CN109607337B

CN109607337B - Method for winding and unwinding monitoring cable of monitor

Info

Publication number: CN109607337B
Application number: CN201811526453.2A
Authority: CN
Inventors: 潘雨萍
Original assignee: Huzhou Maternity and Child Care Hospital
Current assignee: Huzhou Maternity and Child Care Hospital
Priority date: 2018-12-13
Filing date: 2018-12-13
Publication date: 2020-09-01
Anticipated expiration: 2038-12-13
Also published as: CN109607337A

Abstract

A monitor cable winding and unwinding method for a monitor comprises the steps that a monitor cable of the monitor is pulled out downwards or obliquely downwards in a paying-off process; the wire collecting process is that the wire collecting device is started to collect the monitoring cable into a wire storage box which is arranged behind the wire collecting device and used for storing the monitoring cable. The monitor cable winding and unwinding method is convenient for winding and unwinding, automatic winding is realized, the monitor cable can be effectively prevented from being damaged, and the monitoring cable can be pulled out downwards or obliquely downwards during unwinding.

Description

Method for winding and unwinding monitoring cable of monitor

Technical Field

The invention relates to the field of medical treatment, and particularly provides a method for winding and unwinding a monitoring cable of a monitor.

Background

The monitor is often placed beside a patient's bed and is used for monitoring the patient, and because the monitor often has many monitoring cables for monitoring electrocardio, blood pressure, breathing and other multiple physical signs, most of common monitors are configured with baskets for storing the monitoring cables. However, after the monitoring cables are used, if medical staff put each monitoring cable into the basket after arranging each monitoring cable, the time and the labor are wasted, especially under the condition that the monitor is pulled out for a long time when being placed at the tail of the bed; if multiple monitoring cables are stacked into the basket on hand, it is easy to get the cables intertwined.

Disclosure of Invention

First, technical purpose

In order to solve the problems, the invention provides a monitor cable winding and unwinding method convenient for winding and unwinding.

Second, technical scheme

The technical purpose of the invention is realized by the following technical scheme:

a monitor cable winding and unwinding method for a monitor comprises the steps that a monitor cable of the monitor is pulled out downwards or obliquely downwards in a paying-off process; the wire collecting process is that the wire collecting device is started to collect the monitoring cable into a wire storage box which is arranged behind the wire collecting device and used for storing the monitoring cable.

Preferably, in the unwinding process, when the monitoring cable is pulled downward or obliquely downward, the third axis roller provided in the take-up device is forced to descend, so that the monitoring cable is separated from the first axis roller provided in the take-up device.

Preferably, in the wire rewinding process, a first shaft roller arranged in the wire rewinding device rotates to pull the monitoring cable to the rear; when the head end of the monitoring cable is clamped and cannot move, the third shaft roller arranged in the cable take-up device is stressed to descend, so that the monitoring cable is separated from the first shaft roller arranged in the cable take-up device.

Preferably, the monitor comprises a wire take-up device for taking up the monitoring cable and a wire storage box arranged behind the wire take-up device and used for storing the monitoring cable; take-up includes at the adjacent first beam barrel that sets up of vertical direction and second beam barrel, set up in first beam barrel with the third beam barrel in second beam barrel the place ahead, first beam barrel is located the top of second beam barrel, first beam barrel is the drive roll, the second beam barrel with the third beam barrel is the driven voller, the level at the top of third beam barrel is higher than the level of the bottom of first beam barrel.

Preferably, the take-up device further comprises a first base, wherein the first base comprises a wire poking nozzle arranged behind the first shaft roller and the second shaft roller, a second support for being rolled by the second shaft roller, and a third support for being rolled by the third shaft roller; the first shaft roller is provided with a clamping nozzle used for clamping and placing the monitoring cable, and the second shaft roller is provided with a ring of ring grooves for the clamping nozzle to extend into; the wire shifting nozzle comprises an upper shifting piece and a lower shifting piece, and the head end of the lower shifting piece extends into the annular groove and has a gap with the annular groove; the third bracket comprises a rack rod and a rack seat with a groove, wherein the rack rod is inserted into the groove of the rack seat and is connected with the rack seat through a first spring.

Preferably, the take-up device further comprises a second base, the first base is embedded in the second base and is connected with the second base through a second spring, the second base comprises a first support which is used for being axially connected with the first shaft roller, and the second support is movably connected with the first support.

Preferably, the second base further comprises a wire clamping frame arranged in front of the third shaft roller, a raised clamping ring is arranged behind the head end of the monitoring cable, a clamping hole for the monitoring cable to pass through is formed in the wire clamping frame, and the diameter of the clamping hole is smaller than that of the clamping ring.

Preferably, the card mouth includes the card chamber and is located the latch of card chamber both sides, the card chamber is including being close to first narrow chamber of card mouth opening part, deviating from second narrow chamber of card mouth opening part, being located first narrow chamber with the inflation chamber between the second narrow chamber.

Preferably, the bottom of the ring groove is provided with a boss with a groove, and the side surface of the boss is provided with an emulsion pad.

Third, beneficial effect

The monitor cable winding and unwinding method is convenient for winding and unwinding, automatic winding is realized, the monitor cable can be effectively prevented from being damaged, and the monitoring cable can be pulled out downwards or obliquely downwards during unwinding.

Drawings

The invention is described in further detail below with reference to the following figures and embodiments:

FIG. 1 is a schematic view of a monitor according to the present invention;

FIG. 2 is a schematic view of the monitor of the present invention when the first base is lowered to the lowest position;

FIG. 3 is a schematic structural view of a bayonet and a ring groove in the process of taking up the monitor according to the present invention;

FIG. 4 is a schematic view of the structure of the clamping nozzle and the ring groove of the monitor of the present invention during the paying-off process;

FIG. 5 is a schematic cross-sectional view of the lower paddle and ring groove of the present invention;

FIG. 6 is a schematic cross-sectional view of a first stent and a second stent of the present invention;

FIG. 7 is a diagram of the steps of the present invention.

In the figure: the cable monitoring device comprises a monitoring cable 2, a clamping ring 21, a wire take-up device 3, a first shaft roller 31, a clamping mouth 311, a clamping cavity 3111, a first narrow cavity 31111, a second narrow cavity 31112, an expansion cavity 31113, a latch 3112, a convex strip 31121, a ball 31122, a second shaft roller 32, a ring groove 321, a boss 3211, a third shaft roller 33, a first base 34, a wire shifting mouth 341, an upper shifting piece 3411, a lower shifting piece 3412, a second support 342, a third support 343, a support rod 3431, a support base 3432, a first spring 3433, a second base 35, a first support 351, a wire clamping frame 352, a clamping hole 3521, a wire storage box 4, a second spring 5, a limiting bolt 6, a travel switch 7 and a latex pad 8.

Detailed Description

As shown in fig. 1-7

A monitor cable take-up and pay-off method of a monitor, the paying-off process is to pull out the monitor cable 2 of the monitor to the lower side or the oblique lower side; the wire rewinding process is to start the wire rewinding device 3 to take in the monitoring cable 2 and arrange the monitoring cable 2 in the wire storage box 4 behind the wire rewinding device 3 for storing the monitoring cable 2.

Further, in the unwinding process, when the monitoring cable 2 is pulled downward or obliquely downward, the third shaft roller 33 provided in the take-up device 3 is forced to descend, so that the monitoring cable 2 is separated from the first shaft roller 31 provided in the take-up device 3.

Further, in the wire rewinding process, the first shaft roller 31 arranged in the wire rewinding device 3 rotates to pull the monitoring cable 2 to the rear; when the head end of the monitoring cable 2 is clamped and cannot move, the third shaft roller 33 arranged in the take-up device 3 is stressed to descend, so that the monitoring cable 2 is separated from the first shaft roller 31 arranged in the take-up device 3.

Further, the monitor comprises a wire take-up device 3 for taking up the monitoring cable 2 and a wire storage box 4 arranged behind the wire take-up device 3 for storing the monitoring cable 2; the wire rewinding device 3 comprises a first shaft roller 31 and a second shaft roller 32 which are arranged in a vertical direction in an adjacent mode, and a third shaft roller 33 which is arranged in front of the first shaft roller 31 and the second shaft roller 32, wherein the first shaft roller 31 is located above the second shaft roller 32, the first shaft roller 31 is a driving roller, the second shaft roller 32 and the third shaft roller 33 are driven rollers, and the horizontal height of the top of the third shaft roller 33 is higher than the horizontal height of the bottom of the first shaft roller 31. The monitor is placed in the position department that the level is higher than the patient, and monitoring cable 2 passes wire storage box 4 and take-up 3, and the end-to-end connection monitor's of monitoring cable 2 host computer, the head end of monitoring cable 2 are used for connecting the patient. The end direction of the monitoring cable 2 is defined as the rear, and the head direction of the monitoring cable 2 is defined as the front. The first roller 31 is driven by a driving device such as a motor or a motor, and when the cable is taken up, the driving device is started to drive the first roller 31 to rotate, so that the monitoring cable 2 is pulled to the rear from the front and is collected into the cable storage box 4. The monitor can dispose take-up 3 and storage case 4 of corresponding quantity according to the quantity of monitoring cable 2, realizes receiving independently the line unwrapping wire to every monitoring cable 2.

Further, the wire rewinding device 3 further comprises a first base 34, and the first base 34 comprises a wire poking nozzle 341 arranged behind the first shaft roller 31 and the second shaft roller 32, a second bracket 342 adapted to be coupled by the second shaft roller 32, and a third bracket 343 adapted to be coupled by the third shaft roller 33; the first shaft roller 31 is provided with a clamping mouth 311 for clamping and placing the monitoring cable 2, and the second shaft roller 32 is provided with a ring of annular grooves 321 for the clamping mouth 311 to extend into; the thread pulling nozzle 341 includes an upper pulling piece 3411 and a lower pulling piece 3412, and the head end of the lower pulling piece 3412 extends into the annular groove 321 with a gap between the head end and the annular groove 321; the third support 343 includes a frame bar 3431 and a frame base 3432 having a groove, the frame bar 3431 is inserted into the groove of the frame base 3432 and connected with the frame base 3432 by a first spring 3433, and the third shaft roller 33 is coupled to the frame bar 3431. When the cable is taken up, the driving device is started to rotate the first shaft roller 31, the monitoring cable 2 clamped by the clamping nozzle 311 is carried to the cable shifting nozzle 341, and the monitoring cable 2 clamped in the clamping nozzle 311 is shifted out by the upper shifting piece 3411. In the wire rewinding process, when the head end of the monitoring cable 2 is clamped by a foreign object or a clamping mechanism, the third shaft roller 33 descends along with the hack lever 3431 under the action of large front and rear tension, so that the clamping mouth 311 cannot clamp the monitoring cable 2, and the monitoring cable 2 is prevented from being damaged by pulling or the driving device of the first shaft roller 31 is prevented from being damaged. When the cable is paid off, the driving device is closed, the medical staff can pull out the monitoring cable 2 downwards or obliquely downwards, and under the traction of the medical staff, the third shaft roller 33 can descend to different degrees according to the magnitude and the angle of the traction force, so that the monitoring cable 2 can be pulled out conveniently; lower plectrum 3412 is the leading-in annular 321 of monitoring cable 2, and the second deflector roll is rotated along with monitoring cable 2 is drawn, is convenient for monitoring cable 2 to be pulled out, has also prevented simultaneously that monitoring cable 2 from taking place the axial escape.

Further, the wire rewinding device 3 further includes a second base 35, the first base 34 is embedded in the second base 35 and is connected to the second base 35 through a second spring 5, the second base 35 includes a first bracket 351 for being coupled to the first shaft roller 31, and the second bracket 342 is movably connected to the first bracket 351. In this embodiment, the second bracket 342 is clamped in the sliding slot of the first bracket 351 and can move up and down along the sliding slot. The stiffness coefficient of the second spring 5 is larger than that of the first spring 3433, and in this embodiment, the stiffness coefficient of the second spring 5 is 2.5 times that of the first spring 3433. When monitoring cable 2 received down effort when big enough, first spring 3433 was compressed to the at utmost, and second spring 5 was compressed, and third beam barrel 33, second base 35, second beam barrel 32 move down, and first beam barrel 31 can not move around along first support 351, makes monitoring cable 2 thoroughly break away from card mouth 311, is convenient for unwrapping wire, is convenient for receive the line in-process and prevents the damage to monitoring cable 2 or drive arrangement.

Further, the second base 35 further includes a wire clamping frame 352 disposed in front of the third shaft roller 33, a raised snap ring 21 is disposed behind the head end of the monitoring cable 2, the wire clamping frame 352 is provided with a clamping hole 3521 for the monitoring cable 2 to pass through, and the diameter of the clamping hole 3521 is smaller than that of the snap ring 21. The head end of monitoring cable 2 has attached human sensor etc. and when monitoring cable 2 was received snap ring 21 and met card hole 3521, monitoring cable 2 can't continue to be taken in to the completion is received the line and is provided convenience for next unwrapping wire.

Further, a limit bolt 6 is arranged between the first base 34 and the second base 35, the limit bolt 6 is in threaded connection with the second base 35, and the maximum longitudinal stroke of the first base 34 is adjusted by rotating the limit bolt 6.

Further, the top of the limit bolt 6 is provided with a travel switch 7, when the first base 34 descends to the maximum extent, the bottom of the first base 34 contacts the travel switch 7, and the travel switch 7 releases an alarm signal or a signal for turning off the driving device.

Further, card mouth 311 includes card cavity 3111 and latch 3112 that is located at both sides of card cavity 3111, and card cavity 3111 includes first narrow cavity 31111 that is close to the opening of card mouth 311, second narrow cavity 31112 that is away from the opening of card mouth 311, inflation cavity 31113 that is located between first narrow cavity 31111 and second narrow cavity 31112. The clamping mouth 311 presents a flared opening, which receives the monitoring cable 2 during the take-up from the expansion chamber 31113, the second narrow chamber 31112 facilitating the insertion of the upper paddle 3411; first narrow chamber 31111 is set up protruding sand grip 31121 to calorie chamber 3111 by latch 3112 and forms, and sand grip 31121 is the soft silica gel strip or the latex strip that just has the form resilience ability of texture to monitor cable 2 and get into inflation chamber 31113 and carry out the screens.

Further, the bottom of the ring groove 321 is provided with a boss 3211 having a groove, and a latex pad 8 is disposed on a side surface of the boss 3211. The recess of boss 3211 is used for holding monitoring cable 2, and latex pad 8 has good deformability and form recovery ability, through boss 3211 and latex pad 8, carries out better card to receiving the monitoring cable 2 of line unwrapping wire in-process and puts.

Further, the card mouth 311 includes a card cavity 3111 and a latch 3112 located at two sides of the card cavity 3111, and a ball 31122 is disposed at a bottom surface of the latch 3112.

Claims

1. A method for winding and unwinding a monitor cable of a monitor is characterized in that the paying-off process is to pull out the monitor cable (2) of the monitor downwards or obliquely downwards; in the wire rewinding process, the wire rewinding device (3) is started to retract the monitoring cable (2) into a wire storage box (4) which is arranged behind the wire rewinding device (3) and used for storing the monitoring cable (2); in the paying-off process, when the monitoring cable (2) is pulled downwards or obliquely downwards, a third shaft roller (33) arranged in the wire take-up device (3) is stressed to descend, so that the monitoring cable (2) is separated from a first shaft roller (31) arranged in the wire take-up device (3); in the wire rewinding process, a first shaft roller (31) arranged in the wire rewinding device (3) rotates to pull the monitoring cable (2) to the rear; when the head end of the monitoring cable (2) is clamped and cannot move, a third shaft roller (33) arranged in the take-up device (3) is stressed to descend, so that the monitoring cable (2) is separated from the first shaft roller (31); the monitor comprises a wire take-up device (3) for taking up the monitoring cable (2) and a wire storage box (4) arranged behind the wire take-up device (3) and used for storing the monitoring cable (2); the take-up device (3) comprises a first shaft roller (31) and a second shaft roller (32) which are arranged adjacently in the vertical direction, and a third shaft roller (33) which is arranged in front of the first shaft roller (31) and the second shaft roller (32), wherein the first shaft roller (31) is positioned above the second shaft roller (32), the first shaft roller (31) is a driving roller, the second shaft roller (32) and the third shaft roller (33) are driven rollers, and the horizontal height of the top of the third shaft roller (33) is higher than the horizontal height of the bottom of the first shaft roller (31); the take-up device (3) further comprises a first base (34), wherein the first base (34) comprises a wire poking nozzle (341) arranged behind the first shaft roller (31) and the second shaft roller (32), a second support (342) used for being coupled by the second shaft roller (32), and a third support (343) used for being coupled by the third shaft roller (33); the first shaft roller (31) is provided with a clamping mouth (311) used for clamping and placing the monitoring cable (2), and the second shaft roller (32) is provided with a ring of ring grooves (321) for the clamping mouth (311) to extend into; the wire poking nozzle (341) comprises an upper poking piece (3411) and a lower poking piece (3412), and the head end of the lower poking piece (3412) extends into the annular groove (321) and has a gap with the annular groove (321); the third support (343) includes a frame bar (3431) and a frame base (3432) having a groove, and the frame bar (3431) is inserted into the groove of the frame base (3432) and connected to the frame base (3432) by a first spring (3433).

2. The monitor cable reeling and unreeling method according to claim 1, wherein the reeling device (3) further comprises a second base (35), the first base (34) is embedded in the second base (35) and connected with the second base (35) through a second spring (5), the second base (35) comprises a first bracket (351) for being axially connected by the first shaft roller (31), and the second bracket (342) is movably connected with the first bracket (351).

3. The monitor cable winding and unwinding method according to claim 2, wherein the second base (35) further comprises a wire clamping frame (352) arranged in front of the third shaft roller (33), a raised snap ring (21) is arranged behind the head end of the monitor cable (2), the wire clamping frame (352) is provided with a clamping hole (3521) for the monitor cable (2) to pass through, and the diameter of the clamping hole (3521) is smaller than that of the snap ring (21).

4. The method for retracting and releasing a monitor cable according to claim 1, wherein the card nozzle (311) comprises a card cavity (3111) and card teeth (3112) located at two sides of the card cavity (3111), the card cavity (3111) comprises a first narrow cavity (31111) near an opening of the card nozzle (311), a second narrow cavity (31112) facing away from the opening of the card nozzle (311), and an expansion cavity (31113) located between the first narrow cavity (31111) and the second narrow cavity (31112).

5. The monitor cable winding and unwinding method according to claim 1, wherein a boss (3211) with a groove is disposed at the bottom of the ring groove (321), and a latex pad (8) is disposed on a side surface of the boss (3211).