CN208968593U - A kind of orchard base plant growth environment monitoring device - Google Patents

Abstract

The utility model discloses a kind of orchard base plant growth environment monitoring devices, including lower box, folding retractable component, upper box, data processing and display component, illuminance sensor, sunshine recorder, aerial temperature and humidity sensor, carbon dioxide sensor and soil temperature-moisture sensor；Data processing and display component are electrically connected with soil temperature-moisture sensor, illuminance sensor, sunshine recorder, aerial temperature and humidity sensor and carbon dioxide sensor respectively；Lower box is connected with upper box by four folding retractable components；Folding retractable component includes the first rotating turret, the first rotating bar, telescopic rod, screws part, the second rotating bar, the second rotating turret, the first snap ring and the second snap ring.The utility model uses folding telescopic structure, the mobile transport of monitoring device is more convenient, and intensity of illumination, sunshine-duration, aerial temperature and humidity, gas concentration lwevel, soil temperature and humidity can be monitored etc. and influence the environmental factor of plant growth, and visualization display monitoring data.

Description

A kind of orchard base plant growth environment monitoring device

Technical field

The utility model relates to agricultural monitoring engineering device technique fields more particularly to a kind of orchard base plant growth environment to supervise Survey device.

Background technique

Plant growth environment monitoring device is the device for monitoring influence plant-growth factor, and the data of monitoring are deposited Storage is got up, and so that plant growth environment is studied, in the base of orchard, the growing environment of plant directly affects plant growth in orchard, Emphasis is needed to monitor its environmental factor.

But the environmental factor monitoring data of existing plant growth environment monitoring device are less, are not enough to plant growth Environment makees sufficiently analysis, and monitoring device volume is larger, and mobile and transport is inconvenient.

Utility model content

To solve technical problem present in background technique, the utility model proposes a kind of orchard base plant growth environments Monitoring device uses folding telescopic structure so that using and carrying for monitoring device is more convenient, and can monitor intensity of illumination, Sunshine-duration, aerial temperature and humidity, gas concentration lwevel, soil temperature and humidity etc. influence the environmental factor of plant growth, and will monitoring Data visualization is shown.

The utility model proposes a kind of orchard base plant growth environment monitoring device, including lower box, lower shock absorber part, Folding retractable component, upper box, upper shock absorber part, data processing and display component, illuminance sensor, sunshine recorder, air Temperature Humidity Sensor, carbon dioxide sensor and soil temperature-moisture sensor；

Lower box and upper box are " П " shape structure；Lower box is opening up；Lower shock absorber part is arranged in lower box；Under Shock absorber part upper surface is provided with third step；Upper box is opening down, and opposite with lower box opening；The setting of upper box upper surface There are the first groove and the second groove；Upper shock absorber part is arranged in upper box；Upper shock absorber part lower surface is provided with third groove, the 4th Groove and the 5th groove；

Soil temperature-moisture sensor is arranged on third step in receiving state；Illuminance sensor setting is recessed first In slot；Sunshine recorder is arranged in the second groove；Aerial temperature and humidity sensor is arranged in third groove；Carbon dioxide sensing Device is arranged in the 4th groove；Data processing and display component are arranged in the 5th groove, and data processing and display component include Handle the processor of sensor transmissions data and the display screen of display monitoring data；Data processing and display component and Soil Temperature And Moisture Sensor is spent to be electrically connected；Data processing and display component and illuminance sensor are electrically connected；Data processing and display component It is electrically connected with sunshine recorder；Data processing and display component and aerial temperature and humidity sensor are electrically connected；Data processing and Display component and carbon dioxide sensor are electrically connected；

Lower box is connected with upper box by four folding retractable components；Folding retractable component includes the first rotating turret, the One rotating bar, telescopic rod screw part, the second rotating bar, the second rotating turret, the first snap ring and the second snap ring；First rotating turret, One rotating bar, telescopic rod, the second rotating bar and the second rotating turret are sequentially connected；First rotating turret is arranged in lower box inner surface On；First rotating bar is hollow structure open at one end, and opening is located remotely from first rotating turret one end；First rotating bar and first Rotating turret rotation connection；Telescopic rod and the first rotating bar are slidably connected；It screws part and telescopic rod is threadedly coupled；Second rotating bar and Telescopic rod rotation connection, and center of rotation to the first rotating turret distance be less than screw part to the first rotating turret distance；Second rotation Frame and the rotation connection of the second rotating bar；Second rotating turret is arranged on upper box inner surface；First snap ring and the rotation of the second snap ring Connection；One end far from the first snap ring and the second snap ring center of rotation on first snap ring is provided with the first card slot and limited block；The One end far from the first snap ring and the second snap ring center of rotation on two snap rings is provided with the first convex block；First convex block is in the first snap ring It is located in the first card slot under the second snap ring fastening state；First snap ring is arranged in the first rotating bar far from the first rotating turret one End；Annular groove corresponding with telescopic rod is provided on second snap ring, and annular groove radius is less than telescopic rod radius.

Preferably, first step and second step are additionally provided on lower shock absorber part upper surface；First step, second step and Third step is from top to bottom set gradually, and the length and width dimensions of first step, the length and width dimensions of second step and third step Length and width dimensions are sequentially reduced；First step length and width dimensions are identical as data processing and display component correspondingly-sized；It connects at data The conducting wire of reason and display component and soil temperature-moisture sensor is placed on second step.

Preferably, being arranged side by side on telescopic rod has multiple second card slots；The second convex block is additionally provided on second snap ring, Under one snap ring and the second snap ring fastening state, the second convex block is located in the second card slot.

Preferably, one end far from the first snap ring and the second snap ring center of rotation on the second snap ring is provided with third convex block； Third convex block is located on the outside of the first convex block, and third convex block to telescopic rod central axes distance is greater than on the first snap ring far from the first card The outermost end of ring and the second snap ring center of rotation is to telescopic rod central axes distance.

Preferably, one end inside the first rotating bar is located on telescopic rod, finite place piece is set；Locating part is cylinder boss；The One rotating bar opening diameter is less than hollow diameters, and opening diameter is identical with flexible shank diameter, hollow diameters and locating part diameter phase Together.

Preferably, four folding retractable components are projected on lower box in cross.

In the utility model, when not using monitoring device, monitoring device is in receiving state, and lower box and upper box close It rises, the movement and transport of monitoring device are more convenient；When using monitoring device, it is lifted up upper box, the first rotating bar is around The rotation of one rotating turret, the second rotating bar is rotated around the second rotating turret, when the first rotating bar and the second rotating bar go to vertical state When, part is screwed, part is screwed and is compressed to the second rotating bar surface, fix the second rotating bar, prevent it from rotating；Telescopic rod Telescopic level depending on the actual conditions of orchard base, height with specific reference to plant and surrounding enviroment determine；Telescopic rod position It sets after determining, by rotating the second snap ring, the second snap ring is engaged with the first snap ring, under fastening state, the first convex block is positioned at the In one card slot, limited block limits the first convex block and skids off the first card slot, realizes being connected together for telescopic rod and the first rotating bar；Monitoring Four folding retractable components are set altogether in device, with balanced carrying upper box and the component being arranged on.

In the utility model, illuminance sensor and sunshine recorder are arranged on upper box, guarantee its enough light, So that sensor is more accurate to the monitoring data of illuminance and sunshine-duration, aerial temperature and humidity sensor is for monitoring air Humidity condition, carbon dioxide sensor are used for the carbon dioxide concentration in air situation, use soil temperature-moisture sensor Shi Cong Three steps are drawn off, and are inserted into below ground, and the monitoring for carrying out soil temperature and humidity data obtains, and illuminance sensor, sunshine pass Monitoring data are converted to electric signal by sensor, aerial temperature and humidity sensor, carbon dioxide sensor and soil temperature-moisture sensor, Data processing and display component are transmitted to, after the completion of data processing and display component are to signal processing, by the aobvious of data visualization Show on a display screen, so that the observation of monitoring data is more intuitive.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of orchard base plant growth environment monitoring device structural schematic diagram.

Fig. 2 be the utility model proposes a kind of orchard base plant growth environment monitoring device in the first rotating bar and stretch The structural schematic diagram of contracting bar.

Fig. 3 be the utility model proposes a kind of orchard base plant growth environment monitoring device in the first snap ring and second The structural schematic diagram of snap ring.

Fig. 4 be the utility model proposes a kind of orchard base plant growth environment monitoring device in lower box vertical view Figure.

Fig. 5 be the utility model proposes a kind of orchard base plant growth environment monitoring device folding storage state knot Structure schematic diagram.

In figure: 1, lower box；2, lower shock absorber part；21, first step；22, second step；23, third step；3, it folds and stretches Contracting component；31, the first rotating turret；32, the first rotating bar；33, telescopic rod；331, the second card slot；332, locating part；34, it screws Part；35, the second rotating bar；36, the second rotating turret；37, the first snap ring；371, the first card slot；372, limited block；38, the second card Ring；381, the first convex block；382, the second convex block；4, upper box；5, upper shock absorber part；6, data processing and display component；7, illumination Spend sensor；8, sunshine recorder；9, aerial temperature and humidity sensor；10, carbon dioxide sensor；11, soil temperature and humidity senses Device.

Specific embodiment

As shown in Figs. 1-5, Fig. 1 be the utility model proposes a kind of orchard base plant growth environment monitoring device knot Structure schematic diagram.

Fig. 2 be the utility model proposes a kind of orchard base plant growth environment monitoring device in the first rotating bar and stretch The structural schematic diagram of contracting bar.

Fig. 3 be the utility model proposes a kind of orchard base plant growth environment monitoring device in the first snap ring and second The structural schematic diagram of snap ring.

Fig. 4 be the utility model proposes a kind of orchard base plant growth environment monitoring device in lower box vertical view Figure.

Fig. 5 be the utility model proposes a kind of orchard base plant growth environment monitoring device folding storage state knot Structure schematic diagram.

Referring to Fig.1-5, the utility model proposes a kind of orchard base plant growth environment monitoring device, including lower box 1, lower shock absorber part 2, folding retractable component 3, upper box 4, upper shock absorber part 5, data processing and display component 6, illuminance sensor 7, sunshine recorder 8, aerial temperature and humidity sensor 9, carbon dioxide sensor 10 and soil temperature-moisture sensor 11；

Lower box 1 and upper box 4 are " П " shape structure；Lower box 1 is opening up；Lower shock absorber part 2 is arranged in lower box 1 It is interior；Lower 2 upper surface of shock absorber part is provided with third step 23；Upper box 4 is opening down, and is open relatively with lower box 1；Upper box 4 upper surfaces are provided with the first groove and the second groove；Upper shock absorber part 5 is arranged in upper box 4；Upper 5 lower surface of shock absorber part setting There are third groove, the 4th groove and the 5th groove；

Soil temperature-moisture sensor 11 is arranged on third step 23 in receiving state；The setting of illuminance sensor 7 exists In first groove；Sunshine recorder 8 is arranged in the second groove；Aerial temperature and humidity sensor 9 is arranged in third groove；Dioxy Change carbon sensor 10 to be arranged in the 4th groove；Data processing and display component 6 are arranged in the 5th groove, data processing and Display component 6 includes the processor of processing sensor transmissions data and the display screen of display monitoring data；Data processing and display Component 6 and soil temperature-moisture sensor 11 are electrically connected；Data processing and display component 6 and illuminance sensor 7 are electrically connected； Data processing and display component 6 and sunshine recorder 8 are electrically connected；Data processing and display component 6 and aerial temperature and humidity sensing Device 9 is electrically connected；Data processing and display component 6 and carbon dioxide sensor 10 are electrically connected；

Lower box 1 and upper box 4 are connected by four folding retractable components 3；Folding retractable component 3 includes the first rotating turret 31, the first rotating bar 32, telescopic rod 33, screw part 34, the second rotating bar 35, the second rotating turret 36, the first snap ring 37 and second Snap ring 38；First rotating turret 31, the first rotating bar 32, telescopic rod 33, the second rotating bar 35 and the second rotating turret 36 are sequentially connected； First rotating turret 31 is arranged on 1 inner surface of lower box；First rotating bar 32 is hollow structure open at one end, and opening is located at Far from 31 one end of the first rotating turret；First rotating bar 32 and the rotation connection of the first rotating turret 31；Telescopic rod 33 and the first rotating bar 32 are slidably connected；It screws part 34 and telescopic rod 33 is threadedly coupled；Second rotating bar 35 and telescopic rod 33 are rotatablely connected, and in rotation The heart to the first rotating turret 31 apart from be less than screw 34 to the first rotating turret of part, 31 distance；Second rotating turret 36 and the second rotating bar 35 Rotation connection；Second rotating turret 36 is arranged on 4 inner surface of upper box；First snap ring 37 and the rotation connection of the second snap ring 38；The One end on one snap ring 37 far from 38 center of rotation of the first snap ring 37 and the second snap ring is provided with the first card slot 371 and limited block 372；One end on second snap ring 38 far from 38 center of rotation of the first snap ring 37 and the second snap ring is provided with the first convex block 381；The One convex block 381 is located in the first card slot 371 under 38 fastening state of the first snap ring 37 and the second snap ring；The setting of first snap ring 37 exists Far from 31 one end of the first rotating turret in first rotating bar 32；Annular groove corresponding with telescopic rod 33 is provided on second snap ring 38, And annular groove radius is less than 33 radius of telescopic rod.

In the specific work process of the present embodiment, when not using monitoring device, monitoring device is in receiving state, nowel Body 1 and upper box 4 close, and the movement and transport of monitoring device are more convenient；When using monitoring device, it is lifted up upper box 4, First rotating bar 32 is rotated around the first rotating turret 31, and the second rotating bar 35 is rotated around the second rotating turret 36, when the first rotating bar 32 When going to vertical state with the second rotating bar 35, part 34 is screwed, part 34 is screwed and is compressed to 35 surface of the second rotating bar, it is fixed Second rotating bar 35, prevents it from rotating；The telescopic level of telescopic rod 33 is depending on the actual conditions of orchard base, specific root It is determined according to the height and surrounding enviroment of plant；After 33 position of telescopic rod determines, by rotating the second snap ring 38, by the second snap ring 38 Engage with the first snap ring 37, under fastening state, the first convex block 381 is located in the first card slot 371, and the limitation first of limited block 372 is convex Block 381 skids off the first card slot 371, realizes being connected together for telescopic rod 33 and the first rotating bar 32；It is arranged four in monitoring device altogether A folding retractable component 3, with balanced carrying upper box 4 and the component being arranged on；Illuminance sensor 7 and sunshine recorder 8 Be arranged on upper box 4, guarantee its enough light so that sensor to the monitoring data of illuminance and sunshine-duration more Accurately, aerial temperature and humidity sensor 9 is used for Carbon Dioxide in Air for monitoring air humidity situation, carbon dioxide sensor 10 Concentration levels are drawn off using when soil temperature-moisture sensor 11 from third step 23, are inserted into below ground, carry out soil temperature The monitoring of humidity data obtains, illuminance sensor 7, sunshine recorder 8, aerial temperature and humidity sensor 9, carbon dioxide sensor 10 and soil temperature-moisture sensor 11 monitoring data are converted into electric signal, data processing and display component 6 are transmitted to, at data After the completion of reason and display component 6 are to signal processing, on a display screen by the display of data visualization, so that the observation of monitoring data It is more intuitive.

In a specific embodiment, first step 21 and second step 22 are additionally provided on lower 2 upper surface of shock absorber part；The One step 21, second step 22 and third step 23 are from top to bottom set gradually, and the length and width dimensions of first step 21, second The length and width dimensions of step 22 and the length and width dimensions of third step 23 are sequentially reduced；21 length and width dimensions of first step and data processing and 6 correspondingly-sized of display component is identical；Connection data processing and display component 6 and the conducting wire of soil temperature-moisture sensor 11 are placed on On second step 22.In work, soil temperature-moisture sensor 11 when not in use, is placed in third step 23, conducting wire is packed up simultaneously It is placed in second step 22, data processing and display component 6 are placed on first step 21, and lower shock absorber part 2 and upper shock absorber part 5 use Damping foam material is made, and to guarantee monitoring device in transport and in use, inner components not will receive rigid shock, prevents Each component collides damaged condition.

Further, being arranged side by side on telescopic rod 33 has multiple second card slots 331；Second is additionally provided on second snap ring 38 Convex block 382, under 38 fastening state of the first snap ring 37 and the second snap ring, the second convex block 382 is located in the second card slot 331.Work In, the second convex block 382 is sticked in the second card slot 331, so that the fixation of telescopic rod 33 is more firm, monitoring device is more stable.

Further, one end on the second snap ring 38 far from 38 center of rotation of the first snap ring 37 and the second snap ring is provided with the Three convex blocks；Third convex block is located at 381 outside of the first convex block, and third convex block to 33 central axes of telescopic rod distance is greater than the first snap ring Outermost end on 37 far from 38 center of rotation of the first snap ring 37 and the second snap ring is to 33 central axes distance of telescopic rod.In work, receive When playing telescopic rod 33, the second snap ring 38 is opened, only need to directly stir the third convex block protruded outside, operation is very easy.

Further, 32 inside one end of the first rotating bar is located on telescopic rod 33 and finite place piece 332 is set；Locating part 332 For cylinder boss；First rotating bar, 32 opening diameter is less than hollow diameters, and opening diameter is identical with 33 diameter of telescopic rod, hollow straight Diameter is identical with 332 diameter of locating part.In work, locating part 332 is defined the stretching limit of telescopic rod 33, prevents it from skidding off First rotating bar 32.

Further, four folding retractable components 3 are projected on lower box 1 in cross.In work, four folding retractables Component 3 is uniformly arranged, each 3 stress equalization of folding retractable component, and monitoring device is more stable.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of orchard base plant growth environment monitoring device, which is characterized in that including lower box (1), lower shock absorber part (2), Folding retractable component (3), upper box (4), upper shock absorber part (5), data processing and display component (6), illuminance sensor (7), Sunshine recorder (8), aerial temperature and humidity sensor (9), carbon dioxide sensor (10) and soil temperature-moisture sensor (11)；

Lower box (1) and upper box (4) are " П " shape structure；Lower box (1) is opening up；Lower shock absorber part (2) is arranged under In cabinet (1)；Lower shock absorber part (2) upper surface is provided with third step (23)；Upper box (4) is opening down, and with lower box (1) Opening is opposite；Upper box (4) upper surface is provided with the first groove and the second groove；Upper shock absorber part (5) is arranged in upper box (4) It is interior；Upper shock absorber part (5) lower surface is provided with third groove, the 4th groove and the 5th groove；

Soil temperature-moisture sensor (11) is arranged on third step (23) in receiving state；Illuminance sensor (7) setting In the first groove；Sunshine recorder (8) is arranged in the second groove；Aerial temperature and humidity sensor (9) is arranged in third groove It is interior；Carbon dioxide sensor (10) is arranged in the 4th groove；Data processing and display component (6) are arranged in the 5th groove, Data processing and display component (6) include the processor for handling sensor transmissions data and the display screen of display monitoring data；Number It is electrically connected according to processing and display component (6) and soil temperature-moisture sensor (11)；Data processing and display component (6) and illumination Sensor (7) are spent to be electrically connected；Data processing and display component (6) and sunshine recorder (8) are electrically connected；Data processing and aobvious Show that component (6) and aerial temperature and humidity sensor (9) are electrically connected；Data processing and display component (6) and carbon dioxide sensor (10) it is electrically connected；

Lower box (1) and upper box (4) pass through four folding retractable component (3) connections；Folding retractable component (3) includes first turn Moving frame (31), the first rotating bar (32), telescopic rod (33), screw part (34), the second rotating bar (35), the second rotating turret (36), First snap ring (37) and the second snap ring (38)；First rotating turret (31), the first rotating bar (32), telescopic rod (33), the second rotation Bar (35) and the second rotating turret (36) are sequentially connected；First rotating turret (31) is arranged on lower box (1) inner surface；First rotation Bar (32) is hollow structure open at one end, and opening is located remotely from the first rotating turret (31) one end；First rotating bar (32) and One rotating turret (31) rotation connection；Telescopic rod (33) and the first rotating bar (32) are slidably connected；Screw part (34) and telescopic rod (33) it is threadedly coupled；Second rotating bar (35) and telescopic rod (33) rotation connection, and center of rotation to the first rotating turret (31) away from It is screwed with a distance from part (34) to the first rotating turret (31) from being less than；Second rotating turret (36) and the second rotating bar (35) rotation connection； Second rotating turret (36) is arranged on upper box (4) inner surface；First snap ring (37) and the second snap ring (38) rotation connection；First One end on snap ring (37) far from the first snap ring (37) and the second snap ring (38) center of rotation is provided with the first card slot (371) and limit Position block (372)；One end on second snap ring (38) far from the first snap ring (37) and the second snap ring (38) center of rotation is provided with the One convex block (381)；First convex block (381) is located at the first card slot under the first snap ring (37) and the second snap ring (38) fastening state (371) in；First snap ring (37) is arranged on the first rotating bar (32) far from the first rotating turret (31) one end；Second snap ring (38) On be provided with annular groove corresponding with telescopic rod (33), and annular groove radius is less than telescopic rod (33) radius.

2. a kind of orchard base plant growth environment monitoring device according to claim 1, which is characterized in that lower shock absorber part (2) first step (21) and second step (22) are additionally provided on upper surface；First step (21), second step (22) and third Step (23) is from top to bottom set gradually, and the length and width dimensions of first step (21), the length and width dimensions of second step (22) and The length and width dimensions of three steps (23) are sequentially reduced；First step (21) length and width dimensions are corresponding with data processing and display component (6) Size is identical；Connection data processing and display component (6) and the conducting wire of soil temperature-moisture sensor (11) are placed on second step (22) on.

3. a kind of orchard base plant growth environment monitoring device according to claim 1, which is characterized in that telescopic rod (33) being arranged side by side on has multiple second card slots (331)；The second convex block (382) are additionally provided on second snap ring (38), first Under snap ring (37) and the second snap ring (38) fastening state, the second convex block (382) is located in the second card slot (331).

4. a kind of orchard base plant growth environment monitoring device according to claim 1, which is characterized in that the second snap ring (38) one end on far from the first snap ring (37) and the second snap ring (38) center of rotation is provided with third convex block；Third convex block is located at On the outside of first convex block (381), and third convex block to telescopic rod (33) central axes distance is greater than on the first snap ring (37) far from first The outermost end of snap ring (37) and the second snap ring (38) center of rotation is to telescopic rod (33) central axes distance.

5. a kind of orchard base plant growth environment monitoring device according to claim 1, which is characterized in that telescopic rod (33) it is located at the first rotating bar (32) internal one end setting finite place piece (332) on；Locating part (332) is cylinder boss；First Rotating bar (32) opening diameter is less than hollow diameters, and opening diameter is identical with telescopic rod (33) diameter, hollow diameters and locating part (332) diameter is identical.

6. a kind of orchard base plant growth environment monitoring device according to claim 1, which is characterized in that four foldings Telescopic component (3) is projected on lower box (1) in cross.