CN209802402U - Three leaf akebia stem planting environment monitoring devices - Google Patents

Abstract

the utility model discloses a three-leaf akebia stem planting environment monitoring device, which comprises a shell, a soil humidity sensor, a support rod, a light intensity sensor, a temperature and humidity sensor, a telescopic connecting rod, a USB plug, a triangular jack and a USB jack, wherein the telescopic connecting rod is arranged, when an inner pipe slides, a spring is obliquely extruded through the surface of a clamping block to enable the clamping block to shrink into a groove, the inner pipe slides to adjust the height of the shell, when the clamping block passes through the clamping groove, the clamping block is popped out through the spring to lock the clamping block and the clamping groove, the light intensity sensor and the temperature and humidity sensor are inserted with the shell through the USB plug at the bottom end of the support rod, and the soil humidity sensor is inserted with the triangular plug at the bottom end of the telescopic connecting rod through the triangular jack, so that the adjustment of the height according to the shielding of the blades of the three-, the beneficial effect of conveniently removing and carrying.

Description

Three leaf akebia stem planting environment monitoring devices

Technical Field

The utility model relates to a planting environment monitoring facilities technical field, concretely relates to three leaves Akebia quinata planting environment monitoring devices.

Background

The akebia trifoliate hook is akebiaceae, akebia belongs to deciduous woody vine, stem bark is grey brown, palm-shaped compound leaves are grown alternately or are clustered on short branches, the planting environment of the akebia trifoliate hook needs to be detected in the planting process of the akebia trifoliate hook, the growth environment of the akebia trifoliate hook is guaranteed, the akebia trifoliate hook is beneficial to cultivation of the akebia trifoliate hook, and therefore a monitoring device of the akebia trifoliate hook planting environment is needed to monitor the planting environment, but the prior art cannot improve the detection device according to the height of the akebia trifoliate hook, so that the blades of the akebia trifoliate hook are shielded, and the detection effects of the air.

SUMMERY OF THE UTILITY MODEL

technical problem to be solved

In order to overcome prior art not enough, a three-leaf akebia stem planting environment monitoring device is proposed at present, for solving prior art can't improve detection device according to three-leaf akebia stem height, lead to the blade of three-leaf akebia stem to shelter from, lead to influencing the air circumstance that illuminance sensor and temperature and humidity transducer planted and the problem of illuminance, reached and adjusted according to the height of sheltering from of the blade of three-leaf akebia stem, and can carry out the components of a whole that can function independently dismantlement to detection device, conveniently remove and the beneficial effect who carries.

(II) technical scheme

the utility model discloses a following technical scheme realizes: the utility model provides a three leaf akebia stem planting environment monitoring devices: comprises a shell, a display screen, a switch key, a charging port, a soil humidity sensor, a support rod, a light intensity sensor, a temperature and humidity sensor, a storage battery, a circuit board, a microprocessor, a first port, a second port, a third port, a fourth port, a telescopic connecting rod, a USB plug, a triangular jack and a USB jack, wherein the middle part of the front end surface of the shell is embedded and matched with the display screen at a position which is one centimeter away from the top edge, the left side of the front end surface of the shell is embedded and matched with the switch key at a position which is one centimeter away from the top edge, the right side of the shell is embedded and matched with the charging port at a position which is two centimeters away from the bottom edge, the middle part of the bottom end of the shell is connected with the telescopic connecting rod through a bolt, the bottom end of the telescopic connecting rod is inserted and connected with the soil humidity sensor through the triangular jack, the top end of the USB plug is inserted into the middle of the bottom end of the support rod and is locked and fixed with the support rod through a bolt, the top end of the support rod is connected with the illumination sensor through a bolt, the top end of the right side of the support rod is connected with the temperature and humidity sensor through a bolt, the bottom end of the inner side of the shell is in embedded fit with the storage battery, the middle part of the inner side of the shell is in embedded fit with the circuit board and is locked and fixed by penetrating through the corner of the circuit board through a bolt, the middle part of the front end surface of the circuit board is in embedded fit with the microprocessor, the bottom end surface of the circuit board is respectively provided with a first port, a second port, a third port and a fourth port from left to right, the telescopic connecting rod consists of an outer tube, a triangular plug, an inner tube, a, the inner side of the outer pipe is provided with a clamping groove, the inner side of the bottom end of the right end of the inner pipe is provided with a groove, the right end of the inner side of the groove is spliced with a clamping block, a spring is arranged between the groove and the clamping block and is embedded and matched with the spring, the right side of the clamping block is spliced with the clamping groove, the bottom end of the triangular plug is spliced with the triangular jack, the top end of the inner pipe is in bolt connection with the bottom end of the shell, the charging port is electrically connected with a storage battery, the storage battery and the switch button are respectively electrically connected with a microprocessor, the microprocessor is respectively electrically connected with the USB jack through a first port and a second port, the USB jack, the illuminance sensor and the temperature and humidity sensor are respectively electrically connected with the USB plug, the microprocessor is electrically, and the microprocessor is electrically connected with the display screen through a fourth port.

Furthermore, the number of the switch keys is three.

Furthermore, two connecting ports are arranged in the USB plug and the USB jack.

Furthermore, the detecting heads at the bottom end of the soil humidity sensor are in the shape of ejector pins, are ten centimeters in length and are all provided with three detecting heads.

Furthermore, both ends all are provided with the stopper about the fixture block left side to carry out the lock joint with recess right-hand member inboard.

Furthermore, the fixture block is semi-spherical, and one end of the cambered surface is fastened with the clamping groove.

Furthermore, the clamping grooves are all provided with more than five, and each clamping groove is five centimeters apart.

Furthermore, the soil humidity sensor is an FDS-100 series soil humidity sensor.

further, the model of the illuminance sensor is a BH1750EVI series illuminance sensor.

Furthermore, the type of the temperature and humidity sensor is a TELESK series temperature and humidity sensor.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1) In order to solve the problem that the prior art cannot improve the detection device according to the height of the three-leaf akebia stem, which causes the blade of the three-leaf akebia stem to shield, and causes the influence on the detection effect of the air environment and the illuminance of the planting of the illuminance sensor and the temperature and humidity sensor, the outer pipe is inserted into the inner pipe through the telescopic connecting rod and can slide up and down, the inner pipe is buckled with the clamping groove of the outer pipe through the clamping block to prevent the inner pipe from sliding down, the clamping block is in a semi-spherical shape, one end of the cambered surface is buckled with the clamping groove, the spring is obliquely extruded through the surface of the clamping block when the inner pipe slides to enable the clamping block to be contracted into the groove and slide, the height of the shell is adjusted, the clamping block is popped out through the spring when the clamping block passes through the clamping groove, the clamping block is buckled with, and soil moisture sensor passes through the triangle jack and pegs graft with the triangle plug of telescopic connection rod bottom, has reached and has adjusted according to the height that shelters from of the blade of three-leaf akebia stem to can carry out the components of a whole that can function independently dismantlement, the convenient beneficial effect who removes and carry to detection device.

drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the support rod of the present invention;

FIG. 3 is a schematic structural view of the soil moisture sensor of the present invention;

Fig. 4 is a schematic view of the internal structure of the housing of the present invention;

FIG. 5 is a schematic view of the structure of the telescopic link of the present invention;

FIG. 6 is a partial enlarged view of area A of the present invention;

Fig. 7 is a circuit block diagram of the present invention.

In the figure: the device comprises a shell-1, a display screen-2, a switch button-3, a charging port-4, a telescopic connecting rod-5, a soil humidity sensor-6, a support rod-7, a illuminance sensor-8, a temperature and humidity sensor-9, a USB plug-10, a triangular jack-11, a USB jack-12, a storage battery-13, a circuit board-14, a microprocessor-15, a first port-16, a second port-17, a third port-18, a fourth port-19, an outer tube-51, a triangular plug-52, an inner tube-53, a groove-54, a spring-55, a clamping block-56 and a clamping groove-57.

Detailed Description

In the technical scheme:

The utility model discloses telescopic link 5, USB plug 10, triangle jack 11, USB jack 12, outer tube 51, triangle plug 52, inner tube 53, recess 54, spring 55, fixture block 56 and draw-in groove 57 do the utility model discloses contain the essential innovative component.

Shell 1, display screen 2, switch button 3, charge mouthful 4, soil moisture sensor 6, branch 7, light intensity sensor 8, temperature and humidity sensor 9, battery 13, circuit board 14, microprocessor 15, first port 16, second port 17, third port 18 and fourth port 19 are for realizing the utility model discloses the necessary connectivity component of technical scheme.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, the present invention provides a device for monitoring environment for planting akebia trifoliate, which comprises: comprises a shell 1, a display screen 2, a switch key 3, a charging port 4, a soil humidity sensor 6, a support rod 7, a light illumination sensor 8, a temperature and humidity sensor 9, a storage battery 13, a circuit board 14, a microprocessor 15, a first port 16, a second port 17, a third port 18, a fourth port 19, a telescopic connecting rod 5, a USB plug 10, a triangular jack 11 and a USB jack 12, wherein the middle part of the front end surface of the shell 1 is matched with the display screen 2 at a distance of one centimeter from the top edge, the left part of the front end surface of the shell 1 is matched with the switch key 3 at a distance of one centimeter from the top edge, the right part of the shell 1 is matched with the charging port 4 at a distance of two centimeters from the bottom edge, the display screen 2 is fixed, the middle part of the bottom end of the shell 1 is connected with the telescopic connecting rod 5 through a bolt, the shell 1 is supported by the telescopic connecting rod 5, the bottom end of the telescopic connecting rod 5, embedding cooperation is carried out with USB jack 12 in the middle part of shell 1 top, USB jack 12 top is pegged graft with USB plug 10, USB plug 10 top is pegged graft with 7 bottom middle parts of branch, and it is fixed to lock through bolt and branch 7, fix branch 7, the branch 7 top is bolted connection with light intensity sensor 8, branch 7 right side top is bolted connection with temperature and humidity sensor 9, support light intensity sensor 8 and temperature and humidity sensor 9 through branch 7, the inboard bottom of shell 1 is gone into embedding cooperation with battery 13, the inboard middle part of shell 1 is gone into embedding cooperation with circuit board 14, and it is fixed to run through 14 edges of circuit board through the bolt and lock, fix circuit board 14, circuit board 14 front end face middle part is gone into embedding cooperation with microprocessor 15, circuit board 14 bottom face is provided with first port 16 respectively to the right from a left side, The second port 17, the third port 18 and the fourth port 19 enable the microprocessor 15 to perform data transmission and control through the ports, the telescopic connecting rod 5 is composed of an outer tube 51, a triangular plug 52, an inner tube 53, a groove 54, a spring 55, a clamping block 56 and a clamping groove 57, the middle part of the bottom end of the outer tube 51 is in bolt connection with the triangular plug 52 and is in insertion connection with the triangular jack 11 through the triangular plug 52, the inner side of the outer tube 51 is in insertion connection with the inner tube 53, the inner tube 53 can slide up and down, the inner side of the outer tube 51 is provided with the clamping groove 57, the inner side of the right end of the inner tube 53 is provided with the groove 54, the right end of the inner side of the groove 54 is in insertion connection with the clamping block 56, the spring 55 is arranged between the groove 54 and the clamping block 56 and is in embedded fit with the spring 55, the clamping block 56 is supported through the spring 55, the right, the telescopic connecting rod 5 is connected with the soil humidity sensor 6, the top end of the inner tube 53 is in bolted connection with the bottom end of the shell 1, the charging port 4 is electrically connected with the storage battery 13, the storage battery 13 and the switch key 3 are respectively electrically connected with the microprocessor 15, the microprocessor 15 is respectively electrically connected with the USB jack 12 through the first port 16 and the second port 17, the USB jack 12, the illuminance sensor 8 and the temperature and humidity sensor 9 are respectively electrically connected with the USB plug 10, the microprocessor 15 is electrically connected with the triangular plug 52 through the third port 18, the triangular plug 52 and the soil humidity sensor 6 are respectively electrically connected with the triangular jack 11, and the microprocessor 15 is electrically connected with the display screen 2 through the fourth port 19.

The three switch keys 3 are respectively used for controlling the soil humidity sensor 6, the illuminance sensor 8 and the temperature and humidity sensor 9.

Two connection ports are arranged in the USB plug 10 and the USB jack 12, so that data of the illuminance sensor 8 and data of the temperature and humidity sensor 9 can be transmitted respectively.

The detecting heads at the bottom end of the soil humidity sensor 6 are in a thimble shape, are ten centimeters in length and are all provided with three probes, so that the monitoring device is favorably fixed and is conveniently inserted into soil.

The upper end and the lower end of the left side of the clamping block 56 are respectively provided with a limiting block, and the limiting blocks are buckled with the inner side of the right end of the groove 54, so that the popping distance of the clamping block 56 is limited.

The latch 56 is semi-spherical, and one end of the arc surface is fastened to the latch groove 57, so that the spring 55 is obliquely extruded through the surface of the latch 56 when the inner tube 53 slides, and the latch 56 is retracted into the groove 54.

the clamping grooves 57 are all provided with more than five, and the interval between every two clamping grooves 57 is five centimeters, so that the clamping blocks 56 can be fastened according to the telescopic height of the inner tube 53.

the soil humidity sensor 6 is an FDS-100 series soil humidity sensor, the sensing speed is high, and the sensing is accurate.

The model of the illuminance sensor 8 is a BH1750EVI series illuminance sensor, the data processing speed is high, and the data transmission speed is high.

The temperature and humidity sensor 9 is a TELESK temperature and humidity sensor, and has the advantages of high sensing speed and long service life.

The illuminance sensor 8 described in this patent uses a silicon blue photovoltaic detector having a high sensitivity to weak light as a sensor; the device has the characteristics of wide measuring range, good linearity, good waterproof performance, convenience in use, installation, long transmission distance and the like, is suitable for various places, particularly suitable for places such as agricultural greenhouses and urban illumination, and is matched with different measuring ranges according to different measuring places; the soil humidity sensor 6 is mainly used for measuring the relative water content of soil, monitoring soil moisture content, agricultural irrigation and forestry protection, and the temperature and humidity sensor 9 is used for measuring the temperature and humidity in the air through a certain detection device, converting the measured temperature and humidity into an electric signal or information in other required forms according to a certain rule and outputting the electric signal or the information in other required forms so as to meet the requirements of users; the microprocessor is of an 80386 type.

The working principle is as follows: before the device is used, firstly, the charging port 4 is connected with an external power supply, the storage battery 13 is charged by the power supply of the external power supply, after the charging is finished, when the planting environment of the three-leaf tomayas needs to be monitored, the detecting head at the bottom end of the soil humidity sensor 6 is inserted into soil, the detecting heads are in a thimble shape, the length of the detecting heads is ten centimeters, three detecting heads are arranged, the monitoring device is fixed, the telescopic connecting rod 5 is arranged, the telescopic connecting rod 5 is formed by inserting the outer pipe 51 and the inner pipe 53 and can slide up and down, the inner pipe 53 is buckled with the clamping groove 57 of the outer pipe 51 through the clamping block 56 to prevent the inner pipe 53 from sliding down, the clamping block 56 is in a semi-sphere shape, one end of the cambered surface is buckled with the clamping groove 57, the inner pipe 53 is mutually extruded with the clamping groove 57 through the surface inclination of the clamping block 56, the connection between the inner tube 53 and the outer tube 51 is disconnected, the inner tube 53 slides to adjust the height of the shell 1, when the fixture block 56 passes through the clamping groove 57, the fixture block 56 is popped up through the spring 55, the fixture block 56 and the clamping groove 57 are fastened, the inner tube 53 is simply fixed, the blade shielding of the three-leaf akebia stem is avoided, the detection effects of the air environment and the illumination intensity of the planting of the illumination intensity sensor 8 and the temperature and humidity sensor 9 are influenced, in addition, when the device is used, the switch key 3 is pressed down to send a control instruction, the microprocessor 15 is used for carrying out data calculation, the microprocessor 15 is used for respectively controlling the soil humidity sensor 6, the illumination intensity sensor 8 and the temperature and humidity sensor 9 through the first port 16, the second port 17 and the third port 18, the soil humidity sensor 6 is controlled to check the humidity in the soil, and the illumination intensity sensor 8 is controlled to sense the, and the temperature and humidity sensor 9 is controlled to sense the temperature and humidity in the air of the planting environment, the data is transmitted to the microprocessor 15, the data is calculated and processed by the microprocessor 15 and is transmitted to the display screen 2 through the fourth port 19 for digital display, the specific situation of the planting environment of the akebia trifoliata is read by reading the data on the display screen 2, and after the device is used, the telescopic connecting rod 5 is controlled to be shortened, the body shape of the detection device is shortened, the soil humidity sensor 6 is spliced with a triangular plug 52 at the bottom end of the telescopic connecting rod 5 through a triangular jack 11, the illumination sensor 8 and the temperature and humidity sensor 9 are spliced with a USB jack 12 at the top end of the shell 1 through a USB plug 10 at the bottom end of the supporting rod 7, the supporting rod 7 and the soil humidity sensor 6 can be pulled out, and the detection device can be detached in a split way, shorten detection device's length, conveniently remove and carry.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A three-leaf akebia planting environment monitoring device comprises a shell (1), a display screen (2), a switch key (3), a charging port (4), a soil humidity sensor (6), a support rod (7), a light illumination sensor (8), a temperature and humidity sensor (9), a storage battery (13), a circuit board (14), a microprocessor (15), a first port (16), a second port (17), a third port (18) and a fourth port (19), and is characterized by further comprising a telescopic connecting rod (5), a USB plug (10), a triangular jack (11) and a USB jack (12), wherein a position in the middle of the front end face of the shell (1) which is one centimeter away from the top end edge is in embedded fit with the display screen (2), a position in the left side of the front end face of the shell (1) which is one centimeter away from the top end edge is in embedded fit with the switch key (3), a position in the right side of the shell (1) which is two centimeters away from the bottom end edge is in embedded fit with the charging, the utility model discloses a soil moisture sensor, including shell (1), telescopic connecting rod (5), USB plug (10), triangle jack (11) and soil moisture sensor (6) are pegged graft to shell (1) bottom middle part, and shell (1) top middle part is gone on embedding cooperation with USB jack (12), USB jack (12) top is pegged graft with USB plug (10), USB plug (10) top is pegged graft with branch (7) bottom middle part to it is fixed to lock through bolt and branch (7), branch (7) top and illuminance sensor (8) carry out bolted connection, branch (7) right side top carries out bolted connection with temperature and humidity sensor (9), shell (1) inboard bottom carries out embedding cooperation with battery (13), shell (1) inboard middle part carries out embedding cooperation with circuit board (14) to run through circuit board (14) edge through the bolt and lock fixedly, the middle part of the front end face of the circuit board (14) is in embedded fit with the microprocessor (15), the bottom end face of the circuit board (14) is provided with a first port (16), a second port (17), a third port (18) and a fourth port (19) from left to right, the telescopic connecting rod (5) is composed of an outer pipe (51), a triangular plug (52), an inner pipe (53), a groove (54), a spring (55), a clamping block (56) and a clamping groove (57), the middle part of the bottom end of the outer pipe (51) is in bolt connection with the triangular plug (52), the inner side of the outer pipe (51) is spliced with the inner pipe (53), the clamping groove (57) is arranged on the inner side of the outer pipe (51), the inner side of the bottom end of the right end of the inner pipe (53) is provided with the groove (54), the right end of the inner side of the groove (54) is spliced with the clamping block (56, and carries out embedding cooperation with spring (55), the fixture block (56) right side is pegged graft with draw-in groove (57), triangle plug (52) bottom is pegged graft with triangle jack (11), bolted connection is carried out with shell (1) bottom in inner tube (53) top, charge mouthful (4) and battery (13) electricity and be connected, battery (13) and switch button (3) are connected with microprocessor (15) electricity respectively, microprocessor (15) are connected with USB jack (12) electricity through first port (16) and second port (17) respectively, USB jack (12), illuminance sensor (8) and temperature and humidity sensor (9) are connected with USB plug (10) electricity respectively, microprocessor (15) are connected with triangle plug (52) electricity through third port (18), triangle plug (52) and soil moisture sensor (6) are connected with triangle jack (11) electricity respectively, the microprocessor (15) is electrically connected with the display screen (2) through a fourth port (19).

2. The radix akebiae planting environment monitoring device according to claim 1, wherein there are three switch buttons (3).

3. The radix akebiae planting environment monitoring device according to claim 1, wherein two connection ports are provided in each of the USB plug (10) and the USB jack (12).

4. The device for monitoring the planting environment of akebia trifoliate wood according to claim 1, wherein the detecting head at the bottom end of the soil humidity sensor (6) is in the shape of an ejector pin, is ten centimeters long, and is provided with three probes.

5. The device for monitoring the planting environment of the akebia trifoliate wood according to claim 1, wherein the upper end and the lower end of the left side of the clamping block (56) are provided with limiting blocks, and are fastened with the inner side of the right end of the groove (54).

6. The device for monitoring the planting environment of akebia trifoliata according to claim 1, wherein the clamping block (56) is semi-spherical, and one end of the cambered surface is fastened with the clamping groove (57).

7. The radix akebiae trifoliate planting environment monitoring device according to claim 1, wherein the clamping grooves (57) are provided with more than five, and each clamping groove (57) is spaced five centimeters apart.