CN220404539U - Support is transported in external membranous pulmonary oxygenation - Google Patents

Abstract

The utility model discloses an in vitro membranous pulmonary oxygenation transport bracket, which comprises the following components: the device comprises a supporting plate, a groove, a driving piece, a clamping plate and a supporting piece; the first end of the supporting plate is inwards recessed to form a fixed groove, the driving piece is horizontally arranged on the supporting plate, the clamping plate connected with the first end of the driving piece is positioned in the groove, and the driving piece can drive the clamping plate to be connected with the external membrane lung oxygenation host; the utility model has the beneficial effects that the groove is formed on one side of the supporting plate, the clamping plate and the driving piece for driving the clamping plate to move are arranged in the groove, and the supporting piece is arranged on the other side of the supporting plate, so that the external membrane lung oxygenation control panel, the external membrane lung oxygenation device and the external membrane lung oxygenation driving unit can be conveniently fixed on the supporting piece 5, and the integrated installation is formed, and the conditions of the patient, such as transportation inspection, transfer treatment and the like, are convenient.

Description

Support is transported in external membranous pulmonary oxygenation

Technical Field

The utility model relates to the technical field of medical treatment, in particular to an in-vitro membranous pulmonary oxygenation transport bracket.

Background

ECMO is an extracorporeal circulation technique that exits the heart operating room. The principle is that venous blood in the body is led out of the body, is infused into the artery or vein system of a patient after being subjected to artificial heart-lung bypass oxygenation by special materials, plays a part in heart-lung substitution, and maintains oxygenation blood supply of organ tissues of a human body. The existing ECMO host, control panel, oxygenator and driving unit are difficult to integrate and connect as a whole, so that the conditions of patient out transportation inspection, transfer and treatment in the use process are inconvenient.

Disclosure of Invention

In order to solve the technical problems in the prior art, the utility model discloses an in-vitro membranous pulmonary oxygenation transport bracket, which comprises the following components: the device comprises a supporting plate, a groove, a driving piece, a clamping plate and a supporting piece;

the first end of the supporting plate is inwards recessed to form a fixed groove, the driving piece is horizontally arranged on the supporting plate, the clamping plate connected with the first end of the driving piece is positioned in the groove, and the driving piece can drive the clamping plate to be connected with the external membrane lung oxygenation host;

the support piece with the backup pad is kept away from driving piece one end perpendicular connection, the support piece is used for supporting the backup pad and fixing outer membrane lung oxygenation body support and centrifugal pump drive unit.

Optionally, the driving piece includes first threaded rod and bearing, first threaded rod with the backup pad is connected, first threaded rod with be provided with the bearing between the cardboard.

Optionally, the driving piece further comprises a first handle, and the first handle is connected with one side, away from the clamping plate, of the first threaded rod.

Optionally, the cardboard is kept away from first threaded rod one side is arc structure.

Optionally, the support piece includes fixed pipe and second threaded rod, fixed pipe set up in the backup pad bottom, the second threaded rod pass the backup pad with fixed pipe threaded connection.

Optionally, the support member further includes a second handle, and the second handle is disposed on an end of the second threaded rod away from the fixed tube.

The utility model provides an in-vitro membranous pulmonary oxygenation transport bracket which has the following beneficial effects: the device is provided with the groove on one side of the supporting plate, the clamping plate is arranged in the groove, the driving piece for driving the clamping plate to move and the supporting piece is arranged on the other side of the supporting plate, so that the outer membrane lung oxygenation control panel, the outer membrane lung oxygenation device and the outer membrane lung oxygenation driving unit are conveniently fixed on the supporting piece, and the device is integrally installed, so that the device is convenient for patients to go out, transport, check, transfer, rescue and the like.

Drawings

FIG. 1 is a schematic diagram of the front view of the present utility model;

fig. 2 is a schematic top view of the present utility model.

The attached drawings are identified:

1. a support plate; 2. a groove; 3. a driving member; 4. a clamping plate; 5. a support; 31. a first threaded rod; 32. a bearing; 33. a first handle; 51. a fixed tube; 52. a second threaded rod; 53. and a second handle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The specific embodiment of the utility model provides an in-vitro membranous pulmonary oxygenation transport bracket, which comprises the following components: the device comprises a supporting plate 1, a groove 2, a driving piece 3, a clamping plate 4 and a supporting piece 5; the first end of the supporting plate 1 is inwards recessed to form a fixed groove 2, the driving piece 3 is horizontally arranged on the supporting plate 1, a clamping plate 4 connected with the first end of the driving piece 3 is positioned in the groove 2, and the driving piece 3 can drive the clamping plate 4 to be connected with an external membrane pulmonary oxygenation host; the support piece 5 is vertically connected with one end, far away from the driving piece 3, of the support plate 1, and the support piece 5 is used for supporting the support plate 1 and fixing an external membrane lung oxygenation body support and a centrifugal pump driving unit; the driving piece 3 comprises a first threaded rod 31 and a bearing 32, the first threaded rod 31 is connected with the supporting plate 1, and the bearing 32 is arranged between the first threaded rod 31 and the clamping plate 4; the driving piece 3 further comprises a first handle 33, and the first handle 33 is connected with one side of the first threaded rod 31 away from the clamping plate 4; one side of the clamping plate 4, which is far away from the first threaded rod 31, is of an arc-shaped structure; the support 5 comprises a fixed pipe 51 and a second threaded rod 52, the fixed pipe 51 is arranged at the bottom of the support plate 1, and the second threaded rod 52 penetrates through the support plate 1 to be in threaded connection with the fixed pipe 51; the support 5 further comprises a second handle 53, and the second handle 53 is disposed on an end of the second threaded rod 52 away from the fixed tube 51.

Examples

According to fig. 1 and 2, an embodiment of the present utility model provides an extracorporeal membrane lung oxygenation transport stent, which comprises: the device comprises a supporting plate 1, a groove 2, a driving piece 3, a clamping plate 4 and a supporting piece 5; the first end of the supporting plate 1 is inwards recessed to form a fixed groove 2, the driving piece 3 is horizontally arranged on the supporting plate 1, a clamping plate 4 connected with the first end of the driving piece 3 is positioned in the groove 2, and the driving piece 3 can drive the clamping plate 4 to be connected with an external membrane pulmonary oxygenation host; the support piece 5 is vertically connected with one end, far away from the driving piece 3, of the support plate 1, and the support piece 5 is used for supporting the support plate 1 and fixing an external membrane lung oxygenation body support and a centrifugal pump driving unit.

Specifically, set up flutedly 2 in the backup pad 1, the pipe fitting or the handle at the outer membrane lung oxygenation host computer top of being convenient for enters into in the recess 2, rethread driving piece 3 drives cardboard 4 and removes, can be connected backup pad 1 and outer membrane lung oxygenation host computer, backup pad 1 is rectangular platy structure, its upper surface still can support and place some article, the support piece 5 is installed perpendicularly in backup pad 1 side of keeping away from driving piece 3, support piece 5 is used for supporting backup pad 1, also be convenient for fix outer membrane lung oxygenation control panel, outer membrane lung oxygenation oxo ware and outer membrane lung oxygenation drive unit on support piece 5, thereby form integrated installation with it, the patient of being convenient for is out and is transported the inspection, the condition such as nursing and cure.

The driving piece 3 comprises a first threaded rod 31 and a bearing 32, the first threaded rod 31 is connected with the supporting plate 1, and the bearing 32 is arranged between the first threaded rod 31 and the clamping plate 4.

The driving member 3 further comprises a first handle 33, and the first handle 33 is connected to a side of the first threaded rod 31 away from the clamping plate 4.

Specifically, the driving piece 3 includes first threaded rod 31, bearing 32 and first handle 33, first threaded rod 31 level is connected with backup pad 1, cardboard 4 is located in recess 2, and it is connected through bearing 32 with first threaded rod 31, first handle 33 installs in one side that cardboard 4 was kept away from to first threaded rod 31, consequently, can drive first threaded rod 31 rotation through first handle 33, thereby drive cardboard 4 horizontal migration in recess 2, and then can be connected fixedly with the part that enters into the outer membranous pulmonary oxygenation host computer top in recess 2, convenient operation, but other parts of joint can be convenient for on the backup pad 1, the outer membranous pulmonary oxygenation host computer is convenient for go out, control panel, oxygenator and drive unit integration, the patient is convenient for to go out and is transported the circumstances such as inspection, transfer treatment. It can be understood that the driving member 3 may be an electric push rod or other structures capable of driving the clamping plate 4 to move horizontally in the groove, which are all within the scope of the present application.

The side of the clamping plate 4 far away from the first threaded rod 31 is of an arc-shaped structure.

Specifically, cardboard 4 keep away from first threaded rod 31 one side and be arc structure, make its more adaptation be connected in the part at outer membrane pulmonary oxygen host computer top, improve the stability of connection, improve the security of transporting.

The support 5 comprises a fixed pipe 51 and a second threaded rod 52, the fixed pipe 51 is arranged at the bottom of the support plate 1, and the second threaded rod 52 penetrates through the support plate 1 to be in threaded connection with the fixed pipe 51.

The support 5 further comprises a second handle 53, and the second handle 53 is disposed on an end of the second threaded rod 52 away from the fixed tube 51.

Specifically, support piece 5 includes fixed pipe 51, second threaded rod 52 and second handle 53, fixed pipe 51 is located backup pad 1 bottom, second threaded rod 52 bottom and fixed pipe 51 threaded connection, second handle 53 is installed at second threaded rod 52 top for drive second threaded rod 52 rotates, can install fixed pipe 51 in the bottom of backup pad 1 like this, accessible buckle and link installation control panel on the fixed pipe 51, when making things convenient for medical personnel to watch, the external membrane pulmonary oxygenation host computer of being convenient for, control panel, oxygenator and drive unit integration, the patient of being convenient for is out and is transported the condition such as inspection, transfer rescue.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The term "comprising" an element defined by the term "comprising" does not exclude the presence of other identical elements in a process, method, article or apparatus that comprises the element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An in vitro membranous pulmonary oxygenation transport stent comprising: the device comprises a supporting plate (1), a groove (2), a driving piece (3), a clamping plate (4) and a supporting piece (5);

the first end of the supporting plate (1) is inwards recessed to form a fixed groove (2), the driving piece (3) is horizontally arranged on the supporting plate (1), a clamping plate (4) connected with the first end of the driving piece (3) is positioned in the groove (2), and the driving piece (3) can drive the clamping plate (4) to be connected with an external membrane lung oxygenation host;

the support piece (5) is vertically connected with one end, far away from the driving piece (3), of the support plate (1), and the support piece (5) is used for supporting the support plate (1) and fixing an external membrane pulmonary oxygenation body support and a centrifugal pump driving unit.

2. The extracorporeal membrane lung oxygenation transport stand according to claim 1, wherein the drive member (3) comprises a first threaded rod (31) and a bearing (32), the first threaded rod (31) is connected with the support plate (1), and the bearing (32) is arranged between the first threaded rod (31) and the clamping plate (4).

3. The extracorporeal membrane oxygenation transport stand according to claim 2, wherein the drive member (3) further comprises a first handle (33), the first handle (33) being connected to a side of the first threaded rod (31) remote from the clamping plate (4).

4. An extracorporeal membrane lung oxygenation transport stent according to claim 3, wherein the side of the clamping plate (4) remote from the first threaded rod (31) is of an arc-shaped structure.

5. The extracorporeal membrane oxygenation transport support according to claim 1, wherein the support (5) comprises a fixed tube (51) and a second threaded rod (52), the fixed tube (51) being arranged at the bottom of the support plate (1), the second threaded rod (52) being threaded through the support plate (1) with the fixed tube (51).

6. The extracorporeal membrane oxygenation transport stand of claim 5, wherein the support member (5) further comprises a second handle (53), the second handle (53) being disposed on an end of the second threaded rod (52) remote from the fixation tube (51).