CN212244839U

CN212244839U - Intelligent batch transceiving workstation

Info

Publication number: CN212244839U
Application number: CN202020442236.1U
Authority: CN
Inventors: 汤小坤; 许晓毅; 李胜玉; 王子润; 过燕平
Original assignee: Xiamen Yixun Intelligent Technology Co ltd
Current assignee: Xiamen Yixun Intelligent Technology Co ltd
Priority date: 2020-03-31
Filing date: 2020-03-31
Publication date: 2020-12-29
Anticipated expiration: 2030-03-31

Abstract

The utility model discloses an intelligence is receiving and dispatching workstation in batches, include the frame part and establish the transceiver in the frame part, be equipped with one on frame part one side and verify the cabinet door that the authority could be opened, be equipped with a plurality of plywood storage mechanisms in the frame part, transceiver can dock with pneumatic logistics system in order to carry out the receipt and the granting of transmission bottle, and transceiver can also form the butt joint with the storehouse position of keeping in of appointed plywood storage mechanism, in depositing the transmission bottle that comes in from pneumatic logistics system on with transceiver in the storehouse position of keeping in of appointed plywood storage mechanism, or take out and send out by pneumatic logistics system the transmission bottle in the storehouse position of keeping in of appointed plywood storage mechanism. The utility model discloses a receiving and dispatching device can shift out and send away by the pneumatic logistics system with the receiving and dispatching device butt joint the transmission bottle in each floor storage mechanism in batches in proper order, and the operator need not to wait, has reduced and has deposited bottle waiting time, improves and deposits bottle efficiency, has realized transmission bottle receiving and dispatching intelligent management.

Description

Intelligent batch transceiving workstation

Technical Field

The utility model relates to a pneumatic logistics system send-receiver device technical field, concretely relates to intelligence is receiving and dispatching workstation in batches.

Background

A pneumatic pipeline logistics transmission system is a logistics carrying mode based on the Internet of things control technology and using air as power, working points distributed in different areas are connected through special pipelines to form a closed pipeline network, under the control of a central control system, a special transmission bottle is used as a carrying tool, the purpose that any article capable of being filled into the transmission bottle is mutually transmitted at high speed between any working points in the closed network is achieved, however, a receiving and transmitting work station in the existing pneumatic logistics system is single in task mode and low in receiving and transmitting efficiency, receiving and transmitting of the transmission bottle are not intelligent enough, and the transmission bottle cannot be received and transmitted in batches, so that the receiving and transmitting process occupies a long time of a client, and the experience of the client is reduced.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an intelligence is receiving and dispatching workstation in batches, it mainly solves be that current receiving and dispatching workstation can not receive and dispatch the transmission bottle in batches and lead to the receiving and dispatching process to occupy the customer longer time, has reduced technical problem such as customer's experience sense.

In order to achieve the purpose, the utility model is realized by the following technical proposal:

an intelligent batch receiving and dispatching workstation comprises a rack component and a receiving and dispatching device arranged in the rack component, wherein one side of the rack component is provided with a cabinet door which can be opened only by verifying the authority and an information reader capable of reading the RFID information input into a transmission bottle, a plurality of laminate storage mechanisms are arranged in the rack component, a temporary storage position for storing the transmission bottle is formed in each laminate storage mechanism, the receiving and dispatching device is provided with a card reader capable of reading the RFID information of the transmission bottle, the receiving and dispatching device can be butted with a pneumatic logistics system to receive and distribute the transmission bottle, and the receiving and dispatching device can also be butted with the temporary storage position of a designated laminate storage mechanism, so as to store the transmission bottles received from the pneumatic logistics system on the receiving and sending device into the temporary storage position of the appointed laminate storage mechanism, or the conveying bottles in the temporary storage positions of the designated laminate storage mechanism are taken out and conveyed out by the pneumatic logistics system.

Furthermore, the receiving and dispatching device comprises two lifting modules arranged on the rack component in parallel, transverse moving modules with two ends connected to sliding blocks of the two lifting modules respectively, a receiving and dispatching device belt conveying assembly connected to the sliding blocks of the transverse moving modules and a receiving and dispatching tube assembly fixedly connected to the rack component, the receiving and dispatching tube assembly can be connected with a pneumatic logistics system, the transverse moving modules can ascend and descend under the driving of the two lifting modules, the receiving and dispatching device belt conveying assembly can transversely move left and right under the driving of the transverse moving modules, and the receiving and dispatching device belt conveying assembly can reciprocate between a temporary storage position of the appointed laminate storage mechanism and the receiving and dispatching tube assembly to convey and transfer the transmission bottles.

Further, the transceiver component is arranged at the top of the rack part, and the upper end of the transceiver component is connected with the pneumatic logistics system.

Furthermore, a sealing ring is arranged at the bottom of the receiving and dispatching pipe assembly, and the receiving and dispatching device belt conveying assembly can be tightly attached to the bottom of the receiving and dispatching pipe assembly under the cooperative matching of the lifting module and the transverse moving module, so that a closed space is formed inside the receiving and dispatching pipe assembly to buffer transmission bottles falling from the receiving and dispatching pipe assembly onto the receiving and dispatching device belt conveying assembly.

Furthermore, the belt conveying assembly of the transceiver device comprises a sliding table seat fixedly connected to a sliding block of the transverse moving module, a sliding table arranged on the sliding table seat in a sliding mode and a flat belt conveying component connected to the sliding table, the sliding table can move back and forth relative to the sliding table seat under the driving of a back and forth movement driving component, a bottle in-place sensor and a correction baffle are arranged on the sliding table, and a card reader is arranged on a flat belt supporting plate in the flat belt conveying component.

Further, the frame part is provided with an electric control assembly electrically connected with the transceiver.

Further, plywood storage mechanism is formed with the storehouse position of keeping in that a plurality of is used for keeping in the transmission bottle through the isolation of baffle, and the bottom of each storehouse position of keeping in all is equipped with a track module, and the drive through track module can insert the transmission bottle on the flat belt conveyor part into corresponding storehouse position of keeping in, or exports the transmission bottle in the storehouse position of keeping in corresponding to the flat belt conveyor part on.

Furthermore, be equipped with a pair of probe of being connected with the automatically controlled subassembly electricity on the relative plywood storage mechanism's of slip table side of transceiver belt conveyor subassembly, each storehouse side of keeping in of each plywood storage mechanism all is equipped with the probe contact plate that can cooperate with the probe, when transceiver belt conveyor subassembly and appointed plywood storage mechanism form the butt joint, the probe can contact the cooperation with the probe contact plate that corresponds, thereby for the track module power supply in the corresponding storehouse of keeping in shifts and carry the transmission bottle, and the positive negative pole of two probes can change the positive and negative transport of switching in order to control track module through the control of automatically controlled subassembly.

Furthermore, an electromagnetic door stopper lock which can be matched with the cabinet door is arranged on the frame component.

Further, a touch screen is arranged on the rack component.

Intelligence receiving and dispatching workstation in batches, have following advantage:

1. when an operator verifies the authority to open the cabinet door of the rack component, the information reader sequentially reads the RFID information recorded in each transmission bottle, the transmission bottles can be placed in the temporary storage positions of the storage mechanisms of each layer plate of the rack component in batches, after the cabinet door is completely placed and the cabinet door is closed and the transmission is confirmed, the transceiving device can sequentially transfer the transmission bottles in the storage mechanisms of each layer plate in batches and send the transmission bottles out by the pneumatic logistics system in butt joint with the transceiving device, the operator does not need to wait, the bottle storage waiting time is reduced, and the bottle storage efficiency is improved; and the transmission bottles transmitted in batch from the pneumatic logistics system can be transferred and temporarily stored to an idle laminate storage mechanism through the receiving and transmitting device for waiting to be taken out, so that the intelligent management of receiving and transmitting the transmission bottles is realized.

2. Be equipped with a pair of probe of being connected with automatically controlled subassembly electricity on the relative plywood storage mechanism's of slip table side at transceiver belt conveyor subassembly, each storehouse position side of keeping in of each plywood storage mechanism is served and all is equipped with ability and probe matched with probe contact plate, the power supply structure that can supply power for the track module that corresponds is formed through the contact cooperation of probe and appointed probe contact plate, a large amount of circuit wiring has been avoided, assembly efficiency is improved, and make the frame part inner space more succinct, transceiver motion is more convenient can not produce the circuit winding problem.

Drawings

Fig. 1 is a front view of an embodiment of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the embodiment of the present invention.

Fig. 3 is a schematic diagram of a relative position relationship between the transceiver and each floor storage mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic perspective view of a transceiver device according to an embodiment of the present invention.

Fig. 5 is a schematic perspective view of a belt conveying assembly of a transceiver according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of a laminate storage mechanism according to an embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 6, in the embodiment, an intelligent batch transceiving workstation comprises a rack part 1 and a transceiving device 2 arranged in the rack part 1, wherein a cabinet door 11 which can be opened only by verifying the authority and an information reader 12 capable of reading RFID information recorded in a transmission bottle 3 are arranged on one side of the rack part 1, a plurality of laminate storage mechanisms 13 are arranged in the rack part 1, a temporary storage position for storing the transmission bottle 3 is formed in each laminate storage mechanism 13, a card reader 237 capable of reading the RFID information of the transmission bottle 3 is arranged on the transceiving device 2, the transceiving device 2 can be in butt joint with a pneumatic logistics system to receive and distribute the transmission bottle 3, and the transceiving device 2 can also be in butt joint with the temporary storage position of a designated laminate storage mechanism 13 to store the transmission bottle 3 received from the pneumatic logistics system on the transceiving device 2 into the temporary storage position of the designated laminate storage mechanism 13, or the transport bottles 3 in the temporary storage position of the assigned laminate storage mechanism 13 are taken out and conveyed out by the pneumatic logistics system.

In this embodiment, a cabinet door 11 which can be opened only by verifying the authority and an information reader 12 which can read the RFID information recorded in the transmission bottles 3 are arranged on one side of the rack component 1, the transceiver 2 can be butted with the pneumatic logistics system, and the transceiver 2 can also be butted with the temporary storage position of the designated laminate storage mechanism 13, when the operator verifies the authority to open the cabinet door 11 of the rack component 1, the RFID information recorded in each transmission bottle 3 is sequentially read by the information reader 12, the transmission bottles 3 can be put into the temporary storage positions of the laminate storage mechanisms 13 of the rack component 1 in batches, after the cabinet door 11 is closed and the transmission is confirmed, the transceiver 2 can sequentially transfer the transmission bottles 3 in the laminate storage mechanisms 13 in batches and send out by the pneumatic logistics system butted with the transceiver 2, the operator does not need to wait, the bottle storage waiting time is reduced, the bottle storage efficiency is improved; and the transmission bottles 3 transmitted in batch from the pneumatic logistics system can be transferred and temporarily stored to the idle laminate storage mechanism 13 through the receiving and transmitting device 2 for waiting to be taken out, so that the intelligent receiving and transmitting management of the transmission bottles 3 is realized.

Referring to fig. 2 to 4, in this embodiment, preferably, the transceiving device 2 includes two lifting modules 21 disposed in parallel on the frame member 1, a traverse module 22 having two ends connected to the sliders of the two lifting modules 21, a transceiving device belt conveying assembly 23 connected to the sliders of the traverse module 22, and a transceiving device belt conveying assembly 24 fixedly connected to the frame member 1, the transceiving device belt conveying assembly 24 can be connected to the pneumatic logistics system, the traverse module 22 can be lifted up and down by the driving of the two lifting modules 21, and the transceiving device belt conveying assembly 23 can be moved left and right by the driving of the traverse module 22, so that the transceiving device belt conveying assembly 23 can reciprocate between the temporary storage position of the designated layer plate storage mechanism 13 and the transceiving device belt conveying assembly 24 to convey the transfer bottles 3.

Referring to fig. 2 and 3, in the present embodiment, preferably, the transceiver module 24 is disposed on the top of the rack unit 1, and the upper end of the transceiver module 24 is connected to the pneumatic logistics system. Preferably, the bottom of the transceiving pipe assembly 24 is provided with a sealing ring, and the transceiving belt conveying assembly 23 can be tightly attached to the bottom of the transceiving pipe assembly 24 under the cooperative cooperation of the lifting module 21 and the traversing module 22, so that a closed space is formed inside the transceiving pipe assembly 24 to buffer the transmission bottles 3 falling from the transceiving pipe assembly 24 onto the transceiving belt conveying assembly 23.

Referring to fig. 2 to 5, in the present embodiment, preferably, the hair-sending device belt conveying assembly 23 includes a sliding table base 231 fixedly connected to the slider of the traverse module 22, a sliding table 232 slidably disposed on the sliding table base 231, and a flat belt conveying member 233 connected to the sliding table 232, the sliding table 232 can move back and forth relative to the sliding table base 231 under the driving of a back and forth movement driving member 234, the sliding table 232 is provided with a bottle in-position sensor 235 and a correction baffle 236, and the card reader 237 is disposed on a flat belt supporting plate in the flat belt conveying member 233. Preferably, the forward and backward movement driving part 234 includes a driving motor, a gear is provided on an output end of the driving motor, and a rack capable of engaging with the gear is provided on the sliding table 232, so that the sliding table 232 can be driven to move forward and backward relative to the sliding table base 231 by the driving motor. However, it should be understood by those skilled in the art that in other embodiments, the driving motor of the forward and backward moving driving part 234 can drive the sliding table 232 to move forward and backward relative to the sliding table base 231 through other mechanical transmission connecting parts, such as a belt transmission or a chain transmission, and the like, and is not limited to the rack and pinion transmission disclosed in the present embodiment.

Referring to fig. 1 to 6, in the present embodiment, preferably, the frame member 1 is provided with an electric control assembly 14 electrically connected to the transceiver 2. Preferably, the laminate storage mechanism 13 is provided with a plurality of temporary storage positions for temporarily storing the transmission bottles 3 through the separation of the partition plates 131, the bottom of each temporary storage position is provided with a track module 132, the transmission bottles 3 on the flat belt conveying component 233 are connected into the corresponding temporary storage position through the driving energy of the track module 132, or the transmission bottles 3 in the corresponding temporary storage position are output to the flat belt conveying component 233, preferably, a pair of probes 238 electrically connected with the electric control component 14 are arranged on the side end of the sliding table 232 of the transceiver belt conveying component 23 opposite to the laminate storage mechanism 13, a probe contact plate 133 capable of being matched with the probes 238 is arranged on the side end of each temporary storage position of each laminate storage mechanism 13, when the transceiver belt conveying component 23 is in butt joint with the assigned laminate storage mechanism 13, the transmission bottles are transferred through a driving motor and corresponding gears of the front-and-back moving driving component 234, The matching of the racks can push the sliding table 232 out relative to the sliding table base 231, so that the probes 238 can be in contact matching with the corresponding probe contact plates 133, so as to supply power to the track module 132 in the corresponding temporary storage bin for transferring and conveying the transmission bottles 3, and the positive and negative poles of the two probes 238 can be switched through the control of the electric control assembly 14 to control the positive and negative conveying of the track module 132. In this embodiment, a pair of probes 238 electrically connected to the electronic control assembly 14 is disposed on the side of the sliding table 232 of the transceiver belt conveying assembly 23 opposite to the layer board storage mechanism 13, a probe contact plate 133 capable of being matched with the probe 238 is disposed on the side of each temporary storage bin of each layer board storage mechanism 13, a power supply structure capable of supplying power to the corresponding track module 132 is formed by the contact cooperation of the probe 238 and the designated probe contact plate 133, a large amount of circuit wiring is avoided, the assembly efficiency is improved, the inner space of the rack component 1 is more concise, and the transceiver 2 can move more conveniently without generating a circuit winding problem.

Referring to fig. 1 and fig. 2, in the present embodiment, preferably, an electromagnetic door lock 15 capable of cooperating with the cabinet door 11 is disposed on the frame member 1, and a touch screen 16 is disposed on the frame member 1. In this embodiment, preferably, the information reader 12 on the rack component 1 is used to perform card swiping verification authority to automatically control the operation of the electromagnetic door lock 15, so as to realize the opening and closing control of the cabinet door 11, and thus the cabinet door cannot be opened at will, as long as the rear part of the card swiping verification authority can be opened, so as to further perform operations such as bottle storage or bottle taking.

The utility model discloses a theory of operation does: when the transmission bottle 3 is sent, an operator firstly opens the cabinet door 11 after the information reader 12 performs card swiping verification authority, then the transmission bottle 3 is stored in batch, then closes the cabinet door 11 and confirms sending, then the transceiver 2 automatically starts to work, specifically, the transceiver belt conveying component 23 in the transceiver 2 can move to be butted with the corresponding temporary storage bin in the appointed laminate storage mechanism 13 under the cooperative fit of the lifting module 21 and the traverse module 22, and is in contact fit with the contact plate 133 of the corresponding temporary storage bin through the probe 238 to supply power to the crawler belt module 132 in the corresponding temporary storage bin so as to transfer the transmission bottle 3 from the laminate storage mechanism 13 to the transceiver belt conveying component 23, the card reader 237 on the transceiver belt conveying component 23 can read the RFID information of the transmission bottle 3, then the transceiver belt conveying component 23 is butted with the bottom of the transceiver belt component 24 under the cooperative fit of the lifting module 21 and the traverse module 22, the transfer bottles 3 are then sent out through the pneumatic logistics system, and then the transceiver belt conveyor assembly 23 repeats the above process to send the transfer bottles 3 in batches. When receiving the transmission bottles 3, the belt conveying assembly 23 of the receiving-transmitting device is butted with the bottom of the belt conveying assembly 24 of the receiving-transmitting device under the cooperative cooperation of the lifting module 21 and the traverse module 22, so that the transmission bottles 3 transmitted from the pneumatic logistics system fall onto the belt conveying assembly 23 of the receiving-transmitting device, the card reader 237 on the belt conveying assembly 23 of the receiving-transmitting device can read the RFID information of the transmission bottles 3, then the belt conveying assembly 23 of the receiving-transmitting device is butted with the temporary storage positions of the assigned laminate storage mechanism 13 through the cooperative cooperation of the lifting module 21 and the traverse module 22, and is contacted and matched with the probe contact plates 133 of the corresponding temporary storage positions through the probes 238 to supply power to the crawler belt modules 132 in the corresponding temporary storage positions so as to transfer the transmission bottles 3 from the belt conveying assembly 23 of the receiving-transmitting device to the corresponding temporary storage positions to wait for taking out, and then the belt conveying assembly 23 of the receiving-, the utility model discloses pneumatic logistics system's effective operating time and entire system's transmission ability has been improved greatly.

The above-mentioned embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; these modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention, and therefore, all other embodiments obtained by those skilled in the art without any creative effort fall within the protection scope of the present invention.

Claims

1. The utility model provides an intelligence is receiving and dispatching workstation in batches which characterized in that: the device comprises a rack component (1) and a transceiver (2) arranged in the rack component (1), wherein one side of the rack component (1) is provided with a cabinet door (11) which can be opened only by verifying the authority and an information reader (12) which can read the RFID information recorded in the transmission bottles (3), a plurality of laminate storage mechanisms (13) are arranged in the rack component (1), a temporary storage bin used for storing the transmission bottles (3) is formed in each laminate storage mechanism (13), the transceiver (2) is provided with a card reader (237) which can read the RFID information of the transmission bottles (3), the transceiver (2) can be butted with a pneumatic logistics system to receive and distribute the transmission bottles (3), and the transceiver (2) can also be butted with the temporary storage bin of a specified laminate storage mechanism (13) to store the transmission bottles (3) received from the pneumatic logistics system on the transceiver (2) into the temporary storage bin of the specified laminate storage mechanism (13), or the conveying bottles (3) in the temporary storage positions of the assigned laminate storage mechanism (13) are taken out and conveyed out by a pneumatic logistics system.

2. The intelligent batch transceiving workstation of claim 1, wherein: the receiving and dispatching device (2) comprises two lifting modules (21) arranged on the rack component (1) in parallel, transverse moving modules (22) with two ends connected to sliding blocks of the two lifting modules (21) respectively, receiving and dispatching device belt conveying components (23) connected to the sliding blocks of the transverse moving modules (22) and receiving and dispatching pipe components (24) fixedly connected to the rack component (1), the receiving and dispatching pipe components (24) can be connected with a pneumatic logistics system, the transverse moving modules (22) can lift up and down under the driving of the two lifting modules (21), the receiving and dispatching device belt conveying components (23) can move left and right in a transverse mode under the driving of the transverse moving modules (22), and the receiving and dispatching device belt conveying components (23) can reciprocate between a temporary storage position of a designated laminate storage mechanism (13) and the receiving and dispatching pipe components (24) to convey and transfer transmission bottles (3).

3. The intelligent batch transceiving workstation of claim 2, wherein: the transceiver component (24) is arranged on the top of the rack component (1), and the upper end of the transceiver component () is connected with the pneumatic logistics system.

4. The intelligent batch transceiving workstation of claim 3, wherein: the bottom of the transceiving pipe component (24) is provided with a sealing ring, and the transceiving device belt conveying component (23) can be tightly attached to the bottom of the transceiving pipe component (24) under the cooperative fit of the lifting module (21) and the transverse moving module (22), so that a closed space is formed inside the transceiving pipe component (24) to buffer a transmission bottle (3) falling from the transceiving pipe component (24) to the transceiving device belt conveying component (23).

5. The intelligent batch transceiving workstation of claim 2, wherein: the receiving and dispatching device belt conveying assembly (23) comprises a sliding table base (231) fixedly connected to a sliding block of the transverse moving module (22), a sliding table (232) arranged on the sliding table base (231) in a sliding mode and a flat belt conveying component (233) connected to the sliding table (232), the sliding table (232) can move back and forth relative to the sliding table base (231) under the driving of a back and forth movement driving component (234), a bottle in-place sensor (235) and a correction baffle (236) are arranged on the sliding table (232), and a card reader (237) is arranged on a flat belt supporting plate in the flat belt conveying component (233).

6. The intelligent batch transceiving workstation of claim 5, wherein: the frame component (1) is provided with an electric control assembly (14) which is electrically connected with the transceiver (2).

7. The intelligent batch transceiving workstation of claim 6, wherein: the plywood storage mechanism (13) is formed with the storehouse position of keeping in that a plurality of is used for keeping in transmission bottle (3) through the isolation of baffle (131), and the bottom of each storehouse position of keeping in all is equipped with a track module (132), can insert transmission bottle (3) on flat belt conveyor part (233) into corresponding storehouse position of keeping in through the drive of track module (132), or export transmission bottle (3) in the storehouse position of keeping in corresponding to flat belt conveyor part (233) on.

8. The intelligent batch transceiving workstation of claim 7, wherein: a pair of probes (238) electrically connected with the electric control assembly (14) are arranged on the side end, opposite to the laminate storage mechanism (13), of the sliding table (232) of the transceiver belt conveying assembly (23), a probe contact plate (133) capable of being matched with the probes (238) is arranged on the side end of each temporary storage position of each laminate storage mechanism (13), when the transceiver belt conveying assembly (23) is in butt joint with the assigned laminate storage mechanism (13), the probes (238) can be in contact fit with the corresponding probe contact plates (133) so as to supply power to the track module (132) in the corresponding temporary storage position to transfer and convey the transmission bottle (3), and the positive and negative poles of the two probes (238) can be switched through the control of the electric control assembly (14) to control the forward and reverse conveying of the track module (132).

9. The intelligent batch transceiving workstation of any of claims 1 to 8, wherein: the rack component (1) is provided with an electromagnetic door stopper lock (15) which can be matched with the cabinet door (11).

10. The intelligent batch transceiving workstation of any of claims 1 to 8, wherein: and a touch screen (16) is arranged on the rack component (1).