CN220025058U - Electrocardiogram monitoring line storage device - Google Patents

Abstract

The utility model discloses an electrocardiograph monitoring line storage device which comprises an inner shell, an outer shell, a line collecting cavity and a limit nut, wherein the inner shell comprises a line coiling pipe, a first through hole, an inner limit circular pipe, an external thread pipe, an inner ring, a first clamp and a rocking handle, and the middle part of the wall of the line coiling pipe is provided with the first through hole. The utility model has simple structure and reasonable design, can make the electrocardiographic monitoring line convenient and quick to be taken up and paid off and taken up, can be locked, and is beneficial to the high-efficiency storage of the electrocardiographic monitoring line.

Description

Electrocardiogram monitoring line storage device

[ field of technology ]

The utility model relates to the technical field of electrocardiograph monitoring line storage devices, in particular to the technical field of electrocardiograph monitoring line storage devices.

[ background Art ]

Electrocardiographic monitors are precision medical instruments often used in hospitals and can monitor the dynamics of patients in real time at the same time. The electrocardiograph monitor has the functions of storing, intelligently analyzing, acquiring, early warning and the like of electrocardiograph information. And it possesses characteristics such as touch-sensitive screen control, simple convenient, accurate monitoring. The electrocardiograph monitor is provided with three electrocardiograph monitor lines, and in the process of medical treatment of patients, the electrocardiograph monitor lines are randomly placed due to the fact that the electrocardiograph monitor lines are not provided with a fixed storage box, so that the movement of the patients is limited to a certain extent, and the medical treatment of the patients is not facilitated.

Therefore, application number 202121583338.6 discloses a storage device for an electrocardiograph monitoring line, and the storage device is provided with a one-way ratchet mechanism at the front side of a rotating wheel, and the mechanism can play a role in braking the extraction of the electrocardiograph monitoring line and prevent the electrocardiograph monitoring line from withdrawing after the extraction is completed. The utility model is also provided with an unlocking mechanism which can release the braking action of the unidirectional ratchet wheel and is convenient for the recovery of the electrocardiographic monitoring line.

Although the product can play a role of accommodating the electrocardiograph monitoring line, some defects still exist in the product, firstly, because the unidirectional ratchet mechanism prevents the electrocardiograph monitoring line from withdrawing after the extraction is finished, once the electrocardiograph monitoring line is released, the braking effect of the unidirectional ratchet is required to be relieved again, and is more troublesome, secondly, the unidirectional ratchet mechanism only can prevent the electrocardiograph monitoring line from withdrawing after the extraction is finished, and the electrocardiograph monitoring line cannot be prevented from being released after being put to a certain length, so that if the electrocardiograph monitoring line is arranged to be finished, nurses, family members and other medical care personnel scratch and pull the accommodating device carelessly, the accommodating device is easy to pay out again, the electrocardiograph monitoring line between a patient and the electrocardiograph monitoring device is too long after the accommodating device pays out again, and further the electrocardiograph monitoring line between the patient and the electrocardiograph monitoring device is easy to be messy, and the nurses need to recover a section of electrocardiograph monitoring line again, and unnecessary time is wasted.

Therefore, it is necessary to provide an electrocardiographic monitoring line storage device which is convenient and quick to take up and pay off lines, and can be locked after taking up the lines.

[ utility model ]

The utility model aims to solve the problems in the prior art and provides the electrocardiograph monitoring line storage device which can enable the electrocardiograph monitoring line to be conveniently and rapidly stored, and can be locked after paying off and collecting the electrocardiograph monitoring line, thereby being beneficial to high-efficiency storage of the electrocardiograph monitoring line.

In order to achieve the above purpose, the utility model provides an electrocardiograph monitoring line storage device, which comprises an inner shell, an outer shell, a line collecting cavity and a limiting nut, wherein the inner shell comprises a line coiling pipe, a first through hole, an inner limiting circular pipe, an outer threaded pipe, an inner ring, a first clamp and a rocking handle, the first through hole is formed in the middle of the wall of the line coiling pipe, the coaxial inner limiting circular pipe is arranged on the left end face of the line coiling pipe, the coaxial outer threaded pipe is arranged on the left end face of the inner limiting circular pipe, the coaxial inner ring is arranged on the right end face of the line coiling pipe, the first clamp is arranged on the right end face of the inner ring, the rocking handle is arranged on the outer edge of the right end face of the inner ring, the outer shell comprises a limiting circular ring, a connecting circular ring, a second clamp, an outer pipe and a second through hole, the limiting circular ring is sleeved on the inner limiting circular pipe, the limiting circular ring can rotate by taking the inner limiting circular pipe as a rotating shaft, the left side of the limiting circular ring is provided with the limiting nut screwed on the outer threaded pipe, the outer ring wall is provided with a coaxial connecting circular ring, the left end face of the connecting circular ring is provided with a second clamp, the coaxial outer pipe is arranged on the right end face of the connecting circular ring, the inner ring is provided with the coaxial outer through hole, and the middle of the wall is provided with the second through hole.

Preferably, the inner diameters of the coiling pipe, the inner limiting circular pipe and the outer threaded pipe are equal, and the outer diameters of the coiling pipe, the inner limiting circular pipe and the outer threaded pipe are decreased.

Preferably, the axial length of the inner limiting round tube is greater than that of the limiting ring.

Preferably, the limit nut is arranged in the inner hole of the connecting circular ring, and the left end face of the limit nut is arranged on the right side of the left end face of the connecting circular ring.

Preferably, the winding pipe, the first through hole, the inner limiting circular pipe, the external threaded pipe and the inner ring are integrally formed.

Preferably, the limit ring, the connecting ring, the outer tube and the second through hole are integrally formed.

Preferably, the inner hole of the limiting circular ring is provided with an anti-slip rubber ring which is adaptive to the outer wall of the inner limiting circular tube.

Preferably, the inner hole of the winding pipe is a positive edge hole.

The utility model has the beneficial effects that: the utility model has simple structure and reasonable design, can make the electrocardiographic monitoring line convenient and quick to be taken up and paid out and taken up, can be locked, and is beneficial to the high-efficiency storage of the electrocardiographic monitoring line; through the wire winding wheel structure formed by the inner shell and the outer shell, the wire can be rapidly wound and unwound by rotating the inner shell or the outer shell, and the wire winding and unwinding of the electrocardiographic monitoring wire is convenient and quick; by arranging the first clamp and the second clamp, the electrocardiograph monitoring line extending from the inner shell or the outer shell can be conveniently and rapidly locked or unlocked, and when the contraction length of the electrocardiograph monitoring line does not need to be adjusted, the electrocardiograph monitoring line is prevented from automatically stretching from the storage device, so that the electrocardiograph monitoring line is efficiently and stably stored; by arranging the anti-skid rubber ring, resistance is properly increased for the mutual rotation between the inner shell and the outer shell, if the mutual rotation between the inner shell and the outer shell is too smooth, the anti-skid rubber ring is easy to pull out too much due to inertia when an electrocardiographic monitoring line is lengthened; the left end face of the limiting nut is arranged on the right side of the left end face of the connecting circular ring, so that the connecting circular ring can protect the limiting nut from loosening due to the fact that the limiting nut is not easy to be exposed to external force, and the stability of the fit between the inner shell and the outer shell is facilitated.

The features and advantages of the present utility model will be described in detail by way of example with reference to the accompanying drawings.

[ description of the drawings ]

Fig. 1 is a schematic front view in cross section of an electrocardiographic monitoring line storage device according to the present utility model.

[ detailed description ] of the utility model

Referring to fig. 1, the electrocardiographic monitoring line storage device of the utility model comprises an inner shell 1, an outer shell 2, a winding cavity 3 and a limit nut 4, wherein the inner shell 1 comprises a winding pipe 11, a first through hole 110, an inner limit circular pipe 12, an outer thread pipe 13, an inner ring 14, a first clip 140 and a rocking handle 15, the middle part of the pipe wall of the winding pipe 11 is provided with the first through hole 110, the left end face of the winding pipe 11 is provided with a coaxial inner limit circular pipe 12, the left end face of the inner limit circular pipe 12 is provided with the coaxial outer thread pipe 13, the right end face of the winding pipe 11 is provided with the coaxial inner ring 14, the right end face of the inner ring 14 is provided with the first clip 140, the outer edge of the right end face of the inner ring 14 is provided with the rocking handle 15, the outer shell 2 comprises a limit circular ring 21, a connecting circular ring 22, a second clip 220, an outer pipe 23 and a second through hole 230, the limit circular ring 21 is sleeved on the inner limit circular pipe 12, the limit circular ring 21 can rotate by taking the inner limit circular pipe 12 as a rotating shaft, the left side of the limit circular ring 21 is provided with the limit nut 4 screwed on the outer thread pipe 13, the outer ring wall of the limit circular ring 21 is provided with a coaxial connecting circular ring 22, the left end face of the connecting circular ring is provided with the coaxial connecting circular ring 22, the right end face of the connecting circular ring 22 is provided with the coaxial inner ring 22, the connecting circular ring is provided with the second inner ring 22 is provided with the inner hole 23, and the right end face of the connecting circular ring 23 is provided with the inner hole 23.

Wherein, the internal diameters of the coiling pipe 11, the internal limiting circular pipe 12 and the external threaded pipe 13 are equal, and the external diameters of the coiling pipe 11, the internal limiting circular pipe 12 and the external threaded pipe 13 are decreased.

Wherein, the axial length of the inner limit round tube 12 is greater than that of the limit round ring 21.

The limit nut 4 is arranged in an inner hole of the connection circular ring 22, and the left end face of the limit nut 4 is arranged on the right side of the left end face of the connection circular ring 22.

Wherein, the winding pipe 11, the first through hole 110, the inner limit circular pipe 12, the external thread pipe 13 and the inner ring 14 are integrally formed.

Wherein, the limit ring 21, the connection ring 22, the outer tube 23, and the second through hole 230 are integrally formed.

Wherein, the inner hole of the limit circular ring 21 is provided with an anti-slip rubber ring 20 which is matched with the outer wall of the inner limit circular tube 12.

Wherein, the inner hole of the winding pipe 11 is a positive edge hole.

The working process of the utility model comprises the following steps:

in the working process of the electrocardiograph monitoring line storage device, after an electrocardiograph monitoring device access end of an electrocardiograph monitoring line sequentially passes through a second through hole 230 and a first through hole 110, the electrocardiograph monitoring device access end is clamped by a first clamp 140, then the electrocardiograph monitoring device access end is held by one hand with an outer shell 2, one hand with a rocking handle 15 is held by one hand, the inner shell 1 is rotated by the rocking handle 15, and then the electrocardiograph monitoring line is wound on a winding pipe 11, so that the electrocardiograph monitoring line storage is completed;

if the electrocardiograph monitoring line does not work yet, the length needs to be adjusted, at this moment, the outer shell 2 is not moved, the inner shell 1 rotates, when paying out is needed, the electrocardiograph monitoring line outside the second through hole 230 is directly pulled, when taking up is needed, the rocking handle 15 is directly rotated, after the electrocardiograph monitoring line is taken up to a proper length, the electrocardiograph monitoring line outside the second through hole 230 can be clamped by the second clamp 220;

if the electrocardiograph monitoring line needs to be adjusted in length in the working process, at this moment, the inner shell 1 is not moved, the outer shell 2 rotates, then the second clamp 220 releases the clamping of the electrocardiograph monitoring line outside the second through hole 230, then fingers close to the little finger side in one hand extend into the inner hole of the spool 11, the rocking handle 15 is pressed by the thumb, the fixation of the inner shell 1 is completed, then the paying-off or winding-up of the electrocardiograph monitoring line is started in a mode of rotating the outer shell 2, and after the electrocardiograph monitoring line is wound to a proper length, the electrocardiograph monitoring line outside the second through hole 230 can be clamped by the second clamp 220.

The utility model has simple structure and reasonable design, can make the electrocardiographic monitoring line convenient and quick to be taken up and paid out and taken up, can be locked, and is beneficial to the high-efficiency storage of the electrocardiographic monitoring line; through the wire winding wheel structure formed by the inner shell 1 and the outer shell 2, the wire can be rapidly wound and unwound by rotating the inner shell 1 or the outer shell 2, and the wire winding and unwinding of the electrocardiographic monitoring wire is convenient and rapid; by arranging the first clamp 140 and the second clamp 220, the electrocardiograph monitoring line extending from the inner shell 1 or the outer shell 2 can be conveniently and rapidly locked or unlocked, and when the contraction length of the electrocardiograph monitoring line does not need to be adjusted, the electrocardiograph monitoring line is prevented from automatically stretching from the storage device, so that the electrocardiograph monitoring line is efficiently and stably stored; by arranging the anti-skid rubber ring 20, resistance is properly increased for the mutual rotation between the inner shell 1 and the outer shell 2, if the mutual rotation between the inner shell 1 and the outer shell 2 is too smooth, the anti-skid rubber ring is easy to pull out too much at one time due to inertia when an electrocardiographic monitoring line is lengthened; the left end face of the limit nut 4 is arranged on the right side of the left end face of the connecting circular ring 22, so that the connecting circular ring 22 can protect the limit nut 4 from loosening due to external force, and the stability of the fit between the inner shell 1 and the outer shell 2 is facilitated.

The above embodiments are illustrative of the present utility model, and not limiting, and any simple modifications of the present utility model fall within the scope of the present utility model.

Claims (8)

1. Electrocardiograph monitoring line storage device, its characterized in that: comprises an inner shell (1), an outer shell (2), a wire collecting cavity (3) and a limit nut (4), wherein the inner shell (1) comprises a wire coiling pipe (11), a first through hole (110), an inner limit round pipe (12), an outer thread pipe (13), an inner ring (14), a first clamp (140) and a rocking handle (15), the middle part of the pipe wall of the wire coiling pipe (11) is provided with the first through hole (110), the left end face of the wire coiling pipe (11) is provided with a coaxial inner limit round pipe (12), the left end face of the inner limit round pipe (12) is provided with the coaxial outer thread pipe (13), the right end face of the wire coiling pipe (11) is provided with the coaxial inner ring (14), the right end face of the inner ring (14) is provided with the first clamp (140), the outer edge of the right end face of the inner ring (14) is provided with the rocking handle (15), the outer shell (2) comprises a limit round pipe (21), a connecting round ring (22), a second clamp (220), an outer pipe (23) and a second through hole (230), the limit round pipe (21) is sleeved on the inner limit round pipe (12), the limit round pipe (21) can rotate for the inner limit round pipe (12), the left side of the limit round pipe is provided with the limit round pipe (21) to be provided with the coaxial limit nut, the coaxial limit nut on the outer thread (13), the left end face of the connecting circular ring (22) is provided with a second clip (220), the right end face of the connecting circular ring (22) is provided with a coaxial outer tube (23), the inner ring (14) is arranged in an inner hole of the outer tube (23), and the middle part of the tube wall of the outer tube (23) is provided with a second through hole (230).

2. The electrocardiographic monitoring line storage device according to claim 1, wherein: the inner diameters of the winding pipe (11), the inner limiting circular pipe (12) and the outer threaded pipe (13) are equal, and the outer diameters of the winding pipe (11), the inner limiting circular pipe (12) and the outer threaded pipe (13) are decreased.

3. The electrocardiographic monitoring line storage device according to claim 1, wherein: the axial length of the inner limiting circular tube (12) is greater than that of the limiting circular ring (21).

4. The electrocardiographic monitoring line storage device according to claim 1, wherein: the limiting nut (4) is arranged in an inner hole of the connecting circular ring (22), and the left end face of the limiting nut (4) is arranged on the right side of the left end face of the connecting circular ring (22).

5. The electrocardiographic monitoring line storage device according to claim 1, wherein: the winding pipe (11), the first through hole (110), the inner limit circular pipe (12), the external thread pipe (13) and the inner ring (14) are integrally formed.

6. The electrocardiographic monitoring line storage device according to claim 1, wherein: the limiting ring (21), the connecting ring (22), the outer tube (23) and the second through hole (230) are integrally formed.

7. The electrocardiographic monitoring line storage device according to claim 1, wherein: an inner hole of the limiting circular ring (21) is provided with an anti-slip rubber ring (20) which is matched with the outer wall of the inner limiting circular tube (12).

8. The electrocardiographic monitoring line storage device according to claim 1, wherein: the inner hole of the winding pipe (11) is a positive edge hole.