Technical Field
The present invention relates to a hydraulic circuit for a construction machine and a control device for the same.
Description of Related Art
Some construction machines perform a control (a bleed-off control) of returning a part (e.g., an excess) of a pressurized oil discharged from a hydraulic pump to an operating oil tank. In order to perform the bleed-off control, some construction machines have a gap (e.g., a bleed opening) for returning the pressurized oil in a spool of a directional control valve. According to, for example, the construction machine performs the bleed-off control by changing the opening area of the bleed opening.
An exemplary construction machine has multiple bleed openings Sbo in a spool of a directional control valve Vm as illustrated in
According to the embodiment, there is provided a hydraulic circuit for a construction machine including a center bypass passage, into which a pressurized oil discharged from a hydraulic pump is supplied, including a directional control valve group including a plurality of directional control valves arranged in tandem with the center bypass passage; and a bleed-off valve arranged in the center bypass passage on a downstream side of the directional control valve group, wherein each directional control valve includes a first internal passage for causing the pressurized oil supplied to the directional control valve to flow out to the center bypass passage and a second internal passage for supplying the pressurized oil to a cylinder port, wherein a parallel passage is formed by the center bypass passage and the first internal passage by causing, by the first internal passage, the pressurized oil discharged from the hydraulic pump to flow out to the center bypass passage on the downstream side of the directional control valve, wherein the second internal passage supplies the pressurized oil from the center bypass passage through an opening of a spool and/or the bypass passage to the cylinder port.
However, in the exemplary hydraulic circuit of the construction machine, because the bleed opening is provided to each spool of the multiple directional control valves, there is a case where a pressure loss of the pressurized oil passing through the center bypass passage increases. For example, as illustrated in
Further, because the bleed openings are provided in the spools of the multiple directional control valves in the exemplary hydraulic circuit, there may be a case where a pressure loss of the operating oil (the pressurized oil) supplied from the hydraulic pump (the center bypass passage) to a hydraulic actuator (a cylinder port) increases.
Further, in a case where a parallel passage (e.g., RP in
An embodiment of the present invention is provided under this situation, and the object of the embodiment is to provide a hydraulic circuit of a construction machine that includes a center bypass passage, into which a pressurized oil discharged from a hydraulic pump is supplied, and performs a bleed-off control and a control device for the same to enable to reduce a pressure loss of a pressurized oil passing through the center bypass passage and to reduce a pressure loss of a pressurized oil supplied to a cylinder port.
There is provided a hydraulic circuit for the construction machine wherein a bypass switching valve arranged in the bypass passage, wherein the bypass switching valve can control a flow rate of the pressurized oil supplied to the cylinder port through the bypass passage by changing an opening area of the bypass switching valve.
Further, there is provided the hydraulic circuit for the construction machine, wherein a passage area of the first internal passage may be substantially unchanged regardless of a position of the spool of each directional control valve and can form the parallel passage corresponding to the passage area, wherein the pressurized oil may be supplied to the plurality of directional control valves only from the parallel passage.
Further, according to the embodiment, there is provided the hydraulic circuit for the construction machine, wherein the directional control valve group includes a plurality of directional control valve groups, and the center bypass passage may include a plurality of center bypass passages, wherein the plurality of directional control valve groups may be arranged in the plurality of center bypass passages, respectively, wherein a plurality of parallel passages may be formed by the plurality of center bypass passages and the first internal passages of the plurality of the directional control valve groups, respectively.
Further, according to the embodiment, there is provided a control device for controlling a hydraulic circuit for a construction machine, wherein the hydraulic circuit for the construction machine may be one of the above hydraulic circuits for the construction machine.
Further, there is provided a control device for controlling a hydraulic circuit for a construction machine, wherein the opening area of the bypass switching valve may be changed in response to operation information input into the construction machine.
According to the hydraulic circuit of the construction machine of the embodiment of the present invention and the control device for the construction machine, it is possible to reduce the pressure loss of the pressurized oil passing through the center bypass passage and the pressure loss of the pressurized oil supplied to the cylinder port.
With reference to the figures, description is given below of non-limiting embodiments of the present invention. In all the figures attached thereto, the same or corresponding reference symbols are attached to the same or corresponding members and parts, and description of overlapping explanation is omitted. Further, relative ratios among the members and parts are not considered in the figures. Therefore, specific dimensions can be determined by a person ordinarily skilled in art in light of the non-limiting embodiments described below.
Hereinafter, a construction machine 100 including a hydraulic circuit 20 of the embodiment of the present invention is used in describing the present invention. The present invention is applicable to any construction machine provided with a center bypass passage (a center bypass line) to flow back a part of the pressurized oil using a cut valve (a bleed-off valve, a flow control valve, or the like) other than the construction machine of the embodiment. Further, the construction machine to which the present invention is applicable is a hydraulic shovel, a crane vehicle, a bulldozer, a wheel loader, a dump truck, a pile hammer, a pile extractor, a water jet, mud discharging water processing facilities, a grout mixer, a construction machine for deep foundations, a boring machine, or the like.
(Structure of Construction Machine)
Referring to
Referring to
In the construction machine 100, the boom cylinder 11c provided in a space between the boom 11 and the upper-part swiveling body 10Up is expanded and contracted in a longitudinal direction of the boom cylinder 11c by supplying an operating oil to the boom cylinder 11c. At this time, the boom 11 is driven in upward and downward directions by the expansion and contraction of the boom cylinder 11c. The construction machine 100 controls the operating oil supplied to the boom cylinder 11c using a directional control valve (e.g., Vb1 and Vb2 of
Further, in the construction machine 100, in a manner similar to the boom 11, the arm 12 and the bucket 13 are driven by expansion and contraction of the arm cylinder 12c and a bucket cylinder 13c. In the construction machine 100, in a manner similar to the boom cylinder 11c, the operating oil supplied to the arm cylinder 12c and the bucket cylinder 13c is controlled by a directional control valve for the arm (e.g., Va1 and Va2 of
Further, a main body of the construction machine 100 runs (movements in the forward, backward, rightward, and leftward directions) and rotates (a swivel motion) using wheels, a swiveling apparatus, and so on. The construction machine 100 uses a directional control valve for traveling (e.g., Vt1, Vt2, and Vst illustrated in
The construction machine 100, to which the present invention is applicable, further includes a hydraulic circuit 20 (described later) for supplying the operating oil (the pressurized oil) from the hydraulic pump to the hydraulic actuator and a control device 30 (described later) for controlling operations of elements of the construction machine 100. Hereinafter, the hydraulic circuit 20 and the control device 30 of the construction machine 100 of the embodiment are specifically described.
(Hydraulic Circuit of Construction Machine)
Referring to
The hydraulic circuit, to which the present invention is applicable, is not limited to that illustrated in
As illustrated in
Although the bypass passage RBp (and the bypass switching valve Vps) is arranged on the upstream side of the directional control valve Vb1 for the first boom and the directional control valve Va1 for the first arm in the hydraulic circuit 20 illustrated in
According to the hydraulic circuit 20 of the embodiment, the directional control valves (Vt1 or the like) are arranged in the center bypass passage RC in series, and the bleed-off valve Vbo is arranged in a downstream side of the center bypass passage RC. Specifically, in the hydraulic circuit 20, the center bypass passage RC1 corresponding to the first hydraulic pump P1 includes the first directional control valve Vt1 for travel (e.g., a directional control valve for left travel), an auxiliary directional control valve Vop, a directional control valve Vsw for swivel, the directional control valve Vb2 for a second boom, the directional control valve Va1 for a first arm, and the bleed-off valve Vbo1, which are arranged in series as illustrated in
Said differently, in the hydraulic circuit 20, multiple directional control valves are arranged in series in the center bypass passage RC. Further, in the hydraulic circuit 20, the directional control valves are arranged in each of the two center bypass passages RC1 and RC2 in series so that the directional control valves are arranged in tandem. In the following explanation, a group of the multiple directional control valves arranged in tandem in the center bypass passage RC is referred to as a “directional control valve group”.
In the hydraulic circuit 20 of the embodiment, a remote control pressure (a secondary pressure of a remote control valve) generated in response to operation information corresponding to an operator's operation of the operation lever (for example, information related to an operation amount) is input into the directional control valve (Vt1 or the like) corresponding to the operated operation lever. At this time, the directional control valve switches the position of the spool in response to the remote control pressure introduced into the both ends of the spool (the flow rate control spool) to change the area of the opening of the spool. With this, the directional control valve can control the flow rate (the operation amount) and the direction (the operation direction) of the pressurized oil (the operating oil) supplied from the center bypass passage RC through the opening of the spool to the hydraulic actuator (e.g., a cylinder port Cprt illustrated in
Further, in the hydraulic circuit 20 of the embodiment, a part (an excess) of the pressurized oil discharged from the hydraulic pump P (e.g., P1) is flown back to an operating oil tank Tnk (the bleed-off control) using the bleed-off valve Vbo (e.g., Vbo1) that is arranged on the downstream side of the center bypass passage RC (e.g., RC1). With this, in the construction machine 100, the flow rate of the operating oil (the pressurized oil) supplied to the hydraulic cylinder (e.g., 11c) is controlled and the drive (the operation) of the hydraulic actuator (e.g., the boom 11 illustrated in
The bleed-off valve Vbo of the embodiment can be set at an unloading position where the opening area of the bleed-off valve Vbo is maximum and a blocking position where the opening area of the bleed-off valve Vbo is zero. The bleed-off valve Vbo is switched from the unloading position to the blocking position using (the pressure of) the pressurized oil of a pilot pump Pp through an electromagnetic proportional electromagnetic pressure reducing valve (not illustrated) or the like controlled by the control device (described later). Thus, the opening area of the bleed-off valve Vbo is changed. With this the bleed-off valve Vbo can flow back (return) the pressurized oil to the operating oil tank at a desirable flow rate corresponding to the changed opening area.
Further, the hydraulic circuit 20 of this embodiment directly supplies a part of the pressurized oil discharged from the hydraulic pump P (P2 or P1) to the cylinder port (Cprt in, for example,
(Directional Control Valve and Internal Passage of Directional Control Valve)
The directional control valve arranged in the hydraulic circuit of the construction machine 100 of the embodiment of the present invention is described with reference to
Referring to
Further, the directional control valve of the embodiment includes, as an internal passage RV, a first internal passage flowing the pressurized oil, which is supplied, into the center bypass passage RC and a second internal passage flowing the pressurized oil, which is supplied, into the hydraulic actuator. As illustrated in
The first internal passage RV1 of the directional control valve V of the embodiment is an internal passage (e.g., RV1 illustrated in
With this, in the hydraulic circuit 20 of the embodiment of the present invention, a parallel passage can be formed by the center bypass passage RC and the first internal passage RV1. In the hydraulic circuit 20 of the embodiment, the parallel passage corresponding to the passage area of the first internal passage RV1 can be formed. Further, in the hydraulic circuit 20 of the embodiment of the present invention, the pressurized oil can be supplied from only the formed parallel passage to the directional control valve group Gv (the multiple directional control valves V).
Among the multiple directional control valves V, the directional control valve for travel (e.g., Vt1, Vt2 illustrated in
The second internal passage RV2 of the embodiment of the present invention is the internal passage (e.g., RV2 illustrated in FIG. 2) for supplying the pressurized oil to the hydraulic cylinder (e.g., the arm cylinder 12c or the like illustrated in
Specifically, as illustrated in
Specifically, as illustrated in
In the hydraulic circuit 20 having the directional control valve group Gv (the multiple directional control valves V) arranged in it has a parallel passage of the multiple directional control valves V and the center bypass passage RC. As illustrated in, for example,
As described, in the hydraulic circuit 20 of the construction machine 100 of the embodiment of the present invention, because the bleed-off control is not performed in the directional control valve V (because the bleed opening is provided in the directional control valve V), the opening area of the first internal passage RV1 of the directional control valve V can be increased. Therefore, because the opening area of the first internal passage RV1 of the directional control valve V can be increased, the pressure loss of the pressurized oil passing through the center bypass passage RC can be decreased.
In the hydraulic circuit 20 of the embodiment, because the multiple directional control valves V are arranged in the center bypass passage RC in series, the parallel passage formed by the center bypass passage RC and the multiple first internal passages RV1 (the directional control valves V) functions. Therefore, because the parallel passage needs not to be separately provided in the hydraulic circuit 20, the directional control valve V can be miniaturized (the dimensions of the spool in the axial direction and the radius direction can be made small). In the hydraulic circuit 20, for example, a bridge passage Rb (
Further, in the hydraulic circuit 20 of the embodiment, the flow rate of the operating oil (the pressurized oil) supplied to the hydraulic cylinder (11c, etc.) is controlled using the bypass passage RBp (and the bypass switching valve Vps) so as to control a drive (an operation) of the hydraulic actuator (11, etc.). Further, in the hydraulic circuit 20, the pressurized oil supplied to the hydraulic actuator can be controlled independent from a control of a stroke of the directional control valve V. In the hydraulic circuit 20, for example, after exceeding a control range of the stroke of the directional control valve V, the bypass switching valve Vps can be used to control the pressurized oil supplied to the hydraulic actuator. Furthermore, in the hydraulic circuit 20, because the pressurized oil can be directly supplied to the hydraulic cylinder (the cylinder port Cprt) using the bypass passage RBp (and the bypass switching valve Vps) 20 without passing through the opening of the spool of the directional control valve V, the pressure loss of the pressurized oil to be supplied can be reduced.
Referring to
In the construction machine having the other example of the hydraulic circuit illustrated in
In the construction machine having the other example of the hydraulic circuit (
Further, because the bleed opening is provided in the spool of the directional control valve of the other example of the hydraulic circuit (
Further, in a case where the bypass passage (the bypass switching valve) bypassing the center bypass passage (RC) and the cylinder port (CprtBm) is further provided in the other example of the hydraulic circuit (
(Control Device of Construction Machine)
A controller 30C (
Within the embodiment, the controller 30C of the embodiment controls the operation of a regulator R (R1, R2) based on information (for example, the operation amount and the operation direction of the operation lever) input in the construction machine 100. With this, the discharge amount of the hydraulic pump P (P1, P2) is controlled by the regulator R.
Further, the remote control pressure is generated by the controller 30C using the remote control valve or the like based on the information input in the construction machine 100. Subsequently, the controller 30C inputs the generated remote control pressure to the directional control valve (Vt1 or the like) using the remote control circuit. With this, the directional control valve can control the operating oil supplied to the hydraulic actuator by switching the position of the spool using the input remote control pressure.
The controller 30C changes the pressure of the pressurized oil of the pilot pump Pp (Pp1, Pp2) to be input in the bleed-off valve Vbo (Vbo1, Vbo2) through the electromagnetic pressure reducing valve or the like (not illustrated) based on the information input into the construction machine 100. With this, the opening degree of the bleed-off valve Vbo can be changed using the input pressure. Further, the bleed-off valve Vbo can control the flow rate of the pressurized oil flowing back to the operating oil tank by changing the opening degree Vbo.
Further, within the embodiment, the controller 30C controls the opening area of the bypass switching valve Vps (
As described above, according to the control device 30 of the construction machine 100 of the embodiment of the present invention, an effect similar to that of the above hydraulic circuit 20 is obtainable.
(Structure of Construction Machine), (Hydraulic Circuit of Construction Machine), and (Control Device of Construction Machine)
Because the structure or the like (
(Directional Control Valve and Internal Passage of Directional Control Valve)
An exemplary directional control valve (the control valve) arranged in the hydraulic circuit 20 of the construction machine 110 is illustrated in
As illustrated in
Further, in the hydraulic circuit 20 of the example, the bypass passages RBp (and the bypass switching valves Vps) are arranged in the multiple directional control valves V arranged on the plane vertical to the center bypass passage RC, respectively. With this, the hydraulic circuit 20 can individually control the pressurized oil supplied from the multiple directional control valves V arranged on the plane vertical to the center bypass passage RC to the cylinder ports Cprt.
The hydraulic circuit applicable to the present invention is not limited to a circuit in which two directional control valves V are arranged on the same plane vertical to the center bypass passage RC illustrated in
As described, the effect of the hydraulic circuit 20 of the construction machine 110 of the example of the present invention can be similar to the effect of the hydraulic circuit 20 of the construction machine 110 of the embodiment of the present invention.
Heretofore, preferred embodiments of the present invention are described for the hydraulic circuit of the construction machine and the control device for the construction machine. However, the present invention is not limited to the above described embodiments and the example. Further, the present invention can be variously modified or changed in the light of attached scope of claims.
For example, reference symbols designate as follows:
It should be understood that the invention is not limited to the above-described embodiment, but may be modified into various forms on the basis of the spirit of the invention. Additionally, the modifications are included in the scope of the invention.
Number | Date | Country | Kind |
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2012-175170 | Aug 2012 | JP | national |
This application is a continuation application filed under 35 U.S.C. 111(a) claiming the benefit under 35 U.S.C. 120 and 365(c) of a PCT International Application No. PCT/JP2013/060962 filed on Apr. 11, 2013, which is based upon and claims the benefit of priority of the prior Japanese Patent Application No. 2012-175170 filed on Aug. 7, 2012, the entire contents of which are incorporated herein by reference.
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Number | Date | Country | |
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20150068200 A1 | Mar 2015 | US |
Number | Date | Country | |
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Parent | PCT/JP2013/060962 | Apr 2013 | US |
Child | 14540226 | US |