CN206989585U - Oxygenerator control system - Google Patents

Abstract

The utility model discloses oxygenerator control system, including shell, oxygen control module processed and power supply module；Oxygen control module processed includes control module, communication module, oxygenerator, air inlet pipe, escape pipe, air supply pipe；Oxygenerator is connected with control module, and control module is connected by communication module with the intelligent control end of outside；First air supply pipe is provided with the first valve, and the second air supply pipe is provided with the second valve；Intelligent control end is used to send the first control signal to control module by communication module, so that control module controls the working condition of oxygenerator, the first valve and the second valve according to the first control signal；Control module is additionally operable to send the working condition of oxygenerator, the first valve and the second valve to intelligent control end.The utility model has the advantage of that can realize to control oxygen control module processed whenever and wherever possible by intelligent control end, keeper is facilitated to be managed oxygenerator.

Description

Oxygenerator control system

Technical field

It the utility model is related to oxygenerator control system.

Background technology

The principle of oxygenerator is to utilize air separation technology, first by air with it is high density compressed recycling air in respectively into Point the difference of condensation point be allowed to carry out gas-liquid separation at a certain temperature, further rectifying and obtain.Nowadays industrial system The use of oxygen machine is more and more extensive, but the oxygenerator quantity that factory uses is more, the bad management and control of keeper.

Utility model content

For overcome the deficiencies in the prior art, the purpose of this utility model is to provide oxygenerator control system, and it can be real Now to the remote control of oxygenerator.

The purpose of this utility model is realized using following technical scheme：

Oxygenerator control system, including shell, oxygen control module processed and power supply module；

Oxygen control module processed include control module, communication module, oxygenerator, air inlet pipe, escape pipe, air supply pipe and；Control Module is connected by communication module with the intelligent control end of outside；

Shell is provided with air inlet, the first oxygen port, the second oxygen port and gas outlet；Air supply pipe include the first air supply pipe and Second air supply pipe, the first air supply pipe are provided with the first valve, and the second air supply pipe is provided with the second valve；Air inlet passes through air inlet pipe Connected with oxygenerator, gas outlet is connected by escape pipe with oxygenerator, and the first oxygen port is connected by the first air supply pipe and oxygenerator Connect, the second oxygen port is connected by the second air supply pipe with oxygenerator；

Intelligent control end is used for by communication module the first control signal of transmission to control module so that control module according to The working condition of first control signal control oxygenerator, the first valve and the second valve；Control module be additionally operable to by oxygenerator, The working condition of first valve and the second valve is sent to intelligent control end；

Power supply module is powered for oxygen control module processed.

Preferably, oxygen control module processed also includes the touch-screen on shell, touch-screen is used for the behaviour according to user Make to send the second control signal to control module, so that control module controls oxygenerator, the first valve according to the second control signal With the working condition of the second valve；

Control module, which is additionally operable to send the working condition of oxygenerator, the first valve and the second valve to touch-screen, to be shown Show.

Preferably, on shell and it is provided with the first indicator lamp, and the second oxygen port position at the first oxygen port position correspondence Corresponding position is provided with the second indicator lamp；Control module is used for the working state control according to oxygenerator, the first valve and the second valve The working condition of first indicator lamp and the second indicator lamp.

Preferably, power supply module includes solar panels, charging control unit, battery and power switch, solar panels Connected by charging control unit with battery, battery is powered by power switch for oxygen control module processed.

Compared with prior art, the beneficial effects of the utility model are：It can be realized whenever and wherever possible by intelligent control end Control oxygen control module processed, facilitates keeper to be managed oxygenerator.

Brief description of the drawings

Fig. 1 is the structural representation one of oxygenerator control system of the present utility model；

Fig. 2 is the structural representation two of oxygenerator control system of the present utility model；

Fig. 3 is the module connection figure of oxygenerator control system of the present utility model.

In figure：00th, shell；11st, the first oxygen port；110th, the first indicator lamp；12nd, the second oxygen port；120th, the second instruction Lamp；13rd, air inlet；14th, gas outlet；15th, touch-screen；16th, switch；17th, solar panels；20th, handle.

Embodiment

Below, with reference to accompanying drawing and embodiment, the utility model is described further：

Oxygenerator control system, as shown in Fig. 1 to 2, including shell 00, oxygen control module processed and power supply module, oxygen control processed Molding block is located in shell 00.

Oxygen control module processed includes control module, communication module, oxygenerator, air inlet pipe, escape pipe and air supply pipe；Such as Fig. 3 Shown, oxygenerator is electrically connected with control module, and control module is connected by communication module with the intelligent control end of outside.Shell 00 is provided with the first oxygen port 11, air inlet 13 and gas outlet 14；Air inlet pipe and air inlet 13 connect, and air enters from air inlet 13 Enter, entered by air inlet pipe in oxygenerator；Air supply pipe includes the first air supply pipe, one end of the first air supply pipe and the first oxygen port 11 Connection, oxygen caused by oxygenerator are discharged by the first air supply pipe and the first oxygen port 11；Escape pipe and gas outlet 14 connect, system Waste gas is discharged by escape pipe and gas outlet 14 caused by oxygen machine.Air enters oxygenerator, and oxygenerator carries out oxygen processing processed, oxygen processed The waste gas of processing generation is excluded by gas outlet 14, and the oxygen of generation is discharged by the first oxygen port 11.

Preferably, the second oxygen port 12 is additionally provided with shell 00；Air supply pipe also includes the second air supply pipe, the second air supply pipe One end connected with oxygenerator, the other end of the second air supply pipe is connected with the second oxygen port 12；Oxygen passes through caused by oxygenerator First air supply pipe and the second oxygen port 12 discharge.

Intelligent control end is used for by communication module the first control signal of transmission to control module so that control module according to First control signal controls the working condition of oxygenerator；Oxygen is obtained by the first oxygen port 11, or passes through the second oxygen port Steam and/or oxygen caused by 12 acquisitions.Intelligent control end can be smart mobile phone or tablet personal computer, and user can pass through intelligence Mobile phone or tablet personal computer control oxygen control module processed whenever and wherever possible.

First air supply pipe is provided with the first valve, and the second air supply pipe is provided with the second valve；Air is provided with air inlet 13 Screen pack.

Preferably, oxygen control module processed also includes touch-screen 15, touch-screen 15 connects with control module；Touch-screen 15 is set In on shell 00.Touch-screen 15 is used to send the second control signal to control module according to the operation of user, so that control module The working condition of oxygenerator, the first valve and the second valve is controlled according to the second control signal；For example, the second valve of control closes Close, the first valve opening, oxygenerator work, realize that the first oxygen port 11 discharges oxygen；Control the second valve opening, oxygenerator work Make and the first valve is closed, realize that the second oxygen port 12 discharges oxygen.Control module is additionally operable to oxygenerator, the first valve and The working condition of two valves sends to touch-screen 15 and shown.Control module is additionally operable to oxygenerator, the first valve and second The working condition of valve is sent to intelligent control end.

Power supply module power interface, power switch 16, solar panels 17, charging control unit and battery, power switch 16 on shell 00.Solar panels 17 are located at the top surface of shell 00, and solar panels 17 pass through charging control unit and battery Connection；Power interface is used to connect with the power supply of outside, and power interface and battery are connected with power switch 16, and pass through electricity Source switch 16 is powered for whole system.

Control module is additionally operable to obtain the electric quantity signal of battery, and electric quantity signal is sent to touch-screen 15 and shown Show.

Oxygen control module processed also includes the first indicator lamp 110 and the second indicator lamp 120；First indicator lamp 110 is located at shell Position on 00 and corresponding to the first oxygen port 11, the second indicator lamp 120 position on shell 00 and corresponding to the second oxygen port 12 Put.Control module is additionally operable to when the first oxygen port 11 discharges oxygen, and the first indicator lamp 110 of control is lighted；And in the second oxygen When gas port 12 discharges oxygen and/or steam, the second indicator lamp 120 of control is lighted.

The upper end of shell 00 is additionally provided with handle 20, facilitates user to pick up oxygenerator control system；Specifically, handle 20 Both ends and the rotation connection of the upper end of shell.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various Corresponding change and deformation, and all these changes and deformation should all belong to the protection of the utility model claims Within the scope of.

Claims (4)

1. oxygenerator control system, it is characterised in that including shell, oxygen control module processed and power supply module；

Oxygen control module processed includes control module, communication module, oxygenerator, air inlet pipe, escape pipe, air supply pipe；Control module is led to The intelligent control end that communication module is crossed with outside connects；

Shell is provided with air inlet, the first oxygen port, the second oxygen port and gas outlet；Air supply pipe includes the first air supply pipe and second Air supply pipe, the first air supply pipe are provided with the first valve, and the second air supply pipe is provided with the second valve；Air inlet passes through air inlet pipe and system Oxygen machine is connected, and gas outlet is connected by escape pipe with oxygenerator, and the first oxygen port is connected by the first air supply pipe with oxygenerator, the Two oxygen ports are connected by the second air supply pipe with oxygenerator；

Intelligent control end is used to send the first control signal to control module by communication module, so that control module is according to first The working condition of control signal control oxygenerator, the first valve and the second valve；Control module is additionally operable to oxygenerator, the first valve The working condition of door and the second valve is sent to intelligent control end；

Power supply module is powered for oxygen control module processed.

2. oxygenerator control system as claimed in claim 1, it is characterised in that oxygen control module processed also includes on shell Touch-screen, touch-screen is used to send the second control signal to control module according to the operation of user so that control module according to The working condition of second control signal control oxygenerator, the first valve and the second valve；Control module is additionally operable to oxygenerator, The working condition of one valve and the second valve, which is sent to touch-screen, to be shown.

3. oxygenerator control system as claimed in claim 1, it is characterised in that on shell and at the first oxygen port position correspondence Provided with being provided with the second indicator lamp at the first indicator lamp, and the second oxygen port position correspondence；Control module is used for according to oxygenerator, the The working condition of the indicator lamp of working state control first and the second indicator lamp of one valve and the second valve.

4. oxygenerator control system as claimed in claim 1, it is characterised in that power supply module includes solar panels, charging control Unit, battery and power switch processed；Solar panels are connected by charging control unit with battery, and battery is opened by power supply Close and powered for oxygen control module processed.