CS236958B1 - Multi-way slide for dispensing gaseous samples into a chromatograph - Google Patents

Abstract

The invention relates to a multi-way slide for dosing gas samples into a chromatograph, the essence of which is that it requires a control knob with a stream designation, which is firmly connected to a spindle, carrying the slide by pressing it against the channel cylinder with at least one fixed pad, switching between n times eight channels, where n is 1 to 200, The device consists of a channel cylinder, to which working streams are connected from its outer side, as well as auxiliary streams, flowing to the upper base of the channel cylinder, in an arrangement of three concentric circles, with 2 times n channels located on the inner and middle circles and 4 times n channels on the outer circle, with 2 times n wells for balls in the lower base of the channel cylinder for fixing each slide position and The device consists of a step slide with two holes with a ball and spring. The slide is pressed against the channel cylinder by at least one feather pad. The device is used in gas chromatography to create slide gates

Description

1,236,958

More particularly, the present invention relates to multi-way sliders that allow the flow of one stream into one input mill chromatograph, while the construction of the slide does not allow the flow rate to be increased by increasing the channel seal in the slide body itself, but requires sl parallel wiring of the tell-tales * Designed with a pressure of 100 kPa de 4 MPa * ørineíp lightly fun-kcle is that the six channels are connected in the sleeve, the displaced evenly moves the circle on the slider body to the flat body with the * Ha exterior there are also three channels associated with the channel ml on the contact surface of the slider, three grooves disposed in the form of circular lines, such that they lie on a circle whose center size is identical and the circle on which the six channels mentioned are projected * Gas sample coming behind one channel and into the center of one groove in the backdrop goes into the second channel and into the capillary sampler. After passing the capillary pattern through the bar, it enters the third channel and through the types, the groove in the die into the fourth channel through which it moves out of the slider. The carrier gas enters the fifth channel and sets through the third groove into the sixth channel and from there into the chromatograph. It was sampled in this so-called tall dog! generates a fit suitable for analysis in a chromatograph, it is the position of the first groove on the backdrop connecting the first and the second channel, the second groove the third and the fourth channel, and the third groove the salaries and siests *

Upon switching to the so-called working position, the first groove is switched to the first groove with the fourth channel, the second groove is rubbed with the fifth and the third groove of the siesta with the other, thereby achieving a media change in the fourth and sixth channels and a non-buoyant gas overprinting the eradicated capillary artery and the respective channels of the chromathograph (while maintaining the indexing shown above, the perimeter of the channel is in a circle 1, 4, 3, 5, 6, 2).

The eight-way shifter has deployed channels on the exterior side, through which the ace of channels extends to the joining pleoheteles of the slider with the backdrop. · There are four grooves on the backdrop, two on each circle, which connect two and two opposite channels on the same circle. On the outside, two capillary struts are attached. The gas gap flows through the first channel and the first groove of the second channel and enters the first capillary matrix, from which the sixth channel and the third groove reaches the sixth channel. de space mime dog. The non-rigid gas comes through the eighth channel through the quarters of the seventh channel groove, from which the second capillary sampler proceeds, and into the fourth channel and the second channel the groove in the third channel splice and the Qtoxeweti & gratavL. -the second capillary sample sample and the first dose is de chromategraph.

Especially the disadvantage of such an arrangement is the need to install a slide valve, the flow to be dispensed, the column is to be dispensed with one and the same column by the addition of column-type chromathographs. The three-channel six-channel slider and the four-way slider have four grooves of the same shape on the ace of the channel. disadvantageous because the wings are made of soft material and any dirt can damage the backing by creating a circular shape groove, thus transferring the floods through the groove to a new channel that damages the flood function ·

The aforementioned drawbacks are solved by the multistage shifter for overdosing gaseous samples into a chromatograph according to the invention, which consists of a control knob with a current flow that is rigidly connected to the spindle entraining the press by pressing it against the channel cylinder with at least one fixed component switching n times. the eight channels, where n is 1 to 200, further comprise a channel cylinder, to which the working currents are connected, as well as the auxiliary currents, leading to the upper base channel cylinder, in three concentric circles, the inner the annular circle is located 2-fold channels and the outer circle of 4-n-channels, wherein the lower base-channel cylinder is 2-times n wells for the ball to fix each slider position and further consists of a stepper with double holes with ball and spring. In this case, the advantage of the device is a new arrangement of the channels on the upper channel of the channel cylinder, allowing on this principle to produce sliders with a different number of analyzed streams and to connect the channels on the backdrop to significantly reduce the influence of mechanical impurities. and partially damaging the rotating link, such as channel connection, and the possibility of dispensing in one rotation of the feeder into two locations in the same chromatograph from one input stream, and in the conical arrangement of the working surface between the link and the channel roll, the possibility of working at the center and higher pressures / up to 100 MPa / · The multi-pass underlay device allows the dispensing of gaseous samples from a larger number of sampling channels, at least one and a maximum of at least fifty. A further advantage is that the multi-way slide due to its construction has no dead position and is advantageous to use in the case of single stream analysis, since each undercut results in a sample of 4 236 958 d < 3 > preferably once in one column and once in the other. In this case, a slider with thirteen channels is sufficient. When the slider is operated, switching from one channel to the other is always the same in terms of direction of movement, and the reverse operation is possible, respectively, after the latch has been retracted. individual paths guarantee that you cannot go directly to two streams at once and simultaneously.

The device is shown in Fig. 1, wherein in the left part of the figure a diagram of the channels in the channel cylinder is shown and in the right part of the figure 1 the current scheme is shown, showing the current in which the capillary sampler is formed. single concentration and current entering the analyzer ·

Figure 2 shows a multi-way slider. in an axometric view with a cut-out on the left side and on the right side in a cut ·

Figure 1 shows the inner circle a and the center circle b, on which there are two patches of channels, and on the outer circle c there are four times the channels. • The working and auxiliary currents are located on the outer side of the duct cylinder into four overheads. circles d, e, f and g. The sample flows through the flow of the surface circle 6 to the channel on the inner circle and, through the groove in the backdrop, reaches the channel on the well circle b to the channel on the surface circle f0 and flows into the capillary pattern and then into the opposite channel on the surface circle f and through the channel cylinder to the central circle b and the groove in the slope inner circle aa through the channel cylinder to the channel on the top circle g and flow into the atmosphere. Such a path has the following three streams. The fifth stream k allows the carrier web to enter through a channel on the surface circle 6 and through the channel cylinder of the cannula on the outer circle o, through the groove in the backdrop to the channel on the center circle b and through the channels and the capillary sampler on the surface circle f. to the channel on the central circle b and the groove in the backdrop to the channel in the surface circle da to the chromatograph. «5 - 236 958

FIG. 2 shows a multi-way slider in axonometric view with a cut-out and a cut, wherein the control knob with the current marking 7 is rigidly connected to the spindle 2 entraining the skirt pressed against the channel roll 5, with one fixed washer 8 switching between them times eight channels 4 to which the currents as well as auxiliary currents are connected from the outside thereof, leading to the upper base channel channel 6a in the lower base channel cylinder 12 is twice the wells for the ball 7j to fix each slide position The slider includes a step 9 with two holes 10 and 11 with ball 7, and a spring 13 ».

The device operates in such a way that, for example, a multi-way transmitter enters, for example, a step-by-step workflow (5) that enters a certain sequence? into one-wheel preferably two-column chromatograph These streams pass through 5 sleeves located on the lower surface circle of the channel roll-and-channel pass through the channel roll and exit into the top of the channel roll on the inner circle, with 4 of these streams passing through the grooves of the link channel cylinder, into 4 channels, located on the center circle. Upon passage through the channel rollers, they enter into the sleeves placed above the surface circle of the channel roll. There are 10 sleeves on this circle, on which 5 capillary samplers are fastened, so that the ends of each sampler are connected by two opposing sleeves placed on In the above-mentioned 4 streams, the 4 streams form a concentration corresponding to the concentration in the stream to be analyzed. After each of the 4 passes through the flow sampler, they pass through the above-mentioned nipples into the drum, pass through it, and exit into the center circle of the top. of the channel cylinder. The third input current flowing on said circle corresponds to a 5 + 3 th output current »Corresponding branches of the current are opposed to the axis of the channel cylinder» The 4 output working currents are connected to the 4 channels 236 9S8-6 by means of a linker on the inner circle of the channel cylinder and after passing through these ducts and through 4 sockets located on the lower surface circle of the duct roller, they either leave the atmosphere or further physically or chemically. One of the 10 streams passing through the sockets, located at the bottom surface circle of the mantle, is free of flow This working stream is the working current that is analyzed and closed on the inner circle of the channel beam by the backflow * Concentration corresponding to the current is determined by limiting the part of the gas by the sample volume and the respective sleeves and channels of the duct roller, a bare gas introduced into the chromatograph. This is made possible by the carrier gas entering the single surface on the third surface circle of the channel cylinder after separation in a channel located on said circle into 10 channels extending through the channel cylinder and extending into 10 openings on the outer circle of the upper channel of the channel the cylinder, 5 channels are closed by the back and one channel is connected by a groove in the backplate, the content of which is just for analysis. The carrier gas presses the sample through the sampler to abandon the channel cylinder and through a groove in the slider through the channel cylinder into a sleeve disposed on the fourth surface circle of the channel of the channel tube which is directly connected to the chromatograph. As the unsymmetrical one goes, the sample to be analyzed passes through 360 ° to the ohromatograph during the reversal of the drawer. If it is necessary to analyze a large number of streams while the number of analyzes of the individual streams per unit of time, it can be done by simply switching the input on the slider. If we are to analyze n currents, then they are dosed to the chromatograph in order of 1, 2, 3, ..., n or opposite n, n-1, n-2, ···, 2, 1. V if it is not necessary to substitute all currents, it is possible to cyclically alternate where k is at least 1 smaller than n currents in the order i, i + 1, ·· *, i, + k — 1, i + k — 2 , * ··, i, i + 1, «·· i + k — 1 *

Claims (1)

INVENTION 236 958 A multi-way slider for dispensing gaseous samples in a chromatograph, characterized in that it consists of a control knob (1) with a current designation which is firmly connected to the spindle (2) carrying the gate (3) pressed against the channel cylinder (5). 8), switching between one to n times eight channels (4)> where n is one to two hundred and further consists of a channel cylinder (5) to which working currents are connected from the outside of the outer side as well as auxiliary streams leading to the upper the base channel cylinder (6) is saved in three concentric circles, wherein on the inner circle (a) and the central circle (b) are located two times n canals and on the outer circle (c) four times n channels, in the lower base channel cylinder (12) there are twice n balls for the ball (7) to fix each slider position, and further consists of a stepper (9) with two holes (10 and 11) with ball (7) and spring (13).