CN219147620U - Dynamic electroencephalogram monitor for clinical treatment of neurology - Google Patents

Abstract

The utility model discloses a dynamic electroencephalogram monitor for clinical treatment of neurology, which comprises: the device comprises a binding belt and a host machine, wherein a sensing module is arranged on the inner side of the binding belt, and a data line is connected to the outer side of the binding belt; the dynamic electroencephalogram monitor for clinical treatment of neurology has the beneficial effects that: when the clamp is used, the clamp belt at the tail end of the binding belt can be inserted into the lantern ring, the position of the clamp ring is slid according to the position of the head of a patient, the clamp block at one side of the clamp ring is pulled to be connected into the inserting block after the clamp ring is slid, the clamp block at one side of the clamp ring is loosened to reset the clamp block through the movable spring, the clamp ring is inserted into the inserting block, then the clamp block inside the inserting block is fixed, the clamp belt can be connected with the binding belt at the moment, and the clamp belt is fixed through the magic tape, so that the size of the binding belt can be adjusted, and a user can wear the clamp belt conveniently.

Description

Dynamic electroencephalogram monitor for clinical treatment of neurology

Technical Field

The utility model relates to the technical field of electroencephalogram monitors, in particular to a dynamic electroencephalogram monitor for clinical treatment of neurology.

Background

At present, neurology generally adopts special instrument to penetrate brain wave of patient when treating the patient, shows the brain wave of patient on the device, and doctor just can know the condition of patient according to the change of neurology patient brain wave this moment to can develop further treatment to the patient, and the special instrument that needs to use is dynamic brain wave detector.

The department of neurology brain electricity monitor that uses now, when using, the one end of data line is passed through sensing module and is connected on patient's overhead other end and show at display device generally, but the sensing module of connection on patient's overhead is all worn on the head, then uses the patient, and wear and appear the patient easily and wear uncomfortable condition for a long time, influence patient's use, fixed effect is not good simultaneously, causes sensing module to break away from the patient easily, thereby make the accuracy that detects the brain wave to the patient influence, consequently inconvenient user uses.

Disclosure of Invention

The utility model aims to provide a dynamic electroencephalogram monitor for clinical treatment of neurology, which aims to solve the problems that the existing neurology electroencephalogram monitor provided by the background art is easy to cause uncomfortable feeling of a patient or the sensor is separated because the detector is worn on the head of the patient in a head-wearing way.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a dynamic electroencephalogram monitor for clinical treatment of neurology, comprising: the device comprises a binding belt and a host, wherein a sensing module is arranged on the inner side of the binding belt, a data line is connected to the outer side of the binding belt, and the host is connected to one side of the data line;

one end of bandage is connected with the lantern ring, the other end of bandage is connected with the clamping band, the snap ring has been cup jointed to the inside activity of clamping band, one side of snap ring is provided with the fixture block, the inserted block is installed to the inboard of lantern ring, the inside through-connection of inserted block has the gag lever post, be provided with movable spring between gag lever post and the lantern ring, one side of clamping band is provided with the magic subsides.

Preferably, the limiting rod is inserted into the insert block through the collar by forming a telescopic structure between the movable spring and the collar.

Preferably, the clamping blocks are inserted into the inserting blocks through inserting holes matched with the clamping blocks in size, and the inserting blocks are symmetrically and fixedly installed with two groups relative to the center line of the lantern ring.

Preferably, a lug is arranged at the back of one side of the host computer, handles are connected to the two sides of the lug through rotating shafts, fixing blocks are arranged on the two sides of the handles, connecting blocks are arranged on one sides of the fixing blocks, inserting rods penetrate through the connecting blocks, and telescopic springs are arranged between the inserting rods and the connecting blocks.

Preferably, the inserted bar is inserted into the fixed block through the jack matched with the inserted bar in size, and the inserted bar forms a telescopic structure with the connecting block through the telescopic spring.

Preferably, the connecting blocks are fixedly connected with the host, and the connecting blocks are symmetrically provided with two groups relative to the central line of the host.

Preferably, the bottom of the handle is provided with a track, a movable buckle is arranged between the two tracks, and a sliding cover is connected inside the track in a sliding manner.

Preferably, the sliding cover forms a sliding structure with the track through the sliding block, and the track is symmetrically provided with two groups relative to the central line of the sliding cover.

Compared with the prior art, the dynamic electroencephalogram monitor for clinical treatment of neurology has the beneficial effects that: when the clamp is used, the clamp belt at the tail end of the binding belt can be inserted into the lantern ring, the position of the clamp ring is slid according to the position of the head of a patient, the clamp block at one side of the clamp ring is pulled to be connected into the inserting block after the clamp ring is slid, the clamp block at one side of the clamp ring is loosened to reset the clamp block through the movable spring, the clamp ring is inserted into the inserting block, then the clamp block inside the inserting block is fixed, the clamp belt can be connected with the binding belt at the moment, and the clamp belt is fixed through the magic tape, so that the size of the binding belt can be adjusted, and a user can wear the clamp belt conveniently.

1. This a dynamic brain wave monitor for clinical treatment of department of neurology, because department of neurology brain wave detector all needs to connect one end in patient's head position, then show, when needs are fixed at patient's head with sensing module, can pass the lantern ring with the clamping band according to patient's head's size, then slip snap ring, after moving to suitable position, the pulling gag lever post, in inserting the dog butt joint to the kicking block, loosen the gag lever post this moment, the gag lever post passes through movable spring reset and inserts and insert in the kicking block, and fix the fixture block in the kicking block, then fix the one end of clamping band with the bandage through the magic subsides, thereby can facilitate the use person adjusts the bandage, thereby satisfy different users and use.

2. This a dynamic brain electricity monitor for clinical treatment of department of neurology, because the brain electricity detector that whole department of neurology was used usually can carry according to patient's user demand, consequently brain electricity monitor conveniently carries in very, when needs carry this brain electricity monitor, can be through the inserted bar to both sides pulling both sides for the inserted bar moves to both sides through the inside extension spring of joint piece, does not have the spacing effect of inserted bar to the fixed block this moment, and the handle just can rotate through the pivot, and the user just can carry through the handle convenience this moment, the condition of host computer landing can not appear, convenient to use person uses.

3. This a dynamic brain electricity monitor for clinical treatment of department of neurology, in order not to influence department of neurology patient's user demand, when using this brain electricity detector, can accomodate the data line, when needs accomodate the data line, can slide the sliding closure through the track, slide the sliding closure from between the track to one side, then fix the data line between two activity buckles, just can play the effect of accomodating the data line this moment, and can also be according to the user demand, adjust the length of accomodating of data line, the use of brain electricity detector of being convenient for can not appear winding phenomenon because of the data line overlength.

Drawings

FIG. 1 is a schematic diagram of a front view structure of the present utility model;

FIG. 2 is a schematic diagram of the back structure of the host according to the present utility model;

FIG. 3 is a schematic view of the back section of the main machine of the present utility model;

FIG. 4 is a schematic top view of the main machine of the present utility model;

fig. 5 is a schematic view of a front cut-away connection structure of the snap ring of the present utility model.

In the figure: 1. a strap; 2. a sensing module; 3. a data line; 4. a host; 5. a collar; 6. a clamping belt; 7. a clasp; 8. a clamping block; 9. inserting blocks; 10. a limit rod; 11. a movable spring; 12. a magic tape; 13. a bump; 14. a handle; 15. a fixed block; 16. a joint block; 17. a rod; 18. a telescopic spring; 19. a track; 20. a movable buckle; 21. a sliding cover.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: a dynamic electroencephalogram monitor for clinical treatment of neurology, comprising: the device comprises a binding belt 1 and a host machine 4, wherein a sensing module 2 is arranged on the inner side of the binding belt 1, a data line 3 is connected to the outer side of the binding belt 1, and the host machine 4 is connected to one side of the data line 3;

one end of bandage 1 is connected with lantern ring 5, the other end of bandage 1 is connected with clamping belt 6, clamping ring 7 has been cup jointed in the inside activity of clamping belt 6, one side of clamping ring 7 is provided with fixture block 8, insert block 9 is installed to the inboard of lantern ring 5, insert block 9's inside through connection has gag lever post 10, be provided with movable spring 11 between gag lever post 10 and the lantern ring 5, one side of clamping belt 6 is provided with magic subsides 12, the gag lever post 10 passes through between movable spring 11 and the lantern ring 5 and constitutes extending structure, the gag lever post 10 runs through lantern ring 5 and inserts the inside of insert block 9, fixture block 8 is inserted in insert block 9 through the jack with fixture block 8 size assorted, and insert block 9 has two sets of with central line symmetry fixed mounting of lantern ring 5.

When the dynamic electroencephalogram monitor for clinical treatment of neurology is specifically implemented, when the bandage 1 is required to be fixed on the head of a patient in neurology, the sensing module 2 inside the bandage 1 can be attached to the head of the patient, then the clamping band 6 penetrates through the lantern ring 5, the position of the clamping ring 7 on the outer side of the clamping band 6 can be adjusted according to the head of the patient, after the clamping ring 7 is adjusted to a proper position, the limiting rods 10 are pulled towards two sides, the clamping blocks 8 on one side of the clamping ring 7 are inserted into the inserting blocks 9, then the limiting rods 10 are loosened, the limiting rods 10 penetrate through the lantern ring 5 to be inserted into the inserting blocks 9 through the reset action of the movable springs 11, the clamping blocks 8 inside the inserting blocks 9 are limited in the inserting blocks 9, so that the clamping band 6 can be fixed in the lantern ring 5, and meanwhile, the clamping band 1 is fixed through the clamping band 6 and the magic tape 12 on one side of the bandage 1.

Referring to fig. 4, the binding band can be worn on the head according to use, then the binding band is fixed with the lantern ring 5 through the clamping block 8, and the length of the binding band 1 is adjusted through the magic tape 12, so that a user can conveniently adjust the binding band according to different head positions, and the wearing requirements of different people are met.

The back of one side of host computer 4 is provided with lug 13, the both sides of lug 13 are connected with handle 14 through the pivot, the both sides of handle 14 are provided with fixed block 15, one side of fixed block 15 is provided with joint block 16, the inside of joint block 16 runs through and peg graft there is inserted bar 17, be provided with telescopic spring 18 between inserted bar 17 and the joint block 16, inserted bar 17 is inserted into fixed block 15 through the jack with inserted bar 17 size assorted, and constitute telescopic structure between inserted bar 17 and the joint block 16 through telescopic spring 18, be fixed connection between joint block 16 and the host computer 4, and the central line symmetry of joint block 16 about host computer 4 installs two sets of.

In specific implementation, when the whole host computer 4 is required to be carried, the inserting rod 17 can be pulled to two sides, so that the inserting rod 17 moves to two sides of the connecting block 16 through the telescopic spring 18, the inserting rod 17 moves out of the fixed block 15, the handle 14 can rotate through the rotating shaft and the protruding block 13 without limiting effect of the inserting rod 17 on the fixed block 15, the handle 14 can be rotated upwards, the carrying effect of a user can be achieved through the handle 14, when the handle 14 is required to be fixed, the inserting rod 17 can be pulled to two sides, then the handle 14 can be rotated to one side of the inserting rod 17 through the rotating shaft, the inserting rod 17 is loosened, the inserting rod 17 is reset through the telescopic spring 18, the inserting rod 17 is inserted into the fixed block 15, and the handle 14 is fixed on the back of the host computer 4 through the inserting rod 17.

Referring to fig. 4, when the whole host 4 needs to be carried, the user can conveniently carry the host 4 through the handle 14 by pulling the insert rod 17 to two sides and rotating the handle 14 through the rotating shaft without limiting the handle 14 by the insert rod 17.

The bottom of the handle 14 is provided with a track 19, a movable buckle 20 is arranged between the two tracks 19, a sliding cover 21 is connected inside the track 19 in a sliding manner, the sliding cover 21 and the track 19 form a sliding structure through a sliding block, and the tracks 19 are symmetrically provided with two groups about the central line of the sliding cover 21.

During implementation, the dynamic electroencephalogram monitor for clinical treatment of neurology can expose the movable buckle 20 through the sliding cover 21 on one side of the track 19 when the data line 3 is required to be stored, and the movable buckle 20 is made of elastic plastic, so that the data line 3 can be clamped between the movable buckles 20 according to the position of the movable buckle 20, then the data line 3 is covered by the sliding cover 21 on one side of the data line 3 through the track 19 in a sliding manner, and a user can adjust the length of the data line 3 according to the use requirement.

Referring to fig. 4, a user can store the overlong data line 3 between the movable buckles 20 according to the length of the data line 3, and then cover the data line 3 and the movable buckles 20 by sliding the sliding cover 21, thereby storing the data line 3.

To sum up: when the dynamic electroencephalogram monitor for clinical treatment of neurology is used, when the bandage 1 is required to be fixed on the head of a neurology patient, the sensing module 2 inside the bandage 1 can be attached to the head of the patient, then the clamp belt 6 penetrates through the collar 5, the position of the clamp ring 7 outside the clamp belt 6 can be adjusted according to the size of the head of the patient, after the clamp ring 7 is adjusted to a proper position, the limiting rod 10 is pulled to two sides, the clamping block 8 on one side of the clamp ring 7 is inserted into the inserting block 9, then the limiting rod 10 is loosened, the limiting rod 10 is reset through the movable spring 11, the collar 5 is inserted into the inserting block 9, and the clamping block 8 inside the inserting block 9 is limited in the inserting block 9, so that the clamp belt 6 can be fixed in the collar 5, simultaneously, the clamp belt 1 is fixed through the clamp belt 6, the clamp belt 1 is simultaneously, the sensing module 2 on one side of the clamp belt 1 senses the brain waves of the patient, and then the data wire 3 is transmitted to the host 4 for displaying, and the brain waves of the patient can be detected, and the dynamic electroencephalogram monitor is a special technical field for the neurology patient.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. A dynamic electroencephalogram monitor for clinical treatment of neurology, comprising: the novel portable electronic device is characterized in that a sensing module (2) is arranged on the inner side of the binding band (1), a data line (3) is connected to the outer side of the binding band (1), and the host (4) is connected to one side of the data line (3);

one end of bandage (1) is connected with lantern ring (5), the other end of bandage (1) is connected with clamping band (6), snap ring (7) have been cup jointed to the inside activity of clamping band (6), one side of snap ring (7) is provided with fixture block (8), inserted block (9) are installed to the inboard of lantern ring (5), the inside through-connection of inserted block (9) has gag lever post (10), be provided with movable spring (11) between gag lever post (10) and lantern ring (5), one side of clamping band (6) is provided with magic subsides (12).

2. The dynamic electroencephalogram monitor for clinical treatment in neurology according to claim 1, wherein: the limiting rod (10) forms a telescopic structure between the movable spring (11) and the lantern ring (5), and the limiting rod (10) penetrates through the lantern ring (5) and is inserted into the insert block (9).

3. The dynamic electroencephalogram monitor for clinical treatment in neurology according to claim 1, wherein: the clamping blocks (8) are inserted into the inserting blocks (9) through inserting holes matched with the clamping blocks (8), and the inserting blocks (9) are symmetrically and fixedly installed with two groups relative to the center line of the lantern ring (5).

4. The dynamic electroencephalogram monitor for clinical treatment in neurology according to claim 1, wherein: the utility model discloses a host computer, including host computer (4), handle (14) are connected with through the pivot to one side back of host computer (4), the both sides of lug (13) are connected with handle (14), the both sides of handle (14) are provided with fixed block (15), one side of fixed block (15) is provided with joint piece (16), the inside of joint piece (16) is run through and is pegged graft there is inserted bar (17), be provided with extension spring (18) between inserted bar (17) and joint piece (16).

5. The dynamic electroencephalogram monitor for clinical treatment in neurology according to claim 4, wherein: the inserting rod (17) is inserted into the fixed block (15) through an inserting hole matched with the inserting rod (17), and the inserting rod (17) and the connecting block (16) form a telescopic structure through a telescopic spring (18).

6. The dynamic electroencephalogram monitor for clinical treatment in neurology according to claim 4, wherein: the connecting blocks (16) are fixedly connected with the host machine (4), and the connecting blocks (16) are symmetrically arranged in two groups relative to the central line of the host machine (4).

7. The dynamic electroencephalogram monitor for clinical treatment in neurology according to claim 4, wherein: the bottom of handle (14) is provided with track (19), is provided with activity knot (20) between two track (19), the inside sliding connection of track (19) has sliding closure (21).

8. The dynamic electroencephalogram monitor for clinical treatment of neurology according to claim 7, wherein: the sliding structure is formed between the sliding cover (21) and the track (19) through the sliding blocks, and the track (19) is symmetrically provided with two groups relative to the central line of the sliding cover (21).

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