KR100440442B1 - an aberration log for manometer - Google Patents

Abstract

The present invention relates to a device for measuring an error of a pressure gauge, and more particularly, to an invention in which a simple operation of pressing a piston of a cylinder mounted at a gas pressure inlet of a pressure gauge can be easily measured for abnormality of a pressure gauge. . In the above-described present invention, the bellows in the form of a corrugated pipe mounted therein is connected to the pressure source and the hose 12 to expand and contract, so that the conventional pressure gauge 10 in which the guide 11 connected to the gear device and the link is rotated. In the case, the case 20 mounted on the gas pressure inlet side of the pressure gauge (10); Supply pipes 33 and 34 are formed at both sides of the support tube 31 mounted inside the case 20 to connect between the hose 12 of the pressure source and the bellows of the pressure gauge 10, and the support tube 31. In the inside of the valve) is inserted into the rotating hole 32 having a three-way passage (32a) valves for selectively passing through the supply pipe (33) 34 and the injection pipe (35) formed in front of the support pipe 31 ( 30); A through hole 41a is formed in the center of the cylinder 41 connected to the injection pipe 35, and a rod 42a of the piston 42 inserted into the cylinder 41 is inserted outside the cylinder 41. An actuating part 40 fixed to the pressing tube 43 elastically supported by a spring 44 and protruding the pressing tube 43 out of the case 20; Pressing the pressing tube 43 can be achieved by the error measuring device of the pressure gauge, characterized in that it is configured by a drive unit 50 for transmitting power to the rotating hole 32 to rotate the rotating hole 32 at a right angle. have.

Description

An aberration log for manometer

The present invention relates to a device for measuring an error of a pressure gauge, and more specifically, external air is injected into the pressure gauge by a simple operation of pressing a piston of a cylinder mounted at a gas pressure inlet of the pressure gauge so that the pressure gauge indicates an accurate value. The present invention relates to an invention so that it can be easily measured.

In general, a pressure gauge is a gauge for measuring the pressure of a gas or a liquid. The bellows in the form of a corrugated pipe mainly installed inside the pressure gauge is connected to a pressure source and a hose to expand or contract, and then connected to various gears and links. It is possible to measure the pressure by detecting the rotation of the guide.

The pressure gauge described above needs to be calibrated at regular intervals as the strain increases under the same pressure. However, in order to calibrate the instructions of the pressure gauge, it is very cumbersome and takes a lot of time because the range of the error indicated by the instructions is measured by using a separate measuring device while the pressure gauge is separated from the pressure source.

In addition, when a regular pressure gauge is subjected to a certain pressure, the user does not know whether the display reflects the actual pressure and whether the guideline is broken and fixed, and the device uses the pressure gauge by believing the gauge as it is even if a meter error occurs. If you want to see the pressure value in a pressure gauge that is continuously pressured and has other risks, it is not necessary to see it. Failure or instrument error could occur.

In particular, when the pressure gauge for measuring blood pressure is frequently carried by doctors and nurses, when the pressure gauge gains, the pressure gauge's gain does not indicate the correct value. The inability to measure blood pressure was a major cause of serious medical errors.

The present invention has been made in view of the above problems, the object of which is that the external air is injected into the pressure gauge by a simple operation of pressing the piston of the cylinder mounted on the gas pressure inlet of the pressure gauge once, the pressure gauge indicates an accurate value It is to provide an error measuring device of a pressure gauge that can easily measure the pressure.

A feature of the present invention for achieving the above object is that the bellows in the form of a corrugated pipe mounted therein is connected to the pressure source and the hose 12 and is expanded or contracted so that the instructions 11 connected to the gear device and the link are rotated. A conventional pressure gauge (10), comprising: a case (20) mounted on the gas pressure inlet side of the pressure gauge (10); Supply pipes 33 and 34 are formed at both sides of the support tube 31 mounted inside the case 20 to connect between the hose 12 of the pressure source and the bellows of the pressure gauge 10, and the support tube 31. In the inside of the valve) is inserted into the rotational opening 32 having a three-way passage (32a) to selectively pass through the supply pipe (33) 34 and the injection pipe (35) formed in front of the support pipe 31 ( 30); A through hole 41a is formed in the center of the cylinder 41 connected to the injection pipe 35, and a rod 42a of the piston 42 inserted into the cylinder 41 is inserted outside the cylinder 41. An actuating part 40 fixed to the pressing tube 43 elastically supported by a spring 44 and protruding the pressing tube 43 out of the case 20; Pressing the pressing tube 43 can be achieved by the error measuring device of the pressure gauge, characterized in that it is configured by a drive unit 50 for transmitting power to the rotating hole 32 to rotate the rotating hole 32 at a right angle. It is.

1 is a perspective view illustrating an embodiment of the present invention,

2 is an exploded perspective view illustrating an embodiment of the present invention;

3a to 3 is a plan sectional view sequentially showing the operating state of the present invention,

Figures 4a to 4b is a side cross-sectional view showing an operating state of the present invention.

Explanation of symbols on the main parts of the drawings

10: pressure gauge 11: instructions

12: hose 20: case

20a, 41a: through hole 30: valve

31: support tube 32: Hoedong-gu

32a: passage 33, 34: supply pipe

35: injection tube 40: operating part

41 cylinder 42 piston

42a: load 43: press tube

43a: flange 44, 62: spring

50: drive unit 51: rack

52: drive gear 53: driven gear

60: latch 61: inclined surface

63: button 64: pin

Hereinafter, described in detail by the accompanying drawings a preferred embodiment for achieving the above object is as follows.

1 to 4, the pressure gauge 10 is connected to the gear unit and the link as the bellows bellows-shaped bellows mounted therein is connected to the pressure source and the hose 12 and expanded or contracted. ) Is rotated system.

Of course, the pressure gauge 10 made of the above-described configuration is known in the art. However, the most important feature in the configuration of the present invention is that the pressure of the pressure gauge 10 is very easy to press the pressing tube 43 of the piston 42 which is mounted on the pressure gauge 10 and protrudes out of the case 20. It's about making accurate measurements.

That is, the case 20 is mounted on the air inlet side of the pressure gauge 10. A cylindrical support tube 31 is mounted inside the case 20, and supply tubes 33 and 34 are formed at both sides of the support tube 31.

One of the supply pipes 33 and 34 is connected to the hose 12 of the pressure source, and the other supply pipe 34 is connected to the bellows inside the pressure gauge 10.

Therefore, when the pressure of the gas supplied from the pressure source is supplied to the bellows of the pressure gauge 10 through the hose 12 and the two supply pipes 33 and 34 and the bellows are expanded, the instructions 11 connected to the gear device and the link are connected. This rotation can measure the pressure generated from the pressure source.

The rotating hole 32 is inserted into the support tube 31 so as to be rotatable, and the rotating hole 32 is formed with a "T" shaped passage 32a which is opened in three directions.

When the passage 32a is rotated 90 ° at a right angle with the passage 32a positioned between the supply pipes 33 and 34, the passage 32a is connected to the bellows of the pressure gauge 10. It is comprised so that it may communicate with the injection pipe 35 formed in front of the supply pipe 34 and the support pipe 31. As shown in FIG.

Therefore, when the rotating hole 32 is rotated, both supply pipes 33 and 34 and the injection pipe 35 formed in front of the support pipe 31 can be selectively communicated. Optionally serves as a valve 30 to control.

A cylindrical cylinder 41 is connected to the injection pipe 35, and a through hole 41a is formed in the center of the cylinder 41.

The piston 42 is inserted into the cylinder 41, and the rod 42a of the piston 42 is inserted into the cylinder 41 to the inside of the press tube 43 elastically supported by the spring 44. It is fixed. The pressing tube 43 protrudes out of the case 20.

The above-described configuration serves as an operation part 40 to rotate the rotational opening 32 of the valve 30 by 90 ° as the pressing tube 43 is pressed and to allow external air to flow into the bellows.

One side of the pressing tube 43 is fixed to the rack 51 made of a straight gear, the rack 51 is meshed with the drive gear 52 built in the case 20, the drive gear 52 The gear is engaged with the driven gear 53 fixed on the upper side of the rotation hole 32 of the valve 30, and the power is transmitted.

The drive gear 52 is composed of a two-stage gear in which a small gear is engaged with the rack 51 at the bottom of the large gear, so that the gear ratio of the gear 51 is adjusted when the gear 51 is operated. ° can be rotated.

In the above-described configuration, when the pressing tube 43 is pressed, the operation of the rack 51 is transmitted to the driving gear 52 and the driven gear 53 to serve as the driving unit 50 to rotate the rotational hole 32 at right angles. To perform.

The lower portion of the case 20 is equipped with a latch 60 having an inclined surface 61 on one side, and the spring 62 and the button 63 are mounted on both sides of the latch 60, respectively. As the 60 is rotated about the pin 64 penetrating the center thereof, the flange 43a formed at the inlet periphery of the press tube 43 can be caught.

The present invention made of the above-described configuration, as shown in Figures 3a to 4a, the pressing tube 43 is drilled by the rotating hole 32 in the state protruding out of the case by the elastic force of the spring 44 A true "T" shaped passage 32a is positioned to pass between both supply pipes 33 and 34 so that the bellows of the pressure gauge 10 is in communication with the pressure source through the hose 12.

At this time, the pressure of the gas generated from the pressure source flows into the bellows through the passage 32a of the hose 12 and the turning hole 32, and the guide 11 of the pressure gauge 10 connected by gears is expanded as the bellows expands. It is a case where it is used by the normal pressure gauge 10 as what can understand the rotation and can measure a pressure.

As such, when the pressure gauge 10 needs to measure the accuracy of the guide 11, as shown in FIG. 3B, when the pressure pipe 43 protrudes out of the case 20, the pressure pipe 10 is pressed. ) Enters the case and at the same time the piston 42 enters the cylinder 41 together, and the rack 51 fixed to the pressing tube 43 rotates the drive gear 52 and the driven gear 53 continuously. By rotating the rotating hole 32 by 90 °, the passage 32a communicates with the other side supply pipe 34 connected with the bellows of the pressure gauge 10 and the injection pipe 35 in front of the support pipe 31, One side supply pipe 33 which is connected to the original hose 12 is closed.

Therefore, the air injected into the bellows of the pressure gauge 10 flows into the cylinder 41 through the other side supply pipe 34, the passage 32a, and the injection pipe 35 to be drilled through the cylinder 41 ( 41a) and the inside of the bellows to be discharged to the outside through the through-hole (20a) drilled in the case 20 maintains the natural atmospheric pressure.

At this time, the piston 42 is positioned immediately before the through-hole 41a drilled in the cylinder 41, and the piston 42 is about halfway inside the cylinder 41, and is fixed to the pressing pipe 43. Since the rack 51 is excessively rotated after the rotation of the drive gear 52 and the gears are out of engagement, the drive gear 52, the driven gear 53, and the rotational hole 32 even when the rack 51 is further advanced. ) Is not rotated.

As described above, in the state where the piston 42 enters the inside of the cylinder 41 about halfway and is located immediately before the through-hole 41a, as shown in FIG. 4B, the flange 43a of the press pipe 43 is placed in the case ( 20) while entering the inside while pushing the inclined surface 61 of the locking hole 60 mounted on the lower side inside the case 20 while the tip of the locking hole 60 that was pressed by the restoring force of the spring 62 is lifted Even if the force applied to the press tube 43 is released as caught by the rear surface of the flange 43a, the locking hole 60 is stopped without returning to the original state.

Therefore, when the flange 43a is caught by the catching hole 60 when the presser tube 43 is pressed, the piston 42 is located immediately before the through hole 41a, and the pressure of the gas remaining inside the bellows is discharged to the outside. Will be. In this state, the pressure gauge 10 is not connected to the pressure source and maintains the atmospheric pressure state, so that the pressure gauge 10 is in the resting state.

In this state, as shown in FIG. 3C, when the piston 42 is fully pushed into the cylinder 41 by fully pressing the press tube 43, the air inside the cylinder 41 is injected into the bellows so that the instruction ( 11) rotates to display a predetermined measurement value, and comparing this measurement value with a preset standard measurement value can determine whether the pressure gauge 10 is normal.

This is because the pressure of the gas inside the bellows is discharged to maintain the atmospheric pressure before the piston 42 finally enters the inside of the cylinder 41, and the piston 42 is injected while passing through the through hole of the cylinder 41. Since the amount of air is always constant, the value of the instruction point 11 indicated by the normal pressure gauge 10 is set in advance. Therefore, by comparing the existing set value with the measured value and identifying the error, it is very simple to check the abnormality of the pressure gauge 10. You can judge and cope.

Subsequently, when the force applied to the pressing tube 43 is released, it is returned to its original state by the restoring force of the spring 44, and the rack 51 which is retracted together with the pressing tube 43 is returned to the driving gear 52 again. As it is engaged with the driven gear 53 to rotate the rotational opening 32 by 90 °, the passage 32a is again positioned to pass between the two supply pipes 33 and 34 as shown in FIG. 3A to measure the pressure. It can be.

Then, when the pressing tube 43 is reversed by the restoring force of the spring 44, if the flange 43a is caught by the catching hole 60, the one side button 63 of the catching hole 60 is pressed. Since the tip of the locking hole 60 is rotated downward about the pin 64 to release the locking state, the pressing tube 43 is quickly retracted by the restoring force of the spring 44 to protrude out of the case 20. will be.

When the pressure gauge 10 is used as described above, the present invention only needs to press the press tube 43 protruding outside the case 20 once to shut off the pressure of the pressure source and discharge the internal gas pressure of the bellows to atmospheric pressure. While maintaining the state, the internal air of the cylinder 41 is injected into the bellows, and the compressive force of the air is expressed as the measurement value of the guide 11, so that the pressure gauge is very simple when comparing the previously set standard setting value and the measurement value of the pressure gauge 10. Since it is possible to determine the error of (10) and measure the error, the convenience of use is greatly improved, and at the same time, the air pressure applied to the pressure gauge 10 is often discharged to maintain the same state as the atmospheric pressure. Since it is possible to reduce the failure of the pressure gauge (10).

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the spirit of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

According to the present invention as described above, when the pressure gauge 10 is used, the internal pressure of the bellows is discharged to maintain the atmospheric pressure by only pressing the pressing tube 43 protruding out of the case 20 once when necessary. At the same time, since the internal air of the cylinder 41 is injected into the bellows, and the guide 11 is rotated to be displayed as a measurement value, it is very easy to determine whether there is an abnormality of the pressure gauge 10 by comparing the previously set standard setting value with the measurement value. Because it can measure the ease of use is not only greatly improved, but also increases the reliability of the pressure gauge, and can check the pressure of the pressure source when necessary, thereby reducing the failure of the pressure gauge to increase the external competitiveness of the pressure gauge (10) as much as possible There are advantages such as giving.

Claims (3)

In the conventional pressure gauge 10 in which a bellows in the form of a corrugated pipe mounted therein is connected to the pressure source and the hose 12 and expanded or contracted so that the guide 11 connected to the gear device and the link is rotated. A case 20 mounted at the gas pressure inlet side of the pressure gauge 10; Supply pipes 33 and 34 are formed at both sides of the support tube 31 mounted inside the case 20 to connect between the hose 12 of the pressure source and the bellows of the pressure gauge 10, and the support tube 31. In the inside of the valve) is inserted into the rotating hole 32 having a three-way passage (32a) valves for selectively passing through the supply pipe (33) 34 and the injection pipe (35) formed in front of the support pipe 31 ( 30); A through hole 41a is formed in the center of the cylinder 41 connected to the injection pipe 35, and a rod 42a of the piston 42 inserted into the cylinder 41 is inserted outside the cylinder 41. An actuating part 40 fixed to the pressing tube 43 elastically supported by a spring 44 and protruding the pressing tube 43 out of the case 20; Pressing the pressing tube 43, the pressure measuring device of the error gauge, characterized in that it is configured by a drive unit 50 for transmitting power to the rotating hole 32 to rotate the rotating hole 32 at a right angle. The method of claim 1, wherein the lower portion of the case 20 is mounted with a latch 60 having an inclined surface 61 to one side, the spring 62 and the button 63 on both sides of the latch 60 The mounting apparatus of each of the pressure gauges, characterized in that the engaging holes 60 are rotated about the pin 64 penetrating the center thereof so that the flange 43a formed at the periphery of the inlet of the pressing tube 43 is caught. . According to claim 1, The drive unit 50 is a rack 51 fixed to one side of the pressing tube 43 is meshed with the drive gear 52 built in the case 20, the drive gear 52 is Measuring the error of the pressure gauge characterized in that the power is transmitted when the pressurizing pipe 43 is pressed against the driven gear 53 fixed above the rotating hole 32 of the valve 30 to rotate the rotating hole 32 at right angles. Device