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Internet-of-Things transferring system used for spherical cargo carrier

A transmission system and Internet of Things technology, applied in the field of Internet of Things transmission system, can solve problems such as high cost, energy loss, and line transportation that cannot meet customer diversification, and achieve the effect of simplifying steps and reducing energy consumption

Inactive Publication Date: 2014-08-27
范睿哲
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At present, most of the object carriers widely used in the Internet of Things use spherical object carriers as carriers. The sphere has the advantages of convenient steering and energy saving during transportation, because it only needs to be lifted to a high point during transportation to complete the accumulation of potential energy to support long-term distance transportation, but raising the spherical load carrier to a high end requires a lot of equipment and serious energy loss. A single line of transportation obviously cannot meet the diverse needs of customers, but if a large number of electrical switches such as solenoid valves are used to control the load carrier The travel cost is too expensive, and the environment of the underground pipeline may not be able to meet the relevant construction requirements

Method used

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  • Internet-of-Things transferring system used for spherical cargo carrier
  • Internet-of-Things transferring system used for spherical cargo carrier
  • Internet-of-Things transferring system used for spherical cargo carrier

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Embodiment Construction

[0020] as attached Figure 1-4 As shown, the present invention consists of a lifting mechanism, a diverting mechanism and a transmission track for connecting the lifting mechanism and the diverting mechanism.

[0021] The lifting mechanism includes a drive motor 1-1, a lifting assembly, two or more slide rail positioning devices arranged on the lifting assembly, more than one input slide rail 1-2 arranged on the slide rail positioning device, and one or more input slide rails 1-2 arranged on the slide rail positioning device. Output slide rails 1-9 on the rail positioning device;

[0022] The lifting assembly includes a central shaft 1-5, a spiral lifting track 1-7 arranged along the circumference of the central shaft 1-5, more than two limit posts 1-6 arranged on the outer edge of the spiral lifting track 1-7, and a set An inverted tapered stopper 1-8 at the top of the central shaft 1-5, the lower end of the central shaft 1-5 is connected to the output shaft of the drive mot...

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Abstract

The invention relates to an Internet-of-Things transferring system used for a spherical cargo carrier. The Internet-of-Things transferring system is composed of a lifting mechanism, a distributing mechanism and transferring tracks used for the lifting mechanism and the distributing mechanism. In the system, the advantages of spherical transportation are reused, a spherical body is relatively static and can vertically move along the center axis under the action of the spiral lifting tracks, a centre shaft and a limit pillar during the lifting process, steps required in lifting the spherical body transferred through the Internet of Things are simplified, and energy consumption is thereby reduced; besides, automatic distributing can be achieved according to needs of users, so that the spherical body can return to the designated input tracks; automatic separation of multiple channels for the cargo carrier is satisfied through the mechanical structure capable of automatically switching circuits, and extra drive equipment is not needed during separation; the Internet-of-Things transferring system can be connected end to end when plenty of targeted cargos need to be transferred, so that the Internet-of-Things is applicable to large logistic network pipeline transmission, and transferring tasks can be completed accurately and stably.

Description

[0001] technical field [0002] The invention relates to an IoT transmission system for a spherical object carrier. Background technique [0003] At present, most of the object carriers widely used in the Internet of Things use spherical object carriers as carriers. The sphere has the advantages of convenient steering and energy saving during transportation, because it only needs to be lifted to a high point during transportation to complete the accumulation of potential energy to support long-term distance transportation, but raising the spherical load carrier to a high-end requires a lot of equipment and serious energy loss. A single line transportation can no longer meet the diverse needs of customers, but if a large number of electrical switches such as solenoid valves are used to control the load carrier The travel cost is too expensive, and the environment of the underground pipeline may not be able to meet the relevant construction requirements. Contents of the inve...

Claims

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Application Information

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IPC IPC(8): B65G35/00
Inventor 卢鹰
Owner 范睿哲
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