RU199720U1 - LIQUID SAMPLER - Google Patents

Abstract

The utility model relates to devices for sampling oil from oil-filled equipment for the analysis of insulation aging products dissolved in transformer oil. EFFECT: increased representativeness and shelf life of the sample due to the quality of its sealing in the sampler during storage and transportation to the place of analysis. The device contains a sampling vessel made in the form of a hollow cylindrical body in the form of a glass 1, the open end of which is equipped with a flange 2, and the closed end with a tip 3 with a through channel, a three-position valve 4, one of the nozzles 5, 6, 7 of which is communicated with the body cavity, the piston 9, made with the ability to move inside along the body cavity, and the sealing ring 10 put on the piston, pressed by the detachable connection to the body flange 2, the open end of the glass is equipped with a bayonet including part 11 with slots 12 and two recesses 13 each, covering the open end of the glass and the piece 14 of the bayonet that abuts against its flange 2 and encloses the piston with projections 15, which are connected by axial movement and rotation of one of them relative to the other. The sampler is equipped with a spring 16 secured on an O-ring 10 and a bayonet piece 14. The edge of the sealing ring 10, abutting against the flange of the glass, is made rounded to prevent jamming of the sealing ring 10 and blocking of the piston when the bayonet is disconnected and in the position of less compression of the spring 16. The sampler is equipped with a dosing device containing a body with a detachable connection unit with the sampler glass 1, a piston drive 9 sampler with a stepper motor, a detachable connection unit of the engine with a piston 9, an electronic circuit for controlling the motor, buttons for setting the volume of liquid and the current action (filling or emptying), a display showing the set volume of liquid, an autonomous electric power supply element. 2 wp f-ly, 3 dwg

Description

The utility model relates to devices for sampling liquids and can be used, in particular, for taking oil samples from high-voltage oil-filled equipment intended for physical and chemical analysis, including chromatographic analysis of insulation aging products dissolved in transformer oil.

Known liquid sampler containing a hollow body in the form of a glass, the open end of which is equipped with a flange, and closed with a tip with a through channel, a three-position valve, one of the nozzles of which through the tip communicates with the body cavity, a piston made with the ability to move along the body cavity, and a sealing ring put on the piston, pressed by a detachable connection to the piston surface [Daryan LA Samplers "ELCHROM" for chromatographic analysis of gases dissolved in transformer oil // Collection "Methods and tools for assessing the state of power equipment. Issue 11 ". St. Petersburg: PEIPK, 2000, p. 234-237. Daryan L.A., Korobeynikov S.M. Analysis of the quality of the sampling device used for chromatographic analysis of gases dissolved in insulating liquids // Collection “Methods and tools for assessing the state of power equipment. Issue 30 ", ed. Tadjibaeva A.I. - SPb .: PIPEK, 2006, p.69-82].

As a prototype of the proposed technical solution, the design of the liquid sampler according to the utility model patent RU 48065 was adopted.

The disadvantage of these samplers is that the screwed-in sealing unit stops the piston and when cooling a liquid sample, for example, transformer oil, due to thermal compression, atmospheric air is drawn into the cavity of the sampler through a three-position valve installed on the tip with a through channel. Also, in these samplers, the possibility of contact of a sample of liquid, for example, transformer oil, with atmospheric air during storage and transportation of the sample to the place of its analysis due to leakage due to insufficient screwing of the sealing assembly or its loosening from vibrations during transportation is not excluded. Contact with atmospheric air of a transformer oil sample distorts the analysis results in terms of the concentration of aging products in the insulation of high-voltage equipment.

The technical problem solved by the utility model is to increase the representativeness and shelf life of the sample by improving the quality of its sealing in the sampler during storage and transportation to the place of analysis.

The essence of the technical solution to the problem lies in the fact that a liquid sampler containing a hollow body in the form of a glass with a flange at the open end of the glass, the other end of which is made monolithic with a tip with a through channel, a three-position valve, one of the nozzles of which is connected through the tip with the body cavity, a piston made with the ability to move inside along the cavity of the glass body, and a sealing ring put on the piston, pressed by a detachable connection to the body flange, according to the utility model, the open end of the glass is equipped with a bayonet, including a part with slots, covering the open end of the glass and abutting against its flange, and a part covering the piston with projections (the number of projections is equal to the number of slots), which are connected by axial movement and rotation of one of them relative to the other.

In embodiments of the device:

- the sampler is equipped with a (conventional) spring fixed to the O-ring by pressing it onto the O-ring with one side and onto parts with projections (bayonet) with the other side or a Belleville spring fixed to the O-ring by snapping into the slot;

- the bayonet part with slots covering the open end of the glass is made with two recesses each, providing connection of the bayonet parts in two positions with different degrees of spring compression;

- the edge of the sealing ring, abutting against the flange of the glass, is made rounded;

- the sampler is equipped with a dosing device when emptying or filling the sampler with regulation and indication of the volume of liquid;

- a dosing device (not shown in the drawing) contains a housing with a detachable connection unit with a sampler cup, a sampler piston drive with a stepper motor, a detachable engine-piston connection unit, an electronic engine control circuit, buttons for setting the liquid volume and current action, a display showing the set volume of liquid, an element of autonomous electric power supply.

The technical solution is illustrated by drawings, which shows:

in fig. 1 - complete sampler (schematically in section);

in fig. 2 - an O-ring (in section);

in fig. 3 - bayonet part covering the open end of the glass with slots and two recesses each and the bayonet part with projections covering the piston (schematically).

The drawings indicate:

1 - hollow cylindrical body of the sampler, made in the form of a glass; 2 - flange at the open end of the body 1; 3 - tip with a through channel at the other end of the body 1; 4 - three-position valve with nozzles 5, 6 and 7; 8 - an adapter with which the branch pipe 5 communicates through the tip 3 with the cavity of the housing 1; 9 - cylindrical piston; 10 - a sealing ring, for example, made of fluoroplastic (Fig. 2); 11 - detail of the bayonet with slots 12 (Fig. 3) and two recesses 13 each (Fig. 3), covering the open end of the glass; 14 - detail of the bayonet with projections 15, covering the piston; 16 - spring.

The liquid sampler contains (Fig. 1) a sampling vessel made in the form of a hollow cylindrical body in the form of a glass 1, the open end of which is equipped with a flange 2, and the closed end with a tip 3 with a through channel, a three-position valve 4, one of the nozzles 5, 6, 7 which through the tip 3 communicates with the body cavity, the piston 9, made with the ability to move inside along the body cavity, and the sealing ring 10 put on the piston (Fig. 2), pressed by the detachable connection to the body flange 2, the open end of the glass is equipped with a bayonet (quickly performed connection of parts by axial movement and rotation of one of them relative to the other), including part 11 with slots 12 and two recesses 13 each, covering the open end of the glass and abutting against its flange 2, and part 14 of the bayonet covering the piston with projections 15, which are connected by axial movement and rotation of one of them relative to the other. The sampler is equipped with a spring 16 fixed on the O-ring 10 and the bayonet part 14. The execution of the detail 11 of the bayonet with slots 12 and two recesses 13 each (Fig. 3), ensures the connection of the bayonet parts in two positions with different degrees of compression of the spring 16. The edge of the sealing ring 10 (Fig. 2), abutting against the flange of the glass, is made rounded with a small radius (0.1-0.5 mm) to prevent jamming of the O-ring 10 and blocking the piston when the bayonet is disconnected and in the position of less compression of the spring 16.

The supply of the sampler with a dosing device (not shown in the figure), containing a housing with a detachable connection unit with a sampler cup 1, a piston 9 drive for a sampler with a stepper motor, a detachable connection unit for an engine with a piston 9, an electronic engine control circuit, buttons for setting the liquid volume and current action (filling or emptying), a display with a display of the set volume of liquid, an autonomous electric power element, allows, when emptying or filling the sampler, automatically adjust and indicate the volume of liquid and the speed of emptying or filling the sampler.

The sampler works as follows.

In the initial position, the piston 9 is fully inserted into the cavity of the housing 1, the three-position valve 4 in a position that overlaps the branch pipe 5 is inserted into the adapter 8, the branch pipes 6 and 7 of the three-position valve are closed with protective caps (not shown in the drawing), part 11 of the bayonet is put on the glass and abuts against its flange 2, the O-ring 10, the spring 16 and the bayonet part 14 are put on the piston 9, the bayonet part 14 is connected to the bayonet part 11 in the position of less compression of the spring 16 and presses the ring 10 to the piston 9 and the body 1. They are connected, for example , oil-resistant tube pipe 7 with the sampling unit of the oil-filled equipment and open the sampling valve of the equipment. Set the valve 4 to the second position - the side pipe 6 is blocked and, pushing the piston 9 out of the cavity of the housing 1, a volume of insulating liquid sample is taken into it, equal to the nominal volume of the sampler, for example, 20 milliliters. The valve is moved to the third position, blocking the branch pipe 7, and the entire volume of the collected insulating liquid is released by pushing the piston 9 into the cavity of the housing 1 in order to flush the sampler. Repeat the flushing operation three times, after which the required volume of insulating liquid sample is taken into the sampler (it is recommended to collect the sample up to half of the entire volume of the beaker to minimize leakage, i.e. the concentration of dissolved aging products of equipment insulation in such a volume will be lost for the maximum time). Next, tap 4 is set to the first position - nozzle 5 is closed, the sampling valve of the equipment is closed, the oil-resistant tube is disconnected from the sampler, protective caps are installed on nozzles 6 and 7, and then part 14 of the bayonet is rotated, holding the sampler by part 11 of the bayonet, so that protrusions 15 reached the recesses 13 of the bayonet part 11, corresponding to the greater compression of the spring, and snap into place. When this ring 10 is pressed into the space between the piston 9 and the flange 2 of the housing 1, and the spring 16 is compressed. In this state, the sample is stored in the sampler and / or transported to the place of analysis. This ensures tightness and temperature compensation for changes in the sample volume.

To remove the sample from the sampler, rotate the bayonet piece 14, holding the sampler by the bayonet piece 11, so that the projections 15 reach the recesses 13 of the bayonet piece 11, corresponding to a lower compression of the spring, and snap into place. In this case, the spring 16 is expanded. After that, the valve 4 is set to the second or third position (the branch pipe 5 and one of the branch pipes 6 or 7 are open) and the piston 9 is again introduced into the cavity of the housing 1, emptying the sampler. The sampler is ready for the next sample.

Thus, the introduction of the bayonet makes it possible to improve the quality of sealing the liquid sample in the sampler during storage and transportation to the place of analysis. The presence of a spring in combination with the execution of a bayonet part with two recesses ensures the connection of the bayonet parts in two positions with different degrees of spring compression, while reaching fixed positions that uniquely determine (in contrast to the threaded connection in the prototype) the degree of compression of the sealing ring (bayonet with two positions : fixation in the positions "movement and temperature compensation of liquid expansion inside the sampler" and "only temperature compensation of liquid expansion inside the sampler").

Claims (3)

1. Liquid sampler containing a hollow body in the form of a glass with a flange on the open end of the glass, the other end of which is made monolithic with a tip with a through channel, a three-position valve, one of the nozzles of which communicates with the body cavity through the tip, a piston made with the possibility of moving inside along the cavity of the body of the glass, and a sealing ring put on the piston, pressed by a detachable connection to the flange of the body and the piston, characterized in that the sampler is equipped with a spring attached to the sealing ring, the open end of the glass is equipped with a bayonet including a part with two slots and two notches each, a part covering the open end of the glass and abutting against the flange, and a part covering the piston with two protrusions, which are connected by axial movement and rotation of one of them relative to the other, providing connection of the parts of the bayonet in two positions with different degrees of spring compression. 2. A liquid sampler according to claim 1, characterized in that the spring is made of a disc-shaped spring. 3. Liquid sampler under item 1, characterized in that the edge of the sealing ring, abutting against the flange of the glass, is rounded.

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