SU768401A1 - Mass exchange apparatus for control system - Google Patents

Description

(54) DEVICE MASS TRANSFER CONTROL SYSTEM

Claims (1)

The invention can be used in medical technology, namely, in surgical, ward, poisoning centers, burn centers, etc. A mass exchange device control system is known, which contains a flow control device that includes a setting device and a flow sensor, a reference element, a perfusion device and a stop flow controller, a temperature controller, and an emergency shutdown unit - 1. A disadvantage of the known system is the lack of means changing temperature and flow rates and ensuring their interconnected control. This leads to an insufficiently good quality of hemodynamic characteristics. The purpose of the invention is to improve hemodynamic behavior of aesthetics by interconnected control of temperature change and flow resistance of the vasculature of the para- and cienta. The goal is achieved by the fact that the system is equipped with a correcting device, two sensors and a temperature sensor, a reference element, a temperature stop controller and a pneumohydraulic controller, while the temperature controller is installed between the reference element and the stop regulator connected to the mass transfer device, a correction link is installed between the temperature and flow comparison elements, the output of the flow sensor is connected via the appropriate temperature sensor to the temperature comparison element ry and pneumohydraulic regulator mounted at the outlet of the perfusion apparatus and is connected to stop-flow regulator torus. The drawing shows a block diagram of a mass transfer control system. The block diagram contains the following main components: a mass transfer device 1, a temperature control device 2, a flow control device 3, an emergency control unit 4. The temperature control device 2 contains two temperature sensors 5, 6, element 7, temperature setpoint 8, temperature controller 9, temperature stop controller 10. 37 The flow control device 3 contains a flow sensor 11, a flow comparison and induction element 12, a flow sensor 13, a perfusion device 14, a pneumatic spool hydraulic resistance valve 15, a flow control valve 16, a corrective arrangement 17. The flow sensor is installed in the blood supply unit line 18 mass transfer device 1. The device operates as follows. Depending on the conditions of the carried on hemosorption (for example, specifically for this disease; on one or two patients, etc.) (a mass transfer device 1 is selected. Comparison element 7 of the temperature control device 2 provides tracking of the patient's blood temperature at the inlet and outlet of the Mass Exchange Device 1. B. In the case when the temperature measurement is performed by the bridge method, the sensor 5 is the temperature sensor and the second temperature sensor 6 is connected to the output of the mass transfer device 1. In case of a temperature deviation from a predetermined error signal, it arrives at the temperature comparison element 7 to which the temperature sensor 8 is connected.From the temperature comparison element 7, the control signal goes to the temperature controller 9 and the emergency control unit 4, as well as to the correction device 17 At the mismatch signal, the blood temperature is regulated by means of the temperature controller 9, which improves the hemodynamic characteristics. In the case of inertial overshoots of temperature (for example, when operating from the temperature set-up 8), the signal received from the comparison element 7 enters the emergency control unit 4 and activates the alarm warning signaling. The control signal to the stop-temperature controller 10, which reduces the flow of coolant to the temperature controller 9, or delivers the coolant to the temperature controller, thereby reducing and eliminating the temperature drop that exceeds the set limit. The flow control device 3 provides automatic tracking of changes in the hydraulic resistance of the patient's vascular system, and also provides correction of the performance of the perfusion pumps (perfusion device 14) depending on the temperature difference between the input and output blood of the mass exchange device 1 .. The flow rate adjuster 13 sets the perfusion performance value device 14, and the reference element 12 provides automatic registration of the flow rate using the sensor II a path placed in the output hemopausal line 18 of the mass transfer device 1, and also generates a control signal for controlling the perfusion device 14, which, in turn, adjusts both the pneumatic hydraulic resistance regulator 15 and the stop regulator 16 In case of a change in the hydraulic resistance of the patient’s vascular system, the value of which is recorded and determined by the flow sensor 11, the error signal is fed to the comparison and indication element 12 Depending on the magnitude of the change (the hydraulic resistance of the patient's vascular system is reduced, the performance of the perfusion device 14 is such that the flow rate of the perfusion pumps remains constant. In addition, the signal from the element 7 of the comparison and temperature indication through the correction device 17 enters the element 12 of the comparison and indication of flow, which leads to an additional correction of the performance of the perfusion pumps of the perfusion device 14 depending on the temperature difference between the input and output blood of the mass transfer device 1. In the case of a sharp change in hydraulic resistance (sticking of the vascular walls of the patient, thrombus formation, etc.), the signal of the comparison element 12 goes to the emergency unit 4 of control, including emergency audible alarm and emergency control signal of the emergency kon1rol unit 4 is supplied to the stop regulator and flow controller 16 disables it. In the case of restoration of the hydraulic resistance of the patient's vascular bed, the prohibition signal is removed from the emergency control unit 4 and the flow control device 3 again automatically monitors the operation of the perfusion device 14 and the pneumatic pressure regulator 15. The presence of extracorporeal hemosorption for blood and other biological fluids in the apparatus, temperature control devices (with sensors: inlet and outlet) and performance, made it possible to reduce the influence of negative factors in the process of extracorporal blood purification in patients expressed in the form of chills and a drop in blood pressure hemosorption process. The invention includes a mass transfer device control system comprising a flow control device including a setting device and a flow sensor, a reference element, a perfusion device and a stop flow controller, a temperature controller and an emergency shutdown unit, which is designed to improve hemodynamic characteristics by interrelated control of temperature change. system and hydraulic resistance of the vascular bed of the patient, the system is equipped with a correction device, two sensors and a temperature setter with a reference element, a stop-temperature controller and a pneumatic controller, while the temperature controller is installed between the reference element and a stop-controller connected to a mass transfer device, a correction link. installed Between the temperature and flow comparison elements, the output of the flow sensor is connected to the temperature comparison element via the corresponding temperature sensor, and the pneumo-hydraulic regulator is installed at the outlet of the perfusion device and connected to the stop control flow rate. Sources of information, taken into consideration in the examination of the USSR Author's Certificate of the USSR No. 554869, cl. A 61 M 1/03, 30.06.54.