CN113905071A - Gateway sensor visualization system based on touch display device - Google Patents

Abstract

The invention discloses a gateway sensor visualization system based on a touch display device, which comprises: host computer, gateway, sensor, display, memory and treater, the treater specifically carries out following step: acquiring a gateway container and a sensor list; comparing the target display width with the appointed display width; when the target display width is not larger than the designated display width, displaying a gateway container and a sensor container in a first display area according to the serial connection sequence of the gateway and the sensor; when the target display width is larger than the designated display width, judging that the operation state corresponding to the display is a touch state or a non-touch state; when the operation state is a touch state, displaying a gateway container and a sensor container in a first display area according to the serial connection sequence of the gateway and the sensor according to a sliding instruction; the invention can reasonably display the working attitude of a plurality of sensors by the equipment end according to the number of the sensors and the operating state of the equipment end.

Description

Gateway sensor visualization system based on touch display device

Technical Field

The invention relates to the technical field of industrial internet, in particular to a gateway sensor visualization system based on a touch display device.

Background

At present, most of industrial production lines adopt a streamlined mode, and a plurality of sensors upload data simultaneously on the industrial production line, so that an operator needs to control the plurality of sensors simultaneously so as to monitor the working state of each sensor efficiently and quickly.

In the prior art, data of the sensors are transmitted to the equipment end through data lines on the basis of a streamlined industrial production line, so that the transmission efficiency is low, the overall layout of the industrial production line is influenced by the data lines, the working states of the sensors cannot be reasonably displayed at the equipment end at the same time, and monitoring of the sensors by an operator is influenced.

Disclosure of Invention

To solve the problems of the prior art, the container S is connected through a gateway₀And a sensor list S for displaying the target display width W and the designated display width

By contrast, when

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀And S, when

Judging whether the operation state corresponding to the display is a touch state or a non-touch state, and when the operation state is the touch state, displaying S in the first display area according to the serial connection sequence of the gateway and the sensor₀And S, enabling the plurality of sensors to upload data rapidly and simultaneously, and displaying the working attitude of the plurality of sensors reasonably at the equipment end according to the number of the sensors and the operating state of the equipment end, wherein the embodiment of the invention provides a gateway sensor visualization system based on a touch display device, and the technical scheme is as follows:

in one aspect, a gateway sensor visualization system based on a touch display device, the system comprising: the system comprises an upper computer, a gateway and a sensor, wherein the upper computer is in communication connection with the gateway, and the gateway is in communication connection with the sensor;

the display is used for displaying a plurality of target containers according to the serial connection sequence of the gateway and the sensor, wherein the target containers are gateway containers and/or sensor containers;

a memory for storing a gateway image corresponding to the gateway and a sensor image corresponding to the sensor;

the processor is used for executing any section of instruction or program sent by the upper computer, and specifically comprises the following steps:

obtaining gateway container S₀And sensor list S ═ (S)₁，S₂，S₃，……，S_m) Wherein S is_iThe number of the ith sensor container is defined, i is 1 … … m, and m is the number of the sensors;

according to the target display width W and the designated display width

For comparison, W satisfies the following condition:

wherein, W₀Means S₀Width of (W)_iMeans S_iD is a distance between two adjacent target containers in the first display area in the X-axis direction;

the following conditions are met:

wherein K is a display width coefficient of a first display area, and B is the display width of the first display area;

when in use

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀And S;

when in use

Judging whether the operation state corresponding to the display is a touch state or a non-touch state;

when the operation state is a touch state, displaying S in the first display area according to the serial connection sequence of the gateway and the sensor according to a sliding instruction₀And S.

The gateway sensor visualization system based on the touch display device provided by the invention has the following technical effects:

the invention can pass the gateway container S₀And a sensor list S for displaying the target display width W and the designated display width

By contrast, when

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀And S, when

Judging whether the operation state corresponding to the display is a touch state or a non-touch state, and when the operation state is the touch state, displaying S in the first display area according to the serial connection sequence of the gateway and the sensor according to a sliding instruction₀And S, it can be seen that the technical scheme of the invention can enable a plurality of sensors to upload data rapidly and simultaneously through the gateway, and simultaneously can display the working states of the plurality of sensors in a rationalized and ordered manner according to the width of the sensor container, the width of the equipment end and the operation state of the equipment end.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a flow chart illustrating visualization of an industrial pipeline gateway sensor according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of visualization of an industrial pipeline gateway sensor according to a second embodiment of the present invention;

fig. 3 is a schematic flow chart of visualization of an industrial pipeline gateway sensor according to a third embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or server that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Example one

The embodiment provides a gateway sensor visualization system based on a touch display device, the system includes: the system comprises an upper computer, a gateway and a sensor, wherein the upper computer is in communication connection with the gateway, and the gateway is in communication connection with the sensor;

the display is used for displaying a plurality of target containers according to the serial connection sequence of the gateway and the sensor, wherein the target containers are gateway containers and/or sensor containers;

a memory for storing a gateway image corresponding to the gateway and a sensor image corresponding to the sensor;

a processor, configured to execute any one of the instructions or programs sent by the upper computer, as shown in fig. 1, specifically including the following steps:

s101, acquiring gateway container S₀And sensor list S ═ (S)₁，S₂，S₃，……，S_m) Wherein S is_iThe number of the ith sensor container is defined, i is 1 … … m, and m is the number of the sensors;

specifically, the gateway container refers to a control capable of containing the gateway image, and the gateway image represents an image of the overall connection state of the gateway.

Specifically, the sensor container refers to a control capable of containing the sensor image, and the sensor image represents an image of the overall connection state of the sensor.

S103, according to the target display width W and the designated display width

For comparison, W satisfies the following condition:

wherein, W₀Means S₀Width of (W)_iRefers to the width of Si, and D refers to the width of Si in the first stepThe distance between two adjacent target containers in the display area in the X-axis direction is, for example, in the first display area, the distance between the gateway container and the adjacent sensor container in the X-axis direction is D, and the distance between two adjacent sensor containers in the X-axis direction is also D.

Specifically, W refers to the overall display width of the gateway container and the sensor container.

Preferably, W₁＝W₂＝W₃＝……＝W_mI.e. the width of all the sensor containers is uniform.

Preferably, W₀＞W_iI.e. the width of the gateway container is larger than the width of the sensor container.

The following conditions are met:

wherein K is a display width coefficient of a first display area, and B is the display width of the first display area;

specifically, the

Refers to the maximum display width of the first display region.

Specifically, the first display area is an area in the display where the gateway container and the sensor container are displayed, and preferably, the first display area is an entire display area of the display.

Preferably, K ranges from 2 to Z, Z being the upper limit value of K, Z satisfying the following condition:

s105, when

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀And S;

preferably, in step S105, when

Then, the distance between two adjacent target containers is reduced to obtain a reduced distance D₀，D₀The following conditions are met:

D₀＝D-L；

wherein L is the reduced distance between two adjacent target containers in the X-axis direction, namely D₀This can be understood as the reduced distance between two adjacent target containers in the X-axis direction.

Preferably, L satisfies the following condition:

specifically, in the first display area, a plurality of the sensor containers in S are also displayed in a serially connected order, for example, when m is 10, in the first display area, S is sequentially displayed₀、S₁、S₂……S₁₀。

S107, when

Judging whether the operation state corresponding to the display is a touch state or a non-touch state;

s109, when the operation state is a touch state, displaying S in the first display area according to the serial connection sequence of the gateway and the sensor according to a sliding instruction₀And S, e.g. displaying S in the first display area₀And S a part of sensor container, when receiving the sliding instruction, sliding the display left and right, in the first display areaThe remaining sensor container in S is displayed, and those skilled in the art can adopt any method to determine to receive the sliding instruction and slide the display left and right according to the sliding instruction, which is not described herein again.

In a specific embodiment, the display area of the display further includes a second display area, the second display area is located on one side of the first display area, and the second display area is an area where an operation image is displayed in the display.

The gateway sensor visualization system based on the touch display device provided by the embodiment can pass through the gateway container S₀And a sensor list S for displaying the target display width W and the designated display width

By contrast, when

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀And S, when

Judging whether the operation state corresponding to the display is a touch state or a non-touch state, and when the operation state is the touch state, displaying S in the first display area according to the serial connection sequence of the gateway and the sensor according to a sliding instruction₀S, it can be seen that the embodiment enables a plurality of sensors to upload data rapidly and simultaneously through the gateway; and under the touch state, according to the width of gateway container, the width of sensor container and the width of display, the operating condition of gateway container and a plurality of sensor container is shown simultaneously to reasonable and orderly, and the operating personnel of being convenient for monitors gateway and a plurality of sensor in real time, avoids leaking unusual gateway or sensor because of unable demonstration, influences industrial production.

Example two

The second embodiment provides a gateway sensor visualization system based on a touch display device, the system includes: the system comprises an upper computer, a gateway and a sensor, wherein the upper computer is in communication connection with the gateway, and the gateway is in communication connection with the sensor;

the display is used for displaying a plurality of target containers according to the serial connection sequence of the gateway and the sensor, wherein the target containers are gateway containers and/or sensor containers;

a memory for storing a gateway image corresponding to the gateway and a sensor image corresponding to the sensor;

a processor, configured to execute any one of the instructions or programs sent by the upper computer, as shown in fig. 2, specifically including the following steps:

s201, acquiring gateway container S₀And sensor list S ═ (S)₁，S₂，S₃，……，S_m) Wherein S is_iThe number of the ith sensor container is defined, i is 1 … … m, and m is the number of the sensors;

specifically, the gateway container refers to a control capable of containing the gateway image, and the gateway image represents an image of the overall connection state of the gateway.

Specifically, the sensor container refers to a control capable of containing the sensor image, and the sensor image represents an image of the overall connection state of the sensor.

S203, according to the target display width W and the appointed display width

For comparison, W satisfies the following condition:

wherein, W₀Means S₀Width of (W)_iMeans S_iD is a distance between two adjacent target containers in the first display area in the X-axis direction; for example, in theIn the first display area, the distance between the gateway container and the adjacent sensor container in the X-axis direction is D, and the distance between two adjacent sensor containers in the X-axis direction is also D.

Specifically, W refers to the overall display width of the gateway container and the sensor container.

Preferably, W₁＝W₂＝W₃＝……＝W_mI.e. the width of all the sensor containers is uniform.

Preferably, W₀＞W_iI.e. the width of the gateway container is larger than the width of the sensor container.

The following conditions are met:

wherein, K is the display width coefficient of the first display area, B is the display width of the first display area;

in particular, the amount of the solvent to be used,

refers to the maximum display width of the first display region.

Specifically, the first display area is an area in the display where the gateway container and the sensor container are displayed, and preferably, the first display area is an entire display area of the display.

Preferably, K ranges from 2 to Z, Z being the upper limit value of K, Z satisfying the following condition:

s205, when

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀And S;

preferably, in step S205, when

Then, the distance between two adjacent target containers is reduced to obtain a reduced distance D₀，D₀The following conditions are met:

D₀＝D-L；

wherein L is the reduced distance between two adjacent target containers in the X-axis direction, namely D₀This can be understood as the reduced distance between two adjacent target containers in the X-axis direction.

Preferably, L satisfies the following condition:

specifically, in the first display area, a plurality of the sensor containers in S are also displayed in a serially connected order, for example, when m is 10, in the first display area, S is sequentially displayed₀、S₁、S₂……S₁₀。

S207, when

Judging whether the operation state corresponding to the display is a touch state or a non-touch state;

s209, when the operation state is a non-touch state, displaying R rows of target container groups in the first display area according to a scroll instruction, wherein the target container groups in each row display n target containers in the X-axis direction of the first display area, wherein the target container groups comprise a first container group or a second container group, for example, the first container group, which is the first container group, in the first display area, and the target container groups in the first row are displayed according to the serial connection sequence of the gateway container and the n-1 sensor containers, when the scroll instruction, which is the mouse scroll instruction, is received, the target container groups in the next row are displayed by moving up and down in the Y-axis direction of the first display area, the second container group, which is the second container group, and the target container groups in the R rows are displayed according to the serial connection sequence of the n sensor containers, and so on, those skilled in the art can adopt any method to determine to accept the scrolling command and move the display up and down according to the scrolling command without dragging the scroll bar, which is not described herein.

Specifically, n satisfies the following condition:

further, the first container group comprises a gateway container and n-1 sensor containers, wherein W is_i≤W₀≤2W_i。

Further, the second container group includes: n of the sensor containers.

Specifically, R satisfies the following condition:

in a specific embodiment, the display area of the display further includes a second display area, the second display area is located on one side of the first display area, and the second display area is an area where an operation image is displayed in the display.

The second embodiment provides a gateway sensor visualization system based on a touch display device, which can pass through the gateway container S₀And a sensor list S for displaying the target display width W and the designated display width

By contrast, when

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀And S, when

Judging whether the operation state corresponding to the display is a touch state or a non-touch state, when the operation state is the non-touch state, displaying a target container group of R rows in the first display area according to a scrolling instruction, wherein the target container group of each row displays n target containers in the X-axis direction of the first display area, and when receiving the scrolling instruction, namely a mouse scrolling instruction, moving up and down in the Y-axis direction of the first display area to display a next row of target container groups, namely a second container group, therefore, the embodiment can enable a plurality of sensors to upload data quickly and simultaneously through a gateway; and under the non-touch state, according to the width of gateway container, the width of sensor container and the width of display, according to the instruction of rolling, adjust the operating condition that shows gateway container and a plurality of sensor container simultaneously and correspond in the display area, simultaneously to unable sensor container and the gateway container that show totally in same line, it is complete to make its demonstration through the interval that reduces the correspondence, be convenient for operating personnel in real time to the control of gateway and a plurality of sensor, avoid resulting in omitting unusual gateway or sensor because of unable demonstration, influence industrial production.

EXAMPLE III

The third embodiment provides a gateway sensor visualization system based on a touch display device, the system includes: the system comprises an upper computer, a gateway and a sensor, wherein the upper computer is in communication connection with the gateway, and the gateway is in communication connection with the sensor;

the display is used for displaying a plurality of target containers according to the serial connection sequence of the gateway and the sensor, wherein the target containers are gateway containers and/or sensor containers;

a memory for storing a gateway image corresponding to the gateway and a sensor image corresponding to the sensor;

a processor, configured to execute any one of the instructions or programs sent by the upper computer, as shown in fig. 3, specifically including the following steps:

s301, acquiring gateway container S₀And sensor list S ═ (S)₁，S₂，S₃，……，S_m) Wherein S is_iThe number of the ith sensor container is defined, i is 1 … … m, and m is the number of the sensors;

specifically, the gateway container refers to a control capable of containing the gateway image, and the gateway image represents an image of the overall connection state of the gateway.

Specifically, the sensor container refers to a control capable of containing the sensor image, and the sensor image represents an image of the overall connection state of the sensor.

S303, according to the target display width W and the appointed display width

For comparison, W satisfies the following condition:

wherein, W₀Means S₀Width of (W)_iMeans S_iD is a distance between two adjacent target containers in the first display area in the X-axis direction; for example, in the first display area, a distance between a gateway container and an adjacent sensor container in the X-axis direction is D, and a distance between two adjacent sensor containers in the X-axis direction is also D.

Specifically, W refers to the overall display width of the gateway container and the sensor container.

Preferably, W₁＝W₂＝W₃＝……＝W_mI.e. the width of all the sensor containers is uniform.

Preferably, W₀Wi, i.e. the width of the gateway container is greater thanA width of the sensor receptacle.

The following conditions are met:

wherein, K is the display width coefficient of the first display area, B is the display width of the first display area;

in particular, the amount of the solvent to be used,

refers to the maximum display width of the first display region.

Specifically, the first display area is an area in the display where the gateway container and the sensor container are displayed, and preferably, the first display area is an entire display area of the display.

Preferably, K ranges from 2 to Z, Z being the upper limit value of K, Z satisfying the following condition:

s305, when

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀And S;

preferably, in step S205, when

Then, the distance between two adjacent target containers in the X-axis direction is reduced to obtain a reduced distance D₀，D₀The following conditions are met:

D₀＝D-L；

wherein L is the reduced distance between two adjacent target containers in the X-axis direction, namely D₀This can be understood as the reduced distance between two adjacent target containers in the X-axis direction.

Preferably, L satisfies the following condition:

specifically, in the first display area, a plurality of the sensor containers in S are also displayed in a serially connected order, for example, when m is 10, in the first display area, S is sequentially displayed₀、S₁、S₂……S₁₀。

S307, when

Judging whether the operation state corresponding to the display is a touch state or a non-touch state;

s309, when the operation state is a non-touch state, judging whether the display state of the text container meets a popup display state or a parallel display state, so that a third container group of T lines is displayed in the first display area at the same time according to a judgment result;

specifically, the third container group includes a text container and/or a target container, that is, any one of the third container groups includes a text container and a target container, where the text container includes a first text container and a second text container, the first text container refers to a control for storing the gateway parameter, and the second text container refers to a control for storing the sensor parameter.

Specifically, according to the determination result, the step of simultaneously displaying the third container group of T rows in the first display area further includes the steps of:

when the display state is the popup display state, displaying T rows of target containers in the first display area, wherein T meets the following conditions:

wherein H₁The height of the target container is consistent, namely the height of the gateway container is consistent with that of the sensor container;

the distance between two adjacent target containers in the Y-axis direction is defined;

refers to the display height factor of the first display area,

refers to the display height of the first display area.

Preferably, in step S309, when

Then, the distance between two adjacent target containers in the Y-axis direction is reduced to obtain

D₀The following conditions are met:

when the display state is the parallel display state, simultaneously displaying a third container group of T lines in the first display area, wherein the third container group of each line comprises a text container and a target container, and T meets the following conditions:

wherein, the H₁Is the height of the target container, i.e.The heights of the gateway container and the sensor container are consistent; the above-mentioned

The distance between two adjacent target containers in the Y-axis direction is defined; said H₂The height of the text container is defined, namely the heights of the first text container and the second text container are consistent; the above-mentioned

The distance between adjacent target containers and text containers in the Y-axis direction is defined; the above-mentioned

Is a display height coefficient of the first display region, said

Refers to the display height of the first display area.

Preferably, in step S309, when

And is

Then, the distance between the adjacent target container and the text container in the Y-axis direction is reduced to obtain

D₀The following conditions are met:

specifically, the X-axis refers to the horizontal direction of the display, and the Y-axis refers to the vertical direction of the display.

In a specific embodiment, the display area of the display further includes a second display area, the second display area is located on one side of the first display area, and the second display area is an area where an operation image is displayed in the display.

The third embodiment provides a gateway sensor visualization system based on a touch display device, which can pass through a gateway container S₀And a sensor list S for displaying the target display width W and the designated display width

By contrast, when

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀S, when W is larger than W, the operation state corresponding to the display is judged to be a touch state or a non-touch state, and when the operation state is the non-touch state, whether the display state of the text container meets a popup display state or a parallel display state is judged, so that a third container group of T lines is displayed in the first display area at the same time according to the judgment result; therefore, the embodiment can enable a plurality of sensors to upload data rapidly and simultaneously through the gateway; and in a non-touch state, the sensor container and the gateway container are displayed, the text container is also displayed, parameters of the sensor and the gateway are stored in the text container, and parameter information in the text container and working states corresponding to the sensor container/the gateway container are simultaneously displayed in a reasonable and orderly display area according to the height of the text container, the height of the sensor container/the gateway container and the height of the display, and meanwhile, for the text container and the sensor container/the gateway container which cannot be completely displayed on the same line, the corresponding distance between the text container and the sensor container/the gateway container is reduced to ensure that the text container and the sensor container/the gateway container are completely displayed, so that an operator can conveniently monitor the gateway and the sensors in real time, and the influence on industrial production caused by missing abnormal gateways or sensors due to the incapability of display is avoided.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A gateway sensor visualization system based on a touch display device, the system comprising: the system comprises an upper computer, a gateway and a sensor, wherein the upper computer is in communication connection with the gateway, and the gateway is in communication connection with the sensor;

the display is used for displaying a plurality of target containers according to the serial connection sequence of the gateway and the sensor, wherein the target containers are gateway containers and/or sensor containers;

a memory for storing a gateway image corresponding to the gateway and a sensor image corresponding to the sensor;

the processor is used for executing any section of instruction or program sent by the upper computer, and specifically comprises the following steps:

obtaining gateway container S₀And sensor list S ═ (S)₁，S₂，S₃，……，S_m) Wherein S is_iThe number of the ith sensor container is defined, i is 1 … … m, and m is the number of the sensors;

according to the target display width W and the designated display width

For comparison, W satisfies the following condition:

wherein, W₀Means S₀Width of (W)_iMeans S_iD is a distance between two adjacent target containers in the first display area in the X-axis direction;

the following conditions are met:

wherein K is a display width coefficient of a first display area, and B is the display width of the first display area;

when in use

Displaying S in a first display area according to the serial connection sequence of the gateway and the sensor₀And S;

when in use

Judging whether the operation state corresponding to the display is a touch state or a non-touch state;

when the operation state is a touch state, displaying S in the first display area according to the serial connection sequence of the gateway and the sensor according to a sliding instruction₀And S.

2. The touch display device-based gateway sensor visualization system according to claim 1, wherein the gateway container is a control that can accommodate the gateway image.

3. The touch display device-based gateway sensor visualization system according to claim 1, wherein the sensor container refers to a control that can accommodate the sensor image.

4. The touch display device-based gateway sensor visualization system according to claim 1, wherein the first display area is an area where a gateway container and the sensor container are displayed in the display.

5. The touch display device-based gateway sensor visualization system according to claim 1, wherein W is an overall display width of a gateway container and the sensor container.

6. The touch display device-based gateway sensor visualization system according to claim 1,

refers to the maximum display width of the first display region.

7. The touch display device-based gateway sensor visualization system according to claim 1, wherein K ranges from 2 to Z, and Z is an upper limit value of K.

8. The touch-display-device-based gateway sensor visualization system according to claim 7, wherein Z satisfies the following condition:

。

9. the touch-based display device gateway sensor visualization system of claim 1, wherein W is₁＝W₂＝W₃＝……＝W_m。

10. The touch display device-based gateway sensor visualization system according to claim 1, wherein the display area of the display further comprises a second display area, the second display area is located at one side of the first display area, and the second display area is an area where an operation image is displayed in the display.

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