CN214074011U - Medical suspension bridge - Google Patents

Abstract

The embodiment of the application provides a medical suspension bridge, which comprises a beam assembly, a suspension column assembly, a first bearing and accommodating assembly, a nasal feeding pump installation part and an intravenous infusion pump installation part; the suspension post assembly comprises a first suspension post and a second suspension post which are oppositely arranged at two ends of the cross beam assembly; the first bearing and accommodating component comprises a respirator tray and/or a monitor tray and is arranged on the first hanging column; the nasal feeding pump mounting part comprises a first extension arm rotationally connected with the first hanging column and a nasal feeding pump mounting rack arranged on the first extension arm; the intravenous infusion pump installation part comprises a second extension arm and a first multi-pump installation rod, the second extension arm is rotatably connected with the second hanging column, and the first multi-pump installation rod is arranged on the second extension arm. The medical suspension bridge of the embodiment of the application can effectively distinguish the installation areas of the nasal feeding pump and the intravenous infusion pump, so that an operator can be prevented from confusing the nasal feeding pump and the intravenous infusion pump in clinical work, and further medical risks can be reduced.

Description

Medical suspension bridge

Technical Field

The application relates to the technical field of medical equipment, in particular to a medical suspension bridge.

Background

The medical suspension bridge is mainly used in medical places such as operating rooms, ICUs, medical rooms, rehabilitation rooms and general wards, and can provide good operation and nursing spaces by bearing relevant medical equipment.

The medical suspension bridge has an important function of providing a hanging and operating platform for the intravenous infusion pump, the nasal feeding pump, the infusion bag (infusion bottle) and the like, but the medical suspension bridge in the related technology does not distinguish the management of the nasal feeding pump and the intravenous infusion pump, and certain medical risks exist in the using process.

SUMMERY OF THE UTILITY MODEL

In view of the above, embodiments of the present application are intended to provide a medical suspension bridge to solve the problem that the related art suspension tower does not effectively distinguish between a nasal feeding pump and an intravenous infusion pump.

In order to achieve the above object, an embodiment of the present application provides a medical suspension bridge, including:

a beam assembly;

the suspension post assembly comprises a first suspension post and a second suspension post which are oppositely arranged at two ends of the beam assembly;

the first bearing and containing assembly is arranged on the first hanging column and comprises a breathing machine tray and/or a monitor tray;

the nasal feeding pump mounting part comprises a first extension arm and a nasal feeding pump mounting rack, the first extension arm is rotatably connected with the first lifting column, and the nasal feeding pump mounting rack is arranged on the first extension arm;

the intravenous infusion pump installation department, intravenous infusion pump installation department includes second extension arm and first many pumps installation pole, the second extension arm with the second davit rotates to be connected, first many pumps installation pole sets up on the second extension arm.

Another embodiment of the present application further provides a medical suspension bridge, including:

a beam assembly;

the suspension post assembly comprises a first suspension post and a second suspension post, the first suspension post is arranged at the right end of the beam assembly, and the second suspension post is arranged at the left end of the beam assembly;

the first bearing and accommodating component comprises a breathing machine tray, a monitor tray, a sliding rail, a breathing machine tray mounting piece and a monitor tray mounting piece, and the breathing machine tray mounting piece comprises a fixing part and a rotating part which are rotatably connected; the sliding rail is arranged on the front side of the first hanging column, the monitor tray mounting piece and the fixing part are respectively mounted on the sliding rail, and the monitor tray mounting piece is positioned above the fixing part; the monitor tray mounting part is connected with the monitor tray, and the rotating part is connected with the breathing machine tray; the respirator tray comprises a working state for supporting a respirator and a folded state accommodated on the surface of the first hanging column; when the respirator tray is in a folded state, the fixing part and the rotating part are interlocked to lock the respirator tray in the folded state;

the nasal feeding pump mounting frame comprises a nasal feeding pump connecting rod and a medicine bag hanging part arranged at one end of the nasal feeding pump connecting rod; the first extension arm is arranged at the rear side of the first hanging column and is rotationally connected with the first hanging column, the nasal feeding pump connecting rod penetrates through the first extension arm, and a nasal feeding pump accommodating space is formed between the medicine bag hanging part and the first extension arm;

intravenous infusion pump installation department, intravenous infusion pump installation department includes first many pumps installation pole, the installation pole of the many pumps of second, liquid medicine stores pylon, sets up the second extension arm and the setting of second davit front side are in the third extension arm of second davit rear side, the second extension arm with the second davit rotates to be connected, first many pumps installation pole sets up on the second extension arm, the third extension arm includes first sub-arm and the sub-arm of second, first sub-arm with the second davit rotates to be connected, the sub-arm of second with first sub-arm rotates to be connected, the installation pole of the many pumps of second is close to crossbeam assembly's one end is worn to establish on the first sub-arm, the liquid medicine stores pylon sets up on the sub-arm of second.

The medical drawbridge of this application embodiment through set up nasal feeding pump installation department on first davit, sets up intravenous infusion pump installation department on the second davit, can install nasal feeding pump and intravenous infusion pump respectively on two davits effectively, from this, can distinguish nasal feeding pump and intravenous infusion pump's installation region effectively to can avoid the operator in clinical work, confuse nasal feeding pump and intravenous infusion pump, and then can reduce medical risk.

Drawings

Fig. 1 is a schematic structural diagram of a medical suspension bridge according to an embodiment of the present application;

FIG. 2 is a schematic view of the second extension arm shown in FIG. 1 received on a mounting surface;

FIG. 3 is a partial schematic view of the cluster box shown in FIG. 1 positioned at the nasogastric pump mount;

FIG. 4 is a schematic view of the construction of the cluster block shown in FIG. 3;

FIG. 5 is a schematic view of the structure of FIG. 4 from another perspective;

FIG. 6 is a schematic view of the connection between the first carrying and receiving assembly and the first hanging post of FIG. 1, with the respirator tray in an operating state;

fig. 7 is a schematic view of the connection between the first carrying and accommodating assembly and the first hanging post in fig. 1, wherein the respirator tray is in a folded state.

Description of the reference numerals

A beam assembly 10; a davit assembly 20; a first suspension post 21; a second suspension post 22; the mounting surface 22 a; a first load-bearing storage assembly 30; a ventilator tray 31; a monitor tray 32; a ventilator tray mount 33; a fixed portion 331; the rotating portion 332; a monitor tray mount 34; a nasal feeding pump mounting part 40; a first extension arm 41; a nasal feeding pump mounting bracket 42; nasal feeding pump accommodating space 42 a; nasal feeding pump connecting rod 421; a pouch hanging part 422; an iv pump mount 50; a second extension arm 51; a first multi-pump mounting rod 52; a third extension arm 53; a first sub-arm 531; a second sub-arm 532; a second multi-pump mounting rod 54; a liquid medicine hanger 55; a cluster block 60; a case body 61; a housing space 61 a; a wire passing port 61 b; a box cover 62; a connecting portion 63; a first clamping piece 631; a second clamping piece 632; the opening 63 a; a shaft holding space 63 b; a second carrier housing assembly 70; a placement tray 71; a cabinet 72.

Detailed Description

It should be noted that, in the present application, technical features in examples and embodiments may be combined with each other without conflict, and the detailed description in the specific embodiment should be understood as an explanation of the gist of the present application and should not be construed as an improper limitation to the present application.

In the description of the embodiment of the present application, the "left", "right", "front", "back", "top" and "bottom" orientations or positional relationships are based on the orientations or positional relationships shown in fig. 1, the orientations or positions shown in fig. 1 are corresponding orientations or positions when the sickbed end faces the medical suspension bridge, and the "height" is the top-bottom direction in fig. 1. It is to be understood that such directional terms are merely for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the present application.

An embodiment of the present application provides a medical suspension bridge, please refer to fig. 1, which includes: a cross member assembly 10, a davit assembly 20, a first load bearing housing assembly 30, a nasogastric pump mount 40 and an iv pump mount 50.

The suspension post assembly 20 includes a first suspension post 21 and a second suspension post 22 disposed opposite each other at both ends of the cross beam assembly 10.

The first bearing and accommodating assembly 30 comprises a breathing machine tray 31 and/or a monitor tray 32, and the first bearing and accommodating assembly 30 is arranged on the first hanging post 21, that is, only the breathing machine tray 31 can be arranged on the first hanging post 21, only the monitor tray 32 can be arranged on the first hanging post 21, and the breathing machine tray 31 and the monitor tray 32 can be arranged simultaneously. The ventilator tray 31 is used to carry a ventilator and the monitor tray 32 is used to carry a monitor.

The nasal feeding pump mounting part 40 includes a first extension arm 41 and a nasal feeding pump mounting bracket 42, the first extension arm 41 is rotatably connected to the first hanging post 21, and the nasal feeding pump mounting bracket 42 is provided on the first extension arm 41. The intravenous infusion pump mounting part 50 comprises a second extension arm 51 and a first multi-pump mounting rod 52, the second extension arm 51 is rotatably connected with the second hanging post 22, the first multi-pump mounting rod 52 is arranged on the second extension arm 51, and the first multi-pump mounting rod 52 can be used for mounting some commonly used intravenous infusion pumps so as to ensure the convenience of operation.

Specifically, referring to fig. 1, the medical suspension bridge of the present embodiment further includes a first mounting seat fixedly connected to the first suspension post 21 and a second mounting seat fixedly connected to the second suspension post 22, the first extension arm 41 is rotatably connected to the first mounting seat, and the second extension arm 51 is rotatably connected to the second mounting seat, that is, the first extension arm 41 is rotatably connected to the first suspension post 21 through the first mounting seat, and the second extension arm 51 is rotatably connected to the second suspension post 22 through the second mounting seat. It will be appreciated that in other embodiments, the first and second mounting seats may not be provided, for example, the first extension arm 41 may be directly hinged to the first suspension post 21 and the second extension arm 51 may be directly hinged to the second suspension post 22.

The nasal feeding pump described in this embodiment is also called a nutrition pump, and is a nutrition type special pump which can input water, nutrient solution and meal milk with a certain concentration to a patient through a nasal feeding tube. An intravenous infusion pump is an infusion device for infusing a medical fluid to a patient by intravenous injection, and the intravenous infusion pump comprises an infusion pump and a syringe pump. In clinical work, generally only one nasal feeding pump is needed, and the intravenous infusion pump is usually used by a plurality of pumps at the same time, therefore, the length dimension of the nasal feeding pump mounting frame 42 of the present embodiment only needs to ensure that one nasal feeding pump can be mounted, and the length dimension of the first multi-pump mounting rod 52 needs to ensure that a plurality of intravenous infusion pumps can be mounted at the same time, and of course, only one intravenous infusion pump can be mounted on the first multi-pump mounting rod 52 as required. By properly sizing the length of the nasal feeding pump mounting bracket 42 and the first multi-pump mounting rod 52, the operator can be prevented from mistaking the mounting locations for the iv pump and the nasal feeding pump. Further, markings may also be provided at significant locations on the medical drawbridge, such as near the nasogastric pump mount 42 and first multi-pump mount rod 52, to alert the operator not to misload the iv or nasogastric pump.

In the related art, a plurality of infusion supports are generally provided on a medical suspension bridge, and most of the infusion supports of the medical suspension bridge are provided on the same side of the medical suspension bridge, and an operator can mount a nasal feeding pump and an intravenous infusion pump on any one of the infusion supports, but the nasal feeding pump and the intravenous infusion pump are different in infusion position on a human body, and the infusion precision of the nasal feeding pump is not as high as that of the intravenous infusion pump.

And this embodiment sets up nasal feeding pump installation department 40 on first davit 21, sets up intravenous infusion pump installation department 50 on second davit 22, can install nasal feeding pump and intravenous infusion pump respectively on two davits effectively, from this, can distinguish nasal feeding pump and intravenous infusion pump's installation region effectively to can avoid the operator in clinical work, confuse nasal feeding pump and intravenous infusion pump, and then can reduce medical risk.

In addition, compared with the intravenous infusion pump, the nasal feeding pump has relatively less use frequency, and because the nasal feeding pump is generally only one, and the intravenous infusion pump is usually used by a plurality of pumps at the same time, compared with the nasal feeding pump, the number of infusion bags or infusion bottles used with the intravenous infusion pump is more, therefore, the nasal feeding pump mounting part 40, the breathing machine tray 31 and the monitor tray 32 are arranged on the same suspension post, the influence of liquid dripping in the infusion bags or the infusion bottles on the breathing machine and the monitor can be reduced in the clinical use process, and the use safety of equipment such as the breathing machine and the monitor is ensured.

The first suspension post 21 and the second suspension post 22 of the present embodiment each have a hexagonal cross-sectional shape in the horizontal plane. The hexagon can be a regular hexagon or a non-regular hexagon. The hexagonal structure can be convenient for process on the one hand, and on the other hand does not have the dead angle, the arrangement of the electric spare part of being convenient for.

In the present embodiment, one end of the first multi-pump mounting rod 52 close to the cross member assembly 10 is inserted into the first extension arm 41, that is, the mounting position of the iv pump is lower than the mounting position of the first extension arm 41, so that the first extension arm 41 can be prevented from occupying the mounting space of the iv pump, and further more iv pumps can be conveniently mounted. In other embodiments, the end of the first multi-pump mounting rod 52 remote from the cross-beam assembly 10 may also be threaded onto the first extension arm 41.

Referring to fig. 1, in order to better conform to the operation habit of the clinical workflow, the first suspension post 21 of the embodiment is disposed at the right end of the beam assembly 10, and the second suspension post 22 is disposed at the left end of the beam assembly 10. Further, the first suspension post 21 and the second suspension post 22 of the present embodiment are respectively slidably connected to the beam assembly 10, so that an operator can change the directions of the first suspension post 21 and the second suspension post 22 when necessary, and further, the first suspension post 21 and the second suspension post 22 can rotate relative to the beam assembly 10, so as to meet various use requirements of the operator.

Referring to fig. 1, the nasal feeding pump mounting bracket 42 of the present embodiment includes a nasal feeding pump connecting rod 421 and a medicine bag hanging portion 422 disposed at one end of the nasal feeding pump connecting rod 421, the nasal feeding pump connecting rod 421 is used for mounting a nasal feeding pump, the medicine bag hanging portion 422 is mainly used for hanging an infusion bag or an infusion bottle used in cooperation with the nasal feeding pump, the nasal feeding pump connecting rod 421 is inserted into the first extension arm 41, a nasal feeding pump accommodating space 42a is formed between the medicine bag hanging portion 422 and the first extension arm 41, and the nasal feeding pump accommodating space 42a can accommodate only one nasal feeding pump, so as to prevent an operator from mistakenly mounting a plurality of intravenous infusion pumps on the nasal feeding pump connecting rod 421.

It is understood that in other embodiments, the nasal feeding pump may be hung at an end of the nasal feeding pump connecting rod 421 away from the medicine bag hanging part 422, that is, the nasal feeding pump is located at a side of the first extending arm 41 away from the medicine bag hanging part 422.

The first extension arm 41 and the first carrying and receiving assembly 30 of the present embodiment are respectively located at two opposite sides of the first hanging post 21, so that the risk of dropping the liquid in the infusion bag or the infusion bottle onto the ventilator and/or the monitor can be reduced as much as possible. In other embodiments, the first extension arm 41 and the first load receiving module 30 can be disposed on the same side or adjacent sides of the first hanging post 21.

Referring to fig. 1, the medical suspension bridge of the present embodiment further includes a second carrying and receiving assembly 70, and the second carrying and receiving assembly 70 includes a storage tray 71 and a storage cabinet 72. A second load bearing receiver assembly 70 is disposed on the second davit 22 and on the underside of the first multi-pump mounting bar 52.

Specifically, the storage tray 71 of this embodiment is connected with the storage cabinet 72, and is located the upside of the storage cabinet 72, and the storage tray 71 can be used for placing some medical articles, and the storage cabinet 72 can store the relevant data of the patient, such as medical records and the like. Since the second carrier housing assembly 70 is provided on the underside of the first multi-pump mounting bar 52, the length of the first multi-pump mounting bar 52 cannot be too long to avoid interference of the first multi-pump mounting bar 52 with the second carrier housing assembly 70.

In other embodiments, the second carrying and receiving assembly 70 may have only the storage tray 71 and no cabinet 72, or only the cabinet 72 and no storage tray 71. In other embodiments, the second carrier housing assembly 70 may not be provided.

Referring to fig. 1, the iv pump mounting portion 50 of the present embodiment further includes a third extension arm 53 and a second multi-pump mounting rod 54, the third extension arm 53 is rotatably connected to the second hanging post 22, and the second multi-pump mounting rod 54 is disposed on the third extension arm 53. The second multi-pump mounting rod 54 corresponds to a mounting space for another iv pump reserved outside the first multi-pump mounting rod 52. So as to meet the use requirements of severe patients on multiple pumps or group pumps.

The iv pump mount 50 of this embodiment further includes a third mount fixedly connected to the second hanging post 22, and the third extension arm 53 is rotatably connected to the third mount, that is, the third extension arm 53 is rotatably connected to the second hanging post 22 through the third mount, it is understood that in other embodiments, the third mount may not be provided, for example, the third extension arm 53 may be directly hinged to the second hanging post 22.

Further, please refer to fig. 1, the top end of the second multi-pump mounting rod 54 of the present embodiment is inserted into the third extension arm 53, that is, the mounting position of the iv pump is lower than the mounting position of the third extension arm 53, so that the third extension arm 53 can be prevented from occupying the mounting space of the iv pump, and further more iv pumps can be conveniently mounted, so as to meet the use requirements of the ICU on 5 or more iv pumps.

It will be appreciated that in other embodiments, the bottom end of the second multi-pump mounting rod 54 may be threaded onto the third extension arm 53, corresponding to the mounting position of the iv pump being higher than the mounting position of the third extension arm 53. The second extension arm 51 and the third extension arm 53 of this embodiment are respectively located at two opposite sides of the second hanging post 22, so that the first multi-pump mounting rod 52 and the second multi-pump mounting rod 54 have enough space to mount the iv pump, and in other embodiments, the second extension arm 51 and the third extension arm 53 may also be located at the same side or two adjacent sides of the second hanging post 22.

Referring to fig. 1, the second extension arm 51 of the present embodiment is located at the front side of the second hanging column 22, the third extension arm 53 is located at the rear side of the second hanging column 22, and the length of the third extension arm 53 is greater than that of the second extension arm 51. Since the space of the front side of the medical suspension bridge is relatively small, the length of the second extension arm 51 cannot be too long to ensure the convenience of operation, and the space of the rear side of the medical suspension bridge is relatively large, so the length of the third extension arm 53 can be properly lengthened.

Further, referring to fig. 2, the front side of the second hanging column 22 has a mounting surface 22a, the second extension arm 51 is disposed on the side of the mounting surface 22a close to the first hanging column 21, and the second extension arm 51 can be received on the mounting surface 22a by rotating. The length of the second extension arm 51 is less than or equal to the width of the mounting surface 22 a. That is, when the second extension arm 51 is received on the mounting surface 22a, the second extension arm 51 does not extend out of the mounting surface 22a, thereby ensuring the front side of the second suspension post 22 to be beautiful.

Referring to fig. 1, the third extension arm 53 of the present embodiment includes a first sub-arm 531 and a second sub-arm 532, and the iv pump mounting portion 50 further includes a medical solution hanger 55. The first sub-arm 531 is rotatably connected to the second suspension post 22, and the second sub-arm 532 is rotatably connected to the first sub-arm 531. One of the second multi-pump mounting lever 54 and the liquid medicine hanger 55 is provided on the first sub-arm 531, and the other of the second multi-pump mounting lever 54 and the liquid medicine hanger 55 is provided on the second sub-arm 532.

The medical solution hanger 55 is used for hanging an infusion bag or an infusion bottle used in cooperation with the intravenous infusion pump, and the intravenous infusion pump on the first multi-pump mounting rod 52 and the intravenous infusion pump on the second multi-pump mounting rod 54 can share the medical solution hanger 55. That is to say, the hanging position of the infusion bag or the infusion bottle used in cooperation with the intravenous infusion pump is staggered with the intravenous infusion pump, so that the intravenous infusion pump can be ensured to have more operating space, and the influence on the normal use of the intravenous infusion pump caused by the liquid in the infusion bag or the infusion bottle dropping on the intravenous infusion pump can be avoided.

While the second multi-pump mounting lever 54 of the present embodiment is provided on the first sub-arm 531 and the chemical liquid hanger 55 is provided on the second sub-arm 532, in other embodiments, the second multi-pump mounting lever 54 may be provided on the second sub-arm 532 and the chemical liquid hanger 55 may be provided on the first sub-arm 531. In other embodiments, the first sub-arm 531 and the second sub-arm 532 may not be provided, for example, the chemical liquid hanger 55 may be provided at one end of the second multi-pump mounting lever 54, which corresponds to the chemical liquid hanger 55 and the second multi-pump mounting lever 54 being an integral structure without providing the first sub-arm 531 and the second sub-arm 532. Similarly, the liquid medicine hanger 55 may be provided at one end of the first multi-pump mounting lever 52 instead of the third extension arm 53 or the second multi-pump mounting lever 54, or one end of the first multi-pump mounting lever 52 and one end of the second multi-pump mounting lever 54 may be provided with one liquid medicine hanger 55, respectively.

Referring to fig. 1 and 3, the medical suspension bridge of the present embodiment further includes a wire collecting box 60, wherein the wire collecting box 60 is disposed on at least one of the first multi-pump mounting rod 52, the nasal feeding pump mounting bracket 40 and the second multi-pump mounting rod 54, that is, the wire collecting box 60 may be disposed on any one of the first multi-pump mounting rod 52, the nasal feeding pump mounting bracket 40 and the second multi-pump mounting rod 54, or one wire collecting box 60 may be disposed on any two of the first multi-pump mounting rod 52, the nasal feeding pump mounting bracket 40 and the second multi-pump mounting rod 54, or one wire collecting box 60 may be disposed on each of the first multi-pump mounting rod 52, the nasal feeding pump mounting bracket 40 and the second multi-pump mounting rod 54, or the wire collecting box 60 may be disposed to facilitate the storage of power wires, signal wires and the like of the nasal feeding pump and/or the intravenous feeding pump, so as to prevent the appearance of the medical suspension bridge from being affected by the exposure of the redundant wires on the outer surface of the medical suspension bridge, the operation of medical staff can be avoided being influenced.

Further, for convenience of description, in the following description, the arrangement of the junction box 60 on the nasal feeding pump mount 40 is taken as an example, and the arrangement of the junction box 60 on the first and second multi-pump mount bars 52 and 54 is the same as that of the junction box 60 on the nasal feeding pump mount 40, and is not described herein again.

Referring to fig. 3 to 5, the wire collecting box of the present embodiment includes a connecting portion, a box body and a box cover, wherein the connecting portion is fixedly connected to the box body. The box body is provided with storage space and with storage space intercommunication two at least line mouths of crossing, storage space's one side is opened, cross the open side that the line mouth extends to storage space so that the cable can put into storage space and cross the line mouth from storage space's open side, the lid rotates with the box body to be connected in order to close storage space's open department selectively, prevents that the cable from the open department of storage space scurrying out.

Specifically, the medical suspension bridge of this application embodiment, can put into the cable in the storage space and cross the line mouth from the open side of storage space fast, that is to say, a part of cable is located in the storage space, and the relative both ends of cable are drawn forth to the outside of storage space from crossing the line mouth, and for example, one end of cable is used for connecting the power, and the other end of cable is used for connecting the nasal feeding pump. In addition, if the length of the cable is too long, the redundant cable can be accommodated in the accommodating space, so that the influence on the appearance aesthetic feeling of the medical suspension bridge due to the fact that the redundant cable is exposed on the outer surface of the medical suspension bridge is avoided, and the influence on the operation of medical staff is also avoided; moreover, the lid is connected with the box body rotation, that is to say, the lid is attached to the box body, and the lid can not break away from the box body, is convenient for to the operation and the management of lid.

The cluster 60 of this embodiment is actually provided on the nasogastric pump connecting rod 421 of the nasogastric pump mounting part 40, and when the nasogastric pump is also hung on the nasogastric pump connecting rod 421, the cluster 60 may be located on the upper side, lower side, front side or rear side of the nasogastric pump, and preferably, the cluster 60 is located on the rear side of the nasogastric pump to shield the cluster 60 by the nasogastric pump.

In order to facilitate quick assembly and disassembly of the connection portion and the nasal feeding pump connection rod 421, the connection portion and the nasal feeding pump connection rod 421 of the present embodiment are detachably connected.

Specifically, referring to fig. 4, the connecting portion of the present embodiment has a shaft rod clamping space and an opening communicating with the shaft rod clamping space, and the opening can be restorably opened, that is, when actually installed, the opening can be restorably opened by the nasal feeding pump connecting rod 421, so that the nasal feeding pump connecting rod 421 can be inserted into the shaft rod clamping space from the opening and clamped in the shaft rod clamping space. That is, the mouth opening size of the opening is smaller than the outer diameter of the nasal feeding pump connecting rod, and in the process that the nasal feeding pump connecting rod is clamped into the opening, the mouth opening size of the opening is forced to be increased by the nasal feeding pump connecting rod 421, and after the nasal feeding pump connecting rod is clamped into the shaft rod clamping space, the mouth opening size of the opening is reduced.

For example, referring to fig. 4, the connecting portion includes a first clamping piece and a second clamping piece, and a first end of the first clamping piece and a first end of the second clamping piece are both fixedly connected to the box body. The first clamping piece and the second clamping piece jointly enclose the shaft lever clamping space.

When nasal feeding pump connecting rod 421 card goes into the opening between first centre gripping piece and the second centre gripping piece, nasal feeding pump connecting rod 421 forces first centre gripping piece and second centre gripping piece outwards to take place elastic deformation, and after nasal feeding pump connecting rod 421 got into axostylus axostyle centre gripping space, first centre gripping piece and second centre gripping piece pressed from both sides tightly on nasal feeding pump connecting rod 421 surface under the effect of elastic restoring force, realized with nasal feeding pump connecting rod 421's quick connection.

In one embodiment, the box body and the box cover jointly enclose a tubular structure, and two axial ends of the tubular structure are opened to form the wire passing port. It should be noted that the cross-sectional shape of the tubular structure perpendicular to the axial direction is not limited, for example, circular, oval, polygonal, etc., and is not limited herein.

In one embodiment, the nasogastric pump connecting rod 421 extends parallel or perpendicular to the axial direction of the tubular structure. For example, when the nasogastric pump connecting rod 421 is horizontal, the axial direction of the tubular structure may be vertical or horizontal. When the nasal feeding pump connecting rod 421 is vertical, the axial direction of the tubular structure may be vertical or horizontal.

Referring to fig. 6 and 7, the first carrying and accommodating assembly 30 of the present embodiment further includes a ventilator tray mounting member 33, the ventilator tray mounting member 33 includes a fixing portion 331 and a rotating portion 332, which are rotatably connected, the fixing portion 331 is connected to the first hanging post 21, and the rotating portion 332 is connected to the ventilator tray 31. The respirator tray 31 comprises a working state for supporting the respirator and a folding state for being accommodated on the surface of the first hanging column 21; when the ventilator tray 31 is in the folded state, the fixed portion 331 interlocks with the rotating portion 332 to lock the ventilator tray 31 in the folded state.

Specifically, the breathing machine divide into vertical breathing machine and desk-top breathing machine, under the condition that adopts desk-top breathing machine, desk-top breathing machine can directly be placed on breathing machine tray 31, and the height dimension of vertical breathing machine is great, generally need directly support subaerial, consequently, when needs adopt vertical breathing machine, can accomodate breathing machine tray 31, make breathing machine tray 31 roughly laminate on first davit 21 surface, in order to avoid breathing machine tray 31 to occupy great space, then, place vertical breathing machine next door at first davit 21, so can enough practice thrift the space, also be convenient for the breathing machine and the gas terminal on the first davit 21, power terminal is connected.

In other embodiments, the ventilator tray 31 may not have a folding function.

The medical drawbridge of this embodiment further includes a slide rail (not shown), and the first load-bearing housing assembly 30 further includes a monitor tray mount 34 coupled to the monitor tray 32. The slide rails are arranged on the first suspension posts 21, and the monitor tray mounting part 34 and the respirator tray mounting part 33 are respectively arranged on the slide rails. The slide rails can be used to adjust the height of the ventilator tray 31 and the monitor tray 32 to ensure that there is enough room to accommodate the ventilator and the monitor.

Referring to fig. 1 to 3, another embodiment of the present application further provides a medical suspension bridge, including: a cross member assembly 10, a davit assembly 20, a first load bearing housing assembly 30, a nasogastric pump mount 40 and an iv pump mount 50. The suspension post assembly 20 includes a first suspension post 21 and a second suspension post 22, the first suspension post 21 being disposed at the right end of the beam assembly 10, and the second suspension post 22 being disposed at the left end of the beam assembly 10. The first load-bearing receiving assembly 30 includes a ventilator tray 31, a monitor tray 32, a slide rail, a ventilator tray mount 33, and a monitor tray mount 34, and the ventilator tray mount 33 includes a fixed portion 331 and a rotating portion 332 that are rotatably connected. The slide rail is disposed at the front side of the first hanging post 21, the monitor tray mounting member 34 and the fixing portion 331 are respectively mounted on the slide rail, and the monitor tray mounting member 34 is located above the fixing portion 33. The monitor tray mount 34 is connected to the monitor tray 32 and the swivel portion 332 is connected to the ventilator tray 31. The ventilator tray 31 includes an operating state for supporting the ventilator and a folded state received on the surface of the first hanging post 21. When the ventilator tray 31 is in the folded state, the fixed portion 331 interlocks with the rotating portion 332 to lock the ventilator tray 31 in the folded state. The nasal feeding pump mounting part 40 includes a first extension arm 41 and a nasal feeding pump mounting bracket 42, and the nasal feeding pump mounting bracket 42 includes a nasal feeding pump connecting rod 421 and a medicine bag hanging part 422 provided at one end of the nasal feeding pump connecting rod 421. The first extension arm 41 is disposed at the rear side of the first hanging post 21 and rotatably connected to the first hanging post 21, the nasal feeding pump connecting rod 421 is inserted into the first extension arm 41, and a nasal feeding pump accommodating space 42a is formed between the bag hanging part 422 and the first extension arm 41. The intravenous infusion pump mounting part 50 comprises a first multi-pump mounting rod 52, a second multi-pump mounting rod 54, a liquid medicine hanger 55, a second extension arm 51 arranged on the front side of the second hanging column 22 and a third extension arm 53 arranged on the rear side of the second hanging column 22, the second extension arm 51 is rotatably connected with the second hanging column 22, one end, close to the beam assembly 10, of the first multi-pump mounting rod 52 is arranged on the second extension arm 51 in a penetrating mode, the third extension arm 53 comprises a first sub-arm 531 and a second sub-arm 532, the first sub-arm 531 is rotatably connected with the second hanging column 22, the second sub-arm 532 is rotatably connected with the first sub-arm 531, one end, close to the beam assembly 10, of the second multi-pump mounting rod 54 is arranged on the first sub-arm 531 in a penetrating mode, and the liquid medicine hanger 55 is arranged on the second sub-arm 532.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (20)

1. A medical drawbridge, comprising:

a beam assembly;

the suspension post assembly comprises a first suspension post and a second suspension post which are oppositely arranged at two ends of the beam assembly;

the first bearing and containing assembly is arranged on the first hanging column and comprises a breathing machine tray and/or a monitor tray;

the nasal feeding pump mounting part comprises a first extension arm and a nasal feeding pump mounting rack, the first extension arm is rotatably connected with the first lifting column, and the nasal feeding pump mounting rack is arranged on the first extension arm;

the intravenous infusion pump installation department, intravenous infusion pump installation department includes second extension arm and first many pumps installation pole, the second extension arm with the second davit rotates to be connected, first many pumps installation pole sets up on the second extension arm.

2. The medical drawbridge of claim 1, wherein the nasal feeding pump mounting bracket comprises a nasal feeding pump connecting rod and a medicine bag hanging part arranged at one end of the nasal feeding pump connecting rod, the nasal feeding pump connecting rod is arranged on the first extension arm in a penetrating manner, and a nasal feeding pump accommodating space is formed between the medicine bag hanging part and the first extension arm.

3. The medical suspension bridge of claim 1 or 2, wherein the first extension arm and the first load-bearing receiving assembly are respectively located at two opposite sides of the first suspension post.

4. The medical drawbridge of claim 1 or 2, further comprising a second carrying and receiving assembly comprising a storage tray and/or a receiving cabinet;

the second bearing and accommodating assembly is arranged on the second suspension post and is positioned on the lower side of the first multi-pump mounting rod.

5. The medical drawbridge of claim 1 or 2, wherein the iv pump mount further comprises a third extension arm rotatably connected to the second davit and a second multi-pump mounting rod disposed on the third extension arm.

6. The medical drawbridge of claim 5, wherein a top end of said second multi-pump mounting bar is disposed through said third extension arm.

7. The medical suspension bridge of claim 6, wherein the second extension arm and the third extension arm are respectively located on opposite sides of the second suspension post.

8. The medical drawbridge of claim 7, wherein said second extension arm is located at a front side of said second hanging column, said third extension arm is located at a rear side of said second hanging column, and a length of said third extension arm is greater than a length of said second extension arm.

9. The medical suspension bridge of claim 8, wherein the front side of the second suspension post has a mounting surface, the second extension arm is disposed on a side of the mounting surface close to the first suspension post, and the second extension arm can be received on the mounting surface by rotation; the length of the second extension arm is less than or equal to the width of the mounting surface.

10. The medical drawbridge of claim 5, wherein the third extension arm comprises a first sub-arm and a second sub-arm, the iv pump mount further comprising a medical fluid hanger;

the first sub-arm is rotatably connected with the second suspension post, and the second sub-arm is rotatably connected with the first sub-arm;

one of the second multi-pump mounting rod and the liquid medicine hanger is arranged on the first sub-arm, and the other of the second multi-pump mounting rod and the liquid medicine hanger is arranged on the second sub-arm.

11. The medical drawbridge of claim 1 or 2, wherein the iv pump mount further comprises a third extension arm rotatably connected to the second hanging post and a second multi-pump mounting rod disposed on the third extension arm, the medical drawbridge further comprising a hub;

at least one of the first multi-pump mounting rod, the nasal feeding pump mounting rack and the second multi-pump mounting rod is provided with the junction box.

12. The medical suspension bridge of claim 11, wherein the junction box comprises a connecting part, a box body and a box cover, and the connecting part is fixedly connected with the box body;

the box body is provided with storage space and with at least two line mouths of crossing of storage space intercommunication, one side of storage space is opened, cross the line mouth and extend to storage space's open side is so that the cable can follow storage space's open side is put into storage space with in the line mouth, the lid with the box body rotates to be connected in order to selectively close storage space's open department.

13. The medical drawbridge of claim 12, wherein at least one of said first multi-pump mounting bar, said nasogastric pump mount, and said second multi-pump mounting bar is removably connected to said connecting portion.

14. The medical drawbridge of claim 13, wherein the connection portion has a shaft clamping space and an opening in communication with the shaft clamping space, the opening being recoverably distractable.

15. The medical suspension bridge of claim 12, wherein the box body and the box cover together enclose a tubular structure, and two axial ends of the tubular structure are open to form the wire passing port.

16. The medical suspension bridge of claim 1 or 2, wherein the first suspension post and the second suspension post are slidably connected with the cross beam assembly respectively; and/or the presence of a gas in the gas,

the first and second suspension posts are rotatable relative to the beam assembly.

17. The medical suspension bridge of claim 1 or 2, wherein the first suspension post is disposed at a right end of the cross beam assembly and the second suspension post is disposed at a left end of the cross beam assembly.

18. The medical drawbridge of claim 1 or 2, wherein the first load-bearing housing assembly further comprises a ventilator tray mount, the ventilator tray mount comprising a fixed portion and a rotating portion that are rotatably connected, the fixed portion being connected to the first suspension post, the rotating portion being connected to the ventilator tray;

the respirator tray comprises a working state for supporting a respirator and a folded state accommodated on the surface of the first hanging column; when the breathing machine tray is in folded state, the fixed part with the rotating part interlock is in order to with the breathing machine tray locking is in folded state.

19. The medical drawbridge of claim 1 or 2, wherein the medical drawbridge further comprises a slide rail, and the first load-bearing storage assembly further comprises a ventilator tray mount connected to the ventilator tray and a monitor tray mount connected to the monitor tray;

the slide rail sets up on the first davit, breathing machine tray installed part with monitor tray installed part is installed respectively on the slide rail.

20. A medical drawbridge, comprising:

a beam assembly;

the suspension post assembly comprises a first suspension post and a second suspension post, the first suspension post is arranged at the right end of the beam assembly, and the second suspension post is arranged at the left end of the beam assembly;

the first bearing and accommodating component comprises a breathing machine tray, a monitor tray, a sliding rail, a breathing machine tray mounting piece and a monitor tray mounting piece, and the breathing machine tray mounting piece comprises a fixing part and a rotating part which are rotatably connected; the sliding rail is arranged on the front side of the first hanging column, the monitor tray mounting piece and the fixing part are respectively mounted on the sliding rail, and the monitor tray mounting piece is positioned above the fixing part; the monitor tray mounting part is connected with the monitor tray, and the rotating part is connected with the breathing machine tray; the respirator tray comprises a working state for supporting a respirator and a folded state accommodated on the surface of the first hanging column; when the respirator tray is in a folded state, the fixing part and the rotating part are interlocked to lock the respirator tray in the folded state;

the nasal feeding pump mounting frame comprises a nasal feeding pump connecting rod and a medicine bag hanging part arranged at one end of the nasal feeding pump connecting rod; the first extension arm is arranged at the rear side of the first hanging column and is rotationally connected with the first hanging column, the nasal feeding pump connecting rod penetrates through the first extension arm, and a nasal feeding pump accommodating space is formed between the medicine bag hanging part and the first extension arm;

intravenous infusion pump installation department, intravenous infusion pump installation department includes that first many pumps install pole, the many pumps of second installation pole, liquid medicine stores pylon, setting are in the second extension arm and the setting of second davit front side are in the third extension arm of second davit rear side, the second extension arm with the second davit rotates to be connected, first many pumps installation pole is close to crossbeam assembly's one end is worn to establish on the second extension arm, the third extension arm includes first sub-arm and the sub-arm of second, first sub-arm with the second davit rotates to be connected, the second sub-arm with first sub-arm rotates to be connected, the many pumps of second installation pole is close to crossbeam assembly's one end is worn to establish on the first sub-arm, the liquid medicine stores pylon sets up on the second sub-arm.

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