CN213667561U - Novel defibrillator - Google Patents

Abstract

The utility model relates to a novel defibrillator, include: the shell is internally provided with a positioning clamping groove; a defibrillator body; the main control processor is connected with the power supply module; a user interface; a controller; a power-on switch; and, a mobile monitoring module; and when the main control processor receives a starting signal of the starting switch, the user interface is controlled to be started. When the defibrillator body is taken out of the positioning card slot, the mobile monitoring module generates a mobile signal, the main control processor receives the mobile signal and then controls the controller to start, when the defibrillator body arrives at the site, the start switch is pressed to send a start signal to the main control processor, the main control processor and the control user interface are started, the start interface and the control user interface are started, and the defibrillator can be started immediately without waiting for the start time due to the fact that the controller is already in the start state, so that the timeliness of first aid is improved.

Description

Novel defibrillator

Technical Field

The utility model relates to an emergency equipment technical field, in particular to novel defibrillator.

Background

Sudden death is one of the biggest challenges facing human and medicine in this century, sudden cardiac death is related to arrhythmia, and timely and effective electrical defibrillation is the most important emergency treatment for recovering the life of sudden cardiac death patients. The american heart disease association (AHA) has long established that an Automated External Defibrillator (AED) is the most effective method of achieving rapid electrical defibrillation treatment after sudden cardiac death.

The defibrillator is usually stored in a fixed place when not in use, and is taken out of the place and taken to an operating room or an accident site for emergency treatment when in use.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a novel defibrillator has the advantage that can in time start, improve the first aid promptness.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a novel defibrillator, comprising:

the shell is used for being fixed with a wall body, and a positioning clamping groove is formed in the shell;

the defibrillator body is matched with the positioning card slot;

the main control processor is arranged in the defibrillator body and is connected with a power supply module for providing working voltage;

the user interface is connected with the main control processor and used for controlling the start and stop of the starting interface;

the controller is connected with the main control processor and is used for controlling the defibrillator body to start and stop;

a power-on switch connected to the master processor; and the number of the first and second groups,

the mobile monitoring module is connected with the main control processor and used for generating a mobile signal and sending the mobile signal to the main control processor when the defibrillator body is separated from the positioning card slot;

and the main control processor controls the controller to start when receiving the moving signal, and controls the user interface to start when receiving a starting signal of the starting switch.

When the defibrillator body is taken out of the positioning card slot, the mobile monitoring module generates a mobile signal and transmits the mobile signal to the main control processor in the moving process of the defibrillator body, the main control processor receives the mobile signal and then controls the controller to start, namely, the main control processor performs related work such as starting, self-checking and the like, the user interface is still in a closed state, the starting interface is not displayed, and the control software is in a standby state, so that the equipment is still in the closed state from the aspect of external appearance, and the trouble to a user is reduced; when the defibrillator arrives at the site, the start switch is pressed to send a start signal to the main control processor, the main control processor and the control user interface are started, the start interface and the control user interface are started, and the defibrillator can be started immediately without waiting for the start time due to the fact that the controller is in the starting state, and therefore timeliness of first aid is improved.

As a preferred aspect of the present invention, the mobile monitoring module includes: the defibrillator comprises a Hall sensor arranged on one side of the defibrillator body and a magnetic piece which is fixed on the shell and corresponds to the Hall sensor.

According to the technical scheme, when the defibrillator body is separated from the shell, the Hall sensor is away from the magnetic attraction piece, the Hall effect II is generated to generate a moving signal, and the moving detection of the defibrillator is realized.

As an optimized scheme of the utility model, the removal monitoring module adopts shock transducer, acceleration sensor or photoelectric sensor.

As a preferred scheme of the utility model, the controller is connected with the pilot lamp group, when the controller starts, control pilot lamp group work.

By the technical scheme, the starting of the controller can be indicated through the indicating lamp set, so that a user can timely judge whether the defibrillator is started normally.

As a preferred scheme of the utility model, the master control treater still is connected with timing module, the master control treater is received during start switch's turn-off signal, timing module begins timing to when reaching the time length of predetermineeing regularly, produce a turn-off signal send to the master control treater, the master control treater is received turn-off signal control the controller is closed.

According to the technical scheme, the controller can be powered off in a delayed mode through the timing module, and damage caused by frequent starting of the controller during short-time taking can be reduced.

As a preferred scheme of the utility model, power module is connected with the first interface that charges, be equipped with on the shell with the first interface matched with second that charges the interface, the second interface that charges is used for being connected with the commercial power.

According to the technical scheme, when the defibrillator body is arranged in the shell, the first charging interface and the second charging interface are electrically connected, the defibrillator is charged, and the defibrillator is guaranteed to be in a state of sufficient electric quantity all the time.

As a preferred scheme of the utility model, the main control treater still is connected with electric quantity detection module and alarm module, the electric quantity detection module detects when power module's electric quantity reaches the low pressure threshold value, the main control treater control alarm module sends alarm information.

As a preferred scheme of the utility model, alarm module selects alone or the combination is suitable for from following structure: a flash lamp, a buzzer or an audible and visual alarm.

According to the technical scheme, the alarm module prompts the defibrillator of the user to be in a low-power state, so that the user can select other defibrillators more quickly, and the situation that the defibrillator cannot work due to insufficient power is prevented from occurring.

As an optimized proposal of the utility model, the defibrillator body is provided with a handle, and the shell is provided with a plurality of locking holes.

By the technical scheme, the defibrillator can be conveniently taken and used and the shell can be fixed.

To sum up, the utility model discloses following beneficial effect has:

the embodiment of the utility model provides a through providing a novel defibrillator, include: the shell is used for being fixed with a wall body, and a positioning clamping groove is formed in the shell; the defibrillator body is matched with the positioning card slot; the main control processor is arranged in the defibrillator body and is connected with a power supply module for providing working voltage; the user interface is connected with the main control processor and used for controlling the start and stop of the starting interface; the controller is connected with the main control processor and is used for controlling the defibrillator body to start and stop; a power-on switch connected to the master processor; the mobile monitoring module is connected with the main control processor and used for generating a mobile signal and sending the mobile signal to the main control processor when the defibrillator body is separated from the positioning card slot; and the main control processor controls the controller to start when receiving the moving signal, and controls the user interface to start when receiving a starting signal of the starting switch. When the defibrillator body is not used, the defibrillator body is embedded in the positioning card slot, when the defibrillator body is taken out of the positioning card slot, the monitoring module is moved to generate a movement signal and send the movement signal to the main control processor, the main control processor controls the controller to start after receiving the movement signal, and related work such as starting up and self-checking is carried out, the user interface is still in a closed state, so that the starting up interface is not displayed, and the control software is in a standby state, so that the equipment is still in the closed state from the aspect of external appearance, and troubles to users are reduced; when the defibrillator arrives at the site, the start switch is pressed to send a start signal to the main control processor, the main control processor and the control user interface are started, the start interface and the control user interface are started, and the defibrillator can be started immediately without waiting for the start time due to the fact that the controller is in the starting state, and therefore timeliness of first aid is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 2 is a cross-sectional view of a first embodiment of the present invention.

Fig. 3 is a control block diagram of the first embodiment of the present invention.

Fig. 4 is a control block diagram of a third embodiment of the present invention.

Fig. 5 is a control block diagram of a fourth embodiment of the present invention.

The corresponding part names indicated by the numbers and letters in the drawings:

1. a housing; 11. positioning the clamping groove; 12. a locking hole; 13. a second charging interface; 2. a defibrillator body; 21. a handle; 22. a first charging interface; 3. a master processor; 31. a power supply module; 32. A user interface; 33. a controller; 331. an indicator light set; 34. a power-on switch; 35. a mobile monitoring module; 351. a Hall sensor; 352. a magnetic member; 36. a timing module; 37. an electric quantity detection module; 38. and an alarm module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example one

A novel defibrillator, as shown in fig. 1-3, comprising: the wall fixing device comprises a shell 1 used for being fixed with a wall, wherein a positioning clamping groove 11 is formed in the shell 1; the defibrillator body 2 is matched with the positioning card slot 11; the main control processor 3 is arranged in the defibrillator body 2, and the main control processor 3 is connected with a power module 31 for providing working voltage; a user interface 32 connected with the main control processor 3 and used for controlling the start and stop of the start-up interface; the controller 33 is connected with the main control processor 3 and is used for controlling the defibrillator body 2 to start and stop; a power-on switch 34 connected to the main control processor 3; the movement monitoring module 35 is connected with the main control processor 3 and used for generating a movement signal and sending the movement signal to the main control processor 3 when the defibrillator body 2 is separated from the positioning card slot 11; the control controller 33 is activated when the main control processor 3 receives the movement signal, and controls the user interface 32 to be activated when the main control processor 3 receives the power-on signal of the power-on switch 34.

Specifically, a plurality of locking holes 12 are formed in the housing 1, bolts penetrate through the locking holes 12, the housing 1 is fixed conveniently, and the defibrillator body 2 is provided with a handle 21, so that the defibrillator can be taken out conveniently. The housing 1 may be a box for accommodating the defibrillator body 2, a tray for placing the defibrillator body 2, or other structures connected to the defibrillator body 2, and the specific structure of the housing 1 is not limited in this embodiment.

The mobile monitoring module 35 includes: the hall sensor 351 that sets up in defibrillator body 2 one side and be fixed in shell 1 and the magnetic part 352 corresponding with hall sensor 351, magnetic part 352 can select magnet to fix on shell 1 through bonding or inlay card's mode, when defibrillator body 2 breaks away from shell 1, hall sensor 351 keeps away from magnetism promptly and inhales the piece, takes place hall effect two promptly and produces the removal signal, realizes the removal detection of defibrillator.

When the defibrillator is not in use, the defibrillator body 2 is embedded in the positioning card slot 11, when the defibrillator body 2 is taken out of the positioning card slot 11, the motion monitoring module 35 generates a motion signal in the motion process of the defibrillator body 2 and sends the motion signal to the main control processor 3, the main control processor 3 receives the motion signal and then controls the controller 33 to start, namely, relevant work such as starting up and self-checking is carried out, the user interface 32 is still in a closed state, the starting up interface is not displayed, and the control software is in a standby state, so that the equipment is still in the closed state from the aspect of external appearance, and the trouble to a user is reduced; when the site is reached, the start switch 34 is pressed to send a start signal to the main control processor 3, the main control processor 3 and the control user interface 32 are started, so that the start interface and the control user interface are started, and the defibrillator can be started immediately without waiting for the start time because the controller 33 is already in the starting state, so that the timeliness of first aid is improved.

Example two

The difference between the present embodiment and the first embodiment is that the movement monitoring module 35 in the present embodiment adopts one or more of a vibration sensor, an acceleration sensor or a photoelectric sensor, the vibration sensor detects a vibration force generated when the defibrillator body 2 is taken and generates a movement signal, the acceleration sensor detects a displacement and an acceleration generated when the defibrillator body 2 is taken and generates a movement signal, the photoelectric sensor may include a light generator fixed on the housing 1 and a light receiver fixed on the defibrillator body 2, when the defibrillator body 2 is in the housing 1, the light receiver can receive a photoelectric signal of the light generator, and when the defibrillator body 2 is taken and the light receiver cannot receive the photoelectric signal of the light generator and generates a movement signal.

EXAMPLE III

The present embodiment is different from other embodiments in that, in the present embodiment: as shown in fig. 4, the controller 33 is further connected to an indicator light set 331, and when the controller 33 is started, the indicator light set 331 is controlled to operate, so that the controller 33 can be indicated to be started through the indicator light set 331, and a user can timely judge whether the defibrillator is started normally.

Meanwhile, the main control processor 3 is also connected with a timing module 36, when the main control processor 3 receives a closing signal of the power-on switch 34, the timing module 36 starts timing, and generates a closing signal to be sent to the main control processor 3 when a preset timing duration is reached, the main control processor 3 receives the closing signal to control the controller 33 to close, the controller 33 can be powered off in a delayed mode through the timing module 36, damage caused by frequent starting of the controller 33 during short-time taking can be reduced, and the timeliness and stability of the operation of the defibrillator can be improved.

Example four

The present embodiment is different from other embodiments in that, in the present embodiment: as shown in fig. 5, the power module 31 is connected with a first charging interface 22, the housing 1 is provided with a second charging interface 13 matched with the first charging interface 22, the second charging interface 13 is used for being connected with the mains supply, when the defibrillator body 2 is arranged in the housing 1, the first charging interface 22 and the second charging interface 13 are electrically connected to charge the defibrillator, and the defibrillator is guaranteed to be in a state of sufficient electric quantity all the time.

Main control processor 3 still is connected with electric quantity detection module 37 and alarm module 38, and when the electric quantity that electric quantity detection module detected power module 31 reached the low pressure threshold value, main control processor 3 controlled alarm module 38 and sent alarm information, and alarm module 38 selects alone or the combination is suitable for from following structure: flash light, bee calling organ or audible-visual annunciator through alarm module 38 suggestion user defibrillator be in low battery state, make the user can be quick select for use other defibrillators for use more, prevent that the electric quantity is not enough and the circumstances of unable work from taking place.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. A novel defibrillator, comprising:

the shell is used for being fixed with a wall body, and a positioning clamping groove is formed in the shell;

the defibrillator body is matched with the positioning card slot;

the main control processor is arranged in the defibrillator body and is connected with a power supply module for providing working voltage;

the user interface is connected with the main control processor and used for controlling the start and stop of the starting interface;

the controller is connected with the main control processor and is used for controlling the defibrillator body to start and stop;

a power-on switch connected to the master processor; and the number of the first and second groups,

the mobile monitoring module is connected with the main control processor and used for generating a mobile signal and sending the mobile signal to the main control processor when the defibrillator body is separated from the positioning card slot;

and the main control processor controls the controller to start when receiving the moving signal, and controls the user interface to start when receiving a starting signal of the starting switch.

2. The novel defibrillator of claim 1, wherein the movement monitoring module comprises: the defibrillator comprises a Hall sensor arranged on one side of the defibrillator body and a magnetic piece which is fixed on the shell and corresponds to the Hall sensor.

3. The novel defibrillator of claim 1 wherein the motion monitoring module employs a shock sensor, an acceleration sensor, or a photoelectric sensor.

4. The novel defibrillator of claim 2 or 3, wherein an indicator light set is connected to the controller, and when the controller is started, the indicator light set is controlled to operate.

5. The novel defibrillator of claim 4, wherein the main processor is further connected with a timing module, when the main processor receives the off signal of the power-on switch, the timing module starts timing, and when a preset timing duration is reached, a turn-off signal is generated and sent to the main processor, and the main processor receives the turn-off signal to control the controller to turn off.

6. The novel defibrillator according to claim 2 or 3, wherein the power module is connected with a first charging interface, the housing is provided with a second charging interface matched with the first charging interface, and the second charging interface is used for being connected with a mains supply.

7. The novel defibrillator of claim 6, wherein the main control processor is further connected with an electric quantity detection module and an alarm module, and when the electric quantity detection module detects that the electric quantity of the power supply module reaches a low voltage threshold value, the main control processor controls the alarm module to send out alarm information.

8. The novel defibrillator of claim 7, wherein the alarm module is selected from the following configurations, taken alone or in combination: a flash lamp, a buzzer or an audible and visual alarm.

9. The novel defibrillator of claim 1, wherein the defibrillator body is provided with a handle and the housing is provided with a plurality of locking holes.

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