CN112400602A - Edible fungus planting system and method for dynamically monitoring environmental humidity - Google Patents

Abstract

The invention discloses an edible mushroom planting system capable of dynamically monitoring environmental humidity and a planting method thereof. The dynamic monitoring device provided by the invention can carry out humidity detection on a plurality of areas by displacing the displacement device on the guide rail, and timely and targeted humidity compensation is given, so that the high-quality growth of edible fungi is ensured.

Description

Edible fungus planting system and method for dynamically monitoring environmental humidity

Technical Field

The invention belongs to the field of edible fungus planting, and particularly relates to an edible fungus planting system and a planting method thereof for dynamically monitoring environmental humidity.

Background

In the edible fungus planting greenhouse, the humidity in the greenhouse is generally detected and measured through a humidity sensor, but because the gas flowing performance in the greenhouse is poor, the environmental humidity in each area is different, and a large difference exists in partial areas, a plurality of areas are uniformly humidified through a humidifier, so that the rotten roots or rotten spores of fruit bodies in local edible fungus bags are easily caused, and the quality of edible fungus bodies is influenced.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the prior art, the invention provides the edible fungus planting system and the planting method thereof for dynamically monitoring the environmental humidity, which can uniformly detect the humidity of the planting environment.

The technical scheme is as follows: in order to achieve the purpose, the technical scheme of the invention is as follows:

the utility model provides an edible mushroom planting system of ambient humidity dynamic monitoring, is including planting frame, guide rail, displacement device, dynamic monitoring device and humidity compensation arrangement, the planting frame contains a plurality of layers in the vertical direction and plants the layer, each stack a plurality of fungus bags on planting the layer, and be corresponding to a plurality of it is provided with the guide rail to plant the layer, just the guide rail sets up along the horizontal direction, be provided with displacement device on the guide rail, last dynamic monitoring device and the humidity compensation arrangement of being provided with of displacement device, the ambient humidity on the dynamic monitoring device dynamic monitoring displacement route, humidity compensation arrangement carries out humidity compensation to planting the layer.

Further, dynamic monitoring device includes detection case, air sampling mechanism and humidity detection mechanism, the sample connection has been seted up at the top of detection case, corresponds the sample connection is provided with air sampling mechanism, and the air in the environment lets in the inner chamber of detection case through air sampling mechanism, be provided with humidity detection mechanism corresponding to air sampling mechanism in the inner chamber of detection case, humidity detection mechanism detects the gaseous humidity of sample.

Further, humidity detection mechanism includes the piece and the pressure sensing subassembly of absorbing water, the piece that absorbs water sets up corresponding to the sampling port, the pressure sensing subassembly sets up the below at the piece that absorbs water, just the quality of the piece that absorbs water is sensed to the pressure sensing subassembly.

The device further comprises a slewing mechanism and a relaxation mechanism, wherein the slewing mechanism is a belt-type conveying mechanism, the water absorption block is arranged on the outer belt surface of the slewing belt, the pressure sensing assembly is arranged in the inner ring of the slewing belt, the distance between the pressure sensing mechanism and the belt surface of the slewing belt is relatively and fixedly arranged in the detection box, the relaxation mechanism is correspondingly arranged on the rotating roller of the slewing mechanism, and the relaxation mechanism adjusts the distance between the rotating roller and the slewing input shaft; the rotary belt is arranged through the tightness adjustment of the relaxation mechanism, and the water absorption block is pressed on or spaced from the pressure sensing assembly through the relaxation mechanism.

Further, rotation mechanism contains four commentaries on classics rods that are the setting of rectangular array in vertical plane, is located two of upper end change the rod for the activity rod, the both ends of activity roller are rotated and are set up on the inner wall of detection case, just the detection case is equipped with movable guide slot corresponding to the both ends of activity roller are concave, the length direction perpendicular to of activity guide slot activity roller's axial setting, the activity roller is through stretching out the mechanism lift adjustment setting of relaxing.

Furthermore, the relaxation mechanism comprises a guide plate, guide columns and a connecting plate, the guide plate is arranged on the planting frame at a parallel interval in the guide rail, a guide through groove is formed in the guide plate along the length direction, the guide through groove is arranged in a fluctuating mode in the direction perpendicular to the length direction of the guide plate, one end of the connecting plate is connected to one end of the movable stick, the guide columns are arranged at the other end of the connecting plate, and the guide columns are movably arranged in the guide through groove in a penetrating mode; the guide post intermittently ascends and descends while following in the guide through groove through the displacement device.

Further, still include extrusion subassembly and dry subassembly in the detection case, the extrusion subassembly includes that a plurality of rotations set up the compression roller on the detection case wall body, the compression roller is parallel and the clearance sets up in the area face of gyration area, the piece that absorbs water is flexible material, just the piece that absorbs water removes water through the compression roller extrusion when passing through the compression roller, dry subassembly sets up at the ascending rear of extrusion subassembly in the direction of gyration, dry subassembly is dried the piece that absorbs water after the removal water.

Further, the drying assembly comprises an exhaust fan and a heating element, the exhaust fan is arranged in an inner ring of the rotary belt and is positioned below the pressure sensing device, the heating element is arranged below the exhaust fan, and a plurality of air holes are formed in the rotary belt in a penetrating manner on a belt surface corresponding to the water absorption block; the water absorption block which rotates to the bottom end of the detection box is dried through the air hole.

Furthermore, humidity compensation arrangement includes the header tank and sets up the water pump in the header tank, the play water end of water pump is provided with the atomizing spray tube, the atomizing spray tube sets up corresponding to the planting layer.

A planting method of an edible fungus planting system for dynamically monitoring environmental humidity comprises the following steps:

s1: the dynamic monitoring device and the humidity compensation device are driven by the displacement device to intermittently displace along the guide rail, the dynamic monitoring device is used for carrying out humidity detection on a plurality of measuring points, and the humidity compensation device is used for carrying out atomization and water spraying on a low-humidity area;

s2: in the displacement process of the dynamic monitoring device, the air sampling mechanism continuously introduces air in the environment onto the water absorption block in the detection box at a fixed speed within a preset time, after sampling is finished, the mass of the water absorption block after water absorption is increased, the mass is detected through the pressure sensing assembly, the mass is compared with the mass before water absorption, the weight gain mass is calculated, and the air humidity of the area is reflected;

s3: when the water absorption of the water absorption block is saturated to a preset degree, the rotary belt is tensioned through the relaxation mechanism, the water absorption block is separated from the pressure sensing assembly, and the water absorption block is transferred to the bottom of the detection box through the rotary belt and is recycled or replaced after being dried.

Has the advantages that: the dynamic monitoring device provided by the invention can carry out humidity detection on a plurality of areas by displacing the displacement device on the guide rail, and timely and targeted humidity compensation is given, so that the high-quality growth of edible fungi is ensured.

Drawings

FIG. 1 is a schematic perspective view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the structure of part A of the present invention;

FIG. 3 is a schematic half-sectional view of a dynamic monitoring device and humidity compensation device of the present invention;

FIG. 4 is a schematic perspective view of the displacement device, the dynamic monitoring device and the humidity compensation device of the present invention;

FIG. 5 is an enlarged view of the structure of the portion B of the present invention;

FIG. 6 is a schematic perspective view of the rotation belt of the present invention in a relaxed state;

FIG. 7 is a half-sectional view showing the overall structure of the rotary belt of the present invention in a relaxed state.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in attached figure 1 and attached figure 2, an edible mushroom planting system of ambient humidity dynamic monitoring, including planting frame 1, guide rail 2, displacement device 3, dynamic monitoring device 4 and humidity compensation device 5, it contains a plurality of layers in vertical to plant frame 1 and plants the layer, each it stacks a plurality of fungus bags on the layer to plant, and is corresponding to a plurality of it is provided with guide rail 2 to plant the layer, just guide rail 2 sets up along the horizontal direction, be provided with displacement device 3 on the guide rail, guide rail 2 fixes the rack on planting frame 1 for both ends, displacement device 3 is the pinion stand through motor drive, be provided with dynamic monitoring device 4 and humidity compensation device 5 on displacement device 3, the ambient humidity on the dynamic monitoring device 4 dynamic monitoring displacement route, humidity compensation device 5 carries out humidity compensation to planting the layer. The dynamic monitoring device 4 can carry out humidity detection on a plurality of areas by displacing on the guide rail through the displacement device, and can provide timely and targeted humidity compensation to ensure the high-quality growth of the edible fungi.

As shown in fig. 3 to 7, the dynamic monitoring device 4 includes a detection box 6, an air sampling mechanism and a humidity detection mechanism, the detection box 6 is a shell structure, a sampling port 7 is opened at the top of the detection box 6, the air sampling mechanism is provided corresponding to the sampling port 7, the air sampling mechanism is an air exhaust fan, air in the environment is introduced into an inner cavity of the detection box 6 through the air sampling mechanism, the humidity detection mechanism is provided in the inner cavity of the detection box 6 corresponding to the air sampling mechanism, the humidity detection mechanism detects the humidity of the sample gas, the air sampling mechanism continuously introduces the gas in the environment into the detection box at a fixed rate within a preset time period, so that the same gas volume can be reached when the gas is sampled every time, the humidity detection is more accurate, and the air near is collected through the air exhaust fan, a small range of gas flow can be disturbed, increasing the gas flow in the area around it.

Humidity detection mechanism includes water absorption block 8 and pressure sensing subassembly 9, water absorption block 8 sets up corresponding to sampling port 7, water absorption block 8 is used for absorbing the moisture of suction to the gas in detecting case 6, pressure sensing subassembly 9 sets up the below at water absorption block 9, just the quality of water absorption block 8 is inhaled in pressure sensing subassembly 9 sensing, carries out quality detection through pressure sensing subassembly 9 to carry out the comparison with the quality before absorbing water and calculate the weight-increasing quality, reflect the regional air humidity of this department.

The device is characterized by further comprising a rotary mechanism 10 and a relaxation mechanism, wherein the rotary mechanism is a belt type conveying mechanism, the water absorption block 8 is arranged on the outer belt surface of the rotary belt 11, the pressure sensing assembly 9 is arranged in the inner ring of the rotary belt 11, the interval between the pressure sensing mechanism 9 and the belt surface of the rotary belt 11 is relatively fixedly arranged in the detection box 6, the inner ring of the rotary belt 11 is provided with a partition plate 31, the partition plate 31 is fixed on the inner wall of the detection box, the pressure sensing assembly 9 is arranged on the partition plate 31, the pressure sensing assembly 9 can be a pressure sensor or a weighing assembly and the like, the relaxation mechanism is correspondingly arranged on a rotating roller 12 of the rotary mechanism, and the relaxation mechanism adjusts the interval between the rotating roller 12 and a rotation input shaft; the rotary belt 11 is arranged through the tightness adjustment of the relaxation mechanism, and the water absorption block 8 is pressed on or spaced from the pressure sensing assembly 9 through the relaxation mechanism. When the rotary belt 11 is in a loose state, the water absorption block 8 is pressed on the pressure sensing assembly 9, when the rotary belt 11 is tensioned through the tensioning mechanism, the water absorption block 8 is separated from the pressure sensing assembly, the water absorption block 8 can be transposed through rotation of the rotary belt, the water absorption block 8 is transferred to the bottom of the detection box 6 through the rotary belt, and the water absorption block is recycled or replaced after being dried.

Rotation mechanism contains four and is the commentaries on classics rod 12 that the rectangle array set up in vertical plane, and two that are located the lower extreme change the rod and rotate and set up on the detection case inner wall, are located two of upper end change rod 12 for movable rod 20, the both ends of activity roller 20 are rotated and are set up on the inner wall of detection case 6, and simultaneously detection case 6 is equipped with movable guide slot 18 corresponding to the both ends of activity roller 20 are concave, the length direction perpendicular to of activity guide slot 18 moves the axial setting of roller 20, activity roller 20 sets up through relaxation mechanism lift adjustment to be used for relaxing or tensioning revolving belt 11.

As shown in fig. 5, the movable guide groove 18 corresponding to one end of the movable roller 20 penetrates through the wall body of the detection box to form a through guide groove 17, one end of the movable roller extends out of the through guide groove, the movable roller 20 is coaxially provided with two limiting rings 19, the two limiting rings 19 are respectively arranged on the sides of the through guide groove 17, and the balance and stability of the displacement of the movable roller are ensured through the limiting rings 19.

The relaxation mechanism comprises a guide plate 13, guide posts 15 and a connecting plate 16, the guide plate 13 is arranged on the planting frame 1 in parallel at intervals to the guide rail 2, a guide through groove 14 is formed in the guide plate 13 along the length direction, the guide through groove 14 is arranged in a fluctuating manner in the direction perpendicular to the length direction of the guide plate, in the embodiment, the guide through groove 14 comprises a straight line section and a fluctuating section which are mutually spaced, the fluctuating section is of an arc-shaped section structure, a revolving belt 11 is tensioned in the straight line section, the revolving belt is loosened in the fluctuating section, one end of the connecting plate 16 is connected to one end of a movable rod 20, the other end of the connecting plate 16 is provided with the guide posts 15, and the guide posts 15 are movably arranged in the guide through groove 14 in a penetrating manner; the guide post 15 intermittently lifts and displaces in the guide through groove 14 through the displacement device 3, when the displacement reaches each bending section, the measurement point is the displacement, the connecting plate and the guide post 15 displace downwards, the two movable rollers 20 displace downwards, and when the displacement mechanism moves again, the guide post 15 displaces to the straight line section through the guide through groove 14 and tensions the rotary belt again.

Still include extrusion subassembly and dry subassembly in the detection case 6, the extrusion subassembly includes that a plurality of rotations set up compression roller 22 on the 6 wall bodies of detection case, compression roller 22 is parallel and the clearance sets up in the area face of carrousel 11, water absorption piece 8 is flexible material, like sponge piece or the superimposed cardboard of absorbent paper, just water absorption piece 8 passes through compression roller 22 extrusion dewatering when passing through compression roller 22, dry subassembly sets up at the ascending rear of extrusion subassembly in the direction of rotation, dry subassembly is dried water absorption piece 8 after the dewatering to recycle carries out.

The drying component comprises an exhaust fan 23 and a heating element 24, the exhaust fan 23 is arranged in an inner ring of the rotary belt 11, the exhaust fan 23 is positioned below the pressure sensing device 9, the heating element 24 is arranged below the exhaust fan 23, and a plurality of air holes 25 are formed in the rotary belt 11 in a penetrating manner on the belt surface corresponding to the water absorption block 8; the water absorption block 8 rotated to the bottom end of the detection box is dried through the air hole 25.

Humidity compensating device 5 includes header tank 26 and sets up water pump 27 in header tank 26, water pump 27's play water end is provided with atomizing spray tube 28, atomizing spray tube 28 is corresponding to the planting layer setting.

A planting method of an edible fungus planting system for dynamically monitoring environmental humidity comprises the following steps:

s1: the dynamic monitoring device 4 and the humidity compensation device 5 are driven by the displacement device 3 to intermittently displace along the guide rail, the dynamic monitoring device 4 is used for carrying out humidity detection on a plurality of measuring points, and the humidity compensation device 5 is used for carrying out atomization and water spraying on a low-humidity area;

s2: in the displacement process of the dynamic monitoring device 4, the air sampling mechanism continuously introduces air in the environment onto the water absorption block 8 in the detection box at a fixed rate within a preset time, after sampling is finished, the mass of the water absorption block after water absorption is increased, the mass is detected through the pressure sensing assembly 9, the mass is compared with the mass before water absorption to calculate the weight increase mass, and the air humidity of the area is reflected;

s3: when the water absorption of the water absorption block 8 is saturated to a preset degree, the rotary belt 11 is tensioned through the relaxation mechanism, the water absorption block 8 is separated from the pressure sensing assembly 9, the water absorption block 8 is transferred to the bottom of the detection box 6 through the rotary belt, and the water absorption block is recycled or replaced after being dried.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the invention and these are intended to be within the scope of the invention.

Claims (10)

1. The utility model provides an edible mushroom system of planting of environmental humidity dynamic monitoring which characterized in that: including planting frame (1), guide rail (2), displacement device (3), dynamic monitoring device (4) and humidity compensation arrangement (5), it contains a plurality of layers in vertical to plant frame (1) and plants the layer, each it stacks a plurality of fungus bags to plant on the layer, and is corresponding to a plurality of it is provided with guide rail (2) to plant the layer, just horizontal direction setting is followed in guide rail (2), be provided with displacement device (3) on the guide rail, be provided with dynamic monitoring device (4) and humidity compensation arrangement (5) on displacement device (3), the ambient humidity on the dynamic monitoring device (4) dynamic monitoring displacement route, humidity compensation arrangement (5) carry out humidity compensation to planting the layer.

2. The edible fungus planting system capable of dynamically monitoring the environmental humidity according to claim 1, wherein: dynamic monitoring device (4) are including detection case (6), air sampling mechanism and humidity detection mechanism, sample connection (7) have been seted up at the top of detection case (6), correspond sample connection (7) are provided with air sampling mechanism, and air in the environment lets in the inner chamber of detection case (6) through air sampling mechanism, be provided with humidity detection mechanism corresponding to air sampling mechanism in the inner chamber of detection case (6), humidity detection mechanism detects the gaseous humidity of sample.

3. The edible fungus planting system capable of dynamically monitoring the environmental humidity according to claim 2, wherein: humidity detection mechanism includes water absorption block (8) and pressure sensing subassembly (9), water absorption block (8) set up corresponding to sampling port (7), pressure sensing subassembly (9) set up the below at water absorption block (9), just the quality of water absorption block (8) is sensed in pressure sensing subassembly (9).

4. The edible fungus planting system capable of dynamically monitoring the environmental humidity according to claim 3, wherein: the device is characterized by further comprising a slewing mechanism (10) and a relaxation mechanism, wherein the slewing mechanism is a belt-type conveying mechanism, the water absorption block (8) is arranged on the outer belt surface of the slewing belt (11), the pressure sensing assembly (9) is arranged in the inner ring of the slewing belt (11), the distance between the pressure sensing mechanism (9) and the belt surface of the slewing belt (11) is relatively and fixedly arranged in the detection box (6), the relaxation mechanism is correspondingly arranged on a rotating roller (12) of the slewing mechanism, and the relaxation mechanism adjusts the distance between the rotating roller (12) and the slewing input shaft; the rotary belt (11) is arranged through the tightness adjustment of the relaxation mechanism, and the water absorption block (8) is pressed on or spaced from the pressure sensing assembly (9) through the relaxation mechanism.

5. The edible fungus planting system capable of dynamically monitoring the environmental humidity according to claim 4, wherein the edible fungus planting system comprises: rotation mechanism contains four commentaries on classics rod (12) that are the setting of rectangular array in vertical plane, is located two of upper end change rod (12) for activity rod (20), the both ends of activity roller (20) are rotated and are set up on the inner wall of detection case (6), just detection case (6) are equipped with movable guide slot (18) corresponding to the both ends of activity roller (20) are concave, the axial setting of the length direction perpendicular to activity roller (20) of activity guide slot (18), activity roller (20) are through relaxation mechanism lift adjustment setting.

6. The edible fungus planting system capable of dynamically monitoring the environmental humidity according to claim 5, wherein: the relaxation mechanism comprises a guide plate (13), guide columns (15) and a connecting plate (16), the guide plate (13) is arranged on the planting frame (1) in parallel at intervals to the guide rail (2), a guide through groove (14) is formed in the guide plate (13) along the length direction, the guide through groove (14) is arranged in a fluctuating mode in the direction perpendicular to the length direction of the guide plate, one end of the connecting plate (16) is connected to one end of a movable stick (20), the guide columns (15) are arranged at the other end of the connecting plate (16), and the guide columns (15) are movably arranged in the guide through groove (14) in a penetrating mode; the guide post (15) intermittently moves up and down while following in the guide through groove (14) through the displacement device (3).

7. The edible fungus planting system capable of dynamically monitoring the environmental humidity according to claim 5, wherein: still include extrusion subassembly and drying assembly in detection case (6), the extrusion subassembly includes that a plurality of rotations set up compression roller (22) on detection case (6) wall body, compression roller (22) are parallel and the setting of the area face in revolving belt (11) in the clearance, water absorption piece (8) are flexible material, just water absorption piece (8) are passed through compression roller (22) when passing through compression roller (22) and are extruded the dewatering, drying assembly sets up at the ascending rear of extrusion subassembly in the direction of rotation, drying assembly carries out the drying to water absorption piece (8) after the dewatering.

8. The edible fungus planting system capable of dynamically monitoring the environmental humidity according to claim 7, wherein: the drying assembly comprises an exhaust fan (23) and a heating element (24), the exhaust fan (23) is arranged in an inner ring of the rotary belt (11), the exhaust fan (23) is positioned below the pressure sensing device (9), the heating element (24) is arranged below the exhaust fan (23), and a plurality of air holes (25) are formed in the rotary belt (11) in a penetrating manner on the belt surface corresponding to the water absorption block (8); the water absorption block (8) which rotates to the bottom end of the detection box is dried through the air hole (25).

9. The edible fungus planting system capable of dynamically monitoring the environmental humidity according to claim 1, wherein: humidity compensating device (5) are in including header tank (26) and setting water pump (27) in header tank (26), the play water end of water pump (27) is provided with atomizing spray tube (28), atomizing spray tube (28) set up corresponding to the planting layer.

10. A planting method of an edible fungus planting system based on dynamic environmental humidity monitoring of any one of claims 4 to 8, wherein the planting method comprises the following steps: the method comprises the following steps:

s1: the dynamic monitoring device (4) and the humidity compensation device (5) are driven by the displacement device (3) to intermittently displace along the guide rail, the dynamic monitoring device (4) is used for carrying out humidity detection on a plurality of measuring points, and the humidity compensation device (5) is used for carrying out atomization and water spraying on a low-humidity area;

s2: in the displacement process of the dynamic monitoring device (4), the air sampling mechanism continuously introduces air in the environment onto the water absorption block (8) in the detection box at a fixed speed within a preset time length, after sampling is finished, the mass of the water absorption block after water absorption is increased, the mass is detected through the pressure sensing assembly (9), and the mass is compared with the mass before water absorption to calculate the weight gain mass so as to reflect the air humidity of the area;

s3: when the water absorption of the water absorption block (8) is saturated to a preset degree, the rotary belt (11) is tensioned through the relaxation mechanism, the water absorption block (8) is separated from the pressure sensing assembly (9), and the water absorption block (8) is transferred to the bottom of the detection box (6) through the rotary belt to be recycled or replaced after being dried.

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