RU1697318C - Portable medical sucker-out - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: sucker-out is provided with pneumatic pulse generator which is characterized by controlled cycle frequency and with pneumatic relay for setting rarefaction with fixed or controlled threshold of operation. One input of the generator is connected with compressed air source through the reducer, inverting output are connected with corresponding control chambers of actuating unit. One input of pneumatic relay is connected with vessel for liquid, supply input is connected with compressed gas source; output is connected with the other input of pneumatic pulse generator. EFFECT: provision of control of time of rarefaction time. 2 cl, 1 dwg

Description

 The invention relates to medical equipment, mainly to devices for aspirating liquids from body cavities.

 The purpose of the invention is the provision of adjusting the time for creating a vacuum.

 The drawing shows a schematic diagram of the proposed aspirator.

 The aspirator contains a gas cylinder 1, a reducer 2, a pneumatic pulse generator 3, control chambers 4 and 5 of an actuator, an actuator 6, suction chambers 7 and 8 of an actuator, non-return valves 9-12, a container 13 for liquid, a pneumatic relay 14 of a job, a vacuum with an adjustable response threshold, a response threshold control organ 15, a non-return valve 16, a suction nozzle 17, pistons 18 and 19, a pneumatic tumbler 20, a comparison element 21, a threshold control organ 22, a pneumatic relay 23-26, adjustable throttle 27.

 A source of compressed gas, for example a cylinder 1, is connected to the input of the reducer 2, the output of which is connected to the power input of the pneumatic pulse generator 3. Two inverted outputs of the generator 3 are connected to the control chambers 4 and 5 of the actuator 6, the suction chambers 7 and 8 of which are connected through the non-return valves 9 and 10 to the atmosphere, and through the non-return valves 11 and 12 are connected to the first input of the fluid container 13 and the pneumatic relay 14 with the organ 15 for controlling the threshold of operation, the relay output is connected to the second input of the generator 3, and the power chamber is connected to the output of the reducer 2. The first input of the liquid tank 13 is equipped with a non-return valve 16, its second input is connected to the suction tip 17. directs chambers 4 and 5 and the suction chamber 7 and 8 of the device 6 are formed connected mechanically interconnected pistons 18 and 19.

 The pneumatic elements of the generator 3 pneumatic pulses are connected as follows: the input of the pneumatic toggle switch 20 is connected to the output of the gearbox 2, the output of the toggle switch 20 is connected to the power inputs of the comparison element 21, to the organ 22 of the regulation of the threshold, pneumatic relay 23-25 and the control input of the relay 25 directly, and with the power input of the relay 26 by the control inputs of the comparison element 21 and the relay 23 through an adjustable inductor 27, the output of the relay 23 is connected to the control input of the relay 26, the output of which is connected to the atmosphere. The output of the comparison element 21 is connected to the control input of the relay 24 and the inhibit input of the relay 25. The outputs of the relay 24 and 25, which are the outputs of the generator 3, are connected respectively to the control chambers 4 and 5 of the actuator 6, while the relay 24 is turned on according to the repeater circuit, and the relay 25 is included in the negation scheme.

 The aspirator operates as follows.

 When gas is supplied from the cylinder 1 through the pressure reducer 2 to the input of the toggle switch 20, which is the first input of the generator 3, and when the toggle switch 20 is turned on, the generator 3 provides cyclic gas flows in the inverse mode, alternately at each of the two outputs with the pressure set by the pressure reducer 2. When this gas from the outputs of the generator 3 is alternately supplied to the control chambers 4 and 5 of the actuator 6 and drives the pistons 18 and 19 of the device 6, which, when the gas is supplied to the chamber 4 of the device 6, creates a vacuum in the suction chamber 8 and the gas ejection and the suction chamber 7 through a non-return valve 9, and when gas is supplied to the chamber 5 of the device 6, a vacuum is created in the suction chamber 7 and gas is ejected from the chamber 8 through the check valve 10. When the suction tip 17 is disconnected from the atmosphere, due to the presence of non-return valves 11 and 12, installed in the suction chambers 7 and 8 of the device 6 and connected to each other, with the rarefaction relay 14 and the liquid capacity 13, in the latter the rarefaction continuously increases to a value equal to the upper threshold of the relay 14, which sets by the organ 15. When the vacuum is reached in the tank 13, installed by the organ 15 of the relay 14, the latter switches, and a single signal appears at its output, which is fed to the second input of the generator 3 and stops its operation, however, there is a liquid tank 13 predetermined vacuum required for suction of the liquid. To carry out the suction of the liquid, it is enough to inform the suction tip with the suction fluid (press the tip button). At the moment the suction tip communicates with the suction fluid under the action of the vacuum of the fluid container 13, the suction fluid enters the container 13 with the generator stopped and without gas consumption. When reducing the vacuum in the tank 13 to the lower threshold of the relay 14, the generator 3 is automatically included in the work and provides a vacuum in the tank 13 specified by the body 15 of the relay 14.

 Generator 3 operates as follows.

When you turn on the toggle switch 20 and apply pressure (1.4 kgf / cm ² ) to the circuit of the generator 3 at the output of the comparison element 21 operating in the negation mode, a single signal appears, which is fed to the control chamber of the relay 24, connected according to the "YES" circuit and to the prohibition chamber of the relay 25, switched on according to the "NOT" scheme, providing a single signal at the output of the relay 24, which enters the control chamber 4 of the actuator 6, and a zero signal at the output of the relay 25. Simultaneously with the supply of pressure to the circuit of the generator 3 in the control chambers of the comparison element 21, the relay 23 and the power chamber of the relay 26 through the adjustable throttle 27 pressure begins to increase. When the pressure element 21 established by the body 22 is reached in the control chamber and is equal to half the value of the upper threshold of the relay 23, the element 21 switches and a zero signal appears on its output, which turns off the relay 24 and turns on the relay 25, providing a zero signal at the output of the relay 24 and at the output of the relay 25 a single signal that enters the control chamber 5 of the actuator 6. However, in the control chambers of the element 21 and the relay 23 and the power chamber of the relay 26 there is a further increase in pressure, which continues until it reaches the upper threshold of the relay 23, upon reaching which the relay 23 switches and ensures that the relay 26 is turned on, which in turn communicates the fill line to the control chambers of the element 21, the relay 23 and the power chamber of the relay 26 with the atmosphere. At this point, all elements of the circuit return to their original state, and the cycle repeats again. The description of the operation of the generator 3 shows that it provides cyclic gas flows at its outputs in the inverse mode. The frequency of the generator cycles is regulated by the inductor 27, the ratio of the durations of the zero and unit cycles of the generator is determined by the body 22 of the element 21 and can be set 1: 1, in which the operating mode of the actuator 6 is the most optimal. It is important to note that, as can be seen from the description of the operation of the generator, the adjustment of the frequency of the generator cycles and the ratio of the durations of zero and single cycles are independent and do not affect each other.

 Generator 3 is made on the elements of industrial pneumatic automation, manufactured by domestic industry. A feature of the used pneumatic elements is the absence of moving rubbing elements, quiet operation and reliable operation in various environmental conditions.

Claims (2)

 1. A PORTABLE MEDICAL PUMP, containing a source of compressed gas with a pressure reducer, a container for liquid with a safety valve, a suction nozzle and an actuator with control chambers and suction chambers, which are connected through the non-return valves to the atmosphere and a container for liquid, characterized in that, in order to ensure adjustment of the time for creating a vacuum, it is equipped with a pneumatic pulse generator with an adjustable cycle frequency and a pneumatic relay for setting a vacuum with a fix a controlled or threshold, in which one input of the generator is connected through a gearbox to a source of compressed gas, and the inverse outputs are connected to the corresponding control chambers of the actuator, one of the inputs of a pneumatic relay is connected to a container for liquid, the power input is connected to a source of compressed gas, and the output connected to another input of the pneumatic pulse generator.  2. The aspirator according to claim 1, characterized in that the pneumatic pulse generator contains a pneumatic tumbler, four pneumatic relays, a comparison element and an adjustable throttle, while the pneumatic tumbler input is connected to one generator input, the other generator input is connected to the first relay, the pneumatic tumbler output is connected to supply the inputs of the comparison element, the first, second, third relays and the control input of the third relay directly, and with the power input of the fourth relay and the control inputs of the comparison element and the first relay through adjustable a Rossel, and the output of the first relay is connected to the control input of the fourth relay communicated by its output with the atmosphere, the output of the comparison element is connected to the control input of the second relay and the inhibitory input of the third relay, and the outputs of the second and third relays are connected to the first and second outputs of the pneumatic pulse generator.

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