SU1075107A1 - Sampler - Google Patents

Abstract

1. A SAMPLE for analyzing microorganisms, containing an absorptive tank, a sump for a sorbing liquid with a sample, a device for sampling the phase from a sump and a waste liquid collector, characterized in that, in order to reduce labor costs and analysis time while increasing its accuracy, the sampler is equipped with autonomous capacitors for the phases of the sorbing fluid, volumetric dosing devices, connecting tubes and a drive with a cam camshaft and a command device, a device for selecting the lower the phases are equipped with a filtering cell, made in the form of vertically installed upper and lower containers with a replaceable filter located between them, while the lower container is installed movably, connected to the collector, the waste liquid and equipped with a vacuum pump, and the connecting tubes are equipped with cam-operated distribution clamps shaft. 2. The sampler according to claim 1, characterized in that the lower movable tank is provided with (L arm and movable lock and spring loaded. 3. The sampler according to claim 1, characterized in that each clip is made in the form of two legs, one of which fixed, and the other is equipped with a spring-loaded pusher installed with the ability to interact with the cam | camshaft.

Description

Iyubro-snmo otiosmts to Device (1Ystvam for i /.- iooTbi with enzymes and mikroorganiz,: avii, n is a modulation nrobootbornym m, .chrednazpacheinym for controlling the content l1ikroor1anizmov proizvodcineHiihix Improvement in air and the environment, and can be used in microbiological , medical and food industries; as well as in medical institutions. The most versatile devices for the inoculation of microorganisms from the air into the microorganisms with a liquid sorbent medium, which are bacteriologically and virologically acceptable Known analysis of the air sampler, wherein the deposited microorganisms in a liquid medium sorbirukmtsuyu 0 - imninzher 1. The disadvantage of this device is the fact that all but operan.ii G1 |;. yubootboru, isolation makrooshanizmov and their definition) su1iestvlpyuts manually. The most time-consuming operation is the B151 separation of microorganisms from the whole sorbirinuyu her fluid. A known liquid analyzer contains a metering device for mixing (Ugde,: 1n) a sample and reagent booster, equipped with a valve and connected to mixer 21. HC / 1ostat 1 analyzer is equipped with a type of valve. A known sampler for the analysis of microorganisms, including trapping capacity, settling tank with sorbiruyushchii liquid, with g-roba, a device for sampling the lower phase from the settling tank and a collection of used iv -nKocTH. Into the sampler through an im- ineringer with a sorbing liquid, which is available. After sampling the sorbent liquid is equal to 1 g; (Godetón and the Same add, they are different with i-0, limer. The separation of liquid into two phases, upper and lower, takes place in the cleaning chamber.) Organisms are collected in the infestation O i volume of the lower 1-1 phase, which is then taken with a nominal capacity | Nilnost) analyze 3. The disadvantage of the sampler is that all operations are carried out manually, which requires significant work, and it cannot be automated 15, the accuracy of the analysis is low. 11, e.1Ü1 of the inventive: ii is the reduction of cg-udo, 5atra ji of time aiia; iH3a with a simultaneous increase in its accuracy. The goal is achieved by the fact that the operation and operation of the microorganisms, the storage tank, the detergent tank, the sump; 1 l sorbent liquid with the nrob, the bottom phase extraction device, the sump and a collection of waste liquid () C1T1 , a1-; tono capacitance for the phases of the sorbing liquid, volumetric dosing devices, connecting tubes and a drive with a cushioned ramming shaft and command aiHiaparoM, a device for sampling the lower phase is equipped with a filtering cell made in the form of vertically installed and the lower containers with a replaceable filter disposed between them, the 1TG spruce bone is installed in an integral part, connected to the waste liquid collection and equipped with a vacuum pump, and the connecting tubes are equipped with clamps, In addition, it is advisable to provide the lower movable container with a kristchteynom and a movable lock and spring. It is advisable to perform each clip in the form of two lanok, one of which fixed, and a friend enabzhena to the unified spring With a separate cable, it is possible to interact with the cam races of the shaft. On fi1. 1 shows the sampler, a general view; on fng. 2 shows section A-A in FIG. one; in fig. 3 - a section of BB on fni. The sampler contains a storage capacity 1, a settling tank 2, a device 3 for extracting the lower phase from the settling tank 2, placed on a plateau 4 and equipped with connections to the I and m of the fuselage. The absorptive tank 1 is equipped with containers 5 and 6 with a supply of phases of the sorbing fluid, connected with it by means of transmission lines through open-flow dispensers 7 and 8, and feed into a single trunk system with a settling tank 2, a device 3 for sampling the lower phase and receiving tank 9. The device 3 for sampling the lower phase is equipped with an fnltrovalny cell, made in the form of encircled containers 10 and 11, with a suction between the filter 12, but the upper capacitance 0 is connected by a magistral with a sump 2. the bottom 11 is connected by highways with a vacuum 13 and a capacitance capacitor 9. The lower capacitance II is made movable: On the upper capacitance K) and inserted into the fixed frame of the bracket 14, spring loaded 15 and pivotally connected (not shown) to the link 16 of the lever clamp 17 Highway, coupled containers, made in the form of elastic sleeves 18 and enabzheny valves in the form of clamping uetroyetv. Each terminal device contains one or two clamps depending on which routes it interacts with. Each clamp contains two Lankas 19 and 20 (Fig. 3), between which the elastic hose 18 is located. The Lanka 19 is not moving, and the Lanka 20 is not fixedly mounted on a spring-loaded pusher 21 moving along the fixed guide bracket 22 and contacting its end with the camshaft cam 23. The sampling module is controlled by a camshaft 23, equipped with an actuator comprising an engine 24 and a gearbox 25. The camshaft cams have a profile configuration that provides the required duration operations, and fixed at positions, providing .x process cycle sequence. They interact with pushers 21 of clamping devices, using a sump 26 of vacuum pump 27 of vacuum pump 13, end switch 28, including timer 29. Timer 29 provides for switching on and off of blower 30, which sucks the test air through the absorptive capacity, and also stops and turns on the engine 24 drive camshaft 23. The sampler operates as follows. Prepared in advance phase of the two-phase system is poured into the containers 5 and 6; in the tank 5 - the lower phase, in the tank 6 - the upper phase. The engine 24 of the camshaft 23 is turned on, the cam 3i of the camshaft 23 begins to contact the pusher of the clamping devices located between the containers 5 and 6 and the dispensers 7 and 8. The profile of the cam 31 repositions the pusher 21, compressing the spring .32, legs 20 also move and expand the hoses. The phases due to the difference in the levels are fused by gravity to the tank 5 and 6 and the dispensers 7 and 8 are filled. After that, the cam 31 moves away from the pusher 21, and the latter is interchanged by the spring 32, while the legs 20 located on it tighten the hoses. The lines between containers 5 and 6 and dispensers 7 and 8 overlap. Further, the same way. The next cam 33 of the camshaft 23 opens and closes the line between the dispensers 7 and 8 and the absorption tank 1, ensuring its filling. Dispensers 7 and 8 ensure that the absorption capacity of the tank is filled with phases such that the volume of the lower phase can be completely investigated after further sampling, and the total volume of the lower and upper phases ensures efficient sedimentation of microorganisms in the absorption tank 1. Thereafter, the next cam 34 starts v.aim.oditstvovat with a limit switch 28, including timer 29. Timer 29 provides a shutdown of the engine 24 of the camshaft drive 23 and the inclusion of the blower 30 creates an absorber The vacuum tank 1, under the influence of which the test air enters the tank 1 through the nozzle 35. When passing through the absorption tank 1, the air moves the upper and lower phases, irevrap1. and sorbiruyushhuyu liquid in the mixture of the two phases, with the lower phase evenly distributed in it in the form of microscopic drops. The microorganisms trapped in the tank along with the air precipitate into the liquid and, having a specific affinity for the lower phase, pass into it, concentrating in its drops. The duration of the air passing through the impinger is set by timer 29, which turns off 1. 1. 30 and turns on the engine 24 of the distributor of the idler shaft 23, while the cam 36 of the camshaft 23 opens and closes the armature between the tank 1 and the sump 2, ensuring the liquid is drained from tanks in the sump. In the settling tank 2, the phase mixture is settled, and the 1P1 droplets of the phase are deposited on the bottom of the settling tank, forming a small volume containing all the deposited microorganisms. After ITO) the next cam 37 opens the line) between the sump 2 and the reservoir 0 of the device for the selection and filtration of the lower phase 3, n it is filled with the phase. The next ku; 1 ram 38 opens and closes the magistra Ib between the settling tank 2 and the receiving tank 1..o 9. providing a drain from the settling tank to the receiving tank of the upper phase. A pair.; Le. with all specified 1Cs1Mp op1 mp, a cam 39, which interacts with the type 26 of the piston 27 of the vacuum pump 13, moves its CIKIIIM profile to the leftmost position, compressing the spring 40 at the same time. The main line between the bottom 11 of the device for sampling the lower phase and the receiving tank 9 is opened by the cam 41. After c.iiiBa BcpxHcii, the cam 41 closes the line between the receiving tank 9 and the lower e, 1 of the 11 of the device 3 to select the lower phase. Next, the cam profile 39 nachp; -1ust retreat P1toka 26 Vaklu.-pump 3. At the same time the stem with nopnjncpeMenji, acTCH spring 40 to the extreme right, creating a vacuum in the lower tank 11, under the action of which the liquid is sucked through the filter 12 The upper tank 9 is under pressure 11. Mpkorgopizm collected in the lower phase, deposited lia the surface of the filter 12. Therefore, to this; choke 41 opens the line between the receiving tank 9 and the lower tank 11, and phase enters the tank

9. Next, the cam 41 blocks the line between the settling tank 2 and the upper tank 10 of the device 3 for filtering the lower phase, after which the knob 42 of the lock 17 is moved to the extreme right position. At the same time, the shackle 43 is rotated around the axis 44 in the direction of the arrow, which carries the link 16 which is hinged to it, which in turn moves downwards the lower capacitance 11 of the device 3 that is hingedly connected to it to select the lower phase. The spring 15, which presses the lower container 11 against the upper container 10, is compressed and the filter 12 is released. After that, the filter with the obtained sample is removed and analyzed, and a new one is installed in its place, which is fixed by moving the handle 42 of the retainer 17 to the extreme left position.

Next comes the next cycle in the same sequence.

The device provides for the selection and preparation of samples for analysis. The sample is a precipitate on the surface of a filter section with an area of 7-10 mm and may, for example, be completely subjected to microscopic examination with a large magnification. This makes it possible to determine the content of microorganisms in the sample by the number of microcolonies, which reduces the time of analyzing the clock and increases its sensitivity.

S

The technical and economic advantages of the invention consist in that the sampler, in comparison with the known devices, improves working conditions by automating the following processes: filling the absorption tank with a sorbent liquid, switching on, switching off and controlling the operation time of the blower, draining the sorbing fluid from the absorption tank into the sump and from the sump to the filter unit, filtering. This reduces the complexity of microbiological analysis of air by 5-6 times. Filter change and sample transportation (the only operation performed manually) does not require qualified personnel and is performed at the place where the sample is taken without interrupting the operation of the sampler.

The use of the sampler in hospitals, maternity hospitals, at enterprises of the microbiological, pharmaceutical and food industries allows for the provision of high-quality microbiological air monitoring without the involvement of additional personnel.

Determining the content of microorganisms in a sample by the number of microcolonies reduces the analysis time from 24-28 to 4-6 and increases the sensitivity of the analysis 40-60 times.

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Claims (3)

1. Sampler for the analysis of microorganisms, containing an absorption tank, a sump for a sorbing liquid with a sample, a device for selecting a phase from a sump and a waste liquid collector, characterized in that, in order to reduce labor costs and analysis time while increasing its accuracy, the sampler is equipped with autonomous containers for phases of the sorbing liquid, volumetric dispensers, connecting tubes and a drive with cam camshaft and command apparatus, a device for selecting the lower phase with abzheno filter cell formed as a vertically installed upper and lower tanks arranged between them a replaceable filter, wherein the lower container installed movably, connected to the collector, the waste liquid and is provided with a vacuum pump, and the connecting tubes are provided with clamps driven cam camshaft. _ 2. Sampler according to π. 1, characterized in that the lower movable tank is equipped with a bracket and a movable latch and is spring-loaded. 3. Sampler according to π. 1, characterized in that each clamp is made in the form of two legs, one of which is mounted motionless, and the other is equipped with a spring-loaded pusher, mounted with the possibility of interaction with the cam camshaft. SU.,., 1075107