CN217523432U - Edible fungus double-sided arched shed with intelligent control equipment - Google Patents

Abstract

The utility model relates to the technical field of edible fungus greenhouses, in particular to an edible fungus double-sided arched shed with intelligent control equipment, which comprises an arched shed body, wherein an annular water pipe which is connected end to end is arranged in the arched shed body, two water inlet pipes are arranged on the annular water pipe, the arched shed also comprises an irrigation hose of which one end is connected with the annular water pipe, and the other end of the irrigation hose is commonly connected with a connecting rod; the connecting points of the same ends of the two connecting pipes and the annular water pipe are respectively positioned at the two ends of the water inlet pipe; the upper end part of the connecting pipe is connected with a plurality of atomizing pipes; and valves for controlling the water flow circulation and closing in the annular water pipe and the connecting pipe are arranged on the annular water pipe and the connecting pipe. The utility model discloses a combine annular water pipe and connecting pipe, the simplification of preferred to the pipeline structure that the domestic fungus was irrigated for people need not to set up watering pipe and atomizing pipe alone, thereby the reduction of preferred material cost and cost of labor.

Description

Edible fungus double-faced arched shed with intelligent control equipment

Technical Field

The utility model relates to an edible mushroom arched shed technical field, specifically speaking relates to an edible mushroom double-sided arched shed with equipment is controlled to intelligence.

Background

In the process of planting in the arched shed, the edible fungi need to be irrigated in different irrigation modes in different growth periods of the edible fungi, for example, the roots of the edible fungi need to be irrigated in a germ period, and the edible fungi are irrigated in an atomized irrigation mode in a growth period. At present, the existing atomizing irrigation pipe and irrigation pipe are two independent pipelines generally, so that more material cost and labor cost are consumed when the atomizing irrigation pipe and irrigation pipe are installed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

the edible fungus double-sided arched shed with the intelligent control equipment comprises an arched shed body, wherein annular water pipes which are connected end to end are arranged in the arched shed body, two water inlet pipes are arranged on the annular water pipes, the arched shed further comprises an irrigation hose of which one end is connected with the annular water pipes, an irrigation hose water outlet is formed in the irrigation hose, and the other end of the irrigation hose is connected with a connecting rod; the connecting points of the same ends of the two connecting pipes and the annular water pipe are respectively positioned at the two ends of the water inlet pipe; the upper end part of the connecting pipe is connected with a plurality of atomizing pipes, and the atomizing pipes are provided with atomizing pipe water outlets; the annular water pipe and the connecting pipe are respectively provided with a valve for controlling the water flow in the annular water pipe and the connecting pipe to circulate and close.

The utility model discloses a combine annular water pipe and connecting pipe, the simplification of preferred to the pipeline structure that the domestic fungus was irrigated for people need not to set up watering pipe and atomizing pipe alone, thereby the reduction of preferred material cost and cost of labor.

Preferably, the number of the irrigation hoses is two, two groups of connectors respectively positioned between the two water inlet pipes are arranged on the inner wall of the annular water pipe, and one end of each irrigation hose is connected with the corresponding connector.

The utility model discloses in, through the setting of connector, realization annular water pipe that can be comparatively convenient and irrigation hose between be connected.

Preferably, the water pipe device further comprises a base which is arranged at the center of the annular water pipe and arranged along the length direction of the annular water pipe, a first placing groove for placing the connecting rod is formed in the base, and a first placing groove opening is formed in the side wall of the first placing groove.

The utility model discloses in, through the setting of base and first standing groove, can avoid irrigation hose to take place the displacement when using to the promotion of preferred this domestic fungus two-sided arched shed stability when the operation.

Preferably, the base is provided with a support rod perpendicular to the base, the support rod is provided with a rack rod with the length direction perpendicular to the height direction of the support rod, and the center of the rack rod is connected with the upper end of the support rod.

The utility model discloses in, through the setting of branch and hack lever, can be fixed in the atomizing pipe on the hack lever through instruments such as steel wires.

Preferably, both ends along its length direction on the hack lever all are connected with the bar seat, are equipped with the second standing groove that is used for placing the connecting rod on the bar seat, are equipped with the second standing groove opening on the lateral wall of second standing groove.

The utility model discloses in, through the setting of bar seat and second standing groove, can pull up irrigation hose, avoided irrigation hose to cause the interference to reaping of domestic fungus.

Preferably, the connecting rod is provided with a plurality of square through holes arranged along the length direction of the connecting rod, one end inner wall of each square through hole is provided with a connecting rod through hole, and the opposite side walls of the square through holes and the connecting rod through holes are provided with fixing rods with diameters smaller than the pipe diameters of the irrigation hoses.

The utility model discloses in, through the setting of dead lever, can be fixed in the dead lever through the tip of steel wire with irrigation hose on to realize being connected between irrigation hose and the connecting rod and to irrigation hose's shutoff.

Drawings

Fig. 1 is a schematic structural view of the arched shed body in embodiment 1.

Fig. 2 is a schematic structural view of the annular water pipe and the connection pipe in embodiment 1.

Fig. 3 is a schematic structural diagram of the base in fig. 1.

Fig. 4 is a partial structural view of the connecting rod in fig. 1.

Fig. 5 is a system diagram of the intelligent control device in embodiment 1.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It should be understood that the examples are merely illustrative and not restrictive of the present invention.

Example 1

As shown in fig. 1-4, this embodiment provides an edible mushroom double-sided arched shed with intelligent control equipment, which includes an arched shed body 100, an annular water pipe 110 connected end to end is provided in the arched shed body 100, two water inlet pipes 120 are provided on the annular water pipe 110, and an irrigation hose 130 with one end connected with the annular water pipe 110 is further included, in this embodiment, the number of the irrigation hose 130 is two, two sets of connectors 210 respectively located between the two water inlet pipes 120 are provided on the inner wall of the annular water pipe 110, and one end of the irrigation hose 130 is connected with the connectors 210. The irrigation hose 130 is provided with an irrigation hose water outlet, and the other ends of the irrigation hose 130 are connected with a connecting rod 140; in this embodiment, in order to realize the connection between the irrigation hose 130 and the connection rod 140, the connection rod 140 is provided with a plurality of square through holes 410 arranged along the length direction of the connection rod 140, the inner wall of one end of each square through hole 410 is provided with a connection rod through hole 420, and the side wall of each square through hole 410 opposite to the side wall where the connection rod through hole 420 is located is provided with a fixing rod 430 with a diameter smaller than the diameter of the irrigation hose 130. The water pipe heat exchanger further comprises a base 180 which is arranged at the center of the annular water pipe 110 and arranged along the length direction of the annular water pipe 110, a first placing groove 310 for placing the connecting rod 140 is arranged on the base 180, and a first placing groove opening 320 is arranged on the side wall of the first placing groove 310. The base 180 is provided with a supporting rod 330 perpendicular to the base 180, the supporting rod 330 is provided with a supporting rod 340 with the length direction perpendicular to the height direction of the supporting rod 330, and the center of the supporting rod 340 is connected with the upper end of the supporting rod 330. The two ends of the frame bar 340 along the length direction thereof are connected with bar-shaped seats 350, the bar-shaped seats 350 are provided with second placing grooves 360 for placing the connecting rods 140, and the side walls of the second placing grooves 360 are provided with second placing groove openings 370.

The water inlet pipe is characterized by further comprising two connecting pipes 150, wherein two ends of each connecting pipe 150 are connected with the annular water pipe 110, and connecting points of the same ends of the two connecting pipes 150 and the annular water pipe 110 are respectively positioned at two ends of the water inlet pipe 120; the upper end of the connecting pipe 150 is connected with a plurality of atomizing pipes 160, and the atomizing pipes 160 are provided with atomizing pipe water outlets; the annular water pipe 110 and the connection pipe 150 are provided with valves 170 for controlling the flow and closing of water therein, and the valves 170 in this embodiment may be manual valves or electromagnetic valves.

When the double-sided arched shed in the embodiment is used, the connecting rod 140 is pulled to straighten the irrigation hose 130, edible fungi are planted at the water outlet of the irrigation hose, in the growth process of the edible fungi, in the germ period, the valve 170 on the annular water pipe 110 is opened, the valve 170 on the connecting pipe 150 is closed, an external water source is connected with the water inlet pipe 120, so that water flows out from the water outlet of the irrigation hose to irrigate the edible fungi, when the edible fungi enter the growth period, the valve 170 on the annular water pipe 110 is closed, the valve 170 on the connecting pipe 150 is opened, and the water flow can atomize and irrigate the edible fungi.

The double-sided arched shed in the embodiment can realize irrigation on the roots of the edible fungi and can also perform atomization irrigation on the edible fungi by connecting the annular water pipe 110 with the connecting pipe 150; meanwhile, by combining the annular water pipe 110 and the connecting pipe 150, the pipeline structure for edible fungus irrigation is preferably simplified, so that people do not need to separately set an irrigation pipe and an atomization pipe, and the material cost and the labor cost are preferably reduced.

Wherein, through the setting of connector 210, can overlap the one end of irrigation hose 130 on connector 210, afterwards through the steel wire with irrigation hose 130's tip be fixed in on connector 210 to can be comparatively convenient realization annular water pipe 110 and the connection between irrigation hose 130.

Wherein, through the setting of the fixing rod 430, one end of the irrigation hose 130 can be sleeved on the fixing rod 430 through the connecting rod through hole 420, and then the end of the irrigation hose 130 is fixed on the fixing rod 430 through a steel wire, thereby realizing the connection between the irrigation hose 130 and the connecting rod 140 and the plugging of the irrigation hose 130.

Wherein, through the setting of base 180 and first standing groove 310, can place connecting rod 140 in first standing groove 310 to can straighten irrigation hose 130, avoid irrigation hose 130 to take place the displacement when using, thereby the promotion of preferred this two-sided arched shed stability when using.

Wherein, through the setting of branch 330 and hack lever 340, can be fixed in atomizing pipe 160 on hack lever 340 through instruments such as steel wires to realization that can be more convenient is to atomizing pipe 160's fixed.

Wherein, through the setting of bar seat 350 and second standing groove 360, can take out connecting rod 140 from first standing groove 310 when carrying out the reaping of domestic fungus, place connecting rod 140 in second standing groove 360 afterwards to can pull up irrigation hose 130, avoid irrigation hose 130 to cause the interference to reaping of domestic fungus.

Combine as shown in fig. 5, still can set up intelligent control equipment in the arched shed body 100 in this embodiment and realize automatic irrigation, intelligent control equipment includes the sensor unit, the sensor unit is including setting up the soil moisture sensor in the cultivation soil and setting up the air humidity sensor in cultivation soil upper end, still include the PLC the control unit with sensor unit electric connection, this moment valve 170 be the solenoid valve and with PLC the control unit electric connection, still including being used for to the sensor unit, PLC the control unit and valve 170 carry out the power supply unit of supplying power, the sensor unit is used for detecting the air humidity in cultivation soil and the canopy and with data transmission to PLC the control unit, PLC the control unit is used for carrying out the analysis to data, control valve 170 work is adjusted humidity when humidity is less than the threshold value.

Through the setting of the intelligent control equipment in this embodiment, can realize the automatic irrigation to planting domestic fungus in the arched shed body 100.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (6)

1. Edible fungus double-sided arched shed with intelligent control equipment is characterized in that: the arched shed comprises an arched shed body (100), wherein annular water pipes (110) which are connected end to end are arranged in the arched shed body (100), two water inlet pipes (120) are arranged on the annular water pipes (110), the arched shed further comprises an irrigation hose (130) of which one end is connected with the annular water pipes (110), an irrigation hose water outlet is arranged on the irrigation hose (130), and the other end of the irrigation hose (130) is commonly connected with a connecting rod (140); the water inlet pipe is characterized by also comprising two connecting pipes (150) of which both ends are connected with the annular water pipe (110), wherein the connecting points of the same ends of the two connecting pipes (150) and the annular water pipe (110) are respectively positioned at both ends of the water inlet pipe (120); the upper end part of the connecting pipe (150) is connected with a plurality of atomizing pipes (160), and the atomizing pipes (160) are provided with atomizing pipe water outlets; the annular water pipe (110) and the connecting pipe (150) are respectively provided with a valve (170) for controlling the water flow in the annular water pipe to circulate and be closed.

2. The edible fungus double-sided arched shed with intelligent control equipment according to claim 1, wherein: the number of the irrigation hoses (130) is two, two groups of connectors (210) respectively positioned between the two water inlet pipes (120) are arranged on the inner wall of the annular water pipe (110), and one end of each irrigation hose (130) is connected with each connector (210).

3. The edible fungus double-sided arched shed with the intelligent control equipment as claimed in claim 1, wherein: the water distribution device is characterized by further comprising a base (180) arranged at the center of the annular water pipe (110) and arranged along the length direction of the annular water pipe (110), a first placing groove (310) used for placing the connecting rod (140) is formed in the base (180), and a first placing groove opening (320) is formed in the side wall of the first placing groove (310).

4. An edible fungus double-sided arched shed with intelligent control equipment as claimed in claim 3, wherein: the base (180) is provided with a supporting rod (330) which is perpendicular to the base (180), the supporting rod (330) is provided with a supporting rod (340) which is perpendicular to the height direction of the supporting rod (330) in the length direction, and the center of the supporting rod (340) is connected with the upper end of the supporting rod (330).

5. An edible fungus double-sided arched shed with intelligent control equipment as claimed in claim 4, wherein: both ends of the hack lever (340) along the length direction are connected with bar-shaped seats (350), the bar-shaped seats (350) are provided with second placing grooves (360) for placing the connecting rods (140), and the side walls of the second placing grooves (360) are provided with second placing groove openings (370).

6. The edible fungus double-sided arched shed with the intelligent control equipment as claimed in claim 1, wherein: the connecting rod (140) is provided with a plurality of square through holes (410) arranged along the length direction of the connecting rod (140), one end inner wall of each square through hole (410) is provided with a connecting rod through hole (420), and opposite side walls of the square through holes (410) and the connecting rod through holes (420) are provided with fixing rods (430) with diameters smaller than the pipe diameter of the irrigation hose (130).

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