Disclosure of Invention
The invention mainly aims to provide a recovery method based on a lifting type mobile phone loading box and an automatic mobile phone recovery terminal, and aims to solve the technical problem that a mobile phone to be recovered is damaged in the recovery process.
In order to achieve the above object, an embodiment of the present invention provides a recovery method based on a lifting-type mobile phone loading box, where the recovery method based on the lifting-type mobile phone loading box includes:
conveying a first loading bin of a lifting type mobile phone loading box in the mobile phone automatic recovery terminal to a loading inlet;
when detecting that the mobile phone to be recovered exists at the loading inlet, controlling the first loading bin to recover the mobile phone to be recovered;
when the first loading bin is detected to finish the recovery of the mobile phone to be recovered, the first loading bin with the current loading inlet is switched to a second loading bin preset in the lifting type mobile phone loading box.
Optionally, when it is detected that the first loading bin completes the recycling of the mobile phone to be recycled, the step of switching the first loading bin currently loaded at the loading inlet to a second loading bin preset in the lifting mobile phone loading box further includes:
and when the second loading bin is detected to be damaged, setting the next loading bin subsequent to the second loading bin as a new second loading bin, and switching the new second loading bin to the loading inlet.
Optionally, the step of transferring the first loading bin of the lifting-type mobile phone loading box in the mobile phone automatic recovery terminal to the loading inlet further includes:
detecting whether a first loading bin of the lifting type mobile phone loading box is an empty bin;
when the first loading bin of the lifting type mobile phone loading box is detected to be an empty bin, the empty bin is set to be a preset first loading bin.
Optionally, after the step of detecting whether the first loading bin of the lifting type mobile phone loading box is an empty bin, the method further includes:
when detecting that the first loading bin of the lifting type mobile phone loading box is not an empty bin, detecting whether the empty bin exists in other loading bins of the lifting type mobile phone loading box;
when other loading bins of the lifting type mobile phone loading box have empty bins, the empty bins are set as a preset first loading bin.
Optionally, when it is detected that no empty bin exists in the lifting type mobile phone loading box, warning information is sent to a manual background of the mobile phone automatic recovery terminal.
In addition, in order to achieve the above object, the present invention further provides an automatic recycling terminal for a mobile phone, including:
the conveying module is used for conveying a first loading bin of the lifting type mobile phone loading box in the mobile phone automatic recovery terminal to the loading inlet;
the control module is used for controlling the first loading bin to recycle the mobile phone to be recycled when the situation that the mobile phone to be recycled exists at the loading inlet is detected;
and the first switching module is used for switching the first loading bin with the current loading inlet into a second loading bin preset in the lifting type mobile phone loading box when the first loading bin is detected to finish the recovery of the mobile phone to be recovered.
Optionally, the mobile phone automatic recycling terminal further includes:
and the second switching module is used for setting the next loading bin after the second loading bin as a new second loading bin and switching the new second loading bin to the loading inlet when the second loading bin is detected to be damaged.
Optionally, the mobile phone automatic recycling terminal further includes:
the second detection module is used for detecting whether empty bins exist in other loading bins of the lifting type mobile phone loading box or not when the first loading bin of the lifting type mobile phone loading box is detected not to be the empty bin;
the setting module is also used for setting the empty bin as a preset first loading bin when the empty bin exists in other loading bins of the lifting type mobile phone loading box.
Optionally, the mobile phone automatic recycling terminal further includes:
and the second detection module is used for detecting other loading bins of the lifting type mobile phone loading box when detecting that the first loading bin of the lifting type mobile phone loading box is not an empty bin until the empty bin is detected, and setting the empty bin as a preset first loading bin.
Optionally, the mobile phone automatic recycling terminal further includes:
and the warning module is used for sending warning information to a manual background of the automatic mobile phone recovery terminal when detecting that no empty bin exists in the lifting type mobile phone loading box.
The first loading bin of the lifting type mobile phone loading box in the mobile phone automatic recovery terminal is conveyed to the loading inlet; when detecting that the mobile phone to be recovered exists at the loading inlet, controlling the first loading bin to recover the mobile phone to be recovered; when the first loading bin is detected to finish the recovery of the mobile phone to be recovered, the first loading bin with the current loading inlet is switched to a second loading bin preset in the lifting type mobile phone loading box. The invention avoids the phenomenon that the appearance or internal components of the mobile phone are damaged due to mutual friction or collision among a plurality of mobile phones which are recycled and loaded in the mobile phone loading box of the automatic mobile phone recycling terminal, and improves the recycling efficiency of the mobile phone.
Detailed Description
It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
An automatic recycling terminal for a cellular phone implementing various embodiments of the present invention will now be described with reference to the accompanying drawings. In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in themselves. Thus, "module" and "component" may be used in a mixture.
The automatic mobile phone recovery terminal is a recovery terminal for providing a self-service recovery service of an old mobile phone for a user, provides corresponding quotation based on a judgment and evaluation standard by detecting the information of mobile phone equipment to be recovered, pays for a user account and recovers the mobile phone to be recovered on the basis that the user agrees to the quotation. In architectural classification, the automatic recycling terminal of the mobile phone generally comprises a front-end interface for performing interactive operation with a user and a background server for executing detection, evaluation, quotation and recycling processes. Structurally, the automatic mobile phone recycling terminal generally comprises an interactive display, a mobile phone recycling bin, a mobile phone detection platform, an evaluation and quotation system, a mobile phone loading box and the like. The mobile phone loading box is used for storing the mobile phones to be recovered, which are confirmed to be recovered by the mobile phone automatic recovery terminal, and the mobile phone detection platform pushes the mobile phones to be recovered into the mobile phone loading box according to the recovery instruction of the mobile phone automatic recovery terminal, so that the recovery process of the mobile phones to be recovered by the mobile phone automatic recovery terminal is realized. The mobile phone loading box can be a fixing device, and the mobile phone to be recovered is conveyed to a specified position on the mobile phone loading box through a conveying device on the automatic mobile phone recovery terminal; the mobile phone loading box can also be a movable lifting type mobile phone loading box device, the lifting type mobile phone loading box is controlled by a transmission device of the mobile phone automatic recovery terminal to receive the mobile phone to be recovered transmitted by the transmission device at a designated position, and the like. Those skilled in the art will appreciate that the operation mechanism and the existence form of the mobile phone loading box of the mobile phone automatic recovery terminal are not limited.
Referring to fig. 1, the present invention provides a recovery method based on a lift-type mobile phone loading box, which is mainly applied to an automatic mobile phone recovery terminal, and in a first embodiment of the recovery method based on the lift-type mobile phone loading box, the recovery method based on the lift-type mobile phone loading box includes:
step S10, conveying the first loading bin of the lifting type mobile phone loading box in the mobile phone automatic recovery terminal to a loading inlet;
as shown in fig. 11 and 12, the lifting type mobile phone loading box of the mobile phone automatic recovery terminal loads a plurality of mobile phones to be recovered through a plurality of mobile phone loading bins 100. Compared with the mobile phone loading box with a fixed position, the biggest difference of the lifting mobile phone loading box 300 is that the lifting mobile phone loading box 300 can convey a preset loading bin to a loading inlet by the lifting shaft 400 under the control of the transmission device 500, and realize the normal damage-free recovery step of the mobile phone to be recovered. The loading inlet refers to a conveying inlet for conveying the mobile phone to be recovered to the lifting type mobile phone loading box by the mobile phone automatic recovery terminal. And the first loading bin refers to a loading bin 100 which is preset in the lifting type mobile phone loading box and is used for loading the mobile phone to be recovered in the current recovery process. The loading bin is an empty bin, namely the loading bin which is not loaded with any mobile phone in the current state.
Step S20, when detecting that the mobile phone to be recovered exists at the loading inlet, controlling the first loading bin to recover the mobile phone to be recovered;
the inductor has been placed at the loading entrance, can real-time supervision load the entrance and whether have and wait to retrieve the cell-phone. The mobile phone to be recovered is conveyed to the loading inlet by the conveying device, and the lifting type mobile phone loading box at the loading inlet is in a ready state. Therefore, when the automatic mobile phone recycling terminal detects that the mobile phone to be recycled exists, the transmission device 500 of the lifting type mobile phone loading box 300 can be controlled, and the functional step of recycling the mobile phone to be recycled is executed in the first time by the first loading bin 100.
It should be noted that the process of recovering the mobile phone to be recovered by the lifting type mobile phone recovering and loading box 300 is not necessarily only that the conveying device slowly pushes the mobile phone to be recovered into the first loading bin; there may also be a preference that the lift-type handset loading case 300 may participate in the recycling process. For example, the lifting type mobile phone loading box 300 can intelligently utilize the detection function of the sensor, detect the transmission speed of the transmission device, the distance between the mobile phone to be recovered on the transmission device and the first loading bin, the horizontal included angle and other factors, and accurately calculate the loading posture of the mobile phone to be recovered at the loading inlet, so as to adjust the loading posture of the first loading bin 100 of the lifting type mobile phone loading box 300, increase the buffer effect of the mobile phone to be recovered in the recovery process, maximally avoid the damage phenomenon caused by friction and collision when the mobile phone to be recovered enters the lifting type mobile phone loading box 300 from the transmission device, and improve the recovery efficiency of the automatic mobile phone recovery terminal.
And step S30, when the first loading bin is detected to finish the recovery of the mobile phone to be recovered, switching the first loading bin with the current loading inlet into a second loading bin preset in the lifting mobile phone loading box.
When the first loading bin 100 of the lifting type mobile phone loading box 300 completes the recovery process of the current mobile phone to be recovered, since the first loading bin 100 already loads the mobile phone to be recovered of the current recovery process, the first loading bin 100 cannot load other mobile phones to be recovered again, and therefore the first loading bin 100 at the loading inlet at the moment needs to be switched, and the position of the loading inlet where the current first loading bin 100 is located is replaced by the other loading bins (i.e., the second loading bin 200) in the lifting type mobile phone loading box.
The second loading bin 200 refers to an idle loading bin, i.e., an empty bin, which is preset to be capable of loading other mobile phones to be recovered in the lifting mobile phone loading box 300 except for the first loading bin 100.
The first loading bin of the lifting type mobile phone loading box in the mobile phone automatic recovery terminal is conveyed to the loading inlet; when detecting that the mobile phone to be recovered exists at the loading inlet, controlling the first loading bin to recover the mobile phone to be recovered; when the first loading bin is detected to finish the recovery of the mobile phone to be recovered, the first loading bin with the current loading inlet is switched to a second loading bin preset in the lifting type mobile phone loading box. The invention avoids the phenomenon that the appearance or internal components of the mobile phone are damaged due to mutual friction or collision among a plurality of mobile phones which are recycled and loaded in the mobile phone loading box of the automatic mobile phone recycling terminal, and improves the recycling efficiency of the mobile phone.
Further, on the basis of the first embodiment of the recycling method based on the lifting type mobile phone loading box of the present invention, a second embodiment of the recycling method based on the lifting type mobile phone loading box is proposed, and with reference to fig. 2, the difference between the second embodiment and the first embodiment is that, when it is detected that the first loading bin completes the recycling of the mobile phone to be recycled, the step of switching the current first loading bin of the loading inlet to a preset second loading bin of the lifting type mobile phone loading box further includes:
in step S40, when it is detected that the second loading bay is damaged, a next loading bay subsequent to the second loading bay is set as a new second loading bay, and the new second loading bay is switched to the loading entrance.
Referring to fig. 11 and 12, since the transmission device 500 utilizes the lifting shaft 400 to switch the loading bins of the lifting mobile phone loading box 300, during the switching of the loading bins of the lifting mobile phone loading box, the transmission device 500 drives the loading bins to move up and down, so that a certain probability of bin body crushing, bursting and the like occurs during the operation of part of the loading bins; or the cabin body of the lifting type mobile phone loading box is damaged. If the loading bin is damaged, and if the loading bin is used for loading the mobile phone to be recovered, the recovery process of the mobile phone to be recovered is extremely unsafe. Therefore, when the second loading bin is detected to be damaged, the current second loading bin is skipped over, and the loading bin arranged in front of the second loading bin is arranged in all the loading bins behind the second loading bin. As a new second loading bin, and the second loading bin is conveyed to the loading inlet through the transmission device to be used as a loading bin for loading the mobile phone to be recovered. The second loading bin here does not refer to a certain loading bin, but to all loading bins currently at the loading entrance.
Further, on the basis of the second embodiment of the recycling method based on the lifting type mobile phone loading box of the present invention, a third embodiment of the recycling method based on the lifting type mobile phone loading box is provided, and referring to fig. 3, the difference between the third embodiment and the second embodiment is that the step of transferring the first loading bin of the lifting type mobile phone loading box in the mobile phone automatic recycling terminal to the loading inlet further includes:
step S50, detecting whether the first loading bin of the lifting type mobile phone loading box is an empty bin;
and step S60, when the first loading bin of the lifting type mobile phone loading box is detected to be an empty bin, setting the empty bin as a preset first loading bin.
The empty bin refers to an idle loading bin which is preset to be capable of loading the mobile phone to be recovered, and the lifting type mobile phone loading bin is not a disposable loading bin, so that a plurality of loading bins are provided, as shown in fig. 11 and 12, the loading bins are generally loaded one by one from top to bottom in the using sequence, and the state of the loading bins influences the normal execution of the recovery process. Since the first loading bin 100 is arranged in the order of use, the first loading bin 100 needs to be subjected to state detection. If the mobile phone is loaded in the loading bin, the loading bin 100 cannot continue to serve the subsequent mobile phone recovery service. Therefore, the first loading bin 100 of the lifting type mobile phone loading box 300 must be detected first to detect whether the loading bin is empty, and if the loading bin is empty, the currently detected loading bin can be used in the mobile phone recycling process. The empty bin is set as a preset first loading bin for the automatic mobile phone recovery terminal to use when recovering the mobile phone to be recovered. If the first loading bin of the lifting type mobile phone loading box is detected not to be an empty bin, a new bin position needs to be found.
Further, on the basis of the third embodiment of the recycling method based on the lifting-type mobile phone loading box of the present invention, a fourth embodiment of the recycling method based on the lifting-type mobile phone loading box is proposed, and with reference to fig. 4, the difference between the fourth embodiment and the third embodiment is that the step of detecting whether the first loading bin of the lifting-type mobile phone loading box is empty further includes:
step S70, when detecting that the first loading bin of the lifting type mobile phone loading box is not an empty bin, detecting whether the empty bin exists in other loading bins of the lifting type mobile phone loading box;
when other loading bins of the lifting type mobile phone loading box have empty bins, the empty bins are set as a preset first loading bin.
According to the switching sequence of the lifting type mobile phone loading box from top to bottom, if the first loading bin of the lifting type mobile phone loading box is detected not to be an empty bin, the loading bin is proved not to be a preparation bin for loading the mobile phone to be recovered. In order to ensure the normal execution of the mobile phone recovery process, namely, the empty bin of the lifting mobile phone loading box is required to be used, and under the condition that the current first loading bin cannot meet the recovery loading task, whether the empty bin exists in all other loading bins of the lifting mobile phone loading box can be detected from top to bottom so as to serve as a spare preparation bin.
If an empty bin exists in other loading bins of the lifting type mobile phone loading box, the mobile phone automatic recovery terminal can set the empty bin as a preset first loading bin to be used as a preparation bin for recovering the mobile phone at the time, and the mobile phone to be recovered is conveyed to a loading inlet when the mobile phone automatic recovery terminal recovers the mobile phone, so that the normal execution of a mobile phone recovering and loading process is facilitated.
Further, on the basis of the fourth embodiment of the recovery method based on the lifting type mobile phone loading box of the present invention, a fifth embodiment of the recovery method based on the lifting type mobile phone loading box is proposed, and referring to fig. 5, the difference between the fifth embodiment and the fourth embodiment is that the recovery method based on the lifting type mobile phone loading box further includes:
and step S80, when detecting that no empty bin exists in the lifting type mobile phone loading box, sending warning information to a manual background of the automatic mobile phone recovery terminal.
If empty bins do not exist in all loading bins of the lifting type mobile phone loading box, that is, the current lifting type mobile phone loading box cannot provide mobile phone recovery service corresponding to the mobile phone automatic recovery terminal, in the whole mobile phone recovery service, the mobile phone recovery service cannot be normally unfolded due to the loss of the link, namely, the mobile phone automatic recovery terminal enters an abnormal working state. In order to solve the problem, when it is detected that no empty bin exists in the lifting type mobile phone loading box, corresponding warning information needs to be sent to a manual background of the terminal through an automatic intelligent warning function of the mobile phone automatic recovery terminal so as to prompt corresponding maintenance operators to remove the problems. For example, a lifting type mobile phone loading box of the mobile phone automatic recovery terminal is replaced; or the mobile phone in the loading bin of the lifting type mobile phone loading box is recovered, so that the loading bin of the lifting type mobile phone loading box returns to an empty bin state again, the automatic mobile phone recovery terminal can normally use the lifting type mobile phone loading box, and the normal work of the automatic mobile phone recovery terminal is further guaranteed.
Referring to fig. 6, the present invention further provides an automatic recycling terminal for a mobile phone, in a first embodiment of the automatic recycling terminal for a mobile phone, the automatic recycling terminal for a mobile phone includes:
the transmission module 10 is used for transmitting a first loading bin of a lifting type mobile phone loading box in the mobile phone automatic recovery terminal to a loading inlet;
as shown in fig. 11 and 12, the lifting type mobile phone loading box of the mobile phone automatic recovery terminal loads a plurality of mobile phones to be recovered through a plurality of mobile phone loading bins 100. Compared with the mobile phone loading box with a fixed position, the biggest difference of the lifting mobile phone loading box 300 is that the lifting mobile phone loading box 300 can convey a preset loading bin to a loading inlet by the lifting shaft 400 under the control of the transmission device 500, and realize the normal damage-free recovery step of the mobile phone to be recovered. The loading inlet refers to a conveying inlet for conveying the mobile phone to be recovered to the lifting type mobile phone loading box by the mobile phone automatic recovery terminal. And the first loading bin refers to a loading bin 100 which is preset in the lifting type mobile phone loading box and is used for loading the mobile phone to be recovered in the current recovery process. The loading bin is an empty bin, namely the loading bin which is not loaded with any mobile phone in the current state.
The control module 20 is used for controlling the first loading bin to recycle the mobile phone to be recycled when detecting that the mobile phone to be recycled exists at the loading inlet;
the inductor has been placed at the loading entrance, can real-time supervision load the entrance and whether have and wait to retrieve the cell-phone. The mobile phone to be recovered is conveyed to the loading inlet by the conveying device, and the lifting type mobile phone loading box at the loading inlet is in a ready state. Therefore, when the mobile phone to be recovered is detected to be present, the control module 20 can control the transmission device 500 of the lifting type mobile phone loading box 300 to perform the functional step of recovering the mobile phone to be recovered in the first time period with the first loading bin 100.
It should be noted that the process of recovering the mobile phone to be recovered by the lifting type mobile phone recovering and loading box 300 is not necessarily only that the conveying device slowly pushes the mobile phone to be recovered into the first loading bin; there may also be a preference that the lift-type handset loading case 300 may participate in the recycling process. For example, the lifting type mobile phone loading box 300 can intelligently utilize the detection function of the sensor, detect the transmission speed of the transmission device, the distance between the mobile phone to be recovered on the transmission device and the first loading bin, the horizontal included angle and other factors, and accurately calculate the loading posture of the mobile phone to be recovered at the loading inlet, so as to adjust the loading posture of the first loading bin 100 of the lifting type mobile phone loading box 300, increase the buffer effect of the mobile phone to be recovered in the recovery process, maximally avoid the damage phenomenon caused by friction and collision when the mobile phone to be recovered enters the lifting type mobile phone loading box 300 from the transmission device, and improve the recovery efficiency of the automatic mobile phone recovery terminal.
The first switching module 30 is configured to switch the first loading bin with the current loading inlet to a second loading bin preset in the lifting type mobile phone loading box when it is detected that the first loading bin completes the recovery of the mobile phone to be recovered.
When the first loading bin 100 of the lifting type mobile phone loading box 300 completes the recovery process of the current mobile phone to be recovered, since the first loading bin 100 already loads the mobile phone to be recovered of the current recovery process, the first loading bin 100 cannot load other mobile phones to be recovered again, and therefore the first loading bin 100 at the loading inlet at the moment needs to be switched, and the position of the loading inlet where the current first loading bin 100 is located is replaced by the other loading bins (i.e., the second loading bin 200) in the lifting type mobile phone loading box.
The second loading bin 200 refers to an idle loading bin, i.e., an empty bin, which is preset to be capable of loading other mobile phones to be recovered in the lifting mobile phone loading box 300 except for the first loading bin 100.
The first loading bin of the lifting type mobile phone loading box in the automatic mobile phone recovery terminal is conveyed to a loading inlet through a conveying module 10; when the control module 20 detects that the mobile phone to be recovered exists at the loading inlet, the first loading bin is controlled to recover the mobile phone to be recovered; when the first switching module 30 detects that the first loading bin finishes the recovery of the mobile phone to be recovered, the first loading bin with the current loading inlet is switched to a second loading bin preset in the lifting type mobile phone loading box. The invention avoids the phenomenon that the appearance or internal components of the mobile phone are damaged due to mutual friction or collision among a plurality of mobile phones which are recycled and loaded in the mobile phone loading box of the automatic mobile phone recycling terminal, and improves the recycling efficiency of the mobile phone.
Further, on the basis of the first embodiment of the automatic mobile phone recycling terminal of the present invention, a second embodiment of the automatic mobile phone recycling terminal is provided, and referring to fig. 7, the difference between the second embodiment and the first embodiment is that the automatic mobile phone recycling terminal further includes:
and a second switching module 40, configured to, when it is detected that the second loading bin is damaged, set a next loading bin subsequent to the second loading bin as a new second loading bin, and switch the new second loading bin to the loading inlet.
Referring to fig. 11 and 12, since the transmission device 500 utilizes the lifting shaft 400 to switch the loading bins of the lifting mobile phone loading box 300, during the switching of the loading bins of the lifting mobile phone loading box 300, the transmission device 500 drives the loading bins to move up and down, so that a certain probability of bin body crushing, bursting and the like occurs during the operation of part of the loading bins; or the cabin body of the lifting type mobile phone loading box is damaged. If the loading bin is damaged, and if the loading bin is used for loading the mobile phone to be recovered, the recovery process of the mobile phone to be recovered is extremely unsafe. Therefore, when the second loading bin is detected to be damaged, the current second loading bin is skipped over, and the loading bin arranged in front of the second loading bin is arranged in all the loading bins behind the second loading bin. As a new second loading bin, and the second loading bin is conveyed to the loading inlet through the transmission device to be used as a loading bin for loading the mobile phone to be recovered. The second loading bin here does not refer to a certain loading bin, but to all loading bins currently at the loading entrance.
Further, on the basis of the second embodiment of the automatic mobile phone recycling terminal of the present invention, a third embodiment of the automatic mobile phone recycling terminal is provided, and referring to fig. 8, a difference between the third embodiment and the second embodiment is that the automatic mobile phone recycling terminal further includes:
the first detection module 50 is used for detecting whether a first loading bin of the lifting type mobile phone loading box is an empty bin;
the setting module 60 is configured to set the empty bin as a preset first loading bin when it is detected that the first loading bin of the lifting type mobile phone loading box is the empty bin.
The empty bin refers to an idle loading bin which is preset to be capable of loading the mobile phone to be recovered, and the lifting type mobile phone loading bin is not a disposable loading bin, so that a plurality of loading bins are provided, as shown in fig. 11 and 12, the loading bins are generally loaded one by one from top to bottom in the using sequence, and the state of the loading bins influences the normal execution of the recovery process. Since the first loading bin 100 is arranged in the order of use, the first loading bin 100 needs to be subjected to state detection. If the mobile phone is loaded in the loading bin, the loading bin 100 cannot continue to serve the subsequent mobile phone recovery service. Therefore, the first loading bin 100 of the lifting type mobile phone loading box 300 must be detected first to detect whether the loading bin is empty, and if the loading bin is empty, the currently detected loading bin can be used in the mobile phone recycling process. The empty bin is set as a preset first loading bin for the automatic mobile phone recovery terminal to use when recovering the mobile phone to be recovered. If the first loading bin of the lifting type mobile phone loading box is detected not to be an empty bin, a new bin position needs to be found.
Further, on the basis of the third embodiment of the automatic mobile phone recycling terminal of the present invention, a fourth embodiment of the automatic mobile phone recycling terminal is proposed, and referring to fig. 9, a difference between the fourth embodiment and the third embodiment is that the automatic mobile phone recycling terminal further includes:
the second detection module 70 is used for detecting whether an empty bin exists in other loading bins of the lifting type mobile phone loading box when detecting that the first loading bin of the lifting type mobile phone loading box is not an empty bin;
the setting module 60 is further configured to set an empty bin as a preset first loading bin when the empty bin exists in other loading bins of the lifting type mobile phone loading box.
According to the switching sequence of the lifting type mobile phone loading box from top to bottom, if the first loading bin of the lifting type mobile phone loading box is detected not to be an empty bin, the loading bin is proved not to be a preparation bin for loading the mobile phone to be recovered. In order to ensure the normal execution of the mobile phone recovery process, namely, the empty bin of the lifting mobile phone loading box is required to be used, and under the condition that the current first loading bin cannot meet the recovery loading task, whether the empty bin exists in all other loading bins of the lifting mobile phone loading box can be detected from top to bottom so as to serve as a spare preparation bin.
If there is an empty bin in other loading bins of the lifting type mobile phone loading box, the setting module 60 may set the empty bin as a preset first loading bin, which is used as a preparation bin for the recovery of the mobile phone at this time, and transmit the mobile phone to be recovered to the loading inlet when the mobile phone automatic recovery terminal recovers the mobile phone, so as to perform the normal mobile phone recovery loading process.
Further, on the basis of the fourth embodiment of the automatic mobile phone recycling terminal of the present invention, a fifth embodiment of the automatic mobile phone recycling terminal is proposed, and referring to fig. 10, a difference between the fifth embodiment and the fourth embodiment is that the automatic mobile phone recycling terminal further includes:
and the warning module 80 is used for sending warning information to a manual background of the automatic mobile phone recovery terminal when detecting that no empty bin exists in the lifting type mobile phone loading box.
If empty bins do not exist in all loading bins of the lifting type mobile phone loading box, that is, the current lifting type mobile phone loading box cannot provide mobile phone recovery service corresponding to the mobile phone automatic recovery terminal, in the whole mobile phone recovery service, the mobile phone recovery service cannot be normally unfolded due to the loss of the link, namely, the mobile phone automatic recovery terminal enters an abnormal working state. In order to solve the problem, when it is detected that no empty bin exists in the lifting type mobile phone loading box, the automatic intelligent warning module 80 of the mobile phone automatic recovery terminal sends corresponding warning information to the manual background of the terminal so as to prompt corresponding maintenance operators to remove the problem. For example, a lifting type mobile phone loading box of the mobile phone automatic recovery terminal is replaced; or the mobile phone in the loading bin of the lifting type mobile phone loading box is recovered, so that the loading bin of the lifting type mobile phone loading box returns to an empty bin state again, the automatic mobile phone recovery terminal can normally use the lifting type mobile phone loading box, and the normal work of the automatic mobile phone recovery terminal is further guaranteed.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.
The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.
Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.
The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.