CN203178789U - Flat knitting machine intelligent control system based on LINUX operation system - Google Patents

Abstract

The utility model discloses a flat knitting machine intelligent control system based on a LINUX operation system. The intelligent control system comprises a man-machine interaction device and at least one knitting and weaving device. The man-machine interaction device is separated from the knitting and weaving device in position. The man-machine interaction device comprises an input module, a display module, an interactive processing device and an interactive communication module. The input module is electrically connected with the display module and the interactive processing module. The interactive processing module is electrically connected with the interactive communication module and the display module. The knitting and weaving device comprises a knitting and weaving module, a knitting and weaving processing module and a knitting and weaving communication module. The knitting and weaving module is electrically connected with the knitting and weaving processing module. The knitting and weaving processing module is electrically connected with the knitting and weaving communication module. The knitting and weaving communication module and the interactive communication module are in a network connection. The man-machine interaction device of the flat knitting machine intelligent control system has a remote dynamic control on a plurality of the knitting and weaving devices, and the man-machine interaction device has excellent expansibility and flexibility.

Description

Flat machine intelligence control system based on LINUX operating system

Technical field

The utility model relates to automation field, relates in particular to a kind of flat machine intelligence control system based on LINUX operating system.

Background technology

Flat machine is one of main production equipments of knitted textile products, is fit to the braiding of cotton, hair, fiber crops, silk, cashmere and yarn.In order to satisfy people to functionalization, variation and the personalized demand of knit goods, some producers have gone out computer flat knitting machine according to the demand development and Design in market.

Knitting Computerized flat knitting machine control system of the prior art generally adopts single-chip to man-machine control scheme, utilizes the single-chip realization to the control of knitting braiding module and human-computer interaction module.This control system.Owing to be subject to chip performance, and can limit the mutual effect of human-computer interaction module, influence the efficient of knitting braiding module.If its demonstration of the display module that is connected with human-computer interaction module will reach and refresh quick, beautiful magnificently and import effect rapidly, then need to consume the single-chip more resources.Single-chip is handled knitting braiding module and human-computer interaction module simultaneously, is guaranteeing that knitting braiding module stability fast under the situation, will certainly make the effect of human-computer interaction module have a greatly reduced quality.

Knitting Computerized flat knitting machine control system also has the control scheme that adopts the twin-core sheet, and the system that has can handle independently showing, uses other chip piece to handle, pass through serial ports then, the parallel port, non-remote interfaces such as both-end RAM are given the braiding process chip with the man-machine interaction content delivery.The control scheme of twin-core sheet, though have the characteristics that layering is more clear and performance is more superior, but, adopt generic interfaces such as serial ports, parallel port and both-end RAM to connect between its each module, connect trouble, and limited extendability and the dirigibility of human-computer interaction module greatly, can not support human-computer interaction module spininess to be knitted the Remote Dynamic control of braiding module.

The utility model content

For solving the problems of the technologies described above, the utility model proposes a kind of human-computer interaction device of can supporting to the Remote Dynamic control of many knitting knit units, and have the flat machine intelligence control system based on LINUX operating system of preferable extendability and dirigibility.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of flat machine intelligence control system based on LINUX operating system is provided, comprise human-computer interaction device and at least one knitting knit unit, described human-computer interaction device separates setting with knitting knit unit;

Described human-computer interaction device comprises load module, display module, interaction process module and interactive communication module; Described load module is electrically connected with display module and interaction process module, and described interaction process module is electrically connected with interactive communication module and display module;

Described knitting knit unit comprises knitting braiding module, knitting braiding processing module and knitting braiding communication module; Described knitting braiding module is electrically connected with knitting braiding processing module, and described knitting braiding processing module is electrically connected with knitting braiding communication module, and described knitting braiding communication module is connected with the interactive communication module network.

Wherein, described interactive communication module is that cable network is connected or wireless WiFi network connection with network connection between the knitting braiding communication module.

Wherein, the quantity of described human-computer interaction device has a plurality of, and described interactive communication module comprises the remote server network interface, and a plurality of human-computer interaction devices all are connected with remote server network by remote server network interface separately.

Wherein, described human-computer interaction device is that wired connection or wireless WiFi are connected with network connection between the described remote server.

Wherein, described interactive communication module also comprises the mobile terminal network interface, and described human-computer interaction device is connected with mobile terminal network by its mobile terminal network interface.

Wherein, described human-computer interaction device is that bluetooth is connected or wireless WiFi connects with the network connection of described portable terminal.

Useful technique effect of the present utility model is: in the utility model, employing separates setting with human-computer interaction device with knitting knit unit position, knitting braiding communication module network connection in interactive communication module in the human-computer interaction device and the knitting knit unit, can realize that human-computer interaction device is connected with the long-range of knitting knit unit, can support human-computer interaction device to the Remote Dynamic control of many knitting knit units; Human-computer interaction device separates setting with knitting knit unit, makes human-computer interaction module have preferable extendability and dirigibility.In addition, the interaction process module is set in the human-computer interaction device generates braiding style information flow for the treatment of knitting braiding parameter and resolve braiding multidate information stream, and the braiding dynamic parameter that will resolve gained shows by display module; Be provided with knitting braiding processing module in this knitting knit unit for the treatment of the braiding dynamic parameter generation braiding multidate information stream of feedback and resolve braiding style information flow, and the knitting braiding parameter that will resolve gained is sent to knitting braiding module and carries out braid movement by knitting braiding module, assurance display effect and knitting braiding speed.

Description of drawings

Fig. 1 is that the utility model is based on the block diagram of the flat machine intelligence control system of LINUX operating system;

Fig. 2 is the block diagram of the utility model one embodiment;

Label declaration:

The 1-human-computer interaction device, 11-load module, 12-interaction process module, 13-interactive communication module, 14-display module;

The knitting knit unit of 2-, the knitting braiding module of 21-, the knitting braiding processing module of 22-, the knitting braiding communication module of 23-;

The 3-remote server, the 4-portable terminal.

Embodiment

By describing technology contents of the present utility model, structural attitude in detail, realized purpose and effect, give explanation below in conjunction with embodiment and conjunction with figs. are detailed.

See also Fig. 1, present embodiment provides the flat machine intelligence control system based on LINUX operating system, comprises human-computer interaction device 1 and at least one knitting knit unit 2, and described human-computer interaction device 1 separates setting with knitting knit unit 2.Described human-computer interaction device 1 comprises load module 11, display module 14, interaction process module 12 and interactive communication module 13; Described load module 11 is electrically connected with display module 14 and interaction process module 12, and described interaction process module 12 is electrically connected with interactive communication module and display module 14; Concrete, above-mentioned load module 11 is integrated on the touch display screen with display module 14.Described knitting knit unit 2 comprises knitting braiding module 21, knitting braiding processing module 22 and knitting braiding communication module 23; Described knitting braiding module 21 is electrically connected with knitting braiding processing module 22, and described knitting braiding processing module 22 is electrically connected with knitting braiding communication module 23, described knitting braiding communication module 23 and interactive communication module 13 network connections.Knitting braiding communication module 23 is that cable network is connected or wireless WiFi network connection with network connection between the interactive communication module 13.A human-computer interaction device 1 can be controlled many knitting knit units 2 simultaneously by network connection, can dynamically switch the knitting knit unit 2 of demonstration.Man-machine friendship device 1 can be connected with braiding treating apparatus 2 or disconnect at any time, one personal-machine interactive device can dynamically be connected in a plurality of braiding treating apparatus, and the braiding treating apparatus can break away from human-computer interaction device work, when needing, can insert human-computer interaction device at any time, the braiding treating apparatus is controlled.The human-computer interaction device 1 that separates has preferable extendability and dirigibility.Interaction process module 12 is electrically connected with display module 14, can guarantee the display effect of display module 14.Knitting braiding processing module 22 is electrically connected with knitting braiding module 21, can guarantee the knitting of knitting braiding module 21 fast and stables.

Before the knitting braiding, be sent to display module 14 and interaction process module 12 respectively from the knitting braiding parameter of load module 11 inputs, the interaction process module 12 that receives knitting braiding parameter generates braiding style information flow according to knitting braiding parameter, the interactive communication module 13 that is electrically connected with interaction process module 12 is externally transmitted after receiving braiding style information flow, knitting braiding communication module 23 receives and will weave the style information flow behind the braiding style information flow and be sent to knitting braiding processing module 22, the knitting braiding parameter that the knitting braiding processing module 22 that receives braiding style information flow is resolved braiding style information flows and will be resolved gained is sent to knitting braiding module 21, and knitting braiding module 21 begins to carry out braid movement according to knitting braiding parameter;

During knitting braiding, knitting braiding module 21 generates the braiding dynamic parameter, and will weave dynamic parameter and feed back to knitting braiding processing module 22, knitting braiding processing module 22 generates braiding multidate information stream according to the braiding dynamic parameter, knitting braiding communication module 23 is receiving the externally forwarding of braiding multidate information stream back, interactive communication module 13 receives and will weave multidate information behind the braiding multidate information stream and spread and deliver to interaction process module 12, interaction process module 12 is resolved the braiding dynamic parameter that weaves multidate information stream and will resolve gained and is sent to display module 14, and display module 14 shows that according to the braiding dynamic parameter braiding is dynamic.

Consult Fig. 2, in a specific embodiment, the quantity of above-mentioned human-computer interaction device 1 has a plurality of, and described interactive communication module 13 comprises the remote server network interface, the remote server network interface of a plurality of human-computer interaction devices 1 by separately all with remote server 3 network connections.Described human-computer interaction device 1 is that wired connection or wireless WiFi are connected with network connection between the described remote server 3.Above-mentioned remote server 3 supports to build the cluster management that LAN (Local Area Network) or remote server 3 carry out the Internet of Things formula, can remote monitoring and control machine, and the transmission style obtains the production daily record, statistics production information etc.In the preferred scheme, above-mentioned interactive communication module 13 comprises the mobile terminal network interface, and described human-computer interaction device 1 is by its mobile terminal network interface and portable terminal 4 point-to-point network connections.Above-mentioned human-computer interaction device 1 is that bluetooth is connected or wireless WiFi connects with the network connection of described portable terminal 4.This mobile device is by human-computer interaction device and the point-to-point network connection of knitting knit unit.Above-mentioned portable terminal 4 is mobile phone or the flat board based on android or ios operating system, is responsible for and the braiding treating apparatus carries out point-to-point network service, can realize utilizing portable terminal 4 flow of transmitted information, monitor and control function such as machine in real time.

A kind of flat machine intelligence control system based on LINUX operating system that the utility model provides, employing separates setting with human-computer interaction device with knitting knit unit position, knitting braiding communication module network connection in interactive communication module in the human-computer interaction device and the knitting knit unit, can realize that human-computer interaction device is connected with the long-range of knitting knit unit, can support human-computer interaction device to the Remote Dynamic control of many knitting knit units; Human-computer interaction device separates setting with knitting knit unit, makes human-computer interaction module have preferable extendability and dirigibility.In addition, the interaction process module is set in the human-computer interaction device generates braiding style information flow for the treatment of knitting braiding parameter and resolve braiding multidate information stream, and the braiding dynamic parameter that will resolve gained shows by display module; Be provided with knitting braiding processing module in this knitting knit unit for the treatment of the braiding dynamic parameter generation braiding multidate information stream of feedback and resolve braiding style information flow, and the knitting braiding parameter that will resolve gained is sent to knitting braiding module and carries out braid movement by knitting braiding module, assurance display effect and knitting braiding speed.

The above only is embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model instructions and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.

Claims (6)

1. the flat machine intelligence control system based on LINUX operating system is characterized in that, comprises human-computer interaction device and at least one knitting knit unit, and described human-computer interaction device separates setting with knitting knit unit;

Described human-computer interaction device comprises load module, display module, interaction process module and interactive communication module; Described load module is electrically connected with display module and interaction process module, and described interaction process module is electrically connected with interactive communication module and display module;

Described knitting knit unit comprises knitting braiding module, knitting braiding processing module and knitting braiding communication module; Described knitting braiding module is electrically connected with knitting braiding processing module, and described knitting braiding processing module is electrically connected with knitting braiding communication module, and described knitting braiding communication module is connected with the interactive communication module network.

2. the flat machine intelligence control system based on LINUX operating system according to claim 1 is characterized in that, described interactive communication module is that cable network is connected or wireless WiFi network connection with network connection between the knitting braiding communication module.

3. the flat machine intelligence control system based on LINUX operating system according to claim 1, it is characterized in that, the quantity of described human-computer interaction device has a plurality of, described interactive communication module comprises the remote server network interface, and a plurality of human-computer interaction devices all are connected with remote server network by remote server network interface separately.

4. the flat machine intelligence control system based on LINUX operating system according to claim 3 is characterized in that, described human-computer interaction device is that wired connection or wireless WiFi are connected with network connection between the described remote server.

5. the flat machine intelligence control system based on LINUX operating system according to claim 1, it is characterized in that, described interactive communication module also comprises the mobile terminal network interface, and described human-computer interaction device is connected with mobile terminal network by its mobile terminal network interface.

6. the flat machine intelligence control system based on LINUX operating system according to claim 5 is characterized in that, described human-computer interaction device is that bluetooth is connected or wireless WiFi connects with the network connection of described portable terminal.

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