CN105556739B

CN105556739B - For the equipment for the temperature for adjusting energy system

Info

Publication number: CN105556739B
Application number: CN201480051150.3A
Authority: CN
Inventors: S·霍雷; M·哈尔德; H·帕尔特斯
Original assignee: Robert Bosch GmbH; Samsung SDI Co Ltd
Current assignee: Robert Bosch GmbH; Samsung SDI Co Ltd
Priority date: 2013-09-18
Filing date: 2014-09-08
Publication date: 2018-02-13
Anticipated expiration: 2034-09-08
Also published as: DE102013218663A1; WO2015039905A1; CN105556739A

Abstract

The present invention relates to a kind of equipment for being used to adjust the temperature of energy system (1), wherein, the energy system (1) has the control unit (12) of at least one energy unit (10) and the electronics for controlling the energy of the energy unit (10) to export.According to present invention provide that, the energy unit (10) is positioned apart from control unit (12), wherein, clearance space is formed between the control unit (12) and the energy unit (10), so as to forbid the heat transmission between the energy unit (10) and the control unit (12).

Description

For the equipment for the temperature for adjusting energy system

Technical field

The present invention relates to a kind of equipment for being used to adjust the temperature of energy system of upperseat concept according to claim 1.

Background technology

It is known that energy system to be used for the electrification of electric equipment, the wherein energy system has at least one energy Unit.Wherein at least one energy unit can be connected in series or in parallel with least one other energy unit, thus The higher energy output of energy system can be realized.Controlled in the energy output of this energy system by the control unit of electronics. Wherein these energy units can be controllably connected in series by the control unit of the electronics or be connected with parallel circuit. What the control unit of the electronics was additionally operable to stable energy system in addition measures voltage.In addition the control unit of the electronics can also be used In the electric current of limitation energy system.In order to control the power output of energy unit all to be arranged by what electronic control unit can be realized Applying can cause the heat of control unit to export.Because the control unit of electronics and at least one energy unit are built together, therefore The control unit of electronics is likely to occur to the undesirable heat transfer of energy unit.Wherein should from the control unit of electronics to The heat transfer of a few energy unit can adversely affect to the durability of the energy unit, especially when the energy list When member is lithium-ions battery.In addition the heat transfer from electronic control unit to energy unit causes bad ageing process.

The content of the invention

The task of the present invention is to provide a kind of equipment for being used to adjust the temperature of energy system, wherein simply and reliably Build the equipment.The task of the present invention is especially by the uncontrolled heat transfer from electronic control unit to energy unit Improve the life cycle of energy unit.

Propose to solve the task and a kind of be used to adjusting the feature with Patent right requirement 1, especially with special The equipment for levying the temperature of the energy system of the feature of part.Preferable further research is carried out in the dependent claims.Wherein The feature mentioned in claims of specification can be each or in combination respectively weight for the present invention Want.

The invention discloses a kind of equipment for being used to adjust the temperature of energy system, the wherein energy system has at least one The control unit of individual energy unit and the electronics for controlling energy unit.According to the regulation of the present invention, energy unit and control Arrange unit interval processed.Thus clearance space is formed between control unit and energy unit, thus energy unit and control Heat transfer between unit can be prohibited or can be interrupted.By the way that the control unit of electronics is interval in into energy unit The energy transmission from control unit can be effectively carried out, vice versa.In forbidding heat transfer in the ideal case and being Sub-control unit is powered off to the heat transfer of energy unit.Advantageously the electronic control unit can be arranged in for this and energy At unit interval 2cm, wherein forming clearance space between electronic control unit and energy unit and medium air can be used Fill the clearance space.Wherein also enable in particular to use fluid herein it is conceivable that with other media.Correspondingly also can The clearance space is filled with water, can absorb the heat that the control unit of electronics distributes in this water and can be for example, by pump system System discharge.Spacing between the energy unit and electronic control unit is bigger, can forbid from electronic control unit to energy The heat transfer of unit is bigger.

It is particularly advantageous that the control unit is arranged in the housing with least one casing member and in housing member Arrange heat insulating element, the wherein casing member towards energy unit at part.Wherein the housing can be arranged to cuboid, wherein should Control unit can be arranged in the base member of the cuboid.Wherein the heat insulating element can have aeroge, thus, it is possible to Reach 10 to the 20W thermal conductivities per mK.Thus the heat transfer from electronic control unit to energy unit is effectively prevented.Therefore It is additional in the clearance space between control unit and energy unit, more strongly can forbids from control unit to energy unit Between heat transfer.

Provide, arranged in the space between energy unit and control unit heat-insulated in a favourable further research Layer.Arrange that thermal insulation layer has advantages below between energy unit and control unit, i.e., it is simply and efficiently embedded into energy In system.So as to simply be changed in the case of the thermal insulation layer failure.In addition it is used in the intermediate layer after His heat insulating element., wherein should be every so as to which the thickness of heat insulating element to be freely defined as to the width until clearance space Thermal element can be aeroge or xerogel.

It is also advantageous that the energy system has the temperature device for including temperature loop, wherein the temperature loop can Allow fluid to flow through and heat is transmitted by the fluid.Wherein the fluid can have water and/or air.It is also possible that the stream Body has ethylene glycol.Thus, it is possible to which heat caused by the control unit is conveyed to the external environment condition of energy system.In addition may , by energy unit arrangement in the housing, wherein the housing of the energy unit equally has loop, and the wherein fluid is introduced into In the loop, the heat thus taken away together can be released by the fluid to control unit.Therefore can realize to energy list The heating of member.The energy unit, especially lithium-ions battery, there is the operating point of the optimization at 20 to 40 DEG C.This meaning , the capacity of energy unit can reduce at lower temperature of the energy unit less than 20 DEG C.This can use energy in vehicle Negative consequence is caused in the case of amount unit, especially when operating in the winter months less than 0 DEG C.For this can advantageously by The heat of control unit is transmitted by temperature loop, and the loop of the temperature loop and energy unit is connected with fluid technique.

It is equally conceivable according to the present invention, electronic control unit has at least one pipe-line system and the pipeline system System can be flowed through by fluid.Wherein the pipe-line system can have plastics or metallic conduit.The wherein cross section of the pipe-line system Adapt to corresponding environmental condition.The size that the cross section can be wherein adapted to control unit uses.The pipe-line system can It is arranged within the housing of control unit.Wherein the pipe-line system can also have cooling fin either heating plate, thus by electricity Heat caused by the control unit of son, effectively and extremely efficient it can be transmitted to heating plate.Wherein the pipe-line system can Either square cross section with annular.Square cross section is particularly suitable for use in, by the pipe-line system for example with bonding or Welding method is arranged on the housing of control unit.Fixing loop member in the case of the cross-section of pipeline of annular can be arranged in On the housing of control unit, the control unit can accommodate and support the pipeline of annular.

It is particularly advantageous that the temperature loop is fluidly connected with pipe-line system.By connecting temperature loop and pipeline system System can be by the waste-heat energy unit of control unit.Wherein the temperature loop can have piece element, and thus heat can Effectively dissipated to energy unit.

Alternatively it is envisioned that can be by least one valve controls fluid from temperature loop and pipe-line system stream Go out.Wherein the valve can be electric control, thus, it is possible to electric adjust the flow velocity of fluid.Valve can be arranged on control for this On unit, wherein controlling the control unit by fieldbus, especially CAN.It is furthermore possible to use at least one sensing Device, the flow velocity that the sensor can be in measurement temperature loop and/or pipe-line system.The sensor can also be connected by control unit It is connected on fieldbus.

It is also advantageous that fluid can be conveyed by least one pump unit.The pump unit can pass through control unit It is connected on fieldbus, wherein fieldbus enables in particular to be designed as CAN.The control unit can pass through electronic unit Control.Wherein data can be delivered to control unit from control unit by fieldbus or be delivered to computing unit.Pump list Member can transmit fluid thus by temperature loop and pipe-line system so that heat caused by control unit can by fluid to Temperature loop transmits.Wherein the pump unit can be advantageously arranged in the clearance space between energy unit and control unit. Thus, it is possible to obtain modular energy system, wherein energy unit, pump unit and control unit can be configured to module.Wherein Clearance space between control unit and energy unit can equally be furnished with housing, and wherein those housings can dimensionally be equal to The housing of control unit.In addition the housing of at least one energy unit can equally have the size of the housing of control unit, by This can arrange the modular construction of energy unit, the housing of electronic control unit and the housing for forming clearance space.

Provide that pump unit is arranged between energy unit and electronic control unit according to a favourable further research In space.By the way that pump unit arrangement can be realized to the maintenance to pump unit in a manner of cheap within this space.Energy Space between unit and control unit can be compressed by housing, and pump unit can be arranged in the housing.In order to safeguard the housing There can be gating element, the pump unit can be reached from outside by the gating element.Housing can be designed in a manner of heat-insulated, by This can effectively be avoided heat transmission caused by control unit to energy unit.

As a result advantageously, temperature sensor is arranged on energy unit and/or is arranged on electronic unit.TEMP The arrangement of device is used for the temperature for controlling energy unit or control unit.The temperature sensor can be connected to existing by control unit On field bus, thus, it is possible to exchange data with computing unit and/or other control units being connected on fieldbus.Wherein can It is enough it is contemplated that the temperature sensor is capable of the temperature of measurement temperature loop and/or the fluid in pipe-line system.Energy unit And/or control unit can be arranged on cooling surface, wherein the cooling surface can cool down control unit and/or energy unit.Have Sharp ground energy unit passes through adhesive bonding method and/or welding method with housing and control unit with housing, wherein these housings It is arranged on cooling surface.Wherein the cooling surface has duct element, and fluid can flow through the duct element.Flowing through cooling surface can Realized by pump element, wherein the pump element can be equally connected on fieldbus by control unit.

Brief description of the drawings

The other measures and advantage of the present invention are drawn by the claims and drawing of description below.Wherein in claim The feature mentioned in book and specification can each individually be or mode in any combination be invention it is necessary.Wherein：

Fig. 1 shows the schematic structure of the equipment according to the present invention；

Fig. 2 shows the schematic structure of multiple energy units and a control unit, the control unit and those energy Arrange unit interval；

Fig. 3 shows the schematic structure of multiple energy units, and it is connected with energy unit module, wherein the control unit It is arranged on housing and the side member of the housing has thermal protective element；And

Fig. 4 shows schematic diagram of the apparatus in accordance with the present invention, wherein arranging heat insulating element in clearance space.

Embodiment

The equipment for being used to adjust the temperature of energy system 1 according to the present invention is schematically shown in Fig. 1.Herein can By multiple energy units 10,10.1,10.2 and 10.3 it is electric connect and/or be connected in parallel.Wherein energy unit 10 has housing 15, wherein each other energy units equally have housing.Correspondingly build energy unit block 40, wherein these housings 15th, 15.1,15.2 and 15.3 seamlessly adjoin each other.Control unit 12 is arranged with the compartment of terrain of energy unit block 40, is consequently formed Clearance space 14.Wherein control unit 12 is disposed with housing 16.

Fig. 2 shows the schematic diagram for being used to adjust the equipment of the temperature of energy system 1 according to the present invention.The wherein energy System 1 is made up of energy unit block 40, and it is connected in series or in parallel by the electricity of energy unit 10,10.1,10.2 or 10.3 Ground compresses.In addition the control unit 12 belongs to energy system 1, and the control unit 12 can control the energy of energy unit block 40 defeated Go out.Wherein these energy units 10,10.1,10.2 and 10.3 are respectively arranged in the housing.Housing 15,15.1,15.2 and 15.3 Seamlessly adjoin each other.Wherein these housings 15,15.1,15.2 and 15.3 construct together with affiliated energy unit 10, 10.1st, 10.2 and 10.3 energy unit block 40.With the energy unit 10,10.1,10.2 in block 40 and 10.3 arranged for interval controls Unit 12 processed, the wherein control unit 12 are arranged in housing 16.By the way that housing 16 and the interval of energy unit block 40 are formd Clearance space 14.Pump unit 32 is arranged in the clearance space 14.Fluid can be passed through by pipe-line system by the pump unit 32 28 are extracted, and wherein the pipe-line system 28 is arranged on housing 16.In addition liquid can be conveyed by pump unit 32, wherein being capable of cloth Put the second pump unit 32.1 for supporting the first pump unit 32.Wherein pump unit 32.1 is connected on temperature loop 26, wherein Fluid is arranged flowablely.Pipe-line system 28 has temperature sensor 34.5, and the temperature sensor 34.5 is arranged in pipe-line system In 28.Heat thus, it is possible to measure the fluid in the pipe-line system 28 by the temperature sensor 34.5.Same temperature loop 26 With temperature sensor 34, the heat thus, it is possible to measure fluid.Wherein the sensor 34 can be arranged on temperature loop 26 Or it is arranged in temperature loop 36.The heat of fluid can be directly gathered in temperature loop 26 by being arranged in.Pass through arrangement The sensor 34 can be changed simply in the case of a fault on temperature loop 26, the operation without disturbing whole equipment. Temperature sensor 34.4 is arranged in clearance space 14, the temperature within the clearance space 14 can be measured by it.Equally Each housing 15,15.1,15.2 and 15.3 has temperature sensor 34.1,34.2,34.3 and 34.5, thus, it is possible to measure temperature Degree.Correspondingly the energy unit in block 40 is modularly built, and plurality of housing 15 can be with the energy unit of arrangement 10 are used together.

Schematic diagram of the apparatus in accordance with the present invention is shown in Fig. 3.Wherein energy unit system 1 have housing 15,15.1, 15.2 and 15.3, wherein accordingly one energy unit of arrangement in each housing 15,15.1,15.2 and 15.3.With housing 15 Arranged for interval housing 16, it is consequently formed clearance space 14.Heat insulating element 20 is arranged on the front of housing 16.The wherein heat-insulated member Part can have nanogel, aeroge or xerogel.Wherein heat insulating element can be arranged in by housing by adhesive bonding method On 16 front.The positive whole area of wherein housing 16 can be built with heat insulating element.Thus prevent from housing 16 In electronic control unit to energy unit block 40 energy transmit isolation.Wherein housing 15,15.1,15.2 and 15.3 is arranged On cooling panel element 42.The cooling panel element 42 can have pipe-line system, and thus fluid can flow through, cold to cool down But panel element 42.

Schematic diagram of the apparatus in accordance with the present invention is shown in Fig. 4, wherein energy unit system 1 has energy unit block 40, the energy unit block 40 is arranged with the compartment of terrain of housing 16.The control unit of arranging electronic in housing 16, the control of the electronics Unit operationally distributes heat.Wherein energy unit block 40 is made up of energy unit 15,15.1,15.2 and 15.3, thus By alternately forming clearance space 14 with housing 16.Heat insulating element 20, the wherein heat insulating element are arranged in clearance space 14 20 can have nanogel.Also other gels, such as aeroge or xerogel can be used.Can be by area structure by insertion The heat insulating element 20 built, the electronic control unit from housing 16 can be forbidden, to energy unit block 40, especially nearest Housing 15 energy transmission.Wherein housing 15,15.1,15.2 and 15.3, and housing 16 are arranged on cooling panel element 42. Wherein the cooling panel element 42 can have pipe-line system, and thus cooling agent can flow through.Wherein cooling agent flows through the pipe Road system can be realized by pump unit.

Claims

1. one kind is used for the equipment for adjusting the temperature of energy system (1), wherein, the energy system (1) has at least one energy The control unit (12) of unit (10) and the electronics for controlling the energy of the energy unit (10) to export is measured,

Characterized in that,

The energy unit (10) and described control unit (12) compartment of terrain arrangement, wherein, in described control unit (12) and institute State and clearance space (14) is formed between energy unit (10), so as to forbid in the energy unit (10) and the control singly Heat transfer between first (12),

The energy system (1) includes the temperature device (24) with temperature loop (26), wherein, it can be flowed through with fluid described Temperature loop (26), and the fluid can transmit heat.

2. equipment according to claim 1,

Characterized in that,

Described control unit (12) is arranged in the housing with least one casing member (18) (16), and in the housing Element (18) place arrangement heat insulating element (20), wherein, the casing member (18) is towards the energy unit (10).

3. equipment according to claim 1 or 2,

Characterized in that,

Arrangement heat insulating element (20) in space (14) between the energy unit (10) and described control unit (12).

4. equipment according to claim 1,

Characterized in that,

The control unit (12) of electronics is had at least one pipe-line system (28) and the pipe-line system can be flowed through with fluid (28)。

5. equipment according to claim 4,

Characterized in that,

The temperature loop (26) is connected with the pipe-line system (28) in a manner of fluid technique.

6. equipment according to claim 4,

By at least one valve (30) fluid can be controlled to be flowed from the temperature loop (26) and the pipe-line system (28) Go out.

7. according to the equipment any one of claim 1,4-6,

Characterized in that,

The fluid can be conveyed by least one pump unit (32).

8. equipment according to claim 7,

Characterized in that,

The pump unit (32) is arranged in the space (14) between the energy unit (10) and the control unit (12) of electronics.

9. according to the equipment any one of claim 1,4-6,

Characterized in that,

At the energy unit (10) place and/or in electronic unit (12) place arrangement temperature sensor (34).