CN201837876U - Management system for internet of things - Google Patents

Abstract

The utility model discloses a management system for an internet of things, comprising an equipment cabinet, a first sensor and a control center, wherein the first sensor is used for detecting whether equipment exists in the equipment cabinet and is arranged in the equipment cabinet; and the control center is connected with the first sensor. With management system, specific related information on the equipment in the equipment cabinet can be conveniently known.

Description

The Internet of Things management system

Technical field

The utility model relates to a kind of Internet of Things management system.

Background technology

Internet of Things (The Internet of things) also claim the sensing net, be by information sensing equipment such as radio-frequency (RF) identification (RFID), infrared inductor, GPS, laser scanners, agreement by agreement, any article and Internet connection are got up, carry out message exchange and communication, to realize a kind of network of intelligent identification, location, tracking, monitoring and management.

In correlation technique, mainly adopt RFID to realize equipment control in the rack, its shortcoming is, positioning equipment easily, information is isolated, can not form network monitor, therefore can not form the monitoring of an integral body to space in the rack and assets.

At the problem that is difficult to understand easily the concrete relevant information of equipment in the rack in the correlation technique, effective solution is not proposed as yet at present.

The utility model content

Propose the utility model at being difficult in the correlation technique understand the problem of the concrete relevant information of equipment in the rack easily, for this reason, fundamental purpose of the present utility model is to provide a kind of Internet of Things management system, to address the above problem.

To achieve these goals, according to an aspect of the present utility model, provide a kind of Internet of Things management system.

Can be used for the Internet of Things of rack is managed according to Internet of Things management system of the present utility model, comprise: rack; Be used for checkout equipment and whether be present in the interior first sensor of rack, be arranged in the described rack; Control center is connected with described first sensor.

Further, above-mentioned Internet of Things management system also comprises collector, is connected between first sensor and the control center.

Further, rack is one or more, under rack is a plurality of situation, and the corresponding one or more racks of collector.

Further, collector is connected with control center one of in the following manner: 485 buses, TCP/IP, WLAN (wireless local area network) WLAN, GPRS, short message service, wireless protocols.

Further, first sensor is connected with collector by bus mode.

Further, first sensor is connected with collector by multiple bus protocol.

Further, have one or more equipment in the rack, wherein, each equipment highly is that unit arranges with 1U in rack, and first sensor highly serves as to be provided with at interval with 1U.

Further, be provided with the device identification label on the equipment in the rack, wherein, the device identification label is corresponding one by one with first sensor.

Further, in rack, also be provided with second sensor that is connected with control center, wherein, second sensor comprises one of following or a plurality of combination arbitrarily: temperature sensor, humidity sensor, electric weight monitoring sensor, door status sensor, gate inhibition's sensor, water sensor, dust sensor, smoke transducer, infrared position, wireless senser, gas sensor.Wherein, the connected mode of each sensor or position can be identical with the annexation or the position of first sensor.

Further, above-mentioned Internet of Things management system also comprises alarm mechanism, and described alarm mechanism is connected with described control center.

By the utility model, adopt the Internet of Things management system that comprises with the lower part: rack; Be used for checkout equipment and whether be present in the interior first sensor of described rack, be arranged in the rack; Control center is connected with sensor, has solved the problem that is difficult to understand easily the concrete relevant information of equipment in the rack in the correlation technique, and then has reached the effect of understanding the concrete relevant information of equipment in the rack easily.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, constitutes the application's a part, and illustrative examples of the present utility model and explanation thereof are used to explain the utility model, do not constitute improper qualification of the present utility model.In the accompanying drawings:

Fig. 1 is the synoptic diagram according to the Internet of Things management system of the utility model embodiment.

Embodiment

Need to prove that under the situation of not conflicting, embodiment and the feature among the embodiment among the application can make up mutually.Describe the utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

According to embodiment of the present utility model, provide a kind of Internet of Things management system.

Fig. 1 is the synoptic diagram according to the Internet of Things management system of the utility model embodiment.

As shown in Figure 1, this Internet of Things management system can comprise: rack 20; Be used for checkout equipment and whether be present in the interior sensor 23 of rack, be arranged in the rack 20; Control center 10 is connected with sensor 23.Wherein, sensor 23 can be for position transducer, for example, infrared position transducer, when in detecting certain distance range, having equipment, illustrate then to have equipment in the rack that sensor 23 can also be pressure transducer, (for example can be arranged at interior each unit of rack, the cell that every interval preset distance is provided with or the U of rack) the bottom, when detecting certain pressure, then illustrate to have equipment in the rack.

In this embodiment, by sensor 23 being set in rack 20, passing through the correlation parameter that sensor 23 detects equipment in the racks 20, and sending correlation parameter to control center 10, control center 10 can understand the concrete relevant information of equipment in the rack 20 easily.For example, be under the situation of position transducer at sensor 23, can be easily the position of each sensor 23 be positioned, wherein, in rack 20, under the situation of place apparatus, for example network equipment, can locate quickly the equipment in the rack 20.

Rack in the utility model also can be various types of equipment cabinets, locker etc.Control center 10 can be made up of computing machine, server or other smart machines and monitoring software etc.

Sensor 23 can be provided with rack 20 in, with the adjacent setting of equipment in the rack 20, also can directly be arranged on the equipment in the rack 20.

Wherein, above-mentioned sensor 23 can also be one in temperature sensor, humidity sensor, dust sensor, smoke transducer, infrared position, wireless senser, the gas sensor or a plurality of combination arbitrarily.Be output as under RS232/485, TCP/IP, the WiFi situation at sensor 23, sensor can directly transmit detected data or be sent to control center 10.

Be output as at sensor 23 under the situation of 1-wire bus and ITU Bus, i2cbus, above-mentioned Internet of Things management system also comprises collector, and this collector can be the scada8000 series of long English science and technology, is connected with each sensor 23.

In above-mentioned Internet of Things management system, rack 20 can be one or more, as shown in Figure 1, can comprise rack 20, rack 30 etc.Wherein, be a plurality of and need under the situation of collector at rack 20.Preferably, collector also can be for a plurality of, and this collector can be corresponding one by one with one group of described rack 20.Thereby a collector is gathered one group of data in the rack 20.The quantity of collector also can be determined by the quantity of sensor, and wherein, during less than some (for example, 64), collector is 1 at the sensor sum, and during greater than some, collector is a plurality of at the sensor sum

Collector one of can be in the following manner and 10 wired or wireless connections of control center: 485 buses, TCP/IP, WLAN (wireless local area network) (Wireless LAN, abbreviate WLAN as), GPRS (General Packet Radio Service, abbreviate GPRS as), SMS (Short Message Service) (Short Message Service abbreviates SMS as), 433M is wireless Wireless agreement.

The sensor 23 can be connected with collector by bus mode.Preferably, sensor 23 can pass through intelligent transfer unit (Intelligent Transmitter Unit abbreviates ITU as) bus mode and is connected with collector.For example, can adopt the LTM89XX serial bus of long English scientific ﹠ technical corporation research and development.LTM89XX series intelligent cell--can be transformed into the digital signal of can networking to sensors such as temperature, humidity, switching value input, switching value output, pressure, be called for short ITU-BUS (single-point wire protocol), each intelligent cell (probe or transmitter) is called ITU.The ITU module can work independently, and can also a plurality ofly be articulated on same the bus.Each module can independently be set its address.Can form multiple spot multiple sensors signal acquiring system easily.

Use the ITU mode to have the following advantages: can realize the product expansion easily, make product design more flexible, take into account on-the-spot security and cost economy simultaneously again.And interface circuit is simple, only needs to draw 1K resistance (need not loaded down with trivial details circuit such as A/D) on mouthful line; Software design simple (51 single-chip microcomputer source programs are provided); The photoelectricity insulation blocking is arranged, and use terminal connections, rig-site utilization is convenient.

Can have one or more equipment in the above-mentioned rack 20.Wherein, in rack 20, can the default distance in every interval place an equipment, and one or one group of sensor are set in this distance.Preferably, each equipment also can be respectively highly is that unit is distributed in and is arranged in rack 20 with 1U, and highly is that unit all is provided with sensor 23 with 1U.

On the equipment in rack 20 the device identification label can be set all.Wherein, in control center 10, can the storage device identification label and the corresponding relation of sensor identification information so that both are bound, sensing data is corresponding one by one with equipment.Thereby, both can recognize that equipment was in or be not in, also can detailed understanding be arranged to other relevant informations of equipment, for example more specific location information etc.

Above-mentioned sensor 23 can comprise one of following or a plurality of combination arbitrarily: temperature sensor, humidity sensor, electric weight monitoring sensor, door status sensor, water sensor, dust sensor, smoke transducer, infrared position wireless senser, gas sensor.Thereby, the sensor of various combination can be set according to actual needs.

Above-mentioned Internet of Things management system can also comprise alarm mechanism, and this alarm mechanism is connected with control center 10.Find to exist certain or some sensor parameters of equipment to surpass under the situation of predetermined threshold in control center 10, can control alarm mechanism and alarm.

The utility model is based on progressively realizing network monitoring system in present China machine room, use bussing technique, adopt infrared or Magnetic Sensor, sensor possesses ID or numbering, form the sensor monitor network, and bind with the identification (RFID) tag (RFID label or bar coded sticker) on the information technoloy equipment in the machine room rack 20, thus realize to information technoloy equipment in the rack in the machine room 20 the position, move and realize networked control.And image data transferred to acquisition module, mode such as acquisition module can bus, wireless, Ethernet transfers to control center 10 with monitor data.

By monitoring to each equipment correspondence in the rack in the machine room 20, determine its position accurately, can realize asset management for equipment in the machine room, and by each device location monitoring, can understand the space situation of rack 20 in the machine room exactly, thus the implementation space management.

By monitoring to each equipment correspondence in the rack in the machine room 20, can also obtain the environmental information of its work, can realize precise monitoring for equipment operation microenvironment in the machine room, and by each device location monitoring, can understand the ambient conditions of rack 20 in the machine room exactly, thereby realize the accurately monitoring in real time of equipment safety operation.

In the utility model, by infrared or other principle position transducers and device identification label of each equipment place arrangement in rack 20, and set up monitor network easily, sensor possesses numbering and device identification label binding, pass through bus mode, to the collection center, the collection center transfers to control center 10 with signal with wireless, Ethernet, bus mode with the data transmission that collects.

By the binding of sensor 23, promptly monitor asset management in the rack 20, rapidly the position and the situation of movement of determining apparatus with RFID.

Judgement by device location in the rack 20 can realize the distribution situation for equipment in rack 20 and the machine room simultaneously, thereby obtains space situation in rack 20 and the machine room fast, the implementation space management.

The utility model can utilize bussing technique, sensor technology, the RFID technology of present maturation; realize the network management of Internet of Things space and assets at low cost; for space management in the machine room rack 20 promotes efficient; simultaneously; effectively protect assets; positioning equipment makes things convenient for plant maintenance fast, promotes efficient.

The above is a preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. an Internet of Things management system is characterized in that, comprising:

Rack;

Be used for checkout equipment and whether be present in the interior first sensor of described rack, be arranged in the described rack;

Control center is connected with described first sensor.

2. Internet of Things management system according to claim 1 is characterized in that, also comprises collector, is connected between described first sensor and the described control center.

3. Internet of Things management system according to claim 2 is characterized in that, described rack is one or more, under described rack is a plurality of situation, and the corresponding one or more described racks of described collector.

4. Internet of Things management system according to claim 2 is characterized in that, described collector is connected with described control center one of in the following manner:

485 buses, TCP/IP, WLAN (wireless local area network) WLAN, GPRS, short message service, wireless protocols.

5. Internet of Things management system according to claim 2 is characterized in that, described first sensor is connected with described collector by bus mode.

6. Internet of Things management system according to claim 5 is characterized in that, described first sensor is connected with described collector by multiple bus protocol.

7. Internet of Things management system according to claim 1 is characterized in that, has one or more equipment in the described rack, and wherein, each equipment highly is that unit arranges with 1U in described rack, and described first sensor highly serves as to be provided with at interval with 1U.

8. Internet of Things management system according to claim 7 is characterized in that, is provided with the device identification label on the equipment in described rack, and wherein, described device identification label is corresponding one by one with described first sensor.

9. according to each described Internet of Things management system in the claim 1 to 8, it is characterized in that, also be provided with second sensor that is connected with described control center in described rack, wherein, described second sensor comprises one of following or a plurality of combination arbitrarily:

Temperature sensor, humidity sensor, electric weight monitoring sensor, door status sensor, gate inhibition's sensor, water sensor, dust sensor, smoke transducer, infrared position, wireless senser, gas sensor.

10. according to each described Internet of Things management system in the claim 1 to 8, it is characterized in that also comprise alarm mechanism, described alarm mechanism is connected with described control center.