CN211187163U - Multi-lens observation mirror structure - Google Patents

Abstract

The utility model provides a many camera lenses sight glass structure, is equipped with a soft material and is the endotracheal tube of transparent form, at this endotracheal tube a flexible bougie of planting, the front end nestification of the bougie of sight glass has a body to be equipped with a plug connector in the bougie rear end, the image acquisition unit of this body is equipped with two at least cameras, and with two at least light emitting component that these two cameras are collocated, this camera lens and light emitting component are the interval and set up, and connect respectively in a control circuit board, connect the plug connector by this control circuit board. When the observation mirror is used, the light-emitting component illuminates, the lens captures the image of the organ, and the two lenses arranged in parallel make the captured image wider in angle, so that the image display effect of the observation mirror is improved.

Description

Multi-lens observation mirror structure

Technical Field

The utility model relates to a sight glass structure indicates a many camera lenses sight glass structure especially.

Background

At present, a common tracheal cannula is divided into two functions of an endoscope and an observation mirror, wherein the endoscope can be used for observing the state of human organs and simultaneously forming the operation functions of blowing, flushing, cutting or electric heating and the like. The observation mirror is only used for observation and does not have the operation function like an endoscope. The observation mirror of the prior art is provided with a transparent endotracheal tube made of a soft material, a flexible bougie is inserted into the endotracheal tube, wherein the front end of the bougie is provided with a tube body, components such as a lens and an optical component are arranged in the tube body, the rear end of the bougie is provided with a connector clip for being inserted into a handheld piece provided with a transmission circuit, the endotracheal tube and the bougie are inserted into a patient mouth when the observation mirror is used, an image of an organ is captured by the lens after the illumination through the optical component, then, an image signal is transmitted to the connector clip arranged at the rear end of the bougie, the transmission circuit of the handheld piece inserted by the connector clip transmits an analog or digital image signal to a display device such as a tablet computer for observation.

The lens of the observation mirror in the prior art is usually designed in a single way, so that the angle is limited when capturing images of organs and cannot be wider, which relatively affects the image display effect at the rear end and is a long-standing defect of the observation mirror.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a many camera lenses sight glass structure makes the image angle of picking up more broad through many camera lenses, and then can improve the image display effect of sight glass.

The utility model discloses be equipped with a soft material and be the endotracheal tube of transparence, a flexible bougie is planted at this endotracheal tube, the front end nestification of this bougie has a body, be equipped with image acquisition unit in the body, the bougie rear end is equipped with one and supplies to peg graft in control circuit's plug connector, this plug connector is pegged graft in a handheld piece that is equipped with transmission circuit, the image acquisition unit of this body is equipped with two at least camera lenses, the tip of this body is equipped with two at least camera lenses promptly, and with two at least light-emitting component that these two camera lenses are juxtaposed, this camera lens and light-emitting component are the interval setting.

The two lenses and the juxtaposed light-emitting component are welded and fixed on a control circuit board provided with an electronic component, and the control circuit board is arranged inside the tube body and connected with the plug connector through a lead.

The lens and the light-emitting component are embedded and fixed in the tube body, the control circuit board is arranged in the plug connector, and the lens and the light-emitting component are connected with the control circuit board and the control circuit board are connected with the plug connector through wires.

The lens and the light-emitting component are fixed on a circuit board in a welding mode, the circuit board is fixed inside the tube body, the control circuit board is arranged inside the plug connector, and the circuit board and the control circuit board and the plug connector are connected through wires.

The lens and the light-emitting component are welded and fixed on a circuit board, the circuit board is perpendicular to the control circuit board, and the control circuit board is connected to the plug connector through a lead.

Wherein the two light emitting components are light emitting diodes, i.e. the two light emitting components are L ED.

The utility model discloses in, when the sight glass used, through illuminating of light emitting component to by the image of camera lens capture organ, and make the image angle of capturing more extensive because of two camera lenses of juxtaposition, and then improve the image display effect of sight glass.

Drawings

Fig. 1 is a perspective view of the present invention;

FIG. 2 is a block diagram of an embodiment of the present invention;

FIG. 3 is a diagram illustrating a state of use of an embodiment of the present invention;

FIG. 4 is a diagram of a second embodiment of the present invention;

fig. 5 is a three-structure diagram of an embodiment of the present invention;

fig. 6 is a diagram of the structure of the fourth embodiment of the present invention.

In the figure: 1. an endotracheal tube; 2. a bougie; 21. a pipe body; 3. a plug-in unit; 4. a handpiece; 41. a transmission circuit; 5. a display device; 6. a lens; 7. a light emitting assembly; 8. a control circuit board; 81. a control component; 82. a wire; 9. a circuit board; A. an overlap region.

Detailed Description

The present invention is further illustrated by the following examples, which are given by way of illustration only and are not intended to limit the scope of the present invention in any way.

The first embodiment is as follows:

referring to fig. 1 and fig. 2, a perspective view and a structural diagram of an embodiment of the present invention are shown, the present invention is provided with a transparent endotracheal tube 1 made of a soft material, a flexible bougie 2 is inserted into the endotracheal tube 1, and the connection structure between the endotracheal tube 1 and the bougie 2 can adopt the connection structure of the prior art. The front end of the bougie 2 is nested with a tube 21, an image capturing unit composed of components such as a lens and a light emitting component is arranged in the tube 21, and the rear end of the bougie 2 is provided with a plug connector 3 for being plugged in a hand-held piece 4 provided with a transmission circuit 41. When the device is used, the endotracheal tube 1 and the bougie 2 are inserted into a patient mouth, the light-emitting component of the image capturing unit illuminates the trachea and then the lens captures an organ image, and an analog or digital heating image signal is transmitted to a display device 5 such as a tablet computer through a transmission circuit 41 so as to observe the state of the organ of the human body.

The end of the tube 21 is provided with at least two lenses 6, i.e. the image capturing unit of the tube is provided with at least two lenses, and at least two light emitting components 7 juxtaposed to the two lenses 6, the lenses 6 and the light emitting components 7 are arranged at intervals, the lenses 6 and the light emitting components 7 protrude from the end of the tube 21, in this embodiment, the lenses 6 and the light emitting components 7 are welded and fixed on a control circuit board 8 provided with electronic components 81, the control circuit board 8 is fixed inside the tube 21 and is connected to the plug connector 3 by a wire 82, the two light emitting components 7 are high-brightness light emitting diodes, i.e. the two light emitting components 7 are L ED.

Through the combination of the components, when the observation mirror is used, the light-emitting component 7 arranged on the front end tube body 21 of the bougie 2 illuminates, the lens 6 captures the organ image, the organ image is displayed on the display equipment 5 such as the tablet computer, so as to observe the state of the human organ, the captured image angle is wider due to the two juxtaposed lenses 6, and the image display effect of the observation mirror is improved.

Please refer to fig. 3, which is a usage state diagram of the first embodiment, when capturing images of organs, the two lenses 6 are placed at the end of the tube 21, so that images of organs at different angles can be captured respectively, although the images captured by the two lenses 6 have an overlapping area a, after the image signals of the overlapping area a are transmitted to the control circuit board 8, the overlapping area a can be eliminated by the electronic component 81, so that the images captured by the two lenses 6 are added and then completely displayed on the display device 5 such as a tablet computer, thereby making the captured image angle wider, and improving the image display effect of the observation mirror.

Example two:

please refer to fig. 4, which is a diagram of a second structure of the embodiment of the present invention. As shown in fig. 4, the lens 6 and the light emitting element 7 are embedded in the tube 21 fixed to the bougie 2, that is, the lens 6 and the light emitting element 7 are embedded in the axial end of the tube 21 fixed to the bougie 2, the lens 6 and the light emitting element 7 protrude out of the end of the tube 21, the control circuit board 8 is disposed inside the connector 3, and the lens 6 and the light emitting element 7 are connected to the control circuit board 8 and the control circuit board 8 are connected to the connector 3 by wires 82.

Example three:

please refer to fig. 5, which is a diagram of a third structure according to an embodiment of the present invention. As shown in fig. 5, the lens 6 and the light emitting element 7 are soldered to a circuit board 9, the circuit board 9 is fixed inside the tube 21 of the bougie 2, the lens 6 and the light emitting element 7 are exposed from the end of the tube 21, the control circuit board 8 is disposed inside the connector 3, and the circuit board 9 and the control circuit board 8 and the connector 3 are connected by wires 82.

Example four:

referring to fig. 6, a fourth structural diagram of the embodiment of the present invention is shown. As shown in fig. 6, the lens 6 and the light emitting element 7 are soldered and fixed on a circuit board 9, the circuit board 9 is combined with the control circuit board 8 having an electronic element 81, the lens 6 and the light emitting element 7 are exposed from the end of the tube 21, wherein the circuit board 9 is connected with the control circuit board 8 at an angle of 90 °, i.e. the circuit board 9 is perpendicular to the control circuit board 8, in this embodiment, the circuit board 9 is vertically arranged, the control circuit board 8 is horizontally arranged, the two are inverted T-shaped after being combined, and the control circuit board 8 is connected to the connector 3 through a wire 82. The light emitting component is a light emitting diode.

To sum up, the utility model discloses at the body of sight glass bougie, be equipped with two at least camera lenses and two light-emitting component, make camera lens and light-emitting component be the interval setting, the control circuit board of body inside or plug connector inside is located in the cooperation, constitutes many camera lenses sight glass structure, makes the sight glass catch the image through many camera lenses to the image angle that makes the retrieval is more wide, and then can improve the image display effect of sight glass.

The above embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention as defined by the claims, and all modifications of the embodiments or substitutions in similar ways should be considered as falling within the scope of the present invention without departing from the content of the present invention or exceeding the scope defined by the claims.

Claims (6)

1. The utility model provides a many camera lenses sight glass structure, is equipped with a soft material and is the endotracheal tube of transparence, plants a flexible bougie at this endotracheal tube, and the front end nestification of this bougie has a body, is equipped with the image acquisition unit in the body, and the bougie rear end is equipped with a plug connector, and this plug connector is pegged graft in a handheld piece that is equipped with transmission circuit, its characterized in that:

the image capturing unit of the tube body is provided with at least two lenses and at least two light-emitting components juxtaposed with the two lenses, the lenses and the light-emitting components are arranged at intervals and are respectively connected with a control circuit board, and the control circuit board is connected with a plug connector.

2. A multi-lens viewer structure according to claim 1, wherein: the lens and the light-emitting component are fixed on a control circuit board in a welding mode, and the control circuit board is fixed inside the tube body and connected to the plug connector through a lead.

3. A multi-lens viewer structure according to claim 1, wherein: the lens and the light-emitting component are embedded and fixed in the tube body, the control circuit board is arranged in the plug connector, and the lens and the light-emitting component are connected with the control circuit board and the control circuit board are connected with the plug connector through wires.

4. A multi-lens viewer structure according to claim 1, wherein: the lens and the light-emitting component are fixed on a circuit board in a welding mode, the circuit board is fixed inside the tube body, the control circuit board is arranged inside the plug connector, and the circuit board and the control circuit board and the plug connector are connected through wires.

5. A multi-lens viewer structure according to claim 1, wherein: the lens and the light-emitting component are fixed on a circuit board in a welding way, the circuit board is perpendicular to the control circuit board, and the control circuit board is connected with the plug connector through a lead.

6. A multi-lens viewer structure according to claim 1, wherein: the light emitting component is a light emitting diode.

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