CN205234449U - Automatic first control system of optometry - Google Patents

Abstract

The utility model relates to an automatic first control system of optometry, including removing intelligent control terminal, the first host computer main control unit of optometry, left mirror plate controller, right mirror plate controller and wireless communication module, remove the intelligent control terminal with the optometry first host computer main control unit pass through wireless communication module communication connection, the first host computer main control unit input of optometry is connected with set photoelectric sensing circuit and interpupillary distance photoelectric sensing circuit respectively, the first host computer main control unit output of optometry is connected with set motor -drive circuit and interpupillary distance motor -drive circuit respectively, the wireless communication mode of passing through this automatic first control system of optometry has realized removing the information transmission between intelligent control terminal, the first host computer main control unit of optometry, left mirror plate controller and the right mirror plate controller, and the communication is stable, the network deployment is convenient, also provides convenience for the instrument installation, has cancelled relevant connecting wire, the cost is reduced.

Description

Automatically an optometry control system

Technical field

The utility model relates to a kind of opticianry inspection apparatus field, is specifically related to a kind of optometry head control automaticallySystem processed.

Background technology

Automatically optometry head is a kind of precision instrument that eye is carried out to objective type optometry, and it can detect eyesAmetropia degree, comprise myopia, long sight, astigmatism, binocular vision balance, heterophoria, eyesight merge,The visual functions such as stereopsis, provide prescription data for the eyesight of eyes detects and joins mirror.

Automatically optometry head comprises following components: an optometry main frame, print seat, mobile intelligent terminal and beThe power supply adaptor of mobile intelligent terminal charging. Mobile intelligent terminal is normally as the manipulation of optometry head automaticallyBox uses, and is positioned on optometry table, and mobile intelligent terminal is all selected panel computer under normal circumstances.

Automatic optometry head in the market adopts wire communication to control mostly, apparatus installation and operation bandIt is inconvenient to come, inconvenient networking.

Utility model content

In order to overcome the defect existing in above-mentioned prior art, the purpose of this utility model is to provide a kind of networkingConvenient, be convenient to an automatic optometry control system of installing.

To achieve these goals, the utility model provides an a kind of automatic optometry control system, comprises and movingMoving control of intelligent terminal, an optometry main frame master controller, left mirror disk controller, right mirror disk controller and wirelessCommunication module, a described intelligent movable control terminal and described optometry main frame master controller is by described channel radioLetter module communication connects, and a described optometry main frame master controller input is connected with respectively convergent light electric induction electricityRoad and interpupillary distance photoelectric sensor circuit, an optometry main frame master controller by described wireless communication module to mobile intelligenceCan control terminal send the letter that described set photoelectric sensor circuit and/or interpupillary distance photoelectric sensor circuit detectBreath, a described optometry main frame master controller output is connected with respectively set motor-drive circuit and interpupillary distance motorDrive circuit, intelligent movable control terminal is sent and controls to an optometry main frame main controller by wireless communication moduleThe instruction of set motor-drive circuit and/or the operation of interpupillary distance motor-drive circuit, a described optometry main frame master controlDevice is according to the operation of gathering motor-drive circuit and/or interpupillary distance motor-drive circuit described in this instruction control;

A described optometry main frame master controller is connected with described left mirror disk controller, right mirror disk controller respectively,Mobile intelligent terminal is sent and controls left mirror disk or the right side to an optometry main frame master controller by wireless communication moduleThe instruction of mirror disk operation, a described optometry main frame master controller is according to the left mirror disk of instruction control or the right mirror that receiveThe operation of dish.

Intelligent movable control terminal is given an order to an optometry main frame master controller by wireless communication module, testsShaven head main frame master controller is resolved the order receiving is current, tests if control the order of interpupillary distance or setShaven head main frame main controller controls corresponding motor drive circuit, thus drive corresponding electric machine rotation to realize interpupillary distanceOr the measurement of set; If control the order of left mirror disk or right mirror disk, an optometry main frame master controller will be orderedOrder is forwarded to left mirror disk controller or right mirror disk controller, and left mirror disk controller or right mirror disk controller are according to lifeCorresponding motor drive circuit is controlled in order, drives corresponding electric machine rotation, and driven by motor is equipped with the mirror of different eyeglassesDisc spins, thus realize optometry.

This automatic optometry control system has realized intelligent movable control terminal, optometry by wireless communication modeCommunication between main frame master controller, left mirror disk controller and right mirror disk controller, and communication robust,Networking is convenient, also provides convenience for apparatus installation, has cancelled relevant connecting line, has reduced cost.

Further, the output of described left mirror disk controller and right mirror disk controller is connected with mirror disk respectivelyMotor-drive circuit, prism motor-drive circuit, help mirror motor drive circuit and help a motor-drive circuit,The input of described left mirror disk controller and right mirror disk controller is connected with the induction of mirror disk initial position respectivelyCircuit, prism initial position sensor circuit, help mirror initial position sensor circuit and help an initial position induced electricityRoad;

Described left mirror disk controller, right mirror disk controller receive respectively by mirror disk initial position sensor circuit, ribMirror initial position sensor circuit, help mirror initial position sensor circuit and/or help an initial position sensor circuit instituteThe information detecting, and received information is sent to an optometry main frame master controller, a described optometry main frameMaster controller sends to described mobile control terminal by wireless communication module by this information, described mobile controlTerminal is according to a received information control optometry main frame;

Described mobile control terminal sends control by wireless communication module to a described optometry main frame master controllerMake left mirror disk or right mirror disk mirror disk motor-drive circuit, prism motor-drive circuit, help mirror motor drive electricityRoad or help the instruction of a motor-drive circuit, a described optometry main frame master controller is according to received instruction controlMake left mirror disk or right mirror disk mirror disk motor-drive circuit, prism motor-drive circuit, help mirror motor drive electricityRoad or help the operation of motor-drive circuit.

Left mirror disk controller and right mirror disk controller drive electricity by mirror disk motor-drive circuit, prism motorRoad, help mirror motor drive circuit and help a motor-drive circuit and mirror disk initial position sensor circuit, prismInitial position sensor circuit, help mirror initial position sensor circuit and help an initial position sensor circuit to realize and be equipped withThe mirror disk rotation of different eyeglasses, meanwhile, mirror disk initial position sensor circuit, prism initial position sensor circuit,Help mirror initial position sensor circuit and help an initial position sensor circuit to detect the position letter of its corresponding lenz discBreath, for optometry is provided convenience.

Further, described set motor-drive circuit is divided into right set motor-drive circuit and left set motorDrive circuit, described interpupillary distance motor-drive circuit is divided into right interpupillary distance motor-drive circuit and left interpupillary distance motor drivesCircuit, described set photoelectric sensor circuit is divided into right set photoelectric sensor circuit and left convergent light electric induction electricityRoad, described interpupillary distance photoelectric sensor circuit is divided into right interpupillary distance photoelectric sensor circuit and left interpupillary distance photoelectric sensor circuit;

The set Electric Machine Control output of a described optometry main frame master controller connects respectively described right set electricityThe control input end of drive circuit and left set motor-drive circuit; A described optometry main frame master controllerInterpupillary distance Electric Machine Control output connects respectively described right interpupillary distance motor-drive circuit and left interpupillary distance motor drives electricityThe control input end on road; The output of described right set photoelectric sensor circuit and left set photoelectric sensor circuit dividesBe not connected to the respective input of a described optometry main frame master controller, described right interpupillary distance photoelectric sensor circuit andThe output of left interpupillary distance photoelectric sensor circuit is connected to respectively the corresponding defeated of a described optometry main frame master controllerEnter end.

Further, described wireless communication module is wifi module or bluetooth module. Wifi communication and bluetoothCommunications setting is simple, easy to operate, and cost is low.

Further, the output of described left mirror disk controller and right mirror disk controller is also connected respectively and helps mirrorIndicator lamp.

Further, also comprise watchdog circuit, described watchdog circuit output is connected to described optometry headThe respective input of main frame master controller. The setting of watchdog circuit has prevented that program from entering endless loop, monitoringThe normal operation of program.

Further, also comprise sighting target illumination driving circuit, described in described sighting target illumination driving circuit is connected toIn the corresponding output end of an optometry main frame master controller, for sighting target provides illumination.

Additional aspect of the present utility model and advantage in the following description part provide, and part will be from belowDescription in become obviously, or recognize by practice of the present utility model.

Brief description of the drawings

Above-mentioned and/or additional aspect of the present utility model and advantage be accompanying drawing retouching embodiment below combinationState middle becoming obviously and easily and understand, wherein:

Fig. 1 is theory diagram of the present utility model.

Detailed description of the invention

Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, itsIn from start to finish same or similar label represent same or similar element or there is identical or similar functionsElement. Exemplary below by the embodiment being described with reference to the drawings, only for explaining the utility model,And can not be interpreted as restriction of the present utility model.

In description of the present utility model, unless otherwise prescribed and limit, it should be noted that, term " peaceDress ", " being connected ", " connection " should be interpreted broadly, and for example, can be mechanical connection or electrical connection, also canTo be the connection of two element internals, can be to be directly connected, also can indirectly be connected by intermediary,For the ordinary skill in the art, can understand as the case may be specifically containing of above-mentioned termJustice.

As shown in Figure 1, the utility model provides an a kind of automatic optometry control system, comprises intelligent movableControl terminal, an optometry main frame master controller, left mirror disk controller, right mirror disk controller and radio communication moldPiece, an intelligent movable control terminal and optometry main frame master controller communicates to connect by wireless communication module, testsShaven head main frame master controller input is connected with respectively set photoelectric sensor circuit and interpupillary distance photoelectric sensor circuit,An optometry main frame master controller sends convergent light inductance by wireless communication module to intelligent movable control terminalThe information of answering circuit and/or interpupillary distance photoelectric sensor circuit to detect, an optometry main frame master controller output dividesBe not connected with set motor-drive circuit and interpupillary distance motor-drive circuit, intelligent movable control terminal is by wirelessCommunication module sends and controls set motor-drive circuit and/or the driving of interpupillary distance motor to an optometry main frame main controllerThe instruction of circuit operation, an optometry main frame main controller according to this instruction control set motor-drive circuit and/orThe operation of interpupillary distance motor-drive circuit.

Wherein, an optometry main frame master controller is connected with left mirror disk controller, right mirror disk controller respectively, movesMoving intelligent terminal is sent and controls left mirror disk or right mirror to an optometry main frame master controller by wireless communication moduleThe instruction of dish operation, an optometry main frame master controller is according to the left mirror disk of instruction control receiving or the fortune of right mirror diskOK.

Intelligent movable control terminal is given an order to an optometry main frame master controller by wireless communication module, testsShaven head main frame master controller is resolved the order receiving is current, tests if control the order of interpupillary distance or setShaven head main frame main controller controls corresponding motor drive circuit, thus drive corresponding electric machine rotation to realize interpupillary distanceOr the measurement of set; If control the order of left mirror disk or right mirror disk, an optometry main frame master controller will be orderedOrder is forwarded to left mirror disk controller or right mirror disk controller, and left mirror disk controller or right mirror disk controller are according to lifeCorresponding motor drive circuit is controlled in order, drives corresponding electric machine rotation, and driven by motor is equipped with the mirror of different eyeglassesDisc spins, thus realize optometry.

In the present embodiment, the output of left mirror disk controller and right mirror disk controller is connected with mirror disk electricity respectivelyDrive circuit, prism motor-drive circuit, help mirror motor drive circuit and help a motor-drive circuit, a left sideThe input of mirror disk controller and right mirror disk controller is connected with mirror disk initial position sensor circuit, rib respectivelyMirror initial position sensor circuit, help mirror initial position sensor circuit and help an initial position sensor circuit.

Left mirror disk controller, right mirror disk controller receive respectively by the beginning of mirror disk initial position sensor circuit, prismBeginning location sensitive circuit, help mirror initial position sensor circuit and/or help an initial position sensor circuit to detectInformation, and received information is sent to an optometry main frame master controller, an optometry main frame master controllerBy wireless communication module, this information is sent to mobile control terminal, mobile control terminal is according to receivedAn information control optometry main frame.

Mobile control terminal is sent and controls left mirror disk to an optometry main frame master controller by wireless communication moduleOr the mirror disk motor-drive circuit of right mirror disk, prism motor-drive circuit, help mirror motor drive circuit or help positionThe instruction of motor-drive circuit, an optometry main frame master controller is according to the received left mirror disk of instruction control or the right sideMirror disk motor-drive circuit, the prism motor-drive circuit of mirror disk, help mirror motor drive circuit or help a motorDrive circuit operation.

Left mirror disk controller and right mirror disk controller drive electricity by mirror disk motor-drive circuit, prism motorRoad, help mirror motor drive circuit and help a motor-drive circuit and mirror disk initial position sensor circuit, prismInitial position sensor circuit, help mirror initial position sensor circuit and help an initial position sensor circuit to realize and be equipped withThe mirror disk rotation of different eyeglasses, meanwhile, mirror disk initial position sensor circuit, prism initial position sensor circuit,Help mirror initial position sensor circuit and help an initial position sensor circuit to detect the position letter of its corresponding lenz discBreath, for optometry is provided convenience.

Set motor-drive circuit is divided into right set motor-drive circuit and left set motor-drive circuit, interpupillary distanceMotor-drive circuit is divided into right interpupillary distance motor-drive circuit and left interpupillary distance motor-drive circuit, convergent light electric inductionCircuit is divided into right set photoelectric sensor circuit and left set photoelectric sensor circuit, and interpupillary distance photoelectric sensor circuit is divided intoRight interpupillary distance photoelectric sensor circuit and left interpupillary distance photoelectric sensor circuit.

The set Electric Machine Control output of an optometry main frame master controller connects respectively right set motor and drives electricityThe control input end of road and left set motor-drive circuit; The interpupillary distance Electric Machine Control of an optometry main frame master controllerOutput connects respectively the control input end of right interpupillary distance motor-drive circuit and left interpupillary distance motor-drive circuit; RightThe output of set photoelectric sensor circuit and left set photoelectric sensor circuit is connected to respectively an optometry main frame masterThe respective input of controller, the output of right interpupillary distance photoelectric sensor circuit and left interpupillary distance photoelectric sensor circuit dividesBe not connected to the respective input of an optometry main frame master controller.

Wireless communication module in the present embodiment is wifi module or bluetooth module, intelligent movable control terminalSelection panel computer.

As the preferred version of the present embodiment, this automatic optometry control system also comprises watchdog circuit and looksMark illumination driving circuit, watchdog circuit output is connected to the corresponding input of an optometry main frame master controllerEnd, sighting target illumination driving circuit is connected in the corresponding output end of an optometry main frame master controller.

In the description of this description, reference term " embodiment ", " some embodiment ", " example ",It is concrete that the description of " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or exampleFeature, structure, material or feature are contained at least one embodiment of the present utility model or example. ?In this description, the schematic statement of above-mentioned term is not necessarily referred to identical embodiment or example. AndAnd, specific features, structure, material or the feature of description can be at any one or more embodiment orIn example with suitable mode combination.

Although illustrated and described embodiment of the present utility model, those of ordinary skill in the art canUnderstand: in the situation that not departing from principle of the present utility model and aim, can carry out multiple to these embodimentVariation, amendment, replacement and modification, scope of the present utility model is limited by claim and equivalent thereof.

Claims (7)

1. an automatic optometry control system, is characterized in that: comprise intelligent movable control terminal, testShaven head main frame master controller, left mirror disk controller, right mirror disk controller and wireless communication module, described movementA control of intelligent terminal and described optometry main frame master controller communicates to connect by described wireless communication module, instituteState an optometry main frame master controller input and be connected with respectively set photoelectric sensor circuit and interpupillary distance optoelectronic inductionCircuit, an optometry main frame master controller sends institute by described wireless communication module to intelligent movable control terminalState the information that set photoelectric sensor circuit and/or interpupillary distance photoelectric sensor circuit detect, a described optometry main frameMaster controller output is connected with respectively set motor-drive circuit and interpupillary distance motor-drive circuit, intelligent movableControl terminal is sent and controls set motor-drive circuit to an optometry main frame main controller by wireless communication moduleAnd/or the instruction of interpupillary distance motor-drive circuit operation, a described optometry main frame main controller is according to this instruction controlThe operation of described set motor-drive circuit and/or interpupillary distance motor-drive circuit;

A described optometry main frame master controller is connected with described left mirror disk controller, right mirror disk controller respectively,Mobile intelligent terminal is sent and controls left mirror disk or the right side to an optometry main frame master controller by wireless communication moduleThe instruction of mirror disk operation, a described optometry main frame master controller is according to the left mirror disk of instruction control or the right mirror that receiveThe operation of dish.

2. an automatic optometry control system according to claim 1, is characterized in that: described left mirrorThe output of disk controller and right mirror disk controller is connected with mirror disk motor-drive circuit, prism motor respectivelyDrive circuit, help mirror motor drive circuit and help a motor-drive circuit, described left mirror disk controller and right mirrorThe input of disk controller is connected with mirror disk initial position sensor circuit, prism initial position induced electricity respectivelyRoad, help mirror initial position sensor circuit and help an initial position sensor circuit;

Described left mirror disk controller, right mirror disk controller receive respectively by mirror disk initial position sensor circuit, ribMirror initial position sensor circuit, help mirror initial position sensor circuit and/or help an initial position sensor circuit instituteThe information detecting, and received information is sent to an optometry main frame master controller, a described optometry main frameMaster controller sends to described mobile control terminal by wireless communication module by this information, described mobile controlTerminal is according to a received information control optometry main frame;

Described mobile control terminal sends control by wireless communication module to a described optometry main frame master controllerMake left mirror disk or right mirror disk mirror disk motor-drive circuit, prism motor-drive circuit, help mirror motor drive electricityRoad or help the instruction of a motor-drive circuit, a described optometry main frame master controller is according to received instruction controlMake left mirror disk or right mirror disk mirror disk motor-drive circuit, prism motor-drive circuit, help mirror motor drive electricityRoad or help the operation of motor-drive circuit.

3. an automatic optometry control system according to claim 1, is characterized in that: described setMotor-drive circuit is divided into right set motor-drive circuit and left set motor-drive circuit, described interpupillary distance motorDrive circuit is divided into right interpupillary distance motor-drive circuit and left interpupillary distance motor-drive circuit, described convergent light electric inductionCircuit is divided into right set photoelectric sensor circuit and left set photoelectric sensor circuit, described interpupillary distance photoelectric sensor circuitBe divided into right interpupillary distance photoelectric sensor circuit and left interpupillary distance photoelectric sensor circuit;

The set Electric Machine Control output of a described optometry main frame master controller connects respectively described right set electricityThe control input end of drive circuit and left set motor-drive circuit; A described optometry main frame master controllerInterpupillary distance Electric Machine Control output connects respectively described right interpupillary distance motor-drive circuit and left interpupillary distance motor drives electricityThe control input end on road; The output of described right set photoelectric sensor circuit and left set photoelectric sensor circuit dividesBe not connected to the respective input of a described optometry main frame master controller, described right interpupillary distance photoelectric sensor circuit andThe output of left interpupillary distance photoelectric sensor circuit is connected to respectively the corresponding defeated of a described optometry main frame master controllerEnter end.

4. an automatic optometry control system according to claim 1, is characterized in that: described wirelessCommunication module is wifi module or bluetooth module.

5. an automatic optometry control system according to claim 2, is characterized in that: described left mirrorThe output of disk controller and right mirror disk controller is also connected respectively and helps mirror indicator lamp.

6. an automatic optometry control system according to claim 1, is characterized in that: also comprise and seeingDoor dog circuit, described watchdog circuit output is connected to the corresponding input of a described optometry main frame master controllerEnd.

7. an automatic optometry control system according to claim 1, is characterized in that: also comprise and lookingMark illumination driving circuit, described sighting target illumination driving circuit is connected to the phase of a described optometry main frame master controllerAnswer on output.