CN117257582A - Anesthesia nursing neck strutting arrangement - Google Patents

Abstract

The invention belongs to the technical field of nursing pillows, and particularly relates to an anesthesia nursing neck support device which comprises a pillow body, a support column, a telescopic sleeve and a plugging block; the support column, the telescopic sleeve and the plugging block are arranged in the pillow body, the two ends of the telescopic sleeve are provided with openings, the support column is arranged in the opening at the upper end of the telescopic sleeve in a sealing sliding manner, the support column is contacted with the head and neck of a patient and provides support, and the plugging block plugs the opening at the lower end of the telescopic sleeve so that the telescopic sleeve and the support column are relatively static; through the spacing support column reciprocates of shutoff piece, form the profile of fixed support patient's head posture, and then avoided the unable fixed patient's head that exists among the prior art, lead to the unsmooth problem of patient's breathing easily, improve patient's experience, improve nursing security performance.

Description

Anesthesia nursing neck strutting arrangement

Technical Field

The invention belongs to the technical field of nursing pillows, and particularly relates to an anesthesia nursing neck support device.

Background

Under the condition that local anesthesia is serious or unsuitable, general anesthesia is usually carried out on a patient in medicine, and the general anesthesia patient has an unconscious resuscitation period, because the general anesthesia of the patient is carried out at the moment, various functions of the body are weakened, the problems of unsmooth breathing and the like are easy to occur, part of patients can suffer from the phenomena of vomiting and the like due to reaction to anesthetic drugs, and if the patients are not treated properly, the patients are choked easily, so the head and neck of the patients are required to be fixed, and the danger of the patients is prevented.

Among the prior art, like chinese patent CN209678927U discloses an postoperative anesthesia resuscitation patient is with air flue safety nursing pillow, it includes the connecting rod, support sponge and support bag, connecting rod and support sponge can support patient's head, support bag is used for adjusting the whole height of connecting rod and support sponge, but support sponge contact patient's head after, support sponge and connecting rod can not lock to be fixed, after the patient receives external force, the head rotates and contacts other support sponge, make more support sponge push down, can not prevent that patient's head from twisting, patient's head easily produces the twist and causes patient to breathe unsmoothly in the use.

Disclosure of Invention

Based on the above, it is necessary to provide an anesthesia care neck support device for solving the problems that the head of a patient cannot be fixed, the head of the patient is easy to twist, and the patient is easy to breathe unsmooth due to the airway safety care pillow for the postoperative anesthesia resuscitation patient at present.

The above purpose is achieved by the following technical scheme:

an anesthesia care neck support device comprises a pillow body, a support assembly, a sealing assembly and an induction assembly; the upper surface of the pillow body is provided with a matching through hole; the support assembly is used for supporting the head and neck of a patient and comprises a support column and a telescopic sleeve, the telescopic sleeve is arranged in the pillow body, openings are formed in two ends of the telescopic sleeve, the support column penetrates through the matched through hole, meanwhile, the support column is mounted in an opening in the upper end of the telescopic sleeve in a sealing mode, the support column can slide relative to the inner wall of the telescopic sleeve, and the support column and the telescopic sleeve are vertically arranged; the sealing assembly is used for sealing the lower end opening of the telescopic sleeve and comprises a sealing block, the sealing block is provided with a first relative position and a second relative position relative to the lower end opening of the telescopic sleeve, when the sealing block is at the first relative position, the lower end opening of the telescopic sleeve is open, the support column can slide in the telescopic sleeve in a telescopic manner, when the sealing block is at the second relative position, the sealing block is in sealing fit with the lower end opening of the telescopic sleeve, and the lower end of the telescopic sleeve is sealed, so that the support column is static relative to the telescopic sleeve; the plurality of matched through holes, the supporting component and the sealing component are arranged in a matrix manner; the sensing component can check whether the head and neck of the patient is in contact with the support column or not and enable the plugging block to be switched to a first relative position and a second relative position; after the head and neck of the patient is contacted with the support column, the induction component enables the blocking block to be switched to a second relative position.

Further, the sealing assembly further comprises a first plate body, the lower parts of all the plugging blocks are fixedly connected to the same first plate body, and the first plate body can drive the plugging blocks to move up and down, so that the plugging blocks are switched to a first relative position and a second relative position.

Further, a sealing chamber is arranged in the pillow body, the telescopic sleeve is arranged in the sealing chamber, and the inner wall of the support column is in sealing sliding fit with the inner wall of the fit through hole; the sensing assembly comprises a first linear motor, the first linear motor is vertically arranged, the output end of the first linear motor is fixedly connected with the first plate body, the first linear motor stretches out and draws back to drive the first plate body to move up and down, and then the blocking block is driven to be switched to a first relative position and a second relative position. Further, the sealing assembly further comprises a second plate body, the second plate body is arranged in the sealing chamber of the pillow body, the second plate body is in contact with the inner wall of the sealing chamber, all the telescopic sleeves are fixedly connected to the upper surface of the second plate body, the second plate body can move up and down relative to the sealing chamber, and the second plate body moves up and down to drive the telescopic sleeves to move up and down; the induction assembly further comprises a second linear motor, the second linear motor is vertically arranged, the output end of the second linear motor is fixedly connected with the second plate body, the second linear motor can stretch out and draw back, the second plate body is driven to move up and down through the output end, and when the plugging block is located at a second relative position, the second plate body moves up and down to drive the telescopic sleeve and the supporting column to move up and down; the first linear motor is fixedly connected with the second plate body.

Further, the support column internal structure is hollow, and is provided with the exhaust through-hole on the inner wall of support column, and initially, the height of exhaust through-hole axis is parallel with the upper surface of pillow body.

Further, the support assembly further comprises a first elastic piece, the first elastic piece can stretch and rebound, the first elastic piece is arranged in the telescopic sleeve, one end of the first elastic piece is connected with the support column, and the other end of the first elastic piece is connected with the bottom of the telescopic sleeve.

Further, the sensing assembly includes a pressure sensor and a first controller; the supporting component and the sealing component are uniformly arranged and are arranged in a matrix; the pressure sensor is electrically connected with the first controller, and meanwhile, the first controller is electrically connected with the first linear motor, the number of the pressure sensors is the same as that of the supporting columns, the pressure sensors are arranged between the first elastic piece and the bottom of the telescopic sleeve, and the pressure sensors can detect the pressure received by the first elastic piece and convert the pressure into an electric signal to be transmitted to the first controller; when the pressure is detected by more than two rows of pressure sensors, the first controller controls the first linear motor to be shortened, so that the height of the first plate body is increased, and the first plate body moves to drive the plugging block to move, so that the plugging block is switched to a second relative position.

Further, the sensing assembly includes a resistor and a tact switch; a tact switch is arranged below each support column, and the support columns descend relative to the telescopic sleeves to enable the tact switches to be closed; the tact switches below each column of the support columns are arranged in series to form a column series circuit, and a plurality of column series circuits are connected in parallel and then connected in series with the first linear motor; resistors are connected in series in a column series circuit.

Further, the sensing assembly further comprises a second controller, the second controller is electrically connected with the second linear motor, and the second controller can control the second linear motor to stretch and retract.

Further, the upper ends of the support columns are provided with a flexible material.

The beneficial effects of the invention are as follows:

1. through the spacing support column reciprocates of seal assembly, form the profile of fixed support patient's head posture, and then avoided the unable fixed patient's head that exists among the prior art, patient's head twists easily, and then lead to the patient to breathe unsmoothly problem, improve patient's experience, improve nursing security performance.

2. All the plugging blocks are arranged on the same first plate body, and the first plate body can move up and down to drive all the plugging blocks to move up and down at the same time, so that all the plugging blocks can be used for switching the first relative position and the second relative position in a coordinated and consistent manner.

Drawings

FIG. 1 is a schematic view of one embodiment of an anesthesia care neck support apparatus of the present invention;

FIG. 2 is a top view of one embodiment of the anesthesia care neck support of the present invention;

FIG. 3 is a cross-sectional view taken along the direction A-A in FIG. 2;

FIG. 4 is a side view of one embodiment of the anesthesia care neck support of the present invention;

FIG. 5 is a cross-sectional view taken along the direction B-B in FIG. 4;

FIG. 6 is an enlarged view of a portion of FIG. 5 at C;

FIG. 7 is an exploded view of one embodiment of the anesthesia care neck support of the present invention;

wherein:

100. a pillow body; 110. a support column; 120. a telescoping sleeve; 130. a block; 140. a mating through hole; 150. an exhaust through hole;

200. a first plate body; 210. a second plate body; 215. a third plate body; 220. sealing the chamber;

230. a first linear motor; 240. a second linear motor; 250. a first elastic member.

Detailed Description

The present invention will be further described in detail below with reference to examples, which are provided to illustrate the objects, technical solutions and advantages of the present invention. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The numbering of components herein, such as "first," "second," etc., is used merely to distinguish between the described objects and does not have any sequential or technical meaning. The terms "coupled" and "connected," as used herein, are intended to encompass both direct and indirect coupling (coupling), unless otherwise indicated. In the description of the present invention, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the present invention, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

An anesthesia care neck support device provided by an embodiment of the present invention is described below with reference to fig. 1 to 7.

An anesthesia care neck support device includes a pillow body 100, a support assembly, a sealing assembly, and a sensing assembly.

The upper surface of the pillow body 100 is provided with a fitting through hole 140; the support assembly is used for supporting the head and neck of a patient and comprises a support column 110 and a telescopic sleeve 120, and the support column 110 and the telescopic sleeve 120 are vertically arranged; the telescopic sleeve 120 is arranged inside the pillow body 100, and two ends of the telescopic sleeve 120 are openings; the support column 110 lower extreme wears to locate cooperation through-hole 140, and support column 110 upper end and patient's neck contact, support column 110 seal mount in telescopic tube 120's upper end opening simultaneously, and support column 110 can slide for telescopic tube 120's inner wall. The sealing assembly is used for sealing the lower end opening of the telescopic sleeve 120, and comprises a sealing block 130, wherein the sealing block 130 has a first relative position and a second relative position relative to the lower end opening of the telescopic sleeve 120, when the sealing block 130 is at the first relative position, the lower end opening of the telescopic sleeve 120 is open, and the support column 110 can slide in the telescopic sleeve 120 in a telescopic manner; when the plugging block 130 is at the second relative position, the plugging block 130 is in sealing fit with the lower end opening of the telescopic sleeve 120, the lower end of the telescopic sleeve 120 is plugged, gas in the telescopic sleeve 120 cannot be discharged, the support column 110 is static relative to the telescopic sleeve 120, and then the neck of a patient can be supported through the telescopic sleeve 120 and the support column 110.

The plurality of matching through holes 140, the supporting component and the sealing component are arranged in a matrix mode, and are in a mode of a plurality of rows and columns, wherein the rows and the columns are vertical, and the intervals are uniform. The sensing assembly is capable of checking whether the patient's head and neck is in contact with the support column 110 and switching the block 130 to the first and second relative positions; after the patient's head and neck contacts the support column 110, the sensing assembly switches the block 130 to the second relative position.

Initially, the plugging block 130 is located at a first relative position, during the use process, the head and neck of a patient is in contact with the pillow body 100, the head and neck of the patient presses the support column 110 downwards, the support column 110 descends relative to the telescopic sleeve 120, after the sensing assembly detects that the head and neck of the patient is in contact with the support column 110, the sensing assembly controls the plugging block 130 of the sealing assembly to switch to a second relative position, the plugging block 130 plugs an opening at the lower end of the telescopic sleeve 120, so that the support column 110 is static relative to the telescopic sleeve 120, the support column 110 which is not pressed by the head and neck of the patient is also static relative to the telescopic sleeve 120, and the pressed support column 110 and the non-pressed support column 110 form a contour for supporting the head of the patient so as to fix the head of the patient better; through the spacing support column 110 of seal assembly reciprocates, form the profile of fixed support patient's head posture, and then avoided the unable fixed patient's head that exists among the prior art, lead to the patient to breathe unsmoothly problem easily when patient's head twists, improve patient's experience, improve nursing security performance.

The sealing assembly further comprises a first plate 200, wherein the bottoms of all the plugging blocks 130 are fixedly connected to the same first plate 200, and the first plate 200 can drive all the plugging blocks 130 to move up and down, so that the plugging blocks 130 are switched to a first relative position and a second relative position.

All the plugging blocks 130 are arranged on the same first plate body 200, and the first plate body 200 can drive all the plugging blocks 130 to move up and down at the same time by moving up and down, so that all the plugging blocks 130 can be coordinated.

The pillow body 100 is internally provided with a sealing chamber 220, the telescopic sleeve 120 is arranged in the sealing chamber 220, and the inner wall of the support column 110 is in sealing sliding fit with the inner wall of the matching through hole 140; the sensing assembly includes a first linear motor 230, the first linear motor 230 is vertically disposed, and the output end of the first linear motor 230 is fixedly connected with the first board 200, and the first linear motor 230 stretches out and draws back to drive the first board 200 to move up and down, so as to drive the plugging block 130 to switch to a first relative position and a second relative position.

The sealing assembly further comprises a second plate body 210, the second plate body 210 is arranged in the sealing chamber 220 of the pillow body 100, the second plate body 210 is in contact with the inner wall of the sealing chamber 220, all the telescopic sleeves 120 are fixedly connected to the upper surface of the second plate body 210, the second plate body 210 can move up and down relative to the sealing chamber 220, and the second plate body 210 moves up and down to drive the telescopic sleeves 120 to move up and down.

The induction assembly further comprises a second linear motor 240, the second linear motor 240 is vertically arranged, the output end of the second linear motor 240 is fixedly connected with the second plate body 210, the second linear motor 240 can stretch out and draw back and drive the second plate body 210 to move up and down through the output end, when the plugging block 130 is positioned at the second relative position, the second plate body 210 moves up and down to drive the telescopic sleeve 120 and the supporting column 110 to move up and down so as to adjust the heights of the telescopic sleeve 120 and the supporting column 110 in the pillow body 100, and then the height of the head and neck of different patients can be adapted; the first linear motor 230 is fixedly connected to the second plate 210.

The tail end of the second linear motor 240 is fixedly connected to the upper inner wall of the sealing chamber 220.

The third plate 215 is disposed in the sealing chamber 220, the telescopic sleeve 120 is disposed through the third plate 215, and the third plate 215 plays a role in guiding the up-and-down movement of the telescopic sleeve 120.

The support column 110 has a hollow internal structure, and the inner wall of the support column 110 is provided with an exhaust through hole 150, and initially, the height of the axis of the exhaust through hole 150 is parallel to the upper surface of the pillow body 100.

Initially, the plugging block 130 is located at a first relative position, in the use process, the head and neck of a patient presses the support column 110, the support column 110 is pressed down, the support column 110 descends and extrudes air in the telescopic sleeve 120 into the sealing chamber 220, and meanwhile, the exhaust through holes 150 on the outer wall of the pressed support column 110 are overlapped with the shell wall of the pillow body 100, so that the exhaust through holes 150 are plugged; the air in the sealing chamber 220 is discharged from the air discharge through holes 150 on the support column 110 which is not pressed, and after the sensing component detects that the head and neck of the patient presses the support column 110 for a first preset time, the first linear motor 230 is controlled to stretch and retract, so that the plugging block 130 is switched to a second relative position; after the first preset time, the head and neck of the patient is completely placed on the supporting column 110, the induction component controls the second linear motor 240 to extend, the second linear motor 240 extends to drive the second plate body 210 to move downwards, the second plate body 210 moves downwards to enable all the telescopic sleeves 120 to move downwards, the telescopic sleeves 120 move downwards to drive the supporting column 110 to move downwards, then the exhaust through holes 150 on the supporting column 110 are blocked, the supporting column 110 and the telescopic sleeves 120 are relatively static, and then a fixed profile capable of supporting the head and neck of the patient is formed, and the whole height of the head and neck of the patient can be adjusted through the whole descending of the supporting column 110 and the telescopic sleeves 120. By setting the first preset time, the head and neck of the patient is guaranteed to be completely rested on the support column 110, the blocking block 130 is switched to the second relative position, and the blocking block 130 is prevented from blocking the support column 110 to further move when the head and neck of the patient is not rested in place, so that the support column 110 is affected to form the outline for supporting the head of the patient. The first preset time may be set according to actual needs, and may generally be set to 3s.

The support assembly further comprises a first elastic member 250, the first elastic member 250 can stretch and rebound, the first elastic member 250 is arranged in the telescopic sleeve 120, one end of the first elastic member 250 is connected with the support column 110, and the other end of the first elastic member 250 is connected with the bottom of the telescopic sleeve 120. The first elastic member 250 can apply a force to the support column 110 to extend the support column 110 out of the telescopic sleeve 120.

The sensing assembly comprises a pressure sensor and a first controller; the supporting component and the sealing component are uniformly arranged and are arranged in a matrix; the pressure sensor is electrically connected with the first controller, and meanwhile, the first controller is electrically connected with the first linear motor 230, the number of the pressure sensors is the same as that of the support columns 110, the pressure sensors are arranged between the first elastic piece 250 and the bottom of the telescopic sleeve 120, and the pressure sensors can detect the pressure received by the first elastic piece 250 and convert the pressure into an electric signal to be transmitted to the first controller; when more than two rows of pressure sensors detect pressure, the head and neck of the patient are indicated to press the support column 110, the first controller controls the first linear motor 230 to shorten, so that the height of the first plate 200 is increased, the first plate 200 moves to drive the plugging block 130 to move, the plugging block 130 is switched to the second relative position, and the directions of the rows arranged by the support component, the sealing component and the pressure sensors are the head and neck directions when the patient uses the anesthesia care neck support device.

The technical scheme of the induction component can be replaced by the following technical scheme, and the induction component comprises a resistor and a tact switch; a tact switch is arranged below each support column 110, and the support columns 110 descend relative to the telescopic sleeves 120 to enable the tact switches to be closed; the tact switches under each column of the support columns 110 are arranged in series to form a column series circuit, and a plurality of column series circuits are connected in parallel and then connected in series with the first linear motor 230; resistors are connected in series in a column series circuit. When the two or more rows of tact switches are closed, a parallel circuit is formed, the resistance of the resistor arranged in the circuit becomes smaller, the current becomes larger, and after the current value is increased to the rated current of the first linear motor 230, the head and neck of the patient is indicated to press the support column 110, the first linear motor 230 is started, the first linear motor 230 is shortened to drive the first plate 200 to move upwards, and the first plate 200 moves upwards to drive the blocking block 130 to move upwards, so that the blocking block 130 is switched to the second relative position.

The sensing assembly further includes a second controller electrically connected to the second linear motor 240, the second controller being capable of controlling the second linear motor 240 to extend and retract. In one embodiment, the second controller is electrically connected to the first controller, and when the first controller detects that the head and neck of the patient presses the support column 110 for a first preset time, the second controller stretches the second linear motor 240, so as to drive the telescopic sleeve 120 and the support column 110 to move downwards. In another embodiment, the second controller can detect the current in the parallel circuit, and after the current reaches the first preset time after the rated current of the first linear motor 230, the second controller stretches the second linear motor 240, and further drives the telescopic sleeve 120 and the support column 110 to move downwards.

The upper end of the support column 110 is provided with a flexible material such as sponge, rubber, etc.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. The anesthesia care neck support device is characterized by comprising a pillow body, a support assembly, a sealing assembly and an induction assembly;

the upper surface of the pillow body is provided with a matching through hole;

the support assembly is used for supporting the head and neck of a patient and comprises a support column and a telescopic sleeve, the telescopic sleeve is arranged in the pillow body, openings are formed in two ends of the telescopic sleeve, the support column penetrates through the matched through hole, meanwhile, the support column is mounted in an opening in the upper end of the telescopic sleeve in a sealing mode, the support column can slide relative to the inner wall of the telescopic sleeve, and the support column and the telescopic sleeve are vertically arranged;

the sealing assembly is used for sealing the lower end opening of the telescopic sleeve and comprises a sealing block, the sealing block is provided with a first relative position and a second relative position relative to the lower end opening of the telescopic sleeve, when the sealing block is at the first relative position, the lower end opening of the telescopic sleeve is open, the support column can slide in the telescopic sleeve in a telescopic manner, when the sealing block is at the second relative position, the sealing block is in sealing fit with the lower end opening of the telescopic sleeve, and the lower end of the telescopic sleeve is sealed, so that the support column is static relative to the telescopic sleeve;

the plurality of matched through holes, the supporting component and the sealing component are arranged in a matrix manner;

the sensing component can check whether the head and neck of the patient is in contact with the support column or not and enable the plugging block to be switched to a first relative position and a second relative position; after the head and neck of the patient is contacted with the support column, the induction component enables the blocking block to be switched to a second relative position.

2. The anesthesia care neck support device according to claim 1, wherein the sealing assembly further comprises a first plate, wherein the lower parts of all the plugging blocks are fixedly connected to the same first plate, and the first plate can drive the plugging blocks to move up and down by moving up and down, so that the plugging blocks are switched to the first relative position and the second relative position.

3. The anesthesia care neck support device according to claim 2, wherein a sealing chamber is arranged in the pillow body, a telescopic sleeve is arranged in the sealing chamber, and the inner wall of the support column is in sealing sliding fit with the inner wall of the fit through hole;

the sensing assembly comprises a first linear motor, the first linear motor is vertically arranged, the output end of the first linear motor is fixedly connected with the first plate body, the first linear motor stretches out and draws back to drive the first plate body to move up and down, and then the blocking block is driven to be switched to a first relative position and a second relative position.

4. The anesthesia care neck support device according to claim 3, wherein the sealing assembly further comprises a second plate body, the second plate body is arranged in the sealing chamber of the pillow body, the second plate body is in contact with the inner wall of the sealing chamber, all the telescopic sleeves are fixedly connected to the upper surface of the second plate body, the second plate body can move up and down relative to the sealing chamber, and the second plate body moves up and down to drive the telescopic sleeves to move up and down;

the induction assembly further comprises a second linear motor, the second linear motor is vertically arranged, the output end of the second linear motor is fixedly connected with the second plate body, the second linear motor can stretch out and draw back, the second plate body is driven to move up and down through the output end, and when the plugging block is located at a second relative position, the second plate body moves up and down to drive the telescopic sleeve and the supporting column to move up and down;

the first linear motor is fixedly connected with the second plate body.

5. The anesthesia care neck support device according to claim 4, wherein the support column is hollow in its inner structure, and the support column is provided with a vent hole on its inner wall, and initially, the height of the vent hole axis is parallel to the upper surface of the pillow body.

6. The anesthesia care neck support device according to claim 5, wherein the support assembly further comprises a first elastic member, the first elastic member is capable of stretching and rebounding, the first elastic member is arranged in the telescopic sleeve, one end of the first elastic member is connected with the support column, and the other end of the first elastic member is connected with the bottom of the telescopic sleeve.

7. The anesthesia care neck support device according to claim 6, wherein the sensing assembly comprises a pressure sensor and a first controller;

the supporting component and the sealing component are uniformly arranged and are arranged in a matrix;

the pressure sensor is electrically connected with the first controller, and meanwhile, the first controller is electrically connected with the first linear motor, the number of the pressure sensors is the same as that of the supporting columns, the pressure sensors are arranged between the first elastic piece and the bottom of the telescopic sleeve, and the pressure sensors can detect the pressure received by the first elastic piece and convert the pressure into an electric signal to be transmitted to the first controller;

when the pressure is detected by more than two rows of pressure sensors, the first controller controls the first linear motor to be shortened, so that the height of the first plate body is increased, and the first plate body moves to drive the plugging block to move, so that the plugging block is switched to a second relative position.

8. The anesthesia care neck support device according to claim 6, wherein the sensing assembly comprises a resistor and a tact switch;

a tact switch is arranged below each support column, and the support columns descend relative to the telescopic sleeves to enable the tact switches to be closed;

the tact switches below each column of the support columns are arranged in series to form a column series circuit, and a plurality of column series circuits are connected in parallel and then connected in series with the first linear motor; resistors are connected in series in a column series circuit.

9. The anesthesia care neck support device of claim 7 or 8 wherein the sensing assembly further comprises a second controller electrically connected to the second linear motor, the second controller being capable of controlling the second linear motor to retract.

10. The anesthesia care neck support device according to claim 1, wherein the upper end of the support column is provided with a flexible material.