CN206948025U - A kind of bypass module and battery module share the structure of radiator - Google Patents

Abstract

The utility model provides the structure that a kind of bypass module and battery module share radiator, and the radiator includes first substrate, the second substrate that two pieces of parallel opposed longer sides are placed, and the space between the first substrate and second substrate is provided with fin；The fin forms the heat dissipation channel being distributed along first substrate, second substrate one end to the other end；One end of the heat dissipation channel connects with a blower fan, and the other end of heat dissipation channel connects with outside air；The blower fan sucks cool ambient air in heat dissipation channel from one end that the heat dissipation channel connects with outside air, and is moved along heat dissipation channel, is finally discharged into outside air through blower fan；The opposite one side of the first substrate, second substrate sets battery module and bypass module respectively.The utility model provides the structure that a kind of bypass module and battery module share radiator, separates design and installation to solve bypass radiator now and battery radiator, causes low space utilization, the problems such as Duct design complexity.

Description

A kind of bypass module and battery module share the structure of radiator

Technical field

It the utility model is related to the structure that a kind of bypass module and battery module share radiator.

Background technology

It is typically designed at present in high power UPS application field, bypass module and battery module installed in cabinet diverse location, Bypass and battery each possess the radiator of oneself, and air channel is also separate.This design method needs to consider that two dissipates simultaneously Hot device installation, it is impossible to make full use of chassis space, Duct design is also rather complicated, it is also necessary to is individually for bypass and provides blower fan, knot Structure is complicated, and cost is high.

Utility model content

Technical problem underlying to be solved in the utility model is to provide a kind of bypass module and battery module and shares radiating The structure of device, design and installation is separated to solve bypass radiator now and battery radiator, causes low space utilization, air channel is set Count the problems such as complicated.

In order to solve above-mentioned technical problem, the utility model provides a kind of bypass module and battery module and shares radiating The structure of device, the radiator include first substrate, the second substrate that two pieces of parallel opposed longer sides are placed, the first substrate and second Space between substrate is provided with fin；

The fin forms the heat dissipation channel being distributed along first substrate, second substrate one end to the other end；It is described One end of heat dissipation channel connects with a blower fan, and the other end of heat dissipation channel connects with outside air；The blower fan is by extraneous cold sky Gas is sucked in heat dissipation channel from one end that the heat dissipation channel connects with outside air, and is moved along heat dissipation channel, final warp Blower fan is discharged into outside air；

The opposite one side of the first substrate, second substrate sets battery module and bypass module respectively.

In a preferred embodiment：The battery module is included in the battery that the surface of first substrate is arranged in array IGBT and the vertically disposed laminated bus bar in surface with the substrate；The laminated bus bar electrically connects with bus capacitor.

In a preferred embodiment：The upper and lower ends of the first substrate set conductive connecting piece respectively；Positioned at the first base The conductive connecting piece of plate upper end is connected with the positive pole of the battery IGBT, positioned at first substrate lower end conductive connecting piece with it is described Battery IGBT negative pole connection.

In a preferred embodiment：The bypass module includes three-phase bypass circuit；The three-phase bypass circuit is parallel simultaneously It is staggered to turn up the soil and is arranged at the surface of the second substrate.

In a preferred embodiment：It is whole that bypass circuit described in each phase includes input copper bar, output copper bar and controllable silicon Flow device.

In a preferred embodiment：The input copper bar is a horizontal copper bar, and it is parallel with the surface of the second substrate Place, and extend along the width of second substrate.

In a preferred embodiment：The output copper bar is a bending copper bar, and it includes first horizontal segment and the second level Section, one end that first horizontal segment is connected with the second horizontal segment form a bending angle；

The surface of the first horizontal segment and second substrate is placed in parallel, and is extended along the length direction of second substrate.

In a preferred embodiment：In the output copper bar of the three-phase bypass circuit, the length of its second horizontal segment not phase Together so that the second horizontal segment of each phase bypass circuit can project to the surface of the second substrate completely.

In a preferred embodiment：The bending angle is 90 °.

Compared to prior art, the technical solution of the utility model possesses following beneficial effect：

1. the utility model provides the structure that a kind of bypass module and battery module share radiator, battery module and side The power device of road module is separately mounted on two substrates of radiator, is realized " device two is used ", the design structure is compact, carries High space availability ratio, reduces blower fan number, simplifies Duct design.

2. the utility model provides the structure that a kind of bypass module and battery module share radiator, battery IGBT is the It is arranged in array on one substrate, input mode is that both positive and negative polarity separates cabling up and down, and bus uses stack bus bar, and wiring space is big, It is easy to operate；

3. the utility model provides the structure that a kind of bypass module and battery module share radiator, bypass circuit is mutual It is parallel and mutually stagger so that the spacing between three-phase bypass circuit is big, easy-to-connect.

4th, the utility model provides the structure that a kind of bypass module and battery module share radiator, with intensive design Method, a kind of integrated level height is designed, blower fan is few, the simple radiator sharing structure in complete machine air channel.

Brief description of the drawings

Fig. 1 is the structure chart that bypass module and battery module share radiator in the utility model preferred embodiment；

Fig. 2 is the structure chart of battery module in the utility model preferred embodiment；

Fig. 3 is the structure chart of bypass module in the utility model preferred embodiment.

Embodiment

The utility model is described further below in conjunction with the drawings and specific embodiments.

With reference to figure 1-3, a kind of bypass module and battery module share the structure of radiator, and the radiator 1 includes two pieces First substrate 11, the second substrate 12 of parallel opposed longer sides placement, the space between the first substrate 11 and second substrate 12 is provided with Fin；

The fin forms the heat dissipation channel being distributed along first substrate 11, one end of second substrate 12 to the other end； One end of the heat dissipation channel connects with a blower fan, and the other end of heat dissipation channel connects with outside air；The blower fan is by the external world Cold air is sucked in heat dissipation channel from one end that the heat dissipation channel connects with outside air, and is moved along heat dissipation channel, most Eventually outside air is discharged into through blower fan；

The opposite one side of the first substrate 11, second substrate 12 sets battery module 2 and bypass module 3 respectively.

Therefore, above-mentioned structure is achieved that battery module 2 and bypass module 3 share same radiator 1.Share same Individual radiator 1 means shared same heat dissipation channel, therefore without be again 3 individually designed heat dissipation channel of bypass module, so The structure of heat dissipation channel just becomes very simple, while need not also be individually for bypass module 3 again and provide blower fan, reduces blower fan Number.Bypass module 3 and battery module 2 are integrated and radiated using same radiator 1, improves the space utilization of complete machine Rate, also increase complete machine power density.

Specifically, battery IGBT21 that the surface that the battery module 2 is included in first substrate 11 is arranged in array and With the vertically disposed laminated bus bar 22 in surface of the substrate 11；The laminated bus bar 22 electrically connects with bus capacitor 23.This reality Apply in example, the battery IGBT21 is in the row arrangement of 2 rows 4；The laminated bus bar is set between two row battery IGBT21.Bus is adopted With stack bus bar 22, such wiring space is big, and patching operations are more convenient.

The upper and lower ends of the first substrate 11 set conductive connecting piece 24,25 respectively；Positioned at the upper end of first substrate 11 Conductive connecting piece 24 is connected with the positive pole of the battery IGBT21, positioned at the lower end of first substrate 11 conductive connecting piece 25 with it is described Battery IGBT21 negative pole connection.So battery IGBT input mode is that both positive and negative polarity separates cabling up and down, is further increased The space of cabling, reduce the operation difficulty of cabling.

The bypass module 3 includes three-phase bypass circuit 31；The three-phase bypass circuit 31 is parallel and the setting of turning up the soil that is staggered In the surface of the second substrate 12.The spacing between three-phase bypass circuit 31 can be caused using the parallel arrangement mode to stagger Greatly, easy-to-connect.

Specifically, bypass circuit 31 described in each phase includes input copper bar 311, output copper bar 312 and silicon controlled rectifier Device 313.The input copper bar 311 is a horizontal copper bar, and the surface of itself and the second substrate 11 is placed in parallel, and along second The width extension of substrate.The input copper bar 311 is fixedly connected with one end of silicon controlled rectifier (SCR) 313.

The output copper bar 312 is a bending copper bar, and it includes first horizontal segment and the second horizontal segment, first horizontal segment with The connected one end of second horizontal segment forms a bending angle；In the present embodiment, the bending angle is 90 °.The first horizontal segment It is placed in parallel with the surface of second substrate, and extends along the length direction of second substrate.It is described output copper bar 312 one end with The other end of silicon controlled rectifier (SCR) 313 is fixedly connected.

Further, in the output copper bar 312 of the three-phase bypass circuit, the length of its second horizontal segment differs, and makes Obtaining the second horizontal segment of each phase bypass circuit 31 can project to the surface of the second substrate 12 completely.The structure causes side Road module and battery module are shared in the structure of radiator, and the width of total is exactly first substrate 11, second substrate 12 Width, exposed to without unnecessary element outer at left and right sides of substrate.

It is described above, the only preferable embodiment of the utility model, but the scope of protection of the utility model is not This is confined to, any one skilled in the art can readily occur in the technical scope that the utility model discloses Change or replacement, should all cover within the scope of protection of the utility model.Therefore, the scope of protection of the utility model should It is defined by scope of the claims.

Claims (9)

1. a kind of bypass module and battery module share the structure of radiator, it is characterised in that：The radiator, which includes two pieces, puts down First substrate, the second substrate that row is placed in opposite directions, the space between the first substrate and second substrate is provided with fin；

The fin forms the heat dissipation channel being distributed along first substrate, second substrate one end to the other end；The radiating One end of passage connects with a blower fan, and the other end of heat dissipation channel connects with outside air；The blower fan by cool ambient air from In one end suction heat dissipation channel that the heat dissipation channel connects with outside air, and moved along heat dissipation channel, finally through blower fan It is discharged into outside air；

The opposite one side of the first substrate, second substrate sets battery module and bypass module respectively.

2. a kind of bypass module according to claim 1 and battery module share the structure of radiator, it is characterised in that：Institute Battery module is stated to be included in battery IGBT that the surface of first substrate is arranged in array and vertical with the surface of the substrate set The laminated bus bar put；The laminated bus bar electrically connects with bus capacitor.

3. a kind of bypass module according to claim 2 and battery module share the structure of radiator, it is characterised in that：Institute The upper and lower ends for stating first substrate set conductive connecting piece respectively；Conductive connecting piece and the battery positioned at first substrate upper end IGBT positive pole connection, the conductive connecting piece positioned at first substrate lower end are connected with the negative pole of the battery IGBT.

4. a kind of bypass module according to claim 1 and battery module share the structure of radiator, it is characterised in that：Institute Stating bypass module includes three-phase bypass circuit；The three-phase bypass circuit is parallel and is staggered to turn up the soil and is arranged at the second substrate Surface.

5. a kind of bypass module according to claim 4 and battery module share the structure of radiator, it is characterised in that：Often Bypass circuit described in one phase includes input copper bar, output copper bar and silicon controlled rectifier (SCR).

6. a kind of bypass module according to claim 5 and battery module share the structure of radiator, it is characterised in that：Institute It is a horizontal copper bar to state input copper bar, and the surface of itself and the second substrate is placed in parallel, and along the width side of second substrate To extension.

7. a kind of bypass module according to claim 6 and battery module share the structure of radiator, it is characterised in that：Institute It is a bending copper bar to state output copper bar, and it includes first horizontal segment and the second horizontal segment, first horizontal segment and the second horizontal segment phase One end even forms a bending angle；

The surface of the first horizontal segment and second substrate is placed in parallel, and is extended along the length direction of second substrate.

8. a kind of bypass module according to claim 7 and battery module share the structure of radiator, it is characterised in that：Institute In the output copper bar for stating three-phase bypass circuit, the length of its second horizontal segment differs so that the second of each phase bypass circuit Horizontal segment can project to the surface of the second substrate completely.

9. a kind of bypass module according to claim 7 and battery module share the structure of radiator, it is characterised in that：Institute It is 90 ° to state bending angle.