JP4160862B2 - Automatic transmission switching valve for 2-speed hydraulic motor - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a two-speed hydraulic motor for driving a crawler for a construction machine, and relates to an automatic transmission switching valve for a two-speed hydraulic motor that automatically switches between a low speed and a high speed depending on the magnitude of a load acting on the motor. ]
[Prior art]
As an example of the prior art, an automatic transmission switching valve for a two-speed hydraulic motor is disclosed in FIG. 3 and FIG. This switching valve that switches between the low speed state and the high speed state of the two-speed motor is in a state of being switched to the high speed side position in response to an external pilot pressure. When the load acting on the hydraulic motor increases, the pressure of the high pressure port of the hydraulic motor enters the switching valve through the shuttle valve. When this pressure is opposed to the pilot pressure from the outside and becomes larger than a predetermined pressure, the switching valve is switched to the low speed side position. Further, when the load of the hydraulic motor becomes small and the pressure entering the switching valve through the shuttle valve becomes a predetermined pressure or less, the switching valve is switched to the high speed position. If the two switching set pressures of this switching valve are P _Hi → _LO (high speed → low speed) and P _LO → _Hi (low speed → high speed), the switching pressure setting of P _Hi → _LO and P _LO → _Hi is set to spool (main In the present invention, it is adjusted by two round bar members (pressure-receiving area adjusting member-shown as a small-diameter spool in the present invention) accommodated in two small-diameter holes of the spool closed by the inner partition wall. Hysteresis is provided. This prevents hunting due to pressure fluctuations in automatic shifting of the hydraulic motor. In this prior art, there is hysteresis in the low-speed / high-speed setting switching pressure.
[0003]
[Patent Document 1]
JP, 2003-28102, A FIG. 3, FIG.
[0004]
[Problems to be solved by the invention]
However, in the prior art of Patent Document 1, there are large hysteresis in the two switching setting pressures P _Hi → _LO (high speed → low speed) and P _LO → _Hi (low speed → high speed) of the switching valve, and the setting pressure of P _LO → _Hi . Is set low. When the hydraulic motor is suddenly driven with the switching valve at the high speed side position, the pressure of the hydraulic motor suddenly rises, so it switches to the single low speed side position, and then the load pressure of the hydraulic motor decreases and returns to the high speed side position. However, since the switching set pressure of P _LO → _Hi is low, the responsiveness is poor, the time lag until the switching valve returns from the low speed side to the high speed side is large, and smooth start is not possible. For this reason, it is necessary to increase only the switching setting pressure of P _LO → _{Hi while} maintaining the switching setting pressure of P _Hi → _LO . In that case, it is necessary to increase the outer diameter of the spool or to decrease the outer diameter of the spring-side round bar member. If increasing the outer diameter D ₁ of the spool valve body increases. When reducing the outer diameter D ₂ of the spring-side of the rod member, processing becomes difficult. Also, reducing the outer diameter D ₂ of the spring-side of the round bar member, switch setting pressure P _LO → _Hi increases therewith switch setting pressure P _Hi → _LO is increased at the same time. Therefore, when P _LO → _Hi is increased to reduce hysteresis without changing P _Hi → _LO , the outer diameter D ₃ of the round rod member on the external pilot side must also be reduced. It becomes difficult. When the spool diameter is increased, the valve body is increased, and when each round bar member is decreased, there is a problem that processing becomes difficult.
[0005]
The object of the present invention is to solve the problems of the prior art, and in setting the two switching pressures (high speed → low speed, low speed → high speed) of the hydraulic motor, the hysteresis can be reduced and the diameter of the spool (second speed spool) can be increased. It is another object of the present invention to provide an automatic transmission switching valve for a two-speed hydraulic motor with reduced hysteresis without reducing the diameter of each round bar member (each small diameter spool).
[0006]
[Means for solving the problems]
Therefore, according to the present invention, in an automatic variable switching valve that switches between a low speed state and a high speed state of a two-speed hydraulic motor, the switching valve is fitted in a large diameter spool hole whose both ends are closed in the housing so as to be movable in the axial direction. A hollow two-speed spool, a first small-diameter spool C and a second small-diameter spool B which are fitted in first and second small-diameter spool holes provided at both ends of the two-speed spool so as to be movable in the axial direction; A spring that biases the shoulder of the hollow hole of the second-speed spool and the second small-diameter spool B, and one outer end of the first small-diameter spool C and the second-speed spool. External pilot pressure is guided to the portion, and the high pressure port pressure of the hydraulic motor that opposes the external pilot pressure is always applied to the inner surfaces of the first small diameter spool C and the second small diameter spool B in the second speed spool. The central port provided in the center of the switching valve is guided from the radial hole located at the center of the second speed spool into the hollow hole, and the diameter D2 of the second small diameter spool B is made larger than the diameter D3 of the first small diameter spool C. When the high pressure port pressure (Pab) is higher than the first switching set pressure (P _Hi → _LO ) and the switching valve is in the low speed position, the pressure chamber of the speed switching control piston of the hydraulic motor is drained. communicates with the port (DR), said high pressure port pressure (Pab) is when the second switch set pressure (P _LO → _Hi) lower than the switching valve is in a high speed state position pressurization speed switching control piston of said hydraulic motor The chamber is communicated with the high pressure port pressure (Pab) of the hydraulic motor so that the force (Fab) acting on the second speed spool is Fab = Pab × π / 4 × (D 2 ² −D 3 ^2), and either a D 2> D 3 Becomes a force to push the second speed spool to spools C direction, the difference in the area of the area and the diameter D3 of the diameter D2, be to act as the difference in pressure receiving area that acts on the hollow Anakata portion of the second speed spool 2 The above-described problem of the present invention has been solved by an automatic transmission switching valve of a two-speed hydraulic motor characterized in that the high- speed spool is moved in the spool C direction .
[0007]
【The invention's effect】
According to the configuration of the present invention, the high pressure port pressure of the hydraulic motor that opposes the external pilot pressure is always applied to the inner surfaces of the first small diameter spool C and the second small diameter spool B in the second speed spool. The pressure receiving area of the pressure acting on is always the same regardless of the position of the switching valve, and the hysteresis of the switching valve can be reduced. As a result, the hysteresis can be reduced in the setting of the two switching set pressures (high speed → low speed, low speed → high speed), and in particular, the responsiveness until the load force decreases from the low speed side position and returns to the high speed side position is good. There is no time lag when starting, and smooth starting is possible. In addition, the present invention provides an automatic transmission switching valve for a two-speed hydraulic motor with reduced hysteresis without increasing the diameter of the main spool and without reducing the diameter of each small-diameter spool.
[0008]
Preferably, when the high pressure port pressure is higher than the first switching set pressure and the switching valve is in the low speed position, the pressure chamber of the speed switching control piston of the hydraulic motor is communicated with a drain, and the high pressure of the hydraulic motor is increased. When the port pressure is lower than the second switching set pressure and the switching valve is in the high speed position, the pressure chamber of the speed switching control piston of the hydraulic motor communicates with the high pressure port pressure of the hydraulic motor. .
[0009]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a hydraulic circuit diagram including a schematic sectional view when an automatic transmission switching valve of a two-speed hydraulic motor according to an embodiment of the present invention is at a low speed side position, and FIG. 2 is a diagram when the switching valve is at a high speed side position. 1 shows a hydraulic circuit diagram including a schematic cross-sectional view.
As shown in FIG. 1, an automatic variable switching valve 7 for switching between a low speed state and a high speed state of a two-speed hydraulic motor 1 is a large-diameter spool whose ends are closed by plugs 5 and 6 in a housing 4 partially indicated by a dotted line. A hollow 2-speed spool 10 fitted in the hole 15 so as to be movable in the axial direction, and first and second small-diameter spool holes 16, 17 provided at both ends of the 2-speed spool 10 so as to be movable in the axial direction. A first small-diameter spool C and a second small-diameter spool B, and a spring 8 that urges the hollow hole shoulder 19 of the second-speed spool 10 and the second small-diameter spool B in a direction away from each other. A pilot pressure chamber 21 is formed at one outer end of each of the first small-diameter spool C and the second-speed spool, and the external pilot pressure Pp is guided to the high pressure port pressure Pab of the hydraulic motor 1 that opposes the external pilot pressure Pp. Positioned at the center of the second speed spool 10 from the center port AB provided at the approximate center of the switching valve 7 so as to always act on the inner surfaces of the first small diameter spool C and the second small diameter spool B in the second speed spool 10. The high pressure port pressure Pab of the hydraulic motor 1 is guided from the radial hole 18 into the hollow hole 20, and the diameter D2 of the second small diameter spool B is made larger than the diameter D3 of the first small diameter spool C. When the high pressure port pressure Pab is higher than the first switching set pressure P _Hi → _LO and the switching valve 7 is in the low speed position, the pressurizing chamber of the speed switching control piston 2 of the hydraulic motor 1 is communicated with the drain port DR. pressurizing chamber of speed change control piston 2 of the hydraulic motor 1 communicates with the high pressure port pressure Pab of the hydraulic motor 1 is when the pressure Pab second switch setting pressure P _LO → switching valve 7 below _Hi is in a high speed state position Has been.
[0010]
Next, the operation will be described. FIG. 1 shows a case where the load high pressure port pressure Pab acting on the hydraulic motor 1 is higher than the first switching set pressure P _Hi → _LO and the switching valve 7 is in the low speed side position. The pressure oil in the direction change valve 12 and the pressure Pab in the high pressure port flow from the center port AB through the radial port 18 into the hollow hole 20 through the counter balance valve 11 and into the hollow hole 20 in the second hole 10. As a result, the spool C is pressed to the right and to the left. Thus, the force acting on the second speed spool 10 (Fab) are, Fab = Pab × π / 4 × (D2 2 -D3 2) next, because it is D2> D3, the second speed spool leftward (spool C direction ) , And the difference between the area of the diameter D2 and the area of the diameter D3 acts as a difference in the pressure receiving area acting on the hollow hole shoulder 19 of the 2-speed spool 10 to move the 2-speed spool to the left (spool (C direction). On the other hand, the external pilot pressure Pp is led from the left end port Pp of the second speed spool 10 to the pilot pressure chamber 21, and the force acting on the second speed spool 10 is Fp = Pp · π / 4 × (D ₁ ² −D ₃ ² Since D ₁ > D ₃ , the second speed spool 10 is pushed to the right. The spring 8 has a force Fsp that pushes the second speed spool 10 leftward. In the case of FIG. 1, the load acting on the hydraulic motor 1 is large (= Pab is large) and the force acting on the second speed spool 10 becomes Fp <Fab + Fsp, and the second speed spool 10 is pushed to the left. At this time, the pressure chamber pressure Pcp of the control piston 2 of the hydraulic motor 1 is connected to the DR port from the port A ″ or the port B ″ of the switching valve 7 via the shuttle valve 3. become.
[0011]
FIG. 2 shows a case where the high pressure port pressure Pab acting on the hydraulic motor 1 is lower than the second switching set pressure P _LO → _Hi , and the switching valve 7 is in the high speed side position. The high pressure port pressure Pab passes through the counter balance valve 11. Then, the air flows into the hollow hole 20 from the central port AB through the radial hole 18 of the second speed spool 10. The force Fp = Fab + Fsp acting on the second-speed spool 10 at the high-speed side position is obtained, and the second-speed spool 10 is pressed to the right. At this time, the pressure Pcp in the control piston 2 is communicated via the shuttle valve 3 from the port A ″ or the port B ″ of the switching valve 7 to the A ′ port or the port B ′. As a result, the load pressure P′a or P′b, which is the pressure Pab of the high pressure port of the hydraulic motor 1, flows into the control piston 2 through the switching valve 7 and the shuttle valve 3, and as shown by the one-dot chain line, Is the high speed side position. From the above, the balance formula of the force acting on the second speed spool 10 is always expressed as “Fp = Fab + Fsp”, and the hysteresis of the switching valve is provided by the spring constant and the overlap amount (not shown) of the second speed spool 10, Therefore, there is no time lag which is a problem in the prior art, and the hydraulic motor 1 can be started smoothly at the setting of two switching pressures (high speed → low speed, low speed → high speed).
[0012]
[Effect of the Embodiment of the Invention] According to the embodiment of the present invention, the pressure Pab of the high-pressure port is always applied to the inner surfaces of the first small-diameter spool C and the second small-diameter spool B in the second-speed spool. Therefore, the pressure receiving area of the pressure acting on the two-speed spool 10 is always the same regardless of the position of the switching valve, and the two-speed spool 10 is set at two switching setting pressures (high speed → low speed, low speed → high speed). The hysteresis of the switching valve can be reduced without increasing the diameter of the (main spool) and without reducing the diameter of each small diameter spool (each round bar member). As a result, the responsiveness until the load pressure of the hydraulic motor drops from the low speed side position to the high speed side position is particularly good, and there is no time lag at the start of the hydraulic motor, making it possible to start smoothly.
[Brief description of the drawings]
FIG. 1 is a hydraulic circuit diagram including a schematic cross-sectional view when an automatic shift switching valve of a two-speed hydraulic motor according to an embodiment of the present invention is in a low speed side position.
FIG. 2 is a hydraulic circuit diagram including a schematic cross-sectional view when the switching valve is in a high speed side position.
[Explanation of symbols]
1 ・ ・ 2-speed hydraulic motor 2 ・ ・ Control piston 3 ・ ・ Shuttle valve 4 ・ ・ Housing 7 ・ ・ Automatic changeover valve 8 ・ ・ Spring
10. ・ 2 speed spool 15 ・ ・ Large diameter spool hole 16 ・ ・ First small diameter spool hole
17 ・ ・ Second small diameter spool hole 19 ・ ・ Hollow hole shoulder of 2nd speed spool
20 ・ ・ Hollow hole of 2-speed spool 21 ・ ・ Pilot pressure chamber B ・ ・ Second small diameter spool C ・ ・ First small diameter spool
D2 ・ ・ The diameter of the second small diameter spool B D3 ・ ・ The diameter of the first small diameter spool C

Claims (1)

In the automatic variable switching valve that switches between a low speed state and a high speed state of a two-speed hydraulic motor, the switch valve is a hollow two-speed spool that is fitted in a large-diameter spool hole that is closed at both ends in the housing so as to be axially movable. A first small-diameter spool C and a second small-diameter spool B that are fitted in first and second small-diameter spool holes provided at both ends of the second-speed spool so as to be movable in the axial direction, and a hollow hole in the second-speed spool A spring urging in a direction to separate the shoulder and the second small diameter spool B, and external pilot pressure is applied to one outer end of the first small diameter spool C and the second speed spool. The switching valve is substantially centered so that the high pressure port pressure of the hydraulic motor guided and opposed to the external pilot pressure always acts on the inner surfaces of the first small diameter spool C and the second small diameter spool B in the second speed spool. In To guide the hollow bore than the radial hole located from only central port in the center of the second speed spool, said second diameter D2 of the small-diameter spool B first small diameter spool C of diameter D3 than the large west, said high pressure port pressure ( Pab) is when the first switch setting pressure (P _Hi → _LO) higher than said switching valve is in a low speed state position, the pressurizing chamber of the speed switching control piston of said hydraulic motor is communicated with the drain port (DR), It said high pressure port of the pressure chamber is a hydraulic motor of the hydraulic motor of the speed change control piston when the high-pressure port pressure (Pab) is the second switching set pressure (P _LO → _Hi) lower than the switching valve is in a high speed state position adapted to communicate with the pressure (Pab), thereby, the force acting on the second speed spool (Fab) are, Fab = Pab × π / 4 × (D 2 2 -D 3 2) next, D 2> D because it is 3, spool the second speed spool Will force pushing the C direction, the difference in the area of the area and the diameter D3 of the diameter D2, be to act as the difference in pressure receiving area that acts on the hollow Anakata portion of the second speed spools, the 2-speed spool spools C direction automatic transmission switching valve 2 speed hydraulic motor being characterized in that so as to move to.

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