JP3830006B2 - Pump device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pump device particularly suitable for automobile power steering.
[0002]
[Prior art]
When a power steering device is employed in an automobile, a pump device is required to drive the power steering device. The pump device includes a pump unit and a motor for driving the pump unit. The drive of this motor is controlled by a control unit (ECU).
[0003]
By the way, in the case of a pump device used in an automobile, since the battery for an automobile is usually a low voltage of 12V, a high current must be passed in order to increase the output. Therefore, a power module control ( PWM control) is performed.
[0004]
As a result, the control unit (electronic component) of the ECU becomes high temperature due to switching loss for switching a high current, so the case of the ECU has a structure having a cooling property or a heat buildup for a transient high load. A heat sink structure that can be used is required.
[0005]
Since the electronic components built in the ECU are unlikely to be exposed to high temperatures, the installation environment is limited to places where the temperature does not become high.
The pump device used in the power steering device is installed in an engine room of an automobile. The engine room not only changes in temperature in the range of about -30 to 140 ° C, but also the motor of the pump device itself generates heat.
[0006]
Therefore, the ECU is usually separated from the pump device and installed in a place where the temperature environment is suitable, and is connected to the pump device with a harness to control driving of the motor of the pump device.
[0007]
However, according to such a structure, there is a risk that noise is applied to the harness and the ECU malfunctions due to the noise, and it is difficult to secure an installation space for separate installation, A case for housing the ECU may be required, or a harness for connecting the ECU and the pump device may be required, resulting in an increase in cost due to an increase in the number of components.
[0008]
[Problems to be solved by the invention]
Thus, when a pump device is provided in the engine room of an automobile, a control unit for controlling the pump device is separated from the pump device and installed in a place of a temperature environment suitable for the control unit. It was. For this reason, there is a need to secure a space for installing the control unit, to prepare a dedicated storage case, and it is necessary to connect the control unit and the pump device with a harness. There is a risk of noise on the harness, leading to malfunction of the pump device.
[0009]
It is an object of the present invention to provide a pump device that prevents the temperature of the control unit from rising more than a predetermined level even if the control unit is integrated with the pump device.
[0010]
[Means for Solving the Problems]
Driving of the invention according to claim 1, in the pump device for circulating oil, and a heat sink which is formed in a hollow shape, a motor disposed on one side of the heat sink, by the motor provided on the other side of the heat sink a pump unit for circulating the oil by being, said pump unit of the heat sink is joined disposed on the other side inner surface provided with a control unit for controlling the driving of the motor, the pump unit, the A pump support whose one side is bonded and fixed to the other side of the heat sink, a pump case provided on the other side of the pump support, and the pump case built in the pump case and driven by the motor A pump mechanism that introduces oil and pressurizes and discharges the oil. A part of the recess includes a recess that allows oil circulating in the pump case to approach the other side of the heat sink so as to face the control unit across each side surface where the pump support and the heat sink are joined. The control unit is formed and cooled by the oil flowing through the recess of the pump support through the pump support and the heat sink .
[0011]
According to a second aspect of the present invention, in the first aspect of the present invention, the pump device is used for supplying oil to a steering device of an automobile, and the pump case is a suction for guiding oil into the pump case. A pipe is provided, and the pump support is provided with a discharge path for discharging oil from the pump unit, and the pump mechanism is operated to connect the suction pipe and the steering device, and the discharge An oil is circulated between the steering device and the pump unit via a pipe connecting the road and the steering device, and is guided from the steering device into the pump case, and the pump support The control unit is cooled by oil flowing through the recess .
[0012]
The invention according to claim 3, in the invention of claim 1 or claim 2, wherein the control unit is configured electronic component is mounted on a metal substrate with a thermally conductive, the substrate, the The back surface side is bonded and fixed to the inner surface of the heat sink, and the electronic component is mounted on the front surface side .
[0013]
The invention of claim 4 is the invention according to any one of claims 1 to 3, wherein the heat sink includes a first member to which the motor is mounted, and a second member to which the pump unit is attached It is characterized by being bonded and fixed.
[0014]
According to the first aspect of the present invention, the motor and the pump unit are integrated via the hollow heat sink, and the control unit is joined and disposed on the inner surface of the heat sink on the pump unit side. Since the control unit is cooled by the oil circulated by the pump unit via the heat sink, the temperature rise is suppressed. In addition, by forming a recess in the pump support of the pump unit that circulates the oil in the pump case close to the heat sink, the heat exchange efficiency between the oil and the heat sink can be increased, and the control via the heat sink is performed. The unit can be efficiently cooled .
[0015]
According to the invention of claim 2, the oil guided into the pump case is cooled by flowing through the steering device of the automobile and the pipe connecting the steering device and the suction pipe of the pump case. The cooled oil can cool the pump support, the heat sink, and the control unit, so that the control unit can be cooled with higher efficiency.
[0016]
According to the invention of claim 3, since the board on which the electronic components of the control unit are mounted is made of metal having thermal conductivity, the cooling effect of the control unit can be enhanced.
[0017]
According to the invention of claim 4, the heat sink is composed of the first member to which the motor is connected and the second member to which the pump unit is connected. Therefore, the temperature rise of the control unit due to the heat of the motor due to a transient load can be suppressed.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below with reference to the drawings. The pump device of the present invention shown in FIG. 1 includes a hollow heat sink 1. The heat sink 1 is formed in a flat plate-like first member 2 formed of a material having excellent thermal conductivity such as aluminum and a container having one side opened, and the first member 2 is bonded to one side. The second member 3 is made of a fixed material having excellent thermal conductivity such as aluminum.
[0019]
A motor 4 is attached to the outer surface of the first member 2. The motor 4 has a motor frame 5. The motor frame 5 is formed with a flange 5 a, and the flange 5 a is joined and fixed to the first member 2.
[0020]
An annular stator 7 around which a coil 6 is wound is housed and held in the motor frame 5, and a rotor 11 having a rotating shaft 8 and having a permanent magnet 9 attached to the outer peripheral surface thereof. It is housed rotatably.
[0021]
One end portion of the rotating shaft 8 is rotatably held by a first bearing 12 provided in the motor frame 5, and a midway portion is provided in a through hole 2 a formed in the first member 2. 2 is supported rotatably on the bearing 13. The other end of the rotating shaft 8 protrudes from the heat sink 1 through a through hole 14 formed in the second member 3.
[0022]
A pump unit 15 is provided on the outer surface of the second member 3 of the heat sink 1. The pump unit 15 includes a pump support 16 that is formed of a material having excellent thermal conductivity such as aluminum, and is fixed by joining one side surface to the outer surface of the second member 3. A pump case 17 is fixed to the other side surface of the pump support 16 by joining its flange 18 via a packing 19 in a liquid-tight manner.
[0023]
A pump mechanism 21 is provided in the pump case 17 in a liquid-tight manner on the other side of the pump support 16. The pump mechanism 21 is driven by a drive shaft 22, and the drive shaft 22 projects into a through hole 23 formed through the pump support 16 in the thickness direction.
[0024]
The other end portion of the rotary shaft 8 protruding from the through hole 14 formed in the second member 3 to the outside of the heat sink 1 is inserted into the through hole 23 of the pump support 16, where the drive shaft 22 and the cup are inserted. They are connected by a ring 24. Therefore, the pump mechanism 21 is driven by the rotating shaft 8 of the motor 4.
[0025]
The pump case 17 is provided with a suction pipe 25, and the pump support 16 is formed with a discharge passage 26 having one end communicating with a discharge port (not shown) of the pump mechanism 21.
[0026]
The suction pipe 25 and the discharge path 26 are connected to an automobile steering apparatus (not shown), and the pump mechanism 21 is operated to circulate oil between the steering apparatus and the pump unit 15.
[0027]
A concave portion 27 is formed on the other side surface of the pump support 16 located in the pump case 17, and the concave portion 27 allows a part of the pump support 16 to be sufficiently thin compared to other portions to be a thin portion 27 a. Forming. Thereby, the thin wall portion 27 a can increase the heat exchange efficiency between the oil circulating in the pump case 17 and the heat sink 1.
[0028]
Inside the heat sink 1, a control unit 28 is provided on the inner surface of the second member 3 whose pump support 16 is joined to the outer surface in order to control the driving of the motor 4. The control unit 28 includes a substrate 29 bonded and fixed to the inner surface of the second member 3, and a power module control electronic component 31 mounted on the substrate 29. The substrate 29 is formed of a metal such as aluminum having excellent thermal conductivity so that heat exchange with the heat sink 1 can be performed efficiently.
[0029]
The control unit 28 is connected with a power supply harness 32 connected to an in-vehicle battery (not shown) and an output harness 33 that outputs a power module-controlled current to the motor 4.
[0030]
According to the pump device configured as described above, when the motor 4 is operated to drive the pump mechanism 21 of the pump unit 15 to circulate oil for operating the power steering device, the oil flowing into the pump case 17 is The cooling is performed by flowing through the steering device and a pipe (not shown) connecting the steering device and the suction pipe 25. The cooled oil cools the heat sink 1 via the pump support 16.
[0031]
Therefore, even if the electronic component 31 of the control unit 28 generates heat by controlling the power supply from the battery by the power module, the control unit 28 is cooled by exchanging heat with the heat sink 1 cooled by oil, and therefore the temperature The above will be suppressed.
[0032]
The substrate 29 of the control unit 28 is made of a metal material having good thermal conductivity. Therefore, heat exchange between the substrate 29 of the control unit 28 and the heat sink 1 is efficiently performed, and this also suppresses the temperature increase of the control unit 28.
[0033]
Further, a recess 27 is formed in the pump support 16 of the pump unit 15, and a heat exchange between the oil circulating in the pump case 17 and the heat sink 1 is formed by forming a thin portion 27 a in the pump support 16 by the recess 27. Since the efficiency is improved, the cooling efficiency of the control unit 28 by the heat sink 1 can be improved.
[0034]
Since the heat sink 1 is formed in a hollow shape by the first member 2 and the second member 3, and the control unit 28 is provided therein, the control unit 28 is provided with outside air, particularly a pump device. In addition to being hardly affected by the temperature in the engine room, the motor 4 is also cooled by the heat sink 1 because the motor 4 is joined to the first member 2, so that the control unit is heated by the heat of the motor 4. The temperature rise of 28 is also suppressed.
[0035]
According to the experiment, when the motor 4 was driven without cooling the control unit 28 with oil, the temperature of the substrate 29 rose to 135 ° C. However, when the oil was circulated as in the present invention, the temperature of the substrate 29 increased. Was confirmed to be suppressed to 120 ° C.
[0036]
The present invention is not limited to the above-described embodiment, and can be modified. For example, the structure of the heat sink is formed by joining the first member and the second member, but without using the first member, Only the second member may be used, and the flange of the motor frame may be joined and fixed to the opened side surface.
[0037]
【The invention's effect】
According to the first aspect of the present invention, the motor and the pump unit are integrated via the hollow heat sink, and the control unit is provided on the inner surface of the heat sink on the pump unit side.
[0038]
Therefore, since the control unit is cooled by the oil circulated by the pump unit via the heat sink, it is possible to prevent the temperature from rising beyond a predetermined level.
[0039]
Further, since the motor and the control unit can be integrated while suppressing the temperature rise of the control unit, it is possible to prevent malfunction of the control unit and to reduce the cost by reducing the number of parts. Moreover, the recessed part which circulates the oil in a pump case close to a heat sink was formed in the pump support of a pump unit. Therefore, the control unit can be efficiently cooled via the heat sink.
[0040]
According to the invention of claim 2, the oil guided into the pump case is cooled by flowing through the steering device of the automobile and the pipe connecting the steering device and the suction pipe of the pump case. The cooled oil can cool the pump support, the heat sink, and the control unit, so that the control unit can be cooled with higher efficiency.
[0041]
According to invention of Claim 3, since the board | substrate with which the electronic component of a control unit was mounted was made into the metal provided with heat conductivity, the cooling effect of this control unit can be heightened.
[0042]
According to the invention of claim 4, the heat sink is constituted by the first member to which the motor is connected and the second member to which the pump unit is connected, and the motor is attached to the first member.
[0043]
Therefore, the volume of the heat sink increases and the amount of heat storage increases, so that the control unit can be prevented from rising in temperature due to the heat of the motor due to a transient load.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a pump device according to an embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Heat sink 2 ... 1st member 3 ... 2nd member 4 ... Motor 15 ... Pump unit 16 ... Pump support 17 ... Pump case 21 ... Pump mechanism 27 ... Recess 28 ... Control unit 29 ... Metal substrate 31 ... Electronic component

Claims (4)

In the pump device for circulating oil,
A heat sink formed in a hollow shape;
A motor disposed on one side of the heat sink,
A pump unit for circulating the oil by being driven by the motor provided on the other side of the heat sink,
Wherein the pump unit of the heat sink is joined disposed on the other side inner surface provided with a control unit for controlling the driving of the motor,
The pump unit is
A pump support having one side bonded and fixed to the other side of the heat sink;
A pump case provided on the other side of the pump support;
A pump mechanism that is incorporated in the pump case and driven by the motor to introduce and pressurize and discharge the oil into the pump case;
In part of the pump support, oil circulating in the pump case is disposed on the other side of the heat sink so as to face the control unit across each side surface where the pump support and the heat sink are joined. A recess that is closer,
The said control unit is cooled by the oil which flows through the recessed part of the said pump support through the said pump support and the said heat sink, The pump apparatus characterized by the above-mentioned . The pump device is used for supplying oil to a steering device of an automobile,
The pump case is provided with a suction pipe for guiding oil into the pump case, and the pump support is provided with a discharge path for discharging oil from the pump unit,
By the operation of the pump mechanism, oil is circulated between the steering device and the pump unit through a pipe connecting the suction pipe and the steering device and a pipe connecting the discharge passage and the steering device. Is configured as
2. The pump device according to claim 1, wherein the control unit is cooled by oil guided from the steering device into the pump case and flowing through a recess of the pump support . The control unit is configured by mounting electronic components on a metal board having thermal conductivity ,
The pump device according to claim 1 or 2, wherein the back surface of the substrate is bonded and fixed to the inner surface of the heat sink, and the electronic component is mounted on the front surface . The heat sink includes a first member to which the motor is mounted, according to any one of claims 1 to 3 and a second member to which the pump unit is attached is characterized by comprising fixedly joined Pump device.

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