CN211737619U - Direct-acting three-way pressure reducing valve for regulating pressure by servo motor - Google Patents
Direct-acting three-way pressure reducing valve for regulating pressure by servo motor Download PDFInfo
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- CN211737619U CN211737619U CN202020079492.9U CN202020079492U CN211737619U CN 211737619 U CN211737619 U CN 211737619U CN 202020079492 U CN202020079492 U CN 202020079492U CN 211737619 U CN211737619 U CN 211737619U
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- valve core
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Abstract
A direct-acting three-way pressure reducing valve for regulating pressure by a servo motor comprises the servo motor, a motor base, a transmission lead screw, a pressure regulating spring, a valve body and a valve core; the transmission screw rod is connected with the valve body, one end of the transmission screw rod is connected with the pressure setting spring, the other end of the transmission screw rod extends out of the shell and is connected with the servo motor, the valve core is tightly matched with the valve body and can slide in the valve body along the axis, and the valve body is provided with an oil inlet P, a throttle B and an oil return port T; the area of the control cavity at the upper end of the valve core is smaller than that of the control cavity at the lower end of the valve core; the pressure of the valve outlet is introduced into one side with small area of the control cavity as positive feedback and introduced into one side with large area of the control cavity as negative feedback; the valve core makes corresponding displacement under the condition of uneven stress at two ends, and the pressure at the outlet of the valve is controlled; the pressure at the valve outlet is directly controlled by a pressure regulating spring compressed by a transmission lead screw driven by a servo motor.
Description
Technical Field
The utility model belongs to the technical field of fluid drive and control, a direct action type three-way relief pressure valve of servo motor pressure regulating is related to.
Background
In a hydraulic system, a pressure reducing valve controls the opening of an opening and closing part in a valve body to adjust the flow of a medium, the opening of the opening and closing part is adjusted by utilizing the action of pressure behind the valve, the pressure of the medium is reduced, and the pressure of an outlet of the valve is kept in a certain range; the external regulating system of the pressure reducing valve can enable the pressure to reach a preset value, and the precision of pressure stabilization is ensured. At present, the pressure reducing valve is widely applied to various instruments and equipment used in the field of mine and urban water supply.
The common three-way pressure reducing valve generally adopts a pressure negative feedback structural form, namely, the pressure at the outlet of the valve is used as the driving force of a valve core to drive the valve core to move, so that the area of a throttling port is reduced, and the outlet flow of the valve is reduced.
Therefore, the direct-acting three-way pressure reducing valve with the pressure regulated by the servo motor is designed, and the response speed of the pressure reducing valve and the sensitivity of a hydraulic system are obviously improved.
Disclosure of Invention
In order to overcome the defects of the prior art, the utility model aims to provide a direct-acting three-way pressure reducing valve for regulating the pressure of a servo motor, which can obviously improve the response speed of the valve.
The utility model adopts the following technical scheme:
a direct-acting three-way pressure reducing valve for servo motor pressure regulation comprises a servo motor 1, a motor base, a transmission lead screw 3, a pressure regulating spring 4, a valve body 5 and a valve core 6; the transmission screw rod 3 is connected with the valve body 5, and the valve body 5 can slide along the axial direction of the transmission screw rod 3; one end of the transmission screw rod 3 is connected with the pressure regulating spring 4, the other end of the transmission screw rod 3 extends out of the shell and is connected with the servo motor 1, and the servo motor 1 is connected to the upper side of the valve body 5 through the motor base 2.
The valve core 6 is in a stepped five-section outer cylinder form, is packaged in the valve body 5 and is tightly matched with the valve body 5; the upper end surface of the valve core 6 and the inner cavity of the valve body 5 form an upper oil cavity A1, and the lower end surface of the valve core 6 and the inner cavity of the valve body 5 form a lower oil cavity A2; an oil inlet P, a throttling port B, an upper oil return port C and an oil return port T are formed in the side face of the valve body 5, and a lower oil return port D is formed in the lower end face of the valve body 5; the throttle orifice B, the upper oil return port C and the lower oil return port D are communicated with the oil outlet A through pipelines; the valve body 6 is linearly slidable in the valve body 5, and the linear sliding of the valve body 6 enables the intermediate land of the valve body 6 to adjust the opening degree of the orifice B.
The pressure at the oil outlet A is led into an upper oil cavity A1 of the valve core 6 as positive feedback, and is led into a lower oil cavity A2 of the valve core 6 as negative feedback.
The utility model has the advantages that: a direct-acting three-way pressure reducing valve for regulating pressure of a servo motor is characterized in that pressure oil of a throttling port B on a valve body 5 is introduced into an upper oil cavity A1 as pressure positive feedback and introduced into a lower oil cavity A2 as negative feedback, and in the working process of the valve, a valve core 6 is subjected to pressure difference between an upper oil cavity A1 and a lower oil cavity A2 to enable the valve core 6 to generate displacement, so that the response speed of the valve can be obviously improved.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Detailed Description
The present invention will be described in detail with reference to the accompanying drawings.
Referring to fig. 1, a direct-acting three-way pressure reducing valve for regulating pressure by a servo motor comprises a servo motor 1, a motor base 2, a transmission screw rod 3, a pressure regulating spring 4, a valve body 5 and a valve core 6; the transmission screw 3 is connected with the valve body 5, one end of the transmission screw 3 is connected with the pressure regulating spring 4, the other end of the transmission screw 3 is connected with the servo motor 1, and the servo motor 1 is externally connected with the upper side of the valve body 5 through the motor base 2; the valve core 6 is in a stepped five-section outer cylinder form, is packaged in the valve body 5 and is tightly matched with the valve body 5; an oil inlet P, a throttling port B and an upper oil return port C and an oil return port T are formed in the side surface of the valve body 5, and a lower oil return port D is formed in the lower end surface of the valve body 5; the upper oil return port C, the lower oil return port D and the throttle B are communicated with the oil outlet A through pipelines; the valve body 6 is slidable along the axis in the valve body 5, and the linear sliding of the valve body 6 allows the intermediate land of the valve body 6 to adjust the opening degree of the orifice B.
The utility model discloses a working process does:
high-pressure oil flows into the valve body 5 from the oil inlet P and enters the execution element from the oil outlet A; at the outlet, the oil liquid flows upwards into an upper oil cavity A1 of an upper oil return port C communicated with the oil outlet A and flows downwards into a lower oil cavity A2 of a lower oil return port D communicated with the oil outlet A, wherein the upper oil cavity A1 plays a role in positive pressure feedback, and the lower oil cavity A2 plays a role in negative pressure feedback; the valve core 6 is in a step-shaped five-section outer cylinder form, and the stress area of the valve core 6 contacted with the upper oil cavity A1 is smaller than the stress area of the lower oil cavity A2 contacted with the valve core 6; when the pressure of the lower oil chamber A2 is greater than the pressure of the upper oil chamber A1, the valve core 6 moves upwards, the flow area at the throttling port B is reduced, and the flow passing through the throttling port B is reduced, so that the pressure at the oil outlet A is ensured to be the set pressure value of the spring; when the pressure of the oil outlet A rises to a certain value, the valve core 6 closes the throttle B flowing from the oil inlet P to the oil outlet A, the lower end of the valve core 6 is higher than the oil return port T, and high-pressure oil flows through a lower oil cavity A2 of the valve body 5 from the oil outlet A and flows back to the oil tank from the oil return port T, so that the pressure of the oil outlet A is reduced to a set value of a spring; the set value of the spring is controlled by driving a transmission screw rod 3 by a servo motor 1.
Claims (1)
1. The utility model provides a direct action formula three-way relief pressure valve of servo motor pressure regulating which characterized in that: the servo motor comprises a servo motor (1), a motor base (2), a transmission screw rod (3), a pressure regulating spring (4), a valve body (5) and a valve core (6); the transmission screw rod (3) is connected with the valve body (5), and the valve body (5) can slide along the axial direction of the transmission screw rod (3); one end of a transmission lead screw (3) is connected with a pressure regulating spring (4), the other end of the transmission lead screw (3) extends out of the shell and is connected with a servo motor (1), and the servo motor (1) is externally connected to the upper side of the valve body (5) through a motor base (2);
the valve core (6) is in a stepped five-section outer cylinder form, is packaged in the valve body (5) and is tightly matched with the valve body (5); the upper end surface of the valve core (6) and the inner cavity of the valve body (5) form an upper oil cavity A1, and the lower end surface of the valve core (6) and the inner cavity of the valve body (5) form a lower oil cavity A2; an oil inlet P, a throttling port B, an upper oil return port C and an oil return port T are formed in the side face of the valve body (5), and a lower oil return port D is formed in the lower end face of the valve body (5); the throttle orifice B, the upper oil return port C and the lower oil return port D are communicated with the oil outlet A through pipelines; the valve core (6) can slide linearly in the valve body (5), and the linear sliding of the valve core (6) can enable the middle shoulder of the valve core (6) to adjust the opening degree of the throttle orifice B;
high-pressure oil flows into the valve body (5) from the oil inlet P and enters the execution element from the oil outlet A; at the outlet, the oil liquid flows upwards into an upper oil cavity A1 of an upper oil return port C communicated with the oil outlet A and flows downwards into a lower oil cavity A2 of a lower oil return port D communicated with the oil outlet A, wherein the upper oil cavity A1 plays a role in positive pressure feedback, and the lower oil cavity A2 plays a role in negative pressure feedback; the force bearing area of the valve core (6) which is in contact with the upper oil cavity A1 of the valve core (6) is smaller than the force bearing area of the lower oil cavity A2 which is in contact with the valve core (6); when the pressure of the lower oil chamber A2 is higher than the pressure of the upper oil chamber A1, the valve core (6) moves upwards, the flow area at the throttling port B is reduced, and the flow passing through the throttling port B is reduced, so that the pressure at the oil outlet A is ensured to be the set pressure value of the spring; when the pressure of the oil outlet A rises to a certain value, the valve core (6) closes a throttle B flowing from the oil inlet P to the oil outlet A, the lower end of the valve core (6) is higher than an oil return port T, and high-pressure oil flows through a lower oil cavity A2 of the valve body (5) from the oil outlet A and flows back to an oil tank from the oil return port T, so that the pressure of the oil outlet A is reduced to a set value of a spring; the set value of the spring is controlled by a servo motor (1) driving a transmission screw rod (3);
the pressure at the oil outlet A is led into an upper oil cavity A1 of the valve core (6) as positive feedback and led into a lower oil cavity A2 of the valve core (6) as negative feedback, and the pressure at the oil outlet A is completed by driving a transmission screw rod (3) by a servo motor (1) to push a pressure regulating spring (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020079492.9U CN211737619U (en) | 2020-01-15 | 2020-01-15 | Direct-acting three-way pressure reducing valve for regulating pressure by servo motor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020079492.9U CN211737619U (en) | 2020-01-15 | 2020-01-15 | Direct-acting three-way pressure reducing valve for regulating pressure by servo motor |
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CN211737619U true CN211737619U (en) | 2020-10-23 |
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CN202020079492.9U Expired - Fee Related CN211737619U (en) | 2020-01-15 | 2020-01-15 | Direct-acting three-way pressure reducing valve for regulating pressure by servo motor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111550463A (en) * | 2020-01-15 | 2020-08-18 | 陕西理工大学 | Direct-acting three-way pressure reducing valve for regulating pressure by servo motor |
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2020
- 2020-01-15 CN CN202020079492.9U patent/CN211737619U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111550463A (en) * | 2020-01-15 | 2020-08-18 | 陕西理工大学 | Direct-acting three-way pressure reducing valve for regulating pressure by servo motor |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20201023 Termination date: 20220115 |