RU2377947C1 - Endoscope - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: endoscope comprises a flexible body which is inserted into a lumen of an examined cavity, a flexible all-purpose component which through a connection unit having a connector system, is connected to an external illumination source to transmit light from an incandescent lamp, and an air and water supply from the compressor built in a lighter, through appropriate channels provided in the endoscope, and through an aspiration socket channel to the aspirator, and a rigid component, together forming a technological entity of the endoscope. The illumination source is used a light-emitting diode with an independent supply source united in a micro block built in the rigid component and structurally connected with the illumination channel in the flexible body, together forming an entity of the endoscope. On the surface, the rigid component of the endoscope comprises a handle for holding the apparatus and a socket of the air and water supply from the compressor, and a socket of the aspiration channel whereto the aspirator used to perform endoscopic examination is attached.

EFFECT: application of the given device allows performing the off-line endoscopic examinations.

4 cl, 1 dwg

Description

The device relates to medicine, relates to the design of flexible endoscopes and their operation and is intended for instrumental examinations of a person.

Traditional flexible endoscopes of any functional purpose are made according to the same basic structural scheme and represent a single design.

Designs of flexible endoscopes are also known from the patent literature, providing for their connector in certain places.

Despite the structural differences between these endoscopes, their operation provides for a certain completeness, which includes an external light source (illuminator) and an electric suction pump (aspirator). Therefore, in terms of their operation, all endoscopes are similar and each of them can be taken as a prototype.

Any endoscope can be conditionally divided into a flexible working part, which is introduced into the lumen of the organ under investigation, into a flexible universal part, which is connected to an external light source, and a rigid part, which combines the flexible parts, forming a single apparatus structure.

The universal flexible part begins with the unit connecting the endoscope to an external light source and a compressor built into the illuminator to transmit light from a source incandescent lamp and supply air and water using a compressor from a container through a system of sockets / connectors to the channels of the same name located inside the endoscope. An electric suction pump is connected to the endoscope suction channel connector. In such a combination of components with an endoscope, research can be carried out.

The disadvantage of using endoscopes of existing structures and their configuration is the dependence of the work of an external light source, compressor and electric suction pump (aspirator) on their attachment to power lines, access to which or its work, for various reasons, is sometimes impossible, which means that in emergency situations endoscopic examination is also impossible.

The objective of the proposed technical solution is to eliminate this dependence through the use of alternative technical solutions for the design features of the endoscope and its components, as well as certain achievements of science and technology.

The task is achieved in that in the endoscope containing a flexible working part, which is inserted into the lumen of the cavity under study, a flexible universal part, which is connected to an external light source and a compressor built into the illuminator through the connection unit of the endoscope with a connector system to transmit light from a source incandescent lamp and air and water supply from the compressor through the corresponding sockets to the channels of the same name located inside the endoscope, as well as the rigid part, together forming a single con the structure of the endoscope, and an electric suction pump (aspirator) is connected to the connector of the aspiration channel of the apparatus, which makes it possible to conduct an endoscope study in an endoscope containing a flexible working part, which is inserted into the lumen of the cavity under study, and a rigid part, together forming a single endoscope design, as a source For lighting, a light-emitting diode with an autonomous source of its power supply is used, combined into a miniature unit, which is mounted inside the rigid part and is structurally connected to the channel m of transmission of illumination of the endoscope, and on its surface there is a connector for the air and water supply channel from the compressor and a connector for the suction channel to which an electric suction pump (aspirator) is connected, which makes it possible to conduct an endoscope examination.

In this case, devices with operation from an electric drive can be used as a compressor and an aspirator.

In the absence of power, devices powered by a mechanical drive are used.

When releasing endoscopes with two control cables for a flexible section of the working part, the endoscope handle for holding the apparatus located on the rigid part must be able to rotate around the longitudinal axis.

As of the filing date of the application, the applicant is not aware of technical solutions having a combination of essential features.

The operation of the proposed device is illustrated in the drawing, which shows a General view of the endoscope.

The design of the proposed endoscope contains a flexible working part 1, which is introduced into the lumen of the investigated cavity, with a flexible and controllable section 2 at the end of the endoscope and a rigid part 3, on which there is an eyepiece 4, connected to the image transmission channel 5, a suction valve 6, connected to the channel aspiration 7 and an aspirator through a connector 8, an air and water supply valve 9 connected to the channel 10 of the same name and a compressor through a connector 11, a rotation angle control handle (s) 12, refers to the control mechanism of the bent section 2, autonomous lighting fixture 13 (LED block + elements of its power supply) associated with the light transmission channel 14 of the endoscope, a handle 15 for holding the device, if necessary made to rotate around its longitudinal axis, and a socket 16 for introducing instruments into the channel 7 combined with the suction .

The procedure for preparing the endoscope for work and the functioning of its channels.

An autonomous light source 13 is inserted into the socket located in the rigid part 3 of the endoscope, the aspirator through the connector 8 is connected to the combined suction / instrument channel 7, the compressor through the connector 11 is connected to the air / water supply channel 10. In this connection of the components with the endoscope, research can be carried out .

In the presence of central energy saving, an electric suction pump and a compressor are used to supply water and air with an electric drive, in its absence, devices with their operation from a mechanical drive are used.

When the autonomous light source 13 is turned on, light is transmitted through the illumination transmission channel 14 to the cavity under study, the image obtained through the channel of the same name 5 is transmitted to the eyepiece 4. To maintain a normal image and obtain clear visual information from the compressor through connector 11 to the air / water supply channel 10, the operation of which is controlled by valve 9, water is supplied to the endoscope end, which washes it, and the air with which it is blown, keeping the field of view in the lens clean 4. Air supply to the cavity is also necessary for I am spreading the folds of the mucosa. The suction / instrument channel 7 serves to remove the contents from the test cavity using an aspirator connected to it through the connector 8 and controlled by the valve 6. To insert the necessary tools into the test cavity for the necessary intracavitary instrumental manipulations, the socket 16 is connected to the channel 7, therefore this channel is considered combined. In addition, through the nest 16 and channel 7, a targeted washing by the mucous stream of water from the contents interfering with its inspection, or its processing with the necessary medicine, is carried out. All these actions are carried out under the visual supervision of an endoscopist.

Thus, the proposed design of the endoscope allows you to expand its operational capabilities through an autonomous source of lighting and the use of an aspirator and compressor with the possibility of their operation from a mechanical drive, if there is no source of central energy saving.

Claims (4)

1. An endoscope containing a flexible working part, which is introduced into the lumen of the cavity under study, a flexible universal part, which, through a connection block having a connector system, is connected to an external light source for transmitting light from an incandescent lamp and supplying air and water from a compressor built into illuminator, through the appropriate channels located inside the endoscope, and through the connector of the suction channel with an aspirator, and the rigid part, together forming a single technological design of the endoscope, characterized in that a light-emitting diode with an autonomous source of its power supply is used as a light source, combined into a miniature unit, which is built into the rigid part and structurally connected with the lighting transmission channel in a flexible working part, together forming a single endoscope design, on the surface of the hard part of which there is a handle for holding apparatus and the connector of the channel for supplying air and water from the compressor and the connector of the suction channel to which an aspirator is connected, are arranged endoscopy. 2. The endoscope according to claim 1, characterized in that devices with operation from an electric drive can be used as a compressor and an aspirator. 3. The endoscope according to claim 1 or 2, characterized in that in the absence of power supply, the operation of these devices can be provided from a mechanical drive. 4. The endoscope according to claim 3, characterized in that it is equipped with two control cables for a bent section of the working part, the handle of the endoscope must be made with the possibility of its rotation around its longitudinal axis.

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