CN222622974U - ECG monitoring lead wire automatic collection tray - Google Patents

Abstract

The utility model discloses an automatic collecting tray for electrocardiogram monitoring lead wires, comprising a tray body, wherein a plurality of wire-receiving devices are arranged in the tray body, the wire-receiving devices comprising a spring shaft and a partition, the partition intercepting device is arranged in the tray body, and an inlet wire cavity and an outlet wire cavity are formed, the spring shaft is arranged vertically in the inlet wire cavity and the outlet wire cavity, the lead wire extends into the tray body through the inlet wire cavity, extends into the outlet wire cavity at a position close to the spring shaft, is wound on the spring shaft in the outlet wire cavity, and extends out of the tray body from the outlet wire cavity, a connecting rod which can slide axially is arranged through the spring shaft, a locking piece for locking the rotation of the spring shaft is connected at one end of the connecting rod, and a button for releasing the locking piece is connected at the other end, the button is arranged on the tray body, the collecting tray can be directly pulled out when in use, and the lead wire can be automatically retracted into the collecting tray by pressing the button, the structure is simple and easy to operate, work efficiency can be improved, labor cost can be reduced, the service life of the lead wire is increased, and the cost of replacing the wire material is reduced.

Description

Automatic collecting tray for electrocardiograph monitoring lead wire

Technical Field

The utility model relates to the technical field of wire collection, in particular to an automatic collection disc for an electrocardiograph monitoring lead wire.

Background

The electrocardiographic monitoring is a noninvasive monitoring method, is suitable for patients with abnormal electrocardiographic activities, and can observe the illness state timely, and the electrocardiographic monitoring needs an electrocardiographic monitor and an electrocardiographic monitoring lead wire.

When the electrocardiograph is used in a hospital, in order to reduce the frequency of mobile equipment of staff and simultaneously facilitate connection of patients lying on a sickbed, an electrocardiograph monitoring lead wire is usually arranged longer, and the conventional electrocardiograph generally needs to monitor multiple indexes of the patients such as electrocardiograph, blood pressure, blood oxygen saturation, body temperature and the like, and a plurality of electrocardiograph monitoring lead wires can be used. Many long lead wires are very easy to wind together like the hair, are difficult to comb and open, reduce work efficiency, in the long term, after the lead wire winding is many times, the difficult reverse folding of avoiding even damage influences the normal use of electrocardiograph monitor.

Disclosure of utility model

The utility model aims to provide an automatic collection plate for an electrocardiograph monitoring lead wire, which solves the problems that the electrocardiograph monitoring lead wire is difficult to comb and easy to damage.

The utility model realizes the above purpose through the following technical scheme:

The utility model provides an automatic collection dish of electrocardio guardianship lead wire, includes the disk body, be provided with a plurality of admission device in the disk body, admission device includes spring shaft and two piece at least baffles, the baffle interception sets up in the disk body, is formed with inlet wire chamber and outlet wire chamber, the vertical setting of spring shaft is in inlet wire chamber and outlet wire intracavity, and the lead wire stretches into the disk body through inlet wire chamber, stretches into outlet wire chamber in the position that the inlet wire chamber is close to the spring shaft, and the lead wire is wound on the spring shaft of outlet wire intracavity, stretches out the disk body by outlet wire chamber, the spring shaft runs through and is provided with axially sliding's connecting rod, connecting rod one end is connected with and is used for locking spring shaft pivoted locking piece, and the other end is connected with the button that is used for the locking piece to release the locking, the button setting is on the disk body.

Further, the locking piece is including setting up the connecting block in the spring shaft bottom, the connecting block bottom is through spring coupling on the inner bottom of disk body, spring shaft bottom and connecting block top all are provided with the awl tooth that the cross-section is right triangle-shaped, awl tooth on spring shaft and the connecting block all contacts through the inclined plane when drawing out the line of leading, and all contacts through the right angle face under spring shaft's elasticity effect.

Further, the locking piece further comprises a sliding groove arranged in the disc body, a sliding block is arranged in the sliding groove, and the sliding block is fixedly connected with the connecting block.

Further, a limiting piece is arranged in the sliding groove and used for limiting the highest height of the connecting block.

Further, the wire inlet cavity is provided with a wire inlet, the wire outlet cavity is provided with a wire outlet, and a wire passing through hole is formed between the wire inlet cavity and the wire outlet cavity.

The utility model has the beneficial effects that:

(1) The lead wire can be directly pulled out when the lead wire is required to be used, the bevel gear can lock the length of the lead wire of the pull-out disc body, after the button is pressed, the lead wire can automatically retract the collecting disc, the structure is simple, the operation is easy, the working efficiency of medical staff when the lead wire is tidied is improved, and the labor cost is reduced.

(2) The collecting device has the advantages that the plurality of lead wires can be collected into the collecting tray by the collecting device, the lead wires are not mutually wound, the lead wires are not exposed and are not easy to be folded reversely, the service life of the electrocardiograph monitoring lead wires is prolonged, and the wire replacement cost is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of a collection device of the present utility model;

FIG. 3 is a schematic view of the locking element of the present utility model.

The device comprises a disc body 1, a spring shaft 2, a partition plate 3, a wire inlet cavity 4, a wire outlet cavity 5, a connecting rod 6, a connecting rod 7, a button 8, a spring 9, a connecting block 10, a chute 11, a sliding block 12, conical teeth 13 and a limiting piece.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings, wherein it is to be understood that the following detailed description is for the purpose of further illustrating the application only and is not to be construed as limiting the scope of the application, as various insubstantial modifications and adaptations of the application to those skilled in the art can be made in light of the foregoing disclosure.

As shown in fig. 1-3, an automatic collection disc for electrocardiograph monitoring lead wires comprises a disc body 1, a plurality of wire collecting devices are arranged in the disc body 1, each wire collecting device comprises a spring shaft 2 and at least two partition boards 3, each partition board 3 is arranged in the disc body 1 in an interception mode, a wire inlet cavity 4 and a wire outlet cavity 5 are formed, each spring shaft 2 is vertically arranged in each wire inlet cavity 4 and 5, a lead wire extends into the disc body 1 through the wire inlet cavity 4, extends into the wire outlet cavity 5 at a position, close to the spring shaft 2, of the wire inlet cavity 4, and winds on the spring shaft 2 in the wire outlet cavity 5, the lead wire extends out of the disc body 1 from the wire outlet cavity 5, the spring shaft 2 penetrates through a connecting rod 6 capable of axially sliding, one end of each connecting rod 6 is connected with a locking piece for locking the rotation of the spring shaft 2, the other end of each connecting rod is connected with a button 7 for unlocking the locking piece, and the button 7 is arranged on the disc body 1.

The automatic collection disc for the electrocardiograph monitoring lead wire is characterized in that the spring shaft 2 is preferably arranged at the center of the wire inlet cavity 4 and the center of the wire outlet cavity 5, more circles of lead wires are convenient to wind, the electrocardiograph monitoring lead wire automatic collection disc stretches out of the electrocardiograph monitoring connector at one end of the wire inlet cavity 4 and is used for being connected with the electrocardiograph monitoring device, the electrode piece connector stretches out of one end of the wire outlet cavity 5 and is used for being connected with a patient, the width of the wire outlet cavity 5 is larger than the diameter of the lead wires, preferably smaller than the sum of the diameters of the two lead wires, so that the lead wires can be wound on the spring shaft 2 in sequence, one part of the lead wires is fixedly connected with the spring shaft 2 through a wire clamp, the lead wires can conveniently rotate along with the spring shaft 2, when the electrocardiograph monitoring lead wires are needed, the lead wires are grabbed by the electrode piece connector which is used for being connected with the patient, the disc body 1 can be pulled out to be connected with the patient, the locking piece can lock the spring shaft 2 to rotate, and then the length of the lead wires which are pulled out can be locked, after the electrocardiograph monitoring device is used, the button 7 is pressed, the locking piece can release the locking of the rotation of the spring shaft 2, and the rotation can be automatically enabled to be pulled out through the rotation of the lead disc 1.

Preferably, the locking piece comprises a connecting block 9 arranged at the bottom of a spring shaft 2, the bottom of the connecting block 9 is connected to the inner bottom of a disc body 1 through a spring 8, the bottom of the spring shaft 2 and the top of the connecting block 9 are respectively provided with bevel teeth 12 with right-angled triangle sections, the bevel teeth 12 on the spring shaft 2 and the connecting block 9 are contacted through inclined planes when the lead wire is pulled out, the bevel teeth 12 on the spring shaft 2 and the connecting block 9 are contacted through right-angled planes under the elastic action of the spring shaft, the button 7 is not pressed, and when the electrocardiograph lead wire is manually pulled out, the bevel teeth 12 on the spring shaft 2 and the connecting block 9 are contacted through inclined planes when the lead wire is pulled out, so that the rotation of the spring shaft 2 cannot be locked, the lead wire can be pulled out, after the lead wire is stopped being pulled out, the spring shaft 2 is automatically retracted, but the lead wire retraction direction is opposite to the pull-out direction, the bevel teeth 12 on the spring shaft 2 and the connecting block 9 are contacted through right-angled planes under the elastic action, the lead wire is not pressed down, the length of the lead wire can not be directly retracted, and the length of the lead wire can not be directly retracted through the push button 7 when the lead wire is pulled out, and the length of the lead wire is not pulled out, and the lead wire can be directly pulled out, and the length can be directly pulled out through the whole length when the lead wire is not pressed, and the length is not pulled out, and the lead wire is directly pressed.

Preferably, the locking piece still includes the spout 10 that sets up in disk body 1, be provided with slider 11 in the spout 10, slider 11 and connecting block 9 fixed connection, slider 11 can pass through welding or joint's mode and connecting block 9 fixed connection, spout 10 and slider 11 are preferably provided with two sets of, set up respectively in the both sides of connecting block 9 opposite face, can alleviate spring 8 and connecting block 9 and follow spring shaft 2 and rotate and produce the range of rocking, avoid spring 8 to take place to drop because of rocking between disk body 1, improve equipment life.

Preferably, a limiting part 13 is arranged in the chute 10, the limiting part 13 is used for limiting the highest height of the connecting block 9, the spring 8 is prevented from rebounding too fast, the conical teeth 12 on the connecting block 9 excessively clamp the spring shaft 2 or the conical teeth 12 at the bottom of the spring shaft 2 and the top of the connecting block 9 are impacted, the use of the collecting tray is affected, and the limiting part 13 is a baffle plate welded with the appropriate height in the chute 10.

Preferably, the wire inlet cavity 4 is provided with a wire inlet, the wire outlet cavity 5 is provided with a wire outlet, a wire passing through hole is formed between the wire inlet cavity 4 and the wire outlet cavity 5, the wire enters the wire inlet cavity 4 from the wire inlet, passes through the wire passing through hole to the wire outlet cavity 5, winds onto the spring shaft 2, stretches out from the wire outlet, and the position, close to the wire passing through hole, on the spring shaft 2 is preferably provided with a wire clamp for fixing the wire, so that the wire is conveniently pulled out and then collected and wound.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model.

Claims (5)

1. The utility model provides an automatic collection dish of electrocardio guardianship lead wire, includes disk body (1), its characterized in that, be provided with a plurality of coiling mechanism in disk body (1), coiling mechanism includes spring shaft (2) and two piece at least baffles (3), baffle (3) interception sets up in disk body (1), is formed with inlet wire chamber (4) and outlet wire chamber (5), spring shaft (2) vertical setting is in inlet wire chamber (4) and outlet wire chamber (5), and the lead wire stretches into disk body (1) through inlet wire chamber (4), stretches into outlet wire chamber (5) in the position that inlet wire chamber (4) is close to spring shaft (2), and the lead wire is twined and is rolled up on spring shaft (2) in outlet wire chamber (5), stretches out disk body (1) by outlet wire chamber (5), but spring shaft (2) run through being provided with axial sliding's connecting rod (6), connecting rod (6) one end is connected with and is used for locking spring shaft (2) pivoted locking piece, and the other end is connected with button (7) that are used for locking piece to release locking, set up on disk body (1).

2. The automatic electrocardiograph monitoring lead wire collecting disc according to claim 1, wherein the locking piece comprises a connecting block (9) arranged at the bottom of a spring shaft (2), the bottom of the connecting block (9) is connected to the inner bottom of the disc body (1) through a spring (8), conical teeth (12) with right-angled triangle cross sections are arranged at the bottom of the spring shaft (2) and the top of the connecting block (9), and the conical teeth (12) on the spring shaft (2) and the connecting block (9) are contacted through inclined planes when the lead wire is pulled out and are contacted through right-angled planes under the elastic action of the spring shaft.

3. An automatic electrocardiograph monitoring lead collecting disc according to claim 2, wherein the locking piece further comprises a sliding groove (10) arranged in the disc body (1), a sliding block (11) is arranged in the sliding groove (10), and the sliding block (11) is fixedly connected with the connecting block (9).

4. An automatic electrocardiograph monitoring lead wire collecting disc according to claim 3, wherein a limiting piece (13) is arranged in the sliding groove (10), and the limiting piece (13) is used for limiting the highest height of the connecting block (9).

5. The automatic collection plate for electrocardiograph monitoring lead wires according to claim 1, wherein the lead wire inlet is arranged in the lead wire inlet cavity (4), the lead wire outlet is arranged in the lead wire outlet cavity (5), and a wiring through hole is formed between the lead wire inlet cavity (4) and the lead wire outlet cavity (5).