CN217130453U - Electric high-pressure valve - Google Patents

Abstract

The application provides an electronic high pressure valve includes: the device comprises a movable support module, a valve body module, a clamping sleeve connecting module, an electric actuating mechanism and a control module; the bottom of the movable support module is provided with a plurality of movable wheels and supporting foot pads; the valve body module, the clamping sleeve connecting module and the electric actuating mechanism are sequentially detachably connected and detachably connected with the movable support module, and the control module is detachably arranged on the movable support module and electrically connected with the electric actuating mechanism; firstly, the functional modules are relatively independent in structure, can be quickly disassembled and independently overhauled, can be quickly constructed and assembled, have better use and maintenance convenience, and improve the universality of the electric high-pressure valve; secondly, the electric high-pressure valve can move to a target place according to the requirement, and the requirement of quick response of pressure adjustment is met; finally, the movable wheels can meet the requirement of quick displacement of the electric high-pressure valve, and the design of the supporting foot pads can effectively reduce the vibration influence caused by pressure change.

Description

Electric high-pressure valve

Technical Field

The application relates to the technical field of valve control of ultrahigh pressure pipeline systems, in particular to an electric high-pressure valve.

Background

The electric high-pressure valve is a common part in industrial production, can be used for various automatic control scenes and is usually used for flow regulation, the valve is used for replacing manual operation, the pressure or flow of a high-pressure medium at a designated position of a control device is kept stable, and the stabilization of the pressure and flow of the medium in a pipeline system is realized.

At present, the electric high-pressure valve is more in variety and multiple in structural form, and the conventional electric high-pressure valve is limited in installation mode, size and operation and maintenance, poor in universality, free of functional requirements of moving operation and the like.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide an electronic high-pressure valve to it is poor to solve the electronic high-pressure valve commonality that exists among the prior art, does not possess the technical problem who removes the operation functional requirement.

In order to achieve the above object, the present application adopts an electric high pressure valve, including:

the device comprises a movable support module, a valve body module, a clamping sleeve connecting module, an electric actuating mechanism and a control module; the bottom of the movable support module is provided with a plurality of movable wheels and supporting foot pads; the valve body module, cutting ferrule linking module with electric actuator can dismantle the connection in proper order, and with the connection can be dismantled to portable support module, control module can dismantle to locate on the portable support module and with electric actuator electricity is connected.

Firstly, the valve body module, the ferrule connecting module and the electric actuator are sequentially detachably connected and can be detachably mounted on the movable support module, so that the valve body module, the ferrule connecting module, the electric actuator and the control module form independent functional modules respectively;

secondly, the valve body module, the clamping sleeve connecting module and the electric actuating mechanism are arranged on the movable support module, so that the electric high-pressure valve can be moved to a target place according to requirements and can be arranged close to a working point, and the requirement of quick response of pressure adjustment is met;

finally, portable support module is equipped with a plurality of wheels of removing and supports the callus on the sole, removes the wheel and can satisfy the needs that electronic high-pressure valve shifts fast, and the design that supports the callus on the sole can effectively reduce the vibration influence that pressure variation brought.

In one embodiment, the movable support module comprises a support, a guide sleeve and an adjustable foot pad, the guide sleeve is arranged at one end of the bottom of the support, the adjustable foot pad is telescopically connected with the guide sleeve, the movable wheel and the support foot pad are oppositely arranged at the bottom of the support, the movable wheel and the adjustable foot pad are positioned at the same side, the support foot pad and the adjustable foot pad are respectively positioned at two opposite sides, the adjustable foot pad can extend out relative to the bottom of the support, so that the movable wheel is lifted off the ground, and the adjustable foot pad and the support foot pad jointly support the support; the adjustable foot pad can retract relative to the bottom of the support, so that the moving wheel falls on the ground, and the moving wheel and the support foot pad jointly support the support.

Through adopting above-mentioned technical scheme for electronic high-pressure valve can switch between removal state and support state, improves electronic high-pressure valve's operation flexibility and convenience.

In one embodiment, the movable rack module further includes a handle, the guide sleeve is provided with a sliding groove along the telescopic direction of the adjustable foot pad, the sliding groove is provided with a top dead center and a bottom dead center in the telescopic direction, the adjustable foot pad is slidably inserted into the guide sleeve, and the handle is fixedly connected with the adjustable foot pad and can slide between the top dead center and the bottom dead center of the sliding groove to adjust the telescopic state of the adjustable foot pad.

By adopting the technical scheme, the telescopic structure of the adjustable foot pad is simple, the operation is convenient, and the operation of maintenance personnel is facilitated.

In one embodiment, the movable support module further comprises a first fixed support, a second fixed support and a fixed plate, the first fixed support, the second fixed support and the fixed plate are arranged on the support, the installation height of the first fixed support is higher than that of the second fixed support, the fixed plate is detachably erected on the first fixed support and the second fixed support, and the valve body module, the ferrule connecting module and the electric actuator are detachably arranged on the fixed plate.

By adopting the technical scheme, the performance influence of air condensation on the electric control components caused by external factors can be effectively avoided, the reliability and the stability of the electric high-voltage valve are effectively improved, the convenience of operation is improved, and the electric high-voltage valve is convenient to disassemble, assemble, repair and maintain.

In one embodiment, the movable support module further includes a rain-proof shed disposed on the support, and the rain-proof shed is located above the valve body module, the ferrule connection module, and the electric actuator, and is parallel to the fixing plate.

Through adopting above-mentioned technical scheme for electronic high-pressure valve has better weatherability and protection level, can work under adverse operating environment, and the weather enclosure can form safe sheltering in addition waterproof guard shield, effectively protects the invasion of outside rainwater, can prevent effectively that the sun from insolating or the rainfall from the negative effects to components and parts life.

In one embodiment, the cutting sleeve connection module comprises a driving motor, a clamping structure and a cutting sleeve structure, the driving motor is electrically connected with the electric actuator, the clamping structure is in transmission connection with the driving motor, the clamping structure is detachably connected with the cutting sleeve structure, and the cutting sleeve structure is in transmission connection with the valve body module.

Through adopting above-mentioned technical scheme, the cooperation of cutting ferrule structure and embrace the clamp structure is used, can reduce the system equipment to the requirement of axiality and position degree, conveniently overhauls the dismouting, makes electronic high-pressure valve easy to maintain maintenance simultaneously.

In one embodiment, the ferrule structure has an inner cavity for accommodating the clasping structure, and the clasping structure is in clearance fit with the ferrule structure.

By adopting the technical scheme, the clamping sleeve structure is provided with the cavity containing the clamping structure, the clamping structure can transmit the torsion moment from the clamping sleeve structure, and meanwhile, the clamping sleeve structure can slide in the axial direction. The electric actuating mechanism and the valve body module are in large clearance fit, so that the negative effects of vibration of the valve body module during working on the electric actuating mechanism and a control system can be reduced, and the service life of the electric high-pressure valve can be effectively prolonged.

In one embodiment, the electric actuator includes an inductor seat and an inductor, the ferrule connection module further includes a speed reducer disposed on the driving motor and an adjusting seat disposed on an end surface of the speed reducer, the inductor seat is disposed on the adjusting seat, and the inductor is disposed on the inductor seat.

By adopting the technical scheme, the functional modules cooperate together to meet the requirement of high-frequency and high-precision pressure adjustment and quick response.

In one embodiment, the electrically operated high pressure valve further comprises a power battery pack electrically connected to the valve body module and the electric actuator, the power battery pack being mounted on the fixing plate.

Through adopting above-mentioned technical scheme, the power battery pack can provide energy power for valve control system and actuating mechanism.

In one embodiment, the electrically operated high pressure valve further comprises a control module electrically connected to the valve body module and the electric actuator, the control module being mounted on the fixing plate.

By adopting the technical scheme, the wireless module and the driving board card are communicated, so that the functional modules cooperate together to meet the requirements of high-frequency and high-precision pressure adjustment and quick response.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a front view of an electrically operated high pressure valve provided in an embodiment of the present application;

fig. 2 is a perspective view of a mobile rack module provided in an embodiment of the present application;

FIG. 3 is a perspective view of a guide sleeve according to an embodiment of the present disclosure;

figure 4 is a front view of a ferrule connection module provided in embodiments of the present application;

FIG. 5 is a top view of an electric actuator provided in accordance with an embodiment of the present application;

fig. 6 is a cross-sectional view of an electrically operated high pressure valve provided in an embodiment of the present application.

The figures are numbered:

100-an electrically operated high pressure valve;

1-a mobile rack module; 2-a valve body module; 3-ferrule connection module; 4-an electric actuator; 5-a control module; 6-a power battery pack; 7-a wireless communication module;

10-a scaffold; 11-a moving wheel; 12-supporting a foot pad; 13-a guide sleeve; 14-adjustable foot pads; 15-a handle; 16-a handle; 17-a first fixed support; 18-a second fixed support; 19-fixing the plate; 20-rain-proof shed; 21-a pipe joint; 31-a drive motor; 32-a clamp structure; 33-a ferrule configuration; 34-a speed reducer; 35-an adjusting seat; 41-inductor base; 42-a sensor; 70-a receiving antenna;

131-a chute; 132-top dead center; 133-bottom dead center.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected or indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, refer to an orientation or positional relationship illustrated in the drawings for convenience in describing the present application, and do not indicate that the device or element must have a particular orientation, be constructed and operated in a particular orientation, and are thus not to be construed as limiting the present application.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating relative importance or as indicating a number of technical features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. Specific implementations of the present application are described in more detail below with reference to specific embodiments:

as shown in fig. 1, an electric high-pressure valve 100 provided in an embodiment of the present application includes:

the device comprises a movable support module 1, a valve body module 2, a clamping sleeve connecting module 3, an electric actuating mechanism 4 and a control module 5; the bottom of the movable support module 1 is provided with a plurality of movable wheels 11 and supporting foot pads 12; valve body module 2, cutting ferrule linking module 3 and electric actuator 4 can dismantle the connection in proper order to can dismantle with portable support module 1 and be connected, control module 5 can be dismantled and locate on portable support module 1 and be connected with electric actuator 4 electricity.

The electric high-pressure valve 100 provided in the present embodiment operates as follows:

the valve body module 2, the cutting sleeve connecting module 3 and the electric actuator 4 are arranged on the movable support module 1 and are sequentially connected, the cutting sleeve connecting module 3 is connected with the valve body module 2 and the electric actuator 4, and the electric actuator 4 drives the valve body module 2 to operate through the cutting sleeve connecting module 3 after receiving a control signal of the control module 5; the movable support module 1 is provided with a plurality of movable wheels 11 and supporting foot pads 12, and a maintenance worker can lift the supporting foot pads 12 off the bottom surface, so that the electric high-pressure valve 100 is supported by the movable wheels 11 and can be conveniently moved to the position near a working surface, the length from a pipeline to a pipe joint 21 of the valve body module 2 is shortened to the maximum extent, and the requirement of quick response of pressure adjustment is met; after the electric high-pressure valve 100 is moved to a target place, a pipeline to be connected is connected with the valve body module 2, so that the valve body module 2 is electrically controlled, and the valve and the flow of the pipeline are controlled.

By adopting the technical scheme:

firstly, the valve body module 2, the ferrule connecting module 3 and the electric actuator 4 are sequentially detachably connected, and the three are detachably mounted on the movable support module 1, so that the valve body module 2, the ferrule connecting module 3, the electric actuator 4 and the control module 5 respectively form independent functional modules, and in addition, the connection mode of the functional modules is adopted, the functional modules are relatively independent in structure, can be quickly disassembled and independently overhauled, can be quickly constructed and assembled, have better use and maintenance convenience, and improve the universality of the electric high-pressure valve 100;

secondly, the valve body module 2, the clamping sleeve connecting module 3 and the electric actuating mechanism 4 are arranged on the movable support module 1, so that the electric high-pressure valve 100 can be moved to a target place according to requirements and can be arranged close to a working point, and the requirement of quick response of pressure adjustment is met;

finally, portable support module 1 is equipped with a plurality of wheels 11 and supports callus on the sole 12 that remove, removes the needs that wheel 11 can satisfy electronic high-pressure valve 100 quick aversion, and the design that supports callus on the sole 12 can effectively reduce the vibration influence that pressure variation brought.

It should be further explained that the present embodiment provides an electric high-pressure valve 100, which solves the problem of difficult valve control and adjustment of the ultrahigh-pressure pipeline system. The electric high-pressure valve 100 designed by the embodiment can solve the problem of difficult pressure and flow regulation of an ultrahigh-pressure pipeline system, can meet the requirement of rapid response of the system to pressure and flow change, can meet the requirement of rapid movement operation, can solve the problems of inconvenient operation and difficult maintenance, and can solve the problems of insufficient stability and reliability of remote control.

In addition, the electric high-pressure valve 100 of the embodiment can be equipped with various high-pressure valves, can be moved conveniently and quickly, and can be used for setting an ultrahigh-pressure medium valve near a working point, so that the purposes of quick response of pressure adjustment, quick flow adjustment, simple operation and convenience in maintenance are achieved.

At present, the existing electric high-pressure valve 100 has many types and various structural forms, the installation mode, the volume and the operation and maintenance of the conventional electric high-pressure valve 100 have certain limitations, the universality is poor, the regulation speed is too slow, the on-line regulation driving force is insufficient, high-frequency and continuous operation cannot be realized, a logic instruction cannot be stored, and a remote control function is not provided.

Therefore, the present embodiment provides an electric high pressure valve 100, which has a performance index with fast response, has a movable characteristic, can meet the requirements of high frequency and continuous operation, has sufficient reliability and stability, and meets the convenience of operation and maintenance for operation and maintenance personnel. Secondly, the electric high pressure valve 100 of the embodiment mainly aims to solve the remote control of the ultrahigh pressure valve, and can achieve the quick response of pressure and flow adjustment, the quick response requirement of online random control adjustment, settable multi-stage adjustment or nonlinear valve control adjustment, and the requirement of adapting to severe working conditions, convenient operation and quick maintenance. Finally, the electric high-pressure valve 100 with the panel operation function provided by the embodiment can adapt to the operation requirement through a plurality of control modes, can be compatible with a plurality of ultrahigh-pressure valves, and can store logic instructions.

As shown in fig. 2 and 3, in one embodiment, the mobile rack module 1 includes a rack 10, a guide sleeve 13 and an adjustable foot pad 14, the guide sleeve 13 is disposed at one end of the bottom of the rack 10, the adjustable foot pad 14 is telescopically connected to the guide sleeve 13, the mobile wheel 11 and the support foot pad 12 are disposed at the bottom of the rack 10, the mobile wheel 11 and the adjustable foot pad 14 are located at the same side, the support foot pad 12 and the adjustable foot pad 14 are respectively located at opposite sides, the adjustable foot pad 14 can extend relative to the bottom of the rack 10, so that the mobile wheel 11 is lifted off the ground, and the adjustable foot pad 14 and the support foot pad 12 support the rack 10 together; the adjustable foot pad 14 can be retracted relative to the bottom of the support frame 10, so that the moving wheel 11 falls on the ground, and the moving wheel 11 and the support foot pad 12 jointly support the support frame 10.

Specifically, a stainless steel bent and welded support 10 is adopted, a shock absorption support foot pad 12, a moving wheel 11 and a guide sleeve 13 are arranged at the bottom of the support, a handle 15 is arranged on one side of the top of the support 10, and the parts serve as basic support members to provide necessary fixed support for the valve body module 2, the ferrule connection module 3 and the electric actuator 4. The adjustable foot pad 14 is adjusted to retract into the guide sleeve 13, the handle 15 is pressed downwards, the front end of the support 10 is tilted to be in a moving state of the two-wheel vehicle, and a maintenance worker can push the electric high-voltage valve 100 to be transferred to other working points. The adjustable foot pad 14 is adjusted to extend out of the guide sleeve 13, at this time, the adjustable foot pad 14 and the shock absorption support foot pad 12 form a four-point support state, the whole electric high-voltage valve 100 is supported, the working mode can be entered, and the movable wheel 11 is in a suspension state in the working mode.

By adopting the technical scheme, the electric high-pressure valve 100 can be switched between the moving state and the supporting state, and the operation flexibility and convenience of the electric high-pressure valve 100 are improved.

In one embodiment, the mobile rack module 1 further includes a handle 16, the guide sleeve 13 is provided with a sliding slot 131 along the extension direction of the adjustable foot pad 14, the sliding slot 131 is provided with a top dead center 132 and a bottom dead center 133 in the extension direction, the adjustable foot pad 14 is slidably inserted into the guide sleeve 13, and the handle 16 is fixedly connected to the adjustable foot pad 14 and can slide between the top dead center 132 and the bottom dead center 133 of the sliding slot 131 to adjust the extension state of the adjustable foot pad 14.

Specifically, the maintenance personnel rotates the handle 16 and rotates at the inside spout 131 of guide sleeve 13, then upwards lifts adjustable callus on the sole 14 to the top dead center 132 position along guide sleeve 13, reverse rotation handle 16 again to the draw-in groove position of top dead center 132, then release handle 16, the action of gravity can be with adjustable callus on the sole 14 card in top dead center 132 position, can withdraw adjustable callus on the sole 14 back to guide sleeve 13 promptly, maintenance personnel makes portable support module 1 front end perk, becomes the gesture of two wheeler, can push the valve and shift to other work points. Rotating handle 16 is inside rotatory at guide sleeve 13, then press down adjustable callus on the sole 14 to lower dead center 133 position along guide sleeve 13 spout 131, push away handle 15 through lifting the hand, rotate handle 16 to lower dead center 133 draw-in groove position again, then release handle 16, gravity action can be with adjustable callus on the sole 14 card lower dead center 133 position, adjustable callus on the sole 14 stretches out and shock attenuation support callus on the sole 12 formation four-point support state this moment, support whole device and get up and can get into the mode, it is in unsettled state to move wheel 11 under the mode.

Through adopting above-mentioned technical scheme for realize the flexible simple structure of adjustable callus on the sole 14, the simple operation does benefit to the maintenance personal operation.

In one embodiment, the movable rack module 1 further includes a first fixed support 17, a second fixed support 18 and a fixed plate 19 (please refer to fig. 1) disposed on the rack 10, the first fixed support 17 has a higher installation height than the second fixed support 18, the fixed plate 19 is detachably erected on the first fixed support 17 and the second fixed support 18, and the valve body module 2, the ferrule connecting module 3 and the electric actuator 4 are detachably mounted on the fixed plate 19.

Specifically, the valve body module 2, the ferrule connection module 3 and the electric actuator 4 are fixed on the bracket 10 in a screw connection mode, and are placed at an included angle with the horizontal plane to form an inclined placement state; the upper surface of the bracket 10 is welded with a first fixed support 17 and a second fixed support 18 which are used as fixed feet of a fixed plate 19, and the fixed plate 19 provides necessary fixed support for the valve body module 2, the ferrule connection module 3 and the electric actuator 4.

By adopting the technical scheme, the performance influence of air condensation on the electric control components caused by external factors can be effectively avoided, the reliability and the stability of the electric high-pressure valve 100 are effectively improved, the convenience of operation is improved, and the electric high-pressure valve is convenient to disassemble, assemble, repair and maintain.

In one embodiment, the mobile rack module 1 further includes a rain-proof shelter 20 disposed on the rack 10, and the rain-proof shelter 20 is located above the valve body module 2, the ferrule connecting module 3 and the electric actuator 4, and is parallel to the fixing plate 19.

Specifically, the top of the support 10 is provided with a top rain-proof shed 20.

Through adopting above-mentioned technical scheme for electronic high-pressure valve 100 has better weatherability and protection level, can work under adverse circumstances, and weather enclosure 20 can form the safety shelter in addition waterproof guard shield, effectively protects the invasion of outside rainwater, can prevent effectively that the sun from insolating or the rainfall from the negative effects to components and parts life.

As shown in fig. 4, in an embodiment, the ferrule connection module 3 includes a driving motor 31, a holding structure 32 and a ferrule structure 33, the driving motor 31 is electrically connected to the electric actuator 4, the holding structure 32 is in transmission connection with the driving motor 31, the holding structure 32 is detachably connected to the ferrule structure 33, and the ferrule structure 33 is in transmission connection with the valve body module 2.

Specifically, through dismantling a plurality of hexagon socket head cap screws on embracing the clamp structure 32, can easily take out in proper order embracing the spare part of clamp structure 32, electric actuator 4 and valve body module 2 can break away from directly completely, can realize unpowered manual pressure regulating operation. A plurality of set screws below valve body module 2 are torn down to use allen key simultaneously, can easily take off valve body module 2 and maintain alone or change.

Through adopting above-mentioned technical scheme, cutting ferrule structure 33 and embrace the cooperation of pressing from both sides structure 32 and use, can reduce the system assembly to the requirement of axiality and position degree, conveniently overhauls the dismouting, makes electronic high-pressure valve 100 easy to maintain maintenance simultaneously.

In one embodiment, the ferrule structure 33 has an internal cavity for housing the clasping structure 32, with a clearance fit between the clasping structure 32 and the ferrule structure 33.

Specifically, the driving motor 31, the clasping structure 32, the clamping sleeve structure 33 and the sensor are connected together in a screw connection mode, the clamping sleeve structure 33 is provided with a large inner cavity, the clasping structure 32 is contained in the clamping sleeve structure, the clamping sleeve structure can move along the axial direction for a distance and cannot rotate along the axial direction, when the electric actuating mechanism 4 executes a motion instruction, the rotating torque is transmitted to the clamping sleeve structure 33, and then the rotating power is transmitted to the adjusting handle through the contact of the wall surface of the clamping sleeve structure 33 and the clamping sleeve structure 32, so that the needle type valve core axial displacement action is executed.

By adopting the above technical scheme, the cutting sleeve structure 33 has a cavity containing the clasping structure 32, and the clasping structure 32 can transmit the torsion moment from the cutting sleeve structure 33 and can slide in the cutting sleeve structure 33 along the axial direction. The electric actuator 4 and the valve body module 2 are in large clearance fit, so that the negative effects of the vibration of the valve body module 2 on the electric actuator 4 and a control system during working can be reduced, and the service life of the electric high-pressure valve 100 can be effectively prolonged.

In one embodiment, the ferrule connection module 3 further comprises a speed reducer 34.

Specifically, the driving motor 31, the speed reducer 34, the clamping sleeve structure 33 and the clasping structure 32 are connected together in a screw connection mode, the clamping sleeve structure 33 has a large inner cavity, the clasping structure 32 is contained in the clamping sleeve structure 33, the clamping sleeve structure can move along the axial direction for a distance and cannot rotate along the axial direction, when the electric actuator 4 executes a motion instruction of the control module 5, an output shaft of the speed reducer 34 generates a rotation action, a rotation torque is transmitted to the clamping sleeve structure 33, and then the rotation power is transmitted to the adjusting handle through the contact between the wall surface of the clamping sleeve structure 33 and the clasping structure 32, so that the needle type valve core axial displacement action is executed.

As shown in fig. 5, in an embodiment, the electric actuator 4 includes an inductor base 41 and an inductor 42, the ferrule connection module 3 further includes a speed reducer 34 disposed on the driving motor 31 and an adjusting base 35 disposed on an end surface of the speed reducer 34, the inductor base 41 is disposed on the adjusting base 35, and the inductor 42 is disposed on the inductor base 41.

Specifically, the driving motor 31 and the speed reducer 34 are assembled together through screws, the inductor 42 is fixed on the inductor seat 41 through fixing screws, the inductor seat 41 is installed on the end face of the speed reducer 34 along the bottom plate guide groove of the adjusting seat 35, the rotation angle position of the speed reducer 34 is determined through photoelectric sensing, and a position signal is transmitted to the driving board card.

By adopting the technical scheme, the functional modules cooperate together to meet the requirement of high-frequency and high-precision pressure adjustment and quick response.

Referring to fig. 1 and 6, in one embodiment, the electric high pressure valve 100 further includes a power battery pack 6 electrically connected to the valve body module 2 and the electric actuator 4, and the power battery pack 6 is mounted on the fixing plate 19.

Specifically, the Power battery pack 6 of the present embodiment is composed of 186503000 mAH lithium battery pack 61, a Power management module, a charger, and a transformer, wherein the outside of the lithium battery pack 61 is packaged by an insulating epoxy board, and is subjected to buffering and heat dissipation treatment, and has a function of an UPS (Uninterruptible Power Supply) Power Supply, and can be used as an independent energy module.

By adopting the technical scheme, the power battery pack 6 can provide energy power for the valve control system and the actuating mechanism.

In one embodiment, the electrically operated high pressure valve 100 further comprises a control module 5 electrically connected to the valve body module 2 and the electrically operated actuator 4, the control module 5 being mounted on the fixed plate 19.

Specifically, control module 5 of this embodiment includes singlechip and drive module, the afterbody at driving motor 31 is installed in integrated integrative design, the casing at lithium cell group 61 is installed to signal reception antenna 70, the controller of RS communication module and lithium cell group 61 is concentrated in the dress in one side of driving motor 31, inductor 42 is as signal acquisition components and parts, install the terminal surface at electric actuator 4's speed reducer 34, a rotation angle position for surveying speed reducer 34 output shaft, the conversion of outside instruction signal through signal reception antenna 70 and RS communication module, transmit the singlechip and convert out current signal, voltage signal sends for the drive integrated circuit board, driving motor 31 carries out the turned angle of adjustment handle through the motion instruction of execution control module 5.

By adopting the technical scheme, the wireless module and the driving board card are communicated, so that the functional modules cooperate together to meet the requirements of high-frequency and high-precision pressure adjustment and quick response.

In one embodiment, the electrically operated high pressure valve 100 further comprises a wireless communication module 7 electrically connected to the control module 5.

Specifically, lithium cell group 61, signal antenna 70, control module 5, wireless communication module 7 and drive plate card equipment are on fixed plate 19, constitute electric actuator through the mode of screw connection with power battery group 6 and be the horizontal contained angle and fix on portable support module 1, lithium cell group 61 provides power and control power for entire system, control module 5 accepts outside instruction signal through signal antenna 70, control module 5 carries out the motion instruction through wireless communication module 7 and inductor 42 and drive plate card, driving motor 31 reads the motion instruction of control module 5 through the drive plate card and carries out the turned angle of adjustment handle.

In summary, the electric high-pressure valve 100 of the embodiment adopts a mobile trolley type layout, is provided with the lithium battery pack 61, a motor driving mode, a ferrule type connection, a sensor position control mode, and a valve control action mode, has a UPS power supply function, can be installed near a working surface to the maximum extent to improve the response speed and control precision of the valve control action, has multiple working modes, and provides convenient operability in a remote control operation mode, can be used alone in a remote control mode, and can be accessed to an upper computer for use, so that the quick response performance of a controlled valve is greatly improved, the influence of pressure or flow fluctuation of a high-pressure medium on a system is reduced, and the purpose of accurate and stable valve control operation is achieved;

the electric high-pressure valve 100 of the embodiment adopts two operation modes of a panel operation box and remote control, and is matched with the pressure sensor, the driving board card and the wireless receiving module to execute an external control instruction or a logic control instruction, so that the operation performance and the maintenance convenience are improved.

The control system of the electric high-pressure valve 100 of the embodiment comprises a panel operation switch, a wireless signal receiving module and a driving board card, wherein an actuator power switch, an operation button and a status indicator lamp are arranged on a shell of a power module, and a driving motor 31, the driving board card, the button switch and the wireless signal receiving module are all connected with the driving board card through a power line and a signal line;

the remote controller module of the electric high-pressure valve 100 of the embodiment includes a start button, a reset button, a logic command button, a wireless signal transmission module and a remote control main control board card, wherein the start button, the reset button and the wireless signal transmission module are installed in a shell in a centralized manner, and each component is connected with the remote control main control board card through a wire.

It should be further noted that the cart-type support 10 of the present embodiment may be replaced by a fixed support 10 or a platform support structure.

The material of the cart-type support 10 designed in this embodiment may be replaced by other metal or non-metal materials.

The valve body module 2 related to this embodiment can be compatible with high-pressure valves of various specifications, and is used for high-pressure medium pressure or flow regulation, and also can be used for the control of special valves.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. An electrically operated high pressure valve, comprising:

the device comprises a movable support module, a valve body module, a clamping sleeve connecting module, an electric actuating mechanism and a control module; the bottom of the movable support module is provided with a plurality of movable wheels and supporting foot pads; the valve body module, cutting ferrule linking module with electric actuator can dismantle the connection in proper order, and with the connection can be dismantled to portable support module, control module can dismantle to locate on the portable support module and with electric actuator electricity is connected.

2. The electrically operated high pressure valve as claimed in claim 1, wherein the movable frame module comprises a frame, a guide sleeve and an adjustable foot pad, the guide sleeve is disposed at one end of the bottom of the frame, the adjustable foot pad is telescopically connected to the guide sleeve, the movable wheel and the support foot pad are disposed at the bottom of the frame opposite to each other, the movable wheel and the adjustable foot pad are disposed at the same side, the support foot pad and the adjustable foot pad are disposed at opposite sides, respectively, the adjustable foot pad can extend from the bottom of the frame to lift the movable wheel off the ground, and the adjustable foot pad and the support foot pad support the frame together; the adjustable foot pad can retract relative to the bottom of the support, so that the moving wheel falls on the ground, and the moving wheel and the support foot pad jointly support the support.

3. The electromotive high pressure valve according to claim 2, wherein the movable rack module further comprises a handle, the guiding sleeve is provided with a sliding slot along a telescopic direction of the adjustable foot pad, the sliding slot is provided with a top dead center and a bottom dead center in the telescopic direction, the adjustable foot pad is slidably inserted into the guiding sleeve, and the handle is fixedly connected to the adjustable foot pad and can slide between the top dead center and the bottom dead center of the sliding slot to adjust a telescopic state of the adjustable foot pad.

4. The electrically operated high pressure valve as claimed in claim 2, wherein the movable bracket module further comprises a first fixed bracket, a second fixed bracket and a fixed plate, the first fixed bracket is mounted at a height higher than that of the second fixed bracket, the fixed plate is detachably mounted on the first fixed bracket and the second fixed bracket, and the valve body module, the ferrule connection module and the electric actuator are detachably mounted on the fixed plate.

5. The electrically operated high pressure valve of claim 4, wherein the movable support module further comprises a weather enclosure disposed on the support, the weather enclosure being disposed above the valve body module, the ferrule connection module, and the electrical actuator and parallel to the mounting plate.

6. The electrically operated high pressure valve according to any of claims 1 to 5, wherein the clamping sleeve connection module comprises a driving motor, a clamping structure and a clamping sleeve structure, the driving motor is electrically connected with the electric actuator, the clamping structure is in transmission connection with the driving motor, the clamping structure is detachably connected with the clamping sleeve structure, and the clamping sleeve structure is in transmission connection with the valve body module.

7. The electrically operated high pressure valve according to claim 6, wherein said clamping sleeve structure has an inner cavity for accommodating said clasping structure, said clasping structure and said clamping sleeve structure being in a clearance fit.

8. The electrically operated high pressure valve according to claim 6, wherein the electrical actuator comprises an inductor seat and an inductor, the ferrule connection module further comprises a speed reducer disposed on the driving motor and an adjusting seat disposed on an end surface of the speed reducer, the inductor seat is disposed on the adjusting seat, and the inductor is disposed on the inductor seat.

9. The electrically operated high pressure valve according to claim 4 or 5, further comprising a power battery pack electrically connected to said valve body module and said electrically operated actuator, said power battery pack being mounted on said stationary plate.

10. An electrically operated high pressure valve according to claim 4 or 5, wherein the control module is mounted on the fixed plate.

Images