CN108683222A - A kind of aquatic environment monitoring device used for aquiculture - Google Patents
A kind of aquatic environment monitoring device used for aquiculture Download PDFInfo
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- CN108683222A CN108683222A CN201810474195.1A CN201810474195A CN108683222A CN 108683222 A CN108683222 A CN 108683222A CN 201810474195 A CN201810474195 A CN 201810474195A CN 108683222 A CN108683222 A CN 108683222A
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- bottom end
- electric current
- electric energy
- connecting rod
- environment monitoring
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0042—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries characterised by the mechanical construction
- H02J7/0045—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries characterised by the mechanical construction concerning the insertion or the connection of the batteries
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/18—Water
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/34—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
- H02J7/35—Parallel operation in networks using both storage and other dc sources, e.g. providing buffering with light sensitive cells
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- Engineering & Computer Science (AREA)
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Power Engineering (AREA)
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- Analytical Chemistry (AREA)
- Biochemistry (AREA)
- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
- Immunology (AREA)
- Pathology (AREA)
- Food Science & Technology (AREA)
- Other Liquid Machine Or Engine Such As Wave Power Use (AREA)
Abstract
The invention discloses a kind of aquatic environment monitoring devices used for aquiculture, its structure includes alarm, signal receiver, supporting rod, fixed underpan, bolt, solar panels, buoy float, automatic power supply device, detector, seal casing, main power plant, short circuit and actuating mechanism, electric energy conduction device, roller transmission mechanism, actuating mechanism, standby battery device, electric current transmission mechanism, a kind of aquatic environment monitoring device used for aquiculture of the present invention, the device can start standby battery automatically after device powers down, electric energy is transferred to equipment, it can be worked normally after so that equipment is connected electric energy, equipment is prevented to be stopped because disconnecting electric energy, cause water quality detection work that can not continue, improve the stability and practicability of equipment.
Description
Technical field
The present invention is a kind of aquatic environment monitoring device used for aquiculture, belongs to aquatic environment monitoring device field.
Background technology
Aquatic environment monitoring device used for aquiculture is most important for the cultivation of biology, and widespread practice is at present
Personal monitoring, record namely observer carry water quality monitor aboard ship, and the certain depth that probe is put into water body is connected
Continuous detection, every the i.e. artificial reading of specific time and manual record.
But the prior art is since in water general work, power consumption is fast for a long time, it has not been convenient to charge, generally rely on solar panels
It absorbs luminous energy to be converted to electric energy and provide kinetic energy for equipment, when being chronically under overcast sky, equipment just cannot get power will be because
Electric energy is insufficient and powers off and is stopped, and leads to that water quality detection work can not be carried out in this way, influences to detect work.
Invention content
In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of aquatic environment monitoring dresses used for aquiculture
It sets, to solve the prior art since in water general work, power consumption is fast for a long time, it has not been convenient to charge, generally solar panels be relied on to absorb
Luminous energy is converted to electric energy and provides kinetic energy for equipment, and when being chronically under overcast sky, equipment just cannot get power will be because of electric energy
It is insufficient and the problem of power off and be stopped, lead to that water quality detection work can not be carried out in this way, influence to detect work.
To achieve the goals above, the present invention is to realize by the following technical solutions:A kind of water quality used for aquiculture
Environment monitoring device, structure include alarm, signal receiver, supporting rod, fixed underpan, bolt, solar panels, buoy
Body, automatic power supply device, detector, the bottom end of the alarm are connected with the top of supporting rod, the signal receiver with
The outer surface of supporting rod is mutually welded, and the bottom end of the supporting rod and the top of fixed underpan are nested, the bolt and fixed bottom
Disk is threadedly coupled, and the bottom end of the fixed underpan is equipped with solar panels, the bottom end of the solar panels and the top phase of buoy float
The lower section of connection, the buoy float is equipped with automatic power supply device, and the top insertion of the detector is installed on automatic power supply device
Bottom end,
The automatic power supply device include seal casing, main power plant, short circuit with actuating mechanism, electric energy conduction device,
Roller transmission mechanism, actuating mechanism, standby battery device, electric current transmission mechanism, the main power plant insertion are installed on sealing
The inside of case, the main power plant are connected with short circuit with actuating mechanism, and the short circuit and the right end of actuating mechanism are equipped with
The bottom end of electric energy reception device, the electric energy reception device is electrically connected with the top of electric current transmission mechanism, the idler wheel driver
Structure is fastened and connected with short circuit with actuating mechanism, and the roller transmission mechanism engages connection, the reserve battery dress with actuating mechanism
The bottom end set is connected with the inner surface of seal casing.
Further, the main power plant includes power cord, controller, power generator, the first call wire, positive electromagnetism
Block, positive ball, the power cord are electrically connected with the controller, and the bottom end of the controller is connected with the top of power generator, institute
It states the first call wire to be electrically connected with positive electromagnetic block, the anode ball insertion is installed on the inside of positive electromagnetic block, the anode
The right end of electromagnetic block is nested with short circuit with actuating mechanism.
Further, the short circuit with actuating mechanism includes head rod, connect fixture block, resetting spring, second connects
Bar, electric current connecting valve, contact switch, rectangular block, second back-moving spring, center of rotation, the second connection fixture block, third connection
Bar, the head rod are fixedly connected with fixture block is connect, and the resetting spring is mutually welded with the second connecting rod, and described second connects
The bottom end of extension bar is fastened and connected with rectangular block, and the electric current connecting valve is electrically connected with contact switch, the rectangular block and third
The top of connecting rod is interlocked, and the front surface of the third connecting rod is equipped with center of rotation, the left end of the second back-moving spring
It is connected with rectangular block, the bottom end of the third connecting rod connect fixture block with second and is fastened and connected, a left side for the head rod
End and positive electromagnetic block nested encryptions.
Further, the electric energy conduction device includes electric energy conductor, electric energy receiver, electric current transmission line, the electricity
The bottom end of energy conductor is equipped with electric energy receiver, and the bottom end of the electric energy receiver is electrically connected with the top of electric current transmission line, institute
The bottom end for stating electric current transmission line is electrically connected with electric current transmission mechanism.
Further, the roller transmission mechanism includes flat-pushing bar, depending post, match wheel, the first belt, driven wheel, snail
Take turns bar, third resetting spring, sliding slot, the flat-pushing bar and third resetting spring nested encryptions, the left end of the flat-pushing bar with match
It closes bar to be fastened and connected, the front surface of the depending post and match wheel is interlocked, and the match wheel is connected with the first belt, described
First belt fits with driven wheel, and the worm gear pole is connected with driven wheel, and the flat-pushing bar is nested with sliding slot, the snail
The outer surface of wheel bar is meshed with actuating mechanism.
Further, the actuating mechanism include gullet plate, serrated wheel, connecting rod, buffer spring, fixing bracket, outer casing,
Starting switch, the gullet plate engage connection with serrated wheel, and the bottom end of the gullet plate is equipped with connecting rod, the bottom end of the connecting rod with
The outer surface of buffer spring nested encryptions, the fixing bracket and outer casing is mutually welded, and the bottom end of the connecting rod is equipped with to start and open
It closes.
Further, the standby battery device includes the first accumulator, electric current connecting line, the second accumulator, starts and touch
Point, sense contact, first accumulator are electrically connected with electric current connecting line, and first accumulator passes through electric current connecting line and
Two accumulators are connected, and the right end for starting contact is equipped with sense contact.
Further, the electric current transmission mechanism includes ballast, the second call wire, ballast contact, second conduction
Line is connected with ballast contact, and the ballast is internally provided with ballast contact, top and the electric current transmission line of the ballast
Bottom end electrical connection.
Advantageous effect
A kind of aquatic environment monitoring device used for aquiculture of the present invention, when in use, equipment absorbs light by solar panels
Electric energy can be converted light energy into and provide power for equipment, then water quality is detected using detector, it is unqualified when detecting
Alarm will sound when water quality, remind staff, and when equipment electric energy consumption light, automatic power supply device begins to run, hair
Electric installation will turn-off current be out of service due to electric power deficiency so that positive electromagnetic block loses the influence of electric current and loses magnetization
It reacts, then positive ball is slowly moved to the left so that head rod loses the obstruction of positive ball, and then resetting spring restores former
Shape bounces head rod to the left so that contact switch disconnects the pressure of fixture block, pops up so that electric current connection is opened
Turn-off current is closed, switch is opened, and then electric energy conductor turn-off current is out of service, and equipment is stopped, and then passes through first
Connecting rod drives the second connecting rod to move downward so that rectangular block to by pushing, is squeezed second by the bottom end of the second connecting rod
Resetting spring so that third connecting rod moves right by AnchorPoint top of center of rotation, and bottom end moves downward, and drives flat-pushing bar
It pushes to the left, then flat-pushing bar pushes match wheel to rotate forward by third resetting spring so that the first belt is subjected to displacement, will
Rotatory force is transferred to driven wheel, and then worm gear pole relies on the rotation of driven wheel, to drive serrated wheel to rotate forward, by gullet plate
It slowly moves down, buffer spring is press by connecting rod so that the effect that buffer spring is under pressure deforms upon, and receives downwards
Contracting so that the bottom end of connecting rod slowly moves down, and pushes starting switch, starts with the second accumulator to start the first accumulator
It runs, then the first accumulator and the second accumulator starting current so that it is closed with sense contact after starting contact portion electric current,
Electric current is transferred to ballast, electric current restarting voltage is maintained by ballast, makes electric current transmission that can more stablize, then
Electric current is transferred to electric energy conductor by ballast by electric current transmission line again, is continued to run with after making electric energy conductor turn-on current,
Electric current is transferred to equipment, electric energy is provided for equipment, maintains normal work, which can automatically start standby after device powers down
With accumulator, electric energy is transferred to equipment, can be worked normally after so that equipment is connected electric energy, prevent equipment from stopping because disconnecting electric energy
It only works, causes water quality detection work that can not continue, improve the stability and practicability of equipment.
Description of the drawings
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention,
Objects and advantages will become more apparent upon:
Fig. 1 is a kind of structural schematic diagram of aquatic environment monitoring device used for aquiculture of the present invention.
Fig. 2 is a kind of structural schematic diagram of automatic power supply device of the present invention.
Fig. 3 is a kind of detailed construction schematic diagram of automatic power supply device of the present invention.
Fig. 4 is a kind of working state structure schematic diagram of automatic power supply device of the present invention.
Fig. 5 is the partial structural diagram one of Fig. 4.
Fig. 6 is the partial structural diagram two of Fig. 4.
In figure:Alarm -1, signal receiver -2, supporting rod -3, fixed underpan -4, bolt -5, solar panels -6, buoy
Body -7, automatic power supply device -8, detector -9, seal casing -81, main power plant -82, short circuit and actuating mechanism -83, electric energy
Conduction device -84, roller transmission mechanism -85, actuating mechanism -86, standby battery device -87, electric current transmission mechanism -88, power supply
Line -821, controller -822, power generator -823, the first call wire -824, positive electromagnetic block -825, positive ball -826, first
Connecting rod -831, connection fixture block -832, resetting spring -833, the second connecting rod -834, electric current connecting valve -835, contact are opened
Close -836, rectangular block -837, second back-moving spring -838, center of rotation -839, the second connection fixture block -8310, third connecting rod -
8311, electric energy conductor -841, electric energy receiver -842, electric current transmission line -843, flat-pushing bar -851, depending post -852, cooperation
Take turns the -853, first belt -854, driven wheel -855, worm gear pole -856, third resetting spring -857, sliding slot -858, gullet plate -
861, serrated wheel -862, connecting rod -863, buffer spring -864, fixing bracket -865, outer casing -866, starting switch -867,
One accumulator -871, the second accumulator -873, starts contact -874, sense contact -875, ballast-at electric current connecting line -872
881, the second call wire -882, ballast contact -883.
Specific implementation mode
To make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, with reference to
Specific implementation mode, the present invention is further explained.
- Fig. 6 is please referred to Fig.1, the present invention provides a kind of aquatic environment monitoring device technical solution used for aquiculture:Its structure
Including alarm 1, signal receiver 2, supporting rod 3, fixed underpan 4, bolt 5, solar panels 6, buoy float 7, automatic power dress
8, detector 9 is set, the bottom end of the alarm 1 is connected with the top of supporting rod 3, the signal receiver 2 and supporting rod 3
Outer surface is mutually welded, and the bottom end and the top of fixed underpan 4 of the supporting rod 3 are nested, the bolt 5 and 4 spiral shell of fixed underpan
Line connects, and the bottom end of the fixed underpan 4 is equipped with solar panels 6, the bottom end of the solar panels 6 and the top phase of buoy float 7
The lower section of connection, the buoy float 7 is equipped with automatic power supply device 8, and the top insertion of the detector 9 is installed on automatic power dress
8 bottom end is set,
The automatic power supply device 8 includes that seal casing 81, main power plant 82, short circuit and actuating mechanism 83, electric energy pass
Lead device 84, roller transmission mechanism 85, actuating mechanism 86, standby battery device 87, electric current transmission mechanism 88, the active force dress
The inside that 82 insertions are installed on seal casing 81 is set, the main power plant 82 is connected with short circuit with actuating mechanism 83, described
The right end of short circuit and actuating mechanism 83 is equipped with electric energy reception device 84, bottom end and the electric current conveyer of the electric energy reception device 84
The top of structure 88 is electrically connected, and the roller transmission mechanism 85 is fastened and connected with short circuit with actuating mechanism 83, the idler wheel driver
Structure 85 engages connection with actuating mechanism 86, and the bottom end of the standby battery device 87 is connected with the inner surface of seal casing 81,
The main power plant 82 includes power cord 821, controller 822, power generator 823, the first call wire 824, positive electromagnetic block
825, positive ball 826, the power cord 821 are electrically connected with controller 822, bottom end and the power generator 823 of the controller 822
Top be connected, first call wire 824 be electrically connected with positive electromagnetic block 825, and the anode ball 826, which is embedded in, to be installed on just
The right end of the inside of pole electromagnetic block 825, the anode electromagnetic block 825 is nested with short circuit with actuating mechanism 83, it is described short-circuit and
Actuating mechanism 83 is opened including head rod 831, connection fixture block 832, resetting spring 833, the second connecting rod 834, electric current connection
It closes 835, contact switch 836, rectangular block 837, second back-moving spring 838, center of rotation 839, second and connects fixture block 8310, third
Connecting rod 8311, the head rod 831 are fixedly connected with fixture block 832 is connect, 833 and second connecting rod of the resetting spring
834 phases are welded, and bottom end and the rectangular block 837 of second connecting rod 834 be fastened and connected, the electric current connecting valve 835 with it is tactile
Point switch 836 is electrically connected, and the rectangular block 837 and the top of third connecting rod 8311 are interlocked, the third connecting rod 8311
Front surface be equipped with center of rotation 839, the left end of the second back-moving spring 838 is connected with rectangular block 837, the third company
The bottom end of extension bar 8311 connect fixture block 8310 with second and is fastened and connected, the left end of the head rod 831 and positive electromagnetic block
825 nested encryptions, the electric energy conduction device 84 include electric energy conductor 841, electric energy receiver 842, electric current transmission line 843,
The bottom end of the electric energy conductor 841 is equipped with electric energy receiver 842, bottom end and the electric current transmission line of the electric energy receiver 842
843 top electrical connection, the bottom end of the electric current transmission line 843 are electrically connected with electric current transmission mechanism 88, the idler wheel driver
Structure 85 is multiple including flat-pushing bar 851, depending post 852, match wheel 853, the first belt 854, driven wheel 855, worm gear pole 856, third
Position spring 857, sliding slot 858, the flat-pushing bar 851 and 857 nested encryptions of third resetting spring, the left end of the flat-pushing bar 851
It is fastened and connected with depending post 852, the depending post 852 and the front surface of match wheel 853 are interlocked, the match wheel 853 and
One belt 854 is connected, and first belt 854 fits with driven wheel 855, and the worm gear pole 856 is connected with driven wheel 855
It connects, the flat-pushing bar 851 is nested with sliding slot 858, and the outer surface of the worm gear pole 856 is meshed with actuating mechanism 86, described
Actuating mechanism 86 include gullet plate 861, serrated wheel 862, connecting rod 863, buffer spring 864, fixing bracket 865, outer casing 866,
Starting switch 867, the gullet plate 861 engage connection with serrated wheel 862, and the bottom end of the gullet plate 861 is equipped with connecting rod 863,
The bottom end of the connecting rod 863 and 864 nested encryptions of buffer spring, the fixing bracket 865 and the outer surface of outer casing 866 are mutually welded
It connects, the bottom end of the connecting rod 863 is equipped with starting switch 867, and the standby battery device 87 includes the first accumulator 871, electric current
Connecting line 872, the second accumulator 873 start contact 874, sense contact 875, first accumulator 871 and electric current connecting line
872 electrical connections, first accumulator 871 are connected by electric current connecting line 872 with the second accumulator 873, and described start touches
The right end of point 874 is equipped with sense contact 875, and the electric current transmission mechanism 88 includes ballast 881, the second call wire 882, ballast
Contact 883, second call wire 882 are connected with ballast contact 883, and the ballast 881 is internally provided with ballast contact
883, the top of the ballast 881 is electrically connected with the bottom end of electric current transmission line 843.
Solar panels 6 described in this patent are also solar cell module, and multiple solar battery sheets are by the assembling assembled
Part is most important part in core and the solar power system in solar power system, the power cord
821 be the electric wire for transmitting electric current, and the mode of usual electric current transmission is point-to-point transmission.
In progress in use, equipment converts light energy into electric energy by the absorption luminous energy of solar panels 6 provides power for equipment,
Then water quality is detected using detector 9, when detecting unqualified water quality, alarm 1 will sound, and remind work people
Member, when equipment electric energy consumption light, automatic power supply device 8 begins to run, and power generator 823 will disconnect electricity because of electric power deficiency
Flow out of service so that positive electromagnetic block 825 loses the influence of electric current and loses magnetization reaction, then positive ball 826 slowly to
It moves left so that head rod 831 loses the obstruction of positive ball 826, and then resetting spring 833 restores to the original state the first connection
Bar 831 bounces to the left so that contact switch 836 disconnects the pressure of fixture block 832, pops up so that electric current connecting valve
835 turn-off currents, switch are opened, and then 841 turn-off current of electric energy conductor is out of service, and equipment is stopped, and then passes through
Head rod 831 drives the second connecting rod 834 to move downward so that the bottom end of the second connecting rod 834 by rectangular block 837 to
By pushing, second back-moving spring 838 is squeezed so that third connecting rod 8311 is that AnchorPoint top moves right with center of rotation 839
Dynamic, bottom end moves downward, and flat-pushing bar 851 is driven to push to the left, and then flat-pushing bar 851 is matched by the promotion of third resetting spring 857
It closes wheel 853 to rotate forward so that the first belt 854 is subjected to displacement, and rotatory force is transferred to driven wheel 855, then worm gear pole 856
By the rotation of driven wheel 855, to drive serrated wheel 862 to rotate forward, gullet plate 861 is slowly moved down, passes through company
Bar 863 presses buffer spring 864 so that the effect that buffer spring 864 is under pressure deforms upon, retracted downward so that even
The bottom end of bar 863 slowly moves down, and pushes starting switch 867, to start the first accumulator 871 and the second accumulator 873
Bring into operation, then 873 starting current of the first accumulator 871 and the second accumulator so that start contact 874 connect electric current after with
Sense contact 875 is closed, and electric current is transferred to ballast 881, is maintained electric current restarting voltage by ballast 881, is made electricity
Steaming transfer can more be stablized, and then electric current is transferred to electric energy conductor 841 by ballast 881 by electric current transmission line 843 again,
It is continued to run with after making 841 turn-on current of electric energy conductor, electric current is transferred to equipment, electric energy is provided for equipment, maintain normal work
Make.
The present invention solves the prior art since in water general work, power consumption is fast for a long time, it has not been convenient to charge, generally rely on too
Positive energy plate absorption luminous energy is converted to electric energy and provides kinetic energy for equipment, and when being chronically under overcast sky, equipment just cannot get power
It will power off and be stopped because of electric energy deficiency, lead to that water quality detection work can not be carried out in this way, influence to detect asking for work
Topic, the present invention are combined with each other by above-mentioned component, a kind of aquatic environment monitoring device used for aquiculture of the present invention, the device energy
It is enough to start standby battery automatically after device powers down, electric energy is transferred to equipment, it being capable of normal work after so that equipment is connected electric energy
Make, equipment is prevented to be stopped because disconnecting electric energy, causes water quality detection work that can not continue, improve the stability of equipment
And practicability.
The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, for this field skill
For art personnel, it is clear that invention is not limited to the details of the above exemplary embodiments, and without departing substantially from the present invention spirit or
In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action
Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state
Bright restriction, it is intended that including all changes that come within the meaning and range of equivalency of the claims in the present invention
It is interior.Any reference signs in the claims should not be construed as limiting the involved claims.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped
Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should
It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art
The other embodiment being appreciated that.
Claims (8)
1. a kind of aquatic environment monitoring device used for aquiculture, structure includes alarm (1), signal receiver (2), supporting rod
(3), fixed underpan (4), bolt (5), solar panels (6), buoy float (7), automatic power supply device (8), detector (9), it is described
The bottom end of alarm (1) is connected with the top of supporting rod (3), the outer surface phase of the signal receiver (2) and supporting rod (3)
Welding, the bottom end and the top of fixed underpan (4) of the supporting rod (3) are nested, the bolt (5) and fixed underpan (4) spiral shell
Line connects, and the bottom end of the fixed underpan (4) is equipped with solar panels (6), bottom end and the buoy float (7) of the solar panels (6)
Top be connected, the lower section of the buoy float (7) is equipped with automatic power supply device (8), the top insertion peace of the detector (9)
Bottom end loaded on automatic power supply device (8), it is characterised in that:
The automatic power supply device (8) includes seal casing (81), main power plant (82), short circuit and actuating mechanism (83), electricity
It can conduction device (84), roller transmission mechanism (85), actuating mechanism (86), standby battery device (87), electric current transmission mechanism
(88), the embedded inside for being installed on seal casing (81) of the main power plant (82), the main power plant (82) and short circuit
It is connected with actuating mechanism (83), the short circuit and the right end of actuating mechanism (83) are equipped with electric energy reception device (84), the electricity
The bottom end of energy reception device (84) is electrically connected with the top of electric current transmission mechanism (88), the roller transmission mechanism (85) and short circuit
It is fastened and connected with actuating mechanism (83), the roller transmission mechanism (85) engages connection, the standby electricity with actuating mechanism (86)
The bottom end of pool device (87) is connected with the inner surface of seal casing (81).
2. a kind of aquatic environment monitoring device used for aquiculture according to claim 1, it is characterised in that:The active force
Device (82) includes power cord (821), controller (822), power generator (823), the first call wire (824), positive electromagnetic block
(825), positive ball (826), the power cord (821) are electrically connected with controller (822), the bottom end of the controller (822) and
The top of power generator (823) is connected, and first call wire (824) is electrically connected with positive electromagnetic block (825), the anode
Ball (826) insertion is installed on the inside of positive electromagnetic block (825), right end and the short circuit and startup of the anode electromagnetic block (825)
Mechanism (83) is nested.
3. a kind of aquatic environment monitoring device used for aquiculture according to claim 1 or 2, it is characterised in that:It is described short
Road with actuating mechanism (83) includes head rod (831), connect fixture block (832), resetting spring (833), the second connecting rod
(834), electric current connecting valve (835), contact switch (836), rectangular block (837), second back-moving spring (838), center of rotation
(839), second connection fixture block (8310), third connecting rod (8311), the head rod (831) with connect fixture block (832)
Be fixedly connected, the resetting spring (833) is mutually welded with the second connecting rod (834), the bottom end of second connecting rod (834) with
Rectangular block (837) is fastened and connected, and the electric current connecting valve (835) is electrically connected with contact switch (836), the rectangular block
(837) top with third connecting rod (8311) is interlocked, and the front surface of the third connecting rod (8311) is equipped with center of rotation
(839), the left end of the second back-moving spring (838) is connected with rectangular block (837), the bottom of the third connecting rod (8311)
End connect fixture block (8310) with second and is fastened and connected, and the left end of the head rod (831) is nested with positive electromagnetic block (825)
Connection.
4. a kind of aquatic environment monitoring device used for aquiculture according to claim 1, it is characterised in that:The electric energy passes
It includes electric energy conductor (841), electric energy receiver (842), electric current transmission line (843), the electric energy conductor to lead device (84)
(841) bottom end is equipped with electric energy receiver (842), the top of the bottom end and electric current transmission line (843) of the electric energy receiver (842)
End electrical connection, the bottom end of the electric current transmission line (843) is electrically connected with electric current transmission mechanism (88).
5. a kind of aquatic environment monitoring device used for aquiculture according to claim 1, it is characterised in that:The idler wheel passes
Motivation structure (85) include flat-pushing bar (851), depending post (852), match wheel (853), the first belt (854), driven wheel (855),
Worm gear pole (856), third resetting spring (857), sliding slot (858), the flat-pushing bar (851) and third resetting spring (857) are embedding
Set connection, the left end of the flat-pushing bar (851) are fastened and connected with depending post (852), the depending post (852) and match wheel
(853) front surface is interlocked, and the match wheel (853) is connected with the first belt (854), first belt (854) with
Driven wheel (855) fits, and the worm gear pole (856) is connected with driven wheel (855), the flat-pushing bar (851) and sliding slot
(858) it is nested, the outer surface of the worm gear pole (856) is meshed with actuating mechanism (86).
6. a kind of aquatic environment monitoring device used for aquiculture according to claim 1 or 5, it is characterised in that:It is described to open
Motivation structure (86) include gullet plate (861), serrated wheel (862), connecting rod (863), buffer spring (864), fixing bracket (865),
Outer casing (866), starting switch (867), the gullet plate (861) engage connection, the gullet plate with serrated wheel (862)
(861) bottom end is equipped with connecting rod (863), bottom end and buffer spring (864) nested encryptions of the connecting rod (863), the fixation
Holder (865) and the outer surface of outer casing (866) are mutually welded, and the bottom end of the connecting rod (863) is equipped with starting switch (867).
7. a kind of aquatic environment monitoring device used for aquiculture according to claim 1, it is characterised in that:The standby electricity
Pool device (87) include the first accumulator (871), electric current connecting line (872), the second accumulator (873), start contact (874),
Sense contact (875), first accumulator (871) are electrically connected with electric current connecting line (872), first accumulator (871)
It is connected with the second accumulator (873) by electric current connecting line (872), the right end for starting contact (874) is equipped with induction and touches
Point (875).
8. a kind of aquatic environment monitoring device used for aquiculture according to claim 1 or 4, it is characterised in that:The electricity
It includes ballast (881), the second call wire (882), ballast contact (883), second call wire to spread transfer mechanism (88)
(882) it is connected with ballast contact (883), the ballast (881) is internally provided with ballast contact (883), the ballast
(881) top is electrically connected with the bottom end of electric current transmission line (843).
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CN201810474195.1A CN108683222A (en) | 2018-05-17 | 2018-05-17 | A kind of aquatic environment monitoring device used for aquiculture |
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CN110716023A (en) * | 2019-10-24 | 2020-01-21 | 滨州市马士滨生物科技有限公司 | Water quality environment monitoring device for aquaculture |
CN110986337A (en) * | 2019-12-06 | 2020-04-10 | 珠海格力电器股份有限公司 | Electric appliance reset control method and device and electric appliance |
CN111474310A (en) * | 2020-04-13 | 2020-07-31 | 河海大学 | Multi-parameter multi-point-position water-covering and gap water synchronous detector |
CN114414762A (en) * | 2022-01-29 | 2022-04-29 | 杨卫卫 | Water ecology monitoring system |
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CN201307111Y (en) * | 2008-12-08 | 2009-09-09 | 潘培锋 | Intelligent water quality detector based on solar energy |
CN205610319U (en) * | 2016-03-24 | 2016-09-28 | 云南中科物联网科技有限公司 | A solar power unit for basic station |
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CN110716023A (en) * | 2019-10-24 | 2020-01-21 | 滨州市马士滨生物科技有限公司 | Water quality environment monitoring device for aquaculture |
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CN111474310A (en) * | 2020-04-13 | 2020-07-31 | 河海大学 | Multi-parameter multi-point-position water-covering and gap water synchronous detector |
CN114414762A (en) * | 2022-01-29 | 2022-04-29 | 杨卫卫 | Water ecology monitoring system |
CN114414762B (en) * | 2022-01-29 | 2024-03-26 | 杨卫卫 | Water ecology monitoring system |
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Application publication date: 20181019 |