SU1073704A1 - Thermostat for gas chromatograph - Google Patents

Abstract

THERMAL SOURCE FOR A GAS-CHROMATOGRAPH, comprising a case in which a heat-insulating casing is placed, made in the form of a steel shell of a bone, and a working chamber in which the device is installed. Heaters are a heater and a fan, characterized in that, in order to improve the thermodynamic characteristics of a thermostat, a sinusoidal source for 7p is inserted into it, the housing and the working chamber are interconnected by a jumper wire, grounded and electrically insulated from the heat-insulated housing, and to the heat-insulated One pole of the source is connected via a breaker from the iSoSch2L of the capr. The other pole is connected to the KOOnVCOM.

Description

The invention relates to analyzers and can be used in the design of chromatographs, gas analyzers and other devices where it is necessary to thermostat the object. A device for express analysis is known, which contains a source of carrier gas, an electrically heated column placed in a thermostat, and a device for forced cooling of the I column. However, the thermostat is simultaneously heated in the indicated device during the heating cycle of the column. Since the mass of the thermostat is greater than the mass of the column, during the cooling cycle, it does not have time to completely cool down and then partially warms up the column, distorting the analysis results, and the heating of the thermostat proceeds according to a complex temperature law and does not represent its effect on the temperature mode. possible. In addition, the influence of the thermal inertia of the thermostat limits M10 {the achievable analysis times, and the massive thermostat significantly increases the size of the entire instrument. A gas chromatograph is known, containing a source of gas-iositel, an electrically heated chromatographic column, a metering device, a detector, a device for forcibly cooling a column placed in a protective casing having windows in its location zone, the windows inform the internal bands of the casing with ambient atmosphere 2i. However, such a device is characterized by limited applicability of the thermostat column only for a short analysis cycle. Closest to the invention is a thermostat for a gas chromatograph, comprising a casing in which a heat insulating casing is placed, made in the form of a thin-metallic metal casing, and a chamber in which a heater and a fan 3 are installed. This thermostat is characterized by its use implementation in it of a complex temperature program due to the relatively large thermal inertia. The circuit of the invention is the thermodynamic characteristics of the thermostat. This goal is achieved by the fact that a thermostat for a gas chromatograph, comprising a housing in which thermal insulation, leatherette, made in the form of a thin-layer metal sheath, and a working chamber in which a heater and fan are installed, is inserted a sinusoidal voltage source, and the housing and the working chamber are connected1: they are interconnected by the j #U conductor with a jumper wire, grounded and electrically immersed from the heat insulating casing, n # t2Ui One heat source is connected to the heat insulating switchboard usoidalnogo voltage, and the second pole is connected to the housing. FIG. schematically shows the proposed thermostat, a longitudinal section; FIG. 2 - the same, with the cover removed, top view. The thermostat includes case 1, the KOiropoM houses the heat insulating housing 2, which is made in the form of a thin-walled metal shell, the working chamber 3 in which the heater 4 and the fan 5 are installed. , are grounded and insulated from the tenlo of the insulating casing with 2 liners 7. The alternator 8 of the source 9 of a sinusoidal voltage is connected by one pole with a tensile insulation casing 2, and the second is connected to the housing I. and to the device for introducing the sample 11 and to the detector 12 placed on the lid 13. TepivspcTaT. works as follows. At the expense of the power dissipated by the heater 4, with the help of the fan 5 in the volume bounded by the working chamber 3, the cold temperature is established, which exceeds the ambient temperature. Due to the gradient of the temperature between the working chamber 3 and the housing 1, a gradient of teltrathures is established, depending on the temperature difference between the ambient temperature and the temperature inside the thermostat. Since it is used as an insulating material, heat transfer is mainly due to the thermal conductivity of air. However, the amount of thermal conductivity depends on amSH1it} dy and the frequency of the electric field in the air created by the source 9 of a sinusoidal voltage with variable frequency and linearity. Therefore, in the thermostatic mode, the amplitude and frequency are chosen to reduce the thermal conductivity of the air. This makes it possible to reduce the amount of power dissipated into the environment and improve the accuracy of temperature control. To cool the thermostat from the working chamber 3 and the heat insulating 2, the voltage is released, which increases the thermal conductivity of the long layer (air). This allows the thermostat to cool quickly. In the proposed device, the thermostat tag capacitance is low, and the thermal conductivity of the insulating layer is controlled. This makes it possible to significantly improve the thermodynamic characteristics of the thermostat.

Claims (1)

THERMOSTAT FOR A GAS CHROMATOGRAPH, containing a housing in which. there is a heat-insulating casing made in the form of a thin-walled metal shell, I have a working chamber in which a heater and a fan are installed, characterized in that, in order to improve the thermodynamic characteristics of the thermostat, a sinusoidal voltage source is introduced into it, the housing and the working chamber are interconnected by a conductive jumper , grounded and electrically isolated from the heat-insulating casing, and to the heat-insulating casing through the breaker, connect one pole of the sinusoidal source to voltage, and the second pole is connected to the HOUSING. FIG. 1