RU2019015C1 - Combined cooling system for laser medical installations - Google Patents

Abstract

FIELD: medical technology. SUBSTANCE: combined cooling system includes space of laser cooling, non-autonomous and autonomous cooling systems, two check valves and throw-over valve with control over one inlet and two outlets. Inlet of first check valve is coupled with outlet of non-autonomous cooling system and its outlet - to inlet of cooling space of radiator of laser and output of second check valve. Inlet of second check valve is connected to outlet of autonomous cooling system. Inlet of throw-over valve is coupled to outlet of cooling space of radiator of laser. One of outlets of throw-over valve is connected to drain during operation under non-autonomous mode. The other outlet is coupled to inlet of autonomous cooling system during operation under autonomous mode. EFFECT: enhanced operational reliability of system of cooling of radiator of laser, reduced cost of operation due to insertion of automatic transition from autonomous to non-autonomous cooling system. 1 dwg

Description

 The invention relates to medical equipment, namely to laser medical devices and can be used in medical instrumentation.

 Known combined cooling system of the laser emitter in the installation "Scalpel-3", selected for the prototype, consisting of two completely independent cooling systems of the laser emitter - autonomous and non-autonomous. Switching the autonomous cooling system to non-autonomous occurs manually.

 A disadvantage of the known device is that the switching of an autonomous cooling system to a non-autonomous one requires a certain qualification of the maintenance personnel and time (up to 60 min), which increases the cost of operation of the installation, reduces the reliability of operation and can lead to failure of the installation during the operation.

 The aim of the invention is to increase the reliability of the cooling system of the laser emitter and reduce operating costs by introducing an automatic transition from autonomous to non-autonomous cooling system.

 The essence of the invention lies in the fact that in the combined cooling system for laser medical devices, consisting of a non-autonomous and autonomous cooling systems, two check valves and an overflow valve with control with one input and two outputs are additionally introduced, the input of the first check valve is connected to the output of the non-autonomous system cooling, and its output - with the input of the cavity of the laser emitter and the output of another non-return valve, the input of the latter - with the output of the autonomous cooling system, the input of the cross over valve coupled to the output of the laser oscillator, one output shuttle valve - controlled with a drain in the sewage system when operating in connected mode, and the other - to the input of an autonomous cooling system for operation in the autonomous mode.

 Thanks to the introduction of two check and flap valves, an automatic transition is ensured in a time not exceeding 1 s from an autonomous to a non-autonomous cooling system, the reliability of the cooling system of the laser emitter is increased, and the operating cost is reduced.

 The drawing shows the proposed installation.

 It consists of a non-autonomous cooling system 1, check valves 2, 3, a laser emitter 4, a crossover valve 5, an autonomous cooling system 6.

 The cooling system for laser medical devices operates as follows. When the autonomous cooling system is turned on, water from the autonomous system output enters through the check valve 3 to the laser emitter 4 (the check valve 2 is closed) and through the crossover valve 5 to the autonomous cooling system 6. In the event of a failure of the autonomous cooling system or when acoustic noise reaches an unacceptable level, a refrigerant flow switch or a temperature switch installed in a medical installation, as well as a noise sensor, signal to automatically turn on a non-autonomous cooling system and turn off the power autonomous cooling system. Similarly, there is a transition from a non-manual to an autonomous cooling system. In this case, the changeover valve 5 is switched and the water from the non-autonomous cooling system through the check valve 2 (while the check valve 3 is closed) enters the cavity of the laser emitter. Further, the water through the flap valve goes to drain into the sewer.

 Combined cooling system allows to increase the reliability of the system several times in comparison with the non-redundant system. The total time between failures of the combined system can be brought up to 9-9.5 thousand hours. In addition, the utilization of equipment increases during the repair period of one of the systems, and it is also possible to use non-autonomous cooling systems in a priority manner, which can significantly reduce the cost of operation by reducing the time it takes to use the expensive resource of an autonomous cooling system.

Claims (1)

 COMBINED COOLING SYSTEM FOR LASER MEDICAL INSTALLATIONS, consisting of a cooling cavity for a laser emitter, non-autonomous and autonomous cooling systems, characterized in that, in order to increase operational reliability and reduce operating costs by introducing an automatic transition from autonomous to non-autonomous cooling system, a combined cooling system additionally contains two non-return valves and a non-return valve with one inlet and two outlets, the inlet of the first non-return valve is connected to the non-outlet of a stand-alone cooling system, and the output - with the input of the cooling cavity of the laser emitter and the output of the second non-return valve, the input of the second non-return valve is connected to the output of the autonomous cooling system, the input of the cross-over valve - with the output of the cooling cavity of the laser emitter, one of the outputs of the cross-over valve is connected to the drain when work in offline mode, and the other with the input of an autonomous cooling system when working in offline mode.

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