CN110558947A - Anesthesia depth monitoring device for anesthesia department - Google Patents

Abstract

The invention discloses an anesthesia depth monitoring device for an anesthesia department. Has the advantages that: according to the invention, the adhesive protection structure is utilized, under the action of the hydrogel layer, the adhesive protection structure is attached to the skin through the self adhesive property, the phenomenon that the traditional adhesive tape is torn to the skin of a patient is avoided, and the comfort degree of the adhesive protection structure to the patient is ensured.

Description

Anesthesia depth monitoring device for anesthesia department

Technical Field

The invention relates to the field of medical instruments, in particular to an anesthesia depth monitoring device for an anesthesia department.

Background

With the medical progress in the recent years, when a certain size operation is performed, in order to avoid causing great operation pain to a patient in the operation process, preoperative anesthesia is very important and needs to be controlled for the patient, once the patient anesthesia measurement or the operation time cannot be controlled, the patient is easy to twitch due to pain, so that the medical accident is caused by the operation process, and therefore, in the operation process, the anesthesia depth of the patient needs to be monitored effectively at any time through anesthesia depth monitoring equipment.

And when utilizing anesthesia degree of depth monitoring facilities to monitor, when bonding the fixed through the adhesive tape because of the annual chip of tradition, because adhesive tape self cohesiveness is better, it is when taking off after contacting with human skin for a long time, then easily cause the tear phenomenon to patient's skin, and then lead to patient's skin to appear the tear scar, it bears the effect of exerting pressure for a long time of external force at the chip simultaneously, local incomplete laminating easily appears, thereby produce and have the air gap, and in the use now, can not carry out touching of bare hand again, in order to avoid influencing the effect of anesthesia degree of depth monitoring.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an anesthesia depth monitoring device for an anesthesia department, which aims to solve the defects that in the prior art, when a chip is bonded and fixed through an adhesive tape, the adhesive tape has good self-adhesive property, and is easy to tear and pull the skin of a patient after being contacted with the skin of the human body for a long time and taken down, so that the skin of the patient is torn and scratched, and meanwhile, under the long-time pressing action of external force, the chip is easy to partially and incompletely attached, so that air gaps are generated, and the chip cannot be touched by bare hands in the using process so as to avoid influencing the anesthesia depth monitoring effect.

In order to achieve the purpose, the invention is realized by the following technical scheme:

An anesthesia depth monitoring device for anesthesia department, which comprises a placement frame, a display, a connecting line, a conversion joint and a fitting head, the display is arranged on the upper surface of the placing frame and is connected with the placing frame through buckling, one end of the connecting wire is electrically connected with the display, the other end of the connecting wire is connected with the adapter, the three attaching heads are respectively and electrically connected with the adapter connector, each attaching head comprises a silica gel arc plate, a sticking and protecting structure, a transition structure, a compact attaching mechanism and a chip, the four sticking and protecting structures are respectively arranged on the surface of the silica gel arc plate in an even and equidistant shape and are connected by electric welding, transition structure installs and is connected with glutinous protection structure in silica gel arc board lower surface and one side, the laminating mechanism that compacts locates transition structure lower surface and is connected through the laminating, the chip mounting is in the laminating mechanism lower surface that compacts and is connected through the veneer.

As a further scheme of the invention, three buckling columns are arranged at the right angles of the lower surface of the silica gel arc plate and are connected through electric welding.

As a further aspect of the present invention, the adhesive protection structure includes a folded plate, a protection edge, and a hydrogel layer, wherein two protection edges are provided, and are respectively installed on the upper and lower portions of the surface of the folded plate and connected by gluing, the hydrogel layer is provided on the surface of the folded plate and connected by gluing, and the hydrogel layer is prevented from adhering under the action of the protection edge.

As a further scheme of the invention, only one sticking and protecting structure arranged on the outer surface of the silica gel arc plate is provided with the through hole and the traction rope, one end of the traction rope is connected with the through hole, and the other end of the traction rope is wound and connected with the transition structure by bypassing the buckling column, so that the pressurization treatment on the air bag is favorably realized, and the effective anesthesia depth monitoring on a patient is further realized.

As a further scheme of the invention, the sticking and protecting structure comprises a buckling ring, grooves, limiting springs, rollers and a movable lantern ring, wherein six grooves are arranged in the grooves and are respectively installed on the inner side of the buckling ring in a uniform and equidistant manner to form an integrated structure, six rollers are arranged in the grooves and are respectively connected with the limiting springs, the rollers are connected with the tightening and attaching mechanism through electric welding, the movable lantern ring is arranged in the buckling ring and is connected with the rollers through electric welding, one side of the movable lantern ring is connected with the traction rope through winding, and the phenomenon that the traditional attaching has a tearing effect on the skin of a patient is favorably avoided.

As a further scheme of the invention, the tightening and attaching mechanism comprises a fixed disc, an arc-shaped frame, a movable plate, one-way air inlet valves and air bags, wherein the arc-shaped frame is provided with six blocks which are uniformly and equidistantly arranged on the surface of the fixed disc, the arc-shaped frame and the fixed disc are of an integrated structure, the movable plate is provided with six blocks which are respectively connected with the rollers through electric welding, the air bags are arranged in the middle of the fixed disc and are connected through gluing, and the one-way air inlet valves are provided with six blocks which are respectively arranged on the surface of the air bags and are connected through gluing, so that the interference.

As a further scheme of the invention, the chip is arranged on the lower surface of the air bag and connected with the air bag through gluing, so that the chip is favorably attached to the skin of a human body in a tightening way.

Advantageous effects of the invention

Compared with the traditional anesthesia depth monitoring device for the anesthesia department, the anesthesia depth monitoring device has the following beneficial effects:

The adhesive protection structure is utilized, under the action of the hydrogel layer, the adhesive protection structure is attached to the skin through the self adhesive property, the phenomenon that the traditional adhesive tape is torn to the skin of a patient is avoided, and the comfort degree of the adhesive protection structure to the patient is ensured when the adhesive protection structure is attached to the skin.

The anesthesia depth monitoring device has the advantages that the tight attaching mechanism and the transition structure are matched with each other, the air bag is pressurized, so that the chip is completely attached to the skin of a patient, the anesthesia depth monitoring of the patient is effectively realized, and meanwhile, the phenomenon that local gaps occur due to incomplete attachment of parts of the patient is avoided, so that the monitoring effect is poor, and the control of anesthesia of the patient by medical staff is influenced.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

in the drawings:

Fig. 1 is a schematic structural view of an anesthesia depth monitoring device for an anesthesia department.

Fig. 2 is a schematic bottom view of the bonding head of the present invention.

FIG. 3 is a schematic view of a partial structure of the adhesive protection structure according to the present invention.

Fig. 4 is a schematic structural diagram of a transition structure according to the present invention.

FIG. 5 is a schematic bottom view of the tightening and applying mechanism of the present invention.

Fig. 6 is a side view of a cutting structure of the bonding head of the present invention.

in the figure: the device comprises a placement frame-1, a display-2, a connecting line-3, a conversion joint-4, a bonding head-5, a silica gel arc plate-5 a, a bonding structure-5 b, a transition structure-5 c, a tightening bonding mechanism-5 d, a chip-5 e, a button column-5 a1, a folded plate-5 b1, a protective edge-5 b2, a hydrogel layer-5 b3, a perforation-x 1, a traction rope-x 2, a fastening ring-5 c1, a groove-5 c2, a limiting spring-5 c3, a roller-5 c4, a movable lantern ring-5 c5, a fixed plate-5 d1, an arc frame-5 d2, a movable plate-5 d3, a one-way air inlet valve-5 d4 and an air bag-5 d 5.

Detailed Description

in order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 6, the invention provides a technical scheme of an anesthesia depth monitoring device for an anesthesia department:

As shown in fig. 1-6, an anesthesia depth monitoring device for anesthesia department comprises a placement frame 1, a display 2, a connection line 3, a conversion connector 4 and a fitting head 5, wherein the display 2 is arranged on the upper surface of the placement frame 1 and is connected with the display 2 through buckling, one end of the connection line 3 is electrically connected with the display 2, and the other end is connected with the conversion connector 4, three fitting heads 5 are arranged and are respectively electrically connected with the conversion connector 4, each fitting head 5 comprises a silica gel arc plate 5a, a bonding structure 5b, a transition structure 5c, a bonding mechanism 5d and a chip 5e, four bonding structures 5b are arranged and are respectively arranged on the surface of the silica gel arc plate 5a in an even and equidistant manner and are connected with each other through electric welding, the transition structure 5c is arranged on the lower surface of the silica gel arc plate 5a, one side of the bonding mechanism 5d is arranged on the lower surface of the transition structure 5c and is connected with the bonding structure, the chip 5e is arranged on the lower surface of the tightening and attaching mechanism 5d and connected through gluing.

As shown in fig. 2, three buckling posts 5a1 are arranged at the right angles of the lower surface of the silicon arc plate 5a and are connected by electric welding.

As shown in fig. 2-3, the adhesive protection structure 5b includes a flap 5b1, a protective edge 5b2, and a hydrogel layer 5b3, wherein two protective edges 5b2 are provided and are respectively mounted on the upper and lower portions of the surface of the flap 5b1 and connected by gluing, and the hydrogel layer 5b3 is provided on the surface of the flap 5b1 and connected by gluing, so as to prevent the hydrogel layer 5b3 from adhering under the action of the protective edge 5b 2.

As shown in fig. 2-3, only one of the sticky protection structures 5b arranged on the outer surface of the silicone arc plate 5a is provided with a through hole x1 and a traction rope x2, one end of the traction rope x2 is connected with the through hole x1, and the other end of the traction rope x2 is wound around the buckle column 5a1 and connected with the transition structure 5c, so that the pressurization treatment of the airbag 5d5 is facilitated, and further, the effective anesthesia depth monitoring of the patient is performed.

As shown in fig. 4, the sticky guard structure 5c includes a fastening ring 5c1, a groove 5c2, a limiting spring 5c3, a roller 5c4, and a movable collar 5c5, the groove 5c2 has six grooves, which are respectively installed inside the fastening ring 5c1 in a uniform and equidistant manner and are an integrated structure, the roller 5c4 has six grooves, which are respectively connected to the limiting spring 5c3, the roller 5c4 is connected to the tightening and applying mechanism 5d by electric welding, the movable collar 5c5 is installed inside the fastening ring 5c1 and is connected to the roller 5c4 by electric welding, and one side of the movable collar 5c5 is connected to the traction rope x2 by winding, which is beneficial to avoiding the traditional applying from having a tearing action on the skin of a patient.

As shown in fig. 5, laminating mechanism 5d that compacts includes fixed disk 5d1, arc frame 5d2, fly leaf 5d3, one-way admission valve 5d4, gasbag 5d5, arc frame 5d2 is equipped with six altogether and is even equidistance form respectively and installs in fixed disk 5d1 surface, arc frame 5d2 and fixed disk 5d1 be the integral structure, fly leaf 5d3 is equipped with six altogether and is connected through the electric welding with roller 5c4 respectively, gasbag 5d5 is installed in fixed disk 5d1 middle part and is connected through the veneer, one-way admission valve 5d4 is equipped with six altogether and locates gasbag 5d5 surface respectively and be connected through the veneer, is favorable to avoiding anesthesia monitoring to appear interfering.

as shown in fig. 6, the chip 5e is mounted on the lower surface of the air bag 5d5 and connected by gluing, which is beneficial to realize the tight fit of the chip 5e and the human skin.

In conclusion, the hydrogel layer 5b3 is attached to the epidermis of the patient, the traditional adhesive tape can be prevented from being torn, the hydrogel layer 5b3 is prevented from being bonded when folded under the action of the protective edge 5b2, the airbag 5d5 is pressurized under the interaction of the tightening and attaching mechanism 5d and the transition structure 5c, the chip 5e is completely attached to the skin of the patient, and therefore effective anesthesia depth monitoring of the patient is achieved.

The specific realization principle is as follows: when using, because of traditional anesthesia degree of depth monitoring facilities is doing the monitoring time to the patient, need through laminating chip 5e on patient skin surface, and bond fixedly through the adhesive tape, in order to avoid appearing becoming flexible, thereby influence the monitoring effect, nevertheless when bonding fixedly through the adhesive tape because of traditional year chip 5e, because adhesive tape self cohesiveness is better, it is after contacting with human skin for a long time and when taking off, then easily cause the tear phenomenon to patient skin, and then lead to patient skin to appear the tear scar, it bears under the long-time effect of exerting pressure of external force at chip 5e simultaneously, easily go out to have local incomplete laminating, thereby produce and have the air gap, and in the present use, can not carry out touching of bare hand again, in order to avoid influencing the effect of anesthesia degree of depth monitoring.

Therefore, when the patient is monitored for anesthesia, the folded plate 5b1 is pulled outwards by the adhesive protection structure 5b, so that the folded plate is attached to the skin of the patient under the action of the hydrogel layer 5b3, and the skin of the patient can be perfectly attached to the skin of the human body under the characteristic action of the hydrogel layer, so that the skin of the patient is prevented from being torn due to the tearing action of the traditional adhesive tape, and the comfort level of the patient when the patient is attached to the chip 5e is enhanced.

Meanwhile, when the traction rope x2 is expanded by the folded plate 5b1, the traction rope x2 pulls the movable lantern ring 5c5 to perform semi-rotation movement, the roller 5c4 performs movement along with the rotation of the roller 5c4, so that the limiting spring 5c3 is pressed down, the movable plate 5d3 performs synchronous movement along with the roller 5c4, the movable plate has airflow for movement under the movement effect, and the airflow enters the air bag 5d5 through the one-way air inlet valve 5d4 to perform pressurization on the air bag, so that the chip 5e is effectively and tightly attached to the skin of a patient, and the existing local incomplete attachment is avoided, so that a gap is caused to influence the depth anesthesia monitoring effect.

The invention solves the problems that when the traditional annual chip is bonded and fixed by an adhesive tape, the adhesive tape has better self-adhesive property, and is easy to tear and pull the skin of a patient when being contacted with the skin of a human body for a long time and taken down, so that the skin of the patient has a tear scar, and simultaneously, the local incomplete bonding is easy to occur under the long-time pressing action of external force, so that air gaps are generated, but the naked hand cannot touch the chip in the using process, so as to avoid influencing the monitoring effect of anesthesia depth. The anesthesia depth monitoring device has the advantages that the tight attaching mechanism and the transition structure are matched with each other, the air bag is pressurized, so that the chip is completely attached to the skin of a patient, the anesthesia depth monitoring of the patient is effectively realized, and meanwhile, the phenomenon that local gaps occur due to incomplete attachment of parts of the patient is avoided, so that the monitoring effect is poor, and the control of anesthesia of the patient by medical staff is influenced.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides an anesthesia degree of depth monitoring devices for department of anesthesia, its structure is including placing frame (1), display (2), connecting wire (3), crossover sub (4), laminating head (5), its characterized in that: the display (2) is arranged on the upper surface of the placing frame (1) and is connected with the placing frame through buckling, one end of the connecting wire (3) is electrically connected with the display (2), the other end of the connecting wire is connected with the conversion joint (4), and the three attaching heads (5) are respectively and electrically connected with the conversion joint (4);

Laminating head (5) include silica gel arc board (5 a), glue and protect structure (5 b), transition structure (5 c), laminating mechanism (5 d), chip (5 e) compact, glue and protect structure (5 b) and be equipped with four altogether and be even equidistance form respectively and install in silica gel arc board (5 a) surface and be connected through the electric welding, transition structure (5 c) are installed in silica gel arc board (5 a) lower surface and one side and are connected with gluing and protect structure (5 b), it locates transition structure (5 c) lower surface and is connected through the laminating to compact laminating mechanism (5 d), chip (5 e) are installed in laminating mechanism (5 d) lower surface and are connected through the veneer.

2. The anesthesia depth monitoring device for the anesthesia department according to claim 1, wherein: the right angle of the lower surface of the silica gel arc plate (5 a) is provided with three buckling columns (5 a 1) which are connected through electric welding.

3. The anesthesia depth monitoring device for the anesthesia department according to claim 1, wherein: the adhesive protection structure (5 b) comprises a folded plate (5 b 1), a protective edge (5 b 2) and a hydrogel layer (5 b 3), wherein two protective edges (5 b 2) are arranged and are respectively arranged on the upper portion and the lower portion of the surface of the folded plate (5 b 1) and connected through gluing, and the hydrogel layer (5 b 3) is arranged on the surface of the folded plate (5 b 1) and connected through gluing.

4. The anesthesia depth monitoring device for the anesthesia department according to claim 2, wherein: the sticky guard structure (5 b) that silica gel arc board (5 a) surface was equipped with only one is equipped with perforation (x 1), haulage rope (x 2), haulage rope (x 2) one end is connected with perforation (x 1) and the other end is walked around detaining post (5 a 1) and is connected with transition structure (5 c) winding.

5. The anesthesia depth monitoring device for the anesthesia department according to claim 1, wherein: the sticky protection structure (5 c) comprises a buckling ring (5 c 1), a groove (5 c 2), a limiting spring (5 c 3), rollers (5 c 4) and a movable lantern ring (5 c 5), wherein the groove (5 c 2) is provided with six rollers which are uniformly and equidistantly arranged on the inner side of the buckling ring (5 c 1) respectively and are of an integrated structure, the rollers (5 c 4) are provided with six rollers which are connected with the limiting spring (5 c 3) respectively, the rollers (5 c 4) are connected with the compact attaching mechanism (5 d) through electric welding, the movable lantern ring (5 c 5) is arranged inside the buckling ring (5 c 1) and is connected with the rollers (5 c 4) through electric welding, and one side of the movable lantern ring (5 c 5) is connected with a traction rope (x 2) through winding.

6. The anesthesia depth monitoring device for anesthesia department according to claim 1 or 5, wherein: compact laminating mechanism (5 d) is including fixed disk (5 d 1), arc frame (5 d 2), fly leaf (5 d 3), one-way admission valve (5 d 4), gasbag (5 d 5), arc frame (5 d 2) are equipped with six altogether and are even equidistance form respectively and install in fixed disk (5 d 1) surface, arc frame (5 d 2) and fixed disk (5 d 1) structure as an organic whole, fly leaf (5 d 3) are equipped with six altogether and are connected through the electric welding with roller (5 c 4) respectively, gasbag (5 d 5) are installed in fixed disk (5 d 1) middle part and are connected through the veneer, one-way admission valve (5 d 4) are equipped with six altogether and locate gasbag (5 d 5) surface respectively and are connected through the veneer.

7. The anesthesia depth monitoring device for the anesthesia department according to claim 1, wherein: the chip (5 e) is mounted on the lower surface of the air bag (5 d 5) and connected by gluing.