CN203594639U - Novel buffering pressure stabilizing valve used for hydraulic motor - Google Patents

Abstract

The utility model provides a novel buffering pressure stabilizing valve used for a hydraulic motor. The novel buffering pressure stabilizing valve is characterized in that the valve comprises a valve body, a first oil way, an oil return oil way, a second oil way, a braking removing oil way, a third oil way, a fourth oil way and a fifth oil way are arranged in the valve body, the first oil way is connected with the third oil way through a first valve element, the lower end of the third oil way is connected with a second cylindrical cavity of the second oil way, the fourth oil way is respectively connected with the braking removing oil way and a fourth cylindrical cavity of the second oil way, the fifth oil way is respectively connected with the oil return oil way and a fifth cylindrical cavity of the second oil way, a second valve element is arranged in the second oil way and comprises a valve element body, a segment of third cylindrical face, a segment of first cylindrical face and a segment of second cylindrical face are arranged on the side face of the valve element body, the third cylindrical face and the first cylindrical face are matched with a first cylindrical cavity and a third cylindrical cavity of the second oil way respectively, and the second cylindrical face is arranged in the fifth cylindrical cavity of the second oil way. The novel buffering pressure stabilizing valve is simple and reasonable in structure and stable and reliable in performance.

Description

For the New Buffering pressure maintaining valve of oil hydraulic motor

Technical field

The utility model relates to a kind of New Buffering pressure maintaining valve, for the hydraulic actuator of big-and-middle-sized hydraulic shovel, belongs to technical field of hydraulic elements.

Background technique

Buffering pressure maintaining valve is the important composition parts of oil hydraulic motor.When oil hydraulic motor work, owing to being subject to the impact of load and system pressure, oil pressure is removed in braking can produce fluctuation by a relatively large margin, all very unfavorable to the Performance And Reliability of hydraulic motor brake, also makes the Security of whole motor and life-span be affected.Buffering pressure maintaining valve can effectively be controlled the pressure of braking releasing oil pocket, in the time of motor starting, work and braking, guarantee steady foundation, the stable maintenance of braking releasing oil pocket pressure and steadily reduce, make the workflow transition of motor more steady, effectively extend the life-span of oil hydraulic motor, especially necessary for large-tonnage oil hydraulic motor.But the common structure of traditional oil hydraulic motor buffering pressure maintaining valve is comparatively complicated, and pressure pulse is larger, and performance is stable not.

Model utility content

The technical problems to be solved in the utility model is to provide a kind of New Buffering pressure maintaining valve, and to overcome traditional oil hydraulic motor buffering pressure maintaining valve complex structure, and pressure pulse is larger, the problem that performance is stable not.

In order to solve the problems of the technologies described above, the technical solution of the utility model has been to provide a kind of New Buffering pressure maintaining valve for oil hydraulic motor, it is characterized in that, comprise valve body, in valve body, be provided with the first oil circuit, oil return circuit, the second oil circuit, oil circuit is removed in braking, the 3rd oil circuit, the 4th oil circuit and the 5th oil circuit, the first oil circuit, oil return circuit, the second oil circuit and braking are removed oil circuit and are set gradually from top to bottom, wherein the second oil circuit and braking releasing oil circuit expose from valve body left end, the first oil circuit connects the left and right sides of valve body, oil return circuit exposes from valve body right-hand member, the second oil circuit has five sections of cylindrical cavities from left to right, be respectively the first cylindrical cavity, the second cylindrical cavity, three cylindrical chamber, the 4th cylindrical cavity and the 5th cylindrical cavity, the first cylindrical cavity and three cylindrical chamber equal diameters, the second cylindrical cavity and the 4th cylindrical cavity equal diameters and diameter maximum in five sections of cylindrical cavities, the 5th cylindrical cavity is diameter minimum in five sections of cylindrical cavities, the 3rd oil circuit, the 4th oil circuit and the 5th oil circuit set gradually from left to right, wherein the 3rd oil circuit exposes from valve body upper end, the 4th oil circuit and the 5th oil circuit expose from valve body lower end, and the 3rd oil circuit, the mouth that exposes of the 4th oil circuit and the 5th oil circuit is respectively equipped with the first oil sealing screw plug, the second oil sealing screw plug and the 3rd oil sealing screw plug, the first oil circuit is connected by the first spool and the 3rd oil circuit, the first spool left side is provided with spacing valve pocket and seal ring, the first spool and limited valve inner room are provided with the first spring, the second cylindrical cavity of the lower end of the 3rd oil circuit and the second oil circuit is connected, the 4th oil circuit is connected respectively the 4th cylindrical cavity of braking releasing oil circuit and the second oil circuit, the 5th oil circuit is connected respectively the 5th cylindrical cavity of oil circuit and the second oil circuit, in the second oil circuit, be provided with the second spool, the second spool comprises spool body, the side of spool body has one section of first cylndrical surface and one section of second cylndrical surface, the first cylndrical surface is diameter the best part on spool body side, the second cylndrical surface is second largest part of diameter on spool body side, the first cylndrical surface can coordinate to connect with the three cylindrical chamber of the second oil circuit or intercept the 3rd oil circuit and the 4th oil circuit, the second cylndrical surface is located in the 5th cylindrical cavity of the second oil circuit, between the 5th cylindrical cavity of the second cylndrical surface and the second oil circuit, there is gap, the second spool left side is provided with the second spring.

Preferably, on the first described spool, there is the 4th cylndrical surface coordinating with the first oil circuit and the 5th cylndrical surface coordinating with spacing valve pocket, on the 4th cylndrical surface and the 5th cylndrical surface, be equipped with throttling plane.

Preferably, described three cylindrical face is provided with equal pressure balanced groove.

Preferably, the side of described spool body also has one section of three cylindrical face, the equal diameters of three cylindrical face and the first cylndrical surface, and the first cylindrical cavity of three cylindrical face and the second oil circuit coordinates.

The utility model is simple and reasonable, stable and reliable for performance, can effectively stablize the braking oil pressure in break, and cushions the compression shock in motor starting and when braking, thereby effectively protects oil hydraulic motor.

Accompanying drawing explanation

Fig. 1 be for oil hydraulic motor New Buffering pressure maintaining valve structural representation.

Embodiment

For the utility model is become apparent, hereby with preferred embodiment, and coordinate accompanying drawing to be described in detail below.

Embodiment

As shown in Figure 1, for for oil hydraulic motor New Buffering pressure maintaining valve structural representation, described for oil hydraulic motor New Buffering pressure maintaining valve comprise valve body 1, in valve body 1, be provided with the first oil circuit A, oil return circuit B, the second oil circuit C, oil circuit D is removed in braking, the 3rd oil circuit E, the 4th oil circuit F and the 5th oil circuit G, the first oil circuit A, oil return circuit B, the second oil circuit C and braking are removed oil circuit D and are set gradually from top to bottom, wherein the second oil circuit C and braking releasing oil circuit D expose from valve body 1 left end, the first oil circuit A connects the left and right sides of valve body 1, oil return circuit B exposes from valve body 1 right-hand member, the second oil circuit C has five sections of cylindrical cavities from left to right, is respectively the first cylindrical cavity C1, the second cylindrical cavity C2, three cylindrical chamber C3, the 4th cylindrical cavity C4 and the 5th cylindrical cavity C5, the first cylindrical cavity C1 and three cylindrical chamber C3 equal diameters, the second cylindrical cavity C2 and the 4th cylindrical cavity C4 equal diameters and in five sections of cylindrical cavities diameter maximum, the 5th cylindrical cavity C5 is diameter minimum in five sections of cylindrical cavities, the 3rd oil circuit E, the 4th oil circuit F and the 5th oil circuit G set gradually from left to right, wherein the 3rd oil circuit E exposes from valve body 1 upper end, the 4th oil circuit F and the 5th oil circuit G expose from valve body 1 lower end, and the 3rd oil circuit E, the mouth that exposes of the 4th oil circuit F and the 5th oil circuit G is respectively equipped with the first oil sealing screw plug 10, the second oil sealing screw plug 8 and the 3rd oil sealing screw plug 9, the first oil circuit A connects by the first spool 4 and the 3rd oil circuit E, the first spool 4 left sides are provided with spacing valve pocket 3 and seal ring 2, between the first spool 4 and spacing valve pocket 3, be provided with the first spring 5, on the first described spool 4, there is the 4th cylndrical surface 41 coordinating with the first oil circuit A and the 5th cylndrical surface 42 coordinating with spacing valve pocket 3, on the 4th cylndrical surface 41 and the 5th cylndrical surface 42, be equipped with throttling plane.The second cylindrical cavity C2 of the lower end of the 3rd oil circuit E and the second oil circuit C connects, the 4th oil circuit F connects respectively the 4th cylindrical cavity C4 of braking releasing oil circuit D and the second oil circuit C, the 5th oil circuit G connects respectively the 5th cylindrical cavity C5 of oil circuit B and the second oil circuit C, in the second oil circuit C, be provided with the second spool 7, the second spool 7 comprises spool body, the side of spool body has one section of three cylindrical face 71, one section of first cylndrical surface 72 and one section of second cylndrical surface 73, the equal diameters of three cylindrical face 71 and the first cylndrical surface 72 and be diameter the best part on spool body side, the second cylndrical surface 73 is second largest parts of diameter on spool body side, the first cylndrical surface 72 can coordinate to connect with the three cylindrical chamber C3 of the second oil circuit C or intercept the 3rd oil circuit E and the 4th oil circuit F, the first cylindrical cavity C1 of three cylindrical face 71 and the second oil circuit C coordinates, the 5th cylindrical cavity C5 of the second cylndrical surface 73 and the second oil circuit C coordinates, the second cylndrical surface 73 is located in the 5th cylindrical cavity C5 of the second oil circuit C, between the second cylndrical surface 73 and the 5th cylindrical cavity C5 of the second oil circuit C, there is gap, and gap is larger, the second spool 7 left sides are provided with the second spring 6.Described three cylindrical face 71 is provided with equal pressure balanced groove, to guarantee the smooth and easy movement of the second spool 7.

When motor starts to start, high pressure oil enters valve body 1 from the right-hand member of the first oil circuit A, promoting the first spool 4 moves to left, after the throttling action of the throttling plane on the 4th cylndrical surface 41, enter the 3rd oil circuit E, oil pressure is removed in the mild braking of setting up, and now the second spool 7 is because of the active force of the second spring 6 in right position, and the 3rd oil circuit E and the 4th oil circuit F connect, pressure oil in the 3rd oil circuit E is removed oil circuit D by the 4th oil circuit F and braking and is entered break, and motor braking is removed and started working.Along with the further rising of the 3rd oil circuit E pressure, the second oil circuit C, the pressure that oil circuit D is removed in the 4th oil circuit F and braking also increases, in the time that pressure arrives setting pressure, the difference of the active force of oil pressure to the first cylndrical surface 72 on the second spool 7 and the second cylndrical surface 73 moves to left promotion the second spool 7, the first cylndrical surface 72 of the second spool 7 is realized and is coordinated to cut off the 3rd oil circuit E and the 4th oil circuit F with the three cylindrical chamber C3 of the second oil circuit C, the pressure oil that braking is removed in oil circuit D and the 4th oil circuit F enters the 5th oil circuit G by the gap between the second cylndrical surface 73 on the second spool 7 and the 5th cylindrical cavity of the second oil circuit C, by oil return circuit, B flows back to fuel tank, the pressure that braking is removed in oil circuit D and the 4th oil circuit F is slowly down to setup pressure value, the second spool 7 moves to right a little under the thrust of the second spring 6, reclose the 3rd oil circuit E and the 4th oil circuit F, the pressure that braking is removed in oil circuit D and the 4th oil circuit F is slowly increased to again setting pressure, so iterative cycles reaches balance, the left side of the first cylndrical surface 72 of the second spool 7 and the right side of the three cylindrical chamber C3 of the second oil circuit C remain on contact with non-contacting threshold state under fine motion, guarantee the stable of the interior oil pressure of break.In the time that motor is braked, the high pressure oil of the first oil circuit A right-hand member is cut off, the first spring 5 resets, promoting the first spool 4 moves to right, oil circuit D is removed in braking and the 4th oil circuit F internal pressure oil passes through the gap under the second spool 7 threshold states and between three cylindrical chamber C3 and the 5th cylindrical cavity C5 of the second oil circuit C, and the mild draining of throttling plane on the 4th cylndrical surface 41 and the 5th cylndrical surface 42 of the first spool 4, motor is realized gradual braking.

Claims (4)

1. the New Buffering pressure maintaining valve for oil hydraulic motor, it is characterized in that, comprise valve body (1), in valve body (1), be provided with the first oil circuit (A), oil return circuit (B), the second oil circuit (C), oil circuit (D) is removed in braking, the 3rd oil circuit (E), the 4th oil circuit (F) and the 5th oil circuit (G), the first oil circuit (A), oil return circuit (B), the second oil circuit (C) and braking are removed oil circuit (D) and are set gradually from top to bottom, wherein the second oil circuit (C) and braking releasing oil circuit (D) expose from valve body (1) left end, the first oil circuit (A) connects the left and right sides of valve body (1), oil return circuit (B) exposes from valve body (1) right-hand member, the second oil circuit (C) has five sections of cylindrical cavities from left to right, be respectively the first cylindrical cavity (C1), the second cylindrical cavity (C2), three cylindrical chamber (C3), the 4th cylindrical cavity (C4) and the 5th cylindrical cavity (C5), the first cylindrical cavity (C1) and three cylindrical chamber (C3) equal diameters, the second cylindrical cavity (C2) and the 4th cylindrical cavity (C4) equal diameters and diameter maximum in five sections of cylindrical cavities, the 5th cylindrical cavity (C5) diameter minimum in five sections of cylindrical cavities, the 3rd oil circuit (E), the 4th oil circuit (F) and the 5th oil circuit (G) set gradually from left to right, wherein the 3rd oil circuit (E) exposes from valve body (1) upper end, the 4th oil circuit (F) and the 5th oil circuit (G) expose from valve body (1) lower end, and the 3rd oil circuit (E), the mouth that exposes of the 4th oil circuit (F) and the 5th oil circuit (G) is respectively equipped with the first oil sealing screw plug (10), the second oil sealing screw plug (8) and the 3rd oil sealing screw plug (9), the first oil circuit (A) is connected by the first spool (4) and the 3rd oil circuit (E), the first spool (4) left side is provided with spacing valve pocket (3) and seal ring (2), between the first spool (4) and spacing valve pocket (3), be provided with the first spring (5), second cylindrical cavity (C2) of the lower end of the 3rd oil circuit (E) and the second oil circuit (C) is connected, the 4th oil circuit (F) is connected respectively the 4th cylindrical cavity (C4) of braking releasing oil circuit (D) and the second oil circuit (C), the 5th oil circuit (G) is connected respectively the 5th cylindrical cavity (C5) of oil circuit (B) and the second oil circuit (C), in the second oil circuit (C), be provided with the second spool (7), the second spool (7) comprises spool body, the side of spool body has one section of first cylndrical surface (72) and one section of second cylndrical surface (73), the first cylndrical surface (72) is diameter the best part on spool body side, the second cylndrical surface (73) is second largest part of diameter on spool body side, the first cylndrical surface (72) can coordinate with the three cylindrical chamber (C3) of the second oil circuit (C) to connect or intercept the 3rd oil circuit (E) and the 4th oil circuit (F), the second cylndrical surface (73) is located in the 5th cylindrical cavity (C5) of the second oil circuit (C), between the 5th cylindrical cavity (C5) of the second cylndrical surface (73) and the second oil circuit (C), there is gap, the second spool (7) left side is provided with the second spring (6).

2. the New Buffering pressure maintaining valve for oil hydraulic motor as claimed in claim 1, it is characterized in that, on described the first spool (4), there is the 4th cylndrical surface (41) coordinating with the first oil circuit (A) and the 5th cylndrical surface (42) coordinating with spacing valve pocket (3), on the 4th cylndrical surface (41) and the 5th cylndrical surface (42), be equipped with throttling plane.

3. the New Buffering pressure maintaining valve for oil hydraulic motor as claimed in claim 1, is characterized in that, described three cylindrical face (71) is provided with equal pressure balanced groove.

4. the New Buffering pressure maintaining valve for oil hydraulic motor as claimed in claim 1, it is characterized in that, the side of described spool body also has one section of three cylindrical face, the equal diameters of three cylindrical face and the first cylndrical surface, and the first cylindrical cavity of three cylindrical face and the second oil circuit coordinates.

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