CS224569B1 - Apparatus for determining an amount of substance in vacuum - Google Patents

Description

The present invention relates to a device for determining the amount of a substance present in a vacuum.

In order to address some of the research problems, it is necessary to weigh substances prepared or permanently stored in a vacuum system or to determine quantitative changes in their weight during reaction monitoring. The devices for such monitoring are dealt with in Antal. 159 /, whose apparatus - vacuum railivars with magnetic balancing from outside the vacuum apparatus are floods. Said apparatus with changes leading to increased sensitivity of the balance, to the extension of the weighing range, to the simplification of operation, the reduction of the dimensions and the weight of the apparatus and to the change of the overall appearance are disclosed in the description of the invention. It is a device for determining the amount of vacuum substance contained in a glass container with openings, consisting of an inverted rocker arm mounted in a single-disk permanent-magnet counterbalance and having a zero-position indicating device, placed in a glass package with openings there is a post with a zero line and two symmetrically placed pins, a stand with horizontally clamped, black tungsten fiber with a diameter of 0.03 mm at the level of the zero line on the post, three support rings with three sealing pins , A device for checking proper placement in a glass container, consisting of a plumb line with a tip adjustable against a black tip on a white background in a window. There is a massive frame mounted on the base plate, firmly connected to the base plate, in which two ruby breasts are placed, 2 224 569 thinly, right and left, in which a rocker is placed on two hardened britoohs. connected to two opposite arms of unequal length in the central body provided with an axle. On the shorter arm, which is made up of a rod with a fine-threaded cut, there is a movable butterfly-shaped balancing magnetic propeller with an indicator tip and a circular plate with a high-polished surface and a circumferential scale divided by an external U-magnet. 5 ° · The long arm ending in a bow, whose bow is a red copper wire with a diameter of 0.03 mm, has a millivah bowl hung on the hinge handle. The control plane mirror is built into the stand behind the tungsten and copper wire.

The device is shown in FIG. 2 and FIG. is a cross-sectional view of the device at the massive frame location. FIG. shows a device on which the base plate 1, stored in a glass container 39 to the plate 2 £ ^»8 through hole 38, 14 is positioned post contacting with the zero line and two symmetrically disposed pins 21 15th» stand 13 is horizontally clamped in solid, black tungsten wire 28 at the level of the zero line on the column 14. three support rings 17, 20, 30. provided with three sealing pins 18, 31. 32. At the circumference of each ring, a device for checking the correct placement of the balance in the glass container 22 »P °“ consisting of plumb 33 with a tip 11, adjustable against a black, fixed tip 42 on a white background 34 in a window 21. A solid frame 2 is further mounted on the base plate 1, in which two ruby rings 2 »22 are mounted and in which two hardened britt 23. 24, there is a weighing bar consisting of a vertical bar 6 and a weight 2 'thereon connected to two opposite arms of unequal length 6, 2 in the central body 2, opatrenom OSKO 36. The shorter arm 2 »3® ^u" loaded counterbalance the magnetic rotor 10, with the indicator tip 26th rotatably slidable along fine thread h on arm 2 by means of externally positioned permanent magnet U-22 ^»A circular plate 11. vysokolešteným the surface and the perimeter scale, de3

224 569 in 5 ° increments · On the longer arm £, ending in bow 27, with a chord of red copper wire ^ (0Cu '°, 03 mm), is in the handle

A fixed plane mirror 16 is mounted in a stand 13 behind two color-wires: a red border and a black wolf frame.

(0 ^ βΟ, Ο3 mm) · Fig.2. shows a cross-sectional view of the device at the location of the frame 2, which is fixedly connected to the base plate 1, in which two ruby rings 2 »22« are placed opposite one another ^and in which the millivah rocker shown in FIG. . in the central body 2 »provided with an axle 36.

The displacement of the balancing magnetic tail 10, along the shorter arm 11, of the rocker arm 25 is caused by the use of a swiveling permanent U-magnet 22 which can be attached to the movable arm of the adjustable stand-positioner. After stabilizing the rocker arm, at a certain slight deviation from the zero line, on the column 14, by rotating the arm of the positioner, approach the U-magnet to the glass plate 43 of the container / rocker arm in the direction of the rocker arm axis 25 and slowly rotate a small angle. The magnetic propeller 10 now present in the force field of the permanent magnet 35 monitors its movement. At the same time, however, the entire balancer weight of the magnetized balancing propeller 10 is attracted to the Umagnet, whereby its oscillating movement is significantly dampened. After rotating the magnetic tail 10, by a small angle, the permanent U-magnet 35 spaced backwards from the glass thatch £ 2 ^{118 118 by a} distance of about 0.5 m, thereby completely eliminating its influence on the rocker arm 25, which after a short time settles on a new deflection, closer to the zero position. The entire balancing process is repeated until it is observed in the mirror 16, the complete covering of the wires 12 and 28 defines the zero position of the balance. Balancing takes 180 to 240 seconds.

The zero position of the empty and retracted millivahs is considered to be the millivah position, in such a position of the balancing magneti-hockey tail 10, on the shorter arm 2, in which the red copper wire 12, , on stand 13.

- 4,224,569

In the concealment position, the wires 12 and 28 merge into one Black line, the image of which is seen in the mirror 16 »

During weighing, it is sufficient to read the angular deflection of the magnetic propeller 10, by means of its indicator tip 26, on the thatch scale 11, which characterizes the zero position of the empty and the zero position of the ballast weights. The difference of the angular displacements is the searched angle of rotation ck θ, by substituting into the equation (3), given in the weighing example, the size of the overweight.

Example

The weighing substance consists in the gradual adjustment of the zero position of the first empty, then retracted millivails. On the basis of the zero millivails zero position defined above, the size of the weight Δ G, determined by the position of the balancing magnetic tail 10. The weight Δ G is determined by:

£ G M. M. Δρ / L 16 Ap Ap £ £ lj where: M-1200 mg- weight of balancing magnetic propeller L = 75 mm- distance of the clamp £ 0, hinge 41 of the bowl milivah 8, (Fig. 1 ·), blades 23, 24 of the rocker arm 25: ΔΡ the displacement of the magnetic tail 10, along the shorter arm £, in mm.

The displacement of the magnetic balancer 10 -Δρ, caused by its rotation on the shorter arm j?, With a gentle thread pitch h, is given by:

Ap * h.0 ( _G / 360 -d _G / 1440 fmmj [2] where: h 0.25 mm / thread} ^ _G * 3 ^{e the} angle of rotation of the balancing tail 10, and corresponds to the transition of the tail 10 from zero empty to At the same time, 0f _{G can} be more than 360 ° · Reading of the angle 0µ _G is possible with an accuracy of -0.5 °, (± 7.10 ^).

224 569

Combining formulas £ 1] and [2], the size of the weighing device 4G is determined:

CG - <6 _q / 90 A 1,111.10 ² Λ M [?]

The weighing range of the vacuum magnetic-mechanical millivah, determined by the validity of the formula [3j], is (0.2-120) mg.

The ratio _G / G-90 is the characteristic constant of the instrument and does not change over the entire weighing range. From the direct-weighting angle dq values shown in the Table, it can be seen that the deviation from the calculated value for a given Z1G is within the weighing accuracy (0.56%) so that the relationship vztah 3j can be directly used in weighing.

Table

Mg G mg G ° measured calculated

0.2 17 16 1 90.5 90 5 450 450 10 900 900 50 4500 4500 120 10800 10800

Vacuum mills have been used successfully in generating stable free radicals using an accurate amount of sodium mirror, determining the condensation rate of lithium vapor in vacuum, in determining the absorption of bidisin herbicide in montmorillonite, and others. , where any influence of permanent electromagnetic fields is excluded. 6 224 569 balancing and damping are handled in an unusual way, namely by a gas-shiftable weight in the form of a rotating propeller, operated from outside by a permanent magnet ·

When working, it is necessary to protect the sensitive mechanism of vacuum grease against shocks, sudden temperature changes and against vapors of aggressive substances ·

Claims (1)

Apparatus for determining the quantity of a substance contained in a vacuum, contained in a glass container with an opening, consisting of a non-unequal rocker rocker mounted in a single-drive version with external U-magnet balancing and a zero-position indicating device, placed in a glass container (39) with a plate (43) with an opening (38), there is a post (14) with a zero line and two symmetrically placed pins (15; 37), a stand (13) with horizontally clamped, black tungsten diameter 0.03 mm at the zero line level on the post (14), three support rings (17, 20, 30) provided with three sealing pins (18, 31, 32) along the perimeter of each support ring (17, 20, 30), the device to check the correct placement of the grip in a glass container (39) consisting of a plumb line (33) with a spike (19) set against a fixed black spike (42) on a white background (34) in a snap (21) and a solid frame (2) connected to a base plate (1), in which two rabbinic rings, right and left (3, 22) are mounted, and in which a rocker (25) formed by a vertical rod (25) is located on the yoke of hardened bars (23, 24) 6) and on it displaceable by a thread (9) connected to the yard opposite arms (4,5) of different length, in a central body (7) provided with an axle (36), and on a short arm (5) formed by a rod with fine thread cut, is placed by external permanent magnet (35), after thread (h) body balancing magnetic propeller (10) with butterfly tip (26) and a circular plate (11) with a circumferential scale divided by 5 °; on a longer arm (4), ending in a bow (27) having a chord of red copper wire / 0.03 mm in diameter, with a fixed plane mirror (13) in the background of the tungsten (28) and copper (12) 16) f in hanger (40) on hinge (41) / mounted bowl% iliváh ·