CN103674522B - A kind of valve test system - Google Patents

Abstract

A kind of valve test system, being comprised: the source of the gas be communicated with in turn by pipeline, the first pressure transducer, solenoid valve, automatically controlled throttling valve, the second pressure transducer; Control device, data collector and industrial computer.Control device is connected to solenoid valve and automatically controlled throttling valve, the unlatching of Controlling solenoid valve and the aperture of automatically controlled throttling valve; Data collector is connected to the first pressure transducer and the second pressure transducer, gathers the first pressure feedback value of the first pressure transducer and the second pressure feedback value of the second pressure transducer respectively; And industrial computer is connected to control device and data collector, receive the action electric signal that the pressure feedback value from data collector sends to control described control device.This system achieves the adjustment that gas builds pressure speed, and test efficiency is largely increased, and improves test coverage and the test condition quantified controlling ability of pilot system.

Description

A kind of valve test system

Technical field

The invention belongs to carrier rocket pressurizing transmission system technical field, particularly a kind of valve test system for carrier rocket pressurizing transmission system.

Background technology

In order to simulate the Live Flying operating mode of valve in carrier rocket pressurizing transmission system, in valve impact process of the test, need to provide the impact source of the gas with stable rate of pressurization.Be typically employed in the mode that valve downstream installs solenoid valve in the past, the supply impacting source of the gas is realized by the keying of Controlling solenoid valve, the inefficiency of this impulse test system, rate of pressurization is unadjustable and without FEEDBACK CONTROL, cannot simulate Live Flying operating mode on arrow completely.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of adjustable gas to build the valve test system of pressure speed, with solve that former impulse test system works efficiency is low, rate of pressurization is unadjustable and without FEEDBACK CONTROL, the problems such as Live Flying operating mode cannot to be simulated on arrow completely.

Valve test system according to the present invention comprises: source of the gas, the first pressure transducer, solenoid valve, automatically controlled throttling valve, the second pressure transducer, control device, data collector and industrial computer, wherein, source of the gas, the first pressure transducer, solenoid valve, automatically controlled throttling valve and the second pressure transducer are communicated with in turn by pipeline, and the second pressure transducer is communicated to valve part to be tested further; Control device is connected to solenoid valve and automatically controlled throttling valve respectively, with the aperture of the unlatching of Controlling solenoid valve and automatically controlled throttling valve; Data collector is connected to the first pressure transducer and the second pressure transducer respectively, to gather the second pressure feedback value of the first pressure feedback value from the first pressure transducer and the second pressure transducer respectively; And industrial computer is connected to control device and data collector respectively, receive the first pressure feedback value from data collector and the second pressure feedback value, and control the action electric signal that sends of control device according to this.

Preferably, when receiving the first pressure feedback value that data collector transmits, industrial computer compares this first pressure feedback value and the size of impact bleed pressure value preset, if the first pressure feedback value reaches the impact bleed pressure value preset, industrial computer assigns solenoid valve open command to control device; When receiving the second pressure feedback value that data collector transmits, industrial computer is worth over time according to the second pressure feedback value of described second pressure transducer feedback and calculates the actual of gas in corresponding pipeline with acquisition time changing value and build pressure rate value, and press rate value to compare with building of presetting actual pressure rate value of building, and assign automatically controlled throttle valve opening regulating command according to comparative result to control device.

Preferably, this valve test system also comprises the stop valve be connected between source of the gas and the first pressure transducer.

Preferably, this valve test system also comprises the filtrator be connected between the second pressure transducer and valve part to be tested.

Valve test system according to the present invention possesses useful technique effect, comprising:

1., owing to having set up automatically controlled throttling valve in system, thus achieve the regulatory function that gas builds pressure speed, significantly improve test coverage and the test condition quantified controlling ability of pilot system;

2. by the keying of bleed pressure FEEDBACK CONTROL solenoid valve, achieve percussion action to control, and by arranging second pressure transducer at valve inlet place, achieve and build the automatically controlled throttle valve opening of pressure Rate Feedback closed loop adjustment, achieve the Automated condtrol of pilot system, experimental safe is ensured, test efficiency is largely increased.

Accompanying drawing explanation

Fig. 1 is the principle schematic according to valve test system of the present invention.

Embodiment

Below in conjunction with the drawings and specific embodiments, valve test system according to the present invention is further described in detail.

Please refer to Fig. 1, valve test system according to the present invention comprises: source of the gas 1, stop valve 2, first pressure transducer 7, solenoid valve 3, automatically controlled throttling valve 4, second pressure transducer 8, filtrator 5, data collector 10, control device 9 and industrial computer 11.Wherein, source of the gas 1 is used to provide the gas that system is carried out needed for impulse test, and can adopt any applicable gas supply device, gas wherein such as adopts pressurized air, is not specifically limited at this.Stop valve 2 release of gas when the supply of gas when helping test and off-test, can omit according to actual conditions.There is provided solenoid valve 3 to control the supply of impact air, existing solenoid valve can be adopted according to actual conditions, such as bi-bit bi-pass large discharge solenoid valve.Automatically controlled throttling valve 4 is used for controlling the flow of gas, even if any for this area, can adopt any available throttling valve according to actual needs.Filtrator is used for filtering gas, to make gas purer, according to the gas station that reality adopts, can omit.Valve part 6 to be tested is the valve of impulse test to be subjected, and the valve part that this pilot system is suitable for is generally normally closed type valve (such as normally closed pilot-operated type bi-bit bi-pass electrically operated valve).

Below valve test system is according to the preferred embodiment of the invention described in detail.

Composition graphs 1, in valve test system according to the preferred embodiment of the invention, source of the gas 1, stop valve 2, first pressure transducer 7, solenoid valve 3, automatically controlled throttling valve 4, second pressure transducer 8 and filtrator 5 by pipeline (such as, metal tubes) be communicated with in turn, and filtrator 5 is communicated to valve part 6 to be tested further.Data collector 10 is connected with the first pressure transducer 7 and the second pressure transducer 8, to gather the second pressure feedback value of the first pressure feedback value from the first pressure transducer and the second pressure transducer respectively.Control device 9 is connected with solenoid valve 3 and automatically controlled throttling valve 4, with the aperture (that is, opening degree) of the unlatching of Controlling solenoid valve and automatically controlled throttling valve.Industrial computer 11 is connected with control device 9 with data collector 10, and three forms feedback control loop.Industrial computer 11 receives the first pressure feedback value from data collector and the second pressure feedback value, and controls the action electric signal that control device sends according to this.Particularly, when receiving the first pressure feedback value that data collector transmits, industrial computer compares this first pressure feedback value and the size of impact bleed pressure value preset, if the first pressure feedback value reaches the impact bleed pressure value preset, it assigns solenoid valve open command to control device, so that opens solenoid valve, to the valve part supply shock gas in downstream; When receiving the second pressure feedback value that data collector transmits, industrial computer is worth over time according to the second pressure that the second pressure transducer feeds back and calculates the actual of gas in pipeline corresponding to the second pressure transducer with acquisition time changing value and build pressure rate value, and press rate value to compare with building of presetting this actual pressure rate value of building, automatically controlled throttle valve opening regulating command is assigned to control device according to comparative result, thus control the aperture of automatically controlled throttling valve, guarantee that the rate of pressurization of impact air meets the demands.

In practical operation, first, user is set by industrial computer 11 and impacts bleed pressure value and build pressure rate value, and realizes communicating of industrial computer 11 and control device 9 and data collector 10 via signal wire.Then, source of the gas 1 is the upstream supercharging of solenoid valve 3 by stop valve 2, has stocked impact air.When the first pressure feedback value of the first pressure transducer 7 reaches the impact bleed pressure value of setting, industrial computer 11 assigns solenoid valve open command to control device 9, solenoid valve is opened, source of the gas 1 is by automatically controlled throttling valve 4, filtrator 5 for valves test part 6 provide have necessarily build pressure speed impact air, industrial computer 11 utilizes the second pressure feedback value of the second pressure transducer 8 of data acquisition module block transfer simultaneously, be worth Δ P and acquisition time changing value Δ t over time according to the second pressure of the second pressure transducer feedback to calculate the actual of gas in pipeline corresponding to the second pressure transducer and build pressure rate value V (namely, V=Δ P/ Δ t).When actual build pressure rate value and setting value depart from larger time, industrial computer 11 assigns automatically controlled throttle valve opening regulating command to control device 9, is regulated the aperture of automatically controlled throttling valve 4 by control device 9, thus guarantees that the rate of pressurization of impact air meets the demands.

At this, it should be noted that, that those skilled in the art can obtain according to the description in this instructions from prior art or selling market according to the source of the gas in valve test system of the present invention, stop valve, the first pressure transducer, solenoid valve, automatically controlled throttling valve, the second pressure transducer and filtrator, therefore, the structure of these parts is not specifically described at this.In like manner, for other content do not described in detail in this instructions, as, syndeton between all parts and connecting line and connected mode, also be that those skilled in the art can be realized by the description in this instructions and prior art, therefore, repeat no more.

The foregoing is only the preferred embodiments of the present invention, be not used for limiting the scope of the invention.For a person skilled in the art, under the prerequisite not paying creative work, can make some amendments and replacement to the present invention, all such modifications and replacement all should be encompassed within protection scope of the present invention.

Claims (3)

1. a valve test system, it is characterized in that, comprise: source of the gas (1), the first pressure transducer (7), solenoid valve (3), automatically controlled throttling valve (4), the second pressure transducer (8), control device (9), data collector (10) and industrial computer (11), wherein

Described source of the gas (1), the first pressure transducer (7), solenoid valve (3), automatically controlled throttling valve (4) and the second pressure transducer (8) are communicated with in turn by pipeline, and described second pressure transducer (8) is communicated to valve part (6) to be tested further;

Described control device (9) is connected to described solenoid valve (3) and automatically controlled throttling valve (4) respectively, with the aperture of the unlatching and described automatically controlled throttling valve (4) that control described solenoid valve (3);

Described data collector (10) is connected to described first pressure transducer (7) and the second pressure transducer (8) respectively, to gather the second pressure feedback value of the first pressure feedback value from described first pressure transducer (7) and the second pressure transducer (8) respectively; And

Described industrial computer (11) is connected to described control device (9) and data collector (10) respectively, receive from the described first pressure feedback value of described data collector (10) and the second pressure feedback value, and control the action electric signal that described control device (9) sends according to this;

When receiving the described first pressure feedback value that described data collector (10) transmits, the more described first pressure feedback value of described industrial computer (11) and the size of impact bleed pressure value preset, the impact bleed pressure value preset described in if described first pressure feedback value reaches, described industrial computer (11) assigns solenoid valve open command to described control device (9); And when receiving the described second pressure feedback value that described data collector (10) transmits, described industrial computer (11) is worth over time according to the second pressure feedback value that described second pressure transducer (8) is fed back and calculates the actual of gas in corresponding pipeline with acquisition time changing value and build pressure rate value, and press rate value to compare with building of presetting described actual pressure rate value of building, and assign automatically controlled throttle valve opening regulating command according to comparative result to described control device (9).

2. valve test system according to claim 1, is characterized in that, described system also comprises the stop valve (2) be connected between described source of the gas (1) and the first pressure transducer (7).

3. the valve test system according to any one of claim 1-2, is characterized in that, described system also comprises the filtrator (5) be connected between described second pressure transducer (8) and valve part to be tested (6).