CN207399210U

CN207399210U - Transmission equipment

Info

Publication number: CN207399210U
Application number: CN201720900917.6U
Authority: CN
Inventors: 朱家胡; 廖林楚; 潘广津; 杨彬; 詹鹏飞; 区耀强; 周顶云
Original assignee: China Mobile Communications Group Co Ltd; China Mobile Group Guangdong Co Ltd
Current assignee: China Mobile Communications Group Co Ltd; China Mobile Group Guangdong Co Ltd
Priority date: 2017-07-24
Filing date: 2017-07-24
Publication date: 2018-05-22
Anticipated expiration: 2027-07-24

Abstract

The utility model embodiment provides a kind of transmission equipment.The transmission equipment includes reception device, processor and sending device, wherein, processor includes control unit, comparator and switching circuit, sending device includes the first sending device and the second sending device, first sending device includes the first counter and the first sending port, second sending device includes the second counter and the second sending port, control unit is connected respectively with reception device and switching circuit, comparator is counted respectively with switching circuit, first and the second counter is connected, and switching circuit is connected with the first sending port or the second sending port.The transmission equipment by the first and second sending device of counters count data volume, and each data volume is compared by comparator, switching circuit is connected according to comparative result with first sending port or second sending port, so as to fulfill the resource allocation of the first and second sending devices, the load of the first and second sending devices can be rationally adjusted.

Description

Transmission equipment

Technical field

The utility model embodiment is related to a kind of field of communication technology, particularly a kind of transmission equipment.

Background technology

Transmission equipment is as a kind of instrument for being handled various signals, being forwarded, it has also become current information is high The foundation stone of speed transmission.

Common transmission equipment has SDH (Synchronous Digital Hierarchy, synchronous digital system), PTN (Packet Transport Network, Packet Transport Network), OLT (optical line terminal, optical line terminal) etc. The equipment of type.These common transmission equipments not only carry traditional analog signal such as call voice, audio, video etc. Transmission, and also carry current all trades and professions, the data-signal that every family uses, such as Ethernet.

For ensure communication it is smooth, transmission equipment usually set it is multiple send and receive device, for sending and receiving signal. Transmission equipment can be divided into wire transmission equipment and radio transmission apparatus according to transmission medium.By taking transmission equipment optical transmission device as an example It is illustrated.

It can continue to run well to meet the network of transmission equipment composition in the prior art, using following operating scheme：

It is carried in transmission equipment networking using the optical cable of two different physics routings, one of sending device Optical cable is main cable, another is from optical cable, it is generally the case that received signal is transferred to key light by the processor of transmission equipment Cable is transmitted, once main cable breaks down and blocks, processor uses emergent management scheme, and received signal is transferred to It is transmitted from optical cable, so as to ensure that communication is smooth.

There are following defects for the prior art：

Received signal is preferentially transferred to main cable and is transmitted by the processor of transmission equipment, and idle shape is in from optical cable State, main cable long-time overload operation, it is likely that network congestion will be caused, until main cable break down blocking transmission when at Reason device is enabled from optical cable, and the utilization rate of two cable resources is not high.

At present, there are no corresponding transmission equipments to solve the above problems for the prior art, real to alleviate the pressure of main cable Effective configuration of existing cable resource.

The content of the invention

The defects of for the prior art, the utility model embodiment provide a kind of transmission equipment.

The utility model embodiment provides a kind of transmission equipment, and the transmission equipment includes：Reception device, processor and hair Device is sent, wherein, the processor includes control unit, comparator and switching circuit, and the sending device includes first and sends Device and the second sending device, first sending device include the first counter and the first sending port, and described second sends Device include the second counter and the second sending port, described control unit respectively with the reception device and the switching circuit It is connected, the comparator is counted respectively with the switching circuit, described first and second counter is connected, the switching electricity Road is connected with first sending port or second sending port.

Optionally, first sending port is cable port.

Optionally, first sending port is radio port.

Optionally, first sending device further includes the first radio circuit, first radio circuit and described first Sending port is connected, and correspondingly, the switching circuit is connected with first sending port or second sending port, specifically For：

The switching circuit is connected with first radio circuit or second sending port.

Optionally, first sending port and second sending port are radio port.

Optionally, first sending device further includes the first radio circuit, first radio circuit and described first Sending port is connected, and second sending device further includes the second radio circuit, second radio circuit and the described second hair Sending end mouth is connected, and correspondingly, the switching circuit is connected with first sending port or second sending port, specifically For：

The switching circuit is connected with first radio circuit or the second radio circuit.

Optionally, the reception device is radio port.

Optionally, the reception device includes the 3rd radio circuit, the 3rd radio circuit and described control unit phase Even.

Optionally, the radio port is mobile data network interface or Wi-Fi interface.

Optionally, the transmission equipment further includes shell, and the reception device, the processor and the sending device are set It is placed in the shell, the shell sets multiple holes.

Optionally, the transmission equipment further includes power supply and power distribution equipment, and the power supply includes AC power and direct current Source, the AC power and DC power supply are connected respectively with the power distribution equipment, the power distribution equipment respectively with reception device, place Reason device is connected with sending device.

As shown from the above technical solution, the transmission equipment that the utility model embodiment provides, by respectively first and the Two sending devices set counter, by the data volume of the first and second sending device of counters count, and by comparator by each number It being compared according to amount, switching circuit is connected according to comparative result with first sending port or second sending port, from And realize the resource allocation of the first and second sending devices, it can rationally adjust the load of the first and second sending devices.

Description of the drawings

Fig. 1 shows a kind of structure diagram for transmission equipment that the utility model embodiment provides；

Fig. 2 shows a kind of structure diagram for transmission equipment that another embodiment of the utility model provides；

Fig. 3 shows a kind of structure diagram for transmission equipment that another embodiment of the utility model provides；

Fig. 4 shows a kind of structure diagram for transmission equipment that another embodiment of the utility model provides；

Fig. 5 shows a kind of dimensional structure diagram for transmission equipment that another embodiment of the utility model provides；

Fig. 6 shows a kind of left surface schematic diagram for transmission equipment that another embodiment of the utility model provides；

Fig. 7 shows a kind of right flank schematic diagram for transmission equipment that another embodiment of the utility model provides；

Fig. 8 shows a kind of bottom side schematic diagram for transmission equipment that another embodiment of the utility model provides；

Fig. 9 shows a kind of schematic rear view for transmission equipment that another embodiment of the utility model provides；

Figure 10 shows a kind of schematic front view for transmission equipment that another embodiment of the utility model provides；

Figure 11 shows a kind of internal structure schematic diagram for transmission equipment that another embodiment of the utility model provides；

Figure 12 shows a kind of power module structure schematic diagram for transmission equipment that another embodiment of the utility model provides.

Figure 13 shows a kind of reception device structure diagram for transmission equipment that another embodiment of the utility model provides.

Figure 14 shows a kind of sending device structure diagram for transmission equipment that another embodiment of the utility model provides.

Specific embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Attached drawing in type embodiment, is explicitly described the technical scheme in the embodiment of the utility model, it is clear that described reality It is the utility model embodiment part of the embodiment to apply example, instead of all the embodiments.

Fig. 1 shows a kind of structure diagram for transmission equipment that the utility model embodiment provides.

As shown in Figure 1, the transmission equipment that the utility model embodiment provides includes：Reception device 101,102 and of processor Sending device 103, wherein, the processor 102 includes control unit 1021, comparator 1022 and switching circuit 1023, described Sending device 103 includes the first sending device 31 and the second sending device 32, and first sending device 31 includes first and counts 311 and first sending port 312 of device, second sending device 32 include the second counter 321 and the second sending port 322, Described control unit 1021 is connected respectively with the reception device 101 and the switching circuit 1023, and the comparator 1022 divides It is connected with the switching circuit 1023, first counting 311 and second counter 321, the switching circuit 1023 It is connected with first sending port 312 or second sending port 322.

Optionally, the data of the reception device 101 received from external equipment, and transfer to described control unit 23.

Optionally, the hardware realization of the prior art can be used in the reception device 101, such as 100M/1000M network interfaces.

Optionally, described control unit 23 by the data buffer storage of reception to local, and with input/output interface.

Optionally, prior art realization, such as memory can be used in described control unit 23.

Optionally, the sending device 2 may include multiple sending devices, and the present embodiment is illustrated exemplified by two.

Optionally, the workflow of first counter 311 is：

First counter 311 counts the data volume of first sending port 312, and is denoted as the first data volume, institute It states the first counter 311 and first data volume of acquisition is sent to the comparator 1022.

Optionally, the workflow of second counter 321 is similar to the workflow of first counter 311, Second data volume of acquisition is sent to the comparator 1022 by second counter 321.

Optionally, the hardware realization of the prior art can be used in first counter 321 and second counter 322, Such as message register, the software program that the prior art can also be used is realized, makes the data volume of the corresponding sending port of acquisition.

Optionally, the workflow of the processor is：

The comparator 1022 receives the first data volume and the second data volume, and the first data volume and the second data volume are made For the input of comparator, the first data volume and the second data volume are compared by comparator 1022, are exported comparative result, will be compared As a result it is sent to switching circuit 1023.

Optionally, the hardware realization of the prior art can be used in the comparator 1022, such as true-false value comparator, can also be used The software program of the prior art is realized, calculating is made to compare two data volumes.

Optionally, comparative result is binary signal 0 or 1.It is pre- that if the first data volume is more than or equal to the second data volume one Gating limit value represents that the corresponding first sending port network load of the first data volume is larger, then comparative result is 0.

Correspondingly, if the first data volume is not more than one predetermined threshold value of the second data volume, represent that the first data volume corresponds to The first sending port network load it is little, then comparative result is 1.

Optionally, switching circuit 1023 receives the comparative result of comparator 1022, and according to comparative result, generation switching refers to Order, if comparative result is 0, corresponding first sending port, 312 network load of the first data volume is larger, then switching command is to make to cut Circuit 1023 is changed with the second sending port 322 to be connected.

In the present embodiment, different sending ports are realized according to the data volume of sending device 103 by switching circuit 1023 Resource allocation can rationally adjust the load of each sending port, prevent to cause load congestion toward single sending port distribution data.

Optionally, the hardware realization of the prior art can be used in the switching circuit 1023, is such as closed switching circuit, multichannel is opened It closes, the software program that the prior art can also be used is realized, makes the access for establishing comparator and different sending ports.

After switching circuit 1023 is connected with the second sending port 322, control unit 23 will be from the reception device 101 The data of reception are forwarded to switching circuit 1023, and switching circuit 1023 forwards the data to the second sending port 322, for Two sending ports 322 send data to external equipment.

Correspondingly, if comparative result is 1, corresponding first sending port, 312 network load of the first data volume is little, then cuts Instruction is changed as switching circuit 1023 is made to be connected with the first sending port 312.In 1023 and first sending port 312 of switching circuit After being connected, data that control unit 23 will be received from the reception device 101 are forwarded to switching circuit 1023, switching circuit 1023 forward the data to the first sending port 312, so that the first sending port 312 forwards the data to external equipment.

Optionally, first sending port 312 or first sending port 322 are connected with external equipment, and will connect The data of receipts are sent to external equipment.

Optionally, prior art realization can be used in first sending port 312 and first sending port 322, such as 100M/1000M network interfaces.

Transmission equipment provided in this embodiment, at least with following technique effect：By being sent respectively first and second Device set counter, by the data volume of the first and second sending device of counters count, and by comparator by each data volume into Row compares, and switching circuit is connected according to comparative result with first sending port and second sending port, so as to fulfill The resource allocation of first and second sending devices can rationally adjust the load of the first and second sending devices

As shown in Figure 1, on the basis of above-described embodiment, the transmission equipment of another embodiment of the utility model offer, institute Stating transmission equipment includes：

Reception device 101, processor 102 and sending device 103, wherein, the processor 102 includes control unit 1021st, comparator 1022 and switching circuit 1023, the sending device 103 include the first sending device 31 and the second sending device 32, first sending device 31 includes the first counter 311 and the first sending port 312, and second sending device 32 wraps Include the second counter 321 and the second sending port 322, described control unit 1021 respectively with the reception device 101 and described Switching circuit 1023 is connected, and the comparator 1022 counts 311 and described with the switching circuit 1023, described first respectively Second counter 321 is connected, the switching circuit 1023 and first sending port 312 or second sending port 322 It is connected.

Wherein, the selection scheme of the first sending port 312 can there are many, the present embodiment is carried out by taking one way in which as an example Explanation.

Optionally, first sending port 312 is cable port.

Optionally, port can be divided into cable port and radio port according to transmission medium.

Optionally, cable port be 100M/1000M Ethernet interfaces or be FE interfaces (Fast Ethernet, quickly with Too network interface is often referred to 100M)/GE interfaces (Gigabit Ethernet, thousand M Ethernet interfaces), it is set by optical cable and outside Standby connection.

Optionally, first sending port 312 is radio port, and second sending port 322 is cable port.

Optionally, radio port is mobile data network interface, such as 2G/3G/4G/5G interfaces.

By taking 4G (4rd-Generation, fourth generation mobile communication technology) as an example, radio port is using mobile data network The interface of network is connected by wireless network with external equipment.

Optionally, the hardware realization of the prior art can be used in 4G interfaces, such as wireless data transparent transmission device.

Optionally, it is Wi-Fi (Wireless-Fidelity, wireless network) interface to transmit wirelessly port, passes through wireless office Domain net (WLAN) is connected with external equipment.

It is understood that by wired optical cable as transmission medium between two transmission equipments, and wired optical cable is usually embedded In underground, wired optical cable easily damages if unreasonable construction is met with or wired optical cable is by the pilferage of criminal, that is, It says, it is possible to there is the phenomenon that two optical cables interrupt simultaneously, transmission is caused to be obstructed.

The phenomenon that using non-damageable radio port in the present embodiment, Transmission can be avoided the occurrence of.

The transmission equipment of the present embodiment introduces cable port and radio port common transport, solves single optical fiber access side The problem of formula interruption of optical cables causes service disconnection.

The present embodiment other structures are similar to previous embodiment, and the present embodiment repeats no more.

Transmission equipment provided in this embodiment, at least with following technique effect：

By using radio port as the first sending port, the wind brought using flimsy bearing optical fiber business is avoided Danger.

In another embodiment, the selection scheme of the first sending port 312 and the second sending port 322 can have more Kind, the present embodiment is illustrated by taking one way in which as an example.

Optionally, the first sending port 312 and the second sending port 322 are cable port.

That is, the physics routing mainly carried between the transmission equipment and external equipment of the present embodiment is optical cable.Light Cable is made of many optical fiber, is the prevailing transmission instrument of the various Information Networks of current information-intensive society.

In order to which the network for meeting transmission equipment composition can continue to run well, in transmission equipment networking using two not Jljl line of reasoning by optical cable carried, so as to reduce the risk that a direction interruption of optical cables is brought, when the optical cable in a direction During interruption, another optical cable direction of service route of transmission equipment carrying.

Optionally, the first sending port 312 and the second sending port 322 are radio port.

The phenomenon that using non-damageable radio port in the present embodiment, Transmission can be avoided the occurrence of.This implementation The transmission equipment of example introduces radio port transmission, solves the problems, such as that optical fiber connecting method interruption of optical cables causes service disconnection.

By using wireless transmission port as the first sending port or the second sending port, avoid using flimsy light The risk that fine bearer service is brought.

As shown in Fig. 2, on the basis of above-described embodiment, the transmission equipment of another embodiment of the utility model offer, institute Stating transmission equipment includes：

Reception device 101, processor 102 and sending device 103, wherein, the processor 102 includes control unit 1021st, comparator 1022 and switching circuit 1023, the sending device 103 include the first sending device 31 and the second sending device 32, first sending device 31 includes the first counter 311, the first sending port 312 and the first radio circuit 313, described Second sending device 32 includes the second counter 321 and the second sending port 322, and first sending port 312 is wireless side Mouthful, described control unit 1021 is connected respectively with the reception device 101 and the switching circuit 1023, the comparator 1022 It is connected respectively with the switching circuit 1023, first counting 311 and second counter 321, first radio frequency electrical Road 313 is connected with first sending port 312, the switching circuit 1023 and first radio circuit 313 or described the Two sending ports 322 are connected.

The transmission equipment of the present embodiment, on the basis of the transmission equipment of Fig. 1, the first sending port 312 is radio port When, optionally, first sending device 31 further includes the first radio circuit 313, first radio circuit 313 and described the One sending port 312 is connected, correspondingly, the switching circuit and first sending port or the second sending port phase Even, it is specially：

The switching circuit 1023 is connected with first radio circuit 313 or second sending port 322.

Optionally, the workflow of the first radio circuit 313 is：Receive the data that switching circuit 1023 forwards, the number According to for optical signal, optical signal is switched into radiofrequency signal.

Optionally, prior art realization, such as radio frequency communications circuitry can be used in the radio circuit.

Optionally, the radiofrequency signal for carrying data to be sent is forwarded to the first sending port by the first radio circuit 313 312, wirelessly it is sent to external equipment.

Optionally, it is provided with the transmission dress of the volume ratio prior art of the first sending device 31 of the first radio circuit 313 The volume put is big, and when designing card slot, the first sending device 31 can occupy two slot positions.

The data of reception are subjected to signal conversion by using the first radio circuit, to realize wireless transmission.

As shown in figure 3, on the basis of above-described embodiment, the transmission equipment of another embodiment of the utility model offer, institute Stating transmission equipment includes：

Reception device 101, processor 102 and sending device 103, wherein, the processor 102 includes control unit 1021st, comparator 1022 and switching circuit 1023, the sending device 103 include the first sending device 31 and the second sending device 32, first sending device 31 includes the first counter 311, the first sending port 312 and the first radio circuit 313, described Second sending device 32 includes the second counter 321, the second sending port 322 and the second radio circuit 323, and described first sends 312 and second sending port 322 of port is radio port, described control unit 1021 respectively with the reception device 101 and The switching circuit 1023 is connected, and the comparator 1022 counts 311 and institute with the switching circuit 1023, described first respectively It states the second counter 321 to be connected, first radio circuit 313 is connected with first sending port 312, first radio frequency Circuit 313 is connected with second sending port 322, the switching circuit 1023 and first radio circuit 313 or the second Radio circuit 323 is connected.

The transmission equipment of the present embodiment, on the basis of the transmission equipment of Fig. 1, first sending port 312 and second Sending port 322 is radio port, and optionally, first sending device 31 further includes the first radio circuit 313, and described One radio circuit 313 is connected with first sending port 312, and second sending device 32 further includes the second radio circuit 323, second radio circuit 323 is connected with second sending port 322, correspondingly, the switching circuit and described the One sending port or second sending port are connected, and are specially：

The switching circuit 1023 is connected with 313 or second radio circuit 323 of the first radio circuit.

Optionally, the workflow of the second radio circuit 323 is similar to the first radio circuit 313, by adaptive switched circuit 1023 data to be sent (optical signal) obtained are converted to radiofrequency signal, and are forwarded to the second sending port 322, for the second hair Sending end mouth 322 is wirelessly sent to external equipment.

The data of reception are subjected to signal conversion by using the first radio circuit and the second radio circuit, it is wireless to realize Transmission.

Reception device 101, processor 102 and sending device 103, wherein, the processor 102 includes control unit 1021st, comparator 1022 and switching circuit 1023, the sending device 103 include the first sending device 31 and the second sending device 32, first sending device 31 includes the first counter 311 and the first sending port 312, and second sending device 32 wraps Include the second counter 321 and the second sending port 322, described control unit 1021 respectively with the reception device 101 and described Switching circuit 1023 is connected, and the comparator 1022 counts 311 and described with the switching circuit 1023, described first respectively Second counter 321 is connected, the switching circuit 1023 and first sending port 312 or second sending port 322 It is connected, the reception device 101 is radio port.

Wherein, the selection of reception device 101 can be there are many mode, and the present embodiment to be illustrated exemplified by two kinds.

Optionally, the reception device 101 is radio port.

Optionally, cable port is 100M/1000M Ethernet interfaces or is FE interfaces/GE interfaces, by optical cable and outside Portion's equipment connection.

Optionally, radio port is Wi-Fi interface, is connected by WLAN (WLAN) with external equipment.

It is to be appreciated that each transmission equipment annular is connected, if the sending device of a transmission equipment sends wire signal (such as Optical signal), then the reception device of next transmission equipment receives wire signal.

Correspondingly, if the sending device of a transmission equipment sends wireless signal, the reception device of next transmission equipment needs The reception device of wireless signal can be received by setting.

By reception device using radio port, to realize the wireless transmission of two transmission equipments.

As shown in figure 4, on the basis of above-described embodiment, the transmission equipment of another embodiment of the utility model offer, institute Stating transmission equipment includes：

Reception device 101, processor 102 and sending device 103, wherein, the reception device 101 includes the 3rd radio frequency Circuit 1011, the processor 102 include control unit 1021, comparator 1022 and switching circuit 1023, the sending device 103 include the first sending device 31 and the second sending device 32, and first sending device 31 includes 311 He of the first counter First sending port 312, second sending device 32 include the second counter 321 and the second sending port 322, the reception Device 101 be radio port, described control unit 1021 respectively with the 3rd radio circuit 1011 and the switching circuit 1023 are connected, and the comparator 1022 counts 311 and second counter with the switching circuit 1023, described first respectively 321 are connected, and the switching circuit 1023 is connected with first sending port 312 or second sending port 322.

The transmission equipment of the present embodiment, on the basis of the transmission equipment of Fig. 1, the reception device 101 is radio port When, optionally, the reception device 101 includes the 3rd radio circuit 1011, the 3rd radio circuit 1011 and the control Unit 1021 is connected.

Optionally, the workflow of the 3rd radio circuit 1011 is：The data that external equipment is sent are received, the data are Radiofrequency signal is switched to optical signal by radiofrequency signal.

Optionally, the optical signal for carrying data to be sent is forwarded to control unit 1021, light by the 3rd radio circuit 1011 Signal is sent to successively by switching circuit in a manner that the first sending port 312 or the second sending port 322 are by optical fiber External equipment.

The data of reception are subjected to signal conversion by using the 3rd radio circuit, to realize signal transmission.

Shell, reception device 101, processor 102 and sending device 103, the reception device 101, the processor 102 It being arranged at the sending device 103 in the shell, the shell sets multiple holes, wherein, the processor 102 includes Control unit 1021, comparator 1022 and switching circuit 1023, the sending device 103 include the first sending device 31 and the 22, first sending device 31 includes the first counter 311 and the first sending port 312, and second sending device 32 wraps Include the second counter 321 and the second sending port 322, described control unit 1021 respectively with the reception device 101 and described Switching circuit 1023 is connected, and the comparator 1022 counts 311 and described with the switching circuit 1023, described first respectively Second counter 321 is connected, the switching circuit 1023 and first sending port 312 or second sending port 322 It is connected.

The transmission equipment of the present embodiment, on the basis of the transmission equipment of Fig. 1, optionally, the transmission equipment further includes Shell, the reception device 101, the processor 102 and the sending device 103 are arranged in the shell, the shell Multiple holes are set.

Shell not shown in Fig. 1, shell is by the reception device 101, the processor 102 and the sending device 103 It surrounds.

Optionally, shell is rectangle, and described shell the upper surface of is described outer removably to close non-porous metal plate housing The bottom surface and two sides of shell are equipped with multiple holes, for improving the heat dissipation effect of transmission equipment.

By using the shell for setting hole, it is easy to transmission equipment and radiates.

Power supply, power distribution equipment, reception device 101, processor 102 and sending device 103, the power supply include AC power And DC power supply, wherein, the AC power and DC power supply are connected respectively with the power distribution equipment, the power distribution equipment difference It is connected with reception device 101, processor 102 and sending device 103, the processor 102 includes control unit 1021, compares Device 1022 and switching circuit 1023, the sending device 103 include the first sending device 31 and the second sending device 32, and described the One sending device 31 includes the first counter 311 and the first sending port 312, and second sending device 32 includes second and counts 321 and second sending port 322 of device, described control unit 1021 respectively with the reception device 101 and the switching circuit 1023 are connected, and the comparator 1022 counts 311 and second counter with the switching circuit 1023, described first respectively 321 are connected, and the switching circuit 1023 is connected with first sending port 312 or second sending port 322.

The transmission equipment of the present embodiment, on the basis of the transmission equipment of Fig. 1, optionally, the transmission equipment further includes Power supply and power distribution equipment, the power supply include AC power and DC power supply, the AC power and DC power supply respectively with institute It states power distribution equipment to be connected, the power distribution equipment is connected respectively with reception device, processor and sending device.

Power supply and power distribution equipment not shown in Fig. 1, power supply include AC power and DC power supply, and power distribution equipment can access friendship Galvanic electricity source and access DC power supply.

Optionally, the workflow of power distribution equipment is the fortune according to reception device 101, processor 102 and sending device 103 Row state carries out reasonable distribution.

Optionally, the power distribution equipment is measurable and controls the distribution of electric energy, and prior art realization can be used.

It is understood that the transmission equipment distribution of the present embodiment rationally can access AC power and access DC power supply, Provide quick and safe plant-grid connection.

By using AC power and DC power supply, and pass through power distribution equipment and carry out reasonable distribution, can be connect for transmission equipment Enter AC power and access DC power supply, provide quick and safe plant-grid connection.

In order to more fully understand the technology contents of the utility model, on the basis of above-described embodiment, this reality is described in detail The transmission equipment of example offer is provided.

Transmission equipment may include the optical cable carrying transmission of both direction in the prior art, and business can only concentrate on one of them A business direction transmission wherein is transmitted or is manually specified in optical cable carrying on direction, carries out business when interrupting again Switch, carry out the transmission in another direction.

Before service disconnection, the optical cable long-time overload operation in a direction, it is likely that network congestion will be caused, and The optical cable in another direction is in idle condition, and the utilization rate of two cable resources is not high.

The defects of for the prior art, the utility model proposes a kind of transmission equipment, including rectangular metal plate framework (size 60cm*30cm*8.89cm), described transmission equipment the upper surface of are to close non-porous metal plate housing (detachable), the biography The bottom surface and two sides of transfer device are equipped with aperture, and for improving heat dissipation effect, the framework back side is provided with power switch, hand over Flow power input interface and direct power input interface, the front (inside) of the transmission equipment have successively fan, reception device, Processor and sending device.

Fig. 5 shows a kind of dimensional structure diagram for transmission equipment that the utility model embodiment provides.

As shown in figure 5, the transmission equipment includes rectangle sheet metal shell 1, external dimensions is width * depths * high=60cm* 30cm*8.89m, the shell are that a framework, framework the upper surface of is to close non-perforated shell 2, size 60cm*30cm, and removable It unloads, the purpose of closing is dust-break.

Fig. 6 shows a kind of left surface schematic diagram for transmission equipment that the utility model embodiment provides.

Fig. 7 shows a kind of right flank schematic diagram for transmission equipment that the utility model embodiment provides.

Fig. 8 shows a kind of bottom side schematic diagram for transmission equipment that the utility model embodiment provides.

As shown in Figure 6 to 8, the two sides 3,5 of the framework, size 8.89cm*30cm, the size of bottom surface 6 are 60cm*30cm, and two sides and bottom surface are equipped with heat dissipation hole 8, it is therefore intended that improve ventilation and heat.

Fig. 9 shows a kind of schematic rear view for transmission equipment that the utility model embodiment provides.

As shown in figure 9, there is nut bore 9 at the framework back side 7, for fixation can framework top shell, the framework back side is also pacified Equipped with AC power interface 10, power switch 11 and direct power interface 12.

Figure 10 shows a kind of schematic front view for transmission equipment that the utility model embodiment provides.

As shown in Figure 10, there are fan 13, processor 102, reception device 101 and sending device in the framework front 4 successively 103.And the reception device 101 includes 14,4 mouthfuls of 100M/1000M network interface datas of reserved data receiving module slot and connects 15,8 mouthfuls of FE/GE optical ports data reception modules 16 of module are received, the data reception module is can hot plugging module.

It (can be the first transmitting terminal that the sending device 103, which includes 4 mouthfuls of GE/10GE optical ports data transmission blocks 18, Mouthful), wireless 4G sending modules (can be the second sending port), account for double flute position 19, the data transmission blocks be can heat it is slotting Molding block.

Figure 11 is a kind of internal structure schematic diagram for transmission equipment that the utility model embodiment provides.

As shown in figure 11, the inside of the utility model transmission equipment includes power module 23, and back side mainboard 22 receives dress 101 are put, processor 102, sending device 103 5 is largely.

Figure 12 is a kind of power module structure schematic diagram for transmission equipment that the utility model embodiment provides.

As shown in figure 12, power module 23 includes power supply and power distribution equipment, and the power supply includes AC power and direct current Source, the AC power and DC power supply are connected respectively with the power distribution equipment, the power distribution equipment respectively with reception device 101st, processor 102 is connected with sending device 103.

48V of the power distribution equipment needed for external alternating current 220V power supply or direct current 48V power conversions into back side mainboard Power supply is back side mainboard, reception device, processor and sending device power supply.

The output terminal of power module 23 is connected with the input terminal of back side mainboard, the output terminal of reception device (or input End) it is connected with the input terminal (or output terminal) of back side mainboard, output terminal (or input terminal) and the processor of back side mainboard input End (or output terminal) is connected, and the output terminal (or input terminal) of back side mainboard is connected with the input terminal (or output terminal) of sending device It connects.

That is, power module 23 is connected with back side mainboard 22, and rearwardly mainboard provides direct current 48V power supplys；It receives Device 101 is connected with back side mainboard 22, and mutual data transmission and provides power supply for reception device；Processor 102 and the back of the body Face mainboard 22 connects, and mutual data transmission and provides power supply for processor；Sending device 103 connects with back side mainboard 22 It connects, and mutual data transmission and provides power supply for sending device.

The power module 23 includes power supply changeover device 27.Its function of power supply changeover device is the 220V exchanges for that will access Power supply is converted into direct current 48V power supplys.

Back side mainboard 22 provides PCI (Peripheral for reception device 101, processor 102 and sending device 103 Component Interconnection, peripheral element extension interface) slot and power supply, pass through 22 bandwidth of back side mainboard and bridge Data transmission between reception device 101 and processor 102 and sending device 103, between the back side mainboard 22 and each device It is connected by way of electrical interface.

Illustrate, back side mainboard 22 is reception device 101, processor 102, sending device 103 provide power supply and The direct transmission of data is provided, does not make any data processing.Data biography is such as provided between reception device 101 and processor 102 Defeated passage provides data transmission channel between processor 102 and sending device 103.

Figure 13 is a kind of reception device structure diagram for transmission equipment that the utility model embodiment provides.

As shown in figure 13, reception device 101 passes through the 100M/1000M Ethernet interfaces or FE interfaces (Fast that carry Ethernet, fastethernet interface are often referred to 100M)/GE interfaces (Gigabit Ethernet, thousand M Ethernet interfaces) light Mouthful receive the external data flow to come, and be connected by electrical interface with back side mainboard 22, so as to by back side mainboard realize by Data stream is to processor 102.

Specifically, the reception device 101 includes reserved socket module 14, ethernet data acceptance module 15, optical interface Data reception module 16

Wherein, optical interface module either ethernet interface module can be installed by reserving slotting mould module 14, for receiving light Signal or ethernet signal.

The function of Ethernet interface data reception module 15 is for receiving the external Ethernet service to come, port number Can be 4,8 etc., the present embodiment preferably 4 ports, port speed can be 100M, 1000M etc., and the present embodiment is preferably 100M/ 1000M can be with support module, and operating mode, which had both been chosen as full-duplex mode, can also elect half-duplex or auto-negotiation module as.Its Input terminal is connected with external data link, and for receiving Ethernet service, output terminal is connected with back side mainboard 22, is used for The Ethernet service being externally received is passed into back side mainboard.

The function of optical interface data reception module 16 is to receive the external optical signal business to come, and is changed into electric signal, It is ultimately delivered to back side mainboard 22.Its port number can be 4,8 etc., and preferential 8 ports of the present embodiment illustrate, port speed Rate can be with FE, GE etc..Its input terminal is connected with external fiber link, for receiving the light letter that external fiber link sends over Number, output terminal is connected with back side mainboard 22, for transformed electric signal to be transmitted to back side mainboard.

It specializes, each slot position can support ethernet interface module and optical interface module, and the present embodiment is with an ether Network interface module and an optical interface module illustrate for preferred embodiment.Each slot position can support hot plugging.

As shown in figure 11, processor 102 is connected with back side mainboard by electrical interface mode, and it is single that processor 102 includes control Member, comparator and switching circuit, control unit receive the data flow of the reception device 101, comparator root from back side mainboard 22 It according to the network load situation of the sending device, is compared, obtains comparative result, comparative result can be low and high level, also may be used To carry the accounting of data volume, switching circuit is allocated data packet according to comparative result, is transmitted to pair by back side mainboard The sending port for the sending device answered.

The processor includes control unit 1021, comparator 1022 and switching circuit 1023.

Control unit 1021 is to the Various types of data stream of reception by specific parameter according to progress top grade sequence.Its input terminal and the back of the body Face mainboard is connected, for receiving (reception device 101) Various types of data stream that back side mainboard forwards.Its output terminal is with cutting It changes circuit 1023 to be connected, data is forwarded to switching circuit 1023 for according to priority order.

First sending device includes the first counter and the first sending port, and second sending device includes second Counter and the second sending port, the first counter and the second counter calculate the data volume of each sending port, and data volume can table Show current network condition.

Comparator 1022 calculates the data volume of each sending port for accessing the first counter and the second counter, that is, sends The Network status parameter information that device is fed back to, the data volume received is compared,

The input terminal of switching circuit 1023 is connected with control unit 1021, comparator, and an input terminal reception has priority Other data flow, another input terminal are connected with comparator 1022, and output and the sending device of switching circuit 1023 carry out phase Even, for transmitting data flow.

Figure 14 is a kind of sending device structure diagram for transmission equipment that the utility model embodiment provides.

As shown in figure 14, sending device 103 includes the first sending device and the second sending device, and sending device is from back side master Plate receives the switching command of switching circuit, according to the data volume that comes of switching command distribution, by GE/10GE optical fiber interfaces or Wireless 4G interfaces send data to be sent to the first sending device or the second sending device.

First sending device is optical interface data transmission blocks 18, and the second sending device is wireless 4G data transmission blocks 19。

Wherein, the electric signal that optical interface data transmission blocks come back side mainboard carries out opto-electronic conversion into optical signal, then External fiber link is sent.Its port number of its end can be 4,8 etc., and preferential 8 ports of the present embodiment illustrate, end Mouthful rate can with GE, 10GE etc., for realize data it is more excellent, it is very fast, more dispatch, the preferred data sending mould of higher rate Block.Its input terminal is connected with back side mainboard 22, for receiving the electric signal that back side mainboard comes, output terminal and outside Fiber link connects, for sending optical signal toward destination.

Wireless 4G data transmission blocks include radio circuit, and the data that back side mainboard sends over are switched to penetrate by radio circuit Frequency signal, and wirelessly send.Its volume is big compared with optical interface data transmission blocks, need to occupy two slot positions.

It specializes, each slot position of sending device can support optical interface module and wireless 4G modules, when slotting wireless 4G modules When need to occupy double flute position.Each slot position can support hot plugging.

1st, counter is set by the sending device in transmission equipment, by the data volume of counters count sending device, and Comparator and switching circuit in processor are set, are compared the data volume of each sending device by comparator, by switching circuit Sending device is selected according to comparative result, so as to fulfill the resource allocation of sending device is realized according to the data volume of sending device, The load of each sending device can be rationally adjusted, realizes that the resource of each sending device is effectively dispatched.Existing transmission is not only compensated for set The deficiency of standby data dispatch to data balanced transmission, also reduces the burden of network, improves the efficiency of transmission.

2nd, the sending device of the utility model transmission equipment includes linear light fibre transmitting element and wireless 4G sends list Member, the relation protected each other solve the problems, such as single optical fiber link direct interrupting service in interruption of optical cables, ensure that data Stream will not interrupt, i.e., after the network of one of transmitting path breaks down, therefore the transmission of signal will not be interrupted, improve The reliability of transmission equipment.

3rd, this reality new function is complete, and overall outer dimensions are compact, and equipment distribution is reasonable, facilitates plant-grid connection.

It will be appreciated by those of skill in the art that although some embodiments described herein include being wrapped in other embodiments The some features rather than other feature included, but the combination of the feature of different embodiments means the model in the utility model Within enclosing and form different embodiments.

It will be understood by those skilled in the art that each step in embodiment can with hardware realization or at one or The software module run on the multiple processors of person is realized or realized with combination thereof.Those skilled in the art should manage Solution, can be realized using microprocessor or digital signal processor (DSP) according to the utility model embodiment in practice Some or all components some or all functions.The utility model is also implemented as performing described here Transmission equipment some or all equipment or program of device (for example, computer program and computer program production Product).

Although being described in conjunction with the accompanying the embodiment of the utility model, those skilled in the art can not depart from Various modifications and variations are made in the case of the spirit and scope of the utility model, such modifications and variations are each fallen within by appended Within claim limited range.

Claims

1. a kind of transmission equipment, which is characterized in that the transmission equipment includes：Reception device, processor and sending device, In, the processor includes control unit, comparator and switching circuit, and the sending device includes the first sending device and second Sending device, first sending device include the first counter and the first sending port, and second sending device includes the Two counters and the second sending port, described control unit is connected respectively with the reception device and the switching circuit, described Comparator respectively with the switching circuit, it is described first count and second counter be connected, the switching circuit with it is described First sending port or second sending port are connected.

2. transmission equipment according to claim 1, it is characterised in that：First sending port is cable port.

3. transmission equipment according to claim 1, it is characterised in that：First sending port is radio port.

4. transmission equipment according to claim 3, it is characterised in that：First sending device further includes the first radio frequency electrical Road, first radio circuit are connected with first sending port, correspondingly, the switching circuit and first transmitting terminal Mouth or second sending port are connected, and are specially：

5. transmission equipment according to claim 1, it is characterised in that:First sending port and second transmitting terminal Mouth is radio port.

6. transmission equipment according to claim 5, it is characterised in that：First sending device further includes the first radio frequency electrical Road, first radio circuit are connected with first sending port, and second sending device further includes the second radio circuit, Second radio circuit is connected with second sending port, correspondingly, the switching circuit and first sending port Or second sending port is connected, and is specially：

7. transmission equipment according to claim 1, it is characterised in that：The reception device is radio port.

8. transmission equipment according to claim 7, it is characterised in that：The reception device includes the 3rd radio circuit, institute The 3rd radio circuit is stated with described control unit to be connected.

9. according to claim 3-8 any one of them transmission equipments, it is characterised in that：The radio port is mobile data network Network interface or Wi-Fi interface.

10. transmission equipment according to claim 1, it is characterised in that：The transmission equipment further includes shell, the reception Device, the processor and the sending device are arranged in the shell, and the shell sets multiple holes.