SU1642272A1 - Device for determining dynamic characteristics of thermal converters - Google Patents

Abstract

The invention relates to a measurement technique and makes it possible to improve the accuracy of determining the dynamic characteristics of both thermal converters and means for measuring the electrical conductivity of liquids. The device contains a working chamber in which a working fluid distributor is placed, which is capable of moving relative to fixed fixed measuring means, a switching system consisting of four hydraulic and two pneumatic valves and a pneumatic shut-off valve, a source of compressed gas and four heat-insulated containers equipped with heaters agitators and temperature meters inside the tanks. The switching system is connected by flexible hoses to the working fluid distributor and containers. In this case, the functional units are connected in a cyclically-periodic scheme, in which the working fluid is periodically displaced into empty containers, and the containers, in turn, are switched with the help of a switching system — the places in the circuit are connected. 1 il. C /) with

Description

The invention relates to a measurement technique and can be used for the investigation, certification, calibration and calibration of means for measuring the temperature and electrical conductivity of liquids.

The aim of the invention is to improve the accuracy of determining the dynamic characteristics and enhance the functionality by providing calibration of conductivity measurement means.

The drawing shows a diagram of the proposed device.

The device contains a working chamber 1, in which a working fluid distributor is placed, made in the form of two nozzles 2 and 3 rigidly connected to each other, fixed on axis 4 and connected to an actuator consisting of a cam 5, a handle 6 and a return spring 7, a nozzle 8 installed in the working chamber 1 with a minimum clearance to the cut-off of the nozzles 2 and 3, the holders 9 and 10 of the exemplary and verifiable measuring instruments, placed when checking in the nozzle 8 and connected via converters 11 and 12 to the registration unit 13, drain nozzles 14 and 15 workers Chamber 1, source 16 of compressed gas, switching system 17, consisting of a pneumatic gate valve 18, four two-way single-channel hydraulic cranes 19-22 and two pneumatic two-way two-channel cranes 23 and 24 with a common actuator 25 for two working positions (I and ii) and also equipped with eight hydra

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26-33 and five pneumatic nozzles 34-38, and four heat-insulated tanks 39-42, equipped with 43-46 hydraulic and pneumatic 47-50 nozzles, electric heaters 51-54, stirrers 55-58 and gauges 59-62 temperature The switching system 17 is connected to the working chamber 1, the working fluid distributor and insulated containers 39-42 with flexible hydraulic 63-70 and pneumatic 71-74 hoses.

The device works as follows.

The operation of the device is divided into periodic cycles of preparation and measurement. Preparation for work consists in bringing the device to its original state. When the shut-off valve 18 is closed and the position I of the actuator 25 turns on the heaters 51 and 53, the working fluid in the thermally insulated containers 39 and 41 is heated to a predetermined temperature, which is monitored by the meters 59 and 61. When the desired temperature is reached, the heaters are turned off It is agitated by the stirrers 55 and 57. This completes the cycle for preparing the device for operation.

To measure, open the pneumatic shut-off valve 18, the compressed gas from the source 16 flows through the pneumatic port 38 through the open shut-off valve 18 and the channels of the pneumatic valves 23 and 24 through the pneumatic nozzles 34 and 36 and flexible hoses 71 and 73 to the heat-insulated tanks 39 and 41, displaced from them the working fluid. At the same time, the working fluid brought to a predetermined temperature difference in tanks 39 and 41, along hydraulic pipes 43 and 45, flexible hoses 63 and 65, hydraulic pipes 26 and 28 through open channels of hydraulic taps 20 and 22, hydraulic pipes 31 and 33 and flexible hoses 68 and 70 enters the nozzles 2 and 3 of the working fluid distributor, which are driven by rotation of the knob 6, the nozzles 2 and 3 are alternately aligned with the nozzle 8 of the working chamber 1 and installed in it in close proximity to each other ede media Twa measuring fluid flow affects trapezoidal periodic normalized parameters - temperature. The spent working fluid is mixed in the working chamber 1 and through the drain pipes 14 and 15, flexible hoses 67 and 69, and hydraulic pipes 30 and 32, through the open channels of the hydraulic valves 19 and 21,

hydraulic nozzles 27 and 29, flexible hoses 64 and 66, and hydraulic nozzles 44 and 46 enters thermally insulated tanks 40 and 42. When

the actuator 25 to the position I of the cavity of thermally insulated containers 40 and 42 through pneumatic nozzles 48 and 50, through flexible hoses 72 and 74 and through open channels of pneumatic valves 23 and 24 are connected with the atmosphere; the waste liquid, filling these containers, forces the gas contained in them to the atmosphere. The measurement cycle continues until the working fluid is completely expelled from

5 of the heat insulated containers 39 and 41, the insulated tanks 40 and 42, after which the shut-off valve 18 is closed and the actuator 25 is switched to the position II. At the same time, empty heat-insulated containers 39 and

0 41 are disconnected from the source 16 of compressed air and connected to the atmosphere. The working fluid in thermally insulated containers 40 and 42 is again brought to a predetermined temperature by means of heaters 52 and 54, or rather to a predetermined temperature difference, and the measuring cycle is repeated to complete displacement of the working fluid from the heat-insulated tanks 40 and 42 into the heat-insulated tanks 39 and 41, after

0 which closes the pneumatic shut-off valve 18 and the actuator 25 is turned to position I.

In order to check the means of measuring conductivity in insulated capacitances, bones 39 and 41 pour electrically conductive liquids with a given difference in conductivity at the same temperature and reproduce the first measurement cycle described above,

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Claims (1)

Apparatus of the Invention A device for determining the dynamic characteristics of thermal converters, comprising: a working chamber equipped with 5 holders of measurable measuring instruments and connected to a distributor of a working fluid with a drive, a recording unit, characterized in that, in order to improve the accuracy of determining 0 dynamic characteristics and enhanced functionality by providing calibration of electrical conductivity measuring instruments, four heat-insulated containers with hydraulic and pneumatic nozzles, heaters, agitators and temperature meters inside the containers, a source of compressed gas and a switching system including four hydraulic two-way single-channel and two pneumatic two-way two-channel valves with common drive and pneumatic shut-off valve, while The chamber is equipped with a fixed nozzle and two drain fittings installed in it, the drive of the working fluid distributor is made with the possibility of reciprocating movement, the working fluid distributor is made of two pipes rigidly interconnected placed in the working chamber fixed on a common axis and facing sections to the nozzle, the hydraulic pipe of the first heat-insulated container is connected to the first lateral fitting of the first hydraulic two-way single-channel valve, The second side fitting of which is connected to the hydraulic nozzle of the second insulated container and the first side fitting of the second two-way hydraulic single-channel valve, the second side fitting of which is connected to the hydraulic nozzle of the third heat-insulated container and the first side fitting of the third two-way hydraulic single-channel valve, the second side fitting of which is connected to hydraulic pipe of the fourth heat-insulated container and the first lateral fitting of the fourth hydraulic whom two-way single-channel crane, the second side fitting of which is connected with the first side fitting of the first hydraulic two-way single-channel crane, the middle fitting of which is connected to the first drain fitting of the working chamber, the second drain fitting of which is connected to the middle fitting of the third hydraulic two-way single-channel crane, middle fittings of the second and fourth hydraulic two-way single-channel valves are connected to the distributor nozzles of the working fluid, the first connections of the first and second channels of the first pneumatic two-way two-channel valve are connected to the pneumatic pipes of the first and fourth heat-insulated containers, respectively; the first connections of the first and second channels of the second two-way pneumatic valve are connected to pneumatic nozzles, respectively, of the second and third insulated tanks, the second fittings of the second channel of the first pneumatic two-way two-channel crane and the first channel of the second pneumatic two-way two-channel crane are connected to the atmosphere, and the second fittings of the first channel of the first two-way pneumatic two-channel crane and the second channel of the second two-way pneumatic two-channel crane are connected through pneumatic gate valve to a source of compressed gas. iTJLULsi  lo