The present invention relates to a method of controlling a flow rate of a variable displacement hydraulic pump for a construction machine, in which a discharge flow rate of a hydraulic pump is controlled according to the manipulation amount of a manipulation lever (RCV) by a user. More particularly, the present invention relates to such a flow rate control method of a hydraulic pump, in which a discharge flow rate of the hydraulic pump can be controlled in proportional to the manipulation amount of a manipulation lever even when the discharge pressure of the hydraulic pump is changed.
A conventional hydraulic system applied to a hydraulic construction machine such as an excavator includes:
a manipulation lever (RCV) 1 that outputs a manipulation signal that is in proportion to a manipulation amount of the manipulation lever by a user;
a variable displacement hydraulic pump (hereinafter, referred to as “hydraulic pump”) 3 and a pilot pump 4 that are connected to an engine 2;
a hydraulic actuator (not shown) connected to the hydraulic pump 3;
a control valve 5 (for example, a spool for MCV is shown) that is installed in a discharge flow path of the hydraulic pump 3, and controls a start, a stop, and a direction change of the hydraulic actuator when it is shifted in response to the manipulation signal outputted from the manipulation lever 1;
a pilot pressure detection sensor 6 that detects a pilot signal pressure according to the manipulation of the manipulation lever 1;
a discharge pressure detection sensor 7 that detects a pressure of a hydraulic fluid discharged from the hydraulic pump 3; and
a controller 8 that controls a discharge flow rate of the hydraulic pump 3 in response to detection signals outputted from the pilot pressure detection sensor 6 and the discharge pressure detection sensor 7.
In the drawings, a non-explained reference numeral 9 denotes an electro proportional pressure reducing valve that generates a secondary signal pressure in proportion to a control signal applied thereto from the controller 8 to control a swivel angle of a swash plate of the hydraulic pump 3
In a first step S100, when a user manipulates the manipulation lever 1, a manipulation signal corresponding to a manipulation amount of the manipulation lever 1 is detected by the pilot pressure detection sensor 6, which in turn generates a manipulation amount detection_signal for application to the controller 8. Thus, the discharge flow rate Q1 required by the hydraulic pump 3 in proportion to the manipulation amount of the manipulation lever 1 is calculated by using a relationship between the manipulation amount of the manipulation lever 1 and the volume of the hydraulic pump 3.
In a second step S200, a discharge pressure of the hydraulic pump 3 is detected by the discharge pressure detection sensor 7, which in turn generates a discharge pressure detection signal corresponding to the discharge pressure for application to the controller 8. Thus, a maximum dischargeable flow rate Qmax within a range that does not exceed a specific horsepower or torque of the hydraulic pump 3, relative to the detected discharge pressure is calculated by a calculation equation.
In a third step S300, the discharge flow rate Q1 required by the hydraulic pump 3 in proportion to the manipulation amount of the manipulation lever 1 is compared with the maximum dischargeable flow rate Qmax within the range that does not exceed the preset value.
If it is determined in the third step S300 that the discharge flow rate Q1 required by the hydraulic pump 3 is less than the calculated maximum dischargeable flow rate Qmax, the program proceeds to a fourth step S400 where the discharge flow rate of the hydraulic pump 3 is controlled in proportion to the manipulation amount of the manipulation lever 1.
On the contrary, if it is determined in the third step S300 that the discharge flow rate Q1 required by the hydraulic pump 3 exceeds the calculated maximum dischargeable flow rate Qmax, the program proceeds to a fifth step S500 where the discharge flow rate of the hydraulic pump 3 is controlled to be the maximum dischargeable flow rate Qmax within the range that does not exceed the preset value.
The method of controlling the discharge flow rate of the hydraulic pump 3 as described above has the following advantages.
First, the discharge flow rate of the hydraulic pump 3 is increased in proportion to the manipulation amount of the manipulation lever 1 by the user, and the discharge flow rate of the hydraulic pump 3 is minimized in case of no manipulation of the manipulation lever 1, thereby reducing a loss or waste of hydraulic energy.
Second, in the case where the discharge pressure of the hydraulic pump 3 exceeds a preset value determined within a range that does not exceed a torque or horsepower allocated to the hydraulic pump 3, a flow rate as much as a pressure level that exceeds the preset value is limited (shown in
In the case where the discharge pressure of the hydraulic pump 3 is controlled by the above-mentioned method, i.e., the discharge pressure of the hydraulic pump 3 is controlled by a mechanical mechanism or an electronic control device to limit the torque or horsepower, if the discharge pressure of the hydraulic pump 3 is high, there occurs a problem in that the control range of the manipulation lever 1 by the user is shortened. Particularly, even in the case where a more precise work is required such as the lifting work of heavy materials, the control range of the manipulation lever 1 is shortened, which makes it difficult to ensure a more precise manipulability.
As shown in
In the meantime, as shown in
As shown in
Accordingly, the present invention was made to solve the aforementioned problem occurring in the prior art, and it is an object of the present invention to provide a method of controlling a flow rate of a variable displacement hydraulic pump for a construction machine, in which in a state in which a preset value is determined which limits the maximum dischargeable flow rate of the hydraulic pump, the discharge flow rate of the hydraulic pump is controlled in proportion to the manipulation amount of the manipulation lever within a range that does not exceed the preset value so that a control range of the manipulation lever can be secured even in the case where a high load occurs during the work, thereby improving manipulability and safety.
To accomplish the above object, in accordance with an embodiment of the present invention, there is provided a method of controlling a flow rate of a variable displacement hydraulic pump for a construction machine, which includes: a variable displacement hydraulic pump, a hydraulic actuator connected to the hydraulic pump, a manipulation lever configured to output a manipulation signal that is in proportion to a manipulation amount of the manipulation lever by a user, a control valve configured to control a start, a stop, and a direction change of the hydraulic actuator when it is shifted in response to the manipulation signal outputted from the manipulation lever, a manipulation amount detection means configured to detect the manipulation amount of the manipulation lever, a discharge pressure detection sensor configured to detect a pressure of a hydraulic fluid discharged from the hydraulic pump, and a controller configured to control a discharge flow rate of the hydraulic pump in response to detection signals outputted from the manipulation amount detection means and the discharge pressure detection sensor, the method including:
a first step of calculating a discharge flow rate of the hydraulic fluid, which is required by the hydraulic pump according to the manipulation amount of the manipulation lever by a user;
a second step of calculating an allowable discharge flow rate within a range that does not exceed a preset specific horsepower or torque of the hydraulic pump, relative to the discharge pressure of the hydraulic fluid detected by the discharge pressure detection sensor; and
a third step of controlling a discharge flow rate of the hydraulic pump in proportion to the manipulation amount of the manipulation lever within a range of the allowable discharge flow rate value calculated in the second step.
According to a more preferable embodiment, in the third step, if the manipulation amount of the manipulation lever requires a maximum pump flow rate under a no-load condition, the discharge flow rate of the hydraulic pump is controlled to be a maximum dischargeable flow rate of the hydraulic pump, relative to a preset discharge pressure.
The discharge flow rate of the hydraulic pump is calculated by calculating the discharge flow rate required by the hydraulic pump according to the manipulation amount of the manipulation lever as a percentage under the no-load condition and multiplying the allowable discharge flow rate of the hydraulic pump relative to the preset discharge pressure by the calculated percentage.
The method of controlling a flow rate of a variable displacement hydraulic pump for a construction machine in accordance with an embodiment of the present invention as constructed above has the following advantages.
In a state in which a preset value is determined which limits the maximum dischargeable flow rate of the hydraulic pump, the discharge flow rate of the hydraulic pump is controlled in proportion to the manipulation amount of the manipulation lever within a range that does not exceed the preset value so that a control range of the manipulation lever can be secured to improve manipulability and safety even during the lifting work of heavy materials. Further, in the case where a high load occurs during the work, a hydraulic fluid is discharged in at a state in which the open area of the spool (i.e., a spool for MCV) is widened, thereby reducing a pressure loss and thus improving a fuel efficiency.
The above objects, other features and advantages of the present invention will become more apparent by describing the preferred embodiments thereof with reference to the accompanying drawings, in which:
Now, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The matters defined in the description, such as the detailed construction and elements, are nothing but specific details provided to assist those of ordinary skill in the art in a comprehensive understanding of the invention, and the present invention is not limited to the embodiments disclosed hereinafter.
As shown in
a manipulation lever (RCV) 1 that outputs a manipulation signal that is in proportion to a manipulation amount of the manipulation lever by a user;
a variable displacement hydraulic pump (hereinafter, referred to as “hydraulic pump”) 3 and a pilot pump 4 that are connected to an engine 2;
a hydraulic actuator (not shown) connected to the hydraulic pump 3;
a control valve 5 (for example, a spool for MCV is used) that controls a start, a stop, and a direction change of the hydraulic actuator (referring to a hydraulic cylinder) when it is shifted in response to the manipulation signal outputted from the manipulation lever 1;
a manipulation amount detection means 6 (for example, a pilot pressure detection sensor is used) that detects the manipulation amount of the manipulation lever 1;
a discharge pressure detection sensor 7 that detects a pressure of a hydraulic fluid discharged from the hydraulic pump 3; and
a controller 8 that controls a discharge flow rate of the hydraulic pump 3 in response to detection signals outputted from the manipulation amount detection means 6 and the discharge pressure detection sensor 7.
The method of controlling the flow rate of the variable displacement hydraulic pump 3 for the construction machine includes:
a first step S1000 of calculating a discharge flow rate Q1 of the hydraulic fluid, which is required by the hydraulic pump 3 according to the manipulation amount of the manipulation lever 1 by a user;
a second step S2000 of calculating an allowable discharge flow rate Qavailable within a range that does not exceed a preset specific horsepower or torque of the hydraulic pump 3, relative to the discharge pressure of the hydraulic fluid detected by the discharge pressure detection sensor 7; and
a third step S3000 of controlling a discharge flow rate Q of the hydraulic pump 3 in proportion to the manipulation amount of the manipulation lever 1 within a range of the allowable discharge flow rate value Qavailable calculated in the second step S2000.
In this case, in the third step S3000, if the manipulation amount of the manipulation lever 1 requires a maximum pump flow rate under a no-load condition, the discharge flow rate of the hydraulic pump 3 is controlled to be a maximum dischargeable flow rate Qmax of the hydraulic pump 3 relative to a preset discharge pressure.
Meanwhile, the discharge flow rate Q of the hydraulic pump 3 is calculated by calculating the discharge flow rate Q1 required by the hydraulic pump 3 according to the manipulation amount of the manipulation lever 1 as a percentage Q1/Qmax under the no-load condition and multiplying the allowable discharge flow rate Qavailable of the hydraulic pump 3 relative to the preset discharge pressure by the calculated percentage Q1/Qmax.
Hereinafter, a use example of the method of controlling a flow rate of a variable displacement hydraulic pump for a construction machine in accordance with the present invention will be described in detail with reference to the companying drawings.
As shown in
In the second step S2000, the discharge pressure of the hydraulic pump 3 is detected by the discharge pressure detection sensor 7, which in turn generates a discharge pressure detection signal for application to the controller 8. Thus, an allowable discharge flow rate value Qavailable is calculated by a calculation equation within a range that does not exceed a preset specific horsepower or torque of the hydraulic pump 3, relative to the discharge pressure of the hydraulic fluid detected by the discharge pressure detection sensor 7.
In the third step S3000, a discharge flow rate Q of the hydraulic pump 3 is controlled in proportion to the manipulation amount of the manipulation lever 1 within a range of the allowable discharge flow rate value Qavailable calculated in the second step S2000. In this case, if the manipulation amount of the manipulation lever 1 is a maximum amount, the discharge flow rate Q of the hydraulic pump 3 is controlled to be a maximum dischargeable flow rate Qmax of the hydraulic pump 3 relative to a preset discharge pressure.
In the meantime, the discharge flow rate Q of the hydraulic pump 3 is calculated by calculating the discharge flow rate Q1 required by the hydraulic pump 3 according to the manipulation amount of the manipulation lever 1 as a percentage Q1/Qmax under the no-load condition and multiplying the allowable discharge flow rate Qavailable of the hydraulic pump 3 relative to the preset discharge pressure by the calculated percentage Q1/Qmax. That is, the discharge flow rate Q of the hydraulic pump 3 is calculated by the following equation:
Q=Q
available×(Q1/Qmax).
As such, in a state in which a preset value is determined which limits the maximum dischargeable flow rate of the hydraulic pump 3 that is set within a range that does not exceed a preset specific horsepower or torque of the hydraulic pump 3, relative to the preset discharge pressure, the discharge flow rate of the hydraulic pump 3 can be controlled in proportion to the manipulation amount of the manipulation lever 1 within a range that does not exceed the preset value.
In other words, as shown in
As shown in
As a result, a control range is extended even in a work region in which a high load occurs. In particular, more precise manipulability and safety are ensured during the lifting work of heavy materials. In addition, in the case where a load occurs during the work, a hydraulic fluid is discharged in a state in which the open area of the spool is widened, thereby reducing a pressure loss and thus improving a fuel efficiency.
As described above, according to the method of controlling a flow rate of a variable displacement hydraulic pump for a construction machine in accordance with an embodiment of the present invention, in a state in which a preset value is determined which limits the maximum dischargeable flow rate of the hydraulic pump, the discharge flow rate of the hydraulic pump is controlled in proportion to the manipulation amount of the manipulation lever within a range that does not exceed the preset value so that a control range can be secured to improve manipulability even during the lifting work of heavy materials. Further, in the case where a high load occurs during the work, a hydraulic fluid is discharged in at a state in which the open area of the spool is widened, so that a pressure loss can be reduced.
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/KR2010/009404 | 12/28/2010 | WO | 00 | 6/17/2013 |