CN114027856A

CN114027856A - Monitoring system for epilepsy abnormality

Info

Publication number: CN114027856A
Application number: CN202111620762.8A
Authority: CN
Inventors: 贾贺; 买佳
Original assignee: Second Affiliated Hospital of Zhengzhou Unviersity
Current assignee: Second Affiliated Hospital of Zhengzhou Unviersity
Priority date: 2021-12-28
Filing date: 2021-12-28
Publication date: 2022-02-11

Abstract

The invention discloses a monitoring system for epileptic abnormality, which comprises an electroencephalogram detection module, a protection module, a recording module and an alarm module, wherein the electroencephalogram detection module can detect an electroencephalogram of an epileptic patient so as to determine the illness degree of the patient, the protection module can detect the patient when the patient measures or the patient suffers from an emergency illness, the recording module can enable a doctor to accurately master the illness degree of the patient through patient self-recording and device comprehensive recording so as to adjust the treatment scheme of the patient, the alarm module can enable the patient to rapidly inform medical staff when the patient suffers from the illness so as to enable the patient to rapidly arrive at a bed and relieve the symptoms of the patient, the protection module can protect the body of the patient when the epileptic seizure occurs so as to avoid injuring the head of the patient, the traction belt can ensure the neck moving distance of the patient to a certain extent, and the head of the patient is prevented from impacting a sickbed.

Description

Monitoring system for epilepsy abnormality

Technical Field

The invention relates to the field of epilepsy monitoring, in particular to a monitoring system for epilepsy abnormality.

Background

When the epileptic who suffers from whole body type and twitch type is sick, the trunk can produce violent shake many times and to the striking of outside on its health, in the hospitalization in-process of patient, because patient's morbidity phenomenon and sick reaction range are violent, the head can strike hospital bed head department, fixes electrode slice in advance before patient's morbidity simultaneously and can detect patient's electroencephalogram when the morbidity, but patient's reaction range violently can lead to the electrode slice to produce and drop, influences the testing result. Therefore, a monitoring system for epileptic abnormality is provided, which can monitor patients of whole body type and pull type, and meanwhile, the cooperation of equipment and the detection of the patients can enable doctors to update treatment schemes according to the states of the patients at any time.

Disclosure of Invention

The primary object of the present invention is to provide a monitoring system for epileptic abnormalities, which can effectively solve the problems of the background art.

In order to achieve the purpose, the invention adopts the technical scheme that:

a monitoring system for epileptic abnormity comprises an electroencephalogram detection module, a protection module, a recording module and an alarm module, wherein the electroencephalogram detection module can detect electroencephalograms of epileptic patients, so that the degree of illness of the patients is determined, the protection module can detect the patients when the patients are measured or the patients are suddenly ill, the recording module can enable doctors to accurately master the degree of illness of the patients through patient self-recording and device comprehensive recording, so that the treatment scheme is adjusted, the alarm module can enable the patients to rapidly inform medical staff when the patients are ill, so that the patients can rapidly arrive at a bed to relieve symptoms of the patients, the protection module comprises a first plate layer, a traction belt and a neck protecting seat, a second plate layer is installed at the top of the first plate layer, and the neck protecting seat is installed on the surface of the second plate layer, two install the neck pad between the neck protecting seat, the neck brace is installed to neck pad one side, the both sides of neck brace are run through respectively and are installed flexible piece, two install the traction area between the flexible piece, can protect patient's shoulder neck department through the traction area that is equipped with and neck protecting seat, and the electroencephalogram data that can make patient's detection through the traction area that is equipped with is more accurate.

The invention has the further improvement that a first clamping groove is arranged at the bottom of the second plate layer, a second clamping groove is arranged in the first plate layer, the position of the first clamping groove corresponds to the position of the second clamping groove, the area of the first plate layer is larger than that of the second plate layer, a guardrail is arranged at the top of the first plate layer, a T-shaped limiting plate is arranged in the first clamping groove, a rotating roller is arranged at the bottom of the limiting plate, the limiting plate has elasticity, the longitudinal length of the limiting plate is smaller than the sum of the lengths of the two clamping grooves, a telescopic railing is arranged in the guardrail, a push rod motor is arranged in a vertical strut of the guardrail, the top of the push rod motor is connected with the vertical strut of the telescopic railing, and the amplitude of shaking of a patient to a bed body during illness can be reduced through the arranged first plate layer and the second plate layer, the limiting plate that is equipped with can avoid the second sheet layer to drop from first sheet layer surface, and it has certain elasticity simultaneously and can produce certain cushioning effect.

The invention is further improved in that a storage box is arranged in the second plate layer, a gas storage bag is arranged in the storage box, the gas storage bag penetrates through the surface of the second plate layer and is communicated with the interior of the neck guard, a valve is arranged at the outlet of the gas storage bag, an air pump is arranged at the other end of the gas storage bag, gas can be stored in advance through the air pump through the arranged gas storage bag, and when the epileptic seizure of a patient is detected, gas transmission can be carried out through the first channel, so that the air bag is supported, and the head of the patient is protected.

The electroencephalogram detection device is further improved in that a matching block is mounted in the middle of the inner side of the traction belt, extension belts are mounted on two sides of the matching block, the matching block is connected with the traction belt in a clamping mode, electrode plates are mounted on the surfaces of the matching block and the extension belts, a first channel and a second channel are formed in the traction belt, an air bag is mounted at the top of the traction belt and communicated with the inside of the first channel, the other end of each electrode plate penetrates through the second channel and the bottom of the neck protection seat to be connected with the electroencephalogram detection module, the head of a patient can be tightened through the traction belt, the electrode plates are guaranteed to be in close contact with the surface layer of the skin, and therefore accuracy of detected electroencephalogram data is guaranteed.

The neck support is further improved in that a gas collecting pipe is arranged inside the neck support, one end of the gas collecting pipe is communicated with the first gas storage bag through the inside, a connecting pipe is arranged on the surface of the gas collecting pipe, the connecting pipe penetrates through the storage box and is communicated with the inside of the gas storage bag, and gas can be conveniently transferred through the gas collecting pipe.

The neck protection seat is further improved in that two rotating shafts with mutually corresponding positions are arranged inside the neck protection seat, one ends of the two rotating shafts are respectively provided with a compression spring, the surface of each rotating shaft is annularly wound with a traction belt, shading strips are arranged on the surface of each traction belt at intervals, at least two photoelectric doors are arranged on the side wall inside the neck protection seat, the positions of the photoelectric doors and the positions of the shading strips are mutually corresponding, the traction can be recovered under the action of no stress through the rotating shafts, and meanwhile, the moving speed of the telescopic block can be calculated through the moving speed of the shading strips between the two photoelectric doors, so that the force generated by a patient in the seizure process can be detected.

The electroencephalogram detection module comprises a lead and electroencephalogram detection equipment, the electroencephalogram detection equipment is connected with the electrode plate through the lead to detect and transmit electroencephalogram signals, and an electroencephalogram detector is arranged to detect the electroencephalogram of a patient during epileptic seizure, so that a doctor can judge the state of illness of the patient.

The recording module is arranged on the first board layer and comprises a timer display screen and a touch panel, the onset time, the duration time, the time interval of two episodes and the situation whether the episodes can be recalled are recorded, the starting recording time and the ending recording time of the timer are that the light shielding plate is used for recording the awakening of the patient through the touch panel and the display screen by the aid of frequent speed change time range generated between two continuous photoelectric doors, the time interval of the two episodes is from the generation of the frequently-changed acceleration to the ending of the acceleration change, the situation whether the episodes can be recalled is recorded by the patient through the waking of the patient through the touch panel and the display screen, and doctors can accurately grasp the illness degree of the patient through self-recording of the patient and comprehensive recording of the device, so that the treatment scheme of the patient is adjusted, and the best treatment effect is achieved.

The invention has the further improvement that the alarm module comprises an alarm, the alarm is connected with the photoelectric door, the triggering mode of the alarm is the same as the recording mode of the attack time, the alarm is remotely connected with a doctor department, and the alarm module can enable a patient to quickly inform medical staff when the patient is ill, so that the patient can quickly arrive at a bed to relieve the symptoms of the patient.

The monitoring system comprises the following steps:

step one, laying a possibly sick patient or a patient in a sick period on a neck pad, pulling up a traction belt, fixing the head of the patient, enabling an electrode plate to be closely contacted with the surface of the cortex of the patient, and simultaneously, inflating the interior of a gas storage bag in advance through an air pump;

step two, the body of a patient can be drawn in the process of seizure of epilepsy, the first plate layer can be driven to shake at the moment, a first clamping groove and a second clamping groove which are connected through a limiting plate and are arranged between the first plate layer and the second plate layer can buffer the shaking of a bed board of the patient during the seizure of the patient, the head of the patient can shake when the patient catches, the traction belt is pulled at the same time, the telescopic block can move up and down in the neck support in the pulling process of the traction belt, and the traction belt in the neck support can be driven to move at the moment so as to enable the light screen to move outwards;

step three, when same light screen sheltered from two continuous photoelectric door, can detect the speed of traction area up-and-down motion in the cycle time to detect patient's dynamics, photoelectric door can be with the data transfer who detects to the push rod motor and the alarm module of record module and flexible railing bottom simultaneously, the flexible railing of first sheet layer both sides can stretch out, prevention patient falls the bed body, the doctor can catch up to the ward when discovering patient and rescue patient fast simultaneously.

1. Compared with the prior art, the protection module can protect the body of a patient during epileptic seizure and avoid injuring the head of the patient, when the patient twitches during epileptic seizure, the traction belt can ensure that the neck of the patient moves for a certain distance to avoid the head of the patient from colliding with the head of a sickbed, when the patient seizes, the head of the patient shakes and the traction belt is pulled simultaneously, in the process of pulling the traction belt, the telescopic block can move up and down in the neck support, at the moment, the traction belt in the neck support can be driven to move so as to drive the shading plate to move outwards, when the photoelectric door detects signal conversion, the photoelectric door sends signals to the valve and the push rod motor, so that gas stored in advance is transmitted to the air bag to protect the head of the patient, and meanwhile, a lead wire connected with electroencephalogram detection equipment is led out from the inside of the first plate layer, can effectively avoid the lead from winding the neck of the patient and prevent the occurrence of phenomena such as suffocation and the like.

2. Compared with the prior art, the recording module can record the attack time, the duration time, the time interval of two attacks and the situation of whether the attacks can be recalled, the starting recording time and the ending recording time of the timer are that the light shielding plate generates an interval from the acceleration generated by frequent change to the end of the acceleration change in a frequent speed change time range generated between two continuous photoelectric doors, the situation of whether the attacks can be recalled is recorded by the touch panel and the display screen through the waking waiting of the patient, and a doctor can accurately master the illness degree of the patient through self recording and comprehensive recording of the device of the patient by the recording module, so that the treatment scheme is adjusted, and the treatment effect of the patient is improved.

3. Compared with the prior art, the alarm module can quickly inform medical staff of the epileptic seizure to treat and cure the epileptic seizure, and can effectively relieve the symptoms of the patient.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the technical description of the present invention will be briefly introduced below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a schematic overall structure diagram of a monitoring system for epileptic abnormality according to the present invention.

Fig. 2 is a schematic structural diagram of a protection module of a monitoring system for epileptic abnormalities according to the present invention.

Fig. 3 is a schematic diagram of an internal structure of a protection module of a monitoring system for epileptic abnormality according to the present invention.

In the figure: 1. a first ply; 2. a second ply; 3. a guardrail; 4. a telescopic handrail; 5. a neck protecting seat; 6. a traction belt; 7. a first card slot; 8. a second card slot; 9. a limiting plate; 10. rotating the roller; 11. a wire; 12. an electroencephalogram detection device; 13. a storage box; 14. a gas storage bag; 15. an air pump; 16. a neck pad; 17. a telescopic block; 18. a matching block; 19. an electrode sheet; 20. an air bag; 21. an extension band; 22. a neck support; 23. a first channel; 24. a second channel; 25. a gas collecting pipe; 26. a connecting pipe; 27. a shading strip; 28. a rotating shaft; 29. a compression spring; 30. a photogate.

Detailed Description

The present invention will be further described with reference to the following detailed description, wherein the drawings are for illustrative purposes only and are not intended to be limiting, wherein certain elements may be omitted, enlarged or reduced in size, and are not intended to represent the actual dimensions of the product, so as to better illustrate the detailed description of the invention.

Example 1

As shown in figures 1-3, a monitoring system for epileptic abnormality comprises an electroencephalogram detection module, a protection module, a recording module and an alarm module, wherein the electroencephalogram detection module can detect electroencephalograms of epileptic patients, further determine the illness degree of the patients, the protection module can detect the patients when the patients measure or the patients are suddenly ill, the recording module can enable doctors to accurately master the illness degree of the patients through patient self-recording and device comprehensive recording, so that the treatment scheme of the patients can be adjusted, the alarm module can enable the patients to rapidly inform medical staff when the patients are ill, so that the patients can rapidly arrive at a bed to relieve symptoms of the patients, the protection module comprises a first plate layer 1, a traction belt 6 and a neck protection seat 5, a second plate layer 2 is installed at the top of the first plate layer 1, the neck protection seat 5 is installed on the surface of the second plate layer 2, install neck pad 16 between two neck protection seats 5, neck brace 22 is installed to neck pad 16 one side, and flexible piece 17 is run through respectively to the both sides of neck brace 22, installs traction belt 6 between two flexible pieces 17, can protect patient's shoulder neck department through traction belt 6 and neck protection seat 5 that are equipped with, and the electroencephalogram data that can make patient's detection through traction belt 6 that is equipped with is more accurate.

In this embodiment, first draw-in groove 7 is installed to the bottom of second sheet layer 2, the internally mounted of first sheet layer 1 has second draw-in groove 8, the position of first draw-in groove 7 is corresponding with the position of second draw-in groove 8, the area of first sheet layer 1 is greater than the area of second sheet layer 2, guardrail 3 is installed at the top of first sheet layer 1, the internally mounted of first draw-in groove 7 has the limiting plate 9 of "T" type, rotation gyro wheel 10 is installed to the bottom of limiting plate 9, limiting plate 9 has elasticity, the longitudinal length of limiting plate 9 is less than the length of two draw-in grooves and, the internally mounted of guardrail 3 has flexible railing 4, the vertical post internally mounted of guardrail 3 has the push rod motor, the top of push rod motor is connected with the vertical post of flexible railing 4.

In this embodiment, the storage box 13 is installed inside the second slab 2, the air storage bag 14 is installed inside the storage box 13, the air storage bag 14 passes through the surface of the second slab 2 and is communicated with the inside of the neck guard 5, a valve is installed at the outlet of the air storage bag 14, and the air pump 15 is installed at the other end of the air storage bag 14.

In this embodiment, the inside mid-mounting of traction band 6 has cooperation piece 18, and extension area 21 is installed to the both sides of cooperation piece 18, and cooperation piece 18 is connected with traction band 6 block, and the surface mounting of cooperation piece 18 and extension area 21 has electrode piece 19, and first passageway 23 and second passageway 24 have been seted up to traction band 6's inside, and gasbag 20 is installed at traction band 6's top, and gasbag 20 and the inside intercommunication of first passageway 23, the bottom that second passageway 24 and rib seat 5 were passed to the other end of electrode piece 19 is connected with electroencephalogram detection module.

In this embodiment, an air collecting pipe 25 is formed inside the neck brace 22, one end of the air collecting pipe 25 is communicated with the first through interior, a connecting pipe 26 is formed on the surface of the air collecting pipe 25, and the connecting pipe 26 passes through the storage box 13 and is communicated with the interior of the air storage bag 14.

In this embodiment, two rotating shafts 28 are installed inside the neck guard 5, the two rotating shafts 28 correspond to each other in position, compression springs 29 are installed at one ends of the two rotating shafts 28, the traction belt 6 is annularly wound on the surface of the rotating shafts 28, the shading strips 27 are installed on the surface of the traction belt 6 at intervals, at least two photoelectric doors 30 are installed on the side wall inside the neck guard 5, and the positions of the photoelectric doors 30 correspond to the positions of the shading strips 27.

In the embodiment, the electroencephalogram detection module includes a lead 11 and an electroencephalogram detection device 12, and the electroencephalogram detection device 12 is connected with the electrode pad 19 through the lead 11 for electroencephalogram signal detection and transmission.

The embodiment can realize that: compared with the prior art, the protection module can protect the body of a patient during epileptic seizure and avoid injuring the head of the patient, when the patient twitches during epileptic seizure, the traction belt 6 is arranged to ensure that the neck of the patient moves for a certain distance to avoid the head of the patient from impacting the head of a sickbed, when the patient seizes, the head of the patient shakes and the traction belt 6 is pulled simultaneously, in the process of pulling the traction belt 6, the telescopic block 17 can move up and down in the neck support 22 and can drive the traction belt 6 in the inner part to move so as to enable the shading plate to move outwards, when the photoelectric door 30 detects signal conversion, the photoelectric door can send signals to the valve and the push rod motor, so that the gas stored in advance is transmitted to the air bag 20 to protect the head of the patient, and meanwhile, the lead 11 connected with the electroencephalogram detection equipment 12 is led out from the inside of the first plate layer 1, can effectively avoid the winding of the lead 11 on the neck of the patient and prevent the occurrence of the phenomena of suffocation and the like. .

Example 2

In this embodiment, the recording module is installed on the first board layer 1, and includes a timer display screen and a touch panel, and records the attack time, duration, time interval between two attacks and whether to recall the attack time of the patient, the start recording time and the end recording time of the timer are that the light shielding plate passes through the frequent speed change time range generated between two consecutive photoelectric gates 30, the time interval between two attacks is the interval from the generation of the frequently changing acceleration to the end of the acceleration change, and whether to recall the attack time of the patient through the waking waiting of the touch panel and the display screen.

The embodiment can realize that: compared with the prior art, the recording module can record the attack time, the duration time, the time interval of two attacks and the situation of whether the attacks can be recalled, the starting recording time and the ending recording time of the timer are that the light shielding plate generates an interval from the acceleration generated by frequent change to the end of the acceleration change in a frequent speed change time range generated between two continuous photoelectric doors 30, the situation of whether the attacks can be recalled is recorded by the touch panel and the display screen through the waking waiting of the patient, and the recording module can enable a doctor to accurately master the illness degree of the patient through self recording of the patient and comprehensive recording of a device, so that the treatment scheme of the patient is adjusted, and the treatment effect of the patient is improved. .

Example 3

In this embodiment, the alarm module includes an alarm, which is connected to the light-operated gate 30, and the triggering mode of the alarm is the same as the recording mode of the attack time, and the alarm is remotely connected to the doctor's department.

The embodiment can realize that: the alarm module can quickly inform medical staff of the patient in the epileptic seizure to treat and cure, and can effectively relieve the symptoms of the patient.

It should be noted that, the invention is a monitoring system for epilepsy abnormality, when in use, a patient who may be ill in conjecture or who is in ill cycle lies on the neck pad 16, the traction belt 6 is pulled up, the head of the patient is fixed, the electrode plate 19 is closely contacted with the surface of the skin layer of the patient, meanwhile, the air pump 15 is used for inflating the inside of the air storage bag 14 in advance, the body of the patient can be twitched in the process of epileptic attack, at the moment, the first plate layer 1 can be driven to shake, the first clamping groove 7 and the second clamping groove 8 which are connected by the limiting plate 9 and arranged between the first plate layer 1 and the second plate layer 2 can buffer the shaking of the bed plate generated in the attack of the patient, when the attack of the patient, the head of the patient can shake, the traction belt 6 can be pulled, when the traction belt 6 is pulled, the telescopic block 17 can move up and down in the neck support 22, can drive the traction area 6 that is in inside this moment and remove and then make the light screen outwards remove, when same light screen shelters from two continuous photoelectric door 30, can detect the speed of traction area 6 up-and-down motion in the cycle time, thereby detect patient's dynamics, photoelectric door 30 can transmit the data that detect to the push rod motor and the alarm module of record module and flexible railing 4 bottom simultaneously, the flexible railing 4 of 1 both sides of first slab can stretch out, prevention patient falls the bed body, the doctor can catch up with the ward fast when discovering patient and rescue patient simultaneously.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A monitoring system for epileptic abnormity comprises an electroencephalogram detection module, a protection module, a recording module and an alarm module, and is characterized in that the electroencephalogram detection module can detect electroencephalograms of epileptic patients and further determine the illness degree of the patients, the protection module can detect the patients when the patients measure or the patients are suddenly ill, the recording module can enable doctors to accurately master the illness degree of the patients through patient self-recording and device comprehensive recording so as to adjust the treatment scheme of the patients, the alarm module can enable the patients to rapidly inform medical staff when the patients are ill so as to enable the patients to rapidly arrive at a bed and relieve the symptoms of the patients, the protection module comprises a first plate layer, a traction belt and a neck protection seat, a second plate layer is installed at the top of the first plate layer, and the surface of the second plate layer is provided with the neck protection seat, two install the neck pad between the neck protecting seat, the neck brace is installed to neck pad one side, the both sides of neck brace are run through respectively and are installed flexible piece, two install the traction area between the flexible piece, can protect patient's shoulder neck department through the traction area that is equipped with and neck protecting seat, and the electroencephalogram data that can make patient's detection through the traction area that is equipped with is more accurate.

2. A monitoring system for epileptic abnormalities, as set forth in claim 1, wherein: first draw-in groove is installed to the bottom of second sheet layer, the internally mounted of first sheet layer has the second draw-in groove, the position of first draw-in groove is corresponding with the position of second draw-in groove, the area of first sheet layer is greater than the area of second sheet layer, the guardrail is installed at the top of first sheet layer, the internally mounted of first draw-in groove has the limiting plate of "T" type, the rotation gyro wheel is installed to the bottom of limiting plate, the limiting plate has elasticity, the longitudinal length of limiting plate is less than the length of two draw-in grooves with, the internally mounted of guardrail has flexible railing, the vertical pillar internally mounted of guardrail has the push rod motor, the top of push rod motor is connected with the vertical pillar of flexible railing.

3. A monitoring system for epileptic abnormalities, as set forth in claim 1, wherein: the utility model discloses a rib neck guard, including second sheet layer, storage box, air storage bag, valve, air pump, air storage bag, the internally mounted of second sheet layer has the storage box, storage box internally mounted has the air storage bag, the air storage bag passes second sheet layer surface and the inside intercommunication of rib seat, the valve is installed in the exit of air storage bag, the air pump is installed to the other end of air storage bag.

4. A monitoring system for epileptic abnormalities, as set forth in claim 1, wherein: the utility model discloses a neck protecting device, including pull area, cooperation piece and pull area block, the inboard mid-mounting of pull area has the cooperation piece, the both sides of cooperation piece are installed and are extended the area, the cooperation piece is connected with the pull area block, the surface mounting in cooperation piece and extension area has the electrode piece, first passageway and second passageway have been seted up to the inside in pull area, pull the top in area and install the gasbag, gasbag and the inside intercommunication of first passageway, the bottom and the electroencephalogram detection module that the other end of electrode piece passed the second passageway and protected the neck seat are connected.

5. A monitoring system for epileptic abnormalities, as set forth in claim 1, wherein: the neck brace is characterized in that a gas collecting pipe is arranged in the neck brace, one end of the gas collecting pipe is communicated with the first gas collecting pipe through the inside, a connecting pipe is arranged on the surface of the gas collecting pipe, and the connecting pipe penetrates through the storage box and is communicated with the inside of the gas storage bag.

6. A monitoring system for epileptic abnormalities, as set forth in claim 1, wherein: protect the internally mounted of neck seat to have two pivots that the position corresponds each other, two compression spring is all installed to the one end of pivot, the surperficial annular winding of pivot has the traction area, the surperficial interval in traction area installs the light-shielding strip, protect the inside lateral wall of neck seat and install two at least photoelectric door, the position of photoelectric door and the position of light-shielding strip correspond each other.

7. A monitoring system for epileptic abnormalities, as set forth in claim 1, wherein: the electroencephalogram detection module comprises a lead and electroencephalogram detection equipment, and the electroencephalogram detection equipment is connected with the electrode plate through the lead to detect and transmit electroencephalogram signals.

8. A monitoring system for epileptic abnormalities, as set forth in claim 1, wherein: the recording module is arranged on the first board layer and comprises a timer display screen and a touch panel, the onset time, the duration time, the time interval of two onset times and the situation whether the onset time can be recalled are recorded, the starting recording time and the ending recording time of the timer are that the shading plate passes through a frequent speed change time range generated between two continuous photoelectric doors, the time interval of two onset times is an interval from the acceleration generation of frequent change to the acceleration change ending, and the situation whether the onset time can be recalled is recorded by the touch panel and the display screen through the waking waiting of the patient.

9. A monitoring system for epileptic abnormalities, as set forth in claim 1, wherein: the alarm module comprises an alarm, the alarm is connected with the photoelectric door, the triggering mode of the alarm is the same as the recording mode of attack time, and the alarm is remotely connected with a doctor department.

10. A monitoring system for epileptic abnormalities according to any of claims 2-6 and wherein: the monitoring system comprises the following steps: