CN218705336U - Intelligent logistics transmission bottle - Google Patents

Abstract

The utility model provides an intelligence commodity circulation transmission bottle, include: a housing defining a storage cavity therein; the bottle cap is detachably arranged above the shell and used for opening and closing the storage cavity; a base disposed below the housing; the circuit board is arranged on the base and clamped between the shell and the base; wherein, intelligence logistics transport bottle still includes NFC communication module for with outside NFC equipment communication connection. The utility model discloses an intelligence commodity circulation transmission bottle can carry out the data interaction with outside NFC equipment by the efficient.

Description

Intelligent logistics transmission bottle

Technical Field

The utility model relates to a pneumatic commodity circulation carries technical field, especially relates to an intelligence commodity circulation transmission bottle.

Background

The pneumatic logistics transport bottle is used as a carrier of a conveying object and moves in a pipeline of a pneumatic logistics system. Most of the existing transmission bottles are made of engineering plastics, RFID tags can be implanted into some types of transmission bottles, the number of the transmission bottles can be read on special equipment, data interaction cannot be carried out, and too much information cannot be carried. The efficiency of a pneumatic logistics system is low by using the traditional transmission bottle, and multi-task parallel processing cannot be realized. Meanwhile, the transmission bottle can only move in a pre-planned route, the route cannot be adjusted midway, the transmission bottle cannot avoid, and the transmission bottle cannot withdraw if a receiving end is jammed or has a fault. When a certain node in the pipeline system has a fault or is blocked, the position of a transmission bottle in the pipeline system is difficult to locate, and a great deal of search time is needed by maintenance personnel.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can carry out data interaction's intelligent logistics transmission bottle.

Particularly, the utility model provides an intelligence commodity circulation transmission bottle, include:

the storage device comprises a shell, a storage cavity and a storage box, wherein the shell is internally limited with the storage cavity;

the bottle cap is detachably arranged above the shell and used for opening and closing the storage cavity;

the base is arranged below the shell; and

the circuit board is arranged on the base and clamped between the shell and the base; wherein, intelligence commodity circulation transfer bottle still includes NFC communication module for with outside NFC equipment communication connection.

Optionally, the NFC communication module includes an NFC chip and an NFC antenna, where the NFC chip is connected to the NFC antenna and is communicatively connected to an external NFC device through the NFC antenna, and the NFC antenna is disposed on the circuit board.

Optionally, the smart logistics transport bottle is a pneumatic logistics transport bottle, and the external NFC device is an NFC device at a site of the pneumatic logistics system.

Optionally, an electric storage device and a wireless charging receiver are arranged on the circuit board, and the electric storage device is used for supplying power to the intelligent logistics transmission bottle;

the station of the pneumatic logistics system is provided with a wireless charging transmitter, and the wireless charging receiver and the wireless charging transmitter are communicated to charge the power accumulator.

Optionally, the electrical storage device comprises a super capacitor disposed on the circuit board;

the wireless charging receiver comprises a receiving coil, the wireless charging transmitter comprises a transmitting coil, and the receiving coil is in wireless induction connection with the transmitting coil.

Optionally, a photoelectric sensor is further disposed at the station of the pneumatic logistics system, and is used for sensing that the intelligent logistics transport bottle enters the station of the pneumatic logistics system.

Optionally, an electronic display screen is further arranged at the station of the pneumatic logistics system and used for displaying information of the intelligent logistics transport bottle.

Optionally, a low-power consumption single chip microcomputer is arranged on the circuit board.

Optionally, the smart logistics transport bottle further comprises: the external EEPROM memory is communicated with the singlechip.

Optionally, the bottle cap is rotatably connected with the upper part of the shell; and/or

The shell is of a cylindrical structure; and/or

The circuit board is sealed on the base in a glue pouring mode.

The utility model discloses an intelligence commodity circulation transmission bottle includes: shell, bottle lid, base and circuit board are injectd in the shell and have the storing chamber for deposit and treat the transport object, through set up the circuit board between shell and base, and has still set up NFC communication module and be used for with outside NFC equipment communication connection, make this intelligence logistics transport bottle can the efficient carry out data interaction with outside NFC equipment.

Further, the utility model discloses a be provided with electrical storage device and wireless charging receiver on the circuit board of intelligence commodity circulation transmission bottle, be provided with the wireless transmitter that charges through the website department at pneumatic logistics system, wireless charging receiver and the wireless transmitter communication that charges come to charge to electrical storage device for intelligence commodity circulation transmission bottle can realize wireless charging.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the present invention will be described in detail hereinafter, by way of illustration and not by way of limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is a schematic structural diagram of an intelligent logistics transport bottle according to an embodiment of the present invention.

Fig. 2 is an exploded schematic view of the intelligent logistics transport bottle shown in fig. 1.

Fig. 3 is a block diagram of the components of the intelligent tote bottle and station shown in fig. 1.

Detailed Description

Fig. 1 is a schematic structural diagram of an intelligent logistics transport bottle 100 according to an embodiment of the present invention. Fig. 2 is an exploded schematic view of the intelligent logistics transport bottle 100 shown in fig. 1. Fig. 3 is a block diagram of the components of the intelligent logistics transport bottle 100 and the station 200 shown in fig. 1.

As shown in fig. 1 and fig. 2, the utility model discloses an intelligent logistics transmission bottle 100 includes: a housing 101, a bottle cap 102, a base 103, and a circuit board 104. A storage chamber is defined within the housing 101. The bottle cap 102 is detachably disposed above the housing 101 to open and close the storage chamber. The base 103 is disposed below the housing 101. The circuit board 104 is mounted on the base 103, sandwiched between the housing 101 and the base 103; wherein, the smart logistics transport bottle 100 further comprises an NFC communication module 105 for communicatively connecting with an external NFC device 201. The utility model discloses intelligence commodity circulation transmission bottle 100 includes: the transmission bottle 100 comprises a shell 101, a bottle cap 102, a base 103 and a circuit board 104, wherein a storage cavity is defined in the shell 101 and used for storing objects to be conveyed, the circuit board 104 is arranged between the shell 101 and the base 103, and an NFC (near field communication) communication module 105 is further arranged and used for being in communication connection with an external NFC device 201, so that data interaction can be efficiently carried out between the transmission bottle 100 and the external NFC device 201.

As shown in fig. 1, the bottle cap 102 is rotatably connected to the upper portion of the housing 101; and/or the housing 101 is a cylindrical structure; and/or the circuit board 104 is sealed on the base 103 by glue filling. By sealing the circuit board 104 in a glue filling manner, a higher protection level can be achieved, common cleaning requirements can be met, and the transmission bottle 100 can be sterilized by using modes of wiping, ultraviolet lamp, soaking and the like.

The utility model discloses NFC communication module 105 of intelligence logistics transport bottle 100 includes NFC chip 151 and NFC antenna 152, and wherein, NFC chip 151 is connected with NFC antenna 152, through NFC antenna 152 and outside NFC equipment 201 communication connection, NFC antenna 152 sets up in circuit board 104. The utility model discloses intelligence logistics transport bottle 100 is pneumatic logistics transport bottle 100, and outside NFC equipment 201 is the NFC equipment 201 of pneumatic logistics system's website 200 department, as shown in FIG. 3. The utility model discloses transmission bottle 100 uses NFC near field communication technique, can with pneumatic logistics system's website 200, the converter carries out real-time mutual information, can let dispatch system master transmission bottle 100's position and state in real time from this, thereby can adjust the route planning at any time, and there are these data to support, can operate a plurality of transmission bottles 100 in same system, and when taking place a plurality of transmission bottles 100 on the converter route and struggle for, can judge through the priority that reads transmission bottle 100. The NFC communication architecture is the infrastructure of ISO 14443, type-A, ISO 15693, B and Felica standard contactless smart cards which are widely applied under the frameworks of ISO 18092, ECMA 340 and ETSI TS 102. The specific structure of the NFC circuit may adopt an existing NFC circuit, which is not described herein.

In some embodiments, the circuit board 104 of the intelligent logistics transmission bottle 100 of the embodiment of the present invention is provided with a storage device 106 and a wireless charging receiver 107, wherein the storage device 106 is used for supplying power to the intelligent logistics transmission bottle 100; a wireless charging transmitter 202 is arranged at the station 200 of the pneumatic logistics system, and the wireless charging receiver 107 is communicated with the wireless charging transmitter 202 to charge the power accumulator 106. The utility model discloses be provided with accumulator 106 and the wireless receiver 107 that charges on intelligent logistics transmission bottle 100's the circuit board 104, through being provided with wireless transmitter 202 that charges in pneumatic logistics system's website 200 department, wireless receiver 107 and the wireless transmitter 202 communication that charges charge come to charge to accumulator 106 for transmission bottle 100 can realize wireless charging. The specific structure of the wireless charging circuit may adopt an existing charging circuit, which is not described herein.

The storage 106 includes a super capacitor disposed on the circuit board 104; the wireless charging receiver 107 comprises a receiving coil, and the wireless charging transmitter 202 comprises a transmitting coil, wherein the receiving coil is in wireless induction connection with the transmitting coil. The transmission bottle 100 obtains power from the station 200 through the induction coil by using a wireless charging technology, and the transmission bottle 100 has no electric contact with the station 200, so that the transmission bottle is safe and reliable. Meanwhile, the transmission bottle 100 charges the super capacitor on the circuit board 104 through the induction coil, and one-time charging can support the transmission bottle 100 to go back and forth in the pipeline for a plurality of times.

In some embodiments, a photoelectric sensor 203 is also provided at the station 200 of the pneumatic logistics system for sensing the intelligent logistics transport bottle 100 entering the station 200 of the pneumatic logistics system. The circuit working frequency of the transmission bottle 100 is 13.56MHz, the effective communication distance is within 10cm, and the communication signal can be prevented from leaking at the distance, so that the radiation interference to the environment is reduced, and the reading and writing errors can also be reduced. The operational mode of the transfer bottle 100 is passive and the station 200 is active. After the station 200 senses the arrival of the transmission bottle 100 through the photoelectric sensor 203, the station actively transmits 13.56MHz high-frequency electromagnetic waves to the transmission bottle 100, the carrier frequency is 105Kbps, the transmission bottle 100 is powered by the electric energy generated by the high-frequency electromagnetic waves transmitted by the station 200, receives the data of the main station, and transmits the data back to the station 200 at the same speed by using a load modulation technology.

In some embodiments, an electronic display screen 204 is also provided at the station 200 of the pneumatic logistics system for displaying information of the intelligent logistics transport bottle 100. The information about the transfer bottle 100 using the electronic display screen 204 may be used to receive the check on the transfer bottle 100.

The utility model discloses be provided with low-power consumption singlechip 108 on intelligence logistics transport bottle 100's the circuit board 104. The low-power consumption single chip microcomputer 108 is an energy-saving microprocessor, does not use a battery, is free from maintenance and has no pollution. For example, a domestic high-end chip megaly-innovative GD32L23x series low-power-consumption 32-bit single chip microcomputer is selected, NFC interface data are read and written through an I2C interface, the I2C rate on the chip is as high as 400Kbps, and the data interaction time of each transmission bottle 100 and the site 200 is within 2 ms.

The utility model discloses intelligence commodity circulation transmission bottle 100 can also include: the external EEPROM 109 and the EEPROM 109 are communicated with the singlechip 108. The EEPROM 109 can be a 2K EEPROM, when the voltage of the onboard super capacitor is reduced to a lower threshold value, the single chip microcomputer 108 stores the process data in the EEPROM 109, and when the transmission bottle 100 arrives at the next station 200 to be charged, the data is activated again, so that the EEPROM 109 is fast to access and long in service life, and the safety of the transmission data can be effectively guaranteed.

Assembly the utility model discloses a pneumatic logistics system of transmission bottle 100 can possess following advantage: a plurality of tasks can be processed in parallel, and the efficiency is doubled; the transmission bottle 100 can modify the path, recall at any time and cancel the wrong task; the information of the transmission bottle 100 is electronically displayed, so that the information is convenient to check; the transfer bottle 100 can be flexibly deployed without binding to a fixed station 200.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described in detail herein, many other variations and modifications can be made, consistent with the principles of the invention, which are directly determined or derived from the disclosure herein, without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. An intelligent logistics transport bottle, comprising:

a housing defining a storage cavity therein;

the bottle cap is detachably arranged above the shell and used for opening and closing the storage cavity;

a base disposed below the housing; and

the circuit board is arranged on the base and clamped between the shell and the base; wherein, intelligence logistics transport bottle still includes NFC communication module for with outside NFC equipment communication connection.

2. The intelligent logistics transport bottle of claim 1, wherein the NFC communication module comprises an NFC chip and an NFC antenna, wherein the NFC chip is connected to the NFC antenna, and the NFC antenna is disposed on the circuit board through the NFC antenna and the external NFC device.

3. The intelligent logistics transport bottle of claim 1, wherein the intelligent logistics transport bottle is a pneumatic logistics transport bottle and the external NFC device is an NFC device at a site of a pneumatic logistics system.

4. The intelligent logistics transmission bottle of claim 3, wherein a storage device and a wireless charging receiver are arranged on the circuit board, and the storage device is used for supplying power to the intelligent logistics transmission bottle;

the station of the pneumatic logistics system is provided with a wireless charging transmitter, and the wireless charging receiver and the wireless charging transmitter are communicated to charge the power accumulator.

5. The intelligent logistics transport bottle of claim 4, wherein the storage device comprises a super capacitor disposed on the circuit board;

the wireless charging receiver comprises a receiving coil, the wireless charging transmitter comprises a transmitting coil, and the receiving coil is in wireless induction connection with the transmitting coil.

6. The intelligent logistics transport bottle of claim 3, wherein a photoelectric sensor is further provided at the site of the pneumatic logistics system for sensing the intelligent logistics transport bottle entering the site of the pneumatic logistics system.

7. The intelligent logistics transport bottle of claim 3 wherein an electronic display screen is further provided at the station of the pneumatic logistics system for displaying information of the intelligent logistics transport bottle.

8. The intelligent logistics transport bottle of claim 1, wherein the circuit board is provided with a low power consumption single chip microcomputer.

9. The intelligent tote bottle of claim 8, further comprising: and the EEPROM memory is communicated with the singlechip.

10. The intelligent logistics transport bottle of claim 1,

the bottle cap is rotatably connected with the upper part of the shell; and/or

The shell is of a cylindrical structure; and/or

The circuit board is sealed on the base in a glue pouring mode.

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