CN215874673U - 5G12 leads real-time dynamic electrocardiograph convenient to accomodate - Google Patents

Abstract

The utility model discloses a 5G 12-lead real-time dynamic electrocardiograph convenient to store, which relates to the field of 12-lead real-time dynamic electrocardiographs and aims to solve the problems that the existing 12-lead real-time dynamic electrocardiograph is poor in protection degree and easy to cause winding damage when being stored. The device has the characteristics of convenient storage and effective prevention of winding and great improvement on the protection of the device.

Description

5G12 leads real-time dynamic electrocardiograph convenient to accomodate

Technical Field

The utility model relates to the field of 12-lead real-time dynamic electrocardiographs, in particular to a 5G 12-lead real-time dynamic electrocardiograph convenient to store.

Background

The twelve-lead full-automatic electrocardiogram analysis system can capture the change of relatively high-frequency micro waveform in electrocardiogram, maintain the high accuracy of recording, and automatically print dot lattices on blank thermal paper for convenient observation and measurement in the aspect of solving the symptoms of heart and peripheral pain of heart. The system adopts a brand-new fully-embedded 12-lead playback analysis function and is matched with a BMS mini digital twelve-lead Holter recorder, so that an operator can conveniently and flexibly complete the analysis work of the variation of the heart rhythm. The twelve-lead full-automatic electrocardiogram analysis system can record 12-lead, 6-lead, 3+ 1-lead, 3-lead and long-time rhythm lead; the recording of 1 minute waveform and extension of rhythm leads can be automatically completed in the conventional electrocardiogram if abnormal heart rhythm is found; the frequency response is from 0.05 to 150Hz, and the twelve-lead full-automatic electrocardiogram analysis initiates an electrocardiosignal polynary neural network method, and is more sensitive to the measurement of tiny signals such as P waves and ST segments.

The existing two-lead full-automatic electrocardiogram analysis system generally does not have a fixed storage device during storage and protection of the two-lead full-automatic electrocardiogram analysis system, basically carries out naked direct storage, has poor protection type, is easy to wind when a plurality of monitoring wires are generally stored on the two-lead full-automatic electrocardiogram analysis system, and causes troubles in subsequent use, and meanwhile, if the monitoring wires are wound too much, the monitoring wires are possibly damaged to cause unnecessary loss. Therefore, the 5G12 lead real-time dynamic electrocardiograph convenient to store is provided.

SUMMERY OF THE UTILITY MODEL

The 5G12 lead real-time dynamic electrocardiograph convenient to store solves the problems that the existing 12 lead real-time dynamic electrocardiograph is poor in protection degree and prone to winding damage when stored.

In order to achieve the purpose, the utility model adopts the following technical scheme:

A5G 12 conductive real-time dynamic electrocardiograph convenient to store comprises a main box, wherein the left side and the right side of the upper end face of the main box are rotatably connected with box covers, the ends, close to each other, of the box covers are provided with switches, the upper ends of the left side face and the right side face of the main box are fixedly connected with supporting blocks, a 12 conductive real-time dynamic electrocardiograph is arranged in the main box, the left side and the right side of the 12 conductive real-time dynamic electrocardiograph are fixedly connected with connecting seats, the left side and the right side of the lower inner wall of the main box are fixedly provided with first electric cylinders, the upper ends of the first electric cylinders are fixedly connected with the connecting seats, the 12 conductive real-time dynamic electrocardiograph is provided with a through hole, the front side of the lower end face of the 12 conductive real-time dynamic electrocardiograph is provided with a first groove body, the front side of the upper end face of the 12 conductive real-time dynamic electrocardiograph is fixedly connected with a supporting frame, the upper end face of the supporting frame is provided with a plurality of second groove bodies, every all run through under the second cell body between inner wall left and right both sides and the first cell body and seted up the slide opening, the terminal surface left and right both sides all rotate under the second cell body and are connected with the arc, 12 lead the front side fixedly connected with backup pad of terminal surface under the real-time dynamic electrocardiograph, the equal fixedly connected with push pedal in backup pad up end left and right both sides has the upper end fixedly connected with push pedal of push rod motor and push rod motor, the upper end of many push rods of up end fixedly connected with of push pedal and push rod extends in the second cell body.

Preferably, the front side and the rear side of the box cover at the left side and the right side, which are away from one end of the box cover, are rotatably connected with the main box through spring hinges and are respectively limited with the upper end faces of the supporting blocks at one side of the box cover.

Preferably, the side surfaces of the connecting seats on the left side and the right side, which are close to each other, are fixedly connected to the left side and the right side of the 12-lead real-time dynamic electrocardiograph respectively.

Preferably, the lower inner wall of each second groove body is provided with a left arc-shaped plate and a right arc-shaped plate which are rotatably connected through a spring hinge.

Preferably, the first groove body is arranged under the supporting frame, the push plate is arranged in the first groove body in a sliding mode, and the push rods are arranged in the sliding holes in a sliding mode and extend into the second groove bodies on one side of each push plate.

Preferably, the extending end of the upper side of each push rod is in sliding connection with the outer side face of the arc-shaped plate on one side.

Compared with the prior art, the utility model has the beneficial effects that:

through the main box, the box cover, the supporting block, the 12-lead real-time dynamic electrocardiograph, the connecting seat, the first electric cylinder, the through hole, the first groove body, the supporting frame, the second groove body, the sliding hole, the arc-shaped plates, the supporting plate, the pushing plate and the pushing rod, the device can directly bounce the box cover under the action of the spring hinge by opening the switch on the box cover, further limit the box cover through the supporting block, further the box cover on two sides is in a horizontal state, therefore, the device can be used as a desktop, then the 12-lead real-time dynamic electrocardiograph is pushed by the first electric cylinder to move up and down the main box, further the device can be conveniently used, then the monitoring wire on the 12-lead real-time dynamic electrocardiograph can be clamped between the left arc-shaped plate and the right arc-shaped plate in each second groove body, then the pushing rod motor pushes the pushing rod to move up and down, further the left arc-shaped plate and the right arc-shaped plates in the same second groove body can be resisted to mutually approach to rotate, and the arc will bounce off under the effect of spring hinge when the push rod moves down, and then has made things convenient for the centre gripping screens to guardianship line and has got and put, has made things convenient for and has accomodate effectual winding that has prevented to it.

Make this device have can be convenient accomodate to and effectual winding great improvement the protectiveness's characteristics.

Drawings

Fig. 1 is a sectional view of the structure of a 5G12 lead real-time dynamic electrocardiograph convenient to store.

Fig. 2 is a sectional view of a side view of a portable 5G12 lead real time kinematic electrocardiograph according to the present invention.

Fig. 3 is a sectional view of a top view of the portable 5G12 lead real time dynamic electrocardiograph according to the present invention.

Reference numbers in the figures: the device comprises a main box 1, a box cover 2, a supporting block 3, a real-time dynamic electrocardiograph 412, a connecting seat 5, a first electric cylinder 6, a through hole 7, a first groove body 8, a supporting frame 9, a second groove body 10, a sliding hole 11, an arc-shaped plate 12, a supporting plate 13, a push plate 14 and a push rod 15.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a 5G12 conductive real-time dynamic electrocardiograph convenient to store comprises a main box 1, wherein the left and right sides of the upper end surface of the main box 1 are rotatably connected with a box cover 2, the end of the box cover 2 at the left and right sides close to each other is provided with a switch, the upper ends of the left and right side surfaces of the main box 1 are fixedly connected with a supporting block 3, the main box 1 is internally provided with a 12 conductive real-time dynamic electrocardiograph 4, the left and right sides of the 12 conductive real-time dynamic electrocardiograph 4 are fixedly connected with a connecting seat 5, the left and right sides of the lower inner wall of the main box 1 are fixedly provided with a first electric cylinder 6, the upper end of the first electric cylinder 6 is fixedly connected with the connecting seat 5, the 12 conductive real-time dynamic electrocardiograph 4 is provided with a through hole 7, the front side of the lower end surface of the 12 conductive real-time dynamic electrocardiograph 4 is provided with a first groove body 8, the front side of the upper end surface of the 12 conductive real-time dynamic electrocardiograph 4 is fixedly connected with a supporting frame 9, a plurality of second cell bodies 10 have been seted up to the up end of carriage 9, inner wall is left under every second cell body 10, all run through between right side both sides and the first cell body 8 and seted up the slide opening 11, terminal surface is left under the second cell body 10, right side both sides are all rotated and are connected with arc 12, 12 lead the front side fixedly connected with backup pad 13 of terminal surface under the real-time dynamic electrocardiograph 4, backup pad 13 up end is left, the equal fixedly connected with push pedal 14 in upper end of push rod motor and push rod motor of the equal fixedly mounted in right side both sides, the upper end of many push rods 15 of the up end fixedly connected with of push pedal 14 and push rod 15 extends in second cell body 10.

In this embodiment, the case lid 2 of left and right both sides keeps away from the preceding of one end each other, the back both sides all rotate between being connected and respectively with the main tank 1 through the spring hinge and spacing each other between the up end of supporting shoe 3 of one side separately, a side that connecting seat 5 of left and right both sides is close to each other is fixed connection respectively at the left and right both sides of 12 real-time dynamic electrocardiograph 4 of leading, the lower inner wall of every second cell body 10 all rotates two left and right arcs 12 of being connected through the spring hinge, first cell body 8 sets up under carriage 9, push pedal 14 slides and sets up in first cell body 8, push rod 15 slides and sets up in slide opening 11 and extends in the second cell body 10 of one side separately, the extension end of every push rod 15 upside all with the lateral surface sliding connection of arc 12 of one side separately.

The working principle is as follows: when the movable box cover is used, the box cover 2 can be directly flicked under the action of the spring hinge by opening a switch on the box cover 2, the box cover 2 is limited by fixing the supporting blocks 3 on the left side surface and the right side surface of the main box 1, the box covers 2 on the two sides are in a horizontal state, and therefore the movable box cover can also be used as a desktop, then the main box is moved out of the main box by pushing the real-time dynamic electrocardiograph instrument 4 through the first electric cylinder 12, so that the movable box can be conveniently used, then the monitoring line on the 12-guide real-time dynamic electrocardiograph instrument 4 can be clamped between the left arc plate and the right arc plate 12 in each second groove body 10 formed in the upper end surface of the supporting frame 9, then the push plate 14 is pushed by the push rod motor to move up and down to drive the push rod 15 to move up and down, because each push rod 15 is arranged in the sliding hole 11 formed between the first groove body 8 and the second groove body 10 in a sliding manner, and the upper end of the push rod 15 extends in the second groove body 10 and slides on the outer side surface of the arc plate 12 in the second groove body 10 Connect, and then can contradict the rotation that two arcs 12 are close to each other about in the same second cell body 10, and arc 12 will be bounced off under the effect of spring hinge when push rod 15 moves down, and then made things convenient for the centre gripping screens of guardianship line and got and put, made things convenient for and accomodate effectual winding that has prevented to it, improved the protectiveness to the device, 12 lead the removal of real-time dynamic electrocardiograph 4 about in box 1 and used and also made things convenient for and accomodate simultaneously.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. A5G 12 conductive real-time dynamic electrocardiograph convenient to store comprises a main box (1), wherein the left side and the right side of the upper end face of the main box (1) are rotatably connected with a box cover (2), and one end, close to each other, of the box cover (2) on the left side and the right side is provided with a switch, the upper ends of the left side face and the right side face of the main box (1) are fixedly connected with supporting blocks (3), the main box (1) is internally provided with a 12 conductive real-time dynamic electrocardiograph (4), the 5G12 conductive real-time dynamic electrocardiograph is characterized in that the left side and the right side of the lower inner wall of the main box (1) are fixedly provided with a first electric cylinder (6), the upper end of the first electric cylinder (6) is fixedly connected with the connecting seat (5), the 12 conductive real-time dynamic electrocardiograph (4) is provided with a through hole (7), the front side of the lower end face of the 12 conductive real-time dynamic electrocardiograph (4) is provided with a first groove body (8), 12 lead front side fixedly connected with carriage (9) of real-time dynamic electrocardiograph (4) up end, a plurality of second cell bodies (10), every have been seted up to the up end of carriage (9) all run through between inner wall left and right both sides and first cell body (8) under second cell body (10) and seted up slide opening (11), the left and right both sides of terminal surface are all rotated under second cell body (10) and are connected with arc (12), 12 lead front side fixedly connected with backup pad (13) of terminal surface under real-time dynamic electrocardiograph (4), the equal fixedly connected with push pedal (14) of the upper end of backup pad (13) left and right both sides upper end fixedly connected with push rod motor and push rod motor, the upper end of many push rods (15) of the up end fixedly connected with of push pedal (14) and push rod (15) extends in second cell body (10).

2. The 5G12 lead real-time dynamic electrocardiograph convenient to store according to claim 1, wherein the front and rear sides of the case cover (2) at the left and right sides, which are far away from each other, are rotatably connected with the main case (1) through spring hinges and are respectively limited with the upper end faces of the supporting blocks (3) at one side.

3. The 5G12 lead real-time dynamic electrocardiograph according to claim 1, wherein the connecting sockets (5) on the left and right sides are fixed on the left and right sides of the 12 lead real-time dynamic electrocardiograph (4) respectively at their sides close to each other.

4. The 5G12 real-time dynamic electrocardiograph convenient to store according to claim 1, wherein the lower inner wall of each second slot (10) is provided with a left arc-shaped plate and a right arc-shaped plate (12) which are rotatably connected through a spring hinge.

5. The 5G12 real-time dynamic electrocardiograph convenient to store according to claim 1, wherein the first groove body (8) is arranged right below the supporting frame (9), the push plate (14) is arranged in the first groove body (8) in a sliding manner, and the push rod (15) is arranged in the sliding hole (11) in a sliding manner and extends into the second groove body (10) on one side of each other.

6. The 5G12 real-time dynamic electrocardiograph convenient to store according to claim 1 or 5, wherein the extending end of the upper side of each push rod (15) is connected with the outer side surface of the arc-shaped plate (12) on one side in a sliding way.

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