KR20090068715A - Weight measuring equipment for plural standard gas manufacturing cylinder - Google Patents

Abstract

A weight measuring device for a plurality of standard gas manufacturing cylinders is provided to simply measure the weight of the cylinders in a short tie by using a table which secures the cylinders and place the cylinders on a measurement balance. A weight measuring device for a plurality of standard gas manufacturing cylinders includes a table(20), cylinder bases(30), a table rotating unit(40), measurement balance(10), and a table lifting unit(50). The table is movable in the vertical direction, rotatable and punched with a plurality of sliding holes(21) radially with respect to the center of rotation. The cylinder bases are inserted into the sliding holes slidingly in the vertical direction and secure standard gas manufacturing cylinders(1). The measurement balance is mounted on the path that the cylinder bases rotate in association with the rotation of the table to measure the weight of the cylinders. The table rotation unit rotates the table alternatively. The table lifting unit moves the table in the vertical direction alternatively. If the table is lowered, the cylinder base and the cylinder above the measurement balance are secured on the measurement balance while the others are lowered with the table.

Description

Weight Measuring Equipment for Plural Standard Gas Manufacturing Cylinder

The present invention relates to an apparatus for measuring the weight of a cylinder for the production of primary standard gases by gravimetric method.

In general, the production of primary standard gas by gravimetric method is a container in which a source gas (pure gas or a standard gas of known composition manufactured by gravimetric method) is quantitatively produced according to a composition to be manufactured (usually referred to as "cylinder"). It is prepared by injecting in.

Gravimetric method is to find out the amount of gas component transferred to the cylinder to be manufactured by measuring the weight of the component in each process.

That is, the amount of injected gas component is determined by measuring the weight of the cylinder before filling the gas and the weight of the cylinder after filling the gas.

There is also a method of determining the amount of gas component by measuring the pressure, but this is a situation that the weight method is preferred because of the problem that the accuracy is low because the difference occurs depending on the environmental conditions.

However, in measuring the weight of the cylinder for the gravimetric method, if the position of the balance is changed or the cylinder is not seated in the center of the scale, there is a problem that a large error occurs and the accuracy of the gravimetric method is lowered.

This is because the balance for gravimetry is very sensitive.

For this reason, the balance was fixed in a place where vibration was prevented, and the cylinder was weighed by carefully placing the cylinder in the center of the balance.

Due to this, there is a problem in that it takes a considerable time to weigh the cylinder and a considerable difficulty occurs.

On the other hand, even if the cylinder is correctly placed on the balance and the vibration is not applied to the balance, there was also a problem that the error occurs due to the moisture adsorption on the surface of the cylinder by the temperature, humidity, pressure change of the measurement space, breathing of the measuring device.

The present invention aims to solve the above problems, and more particularly, to provide an apparatus for measuring a weight of a cylinder for manufacturing a standard gas, which can greatly reduce an error in measuring a cylinder weight and enables rapid weight measurement.

In the present invention, a plurality of standard gas production cylinders are placed on a rotating table, and the table is rotated to measure the weight by lowering the table in a state in which the cylinder to measure the weight of the plurality of cylinders is positioned above the measurement scale. Allows quick and easy cylinder weight measurement.

Therefore, the apparatus for measuring the weight of the cylinder for producing a standard gas of the present invention has a table in which a plurality of sliding holes are radially drilled up and down, rotatable, and a center of rotation as a center point.

In addition, the slide is inserted into the sliding hole of the table, it is possible to slide up and down in the state inserted into the sliding hole, and has a plurality of cylinder support body in which the cylinder for manufacturing standard gas is placed.

In addition, when the table is rotated, the plurality of cylinder support bodies are installed on a path to rotate, and have a measurement scale for measuring the weight of the cylinder for manufacturing a standard gas placed on the cylinder support body.

It also has a table rotating means for selectively rotating the table.

In addition, the table can be moved up and down selectively.If the table is lowered while the cylinder support body is located on the upper part of the measuring scale, the cylinder support body and the standard gas manufacturing cylinder on the upper part of the measuring scale are placed on the measuring scale. The remaining cylinder support and the standard gas cylinder have a table moving up and down descending with the table.

In the present invention, a plurality of standard gas production cylinders are placed on a rotating table, and the table is rotated to measure the weight by lowering the table in a state in which the cylinder to measure the weight of the plurality of cylinders is positioned above the measurement scale. The cylinder weight can be measured quickly and easily.

In addition, in the structure in which the table, the cylinder support body, and the measurement scale are positioned in a chamber having an opening / closing door to allow selective sealing, the error of the measured value due to the external environment can be greatly reduced.

The present invention relates to an apparatus for measuring the weight of a cylinder for the production of primary standard gases by gravimetric method.

Therefore, the present invention also has a measurement scale 10 that can measure the weight of the cylinder (1) for producing a standard gas as in the prior art.

Such measurement scale 10 is preferably installed so as not to be affected by vibration of the floor as in the prior art, and not to move.

However, the present invention has an object to solve the problems of the conventional cylinder weighing device for producing a standard gas.

Conventionally, each weight of each cylinder 1 has to be carefully positioned at the center of the measuring scale. After measuring the weight of one cylinder, the weight of the other cylinder 1 has already been raised to measure the weight of the other cylinder. I had to move the cylinder.

As a result, it takes a considerable time to weigh the cylinder and a considerable difficulty in weighing the cylinder.

In order to solve this problem, in the present invention, a plurality of cylinders may be placed on a table to be rotated, and the weight of the plurality of cylinders may be quickly measured by rotating the table.

Only one cylinder can be placed on the up and down movable table, but a plurality of cylinders can be placed on the rotating table.

Therefore, the present invention is rotatable and has a table 20 in which a plurality of cylinders 1 can be positioned radially with the center of rotation as the center point.

By the way, only the weight of the specific cylinder of the plurality of cylinders rotated with the table 20 should be able to be measured.

In addition, the cylinder should be placed relatively precisely in a specific position on the table and its operation should be easy.

For this reason, the sliding hole 21 is drilled in the table 2 of the present invention, and the table 20 is movable up and down.

In addition, it is inserted into the sliding hole 21 of the table 20, it is possible to slide up and down in the state inserted into the sliding hole 21, and has a plurality of cylinder support body 30 in which a cylinder for manufacturing a standard gas is placed. .

When the cylinder support body 30 is moved up and down, sliding movement must be performed so that a large change does not occur in the position of the cylinder even when the table 20 is rotated, and a phenomenon such as the cylinder 1 is tilted does not occur. Do not.

The measurement scale 10 for measuring the weight of the cylinder for manufacturing a standard gas is installed on a path where a plurality of cylinder support bodies 30 are rotated when the table 20 is rotated so that the standard is placed on the cylinder support body 30. Measure the weight of the cylinder for gas production.

The present invention is to rotate the table 20 to measure the weight of the plurality of cylinders placed on the table, respectively.

Therefore, the present invention has a table rotating means 40 for selectively rotating the table.

The table rotating means 40 can be implemented in various forms.

It may be implemented by a manual method of rotating a table by rotating a handle, or may be implemented in an automatic or semi-automatic form in which rotation is performed by power.

The way the table is rotated by the rotational force may be applied to various forms known in the art, such as a gear usage method such as a worm and a worm gear.

When the rack and pinion gear are used, the table 20 may be rotated by receiving a linear motion.

However, when implemented in an automatic or semi-automatic manner in which the rotation of the table 20 is received by receiving power from a motor or the like, the cylinder support body 30 should be implemented to stop the rotation relatively accurately at the position placed on the upper part of the measurement scale. .

As such, a technique for rotating the table at a relatively accurate angle is already known and applied to various fields, and thus, more detailed description thereof will be omitted.

In order to measure the weight of the cylinder located on the upper portion of the measurement scale 10 of the plurality of cylinders placed on the table 20 to be rotated, the table must be moved up and down selectively.

Therefore, in the present invention, the table 20 can be selectively moved up and down as shown in FIG. The cylinder support body 30 and the standard gas manufacturing cylinder which are located on the upper part of the scale 10 are mounted on the measuring scale 10, and the remaining cylinder support body 30 and the standard gas manufacturing cylinder are lowered together with the table 20. The lowering table has a vertical movement means 50.

The table moving means 50 may be implemented in various forms.

The handle 20 may be implemented by a manual method of moving the table 20 up and down, or may be implemented in an automatic or semi-automatic form in which the table 20 is moved up and down by power.

When explaining an example of the passive type, when the rotating shaft formed by the spiral is manually rotated, there is a structure in which a nut-shaped object coupled to the rotating shaft is moved up and down along the rotating shaft to move the table up and down.

An example of the automatic or semi-automatic type is a form in which the table moves up and down by a hydraulic cylinder.

In addition, as shown in FIG. 1, when the reducer 52 rotates the ball screw shaft 15 in which the spiral is formed, the table 20 may be moved up and down.

When the table 20 is moved up and down, it is preferable to provide the guide 53 so that the movement is performed in a straight line without moving left and right.

On the other hand, in the measurement of the weight of the standard gas production cylinder as in the present invention, even if the cylinder is correctly placed on the measurement scale 10 and the vibration is not applied to the measurement scale 10, the temperature, humidity, pressure change in the measurement space The error also occurs largely due to moisture adsorption on the surface of the cylinder due to the blowing of the measuring instrument.

In order to solve this problem, it is preferable to position the table 20, the cylinder support body 30, and the measurement scale 10 in the chamber 60 having an opening and closing door to enable selective sealing.

Since the present invention is to measure the weight by placing a plurality of cylinders (1) on the table 20, even if provided with the chamber 60 as described above there is no great inconvenience.

Hereinafter, the operation of the present invention will be described using the accompanying drawings.

As shown in FIG. 1, a plurality of standard gas production cylinders are positioned on the table 20.

The measurement scale 10 is located below the front part of the table 2.

When the table 20 is lowered by operating the table up / down moving means 50 while the cylinder support body 30 in which the cylinder is placed on the upper part of the measurement scale 10 is lowered, the cylinder support body above the measurement scale ( 30) only drops until the moment it comes into contact with the measuring scale and no longer falls.

However, since the table 20 is continuously lowered, the remaining cylinder support body 30 and the cylinder are lowered.

As a result, the weight of only the cylinder positioned on the upper part of the measurement scale 10 is measured as shown in FIG. 2.

After the weight is measured, the table moving means 50 is operated so that the table 20 is moved upward so that the lower portion of the cylinder support body 30 that has been placed on the measuring scale 10 is caught by the upper part of the table 20. In this state, when the table 20 continues to move upward, the table 20 moves upward with the table 20 like the other cylinder support body 30.

Of course, the cylinder placed on the cylinder support 30 also moves together.

After moving in this way, the table is rotated by the table rotating means 40 and the weight of the other cylinder can be measured by performing the above process again.

1 and 2, the ball screw shaft 51 is rotated by the reducer 52, and the table 20 is moved up and down accordingly, and the table up and down moving means 50 is rotated as a whole. .

However, even if the ball screw shaft 51 is rotated by the reducer 52, the rotation of the table 20 does not occur. This means that the table rotating means 50 moves up and down as a whole, but does not move left and right. Because.

Of course, when the table rotating means 50 is operated to move the table up and down the table as a whole.

Table rotating means 50 of this structure may be implemented in a manner using a gear or in a manner using friction.

In the present invention, it is necessary to quickly and easily position the cylinder 1 for standard gas production in the center of the cylinder support body 30.

In addition, it is necessary to prevent the located cylinder from moving left and right when the table 20 rotates.

To this end, a lower portion of the cylinder 1 for manufacturing a standard gas is inserted into the upper portion of the cylinder support body 30, and a cylinder insertion groove 31 may be formed to restrict the inserted cylinder from moving left and right.

The cylinder insertion groove 31 of the above type may be implemented in various forms.

As shown in FIG. 3, the diameter of the cylinder insertion groove 31 is slightly larger than the diameter of the cylinder 1 for manufacturing a standard gas, so that the cylinder insertion groove 31 may be inserted to a degree of loose fit.

Of course, the tolerance value generated between the diameter of the cylinder insertion groove 3! And the diameter of the cylinder 1 for manufacturing a standard gas depends on the ratio of the depth to the entire length of the cylinder 1 and the diameter of the cylinder 1. Although it may vary, it is usually about 1 mm to 2 mm to obtain the effect.

As another embodiment of the cylinder insertion groove 31, rubber 31a and the like having elasticity inside are interposed therebetween, so that the cylinder 1 can be easily inserted, and the inserted cylinder 1 is rubber 31a. There is a form in which the movement is limited by being pressed by the back.

Of course, in addition to the method using a flexible material such as rubber (31a) as described above, there is a variety of structures for supporting the inserted cylinder while making it easy to insert the cylinder for standard gas production.

Since this structure is already widely used in various industrial fields, more detailed description will be omitted.

The present invention can be used to measure the weight of a cylinder for producing a standard gas to produce a standard gas by gravimetry.

1 is a schematic view showing a state before measuring the weight as showing the weight measuring apparatus of the present invention.

Figure 2 is a schematic diagram showing a state in which the weight is measured as showing the weight measuring apparatus of the present invention.

Figure 3 is a schematic diagram showing a state in which the cylinder is inserted into the cylinder insertion groove of the cylinder support body which is a component of the present invention in a loose fit.

Figure 4 is a schematic diagram showing a structure for supporting the cylinder inserted by the insertion of the rubber in the cylinder insertion groove of the cylinder support which is a component of the present invention.

<Explanation of symbols for main parts of drawing>

1. Cylinder 10. Measuring scale

20. Table 21. Sliding hole

30. Cylinder support 31. Cylinder insert groove

31a. Rubber 40. Table rotating means

50. Table moving means 51. Ball screw shaft

52. Reducer 53. Guide

60. Chamber

Claims (4)

In the apparatus for measuring the weight of the cylinder for producing standard gas (1), A table 20 capable of moving up and down, being rotatable, and having a plurality of sliding holes 21 perforated radially with the rotation center as the center point; Is inserted into the sliding hole 21 of the table 20, the upper and lower sliding is possible in the state inserted into the sliding hole 21, a plurality of cylinder support body 30, the cylinder (1) for manufacturing the standard gas is placed Wow; When the table 20 is rotated, the measuring scale 10 is installed on a path through which the plurality of cylinder support bodies 30 are rotated to measure the weight of the standard gas manufacturing cylinder 1 placed in the cylinder support body 30. )and; Table rotating means (40) for selectively rotating the table (20); By selectively moving the table 20 up and down to lower the table 20 in a state in which the cylinder support body 30 is positioned above the measurement scale, the cylinder support body positioned above the measurement scale 10 ( 30 and the cylinder for producing standard gas 1 are mounted on the measuring scale 10, and the remaining cylinder support body 30 and the cylinder for producing standard gas 1 are lowered together with the table 20. 50); Apparatus for measuring the weight of the plurality of standard gas production cylinder comprising a. The method of claim 1, The table (20), the cylinder support body (30), the measuring scale (10) is a device for measuring the weight of the plurality of standard gas production cylinders, characterized in that installed in the chamber having an opening and closing door to enable selective sealing. The method according to claim 1 or 2, The upper portion of the cylinder support body 30 is inserted into the lower portion of the standard gas production cylinder (1), characterized in that the cylinder insertion groove 31 for restricting the inserted cylinder (1) from moving left and right is formed Apparatus for measuring the weight of a plurality of standard gas production cylinder. The method according to claim 1 or 2, The table rotating means 40 rotates the table 20 by the power, and a plurality of standard gases characterized in that the cylinder support body 30 to stop the rotation at the position placed on top of the measurement scale 10 Device for measuring the weight of a manufacturing cylinder.

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