CN103462673B - A kind of thoracic cavity puncture equipment - Google Patents

Abstract

The present invention relates to a kind of thoracic cavity puncture equipment.It is all first to be positioned by B ultrasonic, is then the most manually punctured by doctor.Because the ribbed stop of thoracentesis, so to select to carry out in the gap of rib tilting to puncture.This thoracic cavity puncture equipment includes the B ultrasonic machine that an operating board and supplying patient to couch is connected on operating board, slide on described operating board and join a real-time monitor, described B ultrasonic machine includes main frame, image data transmission line and probe, wherein said image data transmission line one end is connected on main frame, and the other end is connected with the input of real-time monitor；Described probe is provided with a puncture tank, and this puncture tank is that bottom is provided with a hole, puncture needle position, its flute profile the most gradually fanning.The present invention transformation by sonde configuration, monitors in real time be incorporated into B ultrasonic location and puncture overall process on a continuous print operating platform, especially accommodate thoracic cavity orientation angle and puncture use.

Description

A kind of thoracic cavity puncture equipment

Technical field

The present invention relates to a kind of thoracic cavity puncture equipment.

Background technology

At present, thoracentesis, it is all first to be positioned by B ultrasonic, is then rule of thumb carried out by doctor artificial Puncture.If point of puncture is at abdominal part, vertical puncturing can be carried out.When but point of puncture is in thoracic cavity, because Ribbed stop, so to select to carry out in the gap of rib tilting to puncture, such as in thoracentesis field, Require point of puncture 7～9 intercostals or suitable 6,7 intercostals of midaxillary line under omoplate, can gas bleeding treatment gas Breast, also is able to extract inflammatory exudate in pleural space out simultaneously, or injection of medicine is to treat pleuritis, and releasing is exhaled Inhale distress syndrome, extract liquid out and can be used as the multiple uses such as chemical examination, antibacterial culturing, once lack experience or sentence Disconnected error, the artificial accuracy rate punctured is the most bad weighs evaluation.

Summary of the invention

The technical problem to be solved in the present invention is the drawbacks described above how overcoming prior art, it is provided that a kind of thoracic cavity Pricking device.

For solving above-mentioned technical problem, this thoracic cavity puncture equipment includes an operating board couched for patient and even The B ultrasonic machine being connected on operating board, described operating board is slided and joins a real-time monitor, and described B ultrasonic machine includes Main frame, image data transmission line and probe, wherein said image data transmission line one end is connected on main frame, The other end is connected with the input of real-time monitor；Described probe is provided with a puncture tank, and this puncture tank is Bottom is provided with a hole, puncture needle position, its flute profile the most gradually fanning.

It is so designed that, can position first with B ultrasonic machine probe, then after finding accurate location, by puncture needle Position pore pressure this position tight, then utilizes perforator to thrust thoracic cavity by hole, puncture needle position, owing to B ultrasonic machine is popped one's head in Do not leave patient body, thus still can by real time monitoring screen to observe piercing needle intrathoracic accurately Position, monitoring screen is arranged on operating board side in real time, and doctor need not leave operation for just can observe and continue Continuous operation, punctures flute profile and the most gradually launches in covering of the fan, make puncture angle arbitrarily to adjust.

As optimization, described operating board edge is provided with track, and real-time monitor is sliding to be assigned on this track.So Design, can be without 360 ° of observing from arbitrarily angled without dead angle, it is simple in surgical after evolution Observation to focus

As optimization, this track ovalize described, it is an end to end guide rod.It is so designed that, real Time monitor and motion smooth and easy, fixed position is continuous.

As optimization, this track ovalize described, it is an end to end guide groove.It is so designed that, real Time monitor and motion smooth and easy, fixed position is continuous.

As optimization, described real-time monitor lower end is provided with guide rail bindiny mechanism, and this guide rail bindiny mechanism includes Pars contractilis and connecting portion, wherein pars contractilis is a telescopic cylinder, and connecting portion is an angle being set on guide rod Adjusting sleeve pipe, this angular adjustment sleeve pipe is provided with a fastening bolt.It is so designed that, can arbitrarily adjust prison in real time Survey position and the angle of device, facilitate the Real Time Observation of doctor.

As optimization, described real-time monitor lower end is provided with guide groove bindiny mechanism, and this guide groove bindiny mechanism includes Pars contractilis and angle adjustment, wherein pars contractilis is one section of transposition arm, and angle adjustment is arranged on transposition arm end End, angle adjustment one angle fixes swing arm.Be so designed that, can arbitrarily adjust real-time monitor position and Angle, facilitates the Real Time Observation of doctor.

As optimization, the covering of the fan expanded angle of described puncture tank is ± 45 °, and its inner surface is provided with angle index Line.It is so designed that, it is simple to determine and adjust puncture angle.

As optimization, described puncture tank width is 20mm, and described puncture needle position bore dia is 1mm.

One thoracic cavity puncture equipment of the present invention design is ingenious, configure simple, with low cost, simple operation, logical Cross the transformation of sonde configuration, by B ultrasonic location with puncture overall process and monitor that to be incorporated into a continuous print operation flat in real time On platform, especially accommodate thoracic cavity orientation angle and puncture use.

Accompanying drawing explanation

Below in conjunction with the accompanying drawings one thoracic cavity puncture equipment of the present invention is described further:

Fig. 1 is the structural representation of the embodiment one of this kind of thoracic cavity puncture equipment；

Fig. 2 is the structural representation of the embodiment two of this kind of thoracic cavity puncture equipment.

In figure: 1-operating board, 2-B surpass machine, 3-real-time monitor, 4-main frame, 5-image data transmission line, 6-probe, 7-puncture tank, hole, 8-puncture needle position, 9-guide rod, 10-guide groove, 11-telescopic cylinder, 12-angle Adjusting sleeve pipe, 13-transposition arm, 14-angle fix swing arm.

Detailed description of the invention

Embodiment one: as it is shown in figure 1, this thoracic cavity puncture equipment includes an operating board 1 couched for patient With a B ultrasonic machine 2 being connected on operating board 1, described operating board 1 is slided and joins a real-time monitor 3, institute Stating B ultrasonic machine 2 and include main frame 4, image data transmission line 5 and probe 6, wherein said image data transmits Line 5 one end is connected on main frame 4, and the other end is connected with the input of real-time monitor 3；Described probe 6 are provided with a puncture tank 7, and this puncture tank 7 is provided with a hole, puncture needle position 8 for bottom, its flute profile upwards by Gradually fanning.

Described operating board 1 edge is provided with track, and real-time monitor 3 is sliding to be assigned on this track.This track described Ovalize, it is an end to end guide rod 9.Described real-time monitor 3 lower end is provided with guide rail and connects machine Structure, this guide rail bindiny mechanism includes pars contractilis and connecting portion, and wherein pars contractilis is a telescopic cylinder 11, even The portion of connecing is an angular adjustment sleeve pipe 12 being set on guide rod 9, and it is tight that this angular adjustment sleeve pipe 12 is provided with one Fixing bolt；The covering of the fan expanded angle of described puncture tank 7 is ± 45 °, and its inner surface is provided with angle index line. Described puncture tank 7 width is 20mm, a diameter of 1mm in hole 8, described puncture needle position.

Embodiment two: as in figure 2 it is shown, this thoracic cavity puncture equipment includes an operating board 1 couched for patient With a B ultrasonic machine 2 being connected on operating board 1, described operating board 1 is slided and joins a real-time monitor 3, institute Stating B ultrasonic machine 2 and include main frame 4, image data transmission line 5 and probe 6, wherein said image data transmits Line 5 one end is connected on main frame 4, and the other end is connected with the input of real-time monitor 3；Described probe 6 are provided with a puncture tank 7, and this puncture tank 7 is provided with a hole, puncture needle position 8 for bottom, its flute profile upwards by Gradually fanning.

Described operating board 1 edge is provided with track, and real-time monitor 3 is sliding to be assigned on this track.This track described Ovalize, it is an end to end guide groove 10.Described real-time monitor 3 lower end is provided with guide groove and connects Mechanism, this guide groove bindiny mechanism includes pars contractilis and angle adjustment, and wherein pars contractilis is one section of transposition arm 13, angle adjustment is arranged on transposition arm 13 end, and angle adjustment one angle fixes swing arm 14.Described The covering of the fan expanded angle of puncture tank 7 is ± 45 °, and its inner surface is provided with angle index line.Described puncture tank 7 Width is 20mm, a diameter of 1mm in hole 8, described puncture needle position.

The present invention includes but not limited to above-mentioned embodiment, any meets the product that the claims describes, Within each falling within protection scope of the present invention.

Claims (5)

1. a thoracic cavity puncture equipment, is characterized in that: include an operating board (1) couched for patient and even The B ultrasonic machine (2) being connected on operating board (1), the upper cunning of described operating board (1) is joined one and is monitored in real time Device (3), described B ultrasonic machine (2) includes main frame (4), image data transmission line (5) and probe (6), described main frame (4) is arranged on the lower section of described operating board (1), wherein said image number Being connected on main frame (4) according to transmission line (5) one end, the other end is defeated with real-time monitor (3) Enter end to be connected；Described probe (6) is provided with a puncture tank (7), and this puncture tank (7) is the end Portion is provided with a hole, puncture needle position (8), the flute profile the most gradually fanning of puncture tank (7)；Institute Stating operating board (1) edge and be provided with track, real-time monitor (3) is sliding to be assigned on this track；Described The fan out angle of puncture tank (7) is ± 45 °, and the inner surface of described puncture tank (7) is provided with Angle index line；Described puncture tank (7) width is 20mm, described puncture needle position hole (8) diameter For 1mm.

Thoracic cavity puncture equipment the most according to claim 1, is characterized in that: described track ovalize, It is an end to end guide rod (9).

Thoracic cavity puncture equipment the most according to claim 1, is characterized in that: described track ovalize, It is an end to end guide groove (10).

Thoracic cavity puncture equipment the most according to claim 2, is characterized in that: described real-time monitor (3) Lower end is provided with guide rail bindiny mechanism, and this guide rail bindiny mechanism includes pars contractilis and connecting portion, Qi Zhongshen Contracting portion is a telescopic cylinder (11), and connecting portion is an angular adjustment set being set on guide rod (9) Pipe (12), this angular adjustment sleeve pipe (12) is provided with a fastening bolt.

Thoracic cavity puncture equipment the most according to claim 3, is characterized in that: described real-time monitor (3) Lower end is provided with guide groove bindiny mechanism, and this guide groove bindiny mechanism includes pars contractilis and angle adjustment, its Middle pars contractilis is one section of transposition arm (13), and angle adjustment is arranged on transposition arm end, angular adjustment Portion is provided with an angle and fixes swing arm (14).