CN104035579A - Operational order input system and operational order input method - Google Patents

Abstract

The invention relates to an operational order input system and an operational order input method. The method comprises the following steps that a skin stretching amount sensor induces stretching amount change of skin of a wrist, and converts the stretching amount change into analog electric signals which are transmitted to a processing circuit; the processing circuit converts the analog electric signals into digital electric signals which are transmitted to receiving equipment in a wireless mode or a wired mode; and the receiving equipment converts the digital electric signals into corresponding operational orders and responds. A user does not need to operate intelligent equipment by using a mouse, a keyboard, a touch screen and the like, and can operate the intelligent equipment by body movement only. The operational order input system and the operational order input method are quite convenient.

Description

Operational order input system and method

 

Technical field

The present invention relates to operational order input system and method.

 

Background technology

At present, for the operation of smart machine, all need user to use hand the enterprising line operate of operation interface of smart machine, such as keyboard, mouse, touch-screen etc.Yet, sometimes operate and can extremely bother, be not easy to the control of user to smart machine.

 

Summary of the invention

The object of the invention is to propose a kind of operational order input system, it can solve unhandy problem.

In order to achieve the above object, the technical solution adopted in the present invention is as follows:

Operational order input system, it comprises receiving equipment, be sleeved on the bracelet of wrist, be arranged on described bracelet inwall skin stroke sensor and be arranged on treatment circuit and the feed circuit in described bracelet;

Described feed circuit, are used to described skin stroke sensor and treatment circuit that operating voltage is provided;

Described skin stroke sensor, changes for responding to the stroke of the skin of wrist, and described stroke is changed and is converted to analog electrical signal and is sent to treatment circuit;

Described treatment circuit, for described analog electrical signal is converted to digital electric signal, and is sent to a receiving equipment by wireless mode or wired mode by described digital electric signal;

Described receiving equipment, for changing out corresponding operational order and respond according to described digital electric signal;

Wherein, in described receiving equipment, store the corresponding relation of digital electric signal and operational order.

Preferably, described bracelet is made by resilient material.

Preferably, described skin stroke sensor comprises enameled wire and adhesive plaster, and enameled wire is coiled type and is fixed on adhesive plaster.

Preferably, described skin stroke sensor comprises enameled wire and adhesive plaster, and described enameled wire is fixed on adhesive plaster, and described enameled wire is evenly distributed by U glyph shape end to end, that opening is contrary.

Preferably, described treatment circuit is connected and composed successively by signal amplifier, analog to digital converter, microprocessor and wireless communication module, and signal amplifier is connected with skin stroke sensor, and wireless communication module is connected with receiving equipment.

Preferably, described treatment circuit is connected and composed successively by signal amplifier, analog to digital converter, microprocessor and output interface, and signal amplifier is connected with skin stroke sensor, and output interface is connected with receiving equipment by electric wire.

Preferably, described receiving equipment is intelligent mobile terminal.

The present invention also proposes a kind of operational order input method, and it is applied in operational order input system as above, and it comprises the following steps:

The stroke of the skin of step 1, skin stroke sensor sensing wrist changes, and described stroke is changed and is converted to analog electrical signal and is sent to treatment circuit;

Step 2, treatment circuit are converted to digital electric signal by described analog electrical signal, and by wireless mode or wired mode, described digital electric signal are sent to receiving equipment;

Step 3, receiving equipment are changed out corresponding operational order and respond according to described digital electric signal;

Wherein, in described receiving equipment, store the corresponding relation of digital electric signal and operational order.

Preferably, the corresponding relation of described digital signal and operational order is obtained by following steps:

The analog electrical signal that the action that skin stroke sensor sensing user does according to the indication of receiving equipment produces;

Treatment circuit is converted to digital electric signal by described analog electrical signal, and by wireless mode or wired mode, described digital electric signal is sent to receiving equipment;

Receiving equipment is preserved the corresponding relation of described digital electric signal and described action, and according to user, the setting of the corresponding relation of described action and operational order is shone upon.

The present invention has following beneficial effect:

User, without adopting mouse, keyboard, touch-screen etc. to remove operative intelligence equipment, as long as do some limb actions, just can operate smart machine, very convenient.And the present invention can also arrange the corresponding relation of action and operational order voluntarily according to user's physical difference, hobby etc., has improved versatility of the present invention.

 

Accompanying drawing explanation

Fig. 1 is the structural representation of bracelet of the operational order input system of preferred embodiment of the present invention;

Fig. 2 is the process flow diagram of the operational order input method of preferred embodiment of the present invention.

 

Embodiment

Below, by reference to the accompanying drawings and embodiment, the present invention is described further.

As shown in Figure 1, a kind of operational order input system, it comprises receiving equipment, be sleeved on the bracelet 10 of wrist, be arranged on described bracelet inwall skin stroke sensor 20 and be arranged on treatment circuit and the feed circuit in described bracelet.The quantity of the skin stroke sensor 20 of the present embodiment can be a plurality of, can be evenly distributed on bracelet 10.

Described feed circuit, are used to described skin stroke sensor 20 and treatment circuit that operating voltage is provided, feed circuit be used for maintaining skin stroke sensor 20 and treatment circuit in running order.

Described skin stroke sensor 20, changes for responding to the stroke of the skin of wrist, and described stroke is changed and is converted to analog electrical signal and is sent to treatment circuit.For example, user is rotating wrist, or the five fingers stretch out, point bending, clench fist etc., all can cause the telescopic variation of the skin of wrist, and this is to be produced by variations such as tendon, ligament, muscle, and therefore, this analog electrical signal can reflect user's corresponding actions.

Described treatment circuit, for described analog electrical signal is converted to digital electric signal, and is sent to receiving equipment by wireless mode by described digital electric signal.The wireless mode of the present embodiment can be bluetooth, WIFI, 2G, 3G, 4G etc.

Described receiving equipment, for changing out corresponding operational order and respond according to described digital electric signal; Wherein, in described receiving equipment, store the corresponding relation of digital electric signal and operational order.The receiving equipment of the present embodiment can be intelligent mobile terminal, as smart mobile phone, panel computer etc.

In order to make skin stroke sensor 20 can be close to skin, the bracelet 10 of the present embodiment adopts resilient material to make, to be tightly placed in wrist.

The structure of the skin stroke sensor 20 of the present embodiment can be to comprise enameled wire and adhesive plaster, and enameled wire is coiled type and is fixed on adhesive plaster.Also can be: comprise enameled wire and adhesive plaster, described enameled wire is fixed on adhesive plaster, and described enameled wire be evenly distributed by U glyph shape end to end, that opening is contrary.Two kinds of structures all can be sensitive the telescopic variation of the skin that senses wrist, this telescopic variation can cause the variation of the inductance of skin stroke sensor 20, that is to say, the present embodiment adopts the variation of inductance to shine upon corresponding operational order.

The treatment circuit of the present embodiment is connected and composed successively by signal amplifier, analog to digital converter, microprocessor and wireless communication module, and signal amplifier is connected with skin stroke sensor, and wireless communication module is connected with receiving equipment.The wireless communication module of the present embodiment can be bluetooth module, WIFI module, 2G/3G/4G module.Signal amplifier is for the amplification to analog electrical signal.

As shown in Figure 2, the operational order input method of the present embodiment comprises the following steps:

The corresponding relation of step S1, setting digital electric signal and operational order:

The analog electrical signal that the action that skin stroke sensor sensing 20 users do according to the indication of receiving equipment produces.For example, enter set model, receiving equipment provides and clenches fist, stretchs out the indications such as palm, four fingers are crooked, wrist curves inwardly, wrist is outwardly-bent successively, and user does corresponding actions according to indication, thereby makes skin stroke sensor 20 respond to successively user's action and the analog electrical signal that produces.

Treatment circuit is converted to digital electric signal by described analog electrical signal, and by wireless mode, described digital electric signal is sent to receiving equipment.

Receiving equipment is preserved the corresponding relation of described digital electric signal and described action, and according to user, the setting of the corresponding relation of described action and operational order is shone upon.For example, user selects to clench fist as opening camera instruction, and wrist curves inwardly as photographing instruction, sets complete.

During normal use, flow process is as follows:

The stroke of the skin of step S2, skin stroke sensor sensing wrist changes, and described stroke is changed and is converted to analog electrical signal and is sent to treatment circuit.

Step S3, treatment circuit are converted to digital electric signal by described analog electrical signal, and by wireless mode or wired mode, described digital electric signal are sent to receiving equipment.

Step S4, receiving equipment are changed out corresponding operational order and respond according to described digital electric signal.

For example, user clenches fist, and opens camera, and user's wrist curves inwardly, and camera is taken pictures and determined control, very convenient.

In addition, the treatment circuit of above-described embodiment can also be communicated by letter with receiving equipment with wired mode, be specially: treatment circuit is connected and composed successively by signal amplifier, analog to digital converter, microprocessor and output interface, signal amplifier is connected with skin stroke sensor, and output interface is connected with receiving equipment by electric wire.

In addition, the receiving equipment of above-described embodiment also can be integrated on bracelet, thereby forms intelligent bracelet.

For a person skilled in the art, can make other various corresponding changes and distortion according to technical scheme described above and design, and these all changes and distortion all should belong to the protection domain of the claims in the present invention within.

Claims (9)

1. operational order input system, is characterized in that, comprise receiving equipment, be sleeved on wrist bracelet, be arranged on described bracelet inwall skin stroke sensor and be arranged on treatment circuit and the feed circuit in described bracelet;

Described feed circuit, are used to described skin stroke sensor and treatment circuit that operating voltage is provided;

Described skin stroke sensor, changes for responding to the stroke of the skin of wrist, and described stroke is changed and is converted to analog electrical signal and is sent to treatment circuit;

Described treatment circuit, for described analog electrical signal is converted to digital electric signal, and is sent to a receiving equipment by wireless mode or wired mode by described digital electric signal;

Described receiving equipment, for changing out corresponding operational order and respond according to described digital electric signal;

Wherein, in described receiving equipment, store the corresponding relation of digital electric signal and operational order.

2. operational order input system as claimed in claim 1, is characterized in that, described bracelet is made by resilient material.

3. operational order input system as claimed in claim 1, is characterized in that, described skin stroke sensor comprises enameled wire and adhesive plaster, and enameled wire is coiled type and is fixed on adhesive plaster.

4. operational order input system as claimed in claim 1, it is characterized in that, described skin stroke sensor comprises enameled wire and adhesive plaster, and described enameled wire is fixed on adhesive plaster, and described enameled wire is evenly distributed by U glyph shape end to end, that opening is contrary.

5. operational order input system as claimed in claim 1, it is characterized in that, described treatment circuit is connected and composed successively by signal amplifier, analog to digital converter, microprocessor and wireless communication module, signal amplifier is connected with skin stroke sensor, and wireless communication module is connected with receiving equipment.

6. operational order input system as claimed in claim 1, it is characterized in that, described treatment circuit is connected and composed successively by signal amplifier, analog to digital converter, microprocessor and output interface, signal amplifier is connected with skin stroke sensor, and output interface is connected with receiving equipment by electric wire.

7. operational order input system as claimed in claim 1, is characterized in that, described receiving equipment is intelligent mobile terminal.

8. operational order input method, is characterized in that, it is applied in the operational order input system described in described claim 1-7 any one, and it comprises the following steps:

The stroke of the skin of step 1, skin stroke sensor sensing wrist changes, and described stroke is changed and is converted to analog electrical signal and is sent to treatment circuit;

Step 2, treatment circuit are converted to digital electric signal by described analog electrical signal, and by wireless mode or wired mode, described digital electric signal are sent to receiving equipment;

Step 3, receiving equipment are changed out corresponding operational order and respond according to described digital electric signal;

Wherein, in described receiving equipment, store the corresponding relation of digital electric signal and operational order.

9. operational order input method as claimed in claim 8, is characterized in that, the corresponding relation of described digital signal and operational order is obtained by following steps:

The analog electrical signal that the action that skin stroke sensor sensing user does according to the indication of receiving equipment produces;

Treatment circuit is converted to digital electric signal by described analog electrical signal, and by wireless mode or wired mode, described digital electric signal is sent to receiving equipment;

Receiving equipment is preserved the corresponding relation of described digital electric signal and described action, and according to user, the setting of the corresponding relation of described action and operational order is shone upon.