CN114306856A

CN114306856A - Medical anesthesia breathing device

Info

Publication number: CN114306856A
Application number: CN202210032901.3A
Authority: CN
Inventors: 关景朋
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-12
Filing date: 2022-01-12
Publication date: 2022-04-12

Abstract

The invention discloses a medical anesthesia breathing device, which relates to the technical field of medical equipment and comprises an anesthesia machine console, a fixed support frame, an air box, an air guide pipe and a breathing mask, wherein an adjustable support mechanism, an adjusting mechanism, an adsorption component, a driving part and a lifting component are arranged on a shell, the adjustable support mechanism comprises a support table, a first connecting rod, a first sliding block, a second connecting rod, a second sliding block and an angle sensor, two ends of the first connecting rod and the second connecting rod are respectively connected with the support table, the first sliding block and the second sliding block are connected on the shell in a sliding manner, the adjusting mechanism comprises a rotating pipe, a straight rod and an adjustable gear, the straight rod is movably sleeved in the rotating pipe, the adjustable gear is movably sleeved outside the rotating pipe, one end of the straight rod is connected with an ejector block, the ejector block is connected with the first sliding block or the second sliding block in a fitting manner, the other end of the straight rod is connected with the lifting component, the adjustable gear and the lifting assembly are both meshed with the driving part, and the adsorption assembly is in adsorption connection with the adjustable gear.

Description

Medical anesthesia breathing device

Technical Field

The invention relates to the technical field of medical equipment, in particular to a medical anesthesia breathing device.

Background

Modern anaesthesia machines are different in shape and color, a plurality of different functions are developed, the most basic function is the most important function or the auxiliary or controlled breathing, the operating principle of the anaesthesia machine is very complicated in detail, the most core air circuit circulation is the essence of the anaesthesia machine, and the whole breathing process is simply explained through the operating principle of a bellows of the anaesthesia machine.

The classic control mode of anesthesia machine is pneumatic control electronic clinically, and the most obvious sign is exactly the breathing machine bellows, and the bellows in the control breathing just is equivalent to the sacculus, and central oxygen suppliment gets into the anesthesia machine and will be divided into three tributaries: fresh air flow, rapid oxygenation, ventilator air flow; the three parts are independent of each other.

The bellows is installed on the work platform on the anesthesia machine, and work platform generally is connected with the anesthesia machine through bolt or screw, uses a period of time after, and screw or bolt appear becoming flexible easily to cause work platform and bellows to appear squinting, the unable accurate monitoring of bellows after the skew appears goes out the airflow of business turn over bellows, generally all is the levelness of manual regulation work platform this moment, and is more time-consuming and energy-consuming, and the precision is also than lower.

Disclosure of Invention

The invention aims to provide a medical anesthetic breathing apparatus to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions: a medical anesthesia breathing device comprises an anesthesia machine console, a fixed support frame, an air box, an air duct and a breathing mask, wherein the fixed support frame is arranged on the anesthesia machine console, the air box is connected with the breathing mask through the air duct, a shell is arranged on the fixed support frame, an adjustable support mechanism is arranged on the shell, the air box is arranged on the adjustable support mechanism, an adjusting mechanism, an adsorption component, a driving part and a lifting component are also arranged in the shell, the adjustable support mechanism comprises a support table, a first connecting rod, a first sliding block, a second connecting rod, a second sliding block and an angle sensor, one end of the first connecting rod and one end of the second connecting rod are hinged on the support table, the other end of the first connecting rod and the other end of the second connecting rod are respectively hinged with the first sliding block and the second sliding block, the first sliding block and the second sliding block are connected on the side wall of the shell, adjustment mechanism includes rotating tube, straight-bar and regulation formula gear, the straight-bar movable sleeve is established in the rotating tube, the rotating tube is installed in the casing, regulation formula gear movable sleeve is established in the rotating tube outside, the one end of straight-bar is connected with the kicking block, the kicking block is connected with first slider or the laminating of second slider, the other end of straight-bar is connected with lifting unit, regulation formula gear and lifting unit all are connected with the drive division meshing, adsorption component adsorbs with regulation formula gear and is connected.

As a further aspect of the present application: the inside and outside wall of rotating-tube is connected with second spacing groove and the first spacing muscle that extends along the axis direction respectively, be connected with the spacing muscle of second spacing groove sliding connection on the straight-bar, the central point of regulation formula gear puts and has seted up the hole of cup jointing, cup joint the downthehole first spacing groove of offering with first spacing muscle sliding connection, one side that is close to adsorption component on the regulation formula gear is connected with the magnet piece, the drive division includes drive gear and driving motor, driving motor installs at shells inner wall, and driving motor passes through drive shaft connection drive gear, regulation formula gear is connected with the drive motor meshing, and drive gear's thickness value is unanimous with regulation formula gear's thickness value.

As a still further aspect of the present application: the adsorption component comprises an electromagnet, a metal plate, a conductive bar and a control switch, wherein the metal plate is installed on the inner wall of the shell, the electromagnet is installed on the metal plate, the metal plate is connected with an external power supply through the conductive bar, the conductive bar is connected with the control switch, the control switch and the angle sensor are electrically connected with a control device in the anesthesia machine console, and the distance value between the electromagnet and the magnet block is greater than the thickness value of the driving gear or the adjusting gear.

As a still further aspect of the present application: still be provided with reset assembly between regulation formula gear and the rotating tube, reset assembly includes telescopic link, fixed block and a reset spring, the telescopic link is installed on the stopper that the rotating tube lateral wall is connected, the one end of stopper is kept away from on the telescopic link to the fixed block connection, fixed block sliding connection is in the first guide rail that regulation formula gear surface was seted up, it is equipped with a reset spring still to overlap on the telescopic link.

As a still further aspect of the present application: the lifting assembly comprises a threaded pipe, a threaded rod, a transmission gear and a movable plate, the threaded pipe is installed on the inner wall of the shell, the transmission gear is installed on the threaded pipe, the driving gear is meshed with the transmission gear and is connected with the threaded pipe, the threaded rod is connected with the threaded pipe in a threaded pipe, the movable plate is installed at one end, far away from the threaded pipe, of the movable plate, the movable plate is connected to the inner wall of the shell in a sliding mode, one end, far away from the top block, of the straight rod is connected to the movable plate.

As a still further aspect of the present application: first connecting rod and second connecting rod are about the central symmetric distribution of brace table, the central point of brace table puts and still is connected with spherical branch, be provided with on the casing and rotate the spherical groove of being connected with spherical branch, the second guide rail has been seted up to the casing lateral wall, first slider and second slider sliding connection are respectively in the second guide rail, be connected with the guide bar along the axis direction of casing in the second guide rail, first slider and second slider still respectively the movable sleeve establish on the guide bar, and still overlap on the guide bar and be equipped with second reset spring.

As a still further aspect of the present application: the position that is close to the fixed bolster on the casing still is connected with the mounting panel, be connected with on the mounting panel with mounting panel threaded connection's a plurality of bolt, the position of a plurality of bolt corresponds with first connecting rod and second connecting rod respectively.

Compared with the prior art, the beneficial effects of this application are:

the adsorption component is used for adjusting the position of the adjustable gear, the driving part drives the ejector block on the straight rod to rotate by a certain angle through the adjustable gear, the position of the first slider can be rotated to the position of the second slider, the driving part can drive the ejector block to do linear motion through driving the lifting component, and then the second slider is pushed to move to drive the supporting table to rotate by a certain angle, the supporting table stops when the angle monitored by the angle sensor reaches a preset value, the bellows keeps a horizontal state, the function of automatically monitoring and automatically adjusting the angle of the bellows is realized, the bellows can accurately and stably complete gas distribution, the automatic adjusting and high-precision air distribution air box device has the advantages of being automatic in adjusting and high in precision, and the problem that the existing medical anesthesia breathing device cannot automatically adjust the levelness of the bellows is solved.

Drawings

Fig. 1 is a schematic structural diagram of a medical anesthetic breathing apparatus according to an embodiment of the present invention.

FIG. 2 is a schematic structural diagram of the bellows, the housing and the fixed support frame in the embodiment of the invention.

FIG. 3 is an assembly view of the bellows, housing and stationary support bracket of an embodiment of the present invention.

Fig. 4 is a perspective view of a housing in an embodiment of the invention.

Fig. 5 is a perspective view of an adjustable support mechanism according to an embodiment of the present invention.

FIG. 6 is a position distribution diagram of the top block, the first slider, and the second slider in an embodiment of the present invention.

Fig. 7 is a partial enlarged view of a in fig. 2 according to the present invention.

Fig. 8 is a partial enlarged view of b of fig. 2 according to the present invention.

Figure 9 is a perspective view of a regulating gear in an embodiment of the present invention.

Figure 10 is an assembly view of an adjustable gear and reset assembly according to an embodiment of the present invention.

In the figure: 1-anesthesia machine console, 2-fixed support frame, 3-bellows, 4-adjustable support mechanism, 41-support table, 42-spherical support rod, 43-first connecting rod, 44-first sliding block, 45-second connecting rod, 46-second sliding block, 47-angle sensor, 5-adjusting mechanism, 51-rotating tube, 52-straight rod, 53-adjustable gear, 531-socket hole, 532-first limit groove, 533-magnet block, 534-first guide rail, 54-limit block, 55-first limit rib, 56-reset component, 561-telescopic rod, 562-fixed block, 563-first reset spring, 57-second limit rib, 58-top block, 6-shell, 61-mounting plate, 62-bolt, 63-spherical groove, 64-second guide rail, 65-guide rod, 66-second return spring, 7-driving part, 71-driving gear, 72-driving motor, 8-lifting component, 81-threaded pipe, 82-threaded rod, 83-transmission gear, 84-movable plate, 9-adsorption component, 91-electromagnet, 92-metal plate, 93-conductive strip, 94-control switch, 10-air duct and 11-breathing mask.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 to 8, the embodiment provides a medical anesthetic breathing apparatus, including an anesthesia machine console 1, a fixed support frame 2, an air box 3, an air duct 10 and a breathing mask 11, wherein the fixed support frame 2 is installed on the anesthesia machine console 1, the air box 3 is connected to the breathing mask 11 through the air duct 10, a housing 6 is installed on the fixed support frame 2, an adjustable support mechanism 4 is installed on the housing 6, the air box 3 is installed on the adjustable support mechanism 4, an adjusting mechanism 5, an adsorption assembly 9, a driving part 7 and a lifting assembly 8 are further installed in the housing 6, the adjustable support mechanism 4 includes a support table 41, a first connecting rod 43, a first slider 44, a second connecting rod 45, a second slider 46 and an angle sensor 47, one end of the first connecting rod 43 and one end of the second connecting rod 45 are hinged to the support table 41, the other ends of the first connecting rod 43 and the second connecting rod 45 are respectively hinged with the first slider 44 and the second slider 46, the first slider 44 and the second slider 46 are slidably connected to the side wall of the housing 6, the adjusting mechanism 5 comprises a rotating pipe 51, a straight rod 52 and an adjusting gear 53, the straight rod 52 is movably sleeved in the rotating pipe 51, the rotating pipe 51 is installed in the housing 6, the adjusting gear 53 is movably sleeved outside the rotating pipe 51, one end of the straight rod 52 is connected with a top block 58, the top block 58 is connected with the first slider 44 or the second slider 46 in an attaching manner, the other end of the straight rod 52 is connected with a lifting assembly 8, the adjusting gear 53 and the lifting assembly 8 are both connected with the driving part 7 in a meshing manner, the adsorption assembly 9 is connected with the adjusting gear 53 in an adsorbing manner, and the first connecting rod 43 and the second connecting rod 45 are symmetrically distributed about the center of the supporting table 41, the central point of brace table 41 puts and still is connected with spherical branch 42, be provided with on the casing 6 and rotate the spherical groove 63 of being connected with spherical branch 42, the position that is close to the fixed stay frame 2 on the casing 6 still is connected with mounting panel 61, be connected with a plurality of bolt 62 with mounting panel 61 threaded connection on the mounting panel 61, the position of a plurality of bolt 62 corresponds with first connecting rod 43 and second connecting rod 45 respectively.

In the above solution, the number of the first connecting rod 43 and the second connecting rod 45, and the first slider 44 and the second slider 46 in the present solution can be further designed to be three or more, the specific number is determined by the number of the bolts 62, when one of the bolts 62 is loosened, the supporting platform 41 will incline towards the direction corresponding to the bolt 62, at this time, the angle sensor 47 can monitor the angle change of the supporting platform 41 and send the signal to the control device in the anesthesia machine console 1, the control device is composed of a computer system and a signal transceiver, and can automatically calculate according to the signal sent by the angle sensor 47 and send the signal to the adsorption component 9, the driving part 7, the adjusting mechanism 5 and the lifting component 8, the adsorption component 9 is used to adjust the position of the adjusting gear 53, so that the driving part 7 drives the top block 58 on the straight rod 52 to rotate a certain angle through the adjusting gear 53, can follow the position rotation of first slider 44 to the position of second slider 46, drive division 7 can drive kicking block 58 through driving lifting unit 8 and be linear motion, and then drive brace table 41 rotatory certain angle through promoting the motion of second slider 46, stop when angle sensor 47 monitors the angle of brace table 41 and reaches the default, make bellows 3 keep the horizontality, the function of the angle of automatic monitoring and automatic adjustment bellows 3 has been realized, it can accurate and stable completion gas reposition of redundant personnel to have guaranteed bellows 3, possess the characteristics that automatically regulated and accuracy are high, the problem of the levelness that current medical anesthesia breathing apparatus exists unable automatically regulated bellows has been solved.

Referring to fig. 7 and 8, as an embodiment of the present application, the inner and outer walls of the rotating tube 51 are respectively connected with a second limiting groove and a first limiting rib 55 extending along the axial direction, the straight rod 52 is connected with a second limiting rib 57 which is connected with the second limiting groove in a sliding way, the central position of the adjusting gear 53 is provided with a sleeve hole 531, a first limiting groove 532 connected with the first limiting rib 55 in a sliding manner is arranged in the sleeving hole 531, a magnet block 533 is connected to one side of the adjusting gear 53, which is close to the suction assembly 9, the driving part 7 includes a driving gear 71 and a driving motor 72, the driving motor 72 is installed on the inner wall of the housing 6, and the driving motor 72 is connected with the driving gear 71 through a driving shaft, the adjusting gear 53 is in meshed connection with the driving motor 72, and the thickness value of the driving gear 71 is consistent with that of the adjusting gear 53.

In the above solution, the adjustable gear 53 can move linearly along the first limiting rib 55, the straight rod 52 can move linearly along the second limiting groove, and can rotate along with the rotating pipe 51, the number of the gear teeth on the adjusting gear 53 is determined by the number of the bolts 62, the more the number of the bolts 62 is, the more the angle direction of the supporting platform 41 needs to be adjusted is represented, however, in general, the number of the bolts 62 is 3 to 6, which is determined according to the size of the bellows 3, as illustrated in the drawings of the present embodiment, in this case, the number of the bolts 62 is four, and two bolts correspond to each other, and at this time, the angle between the first link 43 and the second link 45 with respect to the center of the support table 41 is 90 degrees, therefore, the angle of one rotation of the driving gear 71 to rotate the adjustable gear 53 should be 90 degrees, this enables the top piece 58 to be adjusted back and forth between the first slider 44 and the second slider 46.

Referring to fig. 7 to 10, as an embodiment of the present application, the absorption assembly 9 includes an electromagnet 91, a metal plate 92, a conductive strip 93 and a control switch 94, the metal plate 92 is installed on the inner wall of the casing 6, the electromagnet 91 is installed on the metal plate 92, the metal plate 92 is connected to an external power source through the conductive strip 93, the conductive strip 93 is connected to the control switch 94, the control switch 94 and the angle sensor 47 are electrically connected to a control device in the anesthesia machine console 1, and a distance value between the electromagnet 91 and the magnet block 533 is greater than a thickness value of the driving gear 71 or the adjusting gear 53.

In the above solution, the control device controls the electromagnet 91 to be powered on or off through the control switch 94, the electromagnet 91 after being powered on can adsorb the magnet block 533 and further drive the adjustable gear 53 to move in the direction away from the driving gear 71, after the magnet block 533 is attached to the surface of the electromagnet 91, the adjustable gear 53 is just separated from the driving gear 71, and at this time, the driving gear 71 no longer drives the adjustable gear 53 to rotate.

Referring to fig. 10, as an embodiment of the present application, a reset assembly 56 is further disposed between the adjustable gear 53 and the rotating tube 51, the reset assembly 56 includes a telescopic rod 561, a fixing block 562 and a first reset spring 563, the telescopic rod 561 is mounted on the limiting block 54 connected to the side wall of the rotating tube 51, the fixing block 562 is connected to one end of the telescopic rod 561, which is far away from the limiting block 54, the fixing block 562 is slidably connected to a first guide rail 534 formed on the surface of the adjustable gear 53, and the telescopic rod 561 is further sleeved with the first reset spring 563.

In the above scheme, after the electromagnet 91 is powered off, the magnet block 533 loses the adsorption force, and the elastic deformation of the first return spring 563 can drive the adjusting gear 53 to move to the position engaged with the driving gear 71.

Referring to fig. 2 and 7, as an embodiment of the present application, the lifting assembly 8 includes a threaded pipe 81, a threaded rod 82, a transmission gear 83, and a movable plate 84, the threaded pipe 81 is installed on an inner wall of the casing 6, the transmission gear 83 is installed on the threaded pipe 81, the driving gear 71 is engaged with the transmission gear 83, the threaded rod 82 is screwed in the threaded pipe 81, the movable plate 84 is installed on one end of the threaded rod 82 far from the threaded pipe 81, the movable plate 84 is slidably connected to the inner wall of the casing 6, and one end of the straight rod 52 far from the top block 58 is connected to the movable plate 84.

In the above scheme, the rotating driving gear 71 drives the threaded pipe 81 through the transmission gear 83, and further drives the threaded rod 82, the movable plate 84 and the straight rod 52 to do linear motion.

Referring to fig. 1 to 5, as an embodiment of the present application, a second guide rail 64 is disposed on a side wall of the housing 6, the first slider 44 and the second slider 46 are respectively slidably connected in the second guide rail 64, a guide rod 65 is connected in the second guide rail 64 along an axial direction of the housing 6, the first slider 44 and the second slider 46 are further respectively movably sleeved on the guide rod 65, and a second return spring 66 is further sleeved on the guide rod 65.

In the above scheme, the guide rod 65 and the second guide rail 6 both play a role in guiding and limiting, so as to prevent the first slider 44 and the second slider 46 from shifting and shaking in the sliding process, and have the characteristic of good stability.

When the wind box supporting device is used, the control device controls the electromagnet 91 to be powered on or powered off through the control switch 94, the electromagnet 91 after being powered on can adsorb the magnet block 533 and further drive the adjustable gear 53 to move towards the direction away from the driving gear 71, after the magnet block 533 is attached to the surface of the electromagnet 91, the adjustable gear 53 is just separated from the driving gear 71, at this time, the driving gear 71 does not drive the adjustable gear 53 to rotate any more, the rotating driving gear 71 drives the threaded pipe 81 through the transmission gear 83, and further drives the threaded rod 82, the movable plate 84 and the straight rod 52 to do linear motion, the driving part 7 can drive the top block 58 to do linear motion through driving the lifting assembly 8, and further drives the supporting table 41 to rotate a certain angle by pushing the second sliding block 46 to move until the angle of the supporting table 41 is monitored by the angle sensor 47 to reach a preset value, so that the wind box 3 is kept in a horizontal state, when the supporting table 41 and the first slider 44 are angularly offset, after the electromagnet 91 is powered off, the magnet block 533 loses the adsorption force, at this time, the elastic deformation of the first return spring 563 can drive the adjustable gear 53 to move to the position meshed with the driving gear 71, the driving gear 71 rotates for one circle to drive the adjustable gear 53 to rotate for 90 degrees, the position of the top block 58 is rotated from the second slider 46 to the position of the first slider 44, the above actions are continuously repeated, and the function of automatically adjusting the position of the top block 58 according to the offset position can be realized.

In summary, the absorption assembly 9 is used to adjust the position of the adjustment gear 53, so that the driving portion 7 can rotate the top block 58 on the straight rod 52 by a certain angle through the adjustment gear 53, and can rotate from the position of the first slider 44 to the position of the second slider 46, the driving portion 7 can drive the top block 58 to move linearly through driving the lifting assembly 8, and then the second slider 46 is pushed to move to drive the supporting platform 41 to rotate for a certain angle until the angle sensor 47 detects that the angle of the supporting platform 41 reaches a preset value, make bellows 3 keep the horizontality, realized the function of automatic monitoring and automatic adjustment bellows 3's angle, guaranteed that bellows 3 can accurate and stable completion gas reposition of redundant personnel, possess characteristics that automatically regulated and accuracy are high, solved current medical anesthesia breathing device and had the problem of the levelness of unable automatic adjustment bellows.

It should be noted that, although the present specification describes embodiments, each embodiment does not include only a single technical solution, and such description of the specification is only for clarity, and those skilled in the art should take the specification as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments understood by those skilled in the art, and the above-mentioned embodiments only express the preferred embodiments of the technical solutions, and the description thereof is more specific and detailed, but should not be construed as limiting the scope of the claims of the technical solutions. It should be noted that, for those skilled in the art, without departing from the concept of the present application, several modifications, improvements and substitutions can be made, which are all within the protection scope of the present technical solution.

Claims

1. A medical anesthesia breathing device comprises an anesthesia machine console (1), a fixed support frame (2), an air box (3), an air duct (10) and a breathing mask (11), the fixed support frame (2) is arranged on the anesthesia machine console (1), the bellows (3) is connected with a breathing mask (11) through an air duct (10), it is characterized in that a shell (6) is arranged on the fixed supporting frame (2), an adjustable supporting mechanism (4) is arranged on the shell (6), the air box (3) is arranged on the adjustable supporting mechanism (4), the shell (6) is also internally provided with an adjusting mechanism (5), an adsorption component (9), a driving part (7) and a lifting component (8), the adjustable gear (53) and the lifting assembly (8) are meshed with the driving part (7), and the adsorption assembly (9) is in adsorption connection with the adjustable gear (53).

2. The medical anesthetic breathing apparatus according to claim 1, wherein the adjustable support mechanism (4) comprises a support table (41), a first connecting rod (43), a first slider (44), a second connecting rod (45), a second slider (46) and an angle sensor (47), one end of each of the first connecting rod (43) and the second connecting rod (45) is hinged to the support table (41), the other end of each of the first connecting rod (43) and the second connecting rod (45) is hinged to the first slider (44) and the second slider (46), the first slider (44) and the second slider (46) are slidably connected to the side wall of the housing (6), the adjustment mechanism (5) comprises a rotating tube (51), a straight rod (52) and an adjustable gear (53), the straight rod (52) is movably sleeved in the rotating tube (51), the rotating tube (51) is installed in the housing (6), the adjustable gear (53) is movably sleeved on the outer side of the rotating pipe (51), one end of the straight rod (52) is connected with an ejector block (58), the ejector block (58) is attached to and connected with the first sliding block (44) or the second sliding block (46), and the other end of the straight rod (52) is connected with the lifting assembly (8).

3. The medical anesthetic breathing apparatus according to claim 2, wherein the inner and outer walls of the rotating tube (51) are respectively connected with a second limiting groove and a first limiting rib (55) extending along the axial direction, the straight rod (52) is connected with a second limiting rib (57) slidably connected with the second limiting groove, the center of the adjusting gear (53) is provided with a sleeve hole (531), the sleeve hole (531) is internally provided with a first limiting groove (532) slidably connected with the first limiting rib (55), one side of the adjusting gear (53) close to the adsorption component (9) is connected with a magnet block (533), the driving part (7) comprises a driving gear (71) and a driving motor (72), the driving motor (72) is installed on the inner wall of the housing (6), and the driving motor (72) is connected with the driving gear (71) through a driving shaft, the adjusting gear (53) is in meshed connection with the driving motor (72), and the thickness value of the driving gear (71) is consistent with that of the adjusting gear (53).

4. The medical anesthetic breathing apparatus according to claim 3, wherein the absorption assembly (9) comprises an electromagnet (91), a metal plate (92), a conductive strip (93) and a control switch (94), the metal plate (92) is installed on the inner wall of the housing (6), the electromagnet (91) is installed on the metal plate (92), the metal plate (92) is connected with an external power source through the conductive strip (93), the conductive strip (93) is connected with the control switch (94), the control switch (94) and the angle sensor (47) are electrically connected with a control device in the anesthetic machine console (1), and the distance value between the electromagnet (91) and the magnet block (533) is greater than the thickness value of the driving gear (71) or the adjusting gear (53).

5. The medical anesthetic breathing apparatus according to claim 4, wherein a reset assembly (56) is further disposed between the adjusting gear (53) and the rotating tube (51), the reset assembly (56) comprises a telescopic rod (561), a fixing block (562) and a first reset spring (563), the telescopic rod (561) is mounted on a limiting block (54) connected to a side wall of the rotating tube (51), the fixing block (562) is connected to one end of the telescopic rod (561) far away from the limiting block (54), the fixing block (562) is slidably connected to a first guide rail (534) formed in the surface of the adjusting gear (53), and the telescopic rod (561) is further sleeved with the first reset spring (563).

6. The medical anesthesia breathing apparatus of claim 5, wherein the lifting assembly (8) comprises a threaded pipe (81), a threaded rod (82), a transmission gear (83) and a movable plate (84), the threaded pipe (81) is installed on the inner wall of the housing (6), the transmission gear (83) is installed on the threaded pipe (81), the driving gear (71) is meshed with the transmission gear (83), the threaded rod (82) is connected in the threaded pipe (81) in a threaded manner, the movable plate (84) is installed on the threaded rod (82) at one end far away from the threaded pipe (81), the movable plate (84) is connected on the inner wall of the housing (6) in a sliding manner, and the straight rod (52) at one end far away from the top block (58) is connected on the movable plate (84).

7. The medical anesthetic breathing apparatus as claimed in claim 6, characterized in that the first link (43) and the second link (45) are symmetrically arranged about a center of the support (41), the center of the supporting platform (41) is also connected with a spherical supporting rod (42), the shell (6) is provided with a spherical groove (63) which is rotationally connected with the spherical supporting rod (42), a second guide rail (64) is arranged on the side wall of the shell (6), the first sliding block (44) and the second sliding block (46) are respectively connected in the second guide rail (64) in a sliding way, a guide rod (65) is connected in the second guide rail (64) along the axial direction of the shell (6), the first sliding block (44) and the second sliding block (46) are further movably sleeved on the guide rod (65) respectively, and the guide rod (65) is further sleeved with a second return spring (66).

8. The medical anesthetic breathing apparatus according to claim 7, wherein a mounting plate (61) is further connected to a position of the housing (6) close to the fixed support frame (2), the mounting plate (61) is connected with a plurality of bolts (62) in threaded connection with the mounting plate (61), and the positions of the plurality of bolts (62) correspond to the first connecting rod (43) and the second connecting rod (45), respectively.