CN201396327Y - Self control positioning two-directional hydraulic reversing valve - Google Patents
Self control positioning two-directional hydraulic reversing valve Download PDFInfo
- Publication number
- CN201396327Y CN201396327Y CN2009200219598U CN200920021959U CN201396327Y CN 201396327 Y CN201396327 Y CN 201396327Y CN 2009200219598 U CN2009200219598 U CN 2009200219598U CN 200920021959 U CN200920021959 U CN 200920021959U CN 201396327 Y CN201396327 Y CN 201396327Y
- Authority
- CN
- China
- Prior art keywords
- control
- spool
- port
- communicates
- ring cavity
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Landscapes
- Multiple-Way Valves (AREA)
- Servomotors (AREA)
Abstract
The utility model relates to a self control positioning two-directional hydraulic reversing valve. A control chamber is respectively arranged at the left end and the right end of a valve chamber; theleft end and the right end of a valve core are respectively positioned in the two control chambers of the valve chamber; a balance spring abutting and pressing on the valve core is respectively arranged in each control chamber; a first control oil port and a second control oil port communicated with the left control chamber are arranged on the valve core, and have a certain gap in the axial direction of the valve core; and a third control oil port communicated with the right control chamber is arranged on the valve core. The utility model can automatic track the movement condition of a hydraulic cylinder of an execution element, and can use the hydraulic power produced by liquid flowing and the balance force of the spring force to maintain the positioning of the valve core of the reversingvalve. The full stroke automatic reciprocating movement of the hydraulic cylinder can be realized as long as providing hydraulic oil for the self control positioning two-directional hydraulic reversing valve.
Description
Technical field
The utility model relates to a kind of selector valve, particularly a kind of self-control positioning bidirectional hydraulic change-over valve.
Background technique
Common hydraulicdirectional control valve is the reciprocating control unit of control oil hydraulic cylinder.Mainly be divided into solenoid directional control valve and hand-operated direction valve two big classes; More than two kinds of selector valves be the moving direction that changes the spool of hydraulicdirectional control valve by external force (attractive force of electro-magnet, manpower); And, change and keep the flow direction of liquid by the location that external force (attractive force of electro-magnet, manpower) keeps spool, realize the change and the motion of oil hydraulic cylinder moving direction.
Summary of the invention
The technical problems to be solved in the utility model is: a kind of self-control positioning bidirectional hydraulic change-over valve is provided, makes it need not the automatic reciprocating motion that external force is may command oil hydraulic cylinder total travel.
In order to solve the problems of the technologies described above, the utility model comprises valve body and spool, spool is arranged in the valve chamber of valve body, valve body is provided with the oil return inlet T that all communicates with valve chamber, actuator port B, oil inlet P and actuator port A, respectively there is a control room at the two ends, the left and right sides of described valve chamber, the two ends, the left and right sides of spool are in respectively in two control rooms of valve chamber, respectively be provided with a balance spring that is pressed on the spool in two control rooms, spool is provided with control port I and the control port II that communicates with left control room, control port I and control port II spool axially on apart from certain intervals is arranged, spool is provided with the control port III that communicates with right control room, when two balance springs act on when being zero making a concerted effort on the spool, control port II part communicates with oil return inlet T, control port I communicates with oil inlet P, and control port III communicates with actuator port A; When spool was in rightmost position, oil inlet P, actuator port A, control port I, control port II and control port III communicated, and oil return inlet T and actuator port B communicate; When spool was in leftmost bit, actuator port A, oil return inlet T, control port I, control port II and control port III communicated, and oil inlet P and actuator port B communicate.
In order to make it simple in structure, be easy to processing, described valve chamber comprises the left-to-right described left control room that is arranged in order, left side ring cavity T, ring cavity A, ring cavity P, ring cavity B, right ring cavity T, the slotted hole of described right control room and aforementioned all control rooms of perforation and ring cavity, between adjacent control room and the ring cavity shoulder is arranged, oil return inlet T communicates with left ring cavity T and right ring cavity T respectively, oil inlet P communicates with ring cavity P, actuator port B communicates with ring cavity B, actuator port A communicates with ring cavity A, spool is arranged in the slotted hole of valve chamber, spool is provided with two circular grooves, when two balance springs act on when being zero making a concerted effort on the spool, ring cavity A in left circular groove on the spool and the valve chamber over against, the interior ring cavity B of the right circular groove on the spool and valve chamber over against.
In order to make valve core movement steady, respectively be fixed with a piston in the two ends, the left and right sides of described spool, the annular space is all arranged between two-piston and the spool, be provided with the oil duct that communicates with left control room in the left piston, control port I and control port II all communicate with oil duct in the left piston by left piston and the gap of valve core chamber, be provided with the oil duct that communicates with right control room in the right piston, control port III communicates with oil duct in the right piston by right piston and the gap of valve core chamber.
In order to make valve core movement steady, when two balance springs act on when being zero making a concerted effort on the spool, the part of the 5-15% of control port I communicates with oil return inlet T.
In order to prevent the spring skew, described two balance springs are connected with spool by a spring limiting stopper respectively, and the spring limiting stopper is fixed on the spool, and balance spring is enclosed within on the spring limiting stopper.
The beneficial effects of the utility model are: the utility model utilizes the power of surging of flow of fluid generation and the equilibrant of spring force, the location that keeps change-over valve core from the moving situation of motion tracking executive component oil hydraulic cylinder.When being become suddenly by motion, oil hydraulic cylinder stops, the power of surging disappears, break the original balance of spool, spool is at spring force, the inertia of valve core movement and about the effect that changes of control chamber fluid pressure move in order down, the flow direction of automatic switchover liquid, changing oil hydraulic cylinder moves to opposite direction by stopping, utilize the power of surging of flow of fluid generation and the equilibrant of spring force, the location that keeps change-over valve core, as long as just can realize the automatic reciprocating motion of oil hydraulic cylinder total travel to self-control positioning bidirectional hydraulic change-over valve supply pressure oil, without any need for appliance controling element, reduced control device, improved the reliability that complete machine uses greatly.Can realize simultaneously the particular requirement under the particular surroundings.Has development prospect widely.
Description of drawings
Fig. 1-Fig. 4 is the structural representation of four kinds of working staties of the present utility model;
Among the figure: 1, left control room, 2, left end cap, 3, left balance spring, 4, the left spring limiting stopper, 5, left plug, 6, control port II, 7, left piston, 8, control port I, 9, right piston, 10, right silk thread, 11, valve body, 12, right control room, 13, oil return inlet T, 14, right balance spring, 15, right end cap, 16, right spring limiting stopper, 17, oil sump tank, 18, oil hydraulic cylinder, 19, actuator port B, 20, oil inlet P, 21, actuator port A, 22, control port III, 23, spool.
Embodiment
A kind of specific embodiment shown in Fig. 1-4, it comprises left end cap 2, left balance spring 3, left spring limiting stopper 4, left plug 5, left piston 7, right piston 9, right silk thread 10, right balance spring 14, right end cap 15, right spring limiting stopper 16, spool 23 and valve body 11.
Be provided with valve chamber in the valve body 11, valve chamber comprises the left-to-right left control room 1 that is arranged in order, left ring cavity T, ring cavity A, ring cavity P, ring cavity B, right ring cavity T, right control room 12 and connects the slotted hole of aforementioned all control rooms and ring cavity, between adjacent control room and the ring cavity shoulder is arranged, valve body 11 is provided with oil return inlet T 13, actuator port B19, oil inlet P 20 and actuator port A21, oil return inlet T 13 communicates with left ring cavity T and right ring cavity T respectively, oil inlet P 20 communicates with ring cavity P, actuator port B19 communicates with ring cavity B, and actuator port A21 communicates with ring cavity A.
Spool 23 is arranged in the slotted hole of valve chamber, and spool 23 is provided with control port I8, control port II6 and control port III22.Control port I8 and control port II6 spool 23 axially on apart from certain intervals is arranged.Left piston 7 is arranged in the left end of spool 23, left piston 7 is fixed in the spool 23 by left plug 5, between left piston 7 and the spool 23 certain interval is arranged, be provided with the oil duct that communicates with left control room 1 in the left piston 7, control port I8, control port II6 all are connected by the oil duct in the gap between left piston 7 and the spool 23 and the left piston 7.Left spring limiting stopper 4 is fixed on the left end of spool 23 and overhanging, left side balance spring 3 is enclosed within on the left spring limiting stopper 4, left end cap 2 is fixed on the left end of valve body 11, and left end cap 2 is with the left end sealing of valve chamber, and left balance spring 3 is in the left control room 1 and is clipped between left end cap 2 and the spool 23.Right piston 9 is arranged in the right-hand member of spool 23, right piston 9 is fixed in the spool 23 by right plug 10, between right piston 9 and the spool 23 certain interval is arranged, be provided with the oil duct that communicates with right control room 12 in the right piston 9, control port III22 is connected by the gap between right piston 9 and the spool 23 and right piston 9 interior oil ducts.Right spring limiting stopper 16 is fixed on the right-hand member of spool 23 and overhanging, right balance spring 14 is enclosed within on the right spring limiting stopper 16, right end cap 15 is fixed on the right-hand member of valve body 11, right end cap 15 is with the right-hand member sealing of valve chamber, and right balance spring 14 is in the right control room 12 and is clipped between right end cap 15 and the spool 23.Spool 23 is provided with two circular grooves.
When two balance springs act on when being zero making a concerted effort on the spool 23, be when being in the original state that does not have mobile hydraulic oil in the valve chamber, control port II6 has the part of 5-15% to communicate with left ring cavity T, other parts are sealed by the shoulder in the valve chamber, control port I8 communicates with ring cavity P, control port III22 communicates with ring cavity A, the ring cavity A in left circular groove on the spool 23 and the valve chamber over against, the interior ring cavity B of the right circular groove on the spool 23 and valve chamber over against.When spool (23) when being in rightmost position, oil inlet P, actuator port A, control port I8, control port II6 and control port III22 communicate, oil return inlet T and actuator port B communicate, when spool 23 is in leftmost bit, actuator port A, oil return inlet T, control port I8, control port II6 and control port III22 communicate, and oil inlet P and actuator port B communicate.
Using method: oil return inlet T 13 is connected with oil sump tank 17 by oil pipe, and oil inlet P 20 taps into oil pipeline, and actuator port A connects the left chamber of oil hydraulic cylinder 18, and actuator port B19 connects the right chamber of oil hydraulic cylinder 18.
Working principle:
Original state as shown in Figure 1, control port this moment I8 communicates with oil inlet P 20, and the control port II6 overwhelming majority is by the sealing of the shoulder on the valve body 11, and control port III22 communicates with actuator port A21.
When oil inlet P 20 enters pressure oil, control port I8 and control port II6 are introduced into gap and the oil duct in left piston 7 of pressure oil by 23 of left piston 7 and spools in the left control room 1, forming oil pressure promotion spool 23 in the control room, a left side 1 moves right, passive gap and the oil duct in the right piston 9 by 23 of right piston 9 and spools of hydraulic oil in the right control room 12 is introduced into control port III22 and enters ring cavity A pressure release, hydraulic oil among the ring cavity A flow into the back cavity of oil hydraulic cylinder 18 from actuator port A21, and spool 23 is finished the switching of oil circuit; Be that oil inlet P 20 communicates with actuator port A21; Actuator port B19 communicates with oil return inlet T 13; The piston of realizing oil hydraulic cylinder 18 moves right, when spool 23 move to control port I8, control port II6 and control port III22 all with ring cavity P, when ring cavity A communicates (as shown in Figure 2), oil pressure in control room 1, a left side and the right control room 12 is high pressure and equates that the control force of hydraulic oil equates.Produce equilibrant by the power of surging that flows of hydraulic oil in the valve chamber and the pressure of right balance spring 14, make spool 23 static, as shown in Figure 2, keep oil inlet P 20 to communicate with actuator port A21; Actuator port B19 communicates with oil return inlet T 13; The piston of oil hydraulic cylinder 18 is moved right stably to the stroke end.
When the piston of oil hydraulic cylinder 18 moves right to terminal, the pressure of system rises to set pressure by working pressure, oil inlet P 20 and actuator port A21 produce high pressure, control port I8 and control port II6 are introduced into pressure oil in the left control room 1 by the oil duct in the left piston 7, simultaneously control port III22 is introduced into pressure oil in the right control room 12 by the oil duct in the right piston 9, pressure in two control rooms is raise simultaneously and keeps balance.The power of surging simultaneously disappears, right balance spring 14 promotes spool 23 and is moved to the left Fig. 1 position, control port this moment II6 has the part of 5-15% to communicate with left ring cavity T, high-pressure and hydraulic oil in the control room, a left side 1 flows to oil sump tank 17 by left piston 7 and control port II6 from oil return inlet T 13, realize the 1 part release of left control room, overcome the dead point, the pilot pressure in the pilot pressure in promptly right control room 12>left control room 1; The thrust of the thrust>1 pair of spool 23 in left control room of the 12 pairs of spools 23 in right control room, promote spool 23 and move to position shown in Figure 3: control port I8 is sealed by the shoulder in the valve chamber, control port II6 communicates with oil return inlet T 13, and the pressure in left control room 1 reduces rapidly; Control port III22 communicates with the actuator port A21 of sealing, and right control room 12 keeps higher pilot pressure, the pilot pressure in the pilot pressure in promptly right control room 12>left control room 1; The thrust of the thrust>1 pair of spool 23 in left control room of the 12 pairs of spools 23 in right control room promotes spool 23 and is moved to the left; Communicate with actuator port B19 to oil inlet P 20; Actuator port A21 communicates with oil return inlet T 13; The piston reverses direction motion of oil hydraulic cylinder 18.
When valve core movement (as shown in Figure 4) when control port I8, control port II6, control port III22 all communicate with actuator port A21 and oil return inlet T 13, the pressure in control room, the left and right sides is low pressure and equates, spool 23 continues to reach balance to left movement until power of surging and left balance spring 3 pressure, make spool static, keep the piston of oil hydraulic cylinder 18 steadily to move to the stroke end left, the oil hydraulic cylinder stop motion, the power of surging disappears.The balance spring 3 that keeps left promotes spool to Fig. 1 position.So do action forms the automatic reciprocating motion of oil hydraulic cylinder 18 total travels.
Claims (5)
1. self-control positioning bidirectional hydraulic change-over valve, comprise valve body (11) and spool (23), spool (23) is arranged in the valve chamber of valve body (11), valve body (11) is provided with the oil return inlet T that all communicates with valve chamber, actuator port B, oil inlet P and actuator port A, it is characterized in that: respectively there is a control room at the two ends, the left and right sides of described valve chamber, the two ends, the left and right sides of spool (23) are in respectively in two control rooms of valve chamber, respectively be provided with a balance spring that is pressed on the spool (23) in two control rooms, spool (23) is provided with control port I (8) and the control port II (6) that communicates with left control room (1), control port I (8) and control port II (6) axially go up apart from certain intervals is arranged spool (23), spool (23) is provided with the control port III (22) that communicates with right control room (12), when two balance springs act on when being zero making a concerted effort on the spool (23), control port II (6) part communicates with oil return inlet T, control port I (8) communicates with oil inlet P, control port III (22) communicates with actuator port A, when spool (23) when being in rightmost position, oil inlet P, actuator port A, control port I (8), control port II (6) and control port III (22) communicate, oil return inlet T and actuator port B communicate, when spool (23) when being in leftmost bit, actuator port A, oil return inlet T, control port I (8), control port II (6) and control port III (22) communicate, and oil inlet P and actuator port B communicate.
2. self-control positioning bidirectional hydraulic change-over valve according to claim 1, it is characterized in that: described valve chamber comprises the left-to-right described left control room (1) that is arranged in order, left side ring cavity T, ring cavity A, ring cavity P, ring cavity B, right ring cavity T, the slotted hole of described right control room (12) and aforementioned all control rooms of perforation and ring cavity, between adjacent control room and the ring cavity shoulder is arranged, oil return inlet T (13) communicates with left ring cavity T and right ring cavity T respectively, oil inlet P (20) communicates with ring cavity P, actuator port B (19) communicates with ring cavity B, actuator port A (21) communicates with ring cavity A, spool (23) is arranged in the slotted hole of valve chamber, spool (23) is provided with two circular grooves, when two balance springs act on when being zero making a concerted effort on the spool (23), ring cavity A in left circular groove on the spool (23) and the valve chamber over against, the interior ring cavity B of the right circular groove on the spool (23) and valve chamber over against.
3. self-control positioning bidirectional hydraulic change-over valve according to claim 2, it is characterized in that: respectively be fixed with a piston in the two ends, the left and right sides of described spool (23), two-piston and spool all have the annular space between (23), be provided with the oil duct that communicates with left control room (1) in the left piston (7), control port I (8) and control port II (6) all communicate with oil duct in the left piston (7) by the gap between left piston (7) and spool (23), be provided with the oil duct that communicates with right control room (12) in the right piston (9), control port III (22) communicates with oil duct in the right piston (9) by the gap between right piston (9) and spool (23).
4. according to claim 1,2 or 3 described self-control positioning bidirectional hydraulic change-over valves, it is characterized in that: when two balance springs act on when being zero making a concerted effort on the spool (23), the part of the 5-15% of control port I (8) communicates with oil return inlet T.
5. self-control positioning bidirectional hydraulic change-over valve according to claim 4, it is characterized in that: described two balance springs are connected with spool (23) by a spring limiting stopper respectively, the spring limiting stopper is fixed on the spool (23), and balance spring is enclosed within on the spring limiting stopper.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009200219598U CN201396327Y (en) | 2009-05-07 | 2009-05-07 | Self control positioning two-directional hydraulic reversing valve |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2009200219598U CN201396327Y (en) | 2009-05-07 | 2009-05-07 | Self control positioning two-directional hydraulic reversing valve |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201396327Y true CN201396327Y (en) | 2010-02-03 |
Family
ID=41618836
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2009200219598U Expired - Lifetime CN201396327Y (en) | 2009-05-07 | 2009-05-07 | Self control positioning two-directional hydraulic reversing valve |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN201396327Y (en) |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108518377A (en) * | 2018-05-18 | 2018-09-11 | 宁波真格液压科技有限公司 | A kind of automatic diverter valve for garbage compression station |
CN108612709A (en) * | 2018-05-18 | 2018-10-02 | 东莞海特帕沃液压科技有限公司 | A kind of reciprocating air compressor of hydraulic-driven |
CN108626192A (en) * | 2018-05-18 | 2018-10-09 | 宁波真格液压科技有限公司 | A kind of automatic control reversing valve |
CN108644092A (en) * | 2018-05-18 | 2018-10-12 | 东莞海特帕沃液压科技有限公司 | A kind of reciprocating air compressor of hydraulic-driven |
CN108678927A (en) * | 2018-05-18 | 2018-10-19 | 东莞海特帕沃液压科技有限公司 | A kind of reciprocating compressor of hydraulic-driven |
CN108691737A (en) * | 2018-05-18 | 2018-10-23 | 东莞海特帕沃液压科技有限公司 | A kind of piston high-density pump of hydraulic-driven |
CN110285310A (en) * | 2019-07-31 | 2019-09-27 | 青岛盘古润滑技术有限公司 | A kind of hydraulic automatic switching control equipment |
CN111059025A (en) * | 2019-12-26 | 2020-04-24 | 宁波真格液压科技有限公司 | Compact air compressor |
CN112343879A (en) * | 2020-10-29 | 2021-02-09 | 武汉船用机械有限责任公司 | Same-pressure-difference rotary motor control system |
-
2009
- 2009-05-07 CN CN2009200219598U patent/CN201396327Y/en not_active Expired - Lifetime
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108518377A (en) * | 2018-05-18 | 2018-09-11 | 宁波真格液压科技有限公司 | A kind of automatic diverter valve for garbage compression station |
CN108612709A (en) * | 2018-05-18 | 2018-10-02 | 东莞海特帕沃液压科技有限公司 | A kind of reciprocating air compressor of hydraulic-driven |
CN108626192A (en) * | 2018-05-18 | 2018-10-09 | 宁波真格液压科技有限公司 | A kind of automatic control reversing valve |
CN108644092A (en) * | 2018-05-18 | 2018-10-12 | 东莞海特帕沃液压科技有限公司 | A kind of reciprocating air compressor of hydraulic-driven |
CN108678927A (en) * | 2018-05-18 | 2018-10-19 | 东莞海特帕沃液压科技有限公司 | A kind of reciprocating compressor of hydraulic-driven |
CN108691737A (en) * | 2018-05-18 | 2018-10-23 | 东莞海特帕沃液压科技有限公司 | A kind of piston high-density pump of hydraulic-driven |
CN108691737B (en) * | 2018-05-18 | 2019-11-22 | 江苏佳佩环保机械设备有限公司 | A kind of piston high-density pump of hydraulic-driven |
CN110285310A (en) * | 2019-07-31 | 2019-09-27 | 青岛盘古润滑技术有限公司 | A kind of hydraulic automatic switching control equipment |
CN111059025A (en) * | 2019-12-26 | 2020-04-24 | 宁波真格液压科技有限公司 | Compact air compressor |
CN112343879A (en) * | 2020-10-29 | 2021-02-09 | 武汉船用机械有限责任公司 | Same-pressure-difference rotary motor control system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101560998B (en) | Self-control positioning bidirectional hydraulic change-over valve | |
CN201396327Y (en) | Self control positioning two-directional hydraulic reversing valve | |
CN103016438B (en) | A kind of electrohydraulic proportional control valve group | |
CN203770272U (en) | Integrated hydraulic valve set, hydraulic drive system and concrete pump | |
KR20210141620A (en) | Multi Sealing High Speed Solenoid Valve | |
CN104196777A (en) | Programmable integrated control system capable of controlling inlet and outlet oil ways independently | |
CN105782147A (en) | Double-acting hydraulic control system of supercharging device | |
CN103085865A (en) | Load sensitive turning hydraulic system of loading machine | |
CN103912692B (en) | Hydraulic pilot structure and drive independent load multiway valve with the rotating machine of this structure | |
CN105757016A (en) | Hydraulic control system of supercharging device | |
CN213360612U (en) | Hydraulic cylinder base of integrated reversing valve | |
CN203823107U (en) | Valve core component and electromagnetic valve adopting same | |
CN202833378U (en) | Electro-hydraulic directional control valve | |
CN101698251B (en) | Hydraulic pressure control loop system of cutting-to-length pressure plate cylinder | |
CN114396397B (en) | Differential hydraulic control reciprocating supercharger | |
CN203098435U (en) | Locking return circuit with hydraulic control one-way valves | |
CN114955868A (en) | Load port independent control valve, hoisting machinery hydraulic system and working method thereof | |
CN205036666U (en) | Hydraulic pressure keeps electro -hydraulic reversing valve of valve position | |
CN203161701U (en) | Damped speed controllable hydraulic valve bank | |
CN202203099U (en) | Electric hydraulic control high pressure large flux double-pump afflux and double-selection diverter valve | |
CN201599268U (en) | High speed large flow pulse valve | |
CN108843638B (en) | Embedded double-valve-core guide control mechanism and fluid control valve | |
CN205533542U (en) | Cartridge formula hydraulic pressure lock | |
CN215293711U (en) | Two-position six-way electromagnetic directional valve device | |
CN112709721B (en) | Electro-hydraulic integrated control valve |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20100203 Effective date of abandoning: 20090507 |