CN211820959U - Direct-acting micro-flow proportional valve - Google Patents

Abstract

The utility model relates to a small flow proportional valve of direct action type, which comprises a valve body, be provided with import and export on the valve body, be provided with the valve port between import and the export, be fixed with the solenoid subassembly on the valve body, the solenoid subassembly includes the coil frame, around arranging the coil on the coil frame in, quiet iron core and movable core, quiet iron core is fixed in the mesoporous upper portion of coil frame, movable core can assemble in the mesoporous lower part of coil frame with axial displacement, movable core's lower extreme is provided with valve port complex sealing rubber pad, sealing rubber pad's middle part is inlayed and is equipped with a piece formula spring, the elastic force curve of piece formula spring intersects with each electromagnetic force curve, the tangent line of the elastic force curve of nodical department equals with the contained angle that becomes of the tangent line of the electromagnetic. The advantages are that: the structure is simple and reasonable, and the input electric signals (voltage and current) and the output flow of the direct-acting micro-flow proportional valve can obtain an approximate linear relation, so that the application in the field of gas is realized.

Description

Direct-acting micro-flow proportional valve

Technical Field

The utility model belongs to the technical field of gas flow control technique and specifically relates to indicate a small flow proportional valve of direct action type.

Background

The flow rate of the fluids (gas and liquid) is constant at the external conditions (pressure and temperature, etc.). Generally related to the size of the cross-section of the space through which the fluid flows. For a specific flow control valve, the opening degree of the valve port is controlled to realize the output of a flow value with a required size.

By a proportional flow control valve is meant that the flow output of a control valve is linear with the value of the input signal (current or voltage) applied to it. The direct-acting proportional flow valve generally consists of a control circuit, an electromechanical converter and a control valve port. The control mechanism is that input electric signal (voltage/current) is input to a control circuit, after the signal is amplified, the signal is input to an electromechanical converter to output mechanical displacement, the displacement corresponds to the opening degree of a valve port of the control valve, and then the flow value output by the control valve and the input electric signal establish corresponding linear relation.

The control mode is widely applied to the field of liquid flow control and has good effect. The mechanism of realization is that after being amplified by a control circuit, an input signal is input into a specially designed electromechanical converter called a proportional electromagnet, a movable iron core (armature) of the electromechanical converter outputs a displacement which is in a proportional relation with the input signal, a valve core of a push control valve outputs a corresponding valve port opening, and the flow of liquid and the opening of the valve port are in an approximate proportional relation in a certain flow range, so that the flow of the control valve is in a proportional relation with the input signal.

However, due to the large difference in physical properties of gases and liquids, liquids are generally considered incompressible fluids, whereas gases, obviously, are compressible fluids. The flow rate of gas flowing through the valve port is in a nonlinear relationship with the opening degree of the valve port. Thus, the flow of gas cannot be proportional to the input signal.

The existing electromagnetic valve can be divided into a valve body assembly and an electromagnetic coil. The electromagnetic coil is composed of a coil rack, a spiral coil, a static iron core, a movable iron core and a spring. The solenoid valve performs the function of an electromechanical transducer, i.e. converts an electrical signal (voltage/current) into a mechanical displacement through an electromagnetic field. The valve body assembly consists of a valve body and a related sealing ring and plays a role in controlling gas flow; the electromagnetic force is related to the magnitude of the input current and the displacement of the movable iron core, however, the existing solenoid valve adopts a coil spring, and the spring force and the displacement are in a linear relationship (see fig. 7). When the electromagnetic force and the spring force are balanced, the movable iron core is stabilized at a certain position, so that a stable displacement is generated; obviously, this displacement is hardly linearly related to the input electrical signal (voltage/current) of the coil. Thus, considering the non-linear nature of the gas flow at the valve port, the flow valve flow is superimposed on the input electrical signal (voltage/current) in a two-stage non-linear relationship.

Thus, in the field of gas flow control, no good product has been provided for market applications to date.

Disclosure of Invention

The utility model aims to solve the technical problem that to prior art's current situation, provide simple structure, reasonable, be applicable to a small flow proportional valve of direct action type of gas flow control.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

the utility model provides a small flow proportional valve of direct action type, including the valve body, be provided with import and export on the valve body, be provided with the valve port between import and the export, be fixed with solenoid subassembly on the valve body, solenoid subassembly includes the coil frame, around arranging the coil on the coil frame in, quiet iron core and movable iron core, quiet iron core is fixed in the upper portion of the mesopore of coil frame, movable iron core assembles the lower part in the mesopore of coil frame with axial displacement, movable iron core's lower extreme is provided with the sealing rubber pad with valve port complex, the middle part of sealing rubber pad is inlayed and is furnished with a piece formula spring, the elastic force curve of piece formula spring intersects each electromagnetic force curve, the tangent line of the elastic force curve of nodical department equals with the tangent line of the electromagnetic.

The optimized technical measures further comprise:

the center of the sheet spring is provided with a center hole, the periphery of the center hole is provided with pattern combinations formed by pattern units formed by punching, the number of the pattern units is 4N, and N is a natural number greater than or equal to 2; the pattern units are in an axisymmetric structure and are uniformly distributed on the circumference.

The above N is 2, 3 or 4.

The thickness of the leaf spring is 0.25mm to 0.35 mm.

The outer diameter of the sheet spring is more than or equal to 10mm, and the diameter of the central hole is less than or equal to 5 mm.

The periphery of the lower part of the movable iron core is provided with a magnetic conduction ring.

The periphery of foretell piece formula spring with be provided with the clamping ring between the magnetic ring, the piece formula spring sets up between clamping ring and valve body.

And a sealing ring is arranged between the static iron core and the inner wall of the coil rack.

The coil rack and the coil are wrapped by the outer casing.

The utility model discloses a small flow proportional valve of direct action type, moreover, the steam generator is simple in structure, and is reasonable, adopt the basic structure of current solenoid valve, replace coil spring with the piece formula spring, design the elastic curve of piece formula spring and the curved stable relevant mode of electromagnetic force, realize the specific functional relation between the input signal of telecommunication (voltage/electric current) and the output displacement with the matching between nonlinear spring force and the nonlinear electromagnetic force, can obtain approximate linear relation between the input signal of telecommunication (voltage, electric current) and the output flow of the small flow proportional valve of direct action type, thereby realize the application in the gas field.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic view of the leaf spring of FIG. 1;

FIG. 3 is a graph showing the relationship between the spring force curve and the electromagnetic force curve of the one-piece spring according to the embodiment of the present invention;

fig. 4 is a schematic structural view of a plate spring according to a second embodiment of the present invention;

fig. 5 is a schematic structural diagram of a plate spring according to a third embodiment of the present invention;

fig. 6 is a schematic structural diagram of a plate spring according to a fourth embodiment of the present invention;

fig. 7 is a graph of spring force versus electromagnetic force for a coil spring.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 6, the structure of the present invention is schematically illustrated,

wherein the reference numerals are: the valve comprises a valve body 1, an inlet A, an outlet P, a valve port 1a, a coil rack 21, a coil 22, a static iron core 23, a sealing ring 23a, a movable iron core 24, a sealing rubber gasket 24a, an outer shell 25, a sheet spring 3, a central hole 3a, a pattern combination 3b, a magnetic conductive ring 4 and a compression ring 5.

In one embodiment, as shown in FIGS. 1 to 3,

a direct-acting type micro flow proportional valve comprises a valve body 1, wherein an inlet A and an outlet P are arranged on the valve body 1, a valve port 1a is arranged between the inlet A and the outlet P, an electromagnetic coil assembly is fixed on the valve body 1 and comprises a coil frame 21, a coil 22 wound on the coil frame 21, a static iron core 23 and a movable iron core 24, the static iron core 23 is fixed on the upper portion of a middle hole of the coil frame 21, the movable iron core 24 is assembled on the lower portion of the middle hole of the coil frame 21 in an axially movable mode, a sealing rubber pad 24a matched with the valve port 1a is arranged at the lower end of the movable iron core 24, a piece type spring 3 is embedded in the middle of the sealing rubber pad 24a, an elastic force curve of the piece type spring 3 intersects with each electromagnetic force curve, an included angle formed by a tangent of the elastic force curve at the intersection point. Flow range of the micro flow proportional valve: the flow rate under the standard state is less than 100 l/min.

In the embodiment, a center hole 3a is arranged at the center of the plate spring 3, a pattern combination 3b formed by pattern units formed by punching is arranged on the periphery of the center hole 3a, the number of the pattern units is 4N, and N is a natural number greater than or equal to 2; the pattern units are in an axisymmetric structure and are uniformly distributed on the circumference.

For manufacturing reasons, N is typically 2, 3, 4, i.e. the number of pattern elements is typically 8, 12 or 16.

The thickness of the leaf spring 3 is 0.25mm to 0.35 mm. The outer diameter of the sheet spring 3 is more than or equal to 10mm, and the diameter of the central hole 3a is less than or equal to 5 mm. The leaf spring 3 preferably satisfies the assumption of sheet deformation in elastic mechanics, so that the stress-strain relationship of the leaf spring can be calculated by a finite element method, and the leaf spring 3 is designed. As shown in fig. 2, the pattern unit of the leaf spring 3 in this embodiment is a through hole in the shape of a wine bottle; the number of pattern units is 12.

As shown in fig. 3, the spring force curve of the leaf spring 3 in this embodiment intersects the electromagnetic force curves (I1, I2, I3), the included angle between two tangent lines at the intersection point (one of the two included angles is less than or equal to 90 °) a, < B, and < C, respectively, and < a = B = C is satisfied. In fig. 3, a variable X on the abscissa represents the compression amount of the plate spring 3 (compression amount of the plate spring 3 = displacement of the movable core 24).

In the embodiment, the lower periphery of the movable iron core 24 is provided with a magnetic conductive ring 4.

In the embodiment, a pressing ring 5 is arranged between the periphery of the plate spring 3 and the magnetic conductive ring 4, and the plate spring 3 is arranged between the pressing ring 5 and the valve body 1.

In the embodiment, a seal ring 23a is provided between the stationary core 23 and the inner wall of the bobbin 21.

In the embodiment, the bobbin 21 and the coil 22 are surrounded by an outer case 25.

In the second embodiment, as shown in fig. 4, the pattern units of the leaf spring 3 in this embodiment are butterfly-shaped through holes; the number of pattern units is 8.

Third embodiment, as shown in fig. 5, the pattern unit of the leaf spring 3 in the present embodiment is composed of two parts, including a kidney-shaped hole and a water-drop-shaped through hole; the number of pattern units is 16.

In the fourth embodiment, as shown in fig. 6, the pattern unit of the leaf spring 3 in this embodiment is composed of three parts, including a butterfly-shaped through hole, a circular through hole at the right side of the butterfly-shaped through hole, and a circular through hole at the upper side of the butterfly-shaped through hole; the number of pattern units is 8.

The 4 leaf springs 3 all meet the condition that the elastic force curve of the leaf spring 3 is intersected with each electromagnetic force curve, and the included angle formed by the tangent of the elastic force curve at the intersection point and the tangent of the corresponding electromagnetic force curve is equal; . Through the arrangement of the plate spring 3, a stable correlation mode of an elastic curve and an electromagnetic force curve of the plate spring is designed, a specific function relation between an input electric signal (voltage/current) and output displacement is realized by matching between the nonlinear spring force and the nonlinear electromagnetic force, and an approximate linear relation can be obtained between the input electric signal (voltage, current) and the output flow of the direct-acting micro flow proportional valve, so that the application in the field of gas is realized.

While the preferred embodiments of the present invention have been illustrated, various changes and modifications may be made by those skilled in the art without departing from the scope of the present invention.

Claims (9)

1. The utility model provides a direct action type micro flow proportional valve, including valve body (1), valve body (1) on be provided with import (A) and export (P), import (A) and export (P) between be provided with valve port (1a), characterized by: the electromagnetic valve is characterized in that an electromagnetic coil assembly is fixed on the valve body (1), the electromagnetic coil assembly comprises a coil frame (21), a coil (22) wound on the coil frame (21), a static iron core (23) and a movable iron core (24), the static iron core (23) is fixed on the upper portion of a middle hole of the coil frame (21), the movable iron core (24) can be axially movably assembled on the lower portion of the middle hole of the coil frame (21), a sealing rubber gasket (24a) matched with the valve port (1a) is arranged at the lower end of the movable iron core (24), a sheet type spring (3) is embedded in the middle of the sealing rubber gasket (24a), an elastic force curve of the sheet type spring (3) is intersected with each electromagnetic force curve, an included angle formed by a tangent of the elastic force curve at the intersection point and a tangent of the corresponding electromagnetic force curve is equal to each other, and the included angle is not.

2. A direct acting micro flow proportional valve as claimed in claim 1, wherein: a center hole (3a) is formed in the center of the sheet spring (3), pattern combinations (3b) formed by pattern units formed by punching are arranged on the periphery of the center hole (3a), the number of the pattern units is 4N, and N is a natural number greater than or equal to 2; the pattern units are in an axisymmetric structure and are uniformly distributed on the circumference.

3. A direct acting micro flow proportional valve as claimed in claim 2, wherein: and N is 2, 3 or 4.

4. A direct acting micro flow proportional valve as claimed in claim 3, wherein: the thickness of the leaf spring (3) is 0.25mm to 0.35 mm.

5. A direct acting micro flow proportional valve as claimed in claim 4, wherein: the outer diameter of the plate spring (3) is more than or equal to 10mm, and the diameter of the central hole (3a) is less than or equal to 5 mm.

6. A direct acting micro flow proportional valve as claimed in claim 5, wherein: and a magnetic conduction ring (4) is arranged on the periphery of the lower part of the movable iron core (24).

7. A direct acting micro flow proportional valve as claimed in claim 6, wherein: the periphery of piece formula spring (3) with be provided with clamping ring (5) between magnetic conduction ring (4), piece formula spring (3) set up between clamping ring (5) and valve body (1).

8. A direct acting micro flow proportional valve as claimed in claim 7, wherein: and a sealing ring (23a) is arranged between the static iron core (23) and the inner wall of the coil rack (21).

9. A direct acting micro flow proportional valve as claimed in claim 8, wherein: the coil rack (21) and the coil (22) are wrapped with an outer casing (25).

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