CN205585114U - Self -service management system of fish bowl - Google Patents

Abstract

The utility model discloses a self -service management system of fish bowl. This self -service management system of fish bowl is including quality of water sensor, central processing unit, water -circulating pipe, water flow drive device and UV bactericidal lamp, quality of water sensor and central processing unit electricity is connected, and quality of water sensor settings is used for detecting the quality of water parameter and with quality of water send parameters to central processing unit in the fish bowl, water -circulating pipe's delivery port and water inlet all set up in the fish bowl, water flow drive device and UV bactericidal lamp set up and link to each other in water -circulating pipe and with central processing unit, central processing unit is used for being the water sterilization in the fish bowl according to quality of water parameter control water flow drive device and the operation of UV bactericidal lamp. When the quality of water parameter demonstration that detects when the quality of water sensor need be optimized quality of water, the water in the water flow drive device drive fish bowl flow past from water -circulating pipe, and water sterilization that the UV bactericidal lamp be flowing water among the water -circulating pipe to the automatic clearance of quality of water in the fish bowl, optimizes the environment in the fish bowl, the work load of reduction people for arranging the fish bowl.

Description

A kind of fish jar self-care system

Technical field

This utility model relates to fish farming installation technical field, particularly relates to a kind of fish jar self-care system.

Background technology

Along with economic quick growth, people are while living standard improves, and the pursuit to cultural life improves constantly.Pet fish is as a fresh and alive art work; make people pleasing; find pleasure in and forget tired; and because the fine implied meaning itself being endowed; liked by more and more people; therefore, sight fish jar, the aesthetic requirement growing to meet people are often placed in family, office space or other public arena.

But fish in fish jar and fish jar needs artificial timing to arrange, such as, changing water, feed, regulate water temperature etc., when fish jar quantity is many or fish jar is bulky, artificial workload is big, sometimes also needs to many individuals and completes.Further, above job demand is periodically carried out, busy go out nobody when looking after, cause fish jar water degradation, fish dies because of a variety of causes.

Utility model content

In view of this, this utility model embodiment provides a kind of fish jar self-care system, it is possible to automatically clear up fish jar, optimizes the environment in fish jar, reduces the workload artificially arranging fish jar.

This utility model embodiment provides a kind of fish jar self-care system, including water quality sensor, central processing unit, water-circulating pipe, current driving means and UV germicidal lamp；

Described water quality sensor electrically connects with described central processing unit, and it is interior for detecting water quality parameter and described water quality parameter being sent to described central processing unit that described water quality sensor is arranged at fish jar；

The outlet of described water-circulating pipe and water inlet may be contained within described fish jar；

In described current driving means is arranged at described water-circulating pipe with UV germicidal lamp and it is connected with described central processing unit；

Described central processing unit for operating to the water sterilization in described fish jar according to the described water quality parameter described current driving means of control and UV germicidal lamp.

Wherein, also including two-way charging portable power source, described two-way charging portable power source is for powering for described fish jar self-care system.

Wherein, the charging voltage of described two-way charging portable power source is 4.5V-80V.

Wherein, also include turbidity transducer and change water device, described turbidity transducer and change water device and all electrically connect with described central processing unit；

Described turbidity transducer is for detecting the turbidity data in described fish jar and described turbidity data being sent to described central processing unit；

It is described changing water in fish tank that described central processing unit is additionally operable to change water plant running according to the control of described turbidity data.

Wherein, also include that functional socket, described functional socket include that multiple socket, each functional unit of described fish jar self-care system are powered by a socket respectively.

Wherein, each described socket has been independently arranged power switch, so that each described functional unit is independently-powered.

Wherein, also include that multiple power module, described power module are series between described power switch and described functional unit and electrically connect with described central processing unit, for the power supply parameter corresponding for the configuration of each functional unit.

Wherein, also include that wireless module, described WIFI module electrically connect with described central processing unit, for receiving the control signal that external smart terminal sends, and described control signal is sent to described central processing unit to control described fish jar self-care system.

Wherein, also including photographic head, described photographic head is electrically connected with described wireless module by described central processing unit, for gathering the view data in described fish jar and by wireless module, described view data being sent to described external smart terminal.

Wherein, also include that touch control display apparatus, described touch control display apparatus are connected with described central processing unit, be used for showing in real time and arranging the running status of described fish jar.

A kind of fish jar self-care system that this utility model embodiment provides, water quality sensor and water-circulating pipe are set in fish jar, current driving means and UV germicidal lamp are set in water-circulating pipe, when the water quality parameter that water quality sensor detects show need water quality is optimized time, central processing unit controls current driving means and UV germicidal lamp runs, current driving means drives the water in fish jar to flow through from water-circulating pipe, UV germicidal lamp is the water sterilization of flowing water in water-circulating pipe, realize the automatic cleaning of water quality in fish jar, optimize the environment in fish jar, reduce the workload artificially arranging fish jar.

Accompanying drawing explanation

The detailed description that non-limiting example is made made with reference to the following drawings by reading, other features, objects and advantages of the present utility model will become more apparent upon:

Fig. 1 is the structure chart of the first embodiment of a kind of fish jar self-care system provided in this utility model detailed description of the invention.

Fig. 2 is the structure chart of the second embodiment of a kind of fish jar self-care system provided in this utility model detailed description of the invention.

Fig. 3 be a kind of fish jar self-care system provided in this utility model detailed description of the invention the second embodiment in the structure chart of functional socket.

Detailed description of the invention

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings.It is understood that specific embodiment described herein is used only for explaining this utility model, rather than to restriction of the present utility model.It also should be noted that, for the ease of describing, accompanying drawing illustrate only the part relevant to this utility model rather than full content.

Refer to Fig. 1, it is the structure chart of the first embodiment of a kind of fish jar self-care system of offer in this utility model detailed description of the invention.As it can be seen, this fish jar self-care system includes water quality sensor 30, central processing unit 10, water-circulating pipe 20, current driving means 21 and UV germicidal lamp 22；

Described water quality sensor 30 electrically connects with described central processing unit 10, and it is interior for detecting water quality parameter and described water quality parameter being sent to described central processing unit 10 that described water quality sensor 30 is arranged at fish jar 1；

The outlet of described water-circulating pipe 20 and water inlet may be contained within described fish jar 1；

In described current driving means 21 is arranged at described water-circulating pipe 20 with UV germicidal lamp 22 and it is connected with described central processing unit 10；

Described central processing unit 10 is for controlling, according to described water quality parameter, the water sterilization that described current driving means 21 and UV germicidal lamp 22 operates in described fish jar 1.

Water quality sensor 30 is for detecting the health status of water quality in fish jar 1, the content of the most various microorganisms, such as algae, antibacterial.For Fish, the certain microorganism of its growing environment needs adapted to most exists, this little ecosystem of guarantee fish jar 1 maintains fragile balance, the kind of microorganism not to or number the most right, being likely to cause the balance in this little ecosystem of fish jar 1 to be broken, the growth conditions in turn resulting in Fish deteriorates even dead.It is said that in general, the quantity of the microorganism in fish jar 1 shows a rising trend in its natural state, so needing every a period of time, microorganism to be cleared up.

In this programme, water quality sensor 30 is set and detects the content of microorganism in fish jar 1, when the too high levels of microorganism, the water in fish jar 1 is carried out sterilization processing.The process of concrete sterilization processing is as follows: arrange the water-circulating pipe 20 of both ends open, current driving means 21 and UV germicidal lamp 22 is set in water-circulating pipe 20, when needs carry out sterilization processing to water, current driving means 21 drives the water in fish jar 1 to flow in water-circulating pipe 20, water is through UV germicidal lamp 22 in flow process, and the UV germicidal lamp 22 water to flowing through in water-circulating pipe 20 carries out sterilization processing.In a circulating manner water is carried out sterilization processing, the utilization rate of water on the one hand with using water wisely, can be improved；On the other hand the water environment in fish jar 1 is changed the most suddenly, it is to avoid environmental catastrophe causes the inadaptable of fish in fish jar 1 and then causes adverse consequences.

Current driving means 21 in this programme is driven by motor；UV germicidal lamp 22 is the fluorescent tube utilizing the special role of ultraviolet to make, and the removal to water green algae and antibacterial has good effect, but will not injure the antibacterial useful to fish, such as nitrobacteria.Water-circulating pipe 20 is for improving cycle efficieny, and the water inlet degree of depth in water of submerging with outlet is different, it is however generally that, water inlet is near the bottom, and outlet is near the water surface；It is of course also possible to both are arranged in turn.Further, in order to the fish supported in fish jar 1 not damaged in sterilization process.

A kind of fish jar self-care system that this utility model embodiment provides, water quality sensor and water-circulating pipe are set in fish jar, current driving means and UV germicidal lamp are set in water-circulating pipe, when the water quality parameter that water quality sensor detects show need water quality is optimized time, central processing unit controls current driving means and UV germicidal lamp runs, current driving means drives the water in fish jar to flow through from water-circulating pipe, UV germicidal lamp is the water sterilization of flowing water in water-circulating pipe, realize the automatic cleaning of water quality in fish jar, optimize the environment in fish jar, reduce the workload artificially arranging fish jar.

Refer to Fig. 2, it is the structure chart of the second embodiment of a kind of fish jar self-care system of offer in this utility model detailed description of the invention.As it can be seen, this fish jar self-care system includes water quality sensor 30, central processing unit 10, water-circulating pipe 20, current driving means 21 and UV germicidal lamp 22；

Described water quality sensor 30 electrically connects with described central processing unit 10, and it is interior for detecting water quality parameter and described water quality parameter being sent to described central processing unit 10 that described water quality sensor 30 is arranged at fish jar 1；

The outlet of described water-circulating pipe 20 and water inlet may be contained within described fish jar 1；

In described current driving means 21 is arranged at described water-circulating pipe 20 with UV germicidal lamp 22 and it is connected with described central processing unit 10；

Described central processing unit 10 is for controlling, according to described water quality parameter, the water sterilization that described current driving means 21 and UV germicidal lamp 22 operates in described fish jar 1.

On the basis of above-described embodiment, also including two-way charging portable power source 40, described two-way charging portable power source 40 is for powering for described fish jar self-care system.

Two-way charging portable power source 40, as the term suggests, possessing the function of two-way charging, can carry out with charging and discharging simultaneously, i.e. receiving the charging of external power source, while powering to other power supply unit；Arrange simultaneously or detachably.This two-way charging portable power source 40 has multiple USB interface, biphase socket and three-phase socket, can access all function devices of fish jar 1, can also disassemble simultaneously and charge for other electronic product.

Preferably, the charging voltage of described two-way charging portable power source 40 is 4.5V-80V.

The two-way acceptable charge voltage range of charging portable power source 40 is wide, can be its charging with the most most of chargers, but be available with the power supply of various cleaning spread of voltage, such as solar energy, wind energy especially and realize environmental protection charging.

Preferably, also include turbidity transducer 50 and change water device 60, described turbidity transducer 50 and change water device 60 and all electrically connect with described central processing unit 10；

Described turbidity transducer 50 is for detecting the turbidity data in described fish jar 1 and described turbidity data being sent to described central processing unit 10；

Described central processing unit 10 be additionally operable to according to described turbidity data control described in change water device 60 and operate to described fish jar 1 and change water.

Whether the water turbidity in fish jar 1, when being not only the problem of content of microorganisms, changes the water in fish jar 1 by changing water device 60, and concrete water turbidity degree is detected by turbidity transducer 50, change water device 60 and run and controlled by central processing unit 10.For improving the utilization rate of water further, changing water device 60 is not that the water directly extracted out in fish jar 1 is abandoned, but is retracted to sedimentation tank and carries out precipitation recovery, in case reusing when changing water next time.Because being not to be directly accessed tap water when changing water, but tap water being linked into sedimentation tank, removing the water of water solublity irritative gas after placing a period of time in atmosphere, placement process can be carried out with the precipitation process of recycle-water simultaneously.

Another kind of preferably mode, also includes functional socket 70, refer to Fig. 3, described functional socket 70 includes multiple socket 71, and each functional unit of described fish jar self-care system is powered by a socket 71 respectively.

Each functional unit described in this programme refers to realize in Fig. 2 each structure member of design function, such as central processing unit 10, water quality sensor 30 etc..Functional socket 70, except being powered by two-way charging portable power source 40, is powered also by mains supply 00, and mains supply 00 power supply is the common technology mode of charging equipment, is not described further at this.

Further, each described socket 71 has been independently arranged power switch 72, so that each described functional unit is independently-powered.

Further, also include that multiple power module 73, described power module 73 are series between described power switch 72 and described functional unit and electrically connect with described central processing unit 10, for the power supply parameter corresponding for the configuration of each functional unit.

Powered by socket 71, power switch 72 controls break-make, power module 73 controls the setting of power supply parameter, can be that each function power supply realizes independently-powered and power supply parameter and independently controls, the safety of circuit in raising fish jar 1, it is to avoid short-circuit.

Preferably, also include wireless module 80, described WIFI module electrically connects with described central processing unit 10, for receiving the control signal that external smart terminal sends, and described control signal is sent to described central processing unit 10 to control described fish jar self-care system.

Wireless module 80 is mainly used in realizing the long-range control to fish jar 1, and such as mobile phone sending signal controls food throwing machine feeding etc. to central processing unit 10.

Wherein, also include that photographic head 90, described photographic head 90 are electrically connected with described wireless module 80 by described central processing unit 10, for gathering the view data in described fish jar 1 and described view data being sent to described external smart terminal by wireless module 80.

Photographic head 90 can aid in the Fish state that user views and admires in fish jar 1 at any time, is appreciating fish, body and mind relaxing away from the local of fish jar 1.

Further, also include that touch control display apparatus 100, described touch control display apparatus 100 are connected with described central processing unit 10, be used for showing in real time and arranging the running status of described fish jar 1.

Touch control display apparatus 100 can show all running statuses of fish jar 1 when fish jar 1 exterior-excess reality, and user can adjust fish jar 1 parameters at any time by contact panel, improves fish jar 1 environment.

Note, above are only preferred embodiment of the present utility model and institute's application technology principle.It will be appreciated by those skilled in the art that this utility model is not limited to specific embodiment described here, various obvious change can be carried out for a person skilled in the art, readjust and substitute without departing from protection domain of the present utility model.Therefore, although this utility model being described in further detail by above example, but this utility model is not limited only to above example, in the case of conceiving without departing from this utility model, other Equivalent embodiments more can also be included, and scope of the present utility model is determined by scope of the appended claims.

Claims (10)

1. a fish jar self-care system, it is characterised in that include that water quality sensor, central authorities process Device, water-circulating pipe, current driving means and UV germicidal lamp；

Described water quality sensor electrically connects with described central processing unit, and described water quality sensor is arranged in fish jar For detecting water quality parameter and described water quality parameter being sent to described central processing unit；

The outlet of described water-circulating pipe and water inlet may be contained within described fish jar；

Process in described current driving means and UV germicidal lamp are arranged at described water-circulating pipe and with described central authorities Device is connected；

Described central processing unit is for controlling described current driving means and UV sterilization according to described water quality parameter Lamp operates to the water sterilization in described fish jar.

Fish jar self-care system the most according to claim 1, it is characterised in that also include two-way filling Electric moveable power supply, described two-way charging portable power source is for powering for described fish jar self-care system.

Fish jar self-care system the most according to claim 2, it is characterised in that described two-way charging The charging voltage of portable power source is 4.5V-80V.

Fish jar self-care system the most according to claim 1, it is characterised in that also include that turbidity passes Sensor and change water device, described turbidity transducer and change water device and all electrically connect with described central processing unit；

Described turbidity transducer is for detecting the turbidity data in described fish jar and being sent to by described turbidity data Described central processing unit；

It is described fish that described central processing unit is additionally operable to change water plant running according to the control of described turbidity data Cylinder changes water.

Fish jar self-care system the most according to claim 1, it is characterised in that also include that function is inserted Seat, described functional socket includes multiple socket, and each functional unit of described fish jar self-care system is respectively Powered by a socket.

Fish jar self-care system the most according to claim 5, it is characterised in that each described socket It is independently arranged power switch, so that each described functional unit is independently-powered.

Fish jar self-care system the most according to claim 6, it is characterised in that also include multiple electricity Source module, described power module be series between described power switch and described functional unit and with described central authorities Processor electrically connects, for the power supply parameter corresponding for the configuration of each functional unit.

8. according to the fish jar self-care system described in any one of claim 1～7, it is characterised in that also wrap Including wireless module, described WIFI module electrically connects with described central processing unit, is used for receiving external smart terminal The control signal sent, and described control signal is sent to described central processing unit to control described fish jar certainly Help management system.

Fish jar self-care system the most according to claim 8, it is characterised in that also include photographic head, Described photographic head is electrically connected with described wireless module by described central processing unit, is used for gathering in described fish jar View data and described view data is sent to described external smart terminal by wireless module.

10. according to the fish jar self-care system described in any one of claim 1～7, it is characterised in that also Including touch control display apparatus, described touch control display apparatus is connected with described central processing unit, for display in real time With the running status arranging described fish jar.