FI86772B - Arrangement to produce a calibrated gas pressure - Google Patents

Description

Apparatus for providing a calibrated gas pressure 86772 This apparatus relates to an apparatus for obtaining a calibrated gas pressure ai-5. The device of the invention preferably comprises a device for providing the most commonly required calibrated atmospheric pressure, although it may be useful for providing other calibrated gas pressures, such as calibrated nitrogen pressure.

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In a particularly suitable embodiment, the invention may relate to a device for providing a calibrated low air pressure. A calibrated low air pressure source (i.e., a pressure that is close to atmospheric pressure but slightly above it) is widely needed, for example, to calibrate pressure sensors used in industry. Considering that the invention can be used with gases other than air and that pressures can be calibrated slightly below, as well as slightly above atmospheric pressure, we will refer primarily to the apparatus for providing a calibrated low air pressure source in the remainder of this specification.

To date, numerous devices have been developed to provide 25 calibrated atmospheric pressures, but most have had the problem of inaccuracy at very low pressures, due, for example, to the difficulty of measuring these very small forces.

The present invention relates to a device which provides a calibrated low-pressure air source, the pressure of which can be changed as required and which can be accurately measured. For example, this calibrated barometric pressure can be used on an industrial sensor to measure its accuracy.

According to a first aspect, the present invention relates to an apparatus for providing a calibrated gas pressure comprising a piston mounted on a cylinder such that a gap is formed between adjacent walls of the B6772 2 piston and the cylinder, the cylinder being substantially closed at one end to form a closed chamber, which is intended to be connected to a force-measuring device, and in which gas, when the device is in use, is supplied to a gas inlet from which it flows into the chamber to provide a calibrated gas pressure in the chamber, and the pressure is measured by a force measuring device. Characteristic of this first aspect is that the closed chamber 10 comprises a flow for a gas with a calibrated pressure and an adjustable flow valve, and that the gas inlet is formed in the cylinder wall in the vicinity of the piston.

15 The piston can be mounted on the cylinder by means of a support device which holds the piston in place so that the correct clearance is maintained between the piston and the cylinder walls and allows • the piston to move in the direction of the cylinder. device support

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may comprise a parallel articulation device mounted on each axial end of the piston 20.

The adjustable flow valve may be an adjustable needle valve. The gas supply device may be located in the middle stages of the piston height.

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In the case where the gas is air, the piston head opposite the chamber is preferably open to the outside air. In use, air is thus supplied to the air inlet, after which it flows as a laminar flow through the gap between the piston and the walls of the cylinder 30 in both directions to the outside air towards the piston head and also the chamber, after which it flows into the chamber and exits the chamber through an adjustable flow valve. The adjustable flow valve is adjusted to provide the desired pressure in the chamber, which can be measured by a force measuring device, such as a weight measuring device, such as a scale, which is sufficiently accurate for this purpose. The balance may be connected directly to the piston in a straight line 3 86772, and the pressure in the chamber may be determined from the known diameter of the piston and the apparent weight of the piston. The piston can move freely in the cylinder due to the gap between the walls of the piston and the cylinder-5 blade. As air flows in both directions through this gap, the attraction of the air flowing in the direction of the chamber to the piston will be balanced in the opposite direction by the attraction of the air flowing to the piston in the opposite direction through the gap.

In another aspect, the present invention relates to an apparatus for providing a calibrated gas pressure comprising a piston mounted in a cylinder such that a gap is formed between the piston 15 and adjacent walls of the cylinder, the cylinder being substantially closed at one end to form a closed chamber, and the piston comprising intended to be connected to a force measuring device, and wherein, when the device is used, gas is supplied to a gas inlet from which it flows into the chamber to provide a calibrated gas pressure in the chamber, and the pressure is measured by means of a force measuring device. This second aspect is characterized in that the closed chamber comprises a flow for a gas with a calibrated pressure and an adjustable inlet valve, and that the gas flow is formed in the wall of the cylinder in the vicinity of the piston.

In the following, a suitable embodiment of the invention will be explained by way of example and with reference to the accompanying drawing, if-30 sa:

Fig. 1 shows a vertical section of the device for providing calibrated low-pressure air, and Fig. 2 shows a top view of the device of Fig. 1 with the lid removed.

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Reference is now made to Figure 1, which shows an apparatus for providing a calibrated low air pressure. The device comprises a cylinder 10 having a circular cross-section and on which a piston 11 is mounted. The piston 11 5 is mounted so as to be movable in the cylinder 10 by means of parallel articulation devices 12, 13 located at opposite axial ends of the piston 11. Devices 12, 13 will be explained in more detail below. Between the piston 11 and the cylinder 10 there is an annular gap 15 of 0.05 mm.

The upper end of the cylinder 10 is closed by a cover plate 14 to form a substantially closed chamber 16. The cover plate 14 has two openings, one opening comprising a flow 15 connector through which air can be supplied at a calibrated pressure, and the other an adjustable flow valve, which is a needle valve 18.

The wall of the cylinder 10 has air inlets 19 located along the circumference of the cylinder 10 and formed at a position substantially exactly halfway between the opposite axial ends of the piston 11.

The end of the cylinder 10 opposite the chamber 16 is not closed, but a plurality of air outlets 21 are formed at various points along the circumference of the cylinder 10 in the vicinity of the end opposite the chamber 16 of the piston 11.

In Fig. 1, the piston li comprises, at its lower part opposite the chamber 16, a device, in this case a rod 22, intended to be connected to a force measuring device, which may be a weight measuring device. The weight measuring device can be any suitable device, such as a nol-35 platform scale 20 with a digital display. A zero balance is of the type in which its rod 25, through which force and weight are applied to the balance, does not move or moves very little when I; 5,86772 it is subjected to force or weight. The scale also has the advantage that the rod 25 can be preloaded, after which the digital display of the scale can be reset to provide a zero display, so that the scale will then only show increases or decreases in weight or force. In use, the rod 22 rests directly on the rod 25.

The rod 22 is not directly connected to the piston 11 but through a spring connection 23, the details of which are shown in the passage 1, and this is intended to prevent the transfer of overloads from the piston 11 to the balance 20.

The device can be mounted on the scale 20 as follows. The scale 20 comprises a metal ring 24 fixed to its upper surface and surrounding the rod 25 15 and the device is fixed to the ring 24 by machine screws 26 passing through rings 27 mounted around the outer surface of the cylinder 10. In this way the device can be removed from the scale simply by removing screws 26 and vice versa.

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The parallel articulation device 12, 13 will now be described with reference to Figures 1 and 2. A mounting plate 28 is attached to the end of the cylinder 10 in the chamber 16, the mounting plate 28 securing a resilient plate 29 supporting a connecting device 25 of a rigid body 31 extending across the chamber 16 in the transverse direction. Attached to the opposite side of the body 31 is a second resilient spring plate 32, which is fixed in place by a mounting plate 33 against the end surface of the piston 11.

The articulation device 13 is of the same type and is parallel to the articulation device 12. In this way, the two devices 12, 13 form a parallel arm joint device, as a result of which the axis of the piston 11 is always parallel to the axis of the cylinder 10. The axial movement of the piston 11 from the rubber is limited by means of plates 36 mounted at each end of the cylinder 10.

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There is a small gap (normally 0.05 mm) between the cylindrical walls of the cylinder 10 and the piston 11 and the device 12, 13 prevents the piston 11 from moving out of this position.

It can be seen from the figure that the outlet connector 17 is located on the axis of the cylinder and the piston and can be easily removed because it is fixed to the cover plate 14 by means of screw threads. The upper surface of the piston 11 in the chamber 16 comprises an adapter 34 34 positioned at the axis of the piston 11, which comprises an internal thread coaxial with the axis of the piston 11.

Other structural details of the device are shown in the drawing. All parts shown are made of stainless steel 15.

The device can be used as follows. In use, the device is connected to the balance by means of screws 26 connected to the mounting plate 28. In this position, the rod 20 22 rests on the rod 25 of the balance 20.

Terminal 17 is removed. The air can then be supplied to the air inlets 19, whereby the air is supplied mainly at a constant pressure. Air flows into the inlets 19 and part of the air passes upwards through the slot 15 towards the chamber 16 and part downwards through the slot 15 without the outlets 21. The quotient flowing in both directions is essentially the same because the pressure in the air outlets 21 and in the chamber 16 is the same. The attraction of air to the piston, which could move the piston, is thus balanced by the same air flow in both directions. In any case, the air flow is considered small enough to keep the flow laminar and free of turbulence.

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The device can then be calibrated by rotating the weight cup 30 through the hole 7,76772 in the cover plate 14 after the outlet connector 17 has been removed, in contact with the internal thread of the adapter 34. Weights can be added to the cup and the display of the balance can be recorded so that the linearity of the movement of the piston according to the change of the load 5 can be measured.

After the calibration of the device has been checked, the cup 30 of the balance can be removed, the connector 17 rotates back into place and, if necessary, which is common, reconnects 10 to the pressure sensor 35 to be tested. The balance 20 is reset. The pressure in the chamber 16 can be changed by adjusting the adjustable needle valve 18 or by changing the pressure of the air supplied to the air inlets 19. It will be appreciated that the pressure in the closed chamber 16 will apply a force to the upper surface of the piston 11 which passes through the piston 11 and rod 22 to the balance 20. Thus, the chamber pressure and thus the calibrated air pressure supplied through the outlet 17 can be measured from the balance. the weight shown is obtained by multiplying the chamber pressure by the known area of the upper surface 20 of the piston 11 (normally 100 cm 2).

The display reading of the sensor 35 can be calibrated against the digital display of the scale 20.

In this way, an air pressure source is provided which is accurately calibrated by means of a balance and which can be used, for example, to calibrate pressure sensors.

The device can also be used in other ways. Instead of air, for example, it is possible to measure the gas pressure, whereby the gas is fed to the outlet 19.

It is also possible to measure an air pressure lower than atmospheric pressure and this can be achieved, for example, by exposing the air inlet 19 to a partial vacuum, in which case air flows into the outlets 21 through the needle valve 18 and creates a pressure in the chamber.

Claims (10)

An apparatus for providing a calibrated gas pressure comprising a piston (11) mounted on a cylinder (10) such that a gap (15) is formed between adjacent walls of the piston (11) and the cylinder (10), the cylinder (10) being substantially closed by another to form a closed chamber (16), and the piston (11) comprises a device (22) to be connected to the force measuring device 15 (20), the gas being supplied to the gas inlet (19) during operation, from which it flows into the chamber (16) in the chamber (16), and the pressure is measured by means of a force measuring device (20), characterized in that the closed chamber (16) comprises an outlet (17) for a gas with a calibrated pressure and an adjustable flow valve (18), and that the gas inlet ( 19) is formed in the wall of the cylinder (10) in the vicinity of the piston (11). Device according to Claim 1, characterized in that the piston (11) is mounted on the cylinder (10) by means of a support device (12, 13) which holds the piston (11) in place so that between the piston (11) and the cylinder walls leaving a predetermined gap and allowing the piston (11) to move in the axial direction of the cylinder (10). 30 Device according to claim 2, characterized in that the support device (12, 13) comprises a parallel articulation device (12, 13) attached to each axial end of the piston (11). 35 Device according to one of Claims 1 to 3, characterized in that the adjustable flow valve (18) is an adjustable needle valve (18). Device according to one of Claims 1 to 4, characterized in that the gas inlet (19) is formed at a point in the vicinity of the height of the piston (11). 5 8 86772 16, which is slightly below atmospheric pressure. A similar structure can be used to measure a gas pressure below atmospheric pressure. Device according to one of Claims 1 to 5, characterized in that the gas is air and the end of the piston (11) opposite the chamber 10 (16) is in communication with the outside air. Device according to one of Claims 1 to 6, characterized in that the adjustable needle valve (18) is adjusted so as to produce the desired pressure in the chamber 15 (16), which can be measured by means of a force measuring device (20). Device according to Claim 7, characterized in that the force measuring device (20) is connected directly to the 2. piston (11), the pressure in the chamber (16) being measured by means of a known diameter of the piston (11) and the apparent weight of the piston (11). Device according to one of Claims 1 to 8, characterized in that the gas flows laminarly into the chamber when the device is used. An apparatus for providing a calibrated gas pressure comprising a piston (11) mounted on a cylinder (10) 30 so that a gap (15) is formed between adjacent walls of the piston (11) and the cylinder (10), the cylinder (10) being substantially closed by another to form a closed chamber (16), and the piston (11) comprises a device (22) to be connected to the force measuring device (20), the gas being supplied to the gas inlet (18) from which it flows into the chamber (16) to provide a calibrated gas pressure in the chamber 10 86772 (16), and the pressure is measured by means of a force measuring device (20), characterized in that the closed chamber (16) comprises an outlet (17) for a calibrated gas and an adjustable inlet valve (18), and a gas outlet (19) 5 is formed in the wall of the cylinder (10) in the vicinity of the piston (11). 10 Patentkrav: