CN112822740A - Hotspot emission control method and device - Google Patents

Abstract

The invention relates to a hotspot emission control method and device, which are characterized in that whether a first network is normal or not is detected, whether an intelligent recovery machine is connected with a second wireless network or not is judged when the first network is connected normally, and the intelligent recovery machine is instructed to emit hotspots based on the first network when the second wireless network is not connected; when the second wireless network is connected, the intelligent recovery machine connected with the second wireless network is controlled to be connected with the first network, the intelligent recovery machine is indicated to transmit the hot spot based on the first network, and when the first network is connected abnormally, the intelligent recovery machine is controlled to establish a virtual network under the condition that the connected second wireless network is normal, and the intelligent recovery machine is indicated to transmit the hot spot based on the virtual network. Through the first network and the second wireless network, when the intelligent recovery machine is abnormal due to objective factors such as surrounding environment or position, hotspot emission can be switched in time, normal recovery detection is guaranteed, and therefore the detection rate is improved, and the limitation of the setting area of the intelligent recovery machine is reduced.

Description

Hotspot emission control method and device

Technical Field

The invention relates to the technical field of electronic products, in particular to a hotspot emission control method and device.

Background

With the development of electronic product technology, various intelligent devices such as smart phones, notebook computers, tablet computers, and the like are developed. When the user uses the intelligent device, the main means of man-machine interaction with the intelligent device is realized through the screen of the intelligent device. Therefore, the quality of the screen of the intelligent device has an important influence on the use experience of the user. At present, along with the rapid development of economy and technology, the popularization and the updating speed of intelligent equipment are also faster and faster. Taking a smart phone as an example, the coming of the 5G era accelerates the generation change of the smart phone. In the iterative process of the intelligent equipment, effective recovery is one of effective utilization means of the residual value of the intelligent equipment, and the chemical pollution to the environment and the waste can be reduced.

In the recovery process of the intelligent device, the appearance, performance and the like of the device need to be comprehensively detected and evaluated so as to guide the recovery price. With the development of technology, various intelligent recycling machines for detecting intelligent devices to be recycled come into existence. Different from the traditional manual old equipment recycling, the intelligent recycling machine has the advantages of being accurate, objective and timely. In order to make the detection more accurate and high-efficient, treat that recovery plant need connect the intelligence and retrieve the hot spot that the machine launches and detect, be the intelligence and retrieve the in-process, an important detection step. Through connecting the hot spot of machine transmission, cooperation connection data line detection technique, image recognition and technologies such as QR code discernment finally realize the global detection to smart machine.

Therefore, one of the cores of the intelligent recycling machine for performing recycling detection is to realize hot spot emission, and the emitted hot spot is ensured to support subsequent detection of the machine, so that normal emission and normal networking of the hot spot are ensured. The current intelligent recycling machine adopts a mode of installing an internet of things card or connecting a network cable, so that the purpose that the machine can be networked and finally emits hot spots is achieved. However, in an actual scenario, the network is connected through the internet of things card, and the machine network connected through the physical distribution network card is unstable or cannot be connected due to the influence of the surrounding environment or the reason of the physical distribution network card. The connecting net line is influenced by the shape of the machine, so that the machine cannot be reasonably placed at a place where the net line can be connected.

In summary, it can be seen that the conventional intelligent recycling machine still has the above obstacles in the process of ensuring the normal operation of the hot spot.

Disclosure of Invention

Therefore, it is necessary to provide a method and an apparatus for controlling hot spot emission, aiming at the existing obstacles of the conventional intelligent recycling machine in the process of ensuring the normal operation of the hot spot.

A hotspot emission control method comprises the following steps:

detecting whether a first network to be switched is normal;

when the first network is connected normally, judging whether the intelligent recovery machine is connected with a second wireless network or not, and when the intelligent recovery machine is not connected with the second wireless network, indicating the intelligent recovery machine to emit a hotspot based on the first network; when the second wireless network is connected, controlling the intelligent recycling machine connected with the second wireless network to be connected with the first network, and indicating the intelligent recycling machine to emit a hotspot based on the first network;

when the first network connection is abnormal, under the condition that the connected second wireless network is normal, the intelligent recovery machine is controlled to establish a virtual network, and the intelligent recovery machine is instructed to emit hot spots based on the virtual network.

According to the hotspot emission control method, whether the first network to be switched is normal or not is detected, when the first network is connected normally, whether the intelligent recovery machine is connected with the second wireless network or not is judged, and when the second wireless network is not connected, the intelligent recovery machine is instructed to emit hotspots based on the first network; when the second wireless network is connected, the intelligent recovery machine connected with the second wireless network is controlled to be connected with the first network, the intelligent recovery machine is indicated to transmit the hot spot based on the first network, and when the first network is connected abnormally, the intelligent recovery machine is controlled to establish a virtual network under the condition that the connected second wireless network is normal, and the intelligent recovery machine is indicated to transmit the hot spot based on the virtual network. Based on the method, the first network and the second wireless network are switched to carry out hotspot emission, so that the hotspot emission can be switched in time when the intelligent recovery machine is abnormal due to objective factors such as the surrounding environment or the position, the normal operation of recovery detection is ensured, the detection rate is improved, and the limit of the setting area of the intelligent recovery machine is reduced.

In one embodiment, the process of detecting whether the first network to be switched is normal includes the steps of:

and when the hotspot emission requirement is acquired, detecting whether the first network to be switched is normal.

In one embodiment, after the process of instructing the intelligent recycling machine to transmit the hotspot over the first network, the method further comprises the steps of:

when the first network is abnormal, the intelligent recovery machine connected with the first network is controlled to be connected with the second wireless network, and the intelligent recovery machine is instructed to establish a virtual network and emit a hot spot based on the virtual network.

In one embodiment, after the process of instructing the intelligent recycling machine to transmit the hot spot based on the virtual network, the method further includes the steps of:

detecting a first network;

when the first network is normal, the intelligent recycling machine is controlled to be connected with the first network and the hot spot is emitted based on the first network.

In one embodiment, the virtual network establishing process includes the steps of:

acquiring a pre-stored virtual network program under the condition of connecting a second wireless network;

and establishing a virtual network according to the virtual network program.

In one embodiment, the method further comprises the following steps:

after controlling an intelligent recovery machine to emit a hotspot, detecting whether an intelligent device to be recovered is accessed to the hotspot;

and when the intelligent device to be recovered is accessed to the hotspot, sending an instruction to the intelligent device to be recovered to instruct the intelligent device to be recovered to open a specified webpage corresponding to the instruction.

In one embodiment, the first network comprises a 4G network and a wired network, and the second network comprises a WIFI network.

A hotspot emission control device, comprising:

the network detection module is used for detecting whether the first network to be switched is normal or not;

the first hot spot control module is used for judging whether the intelligent recycling machine is connected with a second wireless network or not when the first network is connected normally, and indicating the intelligent recycling machine to emit a hot spot based on the first network when the intelligent recycling machine is not connected with the second wireless network; when the second wireless network is connected, controlling the intelligent recycling machine connected with the second wireless network to be connected with the first network, and indicating the intelligent recycling machine to emit a hotspot based on the first network;

and the second hot spot control module is used for controlling the intelligent recycling machine to establish a virtual network and indicating the intelligent recycling machine to emit hot spots based on the virtual network under the condition that the connected second wireless network is normal when the first network is connected abnormally.

The hot spot emission control device detects whether the first network to be switched is normal, judges whether the intelligent recovery machine is connected with the second wireless network when the first network is connected normally, and instructs the intelligent recovery machine to emit the hot spot based on the first network when the intelligent recovery machine is not connected with the second wireless network; when the second wireless network is connected, the intelligent recovery machine connected with the second wireless network is controlled to be connected with the first network, the intelligent recovery machine is indicated to transmit the hot spot based on the first network, and when the first network is connected abnormally, the intelligent recovery machine is controlled to establish a virtual network under the condition that the connected second wireless network is normal, and the intelligent recovery machine is indicated to transmit the hot spot based on the virtual network. Based on the method, the first network and the second wireless network are switched to carry out hotspot emission, so that the hotspot emission can be switched in time when the intelligent recovery machine is abnormal due to objective factors such as the surrounding environment or the position, the normal operation of recovery detection is ensured, the detection rate is improved, and the limit of the setting area of the intelligent recovery machine is reduced.

A computer storage medium having stored thereon computer instructions which, when executed by a processor, implement the hotspot emission control method of any of the above embodiments.

The computer storage medium detects whether a first network to be switched is normal or not, judges whether the intelligent recovery machine is connected with a second wireless network or not when the first network is connected normally, and indicates the intelligent recovery machine to emit a hot spot based on the first network when the intelligent recovery machine is not connected with the second wireless network; when the second wireless network is connected, the intelligent recovery machine connected with the second wireless network is controlled to be connected with the first network, the intelligent recovery machine is indicated to transmit the hot spot based on the first network, and when the first network is connected abnormally, the intelligent recovery machine is controlled to establish a virtual network under the condition that the connected second wireless network is normal, and the intelligent recovery machine is indicated to transmit the hot spot based on the virtual network. Based on the method, the first network and the second wireless network are switched to carry out hotspot emission, so that the hotspot emission can be switched in time when the intelligent recovery machine is abnormal due to objective factors such as the surrounding environment or the position, the normal operation of recovery detection is ensured, the detection rate is improved, and the limit of the setting area of the intelligent recovery machine is reduced.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the hotspot emission control method of any one of the above embodiments when executing the program.

The computer equipment judges whether the intelligent recovery machine is connected with the second wireless network or not by detecting whether the first network to be switched is normal or not when the first network is connected normally and when the first network is connected normally, and instructs the intelligent recovery machine to emit a hot spot based on the first network when the intelligent recovery machine is not connected with the second wireless network; when the second wireless network is connected, the intelligent recovery machine connected with the second wireless network is controlled to be connected with the first network, the intelligent recovery machine is indicated to transmit the hot spot based on the first network, and when the first network is connected abnormally, the intelligent recovery machine is controlled to establish a virtual network under the condition that the connected second wireless network is normal, and the intelligent recovery machine is indicated to transmit the hot spot based on the virtual network. Based on the method, the first network and the second wireless network are switched to carry out hotspot emission, so that the hotspot emission can be switched in time when the intelligent recovery machine is abnormal due to objective factors such as the surrounding environment or the position, the normal operation of recovery detection is ensured, the detection rate is improved, and the limit of the setting area of the intelligent recovery machine is reduced.

Drawings

FIG. 1 is a flowchart of a hotspot emission control method according to one embodiment;

fig. 2 is a flowchart of a hotspot emission control method of another embodiment;

FIG. 3 is a flowchart of a hotspot emission control method according to yet another embodiment;

fig. 4 is a flowchart of a hotspot emission control method according to yet another embodiment;

fig. 5 is a block diagram of a hotspot emission control device according to an embodiment.

Detailed Description

For better understanding of the objects, technical solutions and effects of the present invention, the present invention will be further explained with reference to the accompanying drawings and examples. Meanwhile, the following described examples are only for explaining the present invention, and are not intended to limit the present invention.

The embodiment of the invention provides a hotspot emission control method.

Fig. 1 is a flowchart of a hotspot emission control method according to an embodiment, and as shown in fig. 1, the hotspot emission control method according to an embodiment includes steps S100 to S102:

s100, detecting whether a first network to be switched is normal;

the first network may be a wireless wide area network, a wireless local area network, a wireless metropolitan area network, a wireless personal area network, or a wired network, and the second wireless network may be a wireless network. The signal coverage range of the first network is larger than that of the second wireless network. As a preferred embodiment, the first network includes a 4G network and a wired network, and the second wireless network includes a WIFI network.

And detecting whether the first network to be switched is normal or not, wherein the detection includes monitoring whether the signal of the first network is normal or not, whether the connection is normal or not, whether the signal strength meets the requirement or not and the like.

In one embodiment, fig. 2 is a flowchart of a hotspot emission control method according to another embodiment, as shown in fig. 2, a process of detecting whether a first network to be switched is normal in step S100 includes step S200:

s200, when the hotspot emission requirement is acquired, whether the first network to be switched is normal is detected.

Before detecting the first network, whether a hotspot transmitting requirement exists is confirmed. And when the hotspot emission requirement is acquired, detecting the first network. In one embodiment, the hotspot transmitting requirement is a signal for establishing connection between the intelligent device to be recovered and the intelligent recovery machine. The intelligent recovery machine is connected with the intelligent equipment to be recovered, and relevant recovery detection is carried out on the intelligent equipment to be recovered. As a preferred embodiment, after the to-be-recovered intelligent device establishes USB connection with the intelligent recovery machine and completes connection data line detection, the intelligent recovery machine or the to-be-recovered intelligent device generates a hot spot emission requirement, which is obtained by the execution main body in step S200.

S101, when the first network is connected normally, judging whether the intelligent recycling machine is connected with a second wireless network or not, and when the intelligent recycling machine is not connected with the second wireless network, indicating the intelligent recycling machine to emit a hot spot based on the first network; when the second wireless network is connected, controlling the intelligent recycling machine connected with the second wireless network to be connected with the first network, and indicating the intelligent recycling machine to emit a hotspot based on the first network;

wherein, because the signal coverage of the second wireless network is smaller, generally a wireless personal area network, the intelligent recycling machine can be configured to be connected with the second wireless network in the use of the intelligent recycling machine. The second wireless network is however susceptible to objective factors. Therefore, when the first network is normally connected, the second wireless network connected with the intelligent recycling machine is switched to enable the intelligent recycling machine to be connected with the first network. Meanwhile, the intelligent recycling machine is instructed to transmit hot spots based on the first network, and hot spot connection is provided for the intelligent device to be recycled. Based on this, through connecting stable second wireless network, prevent that the recovery that the influence of proruption objective factor to second wireless network leads to detects unusually, guarantee to retrieve the hot spot connection stability that the in-process provided for treating to retrieve the smart machine.

S102, when the first network is abnormal in connection and the connected second wireless network is normal, the intelligent recycling machine is controlled to establish a virtual network, and the intelligent recycling machine is instructed to emit hot spots based on the virtual network.

When the first network connection is abnormal, the intelligent recycling machine keeps connection with the second wireless network, meanwhile, the intelligent recycling machine is controlled to establish a virtual network, and the intelligent device to be recycled is connected through a virtual network emission hotspot.

In one embodiment, fig. 3 is a flowchart of a hotspot emission control method according to yet another embodiment, as shown in fig. 3, after the step S101 of instructing the intelligent recycling machine to emit the hotspot based on the first network, the method further includes the step S300 of:

s300, when the first network is abnormal, controlling the intelligent recycling machine connected with the first network to be connected with the second wireless network, and instructing the intelligent recycling machine to establish a virtual network and transmitting a hot spot based on the virtual network.

The method comprises the steps of detecting a first network in real time in the process that the intelligent recovery machine emits hot spots based on the first network, switching a connection network of the intelligent recovery machine connected with the first network when the first network is changed from normal to abnormal, controlling the connection network to be connected with a second wireless network, indicating the intelligent recovery machine to suggest a virtual network and emitting the hot spots based on the virtual network, and ensuring the stability of the network provided by the intelligent recovery machine for intelligent equipment to be recovered.

In one embodiment, as shown in fig. 3, after the process of instructing the smart recycling machine virtual network to transmit the hot spot in step S102 or step S300, step S400 and step S401 are further included:

s400, detecting a first network;

after step S102 or step S300, it is detected in real time that the first network is recovered from the abnormality.

S401, when the first network is normal, controlling the intelligent recycling machine to be connected with the first network and transmitting the hot spot based on the first network.

And after the first network is recovered to be normal, controlling the intelligent recovery machine to be connected with the first network and transmitting the hot spot based on the first network, and replacing the hot spot based on the virtual network with the hot spot transmitted by the first network.

In one embodiment, the virtual network establishing process includes the steps of:

acquiring a pre-stored virtual network program under the condition of connecting a second wireless network;

and establishing a virtual network according to the virtual network program.

By acquiring a pre-stored virtual network program, a virtual network is established based on the virtual network program, so that the efficiency of establishing the virtual network is ensured.

In one embodiment, fig. 4 is a flowchart of a hotspot emission control method according to yet another embodiment, and as shown in fig. 4, the hotspot emission control method according to yet another embodiment further includes steps S500 and S501:

s500, after controlling the intelligent recycling machine to emit the hot spot, detecting whether the intelligent device to be recycled is accessed to the hot spot;

s501, when the intelligent device to be recovered is accessed to the hotspot, sending an instruction to the intelligent device to be recovered to instruct the intelligent device to be recovered to open a specified webpage corresponding to the instruction.

After the intelligent device to be recovered is determined to be accessed to the hot spot emitted by the intelligent recovery machine, the instruction is used for controlling the intelligent device to be recovered to open the appointed webpage corresponding to the instruction so as to cooperate with recovery detection and improve the efficiency of the recovery detection.

In the hotspot emission control method of any embodiment, by detecting whether the first network to be switched is normal, when the first network is connected normally, whether the intelligent recovery machine is connected with the second wireless network is judged, and when the intelligent recovery machine is not connected with the second wireless network, the intelligent recovery machine is instructed to emit hotspots based on the first network; when the second wireless network is connected, the intelligent recovery machine connected with the second wireless network is controlled to be connected with the first network, the intelligent recovery machine is indicated to transmit the hot spot based on the first network, and when the first network is connected abnormally, the intelligent recovery machine is controlled to establish a virtual network under the condition that the connected second wireless network is normal, and the intelligent recovery machine is indicated to transmit the hot spot based on the virtual network. Based on the method, the first network and the second wireless network are switched to carry out hotspot emission, so that the hotspot emission can be switched in time when the intelligent recovery machine is abnormal due to objective factors such as the surrounding environment or the position, the normal operation of recovery detection is ensured, the detection rate is improved, and the limit of the setting area of the intelligent recovery machine is reduced.

The embodiment of the invention also provides a hot spot emission control device.

Fig. 5 is a block diagram of a hotspot emission control device according to an embodiment, and as shown in fig. 5, the hotspot emission control device according to an embodiment includes a module 100, a module 101, and a module 102:

a network detection module 100, configured to detect whether a first network to be switched is normal;

the first hot spot control module 101 is used for judging whether the intelligent recycling machine is connected with a second wireless network when the first network is connected normally, and indicating the intelligent recycling machine to emit a hot spot based on the first network when the intelligent recycling machine is not connected with the second wireless network; when the second wireless network is connected, controlling the intelligent recycling machine connected with the second wireless network to be connected with the first network, and indicating the intelligent recycling machine to emit a hotspot based on the first network;

the second hot spot control module 102 is configured to, when the first network connection is abnormal and the connected second wireless network is normal, control the intelligent recycling machine to establish a virtual network, and instruct the intelligent recycling machine to emit a hot spot based on the virtual network.

The hot spot emission control device detects whether the first network to be switched is normal, judges whether the intelligent recovery machine is connected with the second wireless network when the first network is connected normally, and instructs the intelligent recovery machine to emit the hot spot based on the first network when the intelligent recovery machine is not connected with the second wireless network; when the second wireless network is connected, the intelligent recovery machine connected with the second wireless network is controlled to be connected with the first network, the intelligent recovery machine is indicated to transmit the hot spot based on the first network, and when the first network is connected abnormally, the intelligent recovery machine is controlled to establish a virtual network under the condition that the connected second wireless network is normal, and the intelligent recovery machine is indicated to transmit the hot spot based on the virtual network. Based on the method, the first network and the second wireless network are switched to carry out hotspot emission, so that the hotspot emission can be switched in time when the intelligent recovery machine is abnormal due to objective factors such as the surrounding environment or the position, the normal operation of recovery detection is ensured, the detection rate is improved, and the limit of the setting area of the intelligent recovery machine is reduced.

The embodiment of the invention also provides a computer storage medium, on which computer instructions are stored, and the instructions are executed by a processor to implement the hotspot emission control method of any one of the above embodiments.

Those skilled in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: various media that can store program codes, such as a removable Memory device, a Random Access Memory (RAM), a Read-Only Memory (ROM), a magnetic disk, and an optical disk.

Alternatively, the integrated unit of the present invention may be stored in a computer-readable storage medium if it is implemented in the form of a software functional module and sold or used as a separate product. Based on such understanding, the technical solutions of the embodiments of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a terminal, or a network device) to execute all or part of the methods of the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, a RAM, a ROM, a magnetic or optical disk, or various other media that can store program code.

The computer storage medium detects whether a first network to be switched is normal or not, judges whether the intelligent recovery machine is connected with a second wireless network or not when the first network is connected normally, and indicates the intelligent recovery machine to emit a hot spot based on the first network when the intelligent recovery machine is not connected with the second wireless network; when the second wireless network is connected, the intelligent recovery machine connected with the second wireless network is controlled to be connected with the first network, the intelligent recovery machine is indicated to transmit the hot spot based on the first network, and when the first network is connected abnormally, the intelligent recovery machine is controlled to establish a virtual network under the condition that the connected second wireless network is normal, and the intelligent recovery machine is indicated to transmit the hot spot based on the virtual network. Based on the method, the first network and the second wireless network are switched to carry out hotspot emission, so that the hotspot emission can be switched in time when the intelligent recovery machine is abnormal due to objective factors such as the surrounding environment or the position, the normal operation of recovery detection is ensured, the detection rate is improved, and the limit of the setting area of the intelligent recovery machine is reduced.

Corresponding to the computer storage medium, in one embodiment, there is also provided a computer device including a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor executes the computer program to implement any one of the hot spot emission control methods in the embodiments.

The computer equipment judges whether the intelligent recovery machine is connected with a second wireless network or not by detecting whether a first network to be switched is normal or not when the first network is connected normally, and indicates the intelligent recovery machine to emit a hotspot based on the first network when the intelligent recovery machine is not connected with the second wireless network; when the second wireless network is connected, the intelligent recovery machine connected with the second wireless network is controlled to be connected with the first network, the intelligent recovery machine is indicated to transmit the hot spot based on the first network, and when the first network is connected abnormally, the intelligent recovery machine is controlled to establish a virtual network under the condition that the connected second wireless network is normal, and the intelligent recovery machine is indicated to transmit the hot spot based on the virtual network. Based on the method, the first network and the second wireless network are switched to carry out hotspot emission, so that the hotspot emission can be switched in time when the intelligent recovery machine is abnormal due to objective factors such as the surrounding environment or the position, the normal operation of recovery detection is ensured, the detection rate is improved, and the limit of the setting area of the intelligent recovery machine is reduced.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A hotspot emission control method, comprising the steps of:

detecting whether a first network to be switched is normal;

when the first network is connected normally, judging whether an intelligent recycling machine is connected with a second wireless network or not, and when the intelligent recycling machine is not connected with the second wireless network, indicating the intelligent recycling machine to emit a hotspot based on the first network; when the second wireless network is connected, controlling an intelligent recycling machine connected with the second wireless network to be connected with the first network, and instructing the intelligent recycling machine to transmit a hotspot based on the first network;

and when the first network is abnormal in connection, under the condition that the connected second wireless network is normal, controlling the intelligent recycling machine to establish a virtual network, and indicating the intelligent recycling machine to emit a hot spot based on the virtual network.

2. The hotspot transmission control method according to claim 1, wherein the process of detecting whether the first network to be switched is normal comprises the steps of:

and when the hotspot emission requirement is acquired, detecting whether the first network to be switched is normal.

3. The hotspot transmission control method of claim 1, further comprising, after the process of instructing the intelligent recycling machine to transmit hotspots based on the first network, the steps of:

and when the first network is abnormal, controlling an intelligent recovery machine connected with the first network to be connected with the second wireless network, and indicating the intelligent recovery machine to establish a virtual network and transmit a hot spot based on the virtual network.

4. The hotspot transmission control method according to claim 1 or 3, further comprising, after the process of instructing the smart recycling machine to transmit the hotspot through the virtual network, the steps of:

detecting the first network;

and when the first network is normal, controlling the intelligent recycling machine to be connected with the first network and transmitting a hotspot based on the first network.

5. The hotspot transmission control method according to any one of claims 1 to 4, wherein the establishment process of the virtual network comprises the steps of:

acquiring a pre-stored virtual network program under the condition of connecting the second wireless network;

and establishing the virtual network according to the virtual network program.

6. The hotspot emission control method of any one of claims 1 to 4, further comprising the steps of:

after controlling the intelligent recycling machine to emit the hot spot, detecting whether the intelligent equipment to be recycled is accessed to the hot spot;

and when the intelligent device to be recovered is accessed to the hotspot, sending an instruction to the intelligent device to be recovered to instruct the intelligent device to be recovered to open a specified webpage corresponding to the instruction.

7. The hotspot transmission control method of any one of claims 1 to 4, wherein the first network comprises a 4G network and a wired network, and the second wireless network comprises a WIFI network.

8. A hotspot emission control device, comprising:

the network detection module is used for detecting whether the first network to be switched is normal or not;

the first hot spot control module is used for judging whether the intelligent recycling machine is connected with a second wireless network or not when the first network is connected normally, and indicating the intelligent recycling machine to emit a hot spot based on the first network when the intelligent recycling machine is not connected with the second wireless network; when the second wireless network is connected, controlling an intelligent recycling machine connected with the second wireless network to be connected with the first network, and instructing the intelligent recycling machine to transmit a hotspot based on the first network;

and the second hot spot control module is used for controlling the intelligent recycling machine to establish a virtual network and indicating the intelligent recycling machine to emit hot spots based on the virtual network under the condition that the connected second wireless network is normal when the first network is abnormal in connection.

9. A computer storage medium having computer instructions stored thereon, wherein the computer instructions, when executed by a processor, implement the hotspot emission control method of any one of claims 1 to 7.

10. 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 hotspot emission control method of any one of claims 1 to 7.

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