RU2012307C1 - Device for aspiration and draining cavities of patient in single-seat pressure chamber - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: draining system is mounted in pressure chamber 15. The system has vacuum meter 5, safety valve 4, throttle 16 for connection with cavity of pressure chamber. Pressure drop regulator 7 has valve 8, membrane 9, pusher 10 and spring 11, adjusting screw, placed in the space of the case. In this case input cavity 13, output cavity and control cavity 14 are formed. Input cavity is connected with draining system, output cavity - with injector 6, control cavity is connected with space of pressure chamber. EFFECT: efficiency. 2 cl, 1 dwg

Description

 The invention relates to medical equipment.

 A device is known for aspiration and drainage of patient cavities in a single-chamber pressure chamber, comprising a differential pressure regulator made in the form of a housing in the cavity of which a valve with a pusher, an elastic element, a spring and an adjustment screw are installed, which are configured to form exit and entry cavities, the last of which communicated with the drainage system, including a vacuum gauge, a safety valve and a throttle for communication with the pressure chamber cavity.

 The design drawback is the impossibility of the device to operate actively in the absence of excess pressure in the pressure chamber, as well as the need for a doctor to be inside the pressure chamber to work with a suction device, which is unacceptable for single-chamber pressure conditions.

 The aim of the invention is to improve performance.

 This goal is achieved by the fact that the device of aspiration and drainage of the internal cavities of the patient in a single pressure chamber, containing a differential pressure controller, made in the form of a housing in the cavity of which there is a valve with a pusher, an elastic element, a spring and an adjusting screw installed with the possibility of formation of exit cavities and the input, the last of which is connected to the drainage system, including a vacuum gauge, a safety valve and a throttle for communication with the pressure chamber cavity, according to the invention, an elastic element The entent is made in the form of a membrane installed in the housing with the possibility of forming a control cavity in communication with the pressure chamber cavity, and the exit cavity is communicated with an additionally injected injector. In addition, in order to allow ventilation of the pressure chamber gas mixture, an regeneration system is additionally connected to the injector, and the differential pressure regulator valve is equipped with a return spring.

 The drawing shows a schematic diagram of a device for suction and drainage.

 The device comprises a drainage system 1, consisting of connecting pipelines 2 and a fluid collector 3, a differential switch (safety valve) 4, a vacuum gauge 5, an injector 6, and a differential controller 7.

 The regulator 7 includes a housing with a valve 8, a membrane 9, a pusher 10 and a spring 11 with an adjusting screw 12. In this case, the membrane 9, the pusher 10 and the valve 8 form an inlet cavity 13 in the body of the regulator 7 connected to the drainage system 1, part of the regulator body 7 , limited by the membrane 9, forms a control cavity 14 and is connected to the pressure chamber 15, and the output of the valve 8 is connected to the injector 6.

 In addition, the drainage system is equipped with a nozzle 16, connecting it with the atmosphere of the pressure chamber 15.

 For pressure chambers, where the injector 6 is used as a gas ventilation drive, for example, a regeneration system 17, the valve 8 has a return spring 18.

 The device operates as follows. When the injector 6 is turned on in the regulator 7, a negative drop is created in front of the valve 8 from the side of the injector 6, the value of which is determined by the capacity of the injector 6.

 When the aspiration device is turned on (the valve 8 is opened by the action of the spring 11), the pressure drop from the injector 6 passes into the inlet cavity 13 and if its value reaches a predetermined value determined by the pressing force of the valve 8 by the spring 11, then the membrane 9 through the pusher 10 covers the valve 8, preventing the further growth of the differential in the cavity 13. If the differential in the cavity 13 for some reason decreases, then, under the action of the spring 11, the valve 8 opens, which again causes the differential to increase to the required value.

 The differential set by the regulator 7 is determined by the force of pressing the membrane 9 through the pusher 10 and the valve 8 by the spring 11, which accordingly depends on the position of the adjusting screw 12 and can be set by a doctor depending on medical indications. At the same time, since the membrane 9 always works on the difference between the pressure in the pressure chamber 15 and the drainage system 1 (inlet cavity 13), the regulator 7 will maintain a predetermined difference even when the pressure in the pressure chamber 15 changes, and the flow rate through valve 8 with steady suction ( the tube from the patient to the fluid collector is filled with a secret) can vary within narrow limits due to the flow rate through the nozzle 16. The presence of the nozzle 16 in this case reduces the tightness requirements of the valve 8, which makes its design simpler.

 The differential supported by the regulator 7 through the drainage system 1 is transferred to the patient’s cavity and monitored by a vacuum gauge 5. The differential limiter 4 in the drainage system 1 is a safety valve that, in the event of any malfunctions in the aspiration device, does not allow the differential to exceed the allowable value for the patient.

 For pressure chambers, where engineer 6 is used as a gas ventilation drive, for example through a regeneration system 17, the suction device works in a similar way, but for the case when the suction device is not required and the injector 6 does not work, the regulator 7 should have a closed position, t i.e., at the maximum screwed position of the adjusting screw 12, the return spring 17 becomes stronger than the spring 11 and the valve 8 closes. In this case, the differential from the injector 6 can no longer be transmitted through the valve 8 to the drainage system 1. Duct 16 in this case always equalizes the pressure in the pressure chamber and the drainage system, thereby ensuring patient safety and the possibility of passive drainage. (56) Guidelines for hyperbaric oxygenation. Ed. S. N. Efuni. M.: Medicine, 1986, p. 328.

 USSR copyright certificate N 307793, cl. A 61 M 1/00, 1971.

Claims (2)

 1. DEVICE FOR ASPIRATION AND DRAINAGE OF CAVITIES OF A PATIENT IN A SINGLE SINGLE BARCAMER, containing a differential pressure regulator made in the form of a housing, in the cavity of which there is a valve with a pusher, an elastic element, a spring and an adjusting screw installed with the possibility of forming exit and entry cavities, the last of which is in communication with a drainage system including a vacuum gauge, a safety valve and a throttle for communication with the pressure chamber cavity, characterized in that, in order to improve the operational characteristics of the device By increasing the accuracy of maintaining a given differential value when the overpressure in the pressure chamber changes, the elastic element is made in the form of a membrane installed in the housing with the possibility of forming a control cavity in communication with the pressure chamber cavity, and the exit cavity is communicated with an additionally injected injector.  2. The device according to claim 1, characterized in that, in order to ensure ventilation of the pressure chamber gas mixture, an regeneration system is additionally connected to the injector, and the differential pressure regulator valve is equipped with a return spring.