CN112957053A - Automatic storage box for electrocardiogram monitoring wires - Google Patents

Abstract

The invention discloses an automatic storage box for an electrocardiogram monitoring lead, which comprises a box body, wherein a partition plate is arranged in the box body, a plurality of first sliding grooves which are distributed in a left-right staggered manner are formed in the partition plate along the lead-in direction, and each first sliding groove is connected with a sliding wheel in a sliding manner; a first annular gear belt and a plurality of second annular gear belts which are distributed transversely are also arranged in the box body, first clamping teeth are uniformly arranged on the inner side of the first annular gear belt, second clamping teeth are uniformly arranged on the inner side of the second annular gear belt, a driving gear and a driven gear which are meshed with the first clamping teeth are arranged in an inner ring of the first annular gear belt, and an electric motor is connected onto the driving gear; the driven gear is also positioned in an inner ring of the second annular gear belt and is meshed with the second clamping teeth, and the outer edge of the second annular gear belt is fixedly connected with the two sliding wheels which are adjacent up and down. The invention has the characteristics of automatic storage and arrangement, simple and convenient processing and real-time storage.

Description

Automatic storage box for electrocardiogram monitoring wires

Technical Field

The invention relates to a wire storage technology, in particular to an automatic storage box for an electrocardiogram monitoring wire.

Background

The ECG monitor is a basic and common monitoring means in Intensive Care Units (ICU), and is required to be rapid and accurate when in use. When the ECG monitor is used for monitoring, due to the fact that the ECG monitor is connected through lines, various wires are numerous and long, the wires are prone to intertwining and folding, cables are messy, the ECG monitor is inconvenient to use, detection and treatment efficiency is reduced, the ECG monitor is prone to being broken, the service life is prolonged, equipment cost is increased, and judgment of illness states is affected.

The arrangement is all accomodate to current ECG guardianship wire before using and carrying out the manual work after using, and the nurse often can spend more time arrange in order various pipelines, handles troublesome, time-consuming, has increased nurse's work load to a certain extent.

Therefore, the existing ECG monitoring lead is stored, and has the problems that manual arrangement is troublesome and time-consuming, the handling can be carried out before or after the use, and the real-time handling cannot be carried out during the use.

Disclosure of Invention

The invention aims to provide an automatic storage box for an electrocardiogram monitoring lead. The invention has the characteristics of automatic storage and arrangement, simple and convenient processing and real-time storage.

The technical scheme of the invention is as follows: an automatic storage box for electrocardiogram monitoring wires comprises a box body, wherein a partition plate is arranged in the box body, a plurality of first sliding grooves which are distributed in a left-right staggered mode are formed in the partition plate along the wire inlet direction, and each first sliding groove is connected with a sliding wheel in a sliding mode; a first annular gear belt and a plurality of second annular gear belts which are distributed transversely are also arranged in the box body, first clamping teeth are uniformly arranged on the inner side of the first annular gear belt, second clamping teeth are uniformly arranged on the inner side of the second annular gear belt, a driving gear and a driven gear which are meshed with the first clamping teeth are arranged in an inner ring of the first annular gear belt, and an electric motor is connected onto the driving gear; the driven gear is also positioned in an inner ring of the second annular gear belt and is meshed with the second clamping teeth, and the outer edge of the second annular gear belt is fixedly connected with the two sliding wheels which are adjacent up and down.

In the automatic storage box for the electrocardiogram monitoring wires, the sliding wheels are connected in the first sliding grooves in a sliding mode through the rotating shafts, the rotating shafts are provided with the sanding areas, the upper outer edges and the lower outer edges of the second ring-shaped gear belt are provided with the connecting pieces, the connecting pieces are provided with the clamping holes, the rotating shafts penetrate through the clamping holes and are fixed with the clamping holes in the sanding areas, and the two sides, located in the clamping holes, of the sanding areas are provided with the shock absorption gaskets.

In the automatic storage box for the electrocardiograph monitoring lead, the fixed racks are distributed on the circumference of the rotating shaft, and the clamping grooves corresponding to the fixed racks on the rotating shaft are formed in the center of the sliding wheel.

In the automatic storage box for the electrocardiograph monitoring wires, the peripheral surface of the sliding wheel is provided with the wire slot, and the wire slot is W-shaped or U-shaped.

In the automatic storage box for the electrocardiograph monitoring lead, the driven gear comprises the first gear and the second gear which are coaxially distributed, the first gear is meshed with the first clamping teeth, and the second gear is meshed with the second clamping teeth.

In the automatic storage box for the electrocardiograph monitoring wires, one end of the partition plate is provided with the wire inlet, the other end of the partition plate is provided with the wire outlet, the wire inlet is provided with the buckle, and the wire outlet is provided with the pair of rollers.

In the automatic storage box for the electrocardiogram monitoring wires, the buckle comprises a pair of mutually matched clamping blocks, a limiting groove is formed in the wire inlet of the partition plate, the inner end of each clamping block extends into the limiting groove and is connected with the inner wall of the limiting groove through a spring, meshing teeth are arranged at the outer ends of the clamping blocks, the meshing teeth of the two clamping blocks correspond to meshing, and arc-shaped guide portions protruding downwards are formed at the lower ends of the clamping blocks.

In the automatic storage box for the electrocardiogram monitoring wires, the partition plate is further provided with an electromechanical switch, and the electromechanical switch is electrically connected with the electric motor.

In the automatic storage box for the electrocardiograph monitoring lead, the two ends of the first sliding groove are respectively provided with the limit switch, and the limit switches are electrically connected with the electric motor.

In the automatic storage box for the electrocardiogram monitoring wires, the box body comprises an upper cover and a lower cover, wherein the upper cover and the lower cover are respectively provided with a second sliding groove corresponding to the first sliding groove.

Compared with the prior art, the storage and arrangement of the wires can be automatically realized, the wires are sequentially wound on the up-and-down staggered sliding wheels in sequence, and the first annular gear belt and the second annular gear belt are utilized to drive the two adjacent sliding wheels to simultaneously move transversely in opposite directions or move backwards, so that the wires are stretched and shortened, the effective use length of the wires is freely adjusted, the phenomena of twisting, winding, folding and even breaking of the electrocardiograph monitoring wires are effectively avoided, the equipment cost is reduced, and the service life is prolonged; and need not artifical manual adjustment, easy operation, convenient, the arrangement is convenient, reduces nurse's work load, and can not influence the normal work of wire when accomodating, can arrange in real time, improves guardianship efficiency.

Therefore, the invention has the characteristics of automatic storage and arrangement, simple and convenient processing and real-time storage.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the slide wheel located at the outermost end of the first slide groove;

FIG. 3 is a schematic view of the slide wheel at the innermost end of the first slide groove;

FIG. 4 is a schematic structural view of a first endless gear belt;

FIG. 5 is a schematic structural view of a second endless gear belt;

FIG. 6 is a schematic view of the structure of the rotating shaft;

FIG. 7 is a top view of the sliding wheel;

in fig. 8, a is a W-shaped wire groove diagram of the sliding wheel;

in fig. 8, B is a U-shaped wire groove diagram of the sliding wheel;

FIG. 9 is a schematic view of the construction of the driven gear;

FIG. 10 is a schematic view of the buckle;

fig. 11 is a schematic structural view of the upper cover.

The labels in the figures are: 1. a partition plate; 11. a first sliding groove; 12. a wire inlet; 13. an outlet; 14. buckling; 141. a clamping block; 142. engaging teeth; 143. a spring; 144. an arc-shaped guide part; 15. a roller; 16. a limiting groove; 17. an electromechanical switch; 18. a limit switch; 2. a sliding wheel; 21. a rotating shaft; 22. a sanding area; 23. a shock-absorbing pad; 24. fixing a rack; 25. a card slot; 26. a wire slot; 3. a first endless gear belt; 31. a first latch; 32. a driving gear; 33. a driven gear; 34. a first gear; 35. a second gear; 4. a second endless gear belt; 41. a second latch; 42. connecting sheets; 43. a clamping hole; 5. an upper cover; 51. a second sliding groove; 6. and (4) conducting wires.

Detailed Description

The present invention is further illustrated by the following examples, which are not to be construed as limiting the invention.

Example (b):

as shown in fig. 1-11, an automatic storage box for electrocardiograph monitoring wires comprises a box body, wherein a partition plate 1 is arranged in the box body, a plurality of first sliding grooves 11 which are distributed in a left-right staggered manner are formed in the partition plate 1 along a wire inlet direction, and a sliding wheel 2 is connected to each first sliding groove 11 in a sliding manner; a first annular gear belt 3 and a plurality of second annular gear belts 4 which are distributed transversely are also arranged in the box body, first clamping teeth 31 are uniformly arranged on the inner side of the first annular gear belt 3, second clamping teeth 41 are uniformly arranged on the inner side of the second annular gear belt 4, auxiliary gears are arranged at two ends of the second annular gear belt 4, a driving gear 32 and a driven gear 33 which are meshed with the first clamping teeth 31 are arranged in an inner ring of the first annular gear belt 3, the driving gear 32 and the driven gear 33 are both rotationally connected with the box body, and an electric motor is fixedly connected to the driving gear 32; the driven gear 33 is also positioned in an inner ring of the second annular gear belt 4 and is meshed with the second clamping teeth 41, and the outer edge of the second annular gear belt 4 is fixedly connected with the two sliding wheels 2 which are adjacent up and down.

The movable pulley 2 is connected in the first sliding groove 11 in a sliding mode through the rotating shaft 21, the rotating shaft 21 is provided with a grinding area 22, the upper outer edge and the lower outer edge of the second annular gear belt 4 are respectively provided with a connecting piece 42, a clamping hole 43 is formed in the connecting piece 42, the rotating shaft 21 penetrates through the clamping hole 43 and is fixed with the clamping hole 43 in the grinding area 22, and damping gaskets 23 are arranged on the two sides, located on the clamping hole 43, of the grinding area 22. The frosting area 22 surface on the pivot 21 is comparatively crude, is connected more firmly, stable with second ring gear area 4, through shock attenuation gasket 23 for second ring gear area 4 is more steady, level and smooth to the motion transmission of movable pulley 2, reduces the vibration.

A plurality of fixed racks 24 are circumferentially distributed on the rotating shaft 21, and a clamping groove 25 corresponding to the fixed racks 24 on the rotating shaft 21 is arranged at the center of the sliding wheel 2. The rotating shaft 21 is fixedly connected with the sliding wheel 2 through the fixed rack 24, and the connection is stable and firm and is not easy to separate.

A wire groove 26 is formed in the outer peripheral surface of the sliding wheel 2, and the wire groove 26 is W-shaped or U-shaped. The wire casing can be adjusted according to actual winding line type, is convenient for twine the wire 6 of different grade type and quantity. In this embodiment, both ends of the rotating shaft 21 are provided with the fixed rack 24, and after the rotating shaft 21 passes through the first sliding groove 11, one end of the rotating shaft is fixedly connected with the sliding wheel 2 of the W-shaped wire casing, and the other end of the rotating shaft is fixedly connected with the sliding wheel 2 of the U-shaped wire casing. The two sliding wheels 2 are respectively located at the sliding wheels 2 and move along the first sliding groove 11, thereby increasing the number of the wires 6 to be stored.

The driven gear 33 comprises a first gear 34 and a second gear 35 which are coaxially distributed, the first gear 34 is meshed with the first latch 31, and the second gear 35 is meshed with the second latch 41. Through the design of the driven gear 33, the first ring gear belt 3 synchronously drives the second ring gear belt 4 to move. In this embodiment, the driving gear 32 and the driven gear 33 have the same structure, and the second ring gear belt 4 is also disposed at the driving gear 32 and is engaged with the driving gear 32 for transmission.

One end of the partition board 1 is provided with a wire inlet 12, the other end of the partition board 1 is provided with a wire outlet 13, the wire inlet 12 is provided with a buckle 14, and the wire outlet 13 is provided with a pair of rollers 15.

The buckle 14 includes a pair of mutually matched latch blocks 141, a limiting groove 16 is arranged at the wire inlet 12 of the partition board 1, the inner end of the latch block 141 extends into the limiting groove 16 and is connected with the inner wall of the limiting groove 16 through a spring 143, the outer end of the latch block 141 is provided with engaging teeth 142, the engaging teeth 142 of the two latch blocks 141 are correspondingly engaged, and the lower end of the latch block 141 forms an arc-shaped guide part 144 protruding downwards. The lead 6 at the wire inlet 12 is firmly fixed by the engagement of a pair of clamping blocks 141 with springs 143, so as to prevent the lead 6 from disengaging, loosening, misplacing and the like, and the slide wheel 2 always keeps the correct position of the lead 6 in the moving process; the arc-shaped guide portion 144 provided on the latch 141 serves to guide the wire 6 to be properly wound around the pulley 2 and to prevent the wire 6 from being broken.

The partition board 1 is also provided with an electromechanical switch 17 extending out of the box body, and the electromechanical switch 17 is electrically connected with the electric motor. The operation and stop of the electric motor is controlled by an electromechanical switch 17.

Both ends of the first sliding groove 11 are provided with limit switches 18, and the limit switches 18 are electrically connected with the electric motor. The limit switch 18 is connected to the electric motor through a wire, and when the rotating shaft 21 sliding along the first sliding groove 11 contacts the limit switch 18, the electric motor is powered off and automatically stops working.

The box body comprises an upper cover 5 and a lower cover, wherein the upper cover 5 and the lower cover are respectively provided with a second sliding groove 51 corresponding to the first sliding groove 11 and openings corresponding to the wire inlet 12 and the wire outlet 13. When the sliding wheel 2 is installed, the rotating shaft 21 passes through the first sliding groove 11, and both ends of the rotating shaft 21 are in the second sliding grooves 51.

The working principle is as follows: the electrocardio wires, the oxyhemoglobin saturation wires, the blood pressure cuff wires and the like enter the box body from the wire inlet 12, then are sequentially wound on the wire grooves 26 of the sliding wheel 2 from top to bottom, and finally are led out from the wire outlet 13; when accomodating wire 6, electric motor drives driving gear 32 and rotates, thereby it rotates with the first ring gear area 3 of driving gear 32 meshing to drive, first ring gear area 3 drives driven gear 33 simultaneously and rotates, driven gear 33 and driving gear 32 are owing to all take 4 meshings with the second ring gear, consequently still drive second ring gear area 4 simultaneously and rotate, second ring gear area 4 and first sliding tray 11 parallel distribution, second ring gear area 4 pivoted drives two adjacent movable pulleys 2 simultaneously dorsad removal or simultaneous phase to each other removal along first sliding tray 11 through pivot 21 simultaneously, thereby realize accomodating and expanding of wire 6.

When the sliding wheel 2 moves to the outermost end of the first sliding groove 11, the rotating shaft 21 is in contact with the limit switch 18, so that the electric motor stops working, the wire 6 accommodated in the accommodating box is longest, and the wire 6 is folded; when the sliding wheel 2 moves to the innermost end of the first sliding groove 11, the rotating shaft 21 contacts with the limit switch 18, so that the electric motor stops working, the wire 6 stored in the storage box is shortest and is in a straight line, and the external wire 6 is elongated. Because the wire 6 is fixed by the buckle 14 at the inlet 12, moves at the outlet 13, only influences the wire 6 at the outlet 13 during storage, so that the wire 6 can not influence the normal use thereof during storage, can be stored in real time, and is convenient to operate.

Claims (10)

1. The utility model provides an automatic receiver of electrocardio guardianship wire which characterized in that: the box comprises a box body, wherein a partition plate (1) is arranged in the box body, a plurality of first sliding grooves (11) which are distributed in a left-right staggered mode are formed in the partition plate (1) along the wire inlet direction, and each first sliding groove (11) is connected with a sliding wheel (2) in a sliding mode; a first annular gear belt (3) and a plurality of second annular gear belts (4) which are distributed in the box body in a longitudinal direction are further arranged in the box body, first clamping teeth (31) are uniformly arranged on the inner side of the first annular gear belt (3), second clamping teeth (41) are uniformly arranged on the inner side of the second annular gear belt (4), a driving gear (32) and a driven gear (33) which are meshed with the first clamping teeth (31) are arranged in an inner ring of the first annular gear belt (3), and an electric motor is connected to the driving gear (32); the driven gear (33) is also positioned in an inner ring of the second annular gear belt (4) and is meshed with the second clamping teeth (41), and the outer edge of the second annular gear belt (4) is fixedly connected with the two sliding wheels (2) which are adjacent up and down.

2. The automatic storage box for the electrocardiograph monitoring lead according to claim 1, is characterized in that: the sliding wheel (2) is connected in the first sliding groove (11) in a sliding mode through the rotating shaft (21), a grinding area (22) is arranged on the rotating shaft (21), connecting pieces (42) are arranged on the upper outer edge and the lower outer edge of the second ring-shaped gear belt (4), clamping holes (43) are formed in the connecting pieces (42), the rotating shaft (21) penetrates through the clamping holes (43) and is fixed with the clamping holes (43) in the grinding area (22), and damping gaskets (23) are arranged on two sides, located on the grinding area (22), of the clamping holes (43).

3. The automatic storage box for the electrocardiograph monitoring lead according to claim 2, is characterized in that: a plurality of fixed racks (24) are circumferentially distributed on the rotating shaft (21), and clamping grooves (25) corresponding to the fixed racks (24) are formed in the center of the sliding wheel (2).

4. The automatic storage box for the electrocardiograph monitoring lead according to claim 1, is characterized in that: the peripheral surface of the sliding wheel (2) is provided with a wire groove (26), and the wire groove (26) is W-shaped or U-shaped.

5. The automatic storage box for the electrocardiograph monitoring lead according to claim 1, is characterized in that: the driven gear (33) comprises a first gear (34) and a second gear (35) which are coaxially distributed, the first gear (34) is meshed with the first clamping tooth (31), and the second gear (35) is meshed with the second clamping tooth (41).

6. The automatic storage box for the electrocardiograph monitoring lead according to claim 1, is characterized in that: one end of the partition board (1) is provided with a wire inlet (12), the other end of the partition board (1) is provided with a wire outlet (13), the wire inlet (12) is provided with a buckle (14), and the wire outlet (13) is provided with a pair of rollers (15).

7. The automatic storage box for the electrocardiograph monitoring lead according to claim 6, wherein the storage box comprises: the buckle (14) comprises a pair of mutually matched clamping blocks (141), a limiting groove (16) is formed in the wire inlet (12) of the partition plate (1), the inner end of each clamping block (141) extends into the limiting groove (16) and is connected with the inner wall of the limiting groove (16) through a spring (143), meshing teeth (142) are arranged at the outer end of each clamping block (141), the meshing teeth (142) of the two clamping blocks (141) are correspondingly meshed, and downward convex arc-shaped guide parts (144) are formed at the lower ends of the clamping blocks (141).

8. The automatic storage box for the electrocardiograph monitoring lead according to claim 1, is characterized in that: an electromechanical switch (17) is further arranged on the partition board (1), and the electromechanical switch (17) is electrically connected with the electric motor.

9. The automatic storage box for the electrocardiograph monitoring lead according to claim 1, is characterized in that: both ends of the first sliding groove (11) are provided with limit switches (18), and the limit switches (18) are electrically connected with the electric motor.

10. The automatic storage box for the electrocardiograph monitoring lead according to claim 1, is characterized in that: the box body comprises an upper cover (5) and a lower cover, wherein the upper cover (5) and the lower cover are respectively provided with a second sliding groove (51) corresponding to the first sliding groove (11).

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