocking;

fig. 11 is a front view of a third embodiment of the present utility model;

FIG. 12 is a left side view of a fourth embodiment of the present utility model;

FIG. 13 is a left side view of a fifth embodiment of the present utility model;

in the figure: the drip irrigation device comprises a bracket 1, an inclined strut 11, a transverse strut 12, a bracket 13, an upper lug plate 14, a hinge shaft 15, a lower lug plate 16, a connecting plate 17, a reinforcing rod 18, a roller 19, a planting groove 2, a main pipe 3, a branch pipe 31, a water outlet 32, a fixed locking piece 4, a guide rail 41, a movable locking piece 42, a handle 43 and a drip irrigation tape 5.

Detailed Description

As shown in fig. 1 to 13, the present utility model includes a rack 1, a planting groove 2, and a water supply assembly, and various embodiments of the present utility model are described in detail with reference to the accompanying drawings.

Embodiment one:

as shown in fig. 1 to 5, a novel fungus greenhouse drip irrigation planting frame comprises a support 1, a planting groove and a water supply assembly, wherein the support 1 is of an splayed structure, the lower end of the support 1 is used for being fixed on the ground of a greenhouse, the support 1 comprises two left and right inclined supporting rods 11, and the two inclined supporting rods 11 are fixedly connected together through a transverse supporting rod 12. Brackets 13 are arranged on the left and right side walls of the bracket 1, namely the diagonal brace 11 at equal intervals, and the planting groove 2 is positioned on the brackets 13; the brackets 13 on the diagonal braces 11 have at least four. The water supply assembly comprises a main pipe 3 and a branch pipe 31, wherein the main pipe 3 is fixed on the support 1, the main pipe 3 is vertically arranged, the upper end of the main pipe 3 is sealed, the lower end of the main pipe 3 is open, and the lower end of the main pipe 3 is used for being connected with a water conveying pipeline. One end of the branch pipe 31 is fixedly connected and communicated with the main pipe 3, the other end of the branch pipe 31 extends into the planting groove 2, specifically, the other end of the branch pipe 31 is a water outlet 32, and the water outlet 32 penetrates through the bottom of the planting groove 2 from bottom to top and then extends into the planting groove 2. As shown in fig. 6, the other end of the branch pipe 31 is used to connect with the drip tape 5, and the drip tape 5 is laid in the planting groove 2 and above the fungus culture medium.

When in use, as shown in fig. 6, the bracket 1 is placed on the ground of a greenhouse and the bracket 1 is fixed, fungus to be planted is placed in the planting groove 2, and then the drip irrigation tape 5 is paved. When drip irrigation is needed, the lower end of the main pipe 3 is connected with the water delivery pipeline.

According to the drip irrigation planting frame, more than four layers of brackets 13 are arranged on the support 1, so that the planting density of fungus is ensured, and the reasonable utilization of space can be realized on the premise of ensuring the normal growth of the fungus. Through setting up water supply assembly on support 1 to drip irrigation the form and apply water to the fungus class, can realize avoiding extravagant to the rational utilization of water. The water supply unit can supply water to the drip tape 5 and water and fertilizer to the drip tape 5.

Embodiment two:

as shown in fig. 7, the second embodiment is different from the first embodiment in that the structure of the bracket 1 is different. The method comprises the following steps: the bracket 1 comprises two left and right inclined supporting rods 11, the upper ends of the two inclined supporting rods 11 are hinged, and the lower ends of the inclined supporting rods 11 are hinged with one end of a connecting plate 17. As shown in fig. 5, the other ends of the two connecting plates 17 are hinged through the hinge shaft 15, a locking component is arranged between the other ends of the two connecting plates 17, and after the other ends of the two connecting plates 17 swing relatively, the included angle of the two diagonal braces 11 can be adjusted, and the two diagonal braces 11 can be fixed relatively through the locking component. The method comprises the following steps: the upper ends of the inclined supporting rods 11 are provided with upper lug plates 14, and the upper lug plates 14 at the upper ends of the two inclined supporting rods 11 are hinged; the lower end of the diagonal brace 11 is provided with a lower ear plate 16 which is hinged with one end of the connecting plate. As shown in fig. 8, the locking assembly includes a circular arc fixed locking member 4 and a circular arc movable locking member 42, the fixed locking member 4 is fixed on one of the connecting plates 17, the other connecting plate 17 is provided with a circular arc guide rail 41, the guide rail 41 and the fixed locking member 4 are located on the same circumference taking the hinge shaft 15 as a center, the movable locking member 42 is slidably connected with the guide rail 41, and the sliding direction is the circumferential direction taking the hinge shaft 15 as a center, as shown in fig. 9, one end of the movable locking member 42 extends into the fixed locking member 4 to realize locking fixation of the two connecting plates 17 by rotating the movable locking member 42. To facilitate the rotation of the movable locking member 42, as shown in fig. 8, a handle 43 is fixed to one end of the movable locking member 42. When the locking of the two connecting plates 17 needs to be released, as shown in fig. 10, the movable locking piece 42 is rotated to enable the movable locking piece 42 to move out of the fixed locking piece 4, and at this time, the included angle between the two diagonal braces 11 can be adjusted.

In the second embodiment, compared with the first embodiment, the included angle between the two diagonal braces 11 constituting the bracket 1 can be adjusted. And the setting of locking subassembly can lock fixedly to two diagonal braces 11 that are in certain contained angle range.

Embodiment III:

as shown in fig. 11, the third embodiment differs from the first embodiment in that: a roller 19 is provided at the lower end of the diagonal brace 11 of the bracket 1. The rollers 19 are provided to facilitate movement of the entire support 1.

Embodiment four:

as shown in fig. 12, the fourth embodiment differs from the first embodiment in that: the number of brackets 1 varies. The method comprises the following steps: the two brackets 1 are arranged front and back, and the diagonal braces 11 of the two brackets 1 are fixedly connected together through the reinforcing rods 18. The embodiment can support the planting groove 2 with a larger size by increasing the stability of the bracket 1.

Fifth embodiment:

as shown in fig. 13, the fifth embodiment is different from the first embodiment in that: the mounting positions of the brackets 13 on the bracket 1 are different. The middle part of the bracket 13 is fixedly connected with the inclined stay bar 11 of the bracket 1, and the center of gravity of the whole planting frame is ensured not to deviate by fixedly connecting the middle part of the bracket 13 with the inclined stay bar 11, so that the stability is improved.

In order to facilitate the installation and the disassembly of the planting groove 2 and the bracket 1, the planting groove 2 is in plug connection with the bracket 13, and the plug connection direction is perpendicular to the vertical surface of the bracket 1. The detachable assembly mode between the bracket 1 and the planting groove 2 is convenient for adjusting the position of the planting groove 2 on the bracket 13.

The utility model can carry out multilayer planting on the fungus, increases the planting amount while reducing the number of planting frames, and has reasonable distribution. Irrigation adopts drip irrigation, and is directed against fungus root and applied with water, and the direct effective, water economy resource can be with fertilizer dissolve in water together transportation moreover, practices thrift the cost of labor, has improved fertilizer utilization.

Claims (10)

1. The utility model provides a novel fungus class greenhouse is driped irrigation and is planted frame, includes support, planting groove and water supply assembly, a serial communication port, the support is "eight" font structure, all have equidistant bracket that sets up on the lateral wall about the support, it is located the bracket to plant the groove, water supply assembly is responsible for and branch pipe including being responsible for, be responsible for and fix on the support, the one end and the being responsible for fixed connection and the intercommunication of branch pipe, the other end of branch pipe stretches into planting the inslot, the other end of branch pipe is used for connecting the drip irrigation zone, the drip irrigation zone is laid to planting the inslot.

2. The novel fungus greenhouse drip irrigation planting frame according to claim 1, wherein the support comprises two left and right inclined supporting rods, and the inclined supporting rods are fixedly connected together through a transverse supporting rod.

3. The novel fungus greenhouse drip irrigation planting frame according to claim 1, wherein the other end of the branch pipe penetrates through the bottom of the planting groove from bottom to top and then stretches into the planting groove.

4. The novel fungus greenhouse drip irrigation planting frame according to claim 1, wherein the bracket comprises two diagonal braces which are arranged left and right, the upper ends of the diagonal braces are hinged, the lower ends of the diagonal braces are hinged with one ends of connecting plates, the other ends of the two connecting plates are hinged through hinge shafts, and a locking assembly is arranged between the other ends of the two connecting plates.

5. The novel fungus greenhouse drip irrigation planting frame according to claim 4, wherein the locking assembly comprises a circular arc-shaped fixed locking piece and a circular arc-shaped movable locking piece, the fixed locking piece is fixed on one of the connecting plates, the other connecting plate is provided with a circular arc-shaped guide rail, the guide rail and the fixed locking piece are located on the same circumference taking the hinge shaft as a circle center, the movable locking piece is in sliding connection with the guide rail, and one end of the movable locking piece extends into the fixed locking piece to achieve locking fixation of the two connecting plates.

6. The novel fungus greenhouse drip irrigation planting frame according to claim 5, wherein the upper ends of the inclined supporting rods are provided with upper lug plates, and the upper lug plates at the upper ends of the two inclined supporting rods are hinged; the lower end of the inclined stay bar is provided with a lower lug plate which is hinged with one end of the connecting plate.

7. The novel fungus greenhouse drip irrigation planting frame according to claim 1, wherein the lower end of the bracket is provided with rollers.

8. The novel fungus greenhouse drip irrigation planting frame according to claim 1, wherein the number of the brackets is two, and the diagonal braces of the two brackets are fixedly connected through reinforcing rods.

9. The novel fungus greenhouse drip irrigation planting frame according to claim 1, wherein the middle part of the bracket is fixedly connected with the support.

10. The novel fungus greenhouse drip irrigation planting frame according to claim 1, wherein the planting groove is in plug connection with the bracket, and the plug connection direction is perpendicular to the vertical surface where the bracket is located.