CN112837134A - Task display device - Google Patents

Abstract

The embodiment of the invention discloses a task display device. The task display device comprises a display device, an input device connected with the display device, a communication device and a control device, wherein the display device is configured to display the task processing state of each task to be processed in a matrix form, and the control device is configured to control the display device to change the display state of the task to be processed in response to the input device being triggered. The task display device of the embodiment of the invention displays the task processing state of each task to be processed more intuitively through the matrix form, so that the resource provider can more easily know the processing progress of each task to be processed, the possibility that the resource provider finishes processing the task to be processed but forgets to modify the task processing state of the task to be processed is reduced, and the cancellation rate of the task at the peak moment is reduced to a certain extent.

Description

Task display device

Technical Field

The invention relates to the technical field of computers, in particular to task display equipment.

Background

With the continuous acceleration of life rhythm, more and more people can select the mode of ordering goods on line to save time. Therefore, in some peak hours (for example, during a noon break), where the time of ordering the goods is concentrated, the pressure for processing the goods order by the merchant is high, and sometimes, the merchant may forget to modify the order processing state after the order is processed, so that the order distribution personnel cannot timely obtain the order and distribute the order to the user, and the cancellation rate of the order in the peak hours is increased.

Disclosure of Invention

In view of the above, embodiments of the present invention provide a task display device, which is used to reduce the possibility that a resource provider has finished processing a task to be processed and forgets to modify the task processing state of the task to be processed, thereby reducing the cancellation rate of the task at a peak time to some extent.

In a first aspect, an embodiment of the present invention provides a task display device, including:

the display device is configured to display the task processing state of each task to be processed in a matrix form;

the input device is connected with the display device;

a communication device; and

and the control device is configured to control the display device to change the display state of at least one task to be processed in response to the input device being triggered.

The task display device comprises a display device, an input device connected with the display device, a communication device and a control device, wherein the display device is configured to display the task processing state of each task to be processed in a matrix form, and the control device is configured to control the display device to change the display state of the task to be processed in response to the input device being triggered. The task display device of the embodiment of the invention displays the task processing state of each task to be processed more intuitively through the matrix form, so that the resource provider can more easily know the processing progress of each task to be processed, the possibility that the resource provider finishes processing the task to be processed but forgets to modify the task processing state of the task to be processed is reduced, and the cancellation rate of the task at the peak moment is reduced to a certain extent.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of the embodiments of the present invention with reference to the accompanying drawings, in which:

FIG. 1 is a schematic diagram of a hardware system architecture of an embodiment of the present invention;

FIG. 2 is an interaction diagram of a hardware system architecture of an embodiment of the invention;

fig. 3 is a schematic view of an electronic device of a first embodiment of the invention;

fig. 4 is a flowchart of a display control method of a second embodiment of the present invention;

fig. 5 is a flowchart of a display control method of a third embodiment of the present invention;

FIG. 6 is a schematic view of a display device according to an embodiment of the present invention;

fig. 7 to 8 are flowcharts of a display control method according to a fourth embodiment of the present invention;

FIG. 9 is a schematic interface diagram of an input device according to an embodiment of the invention;

fig. 10 is a schematic view of a display change of the display device according to the embodiment of the present invention.

Detailed Description

The present invention will be described below based on examples, but the present invention is not limited to only these examples. In the following detailed description of the present invention, certain specific details are set forth. It will be apparent to one skilled in the art that the present invention may be practiced without these specific details. Well-known methods, procedures, components and circuits have not been described in detail so as not to obscure the present invention.

Further, those of ordinary skill in the art will appreciate that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including, but not limited to".

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

The centralized degree of task release can affect the cancellation rate of tasks to some extent. For example, in some peak hours (for example, in a noon break time period) when the order ordering time is concentrated, the processing pressure of the commodity order of the merchant is high, and sometimes, the situation that the merchant has already processed the order and forgets to modify the order processing state or the merchant forgets to process a certain order may occur, so that the order distribution personnel needs to wait for a long time and cannot obtain the order to distribute the order to the user in time, and further, the cancellation rate of the order in the peak hours is increased.

FIG. 1 is a diagram of a hardware system architecture of an embodiment of the present invention. The hardware system architecture shown in fig. 1 may include a plurality of task issuing terminals, at least one task display device, at least one task receiving terminal, at least one platform-side server (also referred to as a server below), and a plurality of task processing terminals, and fig. 1 illustrates one task issuing terminal 11, one task display device 12, one server 14, and one task processing terminal 15 as an example. When the connection mode is a, the task distribution terminal 11, the task display device 12, the server 14, and the task processing terminal 15 shown in fig. 1 may be connected in communication via a network; when the connection method is B, the task receiving terminal 13 shown in fig. 1 may be connected to the task display device 12 in a bluetooth or wired manner, and the task receiving terminal 13 may be connected to the task distribution terminal 11, the server 14, and the task processing terminal 15 in a communication manner via a network. In the embodiment of the present invention, the task issuing terminal 11 is also a user terminal, and a user may issue a task (e.g., a take-out order, a commodity order, etc.) through an online task issuing platform (e.g., an order platform, an online shopping platform, etc.) through the task issuing terminal 11. After acquiring the to-be-processed tasks issued by the user through the online task issuing platform, the server 14 may determine resource providers (e.g., merchants, etc.) of the to-be-processed tasks according to task information of the to-be-processed tasks, and send the task information to the task display device 12 corresponding to the resource provider or the task receiving terminal 13 corresponding to the resource provider and the corresponding task processing terminal 15, so that the corresponding resource providers may receive the tasks through the task display device 12 or the task receiving terminal 13 to process the to-be-processed tasks, and so that task processing resources (e.g., distribution personnel, etc.) holding the task processing terminals 15 may process the to-be-processed tasks after confirming the reception of the to-be-processed tasks through the task processing terminals 15.

FIG. 2 is an interaction diagram of a hardware system architecture of an embodiment of the invention. As shown in fig. 2, in the embodiment of the present invention, after both the resource provider and the task processing resource confirm to receive the pending task, the task processing status of the pending task is usually unprocessed. The task display device 21 may receive task information of the task to be processed from the server 22 and display a task processing state of the task to be processed in a first manner. After the merchant finishes processing the task to be processed, the state modification key of the task display device 21 may be triggered to modify the task processing state of the task to be processed from unprocessed to processed, and the task display device 21 may display the task processing state of the task to be processed in a second manner and send task state modification information for updating the task processing state to the server 22. After receiving the task state modification information, the server may send the state modification information to the corresponding task processing terminal 23, so that the task processing resource may continue to process the task to be processed. After the task to be processed is transferred to the task processing resource, the task processing resource may send a state modification instruction for the task to be processed to the server 22 through the task processing terminal 23, and the server 22 sends the state modification instruction for the task to be processed to the task display device 21, so that the task display device 21 may modify the task processing state of the task to be processed to be completed and display the task processing state of the task to be processed in a third manner.

Fig. 3 is a schematic diagram of an electronic device according to a first embodiment of the present invention. The electronic equipment, namely the task display equipment, is provided by the embodiment of the invention. As shown in fig. 3, the electronic apparatus includes at least one control device 31; and a communication device 32 communicatively connected to the control device, the communication device 32 receiving and transmitting data under the control of the control device 31; and, a display device 33; and an input device 34 connected to the display device 33. Wherein the display device 33 is configured to display the task processing state of each task to be processed in a matrix form, and the control device 31 is configured to control the display device to change the display state of at least one task to be processed in response to the input device being triggered.

Fig. 3 illustrates a control device 31, a communication device 32, a display device 33, and an input device 34. The communication device 32 is configured for information interaction, including receiving task information and status instructions sent by the server, and sending task status modification information to the server. The display device 33 includes a plurality of display positions arranged in a matrix form, each display position corresponding to one of the tasks to be processed. The control means 31 changes the display state of at least one display position in the display means 33 by being triggered in response to the input means 34.

In this embodiment, the communication device 32 may be a Wireless communication device, and specifically may be a cellular network (e.g., 3G, 4G, 5G, etc.) communication device, a WLAN (Wireless Local Area network) communication device, and the like, so that the Wireless communication device has the characteristics of high flexibility, convenience in installation, low maintenance cost, and the like. The display device 33 may be an LED (Light Emitting Diode) dot matrix screen (hereinafter, also referred to as a dot matrix screen). The dot matrix screen is composed of light emitting diodes, and the lamp beads are turned on and off to display characters, pictures, animations, videos and the like, so that the dot matrix screen has the characteristics of simplicity in manufacture, low installation difficulty and the like. The input device 34 may be an entity keyboard, and specifically includes a first state modification key, a second state modification key, a first task switch key, a second task switch key, a first operation cancel key, and a second operation cancel key. By the structure, the task display equipment has the characteristics of low installation cost, simplicity in operation, low maintenance cost and the like.

Alternatively, in the present embodiment, the Display device 33 may be a CRT (Cathode Ray Tube) Display device, an LCD (Liquid Crystal Display) Display device, an LED Display device, or the like, and the input device 34 may be a virtual keyboard. The display device 33 and the input device 34 of the present embodiment may be integrated into a whole, such as a touch screen (i.e., a touch panel), which may be specifically an infrared touch screen, a resistive touch screen, a surface acoustic wave touch screen, a capacitive touch screen, and the like. Further, the control device 31, the communication device 32, the display device 33 and the input device 34 in this embodiment may also be integrated into a whole, such as a tablet computer.

In this embodiment, the control means may control the display means to display the current display position in a first manner, and specifically, the control means may determine each display position as the current display position from a first display position in the display means, respectively. In the following alternative implementation, the second mode is exemplified as the second color highlighting. It is easy to understand that the second mode may be other modes, and the embodiment is not particularly limited.

In one alternative implementation, the input device may include a state modification key. When the state modification key is triggered, the control means may control the display means to stop displaying the current display position in the first manner, and display the current display position in the second manner, while displaying the next display position of the current display position in the first manner.

For example, the current display position is the 1 st display position in the display device, and the next display position of the current display position is the 2 nd display position in the display device. The control means may control the display means to display the 1 st display position in the first manner, and when the state modification key is triggered, control the display means to stop displaying the 1 st display position in the first manner, and to display the 1 st display position in the second manner, while displaying the 2 nd display position in the first manner.

Specifically, in the present embodiment, the state modification keys include a first state modification key and a second state modification key, the current display position includes a first display position and a second display position, and the first manner includes a first color blinking and a second color blinking. When the first state modification key is triggered, the control device may control the display device to stop displaying the first display position in the first color blinking manner, and display the first display position in the second manner, while displaying a next display position of the first display position in the first color blinking manner. When the second state modification key is triggered, the control device may control the display device to stop displaying the second display position in the second color blinking manner, and display the second display position in the second manner, while displaying a next display position of the second display position in the second color blinking manner.

That is, the current display position is iteratively updated, and the control means updates the current display position, in particular, the current display position to the next display position, each time the state modification key is activated.

(II) in an alternative implementation, the input device may include a first task switch key. When the first task switching key is triggered, the control device may control the display device to stop displaying the first display position and display a next display position of the first display position in a first color blinking manner.

The input device may further include a second task switching key. The control means may control the display means to stop displaying the second display position and to display a next display position of the second display position in a second color blinking manner when the second task switching key is triggered.

In this embodiment, the control device defaults that each display position is the first display position. When the first task switching key is triggered, the current display position is changed from the first display position to the second display position. For a first display position, the next display position refers to the next display position adjacent to the display position; for the second display position, the next display position is the next display position closest to the display position and triggered by the first task switch key.

For example, the current display position is the 1 st display position in the display device, and the 1 st display position is defaulted as the first display position. When the first task switching key is activated twice, the control means may determine both the 1 st display position in the display means and the 2 nd display position in the display means (i.e., the next display position to the first display position) as the second display position, and then determine the 3 rd display position in the display means as the first display position. At this time, the second display position is the 1 st display position. When the second task switch key is triggered once, the second display position is updated to the 2 nd display position (the next display position closest to the 1 st display position and triggered by the first task switch key).

When the first task trigger key is triggered twice, the control means may control the display means to stop displaying the 1 st display position in a green (i.e., first color) blinking manner and to display the 2 nd display position in a green blinking manner; then, the 2 nd display position is stopped from being displayed in the green blinking manner, and the 3 rd display position is displayed in the green blinking manner. Meanwhile, the 1 st display position is displayed in a red (i.e., second color) blinking manner. Then, when the second task switching key is activated once, the control means may control the display means to stop displaying the 1 st display position and display the 2 nd display position in a red blinking manner.

For another example, the current display position is the 1 st display position in the display device, and the 1 st display position is defaulted as the first display position. The control means may determine a2 nd display position in the display means as the first display position when the first task switching key is first activated. At this time, the second display position is the 1 st display position. Thereafter, when the first state modification key is activated for the second time, the control means controls the display means to update the 3 rd display position (i.e., the next display position to the 2 nd display position) to the first display position. Thereafter, when the first task switching key is activated once, the control means may determine the 4 th display position in the display means as the first display position. Thereafter, when the second task switch key is triggered once, the control device may update the second display position to the 3 rd display position (the next display position that is closest to the 1 st display position and that was triggered by the first task switch key).

The control means may control the display means to stop displaying the 1 st display position in a green (i.e., first color) blinking manner and to display the 2 nd display position in a green blinking manner when the first task trigger key is first triggered. Meanwhile, the 1 st display position is displayed in a red (i.e., second color) blinking manner. Thereafter, when the first state modification key is activated once, the control means may control the display means to display the 2 nd display position in a red highlighted (i.e., second mode) manner and to display the 3 rd display position in a green blinking manner. The control means may control the display means to stop displaying the 3 rd display position in a green blinking manner and to display the 4 th display position in a green blinking manner when the first task trigger key is triggered for the second time. Thereafter, when the second task switching key is activated once, the control means may stop displaying the 1 st display position and then display the 3 rd display position in a red blinking manner.

In an alternative implementation, the input device may include a first operation cancel key. When the first operation cancel key is triggered, the control device may control the display device to stop displaying the first display position and display a previous display position of the first display position in a first color blinking manner, or control the display device to stop displaying the first display position in a second manner and display the first position in a first color blinking manner.

Specifically, when the previous triggered key when the first operation cancel key is triggered is the first task switch key, the control device may control the display device to stop displaying the first display position and display a previous display position of the first display position in a first color flashing manner; when the previous triggered key when the first operation cancel key is triggered is the first state modification key, the control device may control the display device to stop displaying the first display position in the second manner, and display the first position in a blinking manner with the first color.

The input device may further include a second operation cancel key. When the second operation cancel key is triggered, the control device may control the display device to stop displaying the second display position and display a previous display position of the second display position in a second color flashing manner, or control the display device to stop displaying the second display position in the second manner and display the second display position in a second color flashing manner, or control the display device to stop displaying the second display position and display a previous display position of the second display position in a first color flashing manner.

Specifically, when the previous triggered key when the second operation cancel key is triggered is the second task switch key, the control device may control the display device to stop displaying the second display position and display a previous display position of the second display position in a second color flashing manner; when the previous triggered key when the second operation cancel key is triggered is the second state modification key, the control device may control the display device to stop displaying the second display position in the second manner, and display the second display position in a second color flashing manner; when the previously triggered key when the second operation cancel key is triggered is the first task switch key, the control device may control the display device to stop displaying the second display position and display a previous display position of the second display position in a blinking manner of the first color.

For the first display position, the last display position refers to the last display position adjacent to the display position; for the second display position, the last display position is the last display position which is closest to the display position and is triggered by the first task switch key.

For example, the current display position is the 1 st display position in the display device, and the 1 st display position is defaulted as the first display position. When the first task switching key is activated twice, the control means may determine both the 1 st display position in the display means and the 2 nd display position in the display means (i.e., the next display position to the first display position) as the second display position, and then determine the 3 rd display position in the display means as the first display position. At this time, the second display position is the 1 st display position. When the second operation cancel key is triggered once, the second display position is updated to the 2 nd display position (the last display position closest to the 3 rd display position and triggered by the first task switch key).

When the first task trigger key is triggered twice, the control means may control the display means to stop displaying the 1 st display position in a green (i.e., first color) blinking manner and to display the 2 nd display position in a green blinking manner; then, the 2 nd display position is stopped from being displayed in the green blinking manner, and the 3 rd display position is displayed in the green blinking manner. Meanwhile, the 1 st display position is displayed in a red (i.e., second color) blinking manner. Then, when the second operation cancel key is triggered once, the control means may control the display means to stop displaying the 3 rd display position and display the 2 nd display position in a green blinking manner.

The task display device comprises a display device, an input device connected with the display device, a communication device and a control device, wherein the display device is configured to display the task processing state of each task to be processed in a matrix form, and the control device is configured to control the display device to change the display state of the task to be processed in response to the input device being triggered. The task display device of the embodiment of the invention displays the task processing state of each task to be processed more intuitively through the matrix form, so that the resource provider can more easily know the processing progress of each task to be processed, the possibility that the resource provider finishes processing the task to be processed but forgets to modify the task processing state of the task to be processed is reduced, and the cancellation rate of the task at the peak moment is reduced to a certain extent.

The display control method executed by the control device according to the embodiment of the present invention is described in detail below by way of a method embodiment.

Fig. 4 is a flowchart of a display control method according to a second embodiment of the present invention. As shown in fig. 4, the method of this embodiment includes the following steps:

step S401, receiving task information of at least one task to be processed.

In this step, the control device may receive task information of at least one task to be processed through the communication device. In this embodiment, the task information of the to-be-processed task at least includes a running water identifier of the to-be-processed task, that is, a task identifier, which is used to uniquely characterize one to-be-processed task on the resource provider side within a predetermined time period (for example, a plurality of hours, a day, a week, and the like).

Optionally, the pipeline identifier may be generated according to a receiving time when the resource provider receives the task to be processed. For example, on 25 days 9, 25, the first task to be processed received by the resource provider P1 from 11:00 to 13:00 is task M1, and the running water identifier of task M1 may be 1; alternatively, resource provider P1 was, at 11/25/9: 00 the pending task received is task M2, then the running water identification for task M2 may include 09251100 (i.e., the combination of the date received and the time of receipt).

Step S402, controlling the display device to display the task processing state of each task to be processed in a matrix form and displaying the task processing state in different modes.

After receiving the task information of at least one task to be processed, the control device may control the display device to display the task processing state of each task to be processed in a matrix form, and display the task processing state of each task to be processed in different manners. In this embodiment, the task processing states of the tasks to be processed include unprocessed, processing-neutral, and processed states, and the display position of the task processing state of each task to be processed is determined according to the running water identifier of the task to be processed. Therefore, the task processing state of each task to be processed can be displayed more intuitively through the matrix form, so that the resource provider can know the processing progress of each task to be processed more easily, the possibility that the resource provider finishes processing the task to be processed but forgets to modify the task processing state of the task to be processed is reduced, and the cancellation rate of the task at the peak moment is reduced to a certain extent.

The display device of the present embodiment may be various existing display devices, such as a CRT display device, an LCD display device, an LED display device, and the like, and the present embodiment is not particularly limited.

The present embodiment selects the order of the to-be-processed tasks received by the resource provider within the predetermined time period as the flow identifier of the to-be-processed task, that is, the flow identifier of the m-th (m is a predetermined integer greater than or equal to 1) to-be-processed task received by the resource provider within the predetermined time period is i. Therefore, for the convenience of viewing, the display device of the present embodiment can display the task processing states of the respective tasks to be processed in a matrix form of dimensions of 10 × n (n is a predetermined integer of 1 or more). It is easy to understand that the number of rows and columns of the matrix may be adjusted according to actual requirements, and this embodiment is not particularly limited.

For a matrix of 10 × n dimensions formed by task processing states of tasks to be processed, display positions in the ith (i is a predetermined integer greater than or equal to 1) row and the jth column (j is a predetermined integer greater than or equal to 1) of the matrix are used for displaying the task processing states of the tasks to be processed with pipeline identifiers of 10(i-1) + j. For example, the display position of the 1 st row and the 1 st column of the matrix is used for displaying the task processing state of the task to be processed with the pipeline identifier 1, and the display position of the 4 th row and the 10 th column is used for displaying the task processing state of the task to be processed with the pipeline identifier 40.

Optionally, in this embodiment, when the task processing status of the to-be-processed task is unprocessed, the control device may control the display device to display the task processing status of the to-be-processed task in a first manner; when the task processing state of the task to be processed is in process, the control device can control the display device to display the task processing state of the task to be processed in a second mode; when the task processing state of the task to be processed is completed, the control device may control the display device to display the task processing state of the task to be processed in a third manner.

The first mode, the second mode, and the third mode may be various existing and different display modes, and this embodiment is not particularly limited. For example, the control means may control the display means to display the task processing status of "unprocessed" in a first color, the task processing status of "processing" in a second color, and the task processing status of "completed" in a third color; alternatively, the control device may also display the task processing status of "unprocessed" in a square shape, the task processing status of "processing" in a triangle shape, and the task processing status of "completed" in a circle shape.

It is to be understood that, in this embodiment, the control device may adopt the same display mode (for example, all display modes) for the to-be-processed tasks with the same processing state (for example, unprocessed) of each task, or may adopt the same display mode for some of the to-be-processed tasks, and this embodiment is not particularly limited.

After receiving at least one piece of task information of the to-be-processed task including the running water identifier of the to-be-processed task, the control device of this embodiment determines the display position of the task processing state of each to-be-processed task in the matrix according to the running water identifier of each to-be-processed task, and controls the display device to display the corresponding task processing state in different manners at the display position of each to-be-processed task. The task processing state of each task to be processed is displayed more intuitively through the matrix form, so that the resource provider can know the processing progress of each task to be processed more easily, the possibility that the resource provider finishes processing the task to be processed but forgets to modify the task processing state of the task to be processed is reduced, and the cancellation rate of the task at the peak moment is reduced to a certain extent.

In the following embodiments, the to-be-processed task and the target task are taken as the commodity orders as an example for description, but it is easily understood by those skilled in the art that the method of the following embodiments is also applicable when the to-be-processed task and the target task are other types of tasks.

Fig. 5 is a flowchart of a display control method according to a third embodiment of the present invention. As shown in fig. 5, the method of the present embodiment includes the following steps:

step S501, receiving task information of at least one task to be processed.

In this embodiment, the task to be processed is a commodity order generated according to a selection of a user, and the task information is order information. After the merchant serving as the resource provider of the commodity order confirms that the commodity order is received, the server can generate the flow identifier of the commodity order and send order information including the flow identifier to the control device of the task display equipment. The control device may receive order information for at least one order for the goods via the communication device.

In this embodiment, the generation manner of the pipeline identifier is similar to that in step S401, and is not described herein again.

Step S502, controlling the display device to display the task processing state of each task to be processed in a matrix form and displaying the task processing state in different modes.

In the present embodiment, similarly to step S402, the order processing status of the goods order also includes unprocessed, processed, and completed. Wherein, the unprocessed goods are used for representing that the goods order is accepted by the merchant, but the merchant does not prepare the goods; the processing is used for representing that the merchant has prepared the commodities but the commodities are not handed over to the distribution personnel; has been completed to characterize that the article has been handed over to the delivery personnel.

Taking a take-out order as an example, if the order processing state of the take-out order is unprocessed, it indicates that the processing of the take-out food by the merchant does not reach the packaging completion stage; if the order processing state of the take-out order is in process, the merchant indicates that the processing of the take-out food has reached the packaging completion stage, but the delivery personnel have not obtained the take-out food from the merchant; if the order processing status of the take-away order is complete, it indicates that the delivery personnel has obtained the take-away food from the customer.

In this embodiment, an LED dot matrix screen is selected as the display device. The dot matrix screen displays the order processing state of each commodity order by changing the on/off and color of the lamp beads through the light-emitting diodes, each diode can correspond to one lamp bead of the dot matrix screen, and each lamp bead represents one display position. Specifically, the dot matrix screen of the present embodiment may display at least a first color, a second color, and a third color, and the display device may display the order processing status of "unprocessed" in the first color (i.e., the first mode), the order processing status of "processed" in the second color (i.e., the second mode), and the order processing status of "completed" in the third color (i.e., the third mode). Through the display mode, the merchant can know the order processing state of the corresponding commodity order by checking the color of each display position in the display screen, and the possibility that the merchant forgets to modify the order processing state of the commodity order after the commodity is processed is reduced.

In this embodiment, the determination manner of the display position of the order processing status of the product order is similar to the determination manner of the display position of the order processing status of the product order in step S402, and is not repeated herein.

Fig. 6 is a schematic diagram of a display device according to an embodiment of the present invention. Each square shown in fig. 6 represents a lamp bead in the dot matrix screen, and it is to be understood that the number of lamp beads is merely illustrative. As shown in FIG. 6, the pipeline identification of the received pending order for the merchant includes 1-48. The lamp beads in the first row and the first column to the lamp beads in the first row and the seventh column are all displayed in a first color and used for representing that the order processing state of the commodity order with the flow mark of 1-7 is finished; the lamp beads in the eighth column in the first row to the lamp beads in the first column in the third row are all displayed in a second color and are used for representing that the order processing states of the commodity orders with the running water marks of 8-22 are all in processing; and the lamp beads in the third row and the third column to the lamp beads in the fifth row and the eighth column are all displayed in a third color and used for representing that the order processing states of the commodity orders with the running water identifiers of 23-48 are all unprocessed. And all the lamp beads listed in the ninth row of the fifth row are not displayed and are used for representing that the commercial tenant does not receive the order to be processed with the running water identifier of 49.

In this embodiment, different order processing states are illustrated by using different color displays as an example, but it is easy to understand that, in this embodiment of the present invention, the control device may also control the display device to display the order processing states of the orders to be processed in other display manners, which may be specifically referred to in the following embodiments.

Step S503, the task to be processed with the minimum current flow identifier and the unprocessed task processing state is determined as the target task.

In this step, the merchant does not need to manually select the target task, and the control device may determine, as the target order, the commodity order with the smallest flow mark and the unprocessed order processing state according to the flow mark of each commodity order, thereby simplifying the operation at the merchant side.

Step S504, receiving an operation through the input device.

In this embodiment, the control device may receive different operations of the merchant through the input device. The input device of this embodiment may be an input device that can receive operations through virtual keys (e.g., controls) such as a touch screen, or may also be an input device that can receive operations through physical keys such as a keyboard, and this embodiment is not limited in particular.

In this embodiment, the input means comprises at least a state modification key. The state modification key is used for modifying the order processing state of the target order, and specifically, if the state modification key is triggered, the control device can modify the order processing state of the target order from unprocessed to processed.

And step S505, responding to the triggering of the state modification key, and modifying the state of the target task into the processing.

In this embodiment, the state modification key may be triggered in various existing manners, and this embodiment is not particularly limited. For example, when the state modification key is a virtual key, the merchant may trigger the state modification key by clicking the state modification key, or pressing the state modification key for a long time (for example, continuously pressing the state modification key for more than 1 second); when the state modification key is an entity key, the merchant can trigger the state modification key by pressing the state modification key and the like. After the state modification key is triggered, the control device may modify the target order state of the target order from unprocessed to processed.

It is easy to understand that after the target order of the target order is modified into a process, the control device may control the display device to update the display mode of the target order from the first mode to the second mode, and update the commodity order with the minimum flow identifier and the unprocessed order processing state as the target order. For example, the target order may be a commodity order with a running flag of 1, and the control device may update the commodity order with a running flag of 2 as the target task after the order processing status of the target order is updated to be in process.

For the embodiment, the control device may control the display device to display the target order in a manner of flashing the first color, and at the same time, the to-be-processed order with the order processing status except the target order as unprocessed is not displayed, so that the merchant may more easily view the current to-be-processed commodity order, and the possibility that the merchant forgets to process the target order and forgets to modify the order processing status of the target order after the commodity is prepared is reduced. After the order processing status of the target order is modified to be processed, the control device may control the display device to display the target order in a second color bright manner, and update the to-be-processed order with the running water mark next to the target order (i.e., with the running water mark being minimum) and the order processing status being unprocessed as the target order. It is easy to understand that, in this embodiment, the first color and the second color, or the first color and the third color may be the same or different, and this embodiment is not particularly limited.

The description will be made by taking the display device shown in fig. 6 as an example. The to-be-processed orders with the pipeline identifiers 1-7 are to-be-processed orders with the order processing state being completed, the to-be-processed orders with the pipeline identifiers 8-22 are to-be-processed orders with the order processing state being processed, and the to-be-processed orders with the pipeline identifiers 23 are to-be-processed orders with the order processing state being unprocessed. The control device controls the diodes corresponding to the to-be-processed orders of the flow marks 1-7 to be brightened in the third color, and controls the diodes corresponding to the to-be-processed orders of the flow marks 8-22 to be brightened in the second color. The control device can determine the to-be-processed order with the pipelining identifier 23 as the target order, and control the diode corresponding to the to-be-processed order with the pipelining identifier 23 of the display device to flash in the first color. After the state modification key is triggered, the control device may control the diode corresponding to the to-be-processed order with the running water identifier 23 in the display device to be brightened in the second color, update the to-be-processed order with the running water identifier 24 as the target order, and control the diode corresponding to the to-be-processed order with the running water identifier 24 to flash in the first color.

It is easily understood that the control apparatus may determine the pending order, for which the pipeline identifier is minimum and the order processing state is unprocessed, as the target order again after modifying the order processing state of the target order from unprocessed to processed.

Optionally, after the task processing state of the task to be processed is modified from unprocessed to processed, the method of this embodiment may further include the following steps:

and S506, responding to the modification of the target task state, and determining task state modification information of the target task according to the target task state during the modification of the target task state.

After the target task state of the target order is modified into the processing, the control device can also determine order state modification information according to the target task state. The task state modification information of the target task may include at least a task identifier and a target task state of the target order. The task identifier may be a running identifier of the target order, an order identifier of the target order, a running identifier of the target order, and an order identifier, which is not specifically limited in this embodiment.

Step S507, sending the task state modification information to the server.

After determining the order state modification information, the control device may send the order state modification information of the target order to the server, so as to automatically update the order processing state of the target order at the server side and the task processing terminal side.

Step S508, in response to receiving the state modification instruction from the server, obtains a task processing state of the corresponding to-be-processed task.

In this embodiment, after any pending order is delivered to the delivery staff, the delivery staff may send a status modification instruction for the pending order to the server through the task processing terminal, and the server may forward the status modification instruction to the control device. After receiving the state modification instruction from the server, the control device may obtain an order processing state of the to-be-processed order corresponding to the state modification instruction.

Step S509, in response to that the task processing status of the corresponding to-be-processed task is in process, modifying the task processing status of the corresponding to-be-processed task from in-process to completed.

When the task processing state of the to-be-processed order corresponding to the state modification instruction is in process, the control device may modify the order processing state of the to-be-processed order from in process to be completed, and control the display device to display the to-be-processed order in a manner of highlighting the third color.

After receiving at least one piece of task information of the to-be-processed task including the running water identifier of the to-be-processed task, the control device of this embodiment determines the display position of the task processing state of each to-be-processed task in the matrix according to the running water identifier of each to-be-processed task, and controls the display device to display the corresponding task processing state in different manners at the display position of each to-be-processed task. And the control device can determine the task to be processed with the minimum flow mark and the unprocessed task processing state as the target task, receive operation through the input device with the state modification key, modify the task processing state of the target task into processing when the state modification key is triggered, and send task state modification information including the task processing state of the target task to the server. And after receiving the task state modification instruction from the server, modifying the task processing state of the corresponding task to be processed into the completed task processing state. The task processing state of each task to be processed is displayed more intuitively through the matrix form, the target task is prompted in different modes, the resource provider can know the processing progress of each task to be processed more easily, the task processing state of the target task can be modified and updated, the possibility that the resource provider finishes processing the task to be processed but forgets to modify the task processing state of the task to be processed is reduced, and the cancellation rate of the task at the peak moment is reduced to a certain extent.

Fig. 7 to 8 are flowcharts of a display control method according to a fourth embodiment of the present invention. As shown in fig. 7-8, the method of the present embodiment includes the following steps:

step S701, receiving task information of at least one task to be processed.

In this embodiment, the implementation manner of step S701 is similar to that of step S501, and is not described herein again.

Step S702, controlling the display device to display the task processing state of each task to be processed in a matrix form and displaying the task processing state in different modes.

In this embodiment, the implementation manner of step S702 is similar to that of step S502, and is not described herein again.

Step S703, determining the task to be processed with the minimum current flow identifier and the unprocessed task processing state as the target task.

In this embodiment, the implementation manner of step S703 is similar to that of step S503, and is not described herein again.

Step S704, an operation is received through the input device.

In this embodiment, the control device may receive different operations of the merchant through the input device. The input device of this embodiment may be an input device that can receive operations through virtual keys (e.g., controls) such as a touch screen, or may also be an input device that can receive operations through physical keys such as a keyboard, and this embodiment is not limited in particular.

The input device may further include at least one of a first task switching key, a second task switching key, a first operation cancel key, and a second operation cancel key in addition to the state modification key. In this embodiment, the first task switch key and the second task switch key are used for changing the target order; the first operation canceling key and the second operation canceling key are used for canceling operations and/or instructions for the target task, and the operations and/or instructions comprise restoring an order processing state of the target order, restoring an order category of the target order or restoring the target order.

Step S705, responding to the triggering of the first task switching key, changing the task category of the target task from the first category to the second category, and updating the target task according to the task processing sequence.

In this embodiment, the first task switch key may be triggered in various existing manners, which is not limited in this embodiment. For example, when the first task switch key is a virtual key, the merchant may trigger the first task switch key by clicking the first task switch key, or pressing the first task switch key for a long time (for example, the continuous pressing time exceeds 1 second); when the first task switch key is an entity key, the merchant can trigger the first task switch key by pressing the first task switch key and the like.

In this embodiment, the pending orders including the target task may be classified into two categories, i.e. a first category for characterizing that the pending orders are normal orders (i.e. orders with normal processing speed) and a second category for characterizing that the pending orders are slow orders (i.e. orders with slow processing speed). The order type of the to-be-processed order is usually defaulted to be the first type, so after the first task switching key is triggered, the control device may modify the order type of the target order from the first type to the second type, and update the target task according to the task processing order.

For example, the pending order with a running water identification of 3 is the target order. However, the merchant preferentially finishes processing the to-be-processed orders with the pipeline identifier of 6, so that the target orders can be respectively updated to the to-be-processed orders with the pipeline identifier of 4, the to-be-processed orders with the pipeline identifier of 5 and the to-be-processed orders with the pipeline identifier of 6 by triggering the first task switching key for three times, and the order categories of the to-be-processed orders with the pipeline identifier of 3, the to-be-processed orders with the pipeline identifier of 4 and the to-be-processed orders with the pipeline identifier of 5 are all changed into the second category from the first category.

For the embodiment, the control device may control the display device to display the target orders with the first order type in a flashing manner of the first color, display the target orders with the second order type in a flashing manner of the second color, and simultaneously, not display the pending orders with unprocessed order processing states except the target orders, so that the merchant may more easily view the current pending commodity orders, and the possibility that the merchant forgets to process the target orders and forgets to modify the order processing states of the target orders after the commodities are prepared is reduced. After the order processing status of the target order is modified to be processed, the control device may control the display device to display the target order in a third color highlighting manner, update the to-be-processed order with the running water identifier next to the target order (i.e., the running water identifier is the smallest) and with the order processing status of unprocessed, as the target order, and display the task processing status in a fourth color highlighting manner as a completed to-be-processed task. In this embodiment, the first color is the same as the fourth color, and the second color is the same as the third color, but it is easy to understand that the colors may be different, and this embodiment is not particularly limited.

Step S706, in response to the second task switching key being triggered, updating the target task according to the task processing sequence.

In this step, the second task switching key is used to update the to-be-processed order with the order type of the second type to the target order. For example, the target task is a pending order with a pipeline identifier of 4, and if the second task switch key is triggered, the control device may update the pending order with the pipeline identifier next to the target task, the order type of the pending order being of the second type, and the order processing status being unprocessed (e.g., the pending order with the pipeline identifier of 7) as the target task according to the task execution order.

In step S707, the target task state is modified to be in process in response to the state modification key being triggered.

In this embodiment, since the to-be-processed orders are divided into the first category and the second category, optionally, the control device may determine, as the target orders, all the to-be-processed orders with the minimum pipeline identifier, the first category as the order category, and the unprocessed order processing state, that is, all the to-be-processed orders with the minimum pipeline identifier, the second category as the order category are determined as the target tasks, so that after the to-be-processed orders with the second category as the order category are sequentially processed, the merchant may directly modify the order processing state of the to-be-processed orders into the processing state, without triggering the state modification key multiple times, thereby reducing the complexity of the merchant operation.

The state modification keys of the present embodiment may include a first state modification key and a second state modification key. The first state modifying key is used for modifying the order processing state of the target order with the order type of the first type into processing from unprocessed, and the second state modifying key is used for modifying the order processing state of the target order with the order type of the second type into processing from unprocessed.

It is easy to understand that, in this embodiment, when the second state modification key is triggered after the second task switching key is triggered, the control device may modify the order processing state of the target order from unprocessed to processed, and determine the to-be-processed order with the smallest pipeline identifier, the unprocessed order processing state, and the second order category as the target order again.

For example, the pending orders identified by the pipeline as 27, 32, and 34 are pending orders with the order category of the second type and the order processing status of unprocessed, wherein the target order is the pending order identified by the pipeline as number 27. The user triggers the second task switching key to update the target order to the to-be-processed order with the pipeline identifier 32, and then triggers the second state modification key to modify the to-be-processed order with the pipeline identifier 32 into processing. The control device can then determine the pending order with the running water identification 27 as the target order again.

Step 708, in response to the modification of the target task state, determining task state modification information of the target task according to the target task state.

In this embodiment, the implementation manner of step S708 is similar to that of step S506, and is not described herein again.

Step S709, sends task state modification information to the server.

In this embodiment, the implementation manner of step S709 is similar to that of step S507, and is not described herein again.

Step S710, in response to receiving the state modification instruction from the server, acquiring a task processing state of the corresponding to-be-processed task.

In this embodiment, the implementation manner of step S710 is similar to that of step S508, and is not described herein again.

In step S711, in response to the task processing status of the corresponding to-be-processed task being in process, the task processing status of the corresponding to-be-processed task is modified from in-process to completed.

In this embodiment, the implementation manner of step S711 is similar to that of step S509, and is not described herein again.

Step S712, in response to the first operation cancel key being triggered, restoring the task processing state of the target task or restoring the task category of the target task.

In this embodiment, the first operation cancel key may be triggered in various existing manners, which is not specifically limited in this embodiment. For example, when the first operation cancel key is a virtual key, the merchant may trigger the first operation cancel key by clicking the first operation cancel key, or long-pressing (for example, the continuous pressing time exceeds 1 second) the first operation cancel key, or the like; when the first operation cancel key is an entity key, the merchant may trigger the first operation cancel key by pressing the first operation cancel key, or the like.

In this step, if the merchant triggers the first operation cancel key within the predetermined time range for triggering the previous operation, the control device may restore the target order to the previous state, that is, restore the order processing state of the target order from processing to unprocessed, or restore the order type of the target order, and restore the target order to the previous target order, thereby effectively reducing the possibility that the merchant may incorrectly modify the order processing state of the target order during the stage of packaging the target order, or incorrectly trigger the first task switch key.

Step S713, in response to the second operation cancel key being triggered, restoring the task processing state of the target task, or restoring the task category of the target task, or restoring the target task.

In this step, if the merchant triggers the second operation cancel key within the predetermined time range for triggering the previous operation, the control device may restore the target order to the previous state. According to the difference of the last operation triggered by the user, the control device can restore the target order to different states, so that the possibility of misoperation of the merchant can be effectively reduced.

For example, if the last operation is that the state modification key is triggered, and if the second operation cancel key is triggered, the control device may restore the order processing state of the target order from processing to unprocessed; the last operation is that the first task switching key is triggered, if the second operation canceling key is triggered, the control device can restore the target order to the previous target order and restore the order type of the target order from the second type to the first type; the last operation is triggered by the second task switching key, and if the second operation canceling key is triggered, the control device can restore the target order to the previous target order.

Fig. 9 is an interface schematic diagram of an input device according to an embodiment of the invention. As shown in fig. 9, the input device of the present embodiment includes a "complete" key 91, a "complete" key 92, a "next" key 93, a "next" key 94, a "restore" key 95, and a "restore" key 96, where the key 91 is a first state modification key, the key 92 is a second state modification key, the key 93 is a first task switch key, the key 94 is a second task switch key, the key 95 is a first operation cancel key, and the key 96 is a second operation cancel key.

Fig. 10 is a schematic view of a display change of the display device according to the embodiment of the present invention. As shown in fig. 10, the to-be-processed orders with the pipeline identifiers 1-7 are to-be-processed orders whose order processing states are completed, the control device controls the display device to display the to-be-processed orders with the pipeline identifiers 1-7 in a first color highlighting manner, the to-be-processed orders with the pipeline identifiers 8-22 are to-be-processed orders whose order processing states are in processing, the control device controls the display device to display the to-be-processed orders with the pipeline identifiers 8-22 in a second color highlighting manner, the to-be-processed orders with the pipeline identifiers 23-24 are to-be-processed orders whose order processing states are unprocessed and whose order categories are of the second type, and the to-be-processed orders with the pipeline identifiers 25 are to-be-processed orders whose order processing states are unprocessed and whose order categories are of the first type. The to-be-processed order with the flow identifier 25 is a target order with an order category of the first type, and the to-be-processed order with the flow identifier 23 is a target order with an order category of the second type. The control device can control the diode corresponding to the to-be-processed order with the running water identifier 25 in the display device to flash in a first color, and control the diode corresponding to the to-be-processed order with the running water identifier 23 to flash in a second color. And for the order to be processed with the order processing state being unprocessed and not the target order, the control device does not display the order processing state of the order. If the key 91 is triggered, the control device may modify the order processing state of the to-be-processed order with the pipeline identifier 25 into processing, and control the corresponding diode to be highlighted in the second color, and the target order is updated to be the to-be-processed order with the pipeline identifier 26, and the control device controls the diode corresponding to the to-be-processed order with the pipeline identifier 26 to flash in the first color. If the key 92 is triggered, the control device may modify the order processing state of the to-be-processed order with the pipeline identifier 23 into processing, and control the corresponding diode to be highlighted with the second color, and the target order is updated to be the to-be-processed order with the pipeline identifier 24, and the control device controls the diode corresponding to the to-be-processed order with the pipeline identifier 24 to flash with the second color. If the key 93 is triggered, the control device may change the order type of the to-be-processed order with the pipelining flag 25 from the first type to the second type, update the target order to the to-be-processed order with the pipelining flag 26, and control the to-be-processed order with the pipelining flag 26 to flash in the first color. If the key 94 is triggered, the control device may update the target order to be the pending order with the pipeline identifier 24, and control the diode corresponding to the pending order with the pipeline identifier 24 to flash in the second color. If the button 95 is triggered and the last operation is the button 91, the control device may restore the order processing status of the pending order with the pipeline identifier 25 to unprocessed, and control the diode corresponding to the pending order with the pipeline identifier 25 to flash in the first color. If button 96 is activated and the last operation is button 93 activated, the control device may revert the order type of the pending order identified by the pipeline as 24 to the first type and revert the target order from the pending order identified by the pipeline as 25 to the pending order identified by the pipeline as 24.

After receiving at least one piece of task information of the to-be-processed task including the running water identifier of the to-be-processed task, the control device of this embodiment determines the display position of the task processing state of each to-be-processed task in the matrix according to the running water identifier of each to-be-processed task, and controls the display device to display the corresponding task processing state in different manners at the display position of each to-be-processed task. And the control device can determine the task to be processed with the minimum flow mark and the unprocessed task processing state as the target task, receive operation through the input device with the state modification key, modify the task processing state of the target task into processing when the state modification key is triggered, and send task state modification information including the task processing state of the target task to the server. And after receiving the task state modification instruction from the server, modifying the task processing state of the corresponding task to be processed into the completed task processing state. And after the operation cancel key is triggered, the control device restores the state of the target task. In the embodiment, the task processing states of the tasks to be processed are more intuitively displayed in a matrix form, and the target tasks are prompted in different ways, so that the resource provider can more easily know the processing progress of the tasks to be processed, and the task processing states and the task categories of the target tasks can be modified, updated and restored, thereby reducing the possibility that the resource provider has finished processing the tasks to be processed but forgets to modify the task processing states of the tasks to be processed or misoperation, and further reducing the cancellation rate of the tasks at the peak time to a certain extent.

The embodiment of the invention discloses A1 task display equipment, which comprises:

the display device is configured to display the task processing state of each task to be processed in a matrix form;

the input device is connected with the display device;

a communication device; and

and the control device is configured to control the display device to change the display state of at least one task to be processed in response to the input device being triggered.

A2, the device as defined in a1, wherein the display means includes a plurality of display positions arranged in a matrix form, each display position corresponding to a task to be processed;

the control device is configured to change a display state of at least one display position in response to the input device being triggered.

A3, the apparatus of A2, wherein the input device includes state-modifying keys;

the control device is configured to:

controlling a display device to display a current display position in a first mode;

and in response to the state modification key being triggered, controlling the display device to stop displaying the current display position in the first mode, and displaying the current display position in the second mode, and simultaneously controlling the display device to display the next display position of the current display position in the first mode.

A4, the apparatus of A3, wherein the current display position comprises a first display position, the first mode comprises flashing in a first color, and the input device further comprises a first task switch;

the control device is configured to:

controlling a display device to display a first display position in a first color flashing mode;

and in response to the first task switching key being triggered, controlling the display position to stop displaying the first display position and displaying a next display position of the first display position in a first color flashing manner.

A5, the device as in A3 or a4, wherein the current display position includes a second display position, the first mode includes blinking in a second color, and the input means further includes a second task switch;

the control device is configured to:

controlling the display device to display a second display position in a second color flashing manner; and

and controlling the display position to stop displaying the second display position and controlling the display position to be the next display position of the second display position in a second color flashing mode in response to the second task switching key being triggered.

A6, the apparatus of a4, wherein the input device further comprises a first operation cancel key;

the control device is configured to:

in response to the first operation cancel key being triggered, controlling the display position to stop displaying the first display position, and displaying the last display position of the first display position in a first color flashing mode; or

And in response to the first operation cancel key being triggered, controlling the display device to stop displaying the first display position in the second mode and display the first display position in a first color flashing mode.

A7, the apparatus of a5, wherein the input device further comprises a second operation cancel key;

the control device is configured to:

in response to the second operation cancel key being triggered, controlling the display device to stop displaying the second display position and display a previous display position of the second display position in a second color flashing mode; or

In response to the second operation cancel key being triggered, controlling the display device to stop displaying the second display position in a second mode and display the second display position in a second color flashing mode; or

And in response to the triggering of the second operation cancel key, controlling the display device to stop displaying the second display position and displaying a previous display position of the second display position in a first color flashing mode.

A8, the device of A3, wherein the state modifying keys comprise a first state modifying key and a second state modifying key, the current display position comprises a first display position and a second display position, the first mode comprises flashing in a first color and flashing in a second color;

the control device is configured to:

in response to the first state modification key being triggered once, controlling the display device to stop displaying the first display position in a first color flashing manner, displaying the first display position in a second manner, and simultaneously controlling the display device to display a next display position of the first display position in the first color flashing manner; or

And in response to the second state modification key being triggered once, controlling the display device to stop displaying the second display position in a second color flashing manner, displaying the second display position in the second manner, and simultaneously controlling the display device to display a next display position of the current display position in a first color flashing manner.

A9 the device of any one of A3-A8, wherein the second mode is highlighting in a second color.

A10, the device as claimed in A2, wherein the control means is configured to:

receiving task information of at least one task to be processed, wherein the task information comprises a running water identifier of the task to be processed; and

and controlling a display device to display the task processing state of each task to be processed in a matrix form and display the task processing state in different modes, wherein the display position of each task to be processed is determined according to the flow identifier.

A11, the device as claimed in A10, wherein the control means is configured to:

in response to the task processing state being in process, controlling a display device to display the task processing state in a second manner; and

and in response to the task processing state being completed, controlling a display device to display the task processing state in a third mode.

A12, the apparatus of A10, wherein the input device includes state-modifying keys;

the control device is configured to:

determining the task to be processed with the minimum current flow identification and unprocessed task processing state as a target task;

and modifying the state of a target task into the task processing state of the target task in the processing in response to the state modification key being triggered.

A13, the apparatus of A12, wherein the control device is further configured to:

in response to the modification of the target task state, determining task state modification information of the target task according to the target task state; and

and sending the task state modification information to a server.

In the apparatus of a14, as defined in a10 or a12, the control device is further configured to:

responding to a received state modification instruction from a server, and acquiring a corresponding task processing state of the task to be processed; and

and in response to the fact that the task processing state of the corresponding task to be processed is in process, modifying the task processing state of the corresponding task to be processed from in process to be completed.

A15, the apparatus of a12, wherein the input device further comprises a first task switch;

the control device is further configured to modify the task category of the target task from a first category to a second category in response to the first task switching key being triggered, and update the target task according to a task processing sequence, wherein the task processing sequence is determined according to each pipeline identifier.

A16, the device as claimed in A15, wherein the control means is configured to:

determining a candidate task according to the task processing sequence, wherein the candidate task is a task to be processed, the task processing state of which is unprocessed, and the running water mark of which is positioned next to the target task in the task processing sequence; and

and updating the target task as the candidate task.

A17, the device as described in a12 or a15, wherein the input means further includes a first operation cancel key;

the control apparatus is further configured to:

and restoring the task processing state of the target task or restoring the task category of the target task in response to the first operation cancel key being triggered.

A18, the device as defined in a15, wherein the input means further comprises at least one of a second task switching key and a second operation cancel key;

the control apparatus is further configured to:

in response to the second task switching key being triggered, updating the target task according to a task processing sequence; and/or

And restoring the task processing state of the target task, or restoring the task category of the target task, or restoring the target task in response to the second operation cancel key being triggered.

A19, the apparatus of A15, wherein the controlling means is configured to control the displaying means to display the task processing status in a first manner in response to the task processing status being unprocessed.

A20, the device as A19, wherein the display device is a dot-matrix screen, and the first mode is determined according to the task category;

the control device is configured to:

responding to the fact that the task type is a first type, controlling a target diode to flash in a first color, wherein the target diode is a diode corresponding to the to-be-processed task which is unprocessed in the task processing state in the dot matrix screen; and

in response to the task category being a second category, controlling the target diode to flash in a second color.

A21, the device of A11, wherein the display device is a dot matrix screen;

the control device is configured to control a target diode to be brightened in a second color, and the target diode is a diode corresponding to the task to be processed in the dot matrix screen, wherein the task processing state of the target diode is the processing state.

A22, the device of A11, wherein the display device is a dot matrix screen;

the control device is configured to control a target diode to be brightened in a first color, and the target diode is a diode corresponding to the task to be processed in the dot matrix screen, wherein the task processing state of the diode is finished.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A task display device, comprising:

the display device is configured to display the task processing state of each task to be processed in a matrix form;

the input device is connected with the display device;

a communication device; and

and the control device is configured to control the display device to change the display state of at least one task to be processed in response to the input device being triggered.

2. The apparatus according to claim 1, wherein the display means comprises a plurality of display positions arranged in a matrix form, each display position corresponding to one of the tasks to be processed;

the control device is configured to change a display state of at least one display position in response to the input device being triggered.

3. The apparatus of claim 2, wherein the input device comprises a state modification key;

the control device is configured to:

controlling a display device to display a current display position in a first mode;

and in response to the state modification key being triggered, controlling the display device to stop displaying the current display position in the first mode, and displaying the current display position in the second mode, and simultaneously controlling the display device to display the next display position of the current display position in the first mode.

4. The apparatus of claim 3, wherein the current display position comprises a first display position, wherein the first mode comprises flashing in a first color, wherein the input device further comprises a first task switch;

the control device is configured to:

controlling a display device to display a first display position in a first color flashing mode;

and in response to the first task switching key being triggered, controlling the display position to stop displaying the first display position and displaying a next display position of the first display position in a first color flashing manner.

5. The apparatus of claim 3 or 4, wherein the current display position comprises a second display position, wherein the first mode comprises flashing in a second color, and wherein the input device further comprises a second task switch;

the control device is configured to:

controlling the display device to display a second display position in a second color flashing manner; and

and controlling the display position to stop displaying the second display position and controlling the display position to be the next display position of the second display position in a second color flashing mode in response to the second task switching key being triggered.

6. The apparatus according to claim 4, wherein the input device further comprises a first operation cancel key;

the control device is configured to:

in response to the first operation cancel key being triggered, controlling the display position to stop displaying the first display position, and displaying the last display position of the first display position in a first color flashing mode; or

And in response to the first operation cancel key being triggered, controlling the display device to stop displaying the first display position in the second mode and display the first display position in a first color flashing mode.

7. The apparatus according to claim 5, wherein the input device further comprises a second operation cancel key;

the control device is configured to:

in response to the second operation cancel key being triggered, controlling the display device to stop displaying the second display position and display a previous display position of the second display position in a second color flashing mode; or

In response to the second operation cancel key being triggered, controlling the display device to stop displaying the second display position in a second mode and display the second display position in a second color flashing mode; or

And in response to the triggering of the second operation cancel key, controlling the display device to stop displaying the second display position and displaying a previous display position of the second display position in a first color flashing mode.

8. The device of claim 3, wherein the state modification keys comprise a first state modification key and a second state modification key, wherein the current display position comprises a first display position and a second display position, and wherein the first manner comprises flashing in a first color and flashing in a second color;

the control device is configured to:

in response to the first state modification key being triggered once, controlling the display device to stop displaying the first display position in a first color flashing manner, displaying the first display position in a second manner, and simultaneously controlling the display device to display a next display position of the first display position in the first color flashing manner; or

And in response to the second state modification key being triggered once, controlling the display device to stop displaying the second display position in a second color flashing manner, displaying the second display position in the second manner, and simultaneously controlling the display device to display a next display position of the current display position in a first color flashing manner.

9. The apparatus of any of claims 3-8, wherein the second manner is highlighting in a second color.

10. The apparatus of claim 2, wherein the control device is configured to:

receiving task information of at least one task to be processed, wherein the task information comprises a running water identifier of the task to be processed; and

and controlling a display device to display the task processing state of each task to be processed in a matrix form and display the task processing state in different modes, wherein the display position of each task to be processed is determined according to the flow identifier.

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