CN214970547U - Breathing machine pipeline bearing structure - Google Patents

Abstract

The utility model provides a breathing machine pipeline bearing structure for solve the prior art that mentions among the background art and directly place the gasbag and support on patient's health, thereby cause the easy activity of gasbag to shift, cause the influence to the technical problem of tracheal supporting effect, including first pole setting, horizontal pole, second pole setting, take notched gasbag and centre gripping subassembly, the horizontal pole is fixed between first pole setting top and second pole setting bottom, and the top of second pole setting is located through coupling assembling to the gasbag, and the bottom of first pole setting is located to the centre gripping subassembly, is used for being connected with bed body limit portion centre gripping, the utility model discloses simple structure, convenient to use, mainly used supports the trachea of connecting the breathing machine.

Description

Breathing machine pipeline bearing structure

Technical Field

The utility model relates to the field of medical technology, concretely relates to install firm breathing machine pipeline bearing structure.

Background

The trachea cannula of a patient through nose or trachea incision of a mechanically ventilated patient needs to pass through a breathing trachea, is connected with a breathing machine, is generally longer in length and has certain weight, the trachea connected with the breathing machine is easy to droop and is in contact with the body of the patient when the trachea cannula is used specifically, certain discomfort is caused to the patient due to the phenomenon, and the normal use of the breathing machine is influenced due to the phenomenon.

The utility model patent document entitled "CN 203749960U" for the utility model discloses a trachea is supported in the utility model discloses a be used for supporting above-mentioned tracheal gasbag, when specifically using, medical personnel need directly place patient's health with the gasbag on to support the trachea through the gasbag, only place patient's health with the gasbag on, this kind of mode can not fix the gasbag well, thereby causes the easy activity of gasbag to shift, thereby the influence is to tracheal support effect.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is not enough to prior art, provides a breathing machine pipeline bearing structure for the prior art who mentions in the solution background art directly places the gasbag and supports on patient's health, thereby causes the easy activity of gasbag to shift, causes the technical problem that the influence is to tracheal support effect.

The utility model provides a breathing machine pipeline bearing structure, includes first pole setting, horizontal pole, second pole setting, has notched gasbag and centre gripping subassembly, and the horizontal pole is fixed between first pole setting top and second pole setting bottom, and the top of second pole setting is located through coupling assembling to the gasbag, and the bottom of first pole setting is located to the centre gripping subassembly for be connected with bed body limit portion centre gripping.

The working principle is as follows: the patient generally lies on the sick bed, and medical personnel fix horizontal pole, first pole setting, second pole setting on the sick bed through the centre gripping subassembly, and the horizontal pole is located the chest top of the patient that lies on the sick bed this moment, therefore second pole setting and gasbag all are located the top of patient's chest.

Later medical personnel will be in with the trachea joint that the breathing machine is connected in the recess of gasbag, the gasbag can support the trachea effectively this moment to prevent trachea tenesmus and patient contact.

The utility model has the advantages that:

the utility model discloses in, through setting up the centre gripping subassembly, the centre gripping subassembly can be fixed first pole setting, horizontal pole and second pole setting on the sick bed effectively, consequently can install the location to the gasbag effectively, prevents that the gasbag from causing the poor problem of trachea supporting effect in the off-normal position in the use, the utility model discloses the supporting effect is stable, can support the trachea steadily.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Description of reference numerals: the clamping device comprises a first vertical rod 1, a cross rod 2, a second vertical rod 3, a groove 4, an air bag 5, a clamping plate 6, a first bolt 7, a nut 8, a cavity rod 9, a penetrating rod 10, a second bolt 11, a mounting plate 12, a clamping groove 13, a rotating shaft 14, a supporting rod 15, a third bolt 16 and an inflation valve 17.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

As shown in figure 1, a breathing machine pipeline bearing structure, including first pole setting 1, horizontal pole 2, second pole setting 3, have gasbag 5 and the centre gripping subassembly of recess 4, horizontal pole 2 is fixed between 1 top of first pole setting and 3 bottoms of second pole setting, and the top of second pole setting 3 is located through coupling assembling to gasbag 5, and the bottom of first pole setting 1 is located to the centre gripping subassembly for be connected with bed body limit portion centre gripping, be connected with inflation valve 17 on the gasbag 5, when no longer using, medical personnel's accessible inflation valve 17 is deflated gasbag 5, and this kind of mode is more convenient for accomodate gasbag 5.

As shown in fig. 1, the clamping assembly comprises two clamping plates 6 which are horizontal and vertically corresponding, a first bolt 7 and a nut 8, wherein the clamping plate 6 positioned above the clamping assembly is fixedly connected with the bottom end of the first vertical rod 1, the first bolt 7 vertically penetrates through the two clamping plates 6, the first bolt 7 can vertically slide, the nut 8 is in threaded connection with the first bolt 7, and the nut 8 is positioned on the outer side, opposite to the two clamping plates 6.

When specifically using, medical personnel at first screw out nut 8, then are located the grip block 6 of below through removing to adjust the interval between two grip blocks 6, then with two grip blocks 6 centre grippings in the upper and lower both sides of sick bed limit portion, thereby later make two grip blocks 6 all with the upper and lower both sides butt of sick bed limit portion through removing first bolt 7 again nut 8 is screwed in once more at last, thereby make two grip blocks 6 firmly the limit portion of sick bed of centre gripping, this kind of mode can adapt to the limit portion to the certain thickness of sick bed and carry out the centre gripping, thereby the adaptation carries out the centre gripping to the sick bed limit portion of different models.

As shown in fig. 1, the first vertical rod 1 includes a vertical cavity rod 9 and a penetrating rod 10 vertically penetrating into the cavity rod 9 from the top end of the cavity rod 9, the penetrating rod 10 can slide vertically, and the penetrating rod 10 can rotate relative to the cavity rod 9. Horizontal pole 2 and the top fixed connection who wears to establish pole 10 are located the bottom fixed connection of grip block 6 and cavity pole 9 of top, on the 9 lateral walls of cavity pole a threaded connection precession back can with wear to establish the second bolt 11 of pole 10 butt, cavity pole 9, wear to establish pole 10, horizontal pole 2 and second pole setting 3 are the plastic material.

Through vertical removal wear to establish pole 10, later rethread second bolt 11 locks the position of wearing to establish pole 10, and this kind of mode can indirectly adjust 2 high apart from the sick bed of horizontal pole, because different patients' size is different, the thickness of different patient chests is also different, therefore 2 high apart from the sick bed of horizontal pole can be adjusted to this kind of mode to satisfy the operation requirement to different size patients.

As shown in fig. 1, coupling assembling is including locating the link on 3 tops of second pole setting and fixing mounting panel 12 on the link, it has joint groove 13 to open on mounting panel 12, 5 joints of gasbag are in joint groove 13. The connecting frame comprises a transverse rotating shaft 14 penetrating through the second vertical rod 3 and a bent supporting rod 15 fixedly connected with the rotating shaft 14, and the mounting plate 12 is fixedly connected with the supporting rod 15. A third bolt 16 which can be screwed in and then abutted against the rotating shaft 14 is connected to the second vertical rod 3 in a threaded manner.

Through rotating pivot 14, and then pivot 14 drives bracing piece 15 and rotates, and bracing piece 15 drives mounting panel 12 in step and rotates, and then mounting panel 12 drives gasbag 5 and rotates, and this kind of mode can adjust gasbag 5 effectively to tracheal support angle to further adapt to tracheal support requirement, and adapt to patient's breathing requirement.

The working principle is as follows: as shown in fig. 1, a medical worker fixes a cross rod 2, a first vertical rod 1 and a second vertical rod 3 on a hospital bed through a clamping assembly, at the moment, the cross rod 2 is located above the chest of a patient lying on the hospital bed, so the second vertical rod 3 and an air bag 5 are both located above the chest of the patient, specifically, the medical worker firstly screws out a nut 8, then adjusts the distance between the two clamping plates 6 by moving the clamping plates 6 located below, then clamps the two clamping plates 6 on the upper and lower sides of the hospital bed edge part, then screws in the nut 8 again by moving a first bolt 7 so that the two clamping plates 6 are abutted to the upper and lower sides of the hospital bed edge part, and finally screws in the nut 8 again, so that the two clamping plates 6 firmly clamp the upper and lower sides of the hospital bed edge part.

Afterwards according to the difference of patient's chest thickness, medical personnel can suitably the pull wear to establish pole 10 to the messenger wears to establish pole 10 and drives horizontal pole 2 vertical removal, just is located suitable height above the chest that horizontal pole 2 is located patient, later medical personnel's precession again second bolt 11, thereby fixes the position of wearing to establish pole 10.

Then according to actual need, medical personnel can rotate the pivot 14, and then make pivot 14 drive bracing piece 15, mounting panel 12 and gasbag 5 synchronous rotation, when rotating to suitable angle, later the rethread third bolt 16 supports tight pivot 14 thereby prevents pivot 14 from rotating once more.

At last medical personnel will be in with the trachea joint that the breathing machine is connected in the recess 4 of gasbag 5, gasbag 5 can support the trachea effectively this moment to prevent trachea tenesmus and patient contact.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (9)

1. The utility model provides a breathing machine pipeline bearing structure which characterized in that: including first pole setting (1), horizontal pole (2), second pole setting (3), gasbag (5) and the centre gripping subassembly that has recess (4), horizontal pole (2) are fixed between first pole setting (1) top and second pole setting (3) bottom, and the top of second pole setting (3) is located through coupling assembling in gasbag (5), and the bottom of first pole setting (1) is located to the centre gripping subassembly for be connected with bed body limit portion centre gripping.

2. A ventilator circuit support structure according to claim 1, wherein: the clamping assembly comprises two clamping plates (6) which are horizontally and vertically corresponding, a first bolt (7) and a nut (8), wherein the clamping plates (6) which are located above the clamping assembly are fixedly connected with the bottom end of the first vertical rod (1), the first bolt (7) vertically penetrates through the two clamping plates (6), the first bolt (7) can vertically slide, the nut (8) is in threaded connection with the first bolt (7), and the nut (8) is located on the outer side, opposite to the two clamping plates (6).

3. A ventilator circuit support structure according to claim 2, wherein: first pole setting (1) include vertical cavity pole (9) and one from the vertical pole (10) of establishing of wearing to wear to establish in cavity pole (9) in the top of cavity pole (9), should wear to establish pole (10) and can follow vertical slip, horizontal pole (2) and the top fixed connection who wears to establish pole (10), the bottom fixed connection of grip block (6) and cavity pole (9) that are located the top, threaded connection one on cavity pole (9) lateral wall can with wear to establish second bolt (11) of pole (10) butt after precessing.

4. A ventilator circuit support structure according to claim 3, wherein: the penetrating rod (10) can rotate relative to the cavity rod (9).

5. A ventilator circuit support structure according to claim 1, wherein: coupling assembling is including locating the link on second pole setting (3) top and fixing mounting panel (12) on the link, it has joint groove (13) to open on mounting panel (12), gasbag (5) joint is in joint groove (13).

6. A ventilator circuit support structure according to claim 5, wherein: the connecting frame comprises a transverse rotating shaft (14) penetrating through the second upright rod (3) and a bent supporting rod (15) fixedly connected with the rotating shaft (14), and the mounting plate (12) is fixedly connected with the supporting rod (15).

7. A ventilator circuit support structure according to claim 6, wherein: and a third bolt (16) which is screwed in and can be abutted against the rotating shaft (14) is connected to the second vertical rod (3) in a threaded manner.

8. A ventilator circuit support structure according to claim 4, wherein: the cavity rod (9), the penetrating rod (10), the cross rod (2) and the second vertical rod (3) are all made of plastic materials.

9. A ventilator circuit support structure according to claim 1, wherein: the air bag (5) is connected with an inflation valve (17).

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