CN207651172U - Multi-disk big data hard disk Intelligent clone equipment - Google Patents

Abstract

The utility model discloses a kind of Multi-disk big data hard disk Intelligent clone equipment comprising device housings, device housings are equipped with radiator structure.The device housings are equipped at least one hard disk slot for placing hard disk, and the radiator structure includes heat emission hole, the fan hole on device housings and the radiator fan being installed at the fan hole being set on hard disk slot.Thus, it is possible in hard disk operational, radiate to hard disk, the data processing rate caused by hard disk overheats is avoided to reduce and be easily damaged bad.

Description

Multi-disk big data hard disk Intelligent clone equipment

Technical field

The utility model is related to a kind of disk copy device, more particularly to a kind of Multi-disk big data hard disk Intelligent clone is set It is standby.

Background technology

Traditional mobile hard disk seat needs that the copy work between hard disk could be carried out in the case where connecting computer, to electricity The degree of dependence of brain is excessively high, when needing to carry out the data copy between two hard disks in the case of no computer sometimes, just can not It realizes, it is very inconvenient.In order to solve this problem, also there are some disk copy devices for capableing of off line copy, such as Application No. is 201220620093.4 Chinese utility model patents to disclose a kind of Multi-disk disk copy machine, realizes de- The demand of machine copy.But for the off line disk copy device of Multi-disk, because data processing amount is bigger, it is easy to Fever is led to the problem of, the service life of data processing speed and disk copy device is seriously affected.

Furthermore it is possible to realize the disk copy device of off line copy due to needing off-line working, internal structure opposite Complexity, especially internal wiring structure is more, also results in disk copy device and is susceptible to problem, such as circuit is easily damaged Lead to communication failure etc..

Utility model content

The purpose of this utility model is to provide a kind of Multi-disk big data hard disk Intelligent clone equipment, by the way that heat dissipation knot is arranged Communication mode between structure and control module, solve existing disk copy device because fever influence data processing speed and service life with And line construction it is complicated and the problem of be easily damaged.

One side according to the present utility model provides a kind of Multi-disk big data hard disk Intelligent clone equipment, packet Device housings are included, device housings are equipped with radiator structure.Thus, it is possible in hard disk operational, radiate to hard disk, avoid because Data processing rate is reduced and is easily damaged bad caused by hard disk overheat.

In some embodiments, device housings are equipped at least one hard disk slot for placing hard disk, heat dissipation knot Structure includes heat emission hole, the fan hole on device housings and the radiation air being installed at fan hole being set on hard disk slot Fan.Heat emission hole, fan hole and radiator fan form heat dissipation channel together as a result, and flow of cooled air is from the heat dissipation on hard disk slot Hole enters in equipment, radiates to the hard disk in equipment, and radiator fan extracts the air-flow of heating from fan hole out, real Existing air-flow exchanges, and then realizes and radiate to hard disk and cloned devices.

In some embodiments, cloned devices further include fixing bracket, for carrying out data processing according to peripheral operation Main control module and secondary control module for carrying out hard disk read-write operations according to the signal of main control module, wherein device housings and Be formed with space between hard disk slot, pair control module is fixed on by fixing bracket on hard disk slot, and positioned at device housings and In space between hard disk slot, main control module setting is connected to device housings and hard disk and inserts above pair control module On slot.By the way that main control module and secondary control module is arranged, the cloned devices of the utility model both can carry out data using computer and copy Shellfish, can also off line carry out data copy, also, can also realize heat dissipation in copy procedure, both meet intelligent requirement, and Meet the requirement of heat dissipation, performance higher.

In some embodiments, heat emission hole is arranged on the horizontal protrusions of hard disk slot and through the bottom of device housings Portion, being formed on the side in space with hard disk slot in device housings is arranged in fan hole, and is connected to the space.In this way, main Control module and secondary control module are also disposed in heat dissipation wind channel, can also be to main control module while radiating to hard disk It radiates with pair control module, improves the service life of cloned devices.

In some embodiments, heat emission hole is strip through-hole, and fan hole is matched with the shape of fan.The through-hole of bar shaped, The contact area bigger of air-flow and equipment, heat dissipation effect is more preferable, and fan hole is arranged to match with the shape of fan, Neng Goujin Possible reduction convection current ensures heat dissipation effect.Moreover, the dust-proof effect inside equipment can be more preferable.

In some embodiments, secondary control module is equipped with hard-disk interface corresponding with hard disk slot, hard disk slot with It is provided with and the matched opening of hard-disk interface on the one side in device housings formation space.Facilitate as a result, and hard disk is passed through into hard disk Slot is docked with pair control module, and is arranged on the one side for forming space, and hard-disk interface can be preferably protected.

In some embodiments, the DC-DC to connect one to one with each hard-disk interface is additionally provided in secondary control module to turn Circuit is changed, the power input of DC-DC conversion circuits is connected to the power supply adaptor of main control module, the electricity of DC-DC conversion circuits Source output terminal is connected to the 5V power voltage supply interfaces of corresponding hard-disk interface.By the way that DC-DC conversion circuits are arranged to power adaptation The voltage of device is converted, and by transformed voltage output to hard-disk interface, may be implemented to the independently-powered of hard-disk interface, So that the voltage of hard-disk interface is more stable, the readwrite performance of whole equipment is improved.

In some embodiments, hard disk slot include the first hard disk slot, the second hard disk slot, third hard disk slot, 4th hard disk slot and the 5th hard disk slot, pair are controlled and are provided with the first hard-disk interface, the second hard-disk interface, third hard disk in module Interface, the 4th hard-disk interface and the 5th hard-disk interface, and the first conversion circuit being connect with the first hard-disk interface and second is firmly Second conversion circuit of disk interface connection, the third conversion circuit being connect with third hard-disk interface are connect with the 4th hard-disk interface The 4th conversion circuit and the 5th conversion circuit that is connect with the 5th hard-disk interface.It is possible thereby to meet at most hard to five simultaneously Disk carries out the processing of independently-powered and data clone, data process effects higher.

In some embodiments, wherein main control module is connected with pair control module by gold finger plate card slot mode.By This, the data communication efficiency higher between main control module and secondary control module, and the internal wiring of cloned devices is reduced, in reduction Portion's structure improves the overall performance of cloned devices.

In some embodiments, wherein pair control module is equipped with golden finger interface, and main control module is equipped with and is connect with golden finger The matched slot of mouth.Thus, it is possible to realize the PCIE connections between main control module and secondary control module.

Description of the drawings

Fig. 1 is a kind of structural representation of the Multi-disk big data hard disk Intelligent clone equipment of embodiment of the utility model Figure；

Fig. 2 is the explosive view of Multi-disk big data hard disk Intelligent clone equipment shown in FIG. 1；

Fig. 3 is the rearview of Multi-disk big data hard disk Intelligent clone equipment shown in Fig. 1；

Fig. 4 is being fitted without main control module and secondary control mould for Multi-disk big data hard disk Intelligent clone equipment shown in Fig. 1 Upward view in the state of block and bottom plate；

Fig. 5 is only being mounted with secondary control module for Multi-disk big data hard disk Intelligent clone equipment shown in FIG. 1, does not pacify Fill the upward view under main control module and bottom plate state；

Fig. 6 is the fragmentary sectional view of Multi-disk big data hard disk Intelligent clone equipment shown in FIG. 1；

Fig. 7 is the support bracket fastened structure chart in Multi-disk big data hard disk Intelligent clone equipment shown in FIG. 1；

Fig. 8 is the company of the main control module and secondary control module in Multi-disk big data hard disk Intelligent clone equipment shown in FIG. 1 Connect relation schematic diagram；

Fig. 9 is the usage state diagram of Multi-disk big data hard disk Intelligent clone equipment shown in FIG. 1.

Specific implementation mode

Utility model will be further described in detail below with reference to the attached drawings and specific embodiments.

Fig. 1 to Fig. 9 schematically shows a kind of intelligent gram of the Multi-disk big data hard disk of embodiment of the utility model The structure of grand equipment.

Fig. 1 is the stereochemical structure of the Multi-disk big data hard disk Intelligent clone equipment of the utility model embodiment, and Fig. 2 is should The detonation configuration of cloned devices.As illustrated in fig. 1 and 2, which includes device housings 7, instruction lamp control module 4, master control Module 12, secondary control module 8, shell bottom plate 14, fixing bracket 11 and fan 10.Wherein, device housings 7 are equipped with hard for placing At least one hard disk slot 71 of disk and the control panel 1 for showing cloned devices working condition.Indicate 4 He of lamp control module Pair control module 8 is connect with main control module 12 respectively, and main control module 12 generates phase for receiving peripheral operation, and according to peripheral operation The control signal answered is exported to instruction lamp control module 4 and secondary control module 8, to realize the hard disk to being positioned in hard disk slot 71 2 operation.Instruction lamp control module 4 is connect with control panel 1, for being controlled on control panel 1, pair control module 8 to be used It is connect in the hard disk 2 being placed in hard disk slot 71, realizes the read-write operation to hard disk 2.Wherein, the utility model embodiment Cloned devices on be additionally provided with radiator structure, to radiate to hard disk.As shown in Figure 1, the radiator structure is to be arranged hard Heat emission hole 76 on disk slot 71, which is arranged on the horizontal protrusions 714 of hard disk slot 71, and and device housings 7 bottom connection.In this way, in hard disk operational, the both sides of each hard disk have heat emission hole 76 to radiate it, can be to avoid because hard Disk temperature is excessively high to cause data processing speed to reduce.

Preferably, the radiator structure of the cloned devices of the utility model embodiment is in addition to including the heat dissipation on hard disk slot 71 Except hole 76, it may be arranged as including the fan hole 75 being set on device housings 7 and the fan 10 being installed at fan hole. Fig. 3 and Fig. 4 shows in being provided with the embodiment of fan hole and radiator fan, the optimum position structure of fan hole and fan. Due to the hard disk slot 71 formed on device housings 7 be towards a side opening, the opening for placing hard disk 2, and with opening The hard disk slot 71 of opposite side has vertical peripheral wall, which is used to block hard disk 2 (shown in Figure 1), Therefore, this structure based on hard disk slot 71, it is preferable that as shown in figure 4, can hard disk slot 71 vertical peripheral wall and set There are certain space 3 between standby shell 7, and fan hole 75 is just arranged and forms space 3 in device housings 7 and vertical peripheral wall Side on, and fan 10 then be located at the space 3 in, and corresponding to fan hole 75 install.As shown in figure 3, can be in fan hole Installation screw is set around 75, fan 10 to be mounted at fan hole 75 by fan fixed screw 9 shown in Fig. 2.This Sample, as shown in figs. 1 and 4, due to heat emission hole 76 be by the surface of hard disk slot 71 through entire horizontal protrusions 714 and and equipment The bottom connection of shell 7, therefore, extraneous relatively cold airflow can enter the bottom of device housings 7 by heat emission hole 76, go forward side by side And circulate in the space 3 that hard disk slot 71 and device housings 7 are formed, and the fan 10 in the space 3 will just carry out The air-flow of the heating of heat exchange is extracted out from fan hole 75, to realizing the heat dissipation to hard disk 2.In this way, when the number in hard disk And adstante febre longer according to larger, operating time, can in time radiate to hard disk, prevent it from becoming because of overheat data processing speed Slow or damage.

In order to make full use of radiator structure, i.e., while to Hard disk heat radiation, also by the radiator structure to other electronics Element such as main control module 12 and secondary control module 8 radiate, to ensure working performance and the service life of cloned devices, such as the institutes of Fig. 4 to 7 Show, in the utility model embodiment, is also provided with main control module 12 and pair in 7 bottom of decanning facility and the bottom of hard disk slot 71 The mounting structure for controlling module 8, by main control module and secondary control module 8 is also mounted at decanning facility 7 and hard disk slot 71 is formed In space 3, that is, it is in the air duct that heat emission hole 76, fan 10 and fan hole 75 are formed.Fig. 4 is main control module 12, secondary control module 8 When not installed with shell bottom plate 14, the upward view of the cloned devices shown from 7 bottom views of device housings, as shown in figure 4, Device housings 7 are equipped with holder fixing groove 73, secondary control module fixing groove 74 and main control module fixing groove 72, on hard disk slot 71 Equipped with opening 713, the long threaded rod 712 for fixing main control module 12 and the short stud 711 for fixing fixing bracket 11.Accordingly Ground, as shown in figure 8, secondary control module 8 includes hard-disk interface 82 and golden finger interface 81, main control module 12 is equipped with 122 He of through-hole With 81 matched slot 121 of golden finger interface, pair control module 8 and main control module 12 are real by golden finger interface 81 and slot 121 Existing PCIE connections.

In this way, by the mounting structure of 7 bottom of decanning facility and the bottom of hard disk slot 71, secondary control module 8 and master are carried out Controlling the detailed process of the installation of module 12 can be embodied as：First, by pair control module 8 along with device housings 7 and hard disk slot The space is inserted into the direction that the side in 71 formation spaces is parallel, and the hard-disk interface 82 in secondary control module 8 is passed through hard disk slot Opening 713 on 71 is pierced by, and the bottom of secondary control module 8 is inserted into the secondary control module fixing groove 74 on device housings 7.It Afterwards, pair control module 8 is fixed by fixing bracket 11.As shown in fig. 7, the fixing bracket 11 in the utility model embodiment includes There is in fixed seat 111 screw hole 1111 and screens 1112, fixed column 112 to be equipped with strip for fixed column 112 and fixed seat 111 1121, the length of strip 1121 is less than the length of fixed column 112, to form insertion section 1122 in the end of fixed column 112. After pair control module 8 is placed, the branch that the insertion section 1122 of the fixed column 112 of fixing bracket 11 is inserted on device housings 7 In frame fixing groove 73, fixed seat 111 is pressed on to the bottom of hard disk slot 71, and makes 712 He of long threaded rod on hard disk slot 71 Short stud 711 is pierced by from the screw hole 1111 in fixed seat 111.Later, short stud 711 is locked by rack screw 6.Such strip 1121 make the insertion section 1122 of fixed column 112 be firmly secured in the holder fixing groove 73 of device housings 7, and rack screw 6 make fixed seat 111 be firmly secured on hard disk slot 71, and fixing bracket 11 is thus separately fixed at 7 He of device housings On hard disk slot 71, the screens 1112 in such fixed seat 111 is stuck in the upper edge of secondary control module 8, and fixed column 112 resist it is whole A secondary control module 8 so that pair control module 8 is firmly secured on hard disk slot 71, and is located at device housings 7 and hard disk slot 71 Between space in (as shown in Figure 6).After installing fixing bracket 11, installation main control module 12 is then continued to, first will Main control module 12 presses on fixing bracket 11, and two through-holes 122 are passed through long threaded rod 712, by the separate of main control module 12 Two ends of a side of two through-holes 122 are inserted into the main control module fixing groove 72 on device housings 7, and make secondary control mould The golden finger interface 81 of block 8 is inserted into slot 121, finally by screw lock long spiro nail 712, to realize to main control module 12 fixation.

In the utility model embodiment, power supply adaptor, USB interface, operating mode control are additionally provided on main control module 12 Button and switch processed, it is corresponding with the function module of main control module 12 on the side equipped with fan hole 75 of relevant device shell 7 Position is additionally provided with power supply position 77, switch position 5, USB interface position 78 and operating mode control button position 79 (as shown in Figure 3), to So that after main control module 12 installs, corresponding button and interface expose from device housings 7, with user-friendly.And Main control module 12 then receives external power supply input by the power adaptor interface of exposing, and external equipment is connected by USB interface If computer receives external device instruction, by operating mode control button receive user to the selection of operating mode (such as button to A left side, which is stirred, indicates off line copy, and indicates to connect with external equipment to the right to copy external data on hard disk to) input, by opening Close the booting for receiving cloned devices or power-off operation.Main control module 12 receive these operation after, just to operate judge, Corresponding control signal is generated according to judging result to export to pair control module 8 and instruction lamp control module 4, pair control 8 basis of module Control signal is written and read operation by hard-disk interface to hard disk, and indicates lamp control module 4 then according to control signal to control The output dispaly state of panel 1 is controlled.

Wherein, in a particular embodiment, the number of the hard disk slot 71 of cloned devices can be arranged according to demand, to be applicable in Need the requirement of hard disk quantity operated.In the present embodiment, as shown in Figure 1, the quantity of hard disk slot 71 is five, that is, include First hard disk slot 71A, the second hard disk slot 71B, third hard disk slot 71C, the 4th hard disk slot 71D and the 5th hard disk slot 71E.Correspondingly, the opening 713 as shown in figure 8, hard-disk interface 82 in secondary control module 8 is also five, and on hard disk slot, with And the holder fixing groove 73 of support bracket fastened fixed column 112, corresponding fixed column 112 is five (referring to Fig. 4 and Fig. 7), in this way, 5 hard disks can be operated simultaneously in the cloned devices of the embodiment.As shown in Figure 1, in order to which what is be optimal dissipates Thermal effect is set in the embodiment provided with five hard disk slots on the horizontal protrusions 714 of the both sides of each hard disk slot It is equipped with heat emission hole 76.

Preferably, as shown in Figure 1, the heat emission hole 76 in the embodiment of the present invention is strip-shaped hole, also may be used in other embodiments To be arranged to other shapes, such as it is star-like, round.And as shown in figure 3, fan hole is shaped to and the matched circle of fan Shape.

Preferably, as shown in Fig. 2, in the embodiments of the present invention, the shell of the bottom for closure cap applying apparatus shell 7 Weighting iron 13 and foot pad 15 can also be set on bottom plate 14, for improving the stability of cloned devices, to prevent to hard disk During carrying out data processing, place cloned devices due to the vibration of hard disk unstable.Wherein, weighting iron 13 is arranged outside 14 upper side of shell bottom plate, foot pad 15 is arranged in the lower surface of shell bottom plate 14, and foot pad 15 is preferably silica gel foot pad.

Preferably, hard disk operational state and data copy progress are used to indicate as shown in Figure 1, being provided in control panel 1 Indicator light 130, for controlling start button 110 that copy starts and exiting button 120 for exit copy function.Control Indicator light and button on panel 1 are connected to instruction lamp control module 4, and indicate lamp control module 4 and be then connected to master control mould Block 12 realizes control.

Fig. 9 schematically shows the usage state diagram of Multi-disk big data hard disk Intelligent clone equipment shown in FIG. 1.

As shown in figure 9, the first hard disk slot 71A, which is inserted with the first hard disk 2A, the second hard disk slot 71B, is inserted with the second hard disk 2B, third hard disk slot 71C are inserted with third hard disk 2C, the 4th hard disk slot 71D and are inserted with the 4th hard disk 2D, the 5th hard disk slot 71E is inserted with the 5th hard disk 2E.First hard disk 2A, the second hard disk 2B, third hard disk 2C, the 4th hard disk 2D and the 5th hard disk 2E are 3.5 cun of hard disks.In other embodiments, 2.5 cun or 3.5 cun of two to four hard disks can also be inserted in cloned devices.It is real Between existing hard disk when copy function, hard disk must be inserted on the first hard disk slot 71A, and the hard disk on other hard-disk interface slots holds Amount has to be larger than the capacity of hard disk on the first hard disk slot 71A, in this manner it is possible under the control of main control module 12, by first Data on hard disk slot 71A in hard disk are copied in offline state on other four hard disks.And under non-offline state, then It is limited not to this, you can be inserted into the hard disk for needing quantity on hard disk slot according to demand.

When carrying out data clone under non-offline state, realization process can be by the Multi-disk big data in the present embodiment Hard disk Intelligent clone equipment is powered on by power interface 77, and USB data line is used in combination to connect USB interface 78 and computer It connects.Operating mode control button 79 is beaten to the right, later, is booted up by switch 5, and press the startup on control panel 1 Button 110 starts data copy processing, and main control module 12 is according to USB interface 78, operating mode selection key 79,5 and of switch The input information of start button 110 generates control signal and is exported respectively to instruction lamp control module 4 and secondary control module 8, indicator light Control module 4 makes indicator light 130 export corresponding standby signal according to control signal, and secondary empty module 8 is then believed according to control Number start to be written and read operation to hard disk, in this way, computer can read and write the data being inserted on hard disk slot in hard disk.

And data copy processing is carried out in offline state, computer is connected there is no need to USB data line, but is connecting electricity Behind source, operating mode control button 79 is beaten to the left side first, and by switch 5 booting after, press start button 110 twice, into Enter copy mode between hard disk, i.e. data copy in the first hard disk 2A to the second hard disk 2B, third hard disk 2C, the 4th hard disk 2D and In 5th hard disk 2E.At this point, information of the main control module 12 according to input, is judged as off-line state, then can be inputted to pair control module 8 Corresponding control signal starts read-write operation, by the data copy in the first hard disk to other hard disks by pair control module 8.Together Sample, main control module 12 also outputs control signals to instruction lamp control module 4 and controls the action of corresponding indicator light 130.And it is copying When needing to stop the operation during shellfish, then presses and exit button 120.Wherein, main control module 12, pair are controlled module 8 and are referred to Show that lamp control module 4 can be realized according to its functional requirement by the program module being stored thereon, hardware side can also be passed through Formula realizes that, according to its functional requirement, these realization rates can find corresponding technology, therefore, this reality in the prior art Example is applied no longer to repeat specific implementation.

It should be noted that Fig. 1 to it is shown in Fig. 9 be the utility model optimum embodiment, the clone of the utility model sets It is standby to be also implemented as other structures, connect for example, the connection type of main control module 12 and secondary control module 8 can be traditional circuit It connects, main control module 12 and secondary control module 8 are arranged in the space etc. of device housings 7 and the formation of shell bottom plate 14, and above-mentioned each Feature can also combine or be used alone in various embodiments, to form more realization methods.

In addition, in other embodiments, the vertical protrusions in hard disk slot, which can also be arranged, in above-mentioned heat emission hole 76 (schemes Vertical protrusions 715 shown in 1) on, and penetrate through the vertical protrusions of hard disk slot, that is, it is connected to device housings 7 and is inserted with hard disk Space 3 between slot 71.In preferred embodiment above, be heat dissipation wind channel is formed by fan and fan hole and heat emission hole, and In other embodiments, heat dissipation can also be realized only by the way that air outlet is arranged on device housings 7 or on shell bottom plate 14.But It is apparent that the mode of setting fan and fan hole, heat dissipation effect are more preferable.

In further embodiments, radiator structure is also implemented as the mode for the radiating block being set on hard disk slot, Or setting and the radiating block and the mode that is combined of above-mentioned heat emission hole on hard disk slot.

Particularly, in another preferred embodiment of the utility model, can also be arranged and each hard disk in pair control module 8 The DC-DC conversion circuit (not shown)s that interface 82 connects one to one.Wherein, the power input of DC-DC conversion circuits It is connected to the power supply adaptor of main control module 12, the power output end of DC-DC conversion circuits is connected to each corresponding hard disk and connects The 5V power voltage supply interfaces of mouth 82, the 12V voltages that DC-DC conversion circuits are used to provide the power supply adaptor of main control module 12 turn It is changed to the 5V voltage outputs needed for hard-disk interface 82.Pass through the 5V electricity of power supply adaptor and hard-disk interface 82 in main control module 12 DC-DC conversion circuits are accessed between pressure power supply interface, it is hard to change traditional direct power supply adaptor by main control module 12 The pattern that disk interface 82 is powered, when hard-disk interface 82 is provided with multiple, so that it may with a pair of with hard-disk interface 82 1 by setting The DC-DC conversion circuits that should be connected, are realized to the independently-powered of each hard-disk interface 82, ensure each hard-disk interface to reach The effect of power supply stability.Wherein, the quantity of DC-DC conversion circuits and identical, i.e., the as above embodiment of the quantity of hard-disk interface In the case that middle hard disk slot includes five, in pair control module 8 hard-disk interface 82 that is arranged also there are five, i.e., the first hard disk connects Mouth, the second hard-disk interface, third hard-disk interface, the 4th hard-disk interface and the 5th hard-disk interface, and correspondingly, in pair control module 8 The DC-DC conversion circuits of setting also there are five, i.e., the first conversion circuit for being connect with the first hard-disk interface, with the second hard-disk interface Connection the second conversion circuit, connect with third hard-disk interface third conversion circuit, connect with the 4th hard-disk interface the 4th Conversion circuit and the 5th conversion circuit being connect with the 5th hard-disk interface.Wherein, DC-DC conversion circuits are referred to the prior art It realizes, as long as can realize that the voltage value by the power supply adaptor of main control module 12 is converted into voltage value needed for hard-disk interface i.e. It can.

Above-described is only a kind of embodiment of the utility model.For those of ordinary skill in the art, Without departing from the concept of the present invention, various modifications and improvements can be made, these belong to this practicality Novel protection domain.

Claims (9)

1. Multi-disk big data hard disk Intelligent clone equipment, which is characterized in that including device housings, the device housings are equipped with Radiator structure；

The device housings are equipped at least one hard disk slot for placing hard disk, and the radiator structure includes being set to hard disk Heat emission hole on slot, the fan hole on device housings and the radiator fan being installed at the fan hole.

2. Intelligent clone equipment according to claim 1, which is characterized in that further include fixing bracket, for according to outside Operation carries out the main control module of data processing and the secondary control module for carrying out hard disk read-write operations according to the signal of main control module, Wherein, space is formed between the device housings and hard disk slot, the secondary control module is fixed on by the fixing bracket On the hard disk slot, and in the space between the device housings and the hard disk slot, the main control module setting Above the secondary control module, and it is connected on the device housings and the hard disk slot.

3. Intelligent clone equipment according to claim 2, which is characterized in that the heat emission hole is arranged in the hard disk slot Horizontal protrusions on and through device housings bottom, the fan hole is arranged forms sky in device housings and hard disk slot Between side on, and be connected to the space.

4. Intelligent clone equipment according to claim 3, which is characterized in that the heat emission hole is strip through-hole, the wind Fan hole is matched with the shape of fan.

5. Intelligent clone equipment according to claim 2, which is characterized in that the secondary control module is equipped with and hard disk slot Corresponding hard-disk interface, the hard disk slot with device housings formed space one side on be provided with and the hard-disk interface Matched opening.

6. Intelligent clone equipment according to claim 5, which is characterized in that be additionally provided in the secondary control module and each hard The power input of the DC-DC conversion circuits that disk interface connects one to one, the DC-DC conversion circuits is connected to the master control The power output end of the power supply adaptor of module, the DC-DC conversion circuits is connected to the 5V voltages confession of corresponding hard-disk interface Electrical interface.

7. Intelligent clone equipment according to claim 6, which is characterized in that the hard disk slot is inserted including the first hard disk Slot, the second hard disk slot, third hard disk slot, the 4th hard disk slot and the 5th hard disk slot, secondary control are provided in module First hard-disk interface, the second hard-disk interface, third hard-disk interface, the 4th hard-disk interface and the 5th hard-disk interface, and with first First conversion circuit of hard-disk interface connection, the second conversion circuit being connect with the second hard-disk interface connect with third hard-disk interface The third conversion circuit connect, the 4th conversion circuit being connect with the 4th hard-disk interface and the 5th turn connect with the 5th hard-disk interface Change circuit.

8. according to claim 2 to 7 any one of them Intelligent clone equipment, wherein the main control module and secondary control module are logical Gold finger plate card slot mode is crossed to connect.

9. Intelligent clone equipment according to claim 8, wherein the secondary control module is equipped with golden finger interface, the master Module is controlled to be equipped with and the matched slot of the golden finger interface.