CN219831909U - Intelligent bone ash registering system - Google Patents

Abstract

The utility model is applicable to the technical field of bone ash deposit, and provides an intelligent bone ash deposit system which comprises a bone ash deposit card, a bone ash deposit management terminal, a bone ash storage cabinet, a first bone ash deposit card reader, a cabinet door controller, at least one first access channel, a first door forbidden door, a second bone ash deposit card reader, a bone ash weighing device and a first door forbidden controller. According to the utility model, through the arrangement of the bone ash registering card, the bone ash registering management terminal, the bone ash storage cabinet, the first bone ash registering card reader, the cabinet door controller, at least one first access passage, the first door forbidden door, the second bone ash registering card reader, the bone ash weighing device and the first door forbidden controller, the bone ash receiving and storing modes can be intelligentized, the bone ash storing efficiency can be improved, and meanwhile, the bone ash can be prevented from being modulated and buried.

Description

Intelligent bone ash registering system

Technical Field

The utility model belongs to the technical field of bone ash deposit, and particularly relates to an intelligent bone ash deposit system.

Background

Along with the improvement of the cremation rate of remains, the storage amount of the ashes in each funeral and interment house is increased, the deposit and worship management of the ashes become a great and heavy task in the funeral and interment house, and particularly, the ash management workload is hundreds of times or more than usual before and after the important commemorative days such as the Qing festival, the chong festival and the like.

The existing bone ash storage system mainly stores bone ash and takes the manual watch as a main part, the bone ash is handed to a funeral staff, the staff stores the bone ash in a bone ash cabinet, and the staff watch the bone ash cabinet.

At present, the ashes are deposited in a way of ashes storage and manual duty, and the ashes storage efficiency is low.

Disclosure of Invention

The embodiment of the utility model provides an intelligent bone ash storage system which can solve the problem of low bone ash storage efficiency.

The embodiment of the utility model provides an intelligent bone ash registering system, which comprises:

a bone ash storage card;

a bone ash deposit management terminal;

the device comprises a bone ash storage cabinet, wherein a cabinet door controller and a first bone ash registering card reader for reading bone ash registering information on a bone ash registering card are arranged on the bone ash storage cabinet, the output end of the first bone ash registering card reader is electrically connected with the input end of the cabinet door controller, a control switch of a door lock of the bone ash storage cabinet is electrically connected with the output end of the cabinet door controller, and the communication end of the cabinet door controller is electrically connected with the communication end of a bone ash registering management terminal;

at least one first access passage, a first access door, a bone ash weighing device, a first access controller and a second bone ash registering card reader for reading bone ash registering information on the bone ash registering card are arranged on the first access passage, the output end of the second bone ash registering card reader and the output end of the bone ash weighing device are electrically connected with the input end of the first access controller, a control switch of the first access door is electrically connected with the output end of the first access controller, and the communication end of the first access controller is electrically connected with the communication end of the bone ash registering management terminal.

Optionally, the intelligent bone ash registering system further comprises at least one second access channel, a second gate inhibition door, a second gate inhibition controller and a third bone ash registering card reader for reading bone ash registering information on the bone ash registering card are arranged on the second access channel, the output end of the third bone ash registering card reader is electrically connected with the input end of the second gate inhibition controller, a control switch of the second gate inhibition door is electrically connected with the output end of the second gate inhibition controller, and the communication end of the second gate inhibition controller is electrically connected with the communication end of the bone ash registering management terminal.

Optionally, a display is further arranged on the first access channel, and an input end of the display is electrically connected with an output end of the first access controller.

Optionally, the intelligent bone ash registering system further comprises a first voice broadcasting device, a second voice broadcasting device and a third voice broadcasting device, wherein the first voice broadcasting device is arranged on the bone ash storage cabinet, the second voice broadcasting device is arranged in the first access passage, the third voice broadcasting device is arranged in the second access passage, the control end of the first voice broadcasting device is electrically connected with the output end of the cabinet door controller, the control end of the second voice broadcasting device is electrically connected with the output end of the first access controller, and the control end of the third voice broadcasting device is electrically connected with the output end of the second access controller.

Optionally, the first access passage is further provided with a bone ash scanner, and an output end of the bone ash scanner is electrically connected with an input end of the first access controller.

Optionally, the intelligent bone ash registering system further comprises an alarm, the alarm is arranged on the bone ash weighing device, and the control end of the alarm is electrically connected with the output end of the first access controller.

Optionally, the bone ash registering card is provided with a two-dimensional code.

Optionally, a two-dimensional code is arranged on the bone ash container stored in the bone ash storage cabinet.

Optionally, the cabinet door controller, the first access controller and the second access controller are all PLC controllers, and the bone ash deposit management terminal is a computer device.

The scheme of the utility model has the following beneficial effects:

in the embodiment of the utility model, a user can hold a bone ash registering card storing bone ash registering information into a first access channel, the bone ash weighing device is used for measuring weight data of bone ash, the bone ash weighing device is used for transmitting the weight data to a bone ash registering management terminal through a first access controller, the bone ash registering information in the bone ash registering card is read through a second bone ash registering card reader, the bone ash registering information is transmitted to the bone ash registering management terminal through the first access controller, the bone ash registering management terminal recognizes that bone ash corresponding to the bone ash registering information is positioned in a bone ash storage cabinet corresponding to the first access channel, and when the weight data of the bone ash is in a preset error range compared with the weight data in historical data, a control signal is transmitted to the first access controller, so that the first access controller opens a first access door, the user can conveniently reach the bone ash storage cabinet through the first access channel, at the moment, the bone ash registering information is read through the first bone ash registering card reader, the bone ash registering information is transmitted to the bone ash registering management terminal through a cabinet door controller, the bone ash registering management terminal recognizes that when the bone ash registering information is stored in the current storage cabinet corresponding to the bone ash registering information, the bone ash registering management terminal is positioned in the bone ash storage cabinet, the bone ash storing controller is not required to be opened, and the bone ash storing efficiency is not required to be controlled by a user to be opened by the door controller, and the bone ash storage cabinet door control.

Other advantageous effects of the present utility model will be described in detail in the detailed description section which follows.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an intelligent bone ash registering system according to an embodiment of the present utility model.

[ reference numerals description ]

1. A bone ash register manager terminal; 21. a cabinet door controller; 22. a first bone ash deposit card reader; 23. a bone ash storage cabinet; 24. a first voice broadcast device; 31. a first access passage; 32. a first access controller; 33. a first gate inhibition; 34. a bone ash weighing device; 35. a bone ash scanner; 36. an alarm; 37. a second bone ash deposit card reader; 38. a second voice broadcast device; 41. a second access passage; 42. a second gate inhibition controller; 43. a second gate inhibition; 44. a third bone ash deposit card reader; 45. and a third voice broadcasting device.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth such as the particular system architecture, techniques, etc., in order to provide a thorough understanding of the embodiments of the present utility model. It will be apparent, however, to one skilled in the art that the present utility model may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present utility model with unnecessary detail.

It should be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It should also be understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

As used in the present description and the appended claims, the term "if" may be interpreted as "when..once" or "in response to a determination" or "in response to detection" depending on the context. Similarly, the phrase "if a determination" or "if a [ described condition or event ] is detected" may be interpreted in the context of meaning "upon determination" or "in response to determination" or "upon detection of a [ described condition or event ]" or "in response to detection of a [ described condition or event ]".

Furthermore, the terms "first," "second," "third," and the like in the description of the present specification and in the appended claims, are used for distinguishing between descriptions and not necessarily for indicating or implying a relative importance.

Reference in the specification to "one embodiment" or "some embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the utility model. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," and the like in the specification are not necessarily all referring to the same embodiment, but mean "one or more but not all embodiments" unless expressly specified otherwise. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.

At present, the bone ash storage system mainly stores bone ash and takes the manual duty as a main part, the bone ash is handed to a funeral staff, the staff stores the bone ash in a bone ash cabinet, and the staff takes the bone ash as a watch. The ashes are deposited in a way of ashes storage and manual duty, and the ashes storage efficiency is low.

In view of the above problems, in practical application, a user may hold a bone ash storage card storing bone ash storage information into a first access channel, measure weight data of bone ash by a bone ash weighing device, the bone ash weighing device transmits the weight data to a bone ash storage management terminal through a first access controller, a second bone ash storage card reader reads bone ash storage information in the bone ash storage card and transmits the bone ash storage information to the bone ash storage management terminal through the first access controller, the bone ash storage management terminal recognizes that bone ash corresponding to the bone ash storage information is located in a bone ash storage cabinet corresponding to the first access channel, and when the weight data of bone ash is in a preset error range compared with weight data in historical data, a control signal is transmitted to the first access controller, so that the first access controller opens a first access door, the user can reach the bone ash storage cabinet through the first access controller, at this time, the bone ash storage card reader reads the storage information and transmits the bone ash storage information to the bone ash storage management terminal through a cabinet door controller, and when the bone ash storage management terminal recognizes that the bone ash corresponding to the bone ash storage cabinet is located in the first access channel, and when the bone ash storage cabinet is not stored in the bone ash storage cabinet is in a preset error range, the bone ash storage cabinet is not required to be opened, and a self-service user can finish the operation of the door.

The intelligent bone ash registering system provided by the utility model is exemplified below with reference to specific embodiments.

As shown in fig. 1, the above-mentioned intelligent ashes depositing system includes an ashes depositing card, an ashes depositing management terminal 1, an ashes depositing cabinet 23, and at least one first access passage 31.

Wherein, the cinerary storage cabinet 23 is provided with a cabinet door controller 21 and a first cinerary register card reader 22 for reading the cinerary register information on the cinerary register card, the output end of the first cinerary register card reader 22 is electrically connected with the input end of the cabinet door controller 21, the control switch of the door lock of the cinerary storage cabinet 23 is electrically connected with the output end of the cabinet door controller 21, and the communication end of the cabinet door controller 21 is electrically connected with the communication end of the cinerary register management terminal 1; the first access passage 31 is provided with a first gate inhibition 33, a bone ash weighing device 34, a first gate inhibition controller 32 and a second bone ash registering card reader 37 for reading bone ash registering information on a bone ash registering card, the output end of the second bone ash registering card reader 37 and the output end of the bone ash weighing device 34 are electrically connected with the input end of the first gate inhibition controller 32, a control switch of the first gate inhibition 33 is electrically connected with the output end of the first gate inhibition controller 32, and the communication end of the first gate inhibition controller 32 is electrically connected with the communication end of the bone ash registering management terminal 1.

The bone ash registering card can store bone ash registering information, weight data and the like of bone ash. As an alternative example, the bone ash register card may be a memory.

The first card reader 22 is used for reading the information of the bone ash deposit in the bone ash deposit card and transmitting the read information to the cabinet door controller 21. As an alternative example, the first bone ash registering card reader 22 may be a card reader.

The cabinet door controller 21 is configured to receive data transmitted by the first bone ash depositing card reader 22, and transmit the received data to the bone ash depositing management terminal 1, and the cabinet door controller 21 is further configured to output a control signal to a control switch of a door lock of the bone ash depositing cabinet 23 according to a signal transmitted by the bone ash depositing management terminal 1, so as to open and close the bone ash depositing cabinet 23.

It should be noted that, the function of the cabinet door controller 21 itself is to receive the data transmitted by the first bone ash registering card reader 22 (e.g. a memory), transmit the received data to the bone ash registering management terminal 1 (e.g. a computer device), and output a control signal to the control switch according to the signal transmitted by the bone ash registering management terminal 1.

The second card reader 37 is used for identifying the bone ash deposit information in the bone ash deposit card and transmitting the read bone ash deposit information to the first access controller 32. As an alternative example, the second bone ash registering card reader 37 may be a card reader.

The ashes weighing device 34 is used to measure the weight data of ashes and transmit the weight data to the first access controller 32. As an alternative example, the asher 34 may be an electronic scale.

The first access controller 32 is configured to receive data transmitted by the second bone ash register card reader 37 and data transmitted by the bone ash weighing device 34, and transmit the received data to the bone ash register management terminal 1, and the first access controller 32 is further configured to output a control signal for controlling the control switch of the first access door 33 according to a signal transmitted by the bone ash register management terminal 1.

It should be noted that, the functions of the first access controller 32 are provided by receiving the data transmitted by the second bone ash registering card reader 37 (e.g. a memory) and the bone ash weighing device 34 (e.g. an electronic scale), transmitting the received data to the bone ash registering management terminal 1 (e.g. a computer device), and outputting a control signal to the control switch according to the signal transmitted by the bone ash registering management terminal 1.

When the intelligent bone ash registering system is used, a user can hold a bone ash registering card storing bone ash registering information into the first access channel 31, weight data of bone ash is measured through the bone ash weighing device 34, the bone ash weighing device 34 can transmit the weight data to the first access control device 32, the first access control device 32 can transmit corresponding weight data to the bone ash registering management terminal 1, the bone ash registering card reader 37 reads bone ash registering information in the bone ash registering card and transmits the bone ash registering information to the bone ash registering management terminal 1 through the second bone ash registering card reader 37, the bone ash registering management terminal 1 recognizes that bone ash corresponding to the bone ash registering information is located in a bone ash storage cabinet 23 corresponding to the first access channel 31, and when the weight data of bone ash is compared with weight data in historical data in a preset error range, a control signal is transmitted to the access control device, so that the access control device opens the first access control device 33, the user can reach the bone ash storage cabinet 23 through the first access channel 31, the user can hold the bone ash registering card storing bone ash registering information to read the bone ash registering information through the first bone ash registering card reader 22, and the bone ash registering information is transmitted to the bone ash registering management terminal 1 through the access control device 21, and when the bone ash registering management terminal 1 recognizes that the bone ash corresponding to the bone ash registering information is located in the bone ash registering cabinet 23, and the weight data is compared with the weight data in a preset error range, and the weight data is in a preset error range, so that the access control signal is opened to the access control device is opened to the first access control door. And when the intelligent bone ash registering system is used, the bone ash registering management terminal 1 stores all received data for information storage and information comparison, so that corresponding control signals are output to the cabinet door controller 21 and the first access controller 32 more accurately.

In some embodiments of the present utility model, as shown in fig. 1, the intelligent bone ash registering system further includes at least one second access channel 41, a second gate inhibition gate 43, a second gate inhibition controller 42 and a third bone ash registering card reader 44 for reading bone ash registering information on the bone ash registering card are disposed on the second access channel 41, an output end of the third bone ash registering card reader 44 is electrically connected with an input end of the second gate inhibition controller 42, a control switch of the second gate inhibition gate 43 is electrically connected with an output end of the second gate inhibition controller 42, and a communication end of the second gate inhibition controller 42 is electrically connected with a communication end of the bone ash registering management terminal 1.

The second access passage 41 is used for providing an access passage for the people who first enter the area of the ash storage cabinet 23, take the ashes before, and cannot be detected by the ash weighing device 34, without carrying the ashes.

The third card reader 44 is used for identifying the bone ash deposit information in the bone ash deposit card and transmitting corresponding bone ash deposit information data to the second access controller 42. The third bone ash registering card reader 44 may be a card reader, for example.

The second gate inhibition controller 42 is configured to receive the bone ash registration information data transmitted by the third bone ash registration card reader 44, and transmit the received bone ash registration information data to the bone ash registration management terminal 1, and the second gate inhibition controller 42 is further configured to output a control signal for controlling the control switch of the second gate inhibition gate 43 according to the control signal transmitted by the bone ash registration management terminal 1.

The bone ash registering management terminal 1 is configured to receive and store data transmitted from the second gate inhibition controller 42, and to provide a control signal for controlling the control switch of the second gate inhibition controller 43 based on the received data.

It should be noted that, the function of the second access controller 42 itself is to receive the data transmitted by the third bone ash registering card reader 44 (e.g. memory), transmit the received data to the bone ash registering management terminal 1 (e.g. computer device), and output a control signal to the control switch according to the signal transmitted by the bone ash registering management terminal 1.

In some embodiments of the present utility model, a display is further disposed on the first access duct 31, and an input end of the display is electrically connected to an output end of the first access controller 32.

The display may be used to receive and display the bone ash registering information, bone ash weight data information, etc., transmitted from the first access controller 32. The display may be, for example, a display screen.

In some embodiments of the present utility model, the intelligent bone ash registering system further includes a first voice broadcasting device 24, a second voice broadcasting device 38 and a third voice broadcasting device 45, where the first voice broadcasting device 24 is disposed on the bone ash storage cabinet 23, the second voice broadcasting device 38 is disposed in the first access duct 31, the third voice broadcasting device 45 is disposed in the second access duct 41, a control end of the first voice broadcasting device 24 is electrically connected with an output end of the cabinet door controller 21, a control end of the second voice broadcasting device 38 is electrically connected with an output end of the first access controller 32, and a control end of the third voice broadcasting device 45 is electrically connected with an output end of the second access controller 42.

The first voice broadcasting device 24 is configured to play corresponding voice information based on a control signal transmitted by the cabinet door controller 21, the second voice broadcasting device 38 is configured to play corresponding voice information based on a control signal of the first door controller 32, and the third voice broadcasting device 45 is configured to play corresponding voice information based on a control signal transmitted by the second door controller 42. Illustratively, the first voice announcer 24, the second voice announcer 38, and the third voice announcer 45 may each be a speaker.

In some embodiments of the present utility model, the intelligent ashes depositing system is used for depositing ashes, and the container for receiving ashes is provided with a two-dimensional code, i.e., the ashes container stored in the ashes storing cabinet 23 is provided with a two-dimensional code.

The two-dimension code set on the container for holding bone ash records bone ash registering information.

In some embodiments of the present utility model, the first access duct 31 is further provided with a bone ash scanner 35, and an output end of the bone ash scanner 35 is electrically connected to an input end of the first access controller 32.

The bone ash scanner 35 is used for scanning two-dimensional codes on the bone ash container, identifying bone ash deposit information, and transmitting the bone ash deposit information to the first access controller 32. Illustratively, the bone ash scanner 35 may be a two-dimensional code scanner.

It should be noted that, the bone ash deposit management terminal 1 stores and generates a control signal for controlling the display to display the bone ash deposit information according to the bone ash deposit information transmitted by the first access controller 32, so as to control the display to display the bone ash deposit information.

In some embodiments of the present utility model, the intelligent bone ash registering system further includes an alarm 36, the alarm 36 is disposed on the bone ash weighing device 34, and a control terminal of the alarm 36 is electrically connected to an output terminal of the first access controller 32.

When the bone ash deposit management terminal 1 recognizes that the weight of bone ash exceeds a preset error range compared with the weight data in the history data, a control signal for controlling the alarm 36 to play the corresponding alarm sound information is transmitted to the first access controller 32, thereby causing the alarm 36 to play the corresponding alarm sound.

The alarm 36 is configured to output an alarm signal based on a control signal transmitted from the first door controller 32. The alarm 36 may be, for example, a buzzer.

The data signal may be transmitted by a wired transmission method or a wireless communication transmission method.

In some embodiments of the present utility model, a two-dimensional code is provided on the bone ash registering card, and the two-dimensional code is recorded with bone ash registering information, so that the bone ash scanner 35 obtains the bone ash registering information by scanning the two-dimensional code, and transmits the bone ash registering information to the first access controller 32.

In some embodiments of the present utility model, the cabinet door controller 21, the first access controller 32, and the second access controller 42 may be PLC controllers, and the bone ash deposit management terminal 1 may be a computer device.

The bone ash registering management terminal 1 is configured to receive and store data transmitted from the cabinet door controller 21, the first access controller 32, and the second access controller 42, and to give control signals for controlling the control switch of the first access door 33, the control switch of the second access door 43, the control switch of the door lock of the bone ash storage cabinet 23, the first voice broadcasting device 24, the second voice broadcasting device 38, the third voice broadcasting device 45, and the alarm 36 based on the received data.

It should be noted that the cabinet door controller 21, the first access controller 32, and the second access controller 42 may be other devices that may be used to receive data, transmit data, generate control signals, and store data, and the bone ash deposit management terminal 1 may be other devices that may be used to remotely receive data, transmit data, generate control signals, and store data. The cabinet door controller 21, the first access controller 32, and the second access controller 42 may be micro-computers, and the bone ash deposit management terminal 1 may be cloud servers.

In a specific application scenario, when a user is in the first access channel 31 and uses the bone ash register card, after receiving the bone ash register information transmitted by the second bone ash register card reader 37 through the first access controller 32, the bone ash register management terminal 1 compares the bone ash register information with a plurality of bone ash register information stored in advance, and if the bone ash corresponding to the bone ash register information is compared and is not stored in the bone ash storage cabinet 23 corresponding to the first access channel 31, a control signal is transmitted to the first access controller 32 to control the first access door 33 to be in a closed state, and a prompt signal is transmitted to the second voice broadcasting 38 through the first access controller 32 to control the second voice broadcasting 38 to report the correct storage position of the bone ash corresponding to the bone ash register information; when the bone ash deposit management terminal 1 compares the bone ash corresponding to the bone ash deposit information and stores the bone ash in the bone ash storage cabinet 23 corresponding to the first access channel 31, and after receiving the weight data transmitted by the bone ash scanner 35, the bone ash deposit management terminal 1 compares the weight data with the pre-stored weight data, if the weight data of the bone ash is compared to be within the preset range, a control signal is transmitted to the first access controller 32 to control the first access door 33 to be in an open state, and a prompt signal is transmitted to the second voice broadcast 38 through the first access controller 32 to control the second voice broadcast 38 to prompt the position of the bone ash storage cabinet 23 corresponding to the bone ash deposit information, and if the weight data of the bone ash deposit management terminal 1 is compared to be out of the preset range, a control signal is transmitted to the first access controller 32 to control the first access door 33 to be in a closed state and control the alarm 36 to send out an alarm.

Similarly, when the user is in the second access duct 41 and uses the bone ash registering card, the bone ash registering management terminal 1 compares the bone ash registering information with a plurality of bone ash registering information stored in advance after receiving the bone ash registering information transmitted by the third bone ash registering card reader 44, and if the bone ash corresponding to the bone ash registering information is compared and is not stored in the bone ash storing cabinet 23 corresponding to the second access duct 41, a control signal is transmitted to the second access controller 42 to control the second access door 43 to be in a closed state, and a prompt signal is transmitted to the third voice broadcasting device 45 through the second access controller 42 to control the third voice broadcasting device 45 to prompt the correct storage position of the bone ash corresponding to the bone ash registering information; when the bone ash deposit management terminal 1 compares the bone ash corresponding to the bone ash deposit information and stores the bone ash in the bone ash storage cabinet 23 corresponding to the second access duct 41, a control signal is transmitted to the second access controller 42 to control the second access door 43 to be in an open state, and a prompt signal is transmitted to the third voice broadcasting device 45 through the second access controller 42 to control the third voice broadcasting device 45 to prompt the position of the bone ash storage cabinet 23 corresponding to the bone ash deposit information.

Similarly, when the user is at the bone ash storage cabinet 23 and uses the bone ash register card, the bone ash register management terminal 1 compares the bone ash register information with a plurality of prestored bone ash register information after receiving the bone ash register information transmitted by the first bone ash register card reader 22 through the cabinet door controller 21, and if the bone ash corresponding to the bone ash register information is compared and is not stored in the current bone ash storage cabinet 23, a control signal is transmitted to the cabinet door controller 21 to control the door lock of the bone ash storage cabinet 23 to be in a closed state, and the correct storage position of the bone ash corresponding to the bone ash register information is prompted through the first voice broadcasting device 24; when the bone ash deposit management terminal 1 compares the bone ash corresponding to the bone ash deposit information and stores the bone ash in the current bone ash deposit cabinet 23, a control signal is transmitted to the cabinet door controller 21 to control the door lock of the bone ash deposit cabinet 23 to be in an open state, and a prompt signal is transmitted to the first voice broadcasting device 24 through the cabinet door controller 21 to control the first voice broadcasting device 24 to prompt a user to remember to close the cabinet door.

The bone ash deposit management terminal 1 compares the received weight data and bone ash deposit information with the pre-stored weight data and bone ash deposit information, and outputs a corresponding control signal for the bone ash deposit management terminal 1 based on the comparison result.

In some embodiments of the present utility model, the first inlet and outlet channel 31 and the second inlet and outlet channel 41 may be unidirectional channels.

In some alternative embodiments of the present utility model, the first inlet and outlet passage 31 and the second inlet and outlet passage 41 are provided with two.

The following describes an exemplary method for using the intelligent bone ash registering system according to the present utility model in combination with a specific embodiment.

The using method of the intelligent bone ash registering system comprises a bone ash receiving method and a bone ash returning method.

The bone ash receiving method comprises the following steps:

step 111, holding the bone ash registering card to enter the second access channel 41, identifying the bone ash registering card by the third bone ash registering card reader 44, if the bone ash registering card cannot be identified, prompting the position of the correct bone ash registering area of the bone ash registering card by the third voice broadcasting device 45 in a voice way, and if the bone ash registering card cannot be identified, opening the second gate inhibition 43 to enter the storage area of the bone ash storage cabinet 23, and prompting the position of the bone ash storage cabinet 23 of the bone ash registering card by the third voice broadcasting device 45 in a voice way;

step 112, when the user arrives at the bone ash storage cabinet 23, the bone ash storage card is held to identify the bone ash storage card through the first bone ash storage card reader 22, if the user cannot identify the bone ash storage cabinet, the user can voice prompt the position of the bone ash storage cabinet 23 through the first voice broadcasting device 24, if the user can identify the bone ash storage cabinet, the user opens a cabinet door of the bone ash storage cabinet 23 to take out the crematory urn, then the user closes the cabinet door of the bone ash storage cabinet 23, and if the cabinet door of the bone ash storage cabinet 23 is not closed, the user closes the cabinet door of the bone ash storage cabinet 23 through the first voice broadcasting device 24 through voice prompt;

step 113, carrying the crematory urn into the first access channel 31, scanning and weighing the crematory urn through the crematory urn weight device 34 and the crematory urn scanner 35, storing weight data and crematory deposit information into the crematory deposit management terminal 1, and displaying the crematory deposit information on a display;

step 114, holding the bone ash deposit card to identify the bone ash deposit card through the bone ash deposit card reader of the first access duct 31, leaving the bone ash storage area.

The bone ash returning method comprises the following steps:

step 222, carrying the crematory urn, holding the crematory urn to enter the first access channel 31, scanning and weighing the crematory urn through the crematory urn weight device 34 and the crematory urn scanner 35, and comparing the weight data with the weight data stored in the crematory urn management terminal 1;

step 223, if the comparison error range is smaller than the preset value, opening the first gate inhibition door 33 to enter the storage area of the bone ash storage cabinet 23, prompting the position of the bone ash storage cabinet 23 holding the bone ash register card through the second voice broadcasting device 38 in a voice way, displaying the scanned bone ash register information on the display device, if the comparison error range is larger than the preset value, opening the first gate inhibition door 33, prompting an alarm through the second voice broadcasting device 38 in a voice way, and displaying the scanned bone ash register information on the display device;

step 224, after entering the storage area of the bone ash storage cabinet 23 and reaching the position of the bone ash storage cabinet 23, holding the bone ash storage card to identify the bone ash storage card through the first bone ash storage card reader 22, prompting the position of the bone ash storage cabinet 23 through the first voice broadcasting device 24 if the bone ash storage card cannot be identified, opening the bone ash storage cabinet 23 if the bone ash storage cabinet 23 can be identified, putting the bone ash box into the bone ash storage cabinet 23, closing the cabinet door of the bone ash storage cabinet 23, and prompting the cabinet door of the bone ash storage cabinet 23 to be closed through the first voice broadcasting device 24 if the cabinet door of the bone ash storage cabinet 23 is not closed;

step 225, holding the bone ash deposit card to identify the bone ash deposit card through the bone ash deposit card reader of the second access duct 41, leaving the bone ash storage area.

It should be noted that the above-described bone ash deposit management terminal 1 can modify, add and delete data stored in the bone ash deposit card by controlling the access controller and the cabinet door controller 21 to control the first bone ash deposit card reader 22, the second bone ash deposit card reader 37 and the third bone ash deposit card reader 44.

The intelligent bone ash storage system and the use method thereof can solve the technical problems that the existing bone ash storage system stores bone ash in a bone ash storage and manual on-duty mode, the bone ash storage efficiency is low, and the control is difficult when the intelligent bone ash storage system is used for mass bone ash mixing, partial bone ash burial and the like.

The foregoing is a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model and are intended to be comprehended within the scope of the present utility model.

Claims (9)

1. An intelligent bone ash registering system, comprising:

a bone ash storage card;

a bone ash deposit management terminal (1);

the bone ash storage cabinet (23), a cabinet door controller (21) and a first bone ash registering card reader (22) for reading bone ash registering information on the bone ash registering card are arranged on the bone ash storage cabinet (23), the output end of the first bone ash registering card reader (22) is electrically connected with the input end of the cabinet door controller (21), a control switch of a door lock of the bone ash storage cabinet (23) is electrically connected with the output end of the cabinet door controller (21), and the communication end of the cabinet door controller (21) is electrically connected with the communication end of the bone ash registering management terminal (1);

at least one first access channel (31), be equipped with first gate inhibition door (33), bone ash weighing ware (34) on first access channel (31), first access control ware (32) and be used for reading bone ash register card is last bone ash register card reader (37), the output of second bone ash register card reader (37) with the output of bone ash weighing ware (34) all with the input electricity of first access control ware (32), the control switch of first gate inhibition door (33) with the output electricity of first access control ware (32) is connected, the communication end of first access control ware (32) with the communication end electricity of bone ash register management terminal (1) is connected.

2. The intelligent bone ash registering system according to claim 1, further comprising at least one second access channel (41), wherein a second access door (43), a second access controller (42) and a third bone ash registering card reader (44) for reading bone ash registering information on the bone ash registering card are arranged on the second access channel (41), an output end of the third bone ash registering card reader (44) is electrically connected with an input end of the second access controller (42), a control switch of the second access door (43) is electrically connected with an output end of the second access controller (42), and a communication end of the second access controller (42) is electrically connected with a communication end of the bone ash registering management terminal (1).

3. The intelligent bone ash registering system according to claim 1, characterized in that the first access passage (31) is further provided with a display, and an input end of the display is electrically connected with an output end of the first access controller (32).

4. The intelligent bone ash registering system according to claim 2, further comprising a first voice broadcasting device (24), a second voice broadcasting device (38) and a third voice broadcasting device (45), wherein the first voice broadcasting device (24) is arranged on the bone ash storage cabinet (23), the second voice broadcasting device (38) is arranged in the first access passage (31), the third voice broadcasting device (45) is arranged in the second access passage (41), a control end of the first voice broadcasting device (24) is electrically connected with an output end of the cabinet door controller (21), a control end of the second voice broadcasting device (38) is electrically connected with an output end of the first access controller (32), and a control end of the third voice broadcasting device (45) is electrically connected with an output end of the second access controller (42).

5. The intelligent bone ash registering system according to claim 1, characterized in that the first access passage (31) is further provided with a bone ash scanner (35), and an output end of the bone ash scanner (35) is electrically connected with an input end of the first access controller (32).

6. The intelligent bone ash registering system according to claim 1, further comprising an alarm (36), the alarm (36) being arranged on the bone ash weighing device (34), a control end of the alarm (36) being electrically connected to an output end of the first access controller (32).

7. The intelligent bone ash registering system according to claim 1, wherein the bone ash registering card is provided with a two-dimensional code.

8. The intelligent ashes depositing system according to claim 5, characterized in that the ashes container stored in the ashes storing cabinet (23) is provided with a two-dimensional code.

9. The intelligent bone ash registering system according to claim 2, characterized in that the cabinet door controller (21), the first access control controller (32) and the second access control controller (42) are all PLC controllers, and the bone ash registering management terminal (1) is a computer device.