CN109631256B

CN109631256B - Interactive method, system and equipment for equipment control state feedback

Info

Publication number: CN109631256B
Application number: CN201811517662.0A
Authority: CN
Inventors: 林晓玲; 罗晓; 吴妙瑜; 许芳萃; 古松
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2018-12-12
Filing date: 2018-12-12
Publication date: 2020-02-28
Anticipated expiration: 2038-12-12
Also published as: CN109631256A

Abstract

The invention relates to an interaction method, a system and equipment for equipment control state feedback, wherein the interaction method comprises the following steps: causing a control element for controlling a state of the device to receive an external trigger operation; judging whether a message of successful target state switching is received within preset time, if so, enabling the control element to display the target state in the display area of the control element, otherwise, enabling the control element to display the initial state in the display area of the control element; and if the initial state is still displayed after the preset time is reached, continuously judging whether a message that the target state is successfully switched is received or not after the preset time is exceeded, if so, switching the control element to the display target state, and otherwise, continuously displaying the initial state. The interaction method can enable the display state of the control element to be consistent with the actual state of the equipment, and reduce the trouble brought to users.

Description

Interactive method, system and equipment for equipment control state feedback

Technical Field

The invention relates to the technical field of air conditioners, in particular to an interaction method, system and device for feedback of a device control state.

Background

When the device is remotely controlled, the fact that the device is successfully controlled occasionally occurs, but the device state displayed by the page of the client may not be returned, because the network state is not returned slowly or the state is lost, or the state is not returned because the client does not operate successfully. This problem may cause the state of the page display to be inconsistent with the actual state, resulting in the user not knowing whether the device is controlled.

Some clients may adopt the page to change only according to the control operation and not to update according to the actual state, that is, the page is updated along with the operation whether the control is successful or not, and occasionally, the device is unsuccessfully controlled but the page display is successful.

The above interaction mode for the device control state feedback lacks a sense of security from the user experience, and cannot accurately know whether the device is successfully controlled. For the device with slow or lost state return for many times, the problems of device abnormality or abnormal contact with the gateway and the like may exist, but the device abnormality is not obviously reminded to the user, when the number of devices is large, the user may confuse the device state displayed by the client for many times and find out the problems.

Disclosure of Invention

The invention aims to provide an interactive method, an interactive system and interactive equipment for equipment control state feedback, which can reduce the trouble brought to a user due to the fact that a display state is inconsistent with an actual state of the equipment and improve user experience.

According to an aspect of the present invention, an interactive method for device control state feedback is provided, including: after a control element for controlling the state of equipment receives external trigger operation, judging whether a message of successful target state switching is received within preset time, if so, enabling the control element to display the target state in a display area of the control element, otherwise, enabling the control element to display an initial state in the display area of the control element;

and if the initial state is still displayed after the preset time is reached, continuously judging whether a message that the target state is successfully switched is received or not after the preset time is exceeded, if so, switching the control element to the display target state, and otherwise, continuously displaying the initial state.

Further, when it is determined that the message indicating that the target state is successfully switched is not received within the preset time, the method further includes:

the special identifier is displayed in the display area of the control element itself.

Further, when it is determined that the message indicating that the target state is successfully switched is received after the preset time is exceeded, the method further includes:

causing the special identifier to disappear.

and sending out a prompt that the equipment state returns slowly.

Further, when it is determined that the message indicating that the target state is successfully switched is not received after the preset time is exceeded, the method further includes:

causing the special identifier to continue to be displayed.

and sending out a prompt that the equipment possibly fails.

and checking whether the equipment is controlled or not, if so, determining that the equipment has a state return fault, and if not, determining that the equipment has a control fault.

Further, still include:

the presence of anomalies by the device is logged.

Further, after the control element receives the external trigger operation, the method further comprises the following steps:

and enabling the control element to display an intermediate state in the display area of the control element, wherein the intermediate state is used for indicating that the equipment is in a target state responding to the external trigger operation, and the target state and the intermediate state of the control element are visually different when displayed.

Further, before the control element displays the intermediate state in its display area, the method further includes:

the display pattern of the intermediate state is set according to the display pattern of the control element in the initial state.

According to another aspect of the present invention, an interactive system for device control state feedback is provided, which includes:

the instruction module is used for sensing external trigger operation for switching the equipment state through the control element and sending the sensed control instruction to the equipment; and

the state judgment control module is used for judging whether a message that the target state is successfully switched is received within preset time, and displaying the target state in a display area of the state judgment control module under the condition of receiving the message; if not, the control element displays the initial state in the display area of the control element, and continuously judges whether a message of successful target state switching is received or not after the preset time is exceeded, if so, the control element is switched to the target display state, otherwise, the initial state is continuously displayed.

Furthermore, the control element is provided with a display area, the state judgment control module is further used for enabling the control element to display an intermediate state in the display area of the control element after the control element receives an external trigger operation, the intermediate state is used for indicating that the equipment is in a target state responding to the external trigger operation, and the target state and the intermediate state of the control element are visually different when being displayed.

The display control device further comprises a setting module, which is used for setting the display graph of the intermediate state according to the display graph of the initial state of the control element before the control element displays the intermediate state in the display area of the control element.

Further, the control element is provided on the device or on a remote control terminal of the device.

Furthermore, the control element is provided with a display area, and the state judgment control module is used for displaying the special identifier in the display area when judging that the message of successful target state switching is not received within the preset time.

Further, the state judgment control module is used for enabling the special identifier to disappear when the message that the target state is successfully switched is received after the preset time is exceeded, and otherwise, enabling the special identifier to continue to be displayed.

Further, the device also comprises a state prompting module, which is used for sending a prompt that the device state returns slowly when the message that the target state is successfully switched is judged to be received after the preset time is exceeded; and/or when the message that the target state is successfully switched is not received after the preset time is exceeded, prompting that the equipment has the possibility of failure.

Further, the device further comprises a fault positioning module, configured to receive a result of rechecking whether the device is controlled when a message indicating that the target state is successfully switched is not received after a preset time is exceeded, determine that the device has a state returning fault when the device controlled result is received, and determine that the device has a control fault when the device uncontrolled result is received.

According to another aspect of the present invention, an apparatus is proposed, which comprises the interactive system for apparatus control state feedback of the above embodiments.

According to another aspect of the present invention, a computer device is provided, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor implements the interaction method for device control state feedback described in the above embodiment when executing the program.

According to another aspect of the present invention, a storage medium containing computer-executable instructions for performing the interactive method of device control state feedback described in the above embodiments when executed by a computer processor is proposed.

Based on the technical scheme, the interactive method for feeding back the control state of the equipment in the embodiment of the invention comprises the steps of judging whether a message of successful target state switching is received within preset time or not after the control element receives external operation, and if the message is received, enabling the control element to display the target state; otherwise, displaying the initial state, continuously judging whether a message of successful target state switching is received or not after the preset time is exceeded, if so, switching the control element to the target state, otherwise, continuously displaying the initial state. The method can update the feedback state of the equipment in real time in the interactive process of equipment control, so that the display state is more consistent with the actual state of the equipment, and the equipment is judged to be normal, slow in state return or have a fault according to the state return condition, so that the user experience can be improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIGS. 1A and 1B are schematic views of a normal light on and a normal light off, respectively;

FIGS. 1C and 1D are schematic diagrams of a light-on anomaly and a light-off anomaly, respectively;

FIGS. 2A and 2B are schematic diagrams illustrating a normal condition and an abnormal condition, respectively, when the wind speed is switched from 3-gear to 4-gear;

FIG. 3 is a flowchart illustrating an interactive method for controlling state feedback of a device according to an embodiment of the present invention;

fig. 4 is a flowchart illustrating an interactive method for controlling state feedback of a device according to another embodiment of the present invention.

Detailed Description

The present invention is described in detail below. In the following paragraphs, different aspects of the embodiments are defined in more detail. Aspects so defined may be combined with any other aspect or aspects unless clearly indicated to the contrary. In particular, any feature considered to be preferred or advantageous may be combined with one or more other features considered to be preferred or advantageous.

The terms "first", "second", and the like in the present invention are merely for convenience of description to distinguish different constituent elements having the same name, and do not denote a sequential or primary-secondary relationship.

The present invention provides an interaction method for feedback of a device control state, which, in conjunction with fig. 1A to 1D and fig. 2A to 2B, in an exemplary embodiment, as shown in a flowchart illustrated in fig. 3, the interaction method includes:

step 101, enabling a control element for controlling the equipment state to receive external trigger operation;

and 102, if the initial state is still displayed after the preset time, judging whether a message that the target state is successfully switched is received within the preset time, if so, executing a step 103, otherwise, executing a step 104.

103, enabling the control element to display a target state in a display area of the control element;

step 104, the control element displays the initial state in its display area.

And 105, continuously judging whether a message of successful target state switching is received or not after the preset time is exceeded, if so, executing the step 106, and otherwise, continuously displaying the initial state.

Step 106, the control element is switched to the display target state.

In this embodiment, steps 101, 102 and 105 are performed sequentially.

In step 101, the control element is used to control the device to switch to a target state, such as controlling the device to turn on, turn off, or adjust a wind speed gear. The control element can be arranged on the equipment or at the remote control end of the equipment, and a button, a switch, a touch element or the like is adopted. In step 102, a message indicating whether the target state is successfully switched may be sent by a bottom system of the device, and a state determination control module is provided in the interactive system and configured to determine whether the message indicating that the target state is successfully switched is received within a preset time, and if the message indicating that the target state is successfully switched is received, the target state is successfully returned, and the control element displays the target state through step 103; if not, two situations are included: firstly, the state of the equipment target is successfully switched but not returned; secondly, the device control fails, i.e. the target state has not been switched successfully, in both cases the control element is caused to display the initial state by step 104.

The control element is provided with a display area, the display area can be arranged on the control element, can also be arranged in an area around the control element on a panel, and can also be arranged on the panel or an additionally arranged display screen, and the display screen is provided with a specific area reflecting the state of the control element.

The method can update the feedback state of the equipment in real time in the interactive process of equipment control, so that the display state is more consistent with the actual state of the equipment, and the equipment is judged to be normal, slow in state return or have a fault according to the state return condition, so that the user experience can be improved. If a message of successful target state switching is received after timeout, the control element is enabled to display the target state, which indicates that the device is normally controlled and only the state is slowly returned, because the control is delayed or the message is slowly returned due to network reasons but no fault is generated, so that the user can be noticed; if the message of successful target state switching is not received after the timeout, the equipment is possible to be in failure.

Further, in some embodiments, as shown in the flowchart of fig. 4, between

steps

101 and 102, the method further includes:

step 101A, enabling a control element to display an intermediate state in a display area of the control element so as to prompt equipment to enter a control state; the intermediate state is used for indicating that the device is in a target state in response to an external trigger operation, and the target state and the intermediate state of the control element are visually different when displayed.

Further, before causing the control element to display the intermediate state in its own display area to prompt the device to enter the control to cause the control element to display the intermediate state in its own display area in step 101A, the method further includes: and setting the display graph of the intermediate state according to the display graph of the control element in the initial state. This step enables the selection of an appropriate graphic for the intermediate state to visually reflect the target state that the device needs to reach.

In this embodiment, regardless of whether the device actually works in the target state, the target state is indicated in the intermediate state, for example, a pattern similar to the target state may be displayed, so that the user may intuitively know the target state to be reached, and the user may feel that the user does not need to wait for the target state, which may improve user experience. The user is told that the equipment is in the control state by increasing the control state, and the user can obviously know that the equipment is in the control state when waiting for the state return of the equipment, so that the problem of trouble brought to the user due to the fact that the display state is inconsistent with the actual state of the equipment because of slow state return, state loss or unsuccessful control is solved, and the user experience is improved.

In some embodiments, as shown in the flowchart of fig. 4, when it is determined that the message indicating that the target state is successfully switched is not received within the preset time through step 102, the interaction method of the present invention further includes:

step 107, displaying a special identifier in the display area of the control element itself.

The order of execution of steps 107 and 104 is not limiting. The special identifier may be a pattern with a striking color, such as a red dot, or may be a flashing light. In order to more remarkably reflect that the message of successful target state switching is not received within the preset time, a special identifier may be displayed on the control element, as shown in fig. 1C and 1D, and the special identifier is displayed in the display area of the control element itself, for example, in the case of abnormal light on and abnormal light off, a display dot is added above the bulb pattern of the control element.

In this embodiment, when not offline, in the case that the message that the device target state is successfully switched returns overtime, the device control may be unsuccessful, or the switching may be successful but the message is not returned, and it is possible to mark that there is an abnormality in the device by using a special identifier, which is convenient for the user to perform abnormality troubleshooting. When a plurality of devices exist, the abnormal devices can be accurately and conveniently positioned.

Further, if it is determined through step 105 that the message indicating that the target state is successfully switched is received after the preset time is exceeded, as shown in the flowchart of fig. 4, the interaction method of the present invention further includes:

step 108, the special identifier is disappeared, for example, the pattern or light corresponding to the special identifier may be disappeared.

The embodiment can intuitively inform the user that the control is normal, and only the state feedback is slow, so that the user can be noticed.

Further, when it is determined in step 105 that the message indicating that the target state is successfully switched is received after the preset time is exceeded, as shown in the flowchart of fig. 4, the interaction method of the present invention further includes:

step 109, issuing a prompt that the device status returns slowly to draw the attention of the user.

For example, the prompt may be provided in the form of a light on the panel of the device, or a pop-up dialog box on the display screen, etc., so as to more intuitively prompt the user that the status feedback may be slow at present, and further attention may be paid in the subsequent control process. The execution order of

steps

106, 108 and 109 is not limited.

In some embodiments, as shown in the flowchart of fig. 4, if it is determined through step 106 that the message indicating that the target state is successfully switched is not received even after the preset time is exceeded, the interaction method of the present invention further includes:

step 110, the special identifier is continuously displayed.

When the message that the target state is successfully switched is not received all the time, the embodiment enables the special identifier to be continuously displayed to play a role of continuous prompt, the possibility of equipment failure is high, the user needs to pay high attention to the equipment, the equipment is possibly not successfully controlled, and the control state is possibly not successfully returned due to factors such as network unsmooth and the like. The special identifier is continuously displayed, so that the prompt effect can be realized for the user who operates the device and other users.

Further, when it is determined in step 105 that the message indicating that the target state is successfully switched is not received even after the preset time elapses, the interaction method of the present invention further includes:

and step 111, sending out a prompt that the equipment possibly fails.

For example, the prompt may be in the form of a light on the panel of the device, the color or intensity of the light being different from the prompt issued if the device status returns slowly; or the user can be prompted in a pop-up dialog box form on the display screen, so that the user can be more intuitively prompted that the equipment possibly has faults at present, and abnormal conditions need to be checked or fault location needs to be carried out. The execution order of

steps

110 and 111 is not limited.

Further, after

step

110 or 111, the interaction method of the present invention further includes:

and step 112, checking whether the equipment is controlled or not, if so, determining that the equipment has a state return fault, and if not, determining that the equipment has a control fault.

In particular, since the user has previously operated the control element, it is possible to further observe whether there is a change in the actual operating state of the device, such as turning the device on, off, or turning a light on, turning a light off, or a gear adjustment, indicating that there is only a state return failure for the device if there is a change, and a control failure for the device if there is no change. Alternatively, the control element may be operated again and further observed for a change in the actual operating state of the device.

In some embodiments, the interaction method of the present invention further comprises:

and step 113, saving the abnormal condition existing in the equipment in a log. For example, step 113 may be performed after either step 109 or 111. Alternatively, the log may be printed.

According to the embodiment, the abnormal conditions possibly existing in the equipment are stored in the log, the abnormal conditions comprise unsuccessful control, non-return of the state, slow state return and the like, a user can conveniently and intensively check all the equipment with the abnormal conditions, the abnormal conditions of the equipment can be conveniently and intensively checked, and the user experience is improved.

The principle of the interaction method of the present invention is illustrated by the following specific embodiments.

In the first embodiment, as shown in fig. 1A, the lamp is normally turned on. The control element is in a light-off state in an initial state and enters an intermediate state after receiving an external light-on operation. The pattern of intermediate states indicates a light-on state, but the pattern differs from the target state of light-on to prompt the device to enter a control state. And judging whether a message that the target state is successfully switched is received within the preset time, and if so, displaying the control element in a light-on state to indicate that the light is normally turned on.

In the second embodiment, as shown in fig. 1B, the lamp is normally turned off. The control element is in a light-on state in an initial state and enters an intermediate state after receiving an external light-off operation. The pattern of intermediate states indicates a light-off state, but the pattern differs from a target state of light-on to prompt the device to enter a control state. And judging whether a message that the target state is successfully switched is received within the preset time, and if so, displaying the control element in a light-off state to indicate that the light is normally turned off.

In the third embodiment, as shown in fig. 1C, a diagram of a light-on abnormality is shown. The control element is in a light-off state in an initial state and enters an intermediate state after receiving an external light-on operation. The pattern of intermediate states indicates a light-on state, but the pattern differs from the target state of light-on to prompt the device to enter a control state. And judging whether a message that the target state is successfully switched is received within preset time, if not, displaying the light-off state by the control element, and displaying a special identifier (a dot) at the top of the bulb to indicate that the light is abnormally switched on, so as to prompt a user.

If the target state switching success message is received after the preset time is exceeded, the special identifier on the control element disappears, the control element displays a light-on state, the control element can be controlled and can return to the state, but the returning speed is slow, so that the problems of attention of a user, network inspection and the like can be aroused; if no state returns after the preset time is exceeded, the special identifier is kept, and the user is attracted high attention.

In the fourth embodiment, as shown in fig. 1D, a diagram of an abnormal light-off state is shown. The control element is in a light-on state in an initial state and enters an intermediate state after receiving an external light-off operation. The pattern of intermediate states indicates a light-off state, but the pattern differs from a target state of light-on to prompt the device to enter a control state. And judging whether a message that the target state is successfully switched is received within preset time, if not, displaying the light-on state by the control element, and displaying a special identifier (a round point) at the top of the bulb to indicate that the light is abnormally turned off, so as to prompt a user.

If the target state switching success message is received after the preset time is exceeded, the special identifier on the control element disappears, the control element displays a turn-off lamp, the control element can be controlled and can return to the state, but the return speed is slow, so that the problems of attention of a user, network inspection and the like can be aroused; if no state returns after the preset time is exceeded, the special identifier is kept, and the user is attracted high attention.

In the fifth embodiment, as shown in fig. 2A, the wind speed is switched from 3-gear to 4-gear normal. The control element is in an initial state with a wind speed of 3 steps and enters an intermediate state after receiving an external light-off operation. The pattern of intermediate states indicates a state where the wind speed is 4 steps, but the pattern is different from the target state where the wind speed is 4 steps to prompt the apparatus to enter the control state. And judging whether a message that the target state is successfully switched is received within the preset time, and if so, displaying the control element as 4 gears, which indicates that the wind speed is switched from 3 gears to 4 gears to be normal.

In the sixth embodiment, as shown in fig. 2B, it is a schematic diagram of an abnormality in switching the wind speed from 3 th gear to 4 th gear. On the basis of the fifth embodiment, if a message that the target state is successfully switched is not received within a preset time, the control component displays 3 rd gear and displays a special identifier (a dot) on the circle, indicating that the wind speed is abnormally switched from 3 rd gear to 4 th gear, to prompt the user.

If the message that the target state is successfully switched is received after the preset time is exceeded, the special identifier on the control element disappears, the control element displays 4 steps, which shows that the equipment can be controlled and can return to the state, but the returning speed is slow, so that the problems of paying attention to the user, checking the network and the like can be caused; if no state returns after the preset time is exceeded, the special identifier is kept, and the user is attracted high attention.

In the above embodiment, the control element may display an initial state, an intermediate state or a target state, and only one state may be displayed at the same time, so that the interactive interface is simpler and the current device control state is easy to identify. The embodiment of the invention can enable the display state to be more matched with the actual working state of the equipment.

Secondly, the invention also provides an interactive system for equipment control state feedback, which is shown in fig. 1A to 1D and fig. 2A to 2B, and the technical characteristics and technical effects given in the interactive method can be used for reference.

In one illustrative embodiment, the interactive system of the present invention comprises: the instruction module is used for sensing external trigger operation for switching the equipment state through the control element and sending the sensed control instruction to the equipment; the state judgment control module is used for judging whether a message of successful target state switching is received within preset time, and displaying the target state in a display area of the state judgment control module under the condition of receiving the message; if not, the control element displays the initial state in the display area of the control element, and continuously judges whether a message of successful target state switching is received or not after the preset time is exceeded, if so, the control element is switched to the target display state, otherwise, the initial state is continuously displayed.

The interactive system can update the state fed back by the equipment in real time in the interactive process of equipment control, so that the display state is more consistent with the actual state of the equipment, and the equipment is judged to be normal, slow in state return or have a fault according to the state return condition, so that the user experience can be improved. If a message of successful target state switching is received after timeout, the control element is enabled to display the target state, which indicates that the device is normally controlled and only the state is slowly returned, because the control is delayed or the message is slowly returned due to network reasons but no fault is generated, so that the user can be noticed; if the message of successful target state switching is not received after the timeout, the equipment is possible to be in failure.

In some embodiments, the control element has a display area, the state determination control module is further configured to enable the control element to display an intermediate state in the display area of the control element after the control element receives an external trigger operation, the intermediate state is used to indicate that the device is in a target state in response to the external trigger operation, and the target state and the intermediate state of the control element are visually different when displayed.

As shown in fig. 1A to 1D, the intermediate state and the target state correspond to patterns having different ground colors, and can be distinguished by the presence or absence of the ground color or the shade of the ground color; as shown in fig. 2A-2B, the colors of the circles are different in shade to allow the user to intuitively distinguish the intermediate state from the target state.

Further, the interactive system further comprises a setting module for setting the display pattern of the intermediate state according to the display pattern of the initial state of the control element before causing the control element to display the intermediate state in its display region.

The embodiment tells the user that the equipment is in the control state by increasing the control state, and the user can obviously know that the equipment is in the control state when waiting for the state return of the equipment, so that the problem of trouble brought to the user due to inconsistency between the display state and the actual state of the equipment caused by slow state return, state loss or unsuccessful control is solved, and the user experience is improved.

In some embodiments, the control element is provided on the device, or on a remote control terminal of the device.

In some embodiments, the control element has a display area, and the state determination control module is configured to display the special identifier in the display area when determining that the message indicating that the target state is successfully switched is not received within the preset time. The display area can be arranged on the control element, can also be arranged on the area around the control element on the panel, and can also be arranged on the panel or an additionally arranged display screen, and the display screen is provided with a specific area for reflecting the state of the control element.

In some embodiments, the state determination control module is configured to determine that the message indicating that the target state is successfully switched is not received within the preset time, and receive the message indicating that the target state is successfully switched after the preset time is exceeded, so that the control element is switched from the initial display state to the target display state.

The embodiment can make the control element display the target state when receiving the message that the target state is successfully switched after the timeout, which indicates that the device is normally controlled, but the state is returned slowly, which may be because the control is delayed, or the message is returned slowly due to the network reason, but no fault is generated, which may draw the attention of the user.

In some embodiments, the control element has a display area, and the state determination control module is configured to display the special identifier in the display area when it is determined that the message indicating that the target state is successfully switched is not received within the preset time, and to make the special identifier disappear when the message indicating that the target state is successfully switched is received after the preset time is exceeded, otherwise, to make the special identifier continue to be displayed.

The embodiment can intuitively display the state of the equipment through the special identifier, so that a user can accurately know whether the equipment is in a normal feedback state or abnormal.

In some embodiments, the interactive system of the present invention further includes a status prompt module, configured to send a prompt that the device status returns slowly when it is determined that the message indicating that the target status is successfully switched is received after a preset time period is exceeded; and/or when the message that the target state switching is successful is not received after the preset time is exceeded, prompting that the equipment has the possibility of failure.

The embodiment can visually prompt a user when the equipment is abnormal, and can further pay attention in the subsequent control process when the state feedback is slow; when the possibility of equipment failure is high, the user needs to pay high attention.

In some embodiments, the interactive system of the present invention further includes a fault location module, configured to receive a result of rechecking whether the device is controlled after a preset time is exceeded and when a message indicating that the target state is successfully switched is not received, determine that the device has a state and returns a fault when the device controlled result is received, and determine that the device has a control fault when the device uncontrolled result is received.

In addition, the invention also provides equipment comprising the interactive system for equipment control state feedback of the embodiment.

In addition, the present invention also provides a computer device, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, and is characterized in that the processor implements the interaction method for device control state feedback of the above embodiments when executing the program.

In addition, the present invention also provides a storage medium containing computer-executable instructions, which when executed by a computer processor, are used to perform the interactive method of device control state feedback of the above embodiments.

The interaction method, system and device for device control state feedback provided by the invention are described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to aid in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims

1. An interactive method for equipment control state feedback is characterized by comprising the following steps:

causing a control element for controlling a state of the device to receive an external trigger operation;

judging whether a message of successful target state switching is received within preset time, if so, enabling the control element to display the target state in a display area of the control element, otherwise, enabling the control element to display the initial state in the display area of the control element;

2. The method of claim 1, wherein when it is determined that the message indicating that the target state is successfully switched is not received within a preset time, the method further comprises:

displaying a special identifier in a display area of the control element itself.

3. The method of claim 2, wherein when it is determined that the message indicating that the target state is successfully switched is received after a preset time period is exceeded, the method further comprises:

causing the special identifier to disappear.

4. The method of claim 1, wherein when it is determined that the message indicating that the target state is successfully switched is received after a preset time period is exceeded, the method further comprises:

and sending out a prompt that the equipment state returns slowly.

5. The method of claim 2, wherein when it is determined that the message indicating that the target state is successfully switched is not received after the preset time, the method further comprises:

causing the special identifier to continue to be displayed.

6. The method of claim 1, wherein when it is determined that the message indicating that the target state is successfully switched is not received after the preset time, the method further comprises:

and sending out a prompt that the equipment possibly fails.

7. The method of claim 1, wherein when it is determined that the message indicating that the target state is successfully switched is not received after the preset time, the method further comprises:

8. The interactive method for device control state feedback according to claim 1, further comprising:

the presence of anomalies by the device is logged.

9. The interactive method for device control state feedback according to claim 1, further comprising, after the control element receives an external trigger operation:

causing the control element to display an intermediate state in its display area, the intermediate state being for indicating that the device is in a target state in response to an external trigger operation by displaying a pattern similar to the target state but visually distinct from the target state.

10. The interactive method for device control state feedback according to claim 9, further comprising, before causing the control element to display the intermediate state in its display area:

and setting the display graph of the intermediate state according to the display graph of the control element in the initial state.

11. An interactive system for device control state feedback, comprising:

the state judgment control module is used for judging whether a message that the target state is successfully switched is received within preset time, and displaying the target state in a display area of the state judgment control module under the condition of receiving the message; if not, the control element displays an initial state in a display area of the control element, and continuously judges whether a message of successful target state switching is received or not after the preset time is exceeded, if so, the control element is switched to the target display state, otherwise, the initial state is continuously displayed.

12. The interactive system for device control state feedback according to claim 11, wherein the control element has a display area, and the state judgment control module is further configured to cause the control element to display an intermediate state in its display area after the control element receives the external trigger operation, wherein the intermediate state is configured to indicate that the device is in the target state in response to the external trigger operation by displaying a pattern similar to the target state but visually different from the target state.

13. The interactive system for device control state feedback according to claim 11, further comprising a setting module for setting a display pattern of an intermediate state according to the display pattern of the initial state of the control element before causing the control element to display the intermediate state in its display region.

14. The interactive system for device control state feedback according to claim 11, wherein the control element is provided on the device or on a remote control terminal of the device.

15. The interactive system for device control state feedback according to claim 11, wherein the control element has a display area, and the state determination control module is configured to display a special identifier in the display area when it is determined that the message indicating that the target state is successfully switched is not received within the preset time.

16. The system according to claim 15, wherein the state determination control module is configured to disappear the special indicator when a message indicating that the target state is successfully switched is received after a preset time period is exceeded, and otherwise, to continue to display the special indicator.

17. The interactive system for device control state feedback according to claim 11, further comprising a state prompting module, configured to send a prompt that the device state returns slowly when it is determined that the message indicating that the target state is successfully switched is received after a preset time period is exceeded; and/or when the message that the target state is successfully switched is not received after the preset time is exceeded, prompting that the equipment has the possibility of failure.

18. The system according to claim 11, further comprising a fault location module, configured to receive a result of whether the device is controlled when the message indicating that the target state is successfully switched is not received after a preset time is exceeded, determine that the device has the state and returns the fault when the device controlled result is received, and determine that the device has the control fault when the device uncontrolled result is received.

19. A device comprising an interactive system for device control state feedback according to any of claims 11-18.

20. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor, when executing the program, implements the interactive method of device control state feedback according to any one of claims 1 to 10.

21. A storage medium containing computer-executable instructions for performing the interactive method of device control state feedback of any of claims 1-10 when executed by a computer processor.