CN115550411A - Intelligent cabinet remote acceptance activation method and device, computer equipment and storage medium - Google Patents

Abstract

The invention discloses a method and a device for activating remote acceptance of an intelligent cabinet, computer equipment and a storage medium, wherein the method comprises the steps of receiving an instruction for activating remote acceptance of the intelligent cabinet; the instruction comprises cabinet machine hardware information corresponding to the intelligent cabinet; determining a cabinet machine acceptance mode of the intelligent cabinet according to the cabinet machine hardware information; determining a cabinet machine acceptance check operation corresponding to the intelligent cabinet according to the cabinet machine acceptance check mode, and executing the cabinet machine acceptance check operation to obtain a remote acceptance check result; and when the remote acceptance result represents that the intelligent cabinet is successfully accepted, activating the intelligent cabinet, and after the intelligent cabinet is successfully activated, determining that the intelligent cabinet is successfully remotely accepted and activated. The invention improves the efficiency and accuracy of acceptance and activation of the intelligent cabinet.

Description

Intelligent cabinet remote acceptance activation method and device, computer equipment and storage medium

Technical Field

The invention relates to the technical field of intelligent cabinet acceptance, in particular to an intelligent cabinet remote acceptance activation method and device, computer equipment and a storage medium.

Background

Along with the development of science and technology, more and more intelligent cabinets are used in the scene of living. Such as a courier cabinet, take-away cabinet, or messenger cabinet, etc. The manufacturer can put the burning program into the corresponding place after completing the hardware burning of the intelligent cabinet, but still needs to check and activate the intelligent cabinet before the intelligent cabinet is used in an open state.

In the prior art, operation and maintenance personnel usually go to a release site to manually check and activate the intelligent cabinet. However, the method has the problem of low efficiency, and the condition of missing detection or error detection easily occurs in a manual acceptance mode, so that the accuracy of acceptance and activation processing of the intelligent cabinet is low.

Disclosure of Invention

The embodiment of the invention provides a method and a device for remotely checking and activating an intelligent cabinet, computer equipment and a storage medium, which are used for solving the problem that the efficiency and the accuracy of checking and activating the intelligent cabinet are lower in the prior art.

A remote acceptance activation method for an intelligent cabinet comprises the following steps:

receiving an instruction for performing remote acceptance activation on the intelligent cabinet; the instruction comprises cabinet machine hardware information corresponding to the intelligent cabinet;

determining a cabinet machine acceptance mode of the intelligent cabinet according to the cabinet machine hardware information;

determining cabinet machine acceptance operation corresponding to the intelligent cabinet according to the cabinet machine acceptance mode, and executing the cabinet machine acceptance operation to obtain a remote acceptance result;

and when the remote acceptance result represents that the intelligent cabinet is successfully accepted, activating the intelligent cabinet, and after the intelligent cabinet is successfully activated, determining that the intelligent cabinet is successfully remotely accepted and activated.

An intelligent cabinet remote acceptance activation device, comprising:

the instruction receiving module is used for receiving an instruction for remotely checking and activating the intelligent cabinet; the instruction comprises cabinet machine hardware information corresponding to the intelligent cabinet;

the check-acceptance mode determining module is used for determining the cabinet machine check-acceptance mode of the intelligent cabinet according to the cabinet machine hardware information;

the cabinet machine acceptance module is used for determining cabinet machine acceptance operation corresponding to the intelligent cabinet according to the cabinet machine acceptance mode and executing the cabinet machine acceptance operation to obtain a remote acceptance result;

and the cabinet machine activation module is used for activating the intelligent cabinet when the remote acceptance result represents that the intelligent cabinet is successfully accepted, and determining that the intelligent cabinet is successfully remotely accepted and activated after the intelligent cabinet is successfully activated.

Computer equipment comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein the processor executes the computer program to realize the remote acceptance activation method of the intelligent cabinet.

A computer-readable storage medium, in which a computer program is stored, which, when being executed by a processor, implements the above-mentioned intelligent cabinet remote acceptance activation method.

According to the intelligent cabinet remote acceptance activation method, the intelligent cabinet remote acceptance activation device, the computer equipment and the storage medium, the cabinet machine acceptance mode of the intelligent cabinet is determined through the cabinet machine hardware information, and further the intelligent cabinets of different hardware types can be accepted in different cabinet machine acceptance modes, so that the accuracy of acceptance of the intelligent cabinet is improved. The acceptance and activation of the intelligent cabinet can be completed by the cabinet machine acceptance operation corresponding to the remote execution cabinet machine acceptance mode. So, improved the efficiency of checking and accepting the activation to intelligent cabinet.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a schematic diagram of an application environment of a remote acceptance activation method for an intelligent cabinet according to an embodiment of the present invention;

FIG. 2 is a flowchart of a remote acceptance activation method for an intelligent cabinet according to an embodiment of the present invention;

FIG. 3 is a schematic block diagram of an intelligent cabinet remote acceptance activation device in accordance with an embodiment of the present invention;

FIG. 4 is a schematic diagram of a computer device according to an embodiment of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The intelligent cabinet remote acceptance activation method provided by the embodiment of the invention can be applied to the application environment shown in fig. 1. Specifically, the intelligent cabinet remote acceptance activation method is applied to an intelligent cabinet remote acceptance activation system, the intelligent cabinet remote acceptance activation system comprises a client, a server and an intelligent cabinet as shown in fig. 1, the client and the server are in communication through a network, and the server is in service connection with the intelligent cabinet, so that the problem that in the prior art, the efficiency and the accuracy of acceptance and activation processing of the intelligent cabinet are low is solved. The client is also called a user side, and refers to a program corresponding to the server and providing local services for the client. The client may be installed on, but is not limited to, various personal computers, laptops, smartphones, tablets, and portable wearable devices. The server may be implemented as a stand-alone server or as a server cluster consisting of a plurality of servers. The server may be an independent server, or may be a cloud server that provides basic cloud computing services such as cloud service, a cloud database, cloud computing, cloud functions, cloud storage, network service, cloud communication, middleware service, domain name service, security service, content Delivery Network (CDN), big data, an artificial intelligence platform, and the like.

In an embodiment, as shown in fig. 2, a method for activating remote acceptance of an intelligent cabinet is provided, which is described by taking the method applied to the server in fig. 1 as an example, and includes the following steps:

s10: receiving an instruction for remotely checking and activating the intelligent cabinet; the instruction comprises cabinet machine hardware information corresponding to the intelligent cabinet.

The instruction can be sent to the server by the client, or can be automatically generated when the server receives the counter hardware information corresponding to the intelligent cabinet sent by the client after the intelligent cabinet is released to the site. Wherein, the intelligent cabinet can be an express delivery cabinet, a take-out cabinet or a letter and newspaper cabinet and the like. The server in this embodiment may also be a SAAS (Software-As-a-Service) server.

Further, the intelligent cabinet defined by the embodiment has the following two situations: first, the smart cabinet includes only one main cabinet; in the second type, the intelligent cabinet comprises a main cabinet and at least one auxiliary cabinet. After the intelligent cabinet is released to the site, the hardware information of the cabinet of the intelligent cabinet comprises address information of the releasing site, the cabinet type of the main cabinet and/or the auxiliary cabinet, and the placing position of the main cabinet and/or the auxiliary cabinet (including the number of the auxiliary cabinets and the placing position of the auxiliary cabinet relative to the main cabinet, generally, the position of the auxiliary cabinet is visually converted into position information in sequence from left to right).

S20: and determining a cabinet machine acceptance mode of the intelligent cabinet according to the cabinet machine hardware information.

It can be understood that the cabinet acceptance mode is a way to verify different functions of the intelligent cabinet (including, but not limited to, a cabinet door opening and closing function, a light opening and closing function, a speaker volume adjusting function, and a printer printing function). In the embodiment, the cabinet machine acceptance mode comprises a semi-automatic acceptance mode and a full-automatic acceptance mode. "automated acceptance" as used herein is an automated acceptance pattern relative to "manual acceptance"; the semi-automatic acceptance mode is suitable for acceptance of different functions of the novel intelligent cabinet. The full-automatic acceptance mode is suitable for acceptance of different functions of the old intelligent cabinet. Wherein, novel intelligent cabinet is the intelligent cabinet that just accomplishes production and prepare to carry out the small batch and put in to and/or the intelligent cabinet has not gone on and has tested the acceptance with full-automatic mode of testing the acceptance, perhaps when the intelligent cabinet tested the acceptance in-process with full-automatic mode of testing the acceptance and broke down or unusual, this intelligent cabinet also is regarded as novel intelligent cabinet. The old intelligent cabinet is produced in large scale and put in different markets, and the old intelligent cabinet is checked and accepted in a full-automatic checking and accepting mode. In addition, the intelligent cabinet obtained after some parts in the old intelligent cabinet are replaced (the replaced parts do not affect the functions of the intelligent cabinet) is also considered as the old intelligent cabinet. For example, replace the cabinet door of another kind of material to the cabinet door in the old-fashioned intelligent cabinet, the function that the cabinet door of this cabinet door was opened or was closed is not influenced in the change of this moment old-fashioned intelligent cabinet, and then can adopt the operation of checking that full-automatic mode of checking corresponds to carry out the function to check and accept it.

Further, the new and old intelligent cabinets are not directed to the entire intelligent cabinet, but to the main and sub-cabinets of the intelligent cabinets. That is, the main cabinet may be a new type of intelligent cabinet, and may also be an old type of intelligent cabinet. Similarly, the auxiliary cabinet may be a new intelligent cabinet or an old intelligent cabinet. For example, when the intelligent cabinet has a main cabinet and a sub cabinet, if the main cabinet performs function acceptance in the full-automatic acceptance mode and the acceptance is successful, the main cabinet is the old intelligent cabinet, and the corresponding cabinet machine acceptance mode is the full-automatic acceptance mode. If the auxiliary cabinet does not perform function acceptance under the full-automatic acceptance mode, the auxiliary cabinet is a novel intelligent cabinet, and the corresponding cabinet machine acceptance mode is a semi-automatic acceptance mode.

Further, the difference between the semi-automatic acceptance mode and the full-automatic acceptance mode is that: because novel intelligent cabinet is the intelligent cabinet of just accomplishing production, perhaps takes place to check and accept the trouble or unusual under the full-automatic mode of accepting, the function that this novel intelligent cabinet set up is first check-up or accepts again, and because probably there is certain relation between the different functions. Therefore, it is recommended to check and accept different functions of the novel intelligent cabinet one by one (checking and accepting one function means that the other function is checked and accepted after one function is successfully checked and accepted). The old intelligent cabinet is an intelligent cabinet which is produced in a large scale, and the functions of the old intelligent cabinet are checked and accepted at least once in a full-automatic checking and accepting mode, and the checking and accepting are successful. Therefore, different functions of the old intelligent cabinet can be checked and accepted in sequence (the sequential checking and acceptance means that all the functions are checked and accepted and then the checking and acceptance result is output).

Further, the novel intelligent cabinet is considered to adopt a semi-automatic acceptance mode, and the old intelligent cabinet adopts a full-automatic acceptance mode, which is only a preferred mode. That is, in addition to the above description, the old-type intelligent cabinet can also adopt the semi-automatic acceptance mode to perform function acceptance, and the new-type intelligent cabinet can also adopt the full-automatic acceptance mode to perform function acceptance. For example, before sending the instruction of remotely checking and accepting the activation of the intelligent cabinet, the administrator can preset the cabinet machine checking and accepting mode of the intelligent cabinet, and then the cabinet machine checking and accepting mode set by the administrator can be carried in the instruction, so that the function of the intelligent cabinet can be checked and accepted directly according to the cabinet machine checking and accepting operation corresponding to the cabinet machine checking and accepting mode. All in all, no matter whether novel intelligent cabinet or old-fashioned intelligent cabinet, the effect that finally reaches only needs to satisfy to pass on the function of intelligent cabinet and checks and accept successfully can.

Specifically, after receiving an instruction for remotely checking and activating the intelligent cabinet, determining that the intelligent cabinet belongs to a novel intelligent cabinet or an old intelligent cabinet according to cabinet machine hardware information contained in the instruction. When the intelligent cabinet belongs to the novel intelligent cabinet, the cabinet machine acceptance mode corresponding to the intelligent cabinet is determined to be a semi-automatic acceptance mode. And when the intelligent cabinet belongs to the old intelligent cabinet, determining that the cabinet machine acceptance mode corresponding to the intelligent cabinet is the full-automatic acceptance mode.

Furthermore, the cabinet acceptance mode corresponding to the intelligent cabinet can be determined according to the cabinet hardware information, and the cabinet acceptance mode can also be determined in a manual setting mode. For example, the corresponding cabinet acceptance mode can be set by the supplier of the intelligent cabinet according to the cabinet hardware information of the intelligent cabinet, and the acceptance operation in the cabinet acceptance mode is increased or deleted (for example, an acceptance step of adding other functions on the intelligent cabinet or an acceptance step of deleting other functions on the intelligent cabinet), so that the cabinet acceptance mode and the acceptance operation corresponding to the cabinet hardware information are finally obtained. And then the cabinet machine acceptance mode and acceptance operation are sent to the mobile terminal of the third party user who purchases the intelligent cabinet, so that after the third party user confirms that the intelligent cabinet is accepted through the cabinet machine acceptance mode and the acceptance operation, the corresponding acceptance operation can be executed in the set cabinet machine acceptance mode.

S30: and determining the cabinet machine acceptance operation corresponding to the intelligent cabinet according to the cabinet machine acceptance mode, and executing the cabinet machine acceptance operation to obtain a remote acceptance result.

It can be understood that the checking and accepting operation of the cabinet machine is a method for checking different functions of the intelligent cabinet. And when the cabinet machine acceptance mode is the semi-automatic acceptance mode, the corresponding cabinet machine acceptance operation is the semi-automatic acceptance operation. And when the cabinet machine acceptance mode is the full-automatic acceptance mode, the corresponding cabinet machine acceptance operation is the full-automatic acceptance operation. In the above description it is pointed out that the new intelligent cabinet needs to be checked one by one for the different functions of its settings. The old intelligent cabinet is sequentially checked and accepted for different set functions. Therefore, the function acceptance steps included in the semi-automatic acceptance operation and the full-automatic acceptance operation may be the same or different. For example, semi-automatic acceptance and full-automatic acceptance may include acceptance of the opening and closing function of the cabinet door of the intelligent cabinet, the opening and closing function of the light, the volume adjustment function of the speaker, and the printing function of the printer. Or with functions added or deleted therein. For example, the new intelligent cabinet only includes the cabinet door opening and closing function. The old intelligent cabinet comprises a light opening and closing function, a loudspeaker volume adjusting function and a printing function of a printer. The functions required to be checked and accepted by different intelligent cabinets can be preset by managers of the intelligent cabinets.

It should be noted that the above-mentioned opening and closing function of the cabinet door, the opening and closing function of the light, the volume adjusting function of the speaker and the printing function of the printer are only examples. The functions provided for different intelligent cabinets may also be completely different. For example, a new intelligent cabinet has a speaker volume adjusting function and a printing function of a printer. And an old-fashioned intelligent cabinet has the functions of opening and closing the cabinet door and the communication connection test function (the communication connection mode can be network connection, bluetooth connection or broadcast connection and the like).

Furthermore, the remote acceptance result is the result obtained after the intelligent cabinet is accepted. The remote acceptance results comprise results representing successful acceptance of the intelligent cabinet and also comprise results representing failure of acceptance of the intelligent cabinet. When all functions of the intelligent cabinet are successfully checked, the remote checking result is the result representing the successful checking of the intelligent cabinet. When any function of the intelligent cabinet fails to be accepted, the remote acceptance result is the result representing the failure of the intelligent cabinet in acceptance.

Specifically, after the cabinet acceptance mode of the intelligent cabinet is determined according to the cabinet hardware information, the cabinet acceptance operation corresponding to the cabinet acceptance mode can be determined. And when the cabinet machine acceptance mode is the semi-automatic acceptance mode, the corresponding cabinet machine acceptance operation is the semi-automatic acceptance operation. And then during the semi-automatic operation of checking and accepting of execution, check and accept the different functions of intelligence cabinet, obtain long-range result of checking and accepting. And when the cabinet machine acceptance mode is the full-automatic acceptance mode, the corresponding cabinet machine acceptance operation is the full-automatic acceptance operation. And then during the operation of carrying out full-automatic acceptance check, the different functions of intelligence cabinet are accepted, obtain long-range acceptance check result.

S40: and when the remote acceptance result represents that the intelligent cabinet is successfully accepted, activating the intelligent cabinet, and after the intelligent cabinet is successfully activated, determining that the intelligent cabinet is successfully remotely accepted and activated.

Specifically, after the cabinet machine acceptance check operation is executed and the remote acceptance check result is obtained, if the remote acceptance check result represents that the intelligent cabinet is successfully accepted, the corresponding functions of the represented intelligent cabinet are normal. And then can carry out activation to intelligent cabinet to after the intelligent cabinet activation succeeds, confirm that the intelligent cabinet is long-range to check and accept the activation and succeed, this intelligent cabinet can come into operation.

Further, if the remote acceptance result represents that the intelligent cabinet fails to accept, a preset receiving party is informed to repair the function of the intelligent cabinet which fails to accept. And then after the intelligent cabinet is repaired, continuously executing the acceptance step corresponding to the corresponding function until the remote acceptance result represents that all functions of the intelligent cabinet are successfully accepted, and activating the intelligent cabinet. Therefore, after the intelligent cabinet is successfully activated, the intelligent cabinet is determined to be successfully remotely checked and activated.

In this embodiment, confirm the cabinet machine of intelligent cabinet through cabinet machine hardware information and check and accept the mode, and then can check and accept under the cabinet machine of difference checks and accepts the mode according to the intelligent cabinet of the hardware type of difference, improve the accuracy of checking and accepting the intelligent cabinet. The cabinet machine acceptance operation corresponding to the cabinet machine acceptance mode is remotely executed, and acceptance and activation of the intelligent cabinet can be completed. So, improved the efficiency of checking and accepting the activation to intelligent cabinet.

In an embodiment, the step S20, that is, the determining the cabinet acceptance mode of the intelligent cabinet according to the cabinet hardware information, includes:

(1) Acquiring a preset cabinet air conditioner information table; the preset cabinet information table comprises at least one old cabinet information and at least one new cabinet information.

It will be appreciated that each smart cabinet will be released to a different site after production. Therefore, the intelligent cabinet can be put in according to the address information of the place where the intelligent cabinet is put in, the cabinet type of the main cabinet and/or the auxiliary cabinet, and the placing position of the main cabinet and/or the auxiliary cabinet. Therefore, the cabinet information corresponding to the intelligent cabinet is determined according to the address information of the place where the intelligent cabinet is put in, the cabinet type of the main cabinet and/or the auxiliary cabinet and the placing position of the main cabinet and/or the auxiliary cabinet. That is, the main cabinet corresponds to one cabinet information, and each sub cabinet corresponds to one cabinet information.

Further, when the main cabinet or the auxiliary cabinet performs the function acceptance operation in the full-automatic acceptance mode and the function acceptance is successful, the cabinet machine information corresponding to the main cabinet or the auxiliary cabinet is recorded as the old cabinet machine information. When the main cabinet or the auxiliary cabinet does not perform the function acceptance operation in the full-automatic acceptance mode or an abnormality or a fault exists in the function acceptance operation process in the full-automatic acceptance mode, the cabinet information corresponding to the main cabinet or the auxiliary cabinet is recorded as novel cabinet information. Therefore, the preset cabinet information table can be generated according to different old cabinet information and novel cabinet information.

(2) Determining whether the intelligent cabinet comprises a main cabinet and a secondary cabinet.

(3) And when the intelligent cabinet only comprises the main cabinet, matching the cabinet hardware information with all the old cabinet information and all the novel cabinet information.

Specifically, after the preset cabinet information table is acquired, whether the intelligent cabinet comprises a main cabinet and an auxiliary cabinet is determined. If the intelligent cabinet only comprises the main cabinet, the hardware information of the cabinet at the moment is the information corresponding to the main cabinet. And then match cabinet machine hardware information and old type cabinet machine information to and match cabinet machine hardware information and novel cabinet machine information. The matching mode can be realized by carrying out entity recognition and text extraction on the hardware information of the cabinet machine, the old cabinet machine information and the novel cabinet machine information. And the information belonging to the same entity category in the hardware information of the cabinet machine, the old cabinet machine information and the novel cabinet machine information is compared, so that the hardware information of the cabinet machine, all the old cabinet machine information and the novel cabinet machine information can be matched.

(3) And when the cabinet machine hardware information is matched with any one of the old cabinet machine information, determining that the cabinet machine acceptance mode of the main cabinet is a full-automatic acceptance mode.

Specifically, after the hardware information of the cabinet machine is matched with all the old cabinet machine information, if the hardware information of the cabinet machine is successfully matched with any one of the old cabinet machine information, it can be determined that the main cabinet is the old intelligent cabinet, and then the cabinet machine acceptance mode of the main cabinet can be set to the full-automatic acceptance mode.

(4) And when the cabinet machine hardware information is matched with any one of the novel cabinet machine information or is not matched with all the old cabinet machine information, determining that the cabinet machine acceptance mode of the main cabinet is a semi-automatic acceptance mode.

Specifically, after the cabinet hardware information is matched with all the old cabinet information and all the new cabinet information, if the cabinet hardware information is successfully matched with any one of the new cabinet information, the main cabinet can be determined to be the new intelligent cabinet. Or when the cabinet hardware information is not matched with all the old cabinet information and the new cabinet information, the main cabinet may be newly produced, that is, the cabinet information of the main cabinet may not be recorded into the preset cabinet information table. And then this main cabinet should also be novel intelligent cabinet. Therefore, under the two conditions, the cabinet machine acceptance mode of the main cabinet can be determined to be the semi-automatic acceptance mode.

In one embodiment, after determining whether the intelligent cabinet comprises a main cabinet and a secondary cabinet, the method further comprises:

(1) And when the intelligent cabinet comprises the main cabinet and at least one auxiliary cabinet, determining main cabinet hardware information corresponding to the main cabinet and auxiliary cabinet hardware information corresponding to the auxiliary cabinet from the cabinet hardware information.

It can be understood that, after determining whether the intelligent cabinet includes a main cabinet and an auxiliary cabinet, if the intelligent cabinet includes a main cabinet and at least one auxiliary cabinet, the cabinet hardware information corresponding to the intelligent cabinet is characterized in that the main cabinet hardware information corresponding to the main cabinet and the auxiliary cabinet hardware information corresponding to different auxiliary cabinets are recorded in the cabinet hardware information corresponding to the intelligent cabinet. That is, one sub-cabinet corresponds to one sub-cabinet hardware information. The main cabinet hardware information may include, but is not limited to, address information of a drop site of the main cabinet, a cabinet type, and a placement location. The hardware information of the sub-cabinet can include, but is not limited to, address information of a drop site of the sub-cabinet, a cabinet type, and a placement position relative to the main cabinet.

(2) And matching the hardware information of the main cabinet with all the old cabinet information and all the novel cabinet information, and matching the hardware information of the auxiliary cabinet with all the old cabinet information and all the novel cabinet information to obtain an information matching result.

Specifically, after the main cabinet hardware information corresponding to the main cabinet and the auxiliary cabinet hardware information corresponding to the auxiliary cabinet are determined from the cabinet hardware information, the main cabinet hardware information and all old type cabinet information and all new type cabinet information can be matched, and the auxiliary cabinet hardware information and all old type cabinet information and all new type cabinet information can be matched to obtain an information matching result. The information matching result comprises a result representing whether the main cabinet hardware information is successfully matched with the old cabinet information or the novel cabinet information, and a result representing whether the auxiliary cabinet hardware information is successfully matched with the old cabinet information or the novel cabinet information.

(3) And determining a cabinet machine acceptance mode corresponding to the main cabinet and a cabinet machine acceptance mode corresponding to each auxiliary cabinet according to the information matching result.

Specifically, after the information matching result is obtained, the cabinet acceptance mode corresponding to the main cabinet and the cabinet acceptance mode corresponding to each of the sub-cabinets can be determined according to the information matching result. The method mainly comprises the following conditions:

when the hardware information of the main cabinet is matched with any one of the old cabinet information, determining that the cabinet machine acceptance mode of the main cabinet is a full-automatic acceptance mode;

when the hardware information of the main cabinet is matched with any one of the novel cabinet machine information or is not matched with all the old cabinet machine information, determining that the cabinet machine acceptance mode of the main cabinet is a semi-automatic acceptance mode;

when the hardware information of the auxiliary cabinet is matched with the information of any one old cabinet, determining that the cabinet acceptance mode of the auxiliary cabinet is a full-automatic acceptance mode;

and when the hardware information of the auxiliary cabinet is matched with any one of the novel cabinet machines or is not matched with all the old cabinet machines, determining that the cabinet machine acceptance mode of the auxiliary cabinet is a semi-automatic acceptance mode.

That is, for an intelligent cabinet including a main cabinet and at least one auxiliary cabinet, the following six cases exist in the corresponding cabinet acceptance modes:

1. the cabinet machine acceptance mode of the main cabinet is a full-automatic acceptance mode, and the cabinet machine acceptance modes of all the auxiliary cabinets are also full-automatic acceptance modes;

2. the cabinet machine acceptance mode of the main cabinet is a full-automatic acceptance mode, and the cabinet machine acceptance modes of all the auxiliary cabinets are semi-automatic acceptance modes;

3. the cabinet machine acceptance mode of the main cabinet is a full-automatic acceptance mode, the cabinet machine acceptance mode of one part of the auxiliary cabinets is also a full-automatic acceptance mode, and the cabinet machine acceptance mode of the other part of the auxiliary cabinets is a semi-automatic acceptance mode;

4. the cabinet machine acceptance mode of the main cabinet is a semi-automatic acceptance mode, and the cabinet machine acceptance modes of all the auxiliary cabinets are full-automatic acceptance modes;

5. the cabinet machine acceptance mode of the main cabinet is a semi-automatic acceptance mode, and the cabinet machine acceptance modes of all the auxiliary cabinets are also semi-automatic acceptance modes;

6. the cabinet machine acceptance mode of the main cabinet is a semi-automatic acceptance mode, the cabinet machine acceptance mode of one part of the auxiliary cabinets is a full-automatic acceptance mode, and the cabinet machine acceptance mode of the other part of the auxiliary cabinets is a semi-automatic acceptance mode.

In this embodiment, the cabinet information of different intelligent cabinets is collected in advance, and the cabinet information is divided into old cabinet information and new cabinet information according to different hardware types of the intelligent cabinets. And then through the mode of matching cabinet machine hardware information and old type cabinet machine information and novel cabinet machine information, confirm the cabinet machine acceptance mode that main cabinet and vice cabinet correspond respectively in the intelligence cabinet. So, can improve efficiency and the accuracy of accepting the mode setting to the cabinet-type air conditioner of intelligence cabinet.

In one embodiment, the cabinet acceptance mode comprises a semi-automatic acceptance mode; in step S30, that is, the determining, according to the cabinet acceptance mode, a cabinet acceptance operation corresponding to the intelligent cabinet, and executing the cabinet acceptance operation to obtain a remote acceptance result includes:

(1) When the cabinet machine acceptance mode is the semi-automatic acceptance mode, determining that the cabinet machine acceptance operation corresponding to the intelligent cabinet is the semi-automatic acceptance operation; the semi-automatic acceptance operation comprises at least one semi-automatic acceptance step.

It will be appreciated that the semi-automatic acceptance step is a verification step provided for different functions of the intelligent cabinet. Illustratively, the semi-automatic acceptance step may include the step of accepting the opening and closing function of the cabinet door of the intelligent cabinet, the opening and closing function of the light, the volume adjustment function of the speaker, and the printing function of the printer.

(2) And executing the semi-automatic acceptance steps one by one to obtain the remote acceptance results.

It is to be understood that in the above description it is pointed out that since the new intelligent cabinet is a newly produced intelligent cabinet, the new intelligent cabinet is provided with a function of initial verification, and since there may be a certain relation between different functions. Therefore, different functions of the novel intelligent cabinet need to be checked one by one. Therefore, after the cabinet machine acceptance check operation corresponding to the intelligent cabinet is determined to be the semi-automatic acceptance check operation, the semi-automatic acceptance check steps can be executed one by one. Namely, after the first semi-automatic acceptance step is successfully accepted, the second semi-automatic acceptance step is executed, and the like, until the last semi-automatic acceptance step is successfully accepted, the remote acceptance result is obtained. Therefore, the remote acceptance result of the intelligent cabinet aiming at the semi-automatic acceptance mode (namely, the novel intelligent cabinet) is a result representing that all functions are successfully accepted.

In one embodiment, a shooting device is arranged on the intelligent cabinet; the semi-automatic acceptance step is executed one by one to obtain a remote acceptance result, and the method comprises the following steps:

(1) And all the semi-automatic acceptance steps are inserted into an acceptance sequence to be accepted according to a preset acceptance sequence, and the first semi-automatic acceptance step in the sequence is taken out from the acceptance sequence to be accepted as a first acceptance step.

It will be appreciated that the predetermined acceptance sequence may be manually set for all semi-automatic acceptance steps in advance. Illustratively, it is pointed out in the above description that the semi-automatic acceptance step may include an acceptance step corresponding to a cabinet door opening and closing function, a light opening and closing function, a speaker volume adjusting function, a printing function of a printer, and an intelligent cabinet restarting function. The acceptance step corresponding to the opening and closing functions of the cabinet door can be set as the first acceptance step, the acceptance step corresponding to the opening and closing functions of the lamp light can be set as the first acceptance step, and the process can be analogized in turn, and finally the acceptance step corresponding to the restarting function of the intelligent cabinet is taken as the last acceptance step. And then all the semi-automatic acceptance steps are inserted into an acceptance sequence according to the preset acceptance sequence. And then, taking the first sorted semi-automatic acceptance step from the acceptance sequence to be accepted as a first acceptance step. For example, the acceptance step corresponding to the opening and closing functions of the cabinet door can be regarded as a first acceptance step.

(2) And executing the first acceptance step, and shooting the intelligent cabinet through the shooting device to obtain a first shooting result corresponding to the first acceptance step.

Specifically, after the first semi-automatic acceptance step in the sequence to be accepted is taken out as the first acceptance step, the first acceptance step is executed. And in the process of executing the first acceptance step, shooting the intelligent cabinet through a shooting device arranged on the intelligent cabinet, thereby obtaining a first shooting result corresponding to the first acceptance step. The shooting device can be a camera, a video camera or other equipment with a video shooting function. The first shooting result is a video clip recording the change of the intelligent cabinet in the process of executing the first acceptance step. For example, when the first acceptance step is an acceptance step corresponding to the opening and closing functions of the cabinet door, the first shooting result records video clips of the opening and closing of the cabinet door at different positions of the intelligent cabinet.

(3) And remotely checking and accepting the intelligent cabinet according to the first shooting result to obtain a first checking and accepting result corresponding to the first checking and accepting step.

Specifically, after the intelligent cabinet is shot through the shooting device and a first shooting result corresponding to the first acceptance step is obtained, the intelligent cabinet can be remotely accepted according to the first shooting result. Namely, the video clip in the first shooting result is identified, so that whether the intelligent cabinet completes the functional operation corresponding to the first acceptance step or not is determined. For example, when the first acceptance step is an acceptance step corresponding to the opening and closing functions of the cabinet door, whether the position of each auxiliary cabinet in the intelligent cabinet is the same as the preset position or not can be determined according to the first shooting result. And determining whether the cabinet door of each sub-cabinet can be normally opened or closed. Therefore, a detection result corresponding to each auxiliary cabinet on the intelligent cabinet is obtained, and a first acceptance result is determined according to the detection result corresponding to each auxiliary cabinet. And assuming that the detection results corresponding to all the auxiliary cabinets represent the successful detection result, determining that the first acceptance result is the successful acceptance result. And determining that the first acceptance result is a result representing acceptance failure if the detection result corresponding to any one of the auxiliary cabinets represents the result representing detection failure.

(4) And when the first acceptance result represents that the acceptance is successful, taking out a second ordered semi-automatic acceptance step from the sequence to be accepted as a second acceptance step.

Specifically, after the intelligent cabinet is remotely checked and accepted according to the first shooting result, and a first checking and accepting result corresponding to the first checking and accepting step is obtained, if the first checking and accepting result represents that the checking and accepting is successful, the second semi-automatic checking and accepting step is taken out from the checking and accepting sequence and is sequenced as a second checking and accepting step. And if the first acceptance result represents that the acceptance fails, sending the first acceptance result to a preset receiving party (the preset receiving party can be a manager of the intelligent cabinet) so as to enable the preset receiving party to overhaul the intelligent cabinet after receiving the first acceptance result. And after the overhaul is finished, sending an instruction for executing the first acceptance step to the server, and taking the second sorted semi-automatic acceptance step from the acceptance sequence as the second acceptance step and executing the second acceptance step until the first acceptance result corresponding to the first acceptance step represents that the acceptance is successful.

(5) And continuously determining a second acceptance result corresponding to the second acceptance step until all the semi-automatic acceptance steps in the sequence to be accepted are selected, and obtaining the remote acceptance result.

Specifically, the second semi-automatic acceptance step in the sequence to be accepted is taken out as the second acceptance step, and the second acceptance result corresponding to the second acceptance step is continuously determined. And executing a second acceptance step, and shooting the intelligent cabinet through the shooting device to obtain a second shooting result corresponding to the second acceptance step. And remotely checking and accepting the intelligent cabinet according to the second shooting result to obtain a second checking and accepting result corresponding to the second checking and accepting step. And if the second acceptance result represents that the acceptance is successful, continuously selecting and sequencing the third semi-automatic acceptance step. Thus, a third acceptance result, a fourth acceptance result, a fifth acceptance result, or the like may be continuously generated in the subsequent steps. And obtaining a remote acceptance result after all the semi-automatic acceptance steps in the acceptance to be checked are selected and the acceptance results corresponding to all the semi-automatic acceptance steps are represented successfully.

The specific implementation manner of performing remote acceptance according to the shooting result corresponding to the semi-automatic acceptance step is as follows:

when the semi-automatic acceptance step is the acceptance step that the cabinet door is opened and the closing function corresponds, according to the direction from left to right and from top to bottom, the auxiliary cabinet arranged on the intelligent cabinet is subjected to door opening and closing tests. At the moment, the shooting result is the video clip corresponding to the position of each auxiliary cabinet on the intelligent cabinet, the door opening test and the door closing test. And after the server acquires the shooting result, analyzing and comparing the position, the door opening test and the door closing test of each auxiliary cabinet. And if any one of the position of the auxiliary cabinet, the door opening test or the door closing test is abnormal, determining that the auxiliary cabinet is abnormal, and further determining that the acceptance result representation corresponding to the semi-automatic acceptance step fails to accept. And if the positions of all the auxiliary cabinets, the door opening test and the door closing test are normal, determining that the auxiliary cabinets are normal, and further determining that the acceptance result representation corresponding to the semi-automatic acceptance step is successful in acceptance. Further, when different auxiliary cabinets are detected, the detection of the next auxiliary cabinet can be performed after the previous auxiliary cabinet is successfully detected. And if the current auxiliary cabinet is not detected successfully, sending an abnormal prompt to a preset receiver. And then, after the abnormal auxiliary cabinet is repaired by the preset receiver, the auxiliary cabinet and other auxiliary cabinets are continuously detected.

When the semi-automatic acceptance step is the acceptance step corresponding to the light opening and closing function, the light box arranged on the intelligent cabinet is subjected to light opening and light closing tests according to the direction from left to right and from top to bottom. At this time, the shooting result is the video clip corresponding to the light-on test and the light-off test of each light box. And after the server acquires the shooting result, analyzing and comparing the light-on test and the light-off test of each light box. And if the light-on tests and the light-off tests of all the light boxes are normal, determining that the acceptance results corresponding to the semi-automatic acceptance steps represent successful acceptance. And if the lamp-on test or the lamp-off test of any one lamp box is abnormal, determining that the acceptance result corresponding to the semi-automatic acceptance step represents the acceptance failure.

When the semi-automatic acceptance step is the acceptance step corresponding to the loudspeaker volume adjusting function, the loudspeaker arranged on the intelligent cabinet is subjected to volume fluctuation test according to the direction from left to right and from top to bottom. At this time, the shooting result is the video clip corresponding to the sound emitted when each speaker is turned on. And after the server acquires the shooting result, analyzing and comparing the volume of each loudspeaker. And if the volumes of all the loudspeakers meet the volume fluctuation requirement (the volume fluctuation requirement can be set according to the requirement), determining that the acceptance result corresponding to the semi-automatic acceptance step represents that the acceptance is successful. And if the volume of any loudspeaker does not meet the volume fluctuation requirement, determining that the acceptance result corresponding to the semi-automatic acceptance step represents acceptance failure.

And when the semi-automatic acceptance step is an acceptance step corresponding to the printing function of the printer, initializing the printer on the intelligent cabinet and controlling the printer to execute a printing process. It is determined whether the printer can print out paper. At this time, the shooting result is the video clip corresponding to the working state when the printer is started. After acquiring the shooting result, the server determines whether the printer can print out paper according to the shooting result. And if the printer can print out paper and the data displayed on the printed paper is the same as the data input into the printer, determining that the acceptance result corresponding to the semi-automatic acceptance step represents that the acceptance is successful. And if the printer cannot print out the paper or the data displayed on the printed paper is different from the data input into the printer, determining that the acceptance result corresponding to the semi-automatic acceptance step represents the acceptance failure.

In one embodiment, the cabinet acceptance mode comprises a fully automatic acceptance mode; in step S30, that is, the determining, according to the cabinet acceptance mode, a cabinet acceptance operation corresponding to the intelligent cabinet, and executing the cabinet acceptance operation to obtain a remote acceptance result includes:

(1) When the cabinet machine acceptance mode is the full-automatic acceptance mode, determining that the track acceptance operation corresponding to the intelligent cabinet is the full-automatic acceptance operation; the full-automatic acceptance operation comprises at least one full-automatic acceptance step.

It is understood that the fully automatic acceptance step is a verification step provided for different functions of the intelligent cabinet. Illustratively, the fully-automatic acceptance step may include the step of accepting the opening and closing function of the cabinet door of the intelligent cabinet, the opening and closing function of the light, the volume adjusting function of the speaker, and the printing function of the printer.

(2) And executing all the full-automatic acceptance steps in sequence to obtain the remote acceptance result.

It is to be understood that in the above description it is indicated that an old-fashioned smart cabinet is an already mass-produced smart cabinet, the functions provided by which have been checked a number of times. Therefore, different functions of the old intelligent cabinet can be sequentially checked and accepted, namely, all functions of the intelligent cabinet are checked and accepted, and then a remote checking and accepting result is output. The remote acceptance results of the intelligent cabinet (namely the old intelligent cabinet) in the full-automatic acceptance mode are recorded with the acceptance results corresponding to different functions of the intelligent cabinet. The acceptance results corresponding to different functions may be normal results or abnormal results.

In one embodiment, a shooting device is arranged on the intelligent cabinet; all the full-automatic acceptance steps are sequentially executed to obtain the remote acceptance results, and the method comprises the following steps:

(1) And sequentially executing all the full-automatic acceptance steps, and shooting the intelligent cabinet through the shooting device in the process of executing the full-automatic acceptance steps to obtain full-automatic shooting results corresponding to all the full-automatic acceptance steps.

It can be understood that when the full-automatic acceptance steps include the steps of accepting through the cabinet door opening and closing function, the light opening and closing function, the loudspeaker volume adjusting function and the printing function of the printer, all the full-automatic acceptance steps can be executed according to the sequencing. If so, the acceptance step corresponding to the opening and closing functions of the cabinet door is executed firstly until the acceptance step corresponding to the restarting function of the intelligent cabinet is executed finally. In the process of executing the full-automatic acceptance steps, the intelligent cabinet is shot through the shooting device, and full-automatic shooting results corresponding to all the full-automatic acceptance steps are obtained.

Furthermore, the intelligent cabinet is shot through the shooting device, the shooting device can be started to shoot when a full-automatic acceptance step is to be executed, and the shooting device is closed to finish shooting after the full-automatic acceptance step is executed, so that a full-automatic shooting result corresponding to the full-automatic acceptance step is obtained. Or starting the shooting device to shoot from the first full-automatic acceptance step, closing the shooting device after the last full-automatic acceptance step is finished, and ending the shooting to obtain the total shot video. And cutting the total shot video according to the execution time of each full-automatic acceptance step so as to obtain full-automatic shooting results corresponding to each full-automatic acceptance step.

(2) And carrying out remote acceptance inspection on the intelligent cabinet according to the full-automatic shooting result corresponding to each full-automatic acceptance step to obtain a full-automatic acceptance result corresponding to the full-automatic acceptance step.

Specifically, after the intelligent cabinet is shot through the shooting device and full-automatic shooting results corresponding to all full-automatic acceptance steps are obtained, the intelligent cabinet is remotely accepted according to the full-automatic shooting results corresponding to all full-automatic acceptance steps. Namely, the video clips of all the full-automatic shooting results are analyzed, so that the full-automatic acceptance results corresponding to the full-automatic acceptance steps are determined. The full-automatic acceptance result comprises a result of acceptance failure of the representation and the corresponding full-automatic acceptance step and also comprises a result of acceptance success of the representation and the corresponding full-automatic acceptance step. Further, the manner of performing remote acceptance check on the full-automatic acceptance check step through the full-automatic shooting result is the same as the manner of performing remote acceptance check on the half-automatic acceptance check step through the shooting result, and specific reference is made to the above explanation, which is not repeated herein.

(3) And determining the remote acceptance result according to the full-automatic acceptance results corresponding to all the full-automatic acceptance steps.

Specifically, after the intelligent cabinet is remotely checked and accepted according to the full-automatic shooting results corresponding to all the full-automatic checking and accepting steps, and the full-automatic checking and accepting results corresponding to all the full-automatic checking and accepting steps are obtained, the remote checking and accepting results are determined according to the full-automatic checking and accepting results corresponding to all the full-automatic checking and accepting steps. That is, the remote acceptance result records the full-automatic acceptance results corresponding to all the full-automatic acceptance steps. And then when any one full-automatic acceptance result in the remote acceptance results is the result of the characterization acceptance failure, the full-automatic acceptance result of the characterization acceptance failure can be sent to the preset receiver. Therefore, the receiver is preset to repair the intelligent cabinet according to the full-automatic acceptance result of the acceptance check failure of the representation. And after the repairing, re-executing the full-automatic acceptance step corresponding to the full-automatic acceptance result representing the acceptance failure. And (4) completing the acceptance of the intelligent cabinet until all the full-automatic acceptance results corresponding to all the full-automatic acceptance steps represent successful acceptance.

In one embodiment, a shooting device is arranged on the intelligent cabinet; in step S40, that is, the activating the intelligent cabinet includes:

(1) And restarting the intelligent cabinet, and shooting the intelligent cabinet through the shooting device to obtain a restarting shooting result.

Specifically, after the cabinet machine acceptance check operation is executed and the remote acceptance check result is obtained, if the remote acceptance check result represents that the intelligent cabinet is successfully accepted, all functions of the represented intelligent cabinet are normal, and the intelligent cabinet is restarted. And in the process of restarting the intelligent cabinet, shooting the intelligent cabinet through the shooting device to obtain a restarting shooting result. And the restarting shooting result is a video clip obtained by shooting by the shooting device in the restarting processing process of the intelligent cabinet.

(2) And analyzing the restart shooting result to determine whether the intelligent cabinet is restarted successfully.

Specifically, after the intelligent cabinet is shot through the shooting device and a restarting shooting result is obtained, the restarting shooting result is analyzed, and whether the intelligent cabinet is restarted successfully is determined.

(3) And when the intelligent cabinet is determined to be restarted successfully, determining that the intelligent cabinet is activated successfully.

(4) And when the intelligent cabinet is determined to be failed to restart, determining that the intelligent cabinet fails to be activated.

Specifically, after the shooting result is analyzed, if the intelligent cabinet is restarted successfully, the intelligent cabinet is represented to be activated successfully. And if the intelligent cabinet fails to restart, the intelligent cabinet is represented to fail to activate. And then notifying a preset receiver to repair the intelligent cabinet, and continuing to restart the intelligent cabinet after the intelligent cabinet is repaired. Until the intelligent cabinet is restarted successfully.

In the above embodiments, it is shown that the shooting device can be installed on the intelligent cabinet, so that the process of performing the acceptance check operation of the cabinet machine is recorded by the shooting device. The video clips shot by the shooting device can be analyzed, so that whether the functions of the intelligent cabinet are normally executed or not can be remotely determined. And when detecting that the function of the intelligent cabinet is abnormal, the intelligent cabinet can be quickly informed to preset a receiver to repair the intelligent cabinet. Therefore, the method for checking and activating the intelligent cabinet on the ground site by manpower is replaced, and the efficiency for checking and activating the intelligent cabinet is greatly improved.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present invention.

In an embodiment, a remote acceptance activation device for an intelligent cabinet is provided, and the remote acceptance activation device for the intelligent cabinet corresponds to the remote acceptance activation method for the intelligent cabinet in the above embodiment one to one. As shown in fig. 3, the intelligent cabinet remote acceptance activation device comprises an instruction receiving module 10, an acceptance mode determination module 20, a cabinet acceptance module 30 and a cabinet activation module 40. The functional modules are explained in detail as follows:

the instruction receiving module 10 is used for receiving an instruction for performing remote acceptance activation on the intelligent cabinet; the instruction comprises cabinet machine hardware information corresponding to the intelligent cabinet;

the check-acceptance mode determining module 20 is configured to determine a cabinet machine check-acceptance mode of the intelligent cabinet according to the cabinet machine hardware information;

the cabinet acceptance module 30 is used for determining cabinet acceptance operation corresponding to the intelligent cabinet according to the cabinet acceptance mode, and executing the cabinet acceptance operation to obtain a remote acceptance result;

and the cabinet machine activation module 40 is configured to activate the intelligent cabinet when the remote acceptance result represents that the intelligent cabinet is successfully accepted, and determine that the intelligent cabinet is successfully remotely accepted and activated after the intelligent cabinet is successfully activated.

Preferably, the acceptance mode determination module 20 includes:

the information acquisition unit is used for acquiring a preset cabinet air conditioner information table; the preset cabinet information table comprises at least one old cabinet information and at least one new cabinet information;

the cabinet machine determining unit is used for determining whether the intelligent cabinet comprises a main cabinet and an auxiliary cabinet;

a first information matching unit, configured to match the cabinet hardware information with all of the old cabinet information and all of the new cabinet information when the intelligent cabinet only includes the main cabinet;

the full-automatic acceptance mode determining unit is used for determining that the cabinet machine acceptance mode of the main cabinet is a full-automatic acceptance mode when the cabinet machine hardware information is matched with any one of the old cabinet machine information;

and the semi-automatic acceptance mode determining unit is used for determining that the cabinet machine acceptance mode of the main cabinet is a semi-automatic acceptance mode when the cabinet machine hardware information is matched with any one of the novel cabinet machine information or all the old cabinet machine information is not matched.

Preferably, the acceptance mode determination module 20 further comprises:

the intelligent cabinet comprises a main cabinet, at least one auxiliary cabinet and an information splitting unit, wherein the main cabinet hardware information and the auxiliary cabinet hardware information are respectively corresponding to the main cabinet and the auxiliary cabinet;

the second information matching unit is used for matching the hardware information of the main cabinet with all the old cabinet information and all the novel cabinet information, and matching the hardware information of the auxiliary cabinet with all the old cabinet information and all the novel cabinet information to obtain an information matching result;

and the acceptance mode determining unit is used for determining a cabinet machine acceptance mode corresponding to the main cabinet and a cabinet machine acceptance mode corresponding to each auxiliary cabinet according to the information matching result.

Preferably, the cabinet acceptance module 30 includes:

the semi-automatic operation determining unit is used for determining that the cabinet machine acceptance checking operation corresponding to the intelligent cabinet is the semi-automatic acceptance checking operation when the cabinet machine acceptance checking mode is the semi-automatic acceptance checking mode; the semi-automatic acceptance operation comprises at least one semi-automatic acceptance step;

and the semi-automatic acceptance unit is used for executing the semi-automatic acceptance steps one by one to obtain the remote acceptance results.

Preferably, the semi-automatic acceptance unit comprises:

a first step selection subunit, configured to insert all the semi-automatic acceptance steps into an acceptance sequence according to a preset acceptance sequence, and take out a first-ordered semi-automatic acceptance step from the acceptance sequence as a first acceptance step;

the step execution subunit is used for executing the first acceptance step and shooting the intelligent cabinet through the shooting device to obtain a first shooting result corresponding to the first acceptance step;

the remote acceptance sub-unit is used for remotely accepting the intelligent cabinet according to the first shooting result to obtain a first acceptance result corresponding to the first acceptance step;

a second step selecting subunit, configured to take the second sorted semi-automatic acceptance step from the sequence to be accepted as a second acceptance step when the first acceptance result represents that acceptance is successful;

and the acceptance result determining subunit is used for continuously determining a second acceptance result corresponding to the second acceptance step until all the semi-automatic acceptance steps in the sequence to be accepted are selected, and obtaining the remote acceptance result.

Preferably, the cabinet acceptance module 30 includes:

the full-automatic operation determining unit is used for determining that the track acceptance operation corresponding to the intelligent cabinet is the full-automatic acceptance operation when the cabinet machine acceptance mode is the full-automatic acceptance mode; the full-automatic acceptance operation comprises at least one full-automatic acceptance step;

and the full-automatic acceptance unit is used for sequentially executing all the full-automatic acceptance steps to obtain the remote acceptance result.

Preferably, the full-automatic acceptance unit comprises:

the intelligent cabinet shooting subunit is used for sequentially executing all the full-automatic acceptance steps, and shooting the intelligent cabinet through the shooting device in the process of executing the full-automatic acceptance steps to obtain full-automatic shooting results corresponding to all the full-automatic acceptance steps;

the full-automatic acceptance sub-unit is used for remotely accepting the intelligent cabinet according to full-automatic shooting results corresponding to all the full-automatic acceptance steps to obtain full-automatic acceptance results corresponding to the full-automatic acceptance steps;

and the result determining subunit is used for determining the remote acceptance result according to the full-automatic acceptance results corresponding to all the full-automatic acceptance steps.

Preferably, the cabinet activation module 40 includes:

the cabinet machine restarting unit is used for restarting the intelligent cabinet and shooting the intelligent cabinet through the shooting device to obtain a restarting shooting result;

the restart analysis unit is used for analyzing the restart shooting result and determining whether the intelligent cabinet is restarted successfully;

the first activation result determining unit is used for determining that the intelligent cabinet is successfully activated when the intelligent cabinet is successfully restarted;

and the second activation result determining unit is used for determining the activation failure of the intelligent cabinet when determining that the intelligent cabinet fails to restart.

For specific limitations of the intelligent cabinet remote acceptance activation device, reference may be made to the above limitations on the intelligent cabinet remote acceptance activation method, which will not be described herein again. All or part of each module in the intelligent cabinet remote acceptance activation device can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 4. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing data used by the intelligent cabinet remote acceptance activation method in the embodiment. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method for activating remote acceptance of an intelligent cabinet.

In one embodiment, a computer device is provided, which includes a memory, a processor, and a computer program stored on the memory and executable on the processor, and when the processor executes the computer program, the intelligent cabinet remote acceptance activation method in the above embodiments is implemented.

In one embodiment, a computer-readable storage medium is provided, on which a computer program is stored, which computer program, when being executed by a processor, realizes the intelligent cabinet remote acceptance activation method of the above embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), rambus (Rambus) direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of the functional units and modules is illustrated, and in practical applications, the above-mentioned function distribution may be performed by different functional units and modules according to needs, that is, the internal structure of the apparatus is divided into different functional units or modules to perform all or part of the above-mentioned functions.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (11)

1. A remote acceptance activation method for an intelligent cabinet is characterized by comprising the following steps:

receiving an instruction for performing remote acceptance activation on the intelligent cabinet; the instruction comprises cabinet machine hardware information corresponding to the intelligent cabinet;

determining a cabinet machine acceptance mode of the intelligent cabinet according to the cabinet machine hardware information;

determining cabinet machine acceptance operation corresponding to the intelligent cabinet according to the cabinet machine acceptance mode, and executing the cabinet machine acceptance operation to obtain a remote acceptance result;

and when the remote acceptance result represents that the intelligent cabinet is successfully accepted, activating the intelligent cabinet, and after the intelligent cabinet is successfully activated, determining that the intelligent cabinet is successfully remotely accepted and activated.

2. The intelligent cabinet remote acceptance activation method according to claim 1, wherein the determining of the cabinet acceptance pattern of the intelligent cabinet according to the cabinet hardware information includes:

acquiring a preset cabinet information table; the preset cabinet information table comprises at least one old cabinet information and at least one new cabinet information;

determining whether the intelligent cabinet comprises a main cabinet and an auxiliary cabinet;

when the intelligent cabinet only comprises the main cabinet, matching the cabinet hardware information with all the old cabinet information and all the new cabinet information;

when the cabinet hardware information is matched with any one of the old cabinet information, determining that the cabinet acceptance mode of the main cabinet is a full-automatic acceptance mode;

and when the cabinet machine hardware information is matched with any one of the novel cabinet machine information or is not matched with all the old cabinet machine information, determining that the cabinet machine acceptance mode of the main cabinet is a semi-automatic acceptance mode.

3. The intelligent cabinet remote acceptance activation method of claim 2, wherein after determining whether the intelligent cabinet comprises a primary cabinet and a secondary cabinet, further comprising:

when the intelligent cabinet comprises the main cabinet and at least one auxiliary cabinet, determining main cabinet hardware information corresponding to the main cabinet and auxiliary cabinet hardware information corresponding to the auxiliary cabinet from the cabinet-machine hardware information;

matching the hardware information of the main cabinet with all the old cabinet information and all the novel cabinet information, and matching the hardware information of the auxiliary cabinet with all the old cabinet information and all the novel cabinet information to obtain an information matching result;

and determining a cabinet machine acceptance mode corresponding to the main cabinet and a cabinet machine acceptance mode corresponding to each auxiliary cabinet according to the information matching result.

4. The intelligent cabinet remote acceptance activation method according to claim 1, wherein the cabinet acceptance mode comprises a semi-automatic acceptance mode; the cabinet machine acceptance inspection operation corresponding to the intelligent cabinet is determined according to the cabinet machine acceptance inspection mode, and the cabinet machine acceptance inspection operation is executed to obtain a remote acceptance result, and the method comprises the following steps:

when the cabinet machine acceptance mode is the semi-automatic acceptance mode, determining that the cabinet machine acceptance operation corresponding to the intelligent cabinet is the semi-automatic acceptance operation; the semi-automatic acceptance operation comprises at least one semi-automatic acceptance step;

and executing the semi-automatic acceptance steps one by one to obtain the remote acceptance results.

5. The intelligent cabinet remote acceptance activation method according to claim 4, wherein a camera is arranged on the intelligent cabinet; the semi-automatic acceptance step is executed one by one to obtain remote acceptance results, and the method comprises the following steps:

inserting all the semi-automatic acceptance steps into an acceptance sequence according to a preset acceptance sequence, and taking the first ordered semi-automatic acceptance step from the acceptance sequence as a first acceptance step;

executing the first acceptance step, and shooting the intelligent cabinet through the shooting device to obtain a first shooting result corresponding to the first acceptance step;

remotely checking and accepting the intelligent cabinet according to the first shooting result to obtain a first checking and accepting result corresponding to the first checking and accepting step;

when the first acceptance result represents that the acceptance is successful, taking out a second sorted semi-automatic acceptance step from the sequence to be accepted as a second acceptance step;

and continuously determining a second acceptance result corresponding to the second acceptance step until all the semi-automatic acceptance steps in the sequence to be accepted are selected, and obtaining the remote acceptance result.

6. The intelligent cabinet remote acceptance activation method according to claim 1, wherein the cabinet machine acceptance mode comprises a fully automatic acceptance mode; the cabinet machine acceptance inspection operation corresponding to the intelligent cabinet is determined according to the cabinet machine acceptance inspection mode, and the cabinet machine acceptance inspection operation is executed to obtain a remote acceptance result, and the method comprises the following steps:

when the cabinet machine acceptance mode is the full-automatic acceptance mode, determining that the track acceptance operation corresponding to the intelligent cabinet is the full-automatic acceptance operation; the full-automatic acceptance operation comprises at least one full-automatic acceptance step;

and executing all the full-automatic acceptance steps in sequence to obtain the remote acceptance result.

7. The intelligent cabinet remote acceptance activation method according to claim 6, wherein a camera is arranged on the intelligent cabinet; the step of executing all the full-automatic acceptance steps in sequence to obtain the remote acceptance result comprises the following steps:

sequentially executing all the full-automatic acceptance steps, and shooting the intelligent cabinet through the shooting device in the process of executing the full-automatic acceptance steps to obtain full-automatic shooting results corresponding to all the full-automatic acceptance steps;

performing remote acceptance on the intelligent cabinet according to the full-automatic shooting result corresponding to each full-automatic acceptance step to obtain a full-automatic acceptance result corresponding to the full-automatic acceptance step;

and determining the remote acceptance result according to the full-automatic acceptance results corresponding to all the full-automatic acceptance steps.

8. The intelligent cabinet remote acceptance activation method according to claim 1, wherein a camera is arranged on the intelligent cabinet; the intelligent cabinet is activated and processed, and the method comprises the following steps:

restarting the intelligent cabinet, and shooting the intelligent cabinet through the shooting device to obtain a restarting shooting result;

analyzing the restarting shooting result to determine whether the intelligent cabinet is restarted successfully;

when the intelligent cabinet is determined to be restarted successfully, determining that the intelligent cabinet is activated successfully;

and when the intelligent cabinet is determined to be failed to restart, determining that the intelligent cabinet fails to be activated.

9. The utility model provides an intelligent cabinet remote acceptance activation device which characterized in that includes:

the instruction receiving module is used for receiving an instruction for remotely checking and activating the intelligent cabinet; the instruction comprises cabinet machine hardware information corresponding to the intelligent cabinet;

the acceptance mode determining module is used for determining a cabinet machine acceptance mode of the intelligent cabinet according to the cabinet machine hardware information;

the cabinet machine acceptance module is used for determining cabinet machine acceptance operation corresponding to the intelligent cabinet according to the cabinet machine acceptance mode and executing the cabinet machine acceptance operation to obtain a remote acceptance result;

and the cabinet machine activation module is used for activating the intelligent cabinet when the remote acceptance result represents that the intelligent cabinet is successfully accepted, and determining that the intelligent cabinet is successfully remotely accepted and activated after the intelligent cabinet is successfully activated.

10. A computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor when executing the computer program implements the smart cabinet remote acceptance activation method according to any one of claims 1 to 8.

11. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, carries out a method for activating a remote acceptance of a smart cabinet according to any one of claims 1 to 8.

Images